About us
Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipeline valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas. “Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enterprise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world. The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specavtomatika” manufactures the following product range: — — — — — — — — —
sectional ball valves; all-welded ball valves; short pattern flanged ball valves (shortened face-to-face dimension); threaded end ball valves; ball valves with an extended stem; ball valves for application under high pressure for oil and gas working medium; stainless steel ball valves; cast iron and steel gauze filters; connection flanges and fasteners.
“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN10 to DN500 inclusive. Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “GazpromRegiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “BolgarGaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc. In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise. It should be noted that thanks to the coordinated work of professional team on all the stages of production and distribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.
2
We reserve the right to make modification without prior notice.
3
Contents 1. PN16, PN25, PN40 split body MS 01.c ball valve 1.1 Full bore 1.1.1 Flanged ends design • handle operated…………………….………………………….…….…….4 • actuator operated……………………………….………………………….8 1.1.2 Welding ends design • handle operated………………………………….……….…….…………10 • actuator operated……………………………………….…………………12 1.2 Reduced bore 1.2.1 Flanged ends design • handle operated…………………….………………………….………….14 • actuator operated……………………………….…………………………16 1.2.2 Welding ends design • handle operated…………………………………………………….……..18 • actuator operated…………………………………………….……………20 2. PN16, PN25, PN40 handle operated short pattern split body MS 05.c ball valve with flanged ends design • full bore……….…………………………………………………….………22 • reduced bore………………...…………………………………………….24 3. PN16, PN25, PN40 handle operated single body all-welded MS 21.c, MS 21.s ball valve 3.1 Full bore • flanged ends……………………………………………………………….26 • welding ends……………………………………………………………….28 3.2 Reduced bore • flanged ends……………………………………………………………….30 • welding ends……………………………………………………………….32 4. PN16, PN25, PN40 single body all-welded MS 21.c, MS 21.s ball valve 4.1 Actuator operated • flanged ends………………………………………………………………..34 • welding ends……………………………………………………………….36 4.2 Handle operated • lightweight, welding ends………………....……………………………...38 5. PN16, PN25, PN40 single body MS 21/01.c, MS 21/01.s ball valve with extended stem 5.1 Handle operated, full bore • flanged ends……………………………….………………………….……40 • welding ends…………….…………………………………………….…...42 5.2 Handle operated, reduced bore • flanged ends………...……………………………………………………...44 • welding ends………..………………………………………………………46 6. PN63, PN100, PN160 split body MS 01.c ball valve 6.1 Handle operated, full bore • flanged ends………………………………………………………..………48 • welding ends…………………………………………………..……………50 6.2 Actuator operated, full bore • flanged ends……………………………………………………..…………52 • welding ends……………………………………………………..……...…54 7. PN16, PN25 single body MS 01.s cast ball valve made of stainless steel………………………….…….…56 8. PN63, PN100, PN160 split body MS 01.c ball valve with threaded ends design…….……………………….………58 9. PN16, PN25, PN40 single body all-welded MS 01.c ball valve with threaded ends design…....……………………….………60 10. PN16, PN25 cast gauze filter with flanged ends design...............……………………………………….……62
4
We reserve the right to make modification without prior notice.
How to order For the right ordering of a product you require, please note an appropriate product designation structure shown below which we use as a description of our manufactured devices. The designation structure is as follows:
MS XX. x. X . X. XXX. XXX DN nominal bore PN nominal pressure class
Type of control Type of pipeline connection Body material Series Series: 01 — Split body ball valve with welded body 21 — Single body ball valve with all-welded body 60 — Gauze filter Body material: c— Carbon steel s — Stainless steel Type of pipeline connection: 1— Flanged ends 2— Welding ends 4— Threaded ends Type of control: 1— Handle 2— Gear actuator 3— Pneumatic actuator 4— Hydraulic actuator
5
Ball valves
Full bore
MS 01.c.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than...........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................flanged ends Control means.............................................................handle Face-to-face dimension..............................................according to EN 558-1 Flanges connection....................................................according to EN1092-1 Ball valve manufacturing...........................................according to EN 1983 Pressure tests.............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA
14
Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
4 9 3
DESIGN
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
7
11
14
6
5
2
13
1
10 8
15
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
6
12
16
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code MS 01.c.1.1.016.010 MS 01.c.1.1.016.015 MS 01.c.1.1.016.020 MS 01.c.1.1.016.025 MS 01.c.1.1.016.032 MS 01.c.1.1.016.040 MS 01.c.1.1.016.050 MS 01.c.1.1.016.065 MS 01.c.1.1.016.080 MS 01.c.1.1.016.100 MS 01.c.1.1.016.125 MS 01.c.1.1.016.150 MS 01.c.1.1.016.200
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100 125 150 200
130 130 150 160 180 200 230 290 310 350 400 480 600
90 95 105 115 140 150 165 185 200 220 250 285 340
60 65 75 85 100 110 125 145 160 180 210 240 295
DN
L
D
MS 01.c.1.1.025.010
10 15 20 25 32 40 50 65 80 100 125 150 200
130 130 150 160 180 200 230 290 310 350 400 480 600
MS 01.c.1.1.025.015 MS 01.c.1.1.025.020 MS 01.c.1.1.025.025 MS 01.c.1.1.025.032 MS 01.c.1.1.025.040 MS 01.c.1.1.025.050 MS 01.c.1.1.025.065 MS 01.c.1.1.025.080 MS 01.c.1.1.025.100 MS 01.c.1.1.025.125 MS 01.c.1.1.025.150 MS 01.c.1.1.025.200
DN 10 15 20 25 32 40 50 65 80 100 125 150
kg
L1
H
Dmin
d
B
n
Weight
Kv
40 45 58 68 78 88 102 122 138 158 188 212 268
189 189 189 189 226.5 281.5 312 312 382 602 602 602 1098
96.5 96.5 99.5 105 131 141 155 167 184 167 183 201 239
9 12.5 17 24 30 37 48 64 75 98 123 148 195
14 14 14 14 18 18 18 18 18 18 18 22 22
219 219 221 221 263.5 318.5 359 369 443 681 691 704 1227
4 4 4 4 4 4 4 8 8 8 8 8 12
2.2 2.25 3.1 4.4 5.6 7.6 10.4 14.8 16.5 25 39.2 48 79
6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024 2720
D1
D2
L1
H
Dmin
d
B
n
Weight
Kv
90 95 105 115 140 150 165 185 200 235 270 300 360
60 65 75 85 100 110 125 145 160 190 220 250 310
40 45 58 68 78 88 102 122 138 162 188 218 278
189 189 189 189 226.5 281.5 312 312 382 602 602 602 1098
96.5 96.5 99.5 105 131 141 155 167 184 167 183 201 239
9 12.5 17 24 30 37 48 64 75 98 123 148 195
14 14 14 14 18 18 18 18 18 22 26 26 26
219 219 221 221 263.5 318.5 360 370 447 685 699 710 1233
4 4 4 4 4 4 4 8 8 8 8 8 12
2.2 2.25 3.1 4.4 5.6 7.6 11.4 16.5 18.3 29 47.5 68 96
6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024 2720
L
D
D1
D2
L1
H
Dmin
d
B
n
Weight
Kv
130 130 150 160 180 200 230 290 310 350 400 480
90 95 105 115 140 150 165 185 200 235 270 300
60 65 75 85 100 110 125 145 160 190 220 250
40 45 58 68 78 88 102 122 138 162 188 218
189 189 189 189 226.5 282 312 312 421.5 602 602 602
96.5 96.5 99.5 106 131 141 155 163 155.5 179 192 213
9 12.5 17 24 30 37 48 64 75 98 123 148
14 14 14 14 18 18 18 18 18 22 26 26
219 219 221 221 263.5 319 360 370 486.5 685 699 710
4 4 4 4 4 4 4 8 8 8 8 8
2.2 2.25 3.1 4.4 5.6 7.6 11.4 16.5 18.3 29 47.5 81
6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024
PN 25 Code
mm
mm
kg
MS 01.c.1.1
DIMENSIONS & WEIGHT
PN 40 mm
Code MS 01.c.1.1.040.010 MS 01.c.1.1.040.015 MS 01.c.1.1.040.020 MS 01.c.1.1.040.025 MS 01.c.1.1.040.032 MS 01.c.1.1.040.040 MS 01.c.1.1.040.050 MS 01.c.1.1.040.065 MS 01.c.1.1.040.080 MS 01.c.1.1.040.100 MS 01.c.1.1.040.125 MS 01.c.1.1.040.150
kg
7
Ball valves
Full bore
MS 01.c.1.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than...........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................flanged ends Control means.............................................................actuator handwheel Face-to-face dimension..............................................according to EN 558-1 Flanges connection....................................................according to EN1092-1 Ball valve manufacturing...........................................according to EN 1983 Pressure tests.............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
16 9 4
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027 (ISO82008) C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Retaining washer Washer
6
5
14 15
7 10
2
1
13
8
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
8
11
3
DESIGN
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
mm
kg
DN
L
D
D1
D2
H
B
Dmin
d
n
MS 01.c.1.3.016.200
200
600
340
295
268
503
600
195
22
12
89
2720
MS 01.c.1.3.016.250
250
730
405
355
320
537
730
245
26
12
175
12750
MS 01.c.1.3.016.300
300
850
460
410
378
668
850
294
26
12
385
19550
MS 01.c.1.3.016.400
400
1100
580
525
490
893
1211
385
30
16
1200
31620
MS 01.c.1.3.016.500
500
1250
715
650
610
1087
1250
487
33
20
1520
50150
DN
L
D
D1
D2
H
B
Dmin
d
n
Weight
MS 01.c.1.3.025.200
200
600
360
310
278
503
600
195
26
12
112
2720
MS 01.c.1.3.025.250
250
730
425
370
335
537
730
245
30
12
195
12750
MS 01.c.1.3.025.300
300
850
485
430
395
669
850
294
30
16
405
19550
MS 01.c.1.3.025.400
400
1100
620
550
505
893
1100
385
36
16
1360
31620
MS 01.c.1.3.025.500
500
1250
730
660
615
1087
1250
487
36
20
1820
50150
DN
L
D
D1
D2
H
B
Dmin
d
n
Weight
Kv
MS 01.c.1.3.040.150
150
480
300
250
218
463.5
480
148
26
8
68
2024
MS 01.c.1.3.040.200
200
600
375
320
285
526
603
195
30
12
125
2720
MS 01.c.1.3.040.250
250
730
450
385
345
537
730
245
33
12
255
12750
MS 01.c.1.3.040.300
300
850
515
450
410
669
610
294
33
16
605
19550
MS 01.c.1.3.040.400
400
1100
660
585
535
893
1211
385
39
16
1560
31620
MS 01.c.1.3.040.500
500
1250
755
670
615
1087
1250
487
42
20
2120
50150
PN 25 Code
PN 40 Code
mm
mm
Weight
kg
kg
Kv
Kv
MS 01.c.1.3
DIMENSIONS & WEIGHT
9
Ball valves
Full bore
MS 01.c.2.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................welding ends Control means.............................................................handle End-to-end dimension................................................according to EN 12982 Welding ends..............................................................according to EN12627 Ball valve manufacturing...........................................according to EN 1983 Pressure tests............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA
15
Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
13 17 5 10 4
DESIGN
10
12
9
2
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
P265GH 1.0425 P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN14221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027(ISO82008) C10E 1.1121 (ISO7089)
Body Ends connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
8
7
6
3
14 1
11
15
16
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16
kg
mm
Code MS 01.c.2.1.016.010 MS 01.c.2.1.016.015 MS 01.c.2.1.016.020 MS 01.c.2.1.016.025 MS 01.c.2.1.016.032 MS 01.c.2.1.016.040 MS 01.c.2.1.016.050 MS 01.c.2.1.016.065 MS 01.c.2.1.016.080 MS 01.c.2.1.016.100 MS 01.c.2.1.016.125 MS 01.c.2.1.016.150 MS 01.c.2.1.016.200
DN
L
D
A
T
L1
10 15 20 25 32 40 50 65 80 100 125 150 200
130 140 152 165 178 190 216 241 283 305 381 457 521
17.2 21.3 26.9 33.7 42.4 51 60.3 76.1 88.9 114.3 139.7 168.3 219.1
90 95 105 115 135 145 158 180 189 230 260 310 395
2.9 3.2 4 4.5 5 5 5 5.6 6.3 7.1 8 8 8
189 189 189 189 226.5 282 312 312 382 602 602 602 1098
DN
L
D
A
10 15 20 25 32 40 50 65 80 100 125 150 200
130 140 152 165 178 190 216 241 283 305 381 457 521
17.2 21.3 26.9 33.7 42.4 51 60.3 76.1 88.9 114.3 139.7 168.3 219.1
90 95 105 115 135 145 158 180 189 230 260 310 395
DN
L
D
A
10 15 20 25 32 40 50 65 80 100 125 150
130 140 152 165 178 190 216 241 283 305 381 457
17.2 21.3 26.9 33.7 42.4 51 60.3 76.1 88.9 114.3 139.7 219.1
90 95 105 115 135 145 158 180 189 230 260 310
H 96.5 97 100 106 131 141 155 167 184 167 183 201 239
Dmin 9 12.5 17 24 30 37 48 64 75 98 123 148 195
Weight 1.65 1.8 2.25 3.15 4.7 6.25 8.5 13 13.4 20.7 28.2 40.1 80.1
Kv 6 16.3 29.5 43 80 230 265 540 873 1390 1707 2024 2720
PN 25 Code MS 01.c.2.1.025.010 MS 01.c.2.1.025.015 MS 01.c.2.1.025.020 MS 01.c.2.1.025.025 MS 01.c.2.1.025.032 MS 01.c.2.1.025.040 MS 01.c.2.1.025.050 MS 01.c.2.1.025.065 MS 01.c.2.1.025.080 MS 01.c.2.1.025.100 MS 01.c.2.1.025.125 MS 01.c.2.1.025.150 MS 01.c.2.1.025.200
PN 40 Code MS 01.c.2.1.040.010 MS 01.c.2.1.040.015 MS 01.c.2.1.040.020 MS 01.c.2.1.040.025 MS 01.c.2.1.040.032 MS 01.c.2.1.040.040 MS 01.c.2.1.040.050 MS 01.c.2.1.040.065 MS 01.c.2.1.040.080 MS 01.c.2.1.040.100 MS 01.c.2.1.040.125 MS 01.c.2.1.040.150
mm
T
L1
2.9 3.2 4 4.5 5 5 5 6.3 6.3 7.1 8 8.8 8.8
189 189 189 189 226.5 282 312 312 382 602 602 602 1098
mm
T
L1
2.9 3.6 4 4.5 5 5.6 5.6 6.3 7.1 8 8.8 10
189 189 189 189 226.5 282 312 312 421.5 602 602 602
H 96.5 97 100 106 131 141 155 167 184 167 183 201 239
H 96.5 97 100 105 131 141 155 163 155.5 175 197 201
Dmin 9 12.5 17 24 30 37 48 64 75 98 123 148 195
Dmin 9 12.5 17 24 30 37 48 64 75 98 123 148
kg
Weight 1.65 1.8 2.25 3.15 4.7 6.25 8.5 13 13.4 20.7 28.2 40.1 80.1
kg
Kv 6 16.3 29.5 43 80 230 265 540 873 1390 1707 2024 2720
Weight
Kv
2.65 3.4 4.25 5.15 6.7 8.25 10.5 16 19.4 28.7 36.2 57
6 16.3 29.5 43 80 230 265 540 873 1390 1707 2024
MS 01.c.2.1
DIMENSIONS & WEIGHT
11
Ball valves
Full bore
MS 01.c.2.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................welding ends Control means.............................................................actuator handwheel End-to-end dimension................................................according to EN 12982 Welding ends...............................................................according to EN12627 Ball valve manufacturing............................................according to EN 1983 Pressure tests.............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA
13
Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
17 10 5 9
15 16
2
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
P265GH 1.0425 P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN14221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027(ISO82008) C10E 1.1121 (ISO7089)
Body Ends connection Ball Stem Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Retaining washer Washer
6
8
7
3
1 14
11
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
12
12
4
DESIGN
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
mm
L
D
A
MS 01.c.2.3.016.200
200
521
219.1
395
8
503
195
98
2720
MS 01.c.2.3.016.250
250
559
273
475
10
537
245
190
12750
MS 01.c.2.3.016.300
300
635
323.9
558
12
668
294
394
19550
MS 01.c.2.3.016.400
400
838
406.4
753
14
893
385
950
31620
MS 01.c.2.3.016.500
500
991
508
931
16
1087
487
1310
50150
DN
L
D
A
200 250 300 400 500
521 559 635 838 991
219.1 273 323.9 406.4 508
395 475 558 753 931
DN
L
D
A
MS 01.c.2.3.040.150
150
457
168.3
310
8
463.5
148
148
MS 01.c.2.3.040.200
200
521
219.1
395
10
503
195
195
2720
MS 01.c.2.3.040.250
250
559
273
475
12.5
537
245
245
12750
MS 01.c.2.3.040.300
300
635
323.9
558
14
668
294
294
19550
MS 01.c.2.3.040.400
400
838
406.4
753
16
893
385
385
31620
MS 01.c.2.3.040.500
500
991
508
931
20
1087
487
487
50150
PN 25 Code MS 01.c.2.3.025.200 MS 01.c.2.3.025.250 MS 01.c.2.3.025.300 MS 01.c.2.3.025.400 MS 01.c.2.3.025.500
PN 40 Code
mm
T
T 8.8 10 12 14 17.5
mm
T
H
H 503 537 668 893 1087
H
Dmin
kg
DN
Dmin 195 245 294 385 487
Dmin
Weight
kg
Weight 98 190 394 950 1360
kg
Weight
Kv
Kv 2720 12750 19550 31620 50150
Kv 2024
MS 01.c.2.3
DIMENSIONS & WEIGHT
13
Ball valves
Reduced bore
MS 01.c.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................flanged ends Control means.............................................................handle Face-to-face dimension..............................................according to EN 558-1 Flanges connection....................................................according to EN1092-1 Ball valve manufacturing...........................................according to EN 1983 Pressure tests.............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA
14
Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
16 4 9 3
7
DESIGN
14
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
11
14
6
5
2
13
1
10 8
15
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 mm
Code
DN
L
D
D1
D2
L1
H
MS 01.c.1.1.016.065/050
065/050
290
185
145
122
312
155
MS 01.c.1.1.016.100/080
100/080
350
220
180
158
382
MS 01.c.1.1.016.125/100
125/100
400
250
210
188
MS 01.c.1.1.016.150/100
150/100
480
285
240
MS 01.c.1.1.016.200/150
200/150
600
340
MS 01.c.1.1.016.250/200
250/200
730
Code
DN
MS 01.c.1.1.025.065/050
Dmin
kg
d
B
n
Weight
Kv
48
18
360
8
14
160
184
75
18
445
8
19
510
602
168.5
98
18
681
8
34
590
212
602
168.5
98
22
693
8
41
680
295
268
602
201
148
22
706
12
61
1830
405
355
320
1098
239
195
26
1230
12
95
3655
L
D
D1
D2
Dmin
d
B
n
Weight
065/050
290
185
145
MS 01.c.1.1.025.100/080
100/080
350
235
MS 01.c.1.1.025.125/100
125/100
400
MS 01.c.1.1.025.150/100
150/100
MS 01.c.1.1.025.200/150
PN 25 mm
kg
L1
H
Kv
122
314
155
48
18
362
8
14.5
160
190
162
382
184
75
22
449
8
21
510
270
220
188
602
167
98
26
687
8
39
590
480
300
250
218
602
167
98
26
689
8
51
680
200/150
600
360
310
278
602
201
148
26
712
12
81
1830
Code
DN
L
D
D1
D2
L1
H
Dmin
d
B
n
Weight
MS 01.c.1.1.040.065/050
065/050
290
185
145
122
314
155
48
18
362
8
14.5
160
MS 01.c.1.1.040.100/080
100/080
350
235
190
162
382
155.5
75
22
488.5
8
21
510
MS 01.c.1.1.040.125/100
125/100
400
270
220
188
602
179
98
26
687
8
39
590
MS 01.c.1.1.040.150/100
150/100
480
300
250
218
602
175
98
26
689
8
51
680
PN 40 mm
kg
MS 01.c.1.1
DIMENSIONS & WEIGHT
Kv
15
Ball valves
Reduced bore
MS 01.c.1.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................flanged ends Control means.............................................................actuator handwheel Face-to-face dimension..............................................according to EN 558-1 Flanges connection....................................................according to EN1092-1 Ball valve manufacturing...........................................according to EN 1983 Pressure tests............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
16 9 4
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027 (ISO82008) C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Retaining washer Washer
6
5
14 15
7 10
2
1
13
8
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
16
11
3
DESIGN
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16
mm
Code
DN
L
D
D1
D2
H
B
MS 01.c.1.3.016.250/200
250/200
730
405
355
320
503
MS 01.c.1.3.016.300/250
300/250
850
460
410
378
MS 01.c.1.3.016.350/300
350/300
980
520
470
438
L
D
D1
kg
Dmin
d
n
Weight
Kv
730
195
26
12
120
3655
537
850
245
26
12
275
6420
668
980
294
26
12
385
11900
D2
H
B
Dmin
d
n
Weight
Kv
PN 25
kg
mm
Code
DN
MS 01.c.1.3.025.250/200
250/200
730
425
370
335
503
600
195
30
12
132
3655
MS 01.c.1.3.025.300/250
300/250
850
485
430
378
537
730
245
30
16
295
6420
MS 01.c.1.3.025.350/300
350/300
980
555
490
450
668
850
294
30
16
405
11900
L
D
D1
D2
H
B
Dmin
d
n
Weight
Kv
PN 40
mm
kg
Code
DN
MS 01.c.1.3.040.250/200
200/150
600
375
320
285
463.5
600
148
30
12
116
1830
MS 01.c.1.3.040.300/250
250/200
730
450
385
345
503
730
195
33
12
152
3655
MS 01.c.1.3.040.350/300
300/250
850
515
450
410
545
850
245
33
16
325
6420
MS 01.c.1.3.040.350/300
350/300
980
580
510
465
668
960
294
36
16
455
11900
MS 01.c.1.3
DIMENSIONS & WEIGHT
17
Ball valves
Reduced bore
MS 01.c.2.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................welding ends Control means.............................................................handle End-to-end dimension................................................according to EN 12982 Welding ends..............................................................according to EN12627 Ball valve manufacturing...........................................according to EN 1983 Pressure tests............................................................according to EN 12266-1
DESIGNATION AND APPLICATION AREA
15
Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
13 17 5 10 4
8
DESIGN
18
12
9
2
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
P265GH 1.0425 P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN14221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027(ISO82008) C10E 1.1121 (ISO7089)
Body Ends connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
7
6
3
14 1
11
15
16
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Reduced bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
A
mm
kg
T
L1
H
Dmin
Weight
Kv
MS 01.c.2.1.016.065/050
065/050
241
76.1
158
5.6
312
155
48
10
160
MS 01.c.2.1.016.100/080
100/080
305
114.3
189
7.1
382
187
75
16
510
MS 01.c.2.1.016.125/100
125/100
381
139.7
250
8
602
168.5
98
25
590
MS 01.c.2.1.016.150/100
150/100
457
168.3
250
8
602
168.5
98
31
680
MS 01.c.2.1.016.200/150
200/150
521
219.1
310
8
602
201
148
56
1830
MS 01.c.2.1.016.250/200
250/200
559
273
395
8.8
1098
239
195
95
3655
L
D
A
T
L1
H
Dmin
Weight
76.1 114.3 139.7 168.3 219.1
158 189 250 250 310
5.6 7.1 8 8 8
312 382 602 602 602
155 187 168.5 168.5 201
48 75 98 98 148
10 16 25 31 56
D
A
L1
H
Dmin
Weight
PN 25 Code MS 01.c.2.1.025.065/050 MS 01.c.2.1.025.100/080 MS 01.c.2.1.025.125/100 MS 01.c.2.1.025.150/100 MS 01.c.2.1.025.200/150
DN 065/050 100/080 125/100 150/100 200/150
241 305 381 457 521
mm
kg
Kv 160 510 590 680 1830
PN 40 Code
DN
L
mm
T
kg
Kv
MS 01.c.2.1.040.065/050
065/050
241
76.1
158
6.3
312
154
48
14
160
MS 01.c.2.1.040.100/080
100/080
305
114.3
189
8
421.5
155.5
75
22
510
MS 01.c.2.1.040.125/100
125/100
381
139.7
270
8.8
602
175
98
29.5
590
MS 01.c.2.1.040.150/100
150/100
457
168.3
270
8.8
602
175
98
41
680
MS 01.c.2.1.040.200/150
200/150
521
219.1
310
10
602
215
148
67
1830
MS 01.c.2.1
DIMENSIONS & WEIGHT
19
Ball valves
Reduced bore
MS 01.c.2.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........................16 bar, 25 bar, 40 bar Working medium temperature...................................from – 29°C to +180°C Working medium.........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than – 29°C Quantity of work cycles..............................................not less than 5000 Full lifetime..................................................................not less than 30 years Pipeline connection....................................................welding ends Control means.............................................................actuator handwheel End-to-end dimension................................................according to EN 12982 Flanges connection....................................................according to EN12627 Ball valve manufacturing...........................................according to EN 1983 Pressure tests.............................................................according to EN 12266-1 DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
13
17 10 5 9
15 16
2
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
P265GH 1.0425 P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN14221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO4034) DIN17221 60Si7 1.5027(ISO82008) C10E 1.1121 (ISO7089)
Body Ends connection Ball Stem Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Retaining washer Washer
6
8
7
3
1 14
11
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Split body ball valve. Reduced bore. Welding ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
20
12
4
DESIGN
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
A
MS 01.c.2.3.016.250/200
250/200
559
273
MS 01.c.2.3.016.300/250
300/250
635
MS 01.c.2.3.016.350/300
350/300
mm
kg
T
H
Dmin
Weight
Kv
395
8.8
559
195
215
3655
323.9
475
12
635
245
235
6420
762
355.6
558
14
660
394
380
11900
DN
L
D
A
T
H
Dmin
Weight
Kv
MS 01.c.2.3.025.250/200
250/200
559
273
395
10
503
195
217
3655
MS 01.c.2.3.025.300/250
300/250
635
323.9
475
12
537
245
238
6420
MS 01.c.2.3.025.350/300
350/300
762
355.6
558
14
660
394
389
11900
DN
L
D
A
T
H
Dmin
Weight
Kv
MS 01.c.2.3.040.200/150
200/150
521
219.1
310
10
453.5
148
85
1830
MS 01.c.2.3.040.250/200
250/200
559
273
395
12.5
503
195
238
3655
MS 01.c.2.3.040.300/250
300/250
635
323.9
475
16
537
245
285
6420
MS 01.c.2.3.040.350/300
350/300
762
355.6
558
16
660
394
410
11900
PN 25 Code
mm
kg
PN 40 Code
mm
kg
MS 01.c.2.3
DIMENSIONS & WEIGHT
21
Ball valves
Full bore
MS 01.c.1/01.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......16 bar, 25 bar, 40 bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature....................... not less than – 29°C Quantity of work cycles............................not less than 5000 Full lifetime................................................not less than 30 years Pipeline connection..................................flanged ends Control means...........................................handle Flanges connection..................................according to EN 1092-1 Testing and inspection.............................according to ISO 5208
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body short pattern ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
22
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO 4034) C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code MS 01.c.1/01.1.016.010 MS 01.c.1/01.1.016.015 MS 01.c.1/01.1.016.020 MS 01.c.1/01.1.016.025 MS 01.c.1/01.1.016.032 MS 01.c.1/01.1.016.040 MS 01.c.1/01.1.016.050 MS 01.c.1/01.1.016.065 MS 01.c.1/01.1.016.080 MS 01.c.1/01.1.016.100 MS 01.c.1/01.1.016.125 MS 01.c.1/01.1.016.150 MS 01.c.1/01.1.016.200
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100 125 150 200
60 60 64 64 72 76 94 109 120 173 184 188 266
90 95 105 115 140 150 165 185 200 246 285 310 395
60 65 75 85 100 110 125 145 160 180 210 240 295
40 45 58 68 78 88 102 122 138 158 188 212 268
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100 125 150 200
60 60 64 64 72 76 96 113 127 181 196 200 278
90 95 105 115 140 150 165 185 200 246 285 310 395
60 65 75 85 100 110 125 145 160 190 220 250 310
40 45 58 68 78 88 102 122 138 162 188 218 278
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100 125 150 200
60 60 64 66 78 88 98 115 132 166 190 216 258
90 95 105 115 140 150 165 185 200 246 285 310 395
60 65 75 85 100 110 125 145 160 190 220 250 320
40 45 58 68 78 88 102 122 138 162 188 218 285
mm
L1
H
B
189 189 189 189 227 282 312 312 370 602 602 602 1098
97 97 100 105.5 135 141 154 170 185 166.5 184 201 239
219 219 221 221 263 319.5 358 366.5 430 688.5 694 696 1231
L1
H
B
189 189 189 189 227 282 312 312 370 602 602 602 1098
97 97 100 105 135 141 154 170 185 169 184 201 239
219 219 221 221 263 320 359 368.5 434 693 700 702 1237
L1
H
B
189 189 189 189 227 282 312 289 422 602 602 602 1108
97 97 100 105 137 139 120 161 156 179 197 215 299
219 219 221 222 266 326 367 347 488 685 697 710 1227
Dmin
d
n
9 12.5 17 24 30 37 47 62 74 98 119 142 190
14 14 14 14 18 18 18 18 18 18 18 22 22
4 4 4 4 4 4 4 8 8 8 8 8 12
Dmin
d
n
9 12.5 17 24 30 37 47 62 74 98 119 142 190
14 14 14 14 18 18 18 18 18 22 26 26 26
4 4 4 4 4 4 4 8 8 8 8 8 12
Dmin
d
n
9 12.5 17 24 30 37 47 62 74 98 119 142 190
14 14 14 14 18 18 18 18 18 22 26 26 30
4 4 4 4 4 4 4 8 8 8 8 8 12
kg
Weight 1.5 1.7 2.1 3.3 4.3 5 8.4 9.3 11 17.1 28.9 36.8 70.6
Kv 6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024 2720
PN 25 Code MS 01.c.1/01.1.025.010 MS 01.c.1/01.1.025.015 MS 01.c.1/01.1.025.020 MS 01.c.1/01.1.025.025 MS 01.c.1/01.1.025.032 MS 01.c.1/01.1.025.040 MS 01.c.1/01.1.025.050 MS 01.c.1/01.1.025.065 MS 01.c.1/01.1.025.080 MS 01.c.1/01.1.025.100 MS 01.c.1/01.1.025.125 MS 01.c.1/01.1.025.150 MS 01.c.1/01.1.025.200
mm
kg
Weight 1.6 1.7 2.3 3.3 4.4 5.2 7.6 9.2 12.8 22.6 31 37 75.4
Kv 6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024 2720
PN 40 Code MS 01.c.1/01.1.040.010 MS 01.c.1/01.1.040.015 MS 01.c.1/01.1.040.020 MS 01.c.1/01.1.040.025 MS 01.c.1/01.1.040.032 MS 01.c.1/01.1.040.040 MS 01.c.1/01.1.040.050 MS 01.c.1/01.1.040.065 MS 01.c.1/01.1.040.080 MS 01.c.1/01.1.040.100 MS 01.c.1/01.1.040.125 MS 01.c.1/01.1.040.150 MS 01.c.1/01.1.040.200
mm
kg
Weight 2.5 2.5 3 3.5 5.6 6.9 9.6 13.3 17.2 26.8 33.9 35 73.4
Kv 6 16.3 29.5 43 89 230 265 540 873 1390 1707 2024 2720
MS 01.c.1/01.1
DIMENSIONS & WEIGHT
23
Ball valves
Reduced bore
MS 01.c.1/01.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......16 bar, 25 bar, 40 bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature....................... not less than – 29°C Quantity of work cycles............................not less than 5000 Full lifetime................................................not less than 30 years Pipeline connection..................................flanged ends Control means...........................................handle Flanges connection..................................according to EN 1092-1 Testing and inspection.............................according to ISO 5208
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body short pattern ball valve. Reduced bore. Flanged ends design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
24
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
P265GH 1.0425 X12CrNiTi18-9 1.4878 X20Cr13 1.4021 C22E 1.1151 PTFE C22E 1.1151 DIN17221 60Si7 1.5027 PTFE PTFE Rubber PTFE S235JR 1.0037 C35E 1.1181 5 Zn (ISO 4034) C10E 1.1121 (ISO7089)
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
D1
D2
MS 01.c.1/01.1.016.065/050
65/50
96
185
145
MS 01.c.1/01.1.016.100/080
100/80
124
246
MS 01.c.1/01.1.016.125/100
125/100
158
MS 01.c.1/01.1.016.150/100
150/100
MS 01.c.1/01.1.016.200/150
mm
kg
L1
H
B
Dmin
d
n
Weight
Kv
122
312
166
359,5
47
18
8
9.1
390
180
158
312
178
372
74
18
8
13.5
750
285
210
188
602
169
681
98
18
8
23.1
860
162
310
240
212
590
190
671
98
22
8
26.9
1020
200/150
208
395
295
268
590
222
694
142
22
12
44
1830
DN
L
D
D1
D2
L1
H
B
Dmin
d
n
Weight
Kv
MS 01.c.1/01.1.025.065/050
65/50
100
185
145
122
312
166
360
47
18
8
9
390
MS 01.c.1/01.1.025.100/080
100/80
132
246
190
162
312
177,5
377
74
22
8
15.6
750
MS 01.c.1/01.1.025.125/100
125/100
170
285
220
188
602
169
687
98
26
8
25.6
860
MS 01.c.1/01.1.025.150/100
150/100
174
310
250
212
590
190
677
98
26
8
26.8
1020
MS 01.c.1/01.1.025.200/150
200/150
220
395
310
278
590
222
700
142
26
12
45.1
1830
DN
L
D
D1
D2
L1
H
B
Dmin
d
n
Weight
Kv
MS 01.c.1/01.1.040.065/050
65/50
106
185
145
122
289
149
342
47
18
8
12.4
390
MS 01.c.1/01.1.040.100/080
100/80
136
246
190
162
422
155
490
74
22
8
22.7
750
MS 01.c.1/01.1.040.125/100
125/100
170
285
220
188
602
179
687
98
26
8
24.7
860
MS 01.c.1/01.1.040.150/100
150/100
174
310
250
218
602
179
679
98
26
8
31.7
1020
MS 01.c.1/01.1.040.200/150
200/150
228
395
320
285
602
215
716
142
30
12
43.2
1830
PN 25 mm
Code
PN 40 Code
kg
mm
kg
MS 01.c.1/01.1
DIMENSIONS & WEIGHT
25
Ball valves
Full bore
MS 21.c.1.1 MS 21.s.1.1
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium.............MS 21.c.1.1 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.1.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................flanged ends Control means........................................handle Face-to-face dimension.........................according to EN 558-1 Flanges connection................................according to EN 1092-1 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983
11 12
13
4 8 3
DESIGN
5
MATERIALS LIST № part name
26
10
9
7
material MS21.c.1.1
material MS 21.s.1.1
1
Body
2
Ball
3
Stem
4
Press-on bush
5
Ball seat
PTFE
PTFE
6
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
7
Spring washer
60Si7
X39Cr13 1.4031
8
Stem seat
PTFE
PTFE
Rubber
Rubber
PTFE
PTFE
9
Gasket ring
10
Ring
11
Handle
12
Nut
13
Washer
2
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
C22E 1.1151
X12CrNiTi18-9 1.4878
GP240GH1.0619
GP240GH 1.0619
5 Zn (ISO 4034)
1
6
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
Single body all-welded ball valve. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MS21.c.1.1 – made of carbon steel. MS21.s.1.1 – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C20E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.016.010 21.s.1.1.016.010 21.c.1.1.016.015 21.s.1.1.016.015 21.c.1.1.016.020 21.s.1.1.016.020 21.c.1.1.016.025 21.s.1.1.016.025 21.c.1.1.016.032 21.s.1.1.016.032 21.c.1.1.016.040 21.s.1.1.016.040 21.c.1.1.016.050 21.s.1.1.016.050 21.c.1.1.016.065 21.s.1.1.016.065 21.c.1.1.016.080 21.s.1.1.016.080 21.c.1.1.016.100 21.s.1.1.016.100 21.c.1.1.016.125 21.s.1.1.016.125 21.c.1.1.016.150 21.s.1.1.016.150 21.c.1.1.016.200 21.s.1.1.016.200
DN
L
D
D1
D2
10
130
90
60
15
130
95
20
150
25
160
32
mm
Dmin
d
n
kg
L1
B
H
Weight
40
161
276
92
9
14
4
1.75
Kv 6
65
45
161
226
92
12.5
14
4
1.85
16.3
105
75
58
161
236
96
17
14
4
3.11
29.3
115
85
68
161
243
101
24
14
4
4.12
43
180
140
100
78
174
264
117
30
18
4
5.89
89
40
200
150
110
88
282
382
138
37
18
4
6.81
230
50
230
165
125
102
311
426
153
48
18
4
9.42
265
65
290
185
145
122
289
434
164
64
18
8
11.68
540
80
310
200
160
138
381
536
184
75
18
8
15.95
873
100
350
220
180
158
602
777
176
98
18
8
33.32
1390
125
400
250
210
188
602
803
188
123
18
8
33.34
1707
150
480
285
240
212
602
842
208
148
22
8
45.6
2024
200
600
340
295
268
1100
1398
254
195
22
12
79
2720
DN
L
D
D1
D2
L1
B
H
Dmin
d
n
10
130
90
60
40
161
226
92
9
14
4
1.75
6
15
130
95
65
45
161
226
92
12.5
14
4
1.85
16.3
20
150
105
75
58
161
236
96
17
14
4
3.11
29.5
25
160
115
85
68
161
243
100
24
14
4
4.12
43
32
180
140
100
78
174
264
115
30
18
4
5.89
89
40
200
150
110
88
282
382
138
37
18
4
6.81
230
50
230
165
125
102
311
426
147
48
18
4
9.82
265
65
290
185
145
122
289
434
165
64
18
8
12.53
540
80
310
200
160
138
381
536
180
75
18
8
17.86
873
100
350
235
190
162
602
777
179
98
22
8
37.0
1390
125
400
270
220
188
602
802
188
123
26
8
42.24
1707
150
480
300
250
218
602
842
208
148
26
8
56.2
2024
200
600
360
310
278
1100
1398
258
195
26
12
89.3
2720
DN
L
D
D1
D2
L1
B
H
Dmin
d
n
10
130
90
60
40
161
227
92
9
14
4
1.75
6
15
130
95
65
45
161
227
92
12.5
14
4
1.85
16.3
20
150
105
75
58
161
238
96
17
14
4
3.11
29.5
25
160
115
85
68
161
243
101
24
14
4
4.12
43
32
180
140
100
78
174
264
117
30
18
4
5.89
89
40
200
150
110
88
282
382
141.5
37
18
4
6.81
230
50
230
165
125
102
311
426
153
48
18
4
9.82
265
65
290
185
145
122
286
431
164
64
18
8
12.53
540
80
310
200
160
138
391
546
176
75
18
8
17.86
873
100
350
235
190
162
602
777
190
98
22
8
37.0
1390
125
400
270
220
188
602
803
88
123
26
8
42.24
1707
150
480
300
250
218
602
842
208
148
26
8
56.2
2024
PN 25 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.025.010 21.s.1.1.025.010 21.c.1.1.025.015 21.s.1.1.025.015 21.c.1.1.025.020 21.s.1.1.025.020 21.c.1.1.025.025 21.s.1.1.025.025 21.c.1.1.025.032 21.s.1.1.025.032 21.c.1.1.025.040 21.s.1.1.025.040 21.c.1.1.025.050 21.s.1.1.025.050 21.c.1.1.025.065 21.s.1.1.025.065 21.c.1.1.025.080 21.s.1.1.025.080 21.c.1.1.025.100 21.s.1.1.025.100 21.c.1.1.025.125 21.s.1.1.025.125 21.c.1.1.025.150 21.s.1.1.025.150 21.c.1.1.025.200 21.s.1.1.025.200
mm
kg
Weight
Kv
PN 40 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.040.015 21.s.1.1.040.015 21.c.1.1.040.015 21.s.1.1.040.015 21.c.1.1.040.020 21.s.1.1.040.020 21.c.1.1.040.025 21.s.1.1.040.025 21.c.1.1.040.032 21.s.1.1.040.032 21.c.1.1.040.040 21.s.1.1.040.040 21.c.1.1.040.050 21.s.1.1.040.050 21.c.1.1.040.065 21.s.1.1.040.065 21.c.1.1.040.080 21.s.1.1.040.080 21.c.1.1.040.100 21.s.1.1.040.100 21.c.1.1.040.125 21.s.1.1.040.125 21.c.1.1.040.150 21.s.1.1.040.150
Note: MS 21.c.1.1 - carbon steel ball valve design MS 21.s.1.1 - stainless steel ball valve design
mm
kg
Weight
Kv
MS 21.c.1.1 MS 21.s.1.1
DIMENSIONS & WEIGHT
27
Ball valves
Full bore
MS 21.c.2.1 MS 21.s.2.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium..............MS 21.c.2.1 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.2.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................welding ends Control means........................................handle End-to-end dimension...........................according to EN 12982 Welding ends..........................................according to EN 12627 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983
Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12 13
5 9
DESIGN
4
Single body all-welded ball valve. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MS21.c.2.1 – made of carbon steel. MS21.s.2.1 – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
28
1 2 3 4 5
Body Ball Ends connection Stem Press-on bush
6
Ball seat
7 8 9 10 11 12
Seat ring Spring washer Stem seat Gasket ring Ring Handle
13
Nut
14
Washer
14
7
10
3
11
8
2
material MS21.c.2.1
material MS 21.s.2.1
P265TR1 1.0258 GX5CrNi19-10 1.4308 P265TR1 1.0258 X20Cr13 1.4021 C22E 1.1151
X6CrNiTi18-10 1.4541 Gx5CrNiTi19-10 1.4308 X6CrNiTi18-10 1.4541 X12CrNiTi18-9 1.4878 X12CrNiTi18-9 1.4878
PTFE
PTFE
St37-2 1.0037 60Si7 PTFE Rubber PTFE GP240GH1.0619
X12CrNiTi18-9 1.4878 X39Cr13 1.4031 PTFE Rubber PTFE GP240GH 1.0619
5 Zn (ISO 4034)
1
6
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
DESIGNATION AND APPLICATION AREA
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C20E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.2.1.016.010 21.s.2.1.016.010 21.c.2.1.016.015 21.s.2.1.016.015 21.c.2.1.016.020 21.s.2.1.016.020 21.c.2.1.016.025 21.s.2.1.016.025 21.c.2.1.016.032 21.s.2.1.016.032 21.c.2.1.016.040 21.s.2.1.016.040 21.c.2.1.016.050 21.s.2.1.016.050 21.c.2.1.016.065 21.s.2.1.016.065 21.c.2.1.016.080 21.s.2.1.016.080 21.c.2.1.016.100 21.s.2.1.016.100 21.c.2.1.016.125 21.s.2.1.016.125 21.c.2.1.016.150 21.s.2.1.016.150 21.c.2.1.016.200 21.s.2.1.016.200
DN
L
D
A
10
140
17.2
15
140
21.3
20
152
25
165
32
H
42.4
161
92
9
0.9
6
42.4
161
90
12.5
0.95
16.3
26.9
51
161
96
17
1.54
29.5
33.7
60.3
161
101
24
2.12
43
178
42.4
73
174
117
30
3.2
89
40
190
51
82.5
282.5
144
37
3.65
230
50
216
60.3
101.6
311
155
48
5.67
265
65
241
76.1
127
289
164
64
8.18
540
80
283
88.9
139.7
381
184
75
8.9
873
100
305
114.3
177.8
602
176
98
15.5
1390
125
381
139.7
219.1
602
190
123
22.1
1707
150
457
168.3
244.5
602
208
148
29.4
2024
200
521
219
325
1100
234.5
195
72
2720
DN
L
D
A
L1
H
MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.2.1.025.010 21.s.2.1.025.010 21.c.2.1.025.015 21.s.2.1.025.015 21.c.2.1.025.020 21.s.2.1.025.020 21.c.2.1.025.025 21.s.2.1.025.025 21.c.2.1.025.032 21.s.2.1.025.032 21.c.2.1.025.040 21.s.2.1.025.040 21.c.2.1.025.050 21.s.2.1.025.050 21.c.2.1.025.065 21.s.2.1.025.065 21.c.2.1.025.080 21.s.2.1.025.080 21.c.2.1.025.100 21.s.2.1.025.100 21.c.2.1.025.125 21.s.2.1.025.125 21.c.2.1.025.150 21.s.2.1.025.150 21.c.2.1.025.200 21.s.2.1.025.200
10
140
21.3
42.4
161
92
9
0.9
6
15
140
21.3
42.4
161
90
12.5
0.95
16.3
20
152
26.9
51
161
96
17
1.54
29.5
25
165
33.7
60.3
161
100
24
2.12
43
32
178
42.4
73
174
118
30
3.2
89
40
190
51
82.5
282.5
144
37
3.65
230
50
216
60.3
101.6
311
149
48
5.67
265
65
241
76.1
127
289
167
64
8.18
540
80
283
88.9
139.7
381
182
75
8.9
873
100
305
114.3
177.8
602
167
98
15.5
1390
125
381
139.7
219.1
602
192
123
22.1
1707
150
457
168.3
244.5
602
208
148
29.4
2024
200
521
219.1
272
1100
234.5
195
72
2720
DN
L
D
A
L1
H
15
140
21.3
42.4
161
92
9
0.95
16.3
15
140
21.3
42.4
161
92
12.5
0.95
16.3
20
152
26.9
51
161
96
17
1.54
29.5
25
165
33.7
60.3
161
101
24
2.12
43
32
178
42.4
73
174
117
30
3.2
89
40
190
51
82.5
282.5
144
37
3.65
230
50
216
60.3
101.6
311
149
48
5.67
265
65
241
76.1
127
289
167
64
8.18
540
80
283
88.9
139.7
382
182
75
8.9
873
100
305
114.3
177.8
602
176
98
15.5
1390
125
381
139.7
219.1
602
190
123
22.1
1707
150
457
168.3
244.5
602
208
148
29.4
2024
PN 40 Code MS 21.c.2.1.040.015 MS 21.s.2.1.040.015 MS 21.c.2.1.040.015 MS 21.s.2.1.040.015 MS 21.c.2.1.040.020 MS 21.s.2.1.040.020 MS 21.c.2.1.040.025 MS 21.s.2.1.040.025 MS 21.c.2.1.040.032 MS 21.s.2.1.040.032 MS 21.c.2.1.040.040 MS 21.s.2.1.040.040 MS 21.c.2.1.040.050 MS 21.s.2.1.040.050 MS 21.c.2.1.040.065 MS 21.s.2.1.040.065 MS 21.c.2.1.040.080 MS 21.s.2.1.040.080 MS 21.c.2.1.040.100 MS 21.s.2.1.040.100 MS 21.c.2.1.040.125 MS 21.s.2.1.040.125 MS 21.c.2.1.040.150 MS 21.s.2.1.040.150
Note: MS 21.c.2.1 - carbon steel ball valve design MS 21.s.2.1 - stainless steel ball valve design
mm
mm
Dmin
kg
L1
PN 25 Code
mm
Dmin
Dmin
Weight
kg
Weight
kg
Weight
Kv
Kv
Kv
MS 21.c.2.1 MS 21.s.2.1
DIMENSIONS & WEIGHT
29
Ball valves
Reduced bore
MS 21.c.1.1 MS 21.s.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium.............MS 21.c.1.1 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.1.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................flanged ends Control means........................................handle Face-to-face dimension.........................according to EN 558-1 Flanges connection................................according to EN 1092-1 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983 DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
13 4 8 3
DESIGN Single body all-welded ball valve. Reduced bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21.c.1.1 – made of carbon steel. MS21.s.1.1 – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
10
6
material MS21.c.1.1
5
2
material MS 21.s.1.1
1
Body
2
Ball
3
Stem
4
Press-on bush
5
Ball seat
PTFE
PTFE
6
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
7
Spring washer
60Si7
X39Cr13 1.4031
8
Stem seat
PTFE
PTFE
Rubber
Rubber
PTFE
PTFE
9
Gasket ring
10
Ring
11
Handle
12
Nut
13
Washer
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
C22E 1.1151
X12CrNiTi18-9 1.4878
GP240GH1.0619
GP240GH 1.0619
5 Zn (ISO 4034)
1
9
7
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
30
11
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C20E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.016.020/015 21.s.1.1.016.020/015 21.c.1.1.016.025/020 21.s.1.1.016.025/020 21.c.1.1.016.032/025 21.s.1.1.016.032/025 21.c.1.1.016.040/032 21.s.1.1.016.040/032 21.c.1.1.016.050/040 21.s.1.1.016.050/040 21.c.1.1.016.065/050 21.s.1.1.016.065/050 21.c.1.1.016.080/065 21.s.1.1.016.080/065 21.c.1.1.016.100/080 21.s.1.1.016.100/080 21.c.1.1.016.125/100 21.s.1.1.016.125/100 21.c.1.1.016.150/125 21.s.1.1.016.150/125 21.c.1.1.016.200/150 21.s.1.1.016.200/150 21.c.1.1.016.250/200 21.s.1.1.016.250/200
mm
DN
L
D
D1
D2
020/015
150
105
75
58
025/020
160
115
85
032/025
180
140
040/032
200
050/040
Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.025.020/015 21.s.1.1.025.020/015 21.c.1.1.025.025/020 21.s.1.1.025.025/020 21.c.1.1.025.032/025 21.s.1.1.025.032/025 21.c.1.1.025.040/032 21.s.1.1.025.040/032 21.c.1.1.025.050/040 21.s.1.1.025.050/040 21.c.1.1.025.065/050 21.s.1.1.025.065/050 21.c.1.1.025.080/065 21.s.1.1.025.080/065 21.c.1.1.025.100/080 21.s.1.1.025.100/080 21.c.1.1.025.125/100 21.s.1.1.025.125/100 21.c.1.1.025.150/125 21.s.1.1.025.150/125 21.c.1.1.025.200/150 21.s.1.1.025.200/150 21.c.1.1.025.250/200 21.s.1.1.025.250/200
H
Dmin
d
n
Weight
Kv
189
264
92
12.5
14
4
2.5
10
68
189
269
95
17
14
4
3.3
21
100
78
189
279
104
24
18
4
4.7
32
150
110
88
281
381.5
135
30
18
4
5.45
60
230
165
125
102
281.5
396.5
140
37
18
4
7.54
150
065/050
290
185
145
122
261.5
426.5
147
48
18
8
9.34
160
080/065
310
200
160
138
289
444
166
64
18
8
12.76
380
100/080
350
220
180
158
421.5
596.5
157
75
18
8
26.65
510
125/100
400
250
210
188
602
802
177
98
18
8
27.0
590
150/125
480
285
240
212
602
842
191.5
123
22
8
36.5
680
200/150
600
340
295
268
602
902
207
148
22
12
62.3
1830
250/200
730
405
355
320
1100
1465
234.5
195
26
12
86.5
3655
DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
Kv
020/015
150
105
75
58
189
264
92
12.5
14
4
2.5
10
025/020
160
115
85
68
189
269
95
17
14
4
3.3
21
032/025
180
140
100
78
189
279
101
24
18
4
4.7
32
040/032
200
150
110
88
281.5
381.5
119
30
18
4
5.45
60
050/040
230
165
125
102
281.5
396.5
140
37
18
4
7.86
150
065/050
290
185
145
122
289
426.5
147
48
18
8
10.0
160
080/065
310
200
160
138
289
414
166
64
18
8
14.3
380
100/080
350
235
190
162
421
596.5
157
75
22
8
29.6
510
125/100
400
270
220
188
602
802
177
98
26
8
3.8
590
150/125
480
300
250
218
602
842
190
123
26
8
45.0
680
200/150
600
360
310
278
602
902
209
140
26
12
75
1830
250/200
730
425
370
335
1100
1465
258
195
30
12
93.6
3655
DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
Kv
020/015
150
105
75
58
189
264
92
12.5
14
4
2.5
10
025/020
160
115
85
68
189
269
95
17
14
4
3.3
21
032/025
180
140
100
78
189
279
101
24
18
4
4.7
32
040/032
200
150
110
88
281.5
381.5
135
30
18
4
5.45
60
050/040
230
165
125
102
281.5
396.5
140
37
18
4
7.86
150
065/050
290
185
145
122
281.5
426.5
147
48
18
8
10.0
160
080/065
310
200
160
138
380.5
444
166
64
18
8
14.3
380
100/080
350
235
190
162
421
546.5
157
75
22
8
29.6
510
125/100
400
270
220
188
602
802
177
98
26
8
3.8
590
150/125
480
300
250
218
602
842
190
123
26
8
45.0
680
200/150
600
375
320
285
602
902
209.5
148
30
12
75
1830
mm
PN 40 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.1.1.040.020/015 21.s.1.1.040.020/015 21.c.1.1.040.025/020 21.s.1.1.040.025/020 21.c.1.1.040.032/040 21.s.1.1.040.032/040 21.c.1.1.040.040/032 21.s.1.1.040.040/032 21.c.1.1.040.050/040 21.s.1.1.040.050/040 21.c.1.1.040.065/050 21.s.1.1.040.065/050 21.c.1.1.040.080/065 21.s.1.1.040.080/065 21.c.1.1.040.100/080 21.s.1.1.040.100/080 21.c.1.1.040.125/100 21.s.1.1.040.125/100 21.c.1.1.040.150/125 21.s.1.1.040.150/125 21.c.1.1.040.200/150 21.s.1.1.040.200/150
kg
B
PN 25
L1
L1
kg
mm
Note: MS 21.c - carbon steel ball valve design MS 21.s - stainless steel ball valve design
L1
kg
MS 21.c.1.1 MS 21.s.1.1
DIMENSIONS & WEIGHT
31
Ball valves
Reduced bore
MS 21.c.2.1 MS 21.s.2.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium..............MS 21.c.2.1 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.2.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................welding ends Control means........................................handle End-to-end dimension...........................according to EN 12982 Welding ends..........................................according to EN 12627 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983
DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Single body all-welded ball valve. Reduced bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21.c.2.1 – made of carbon steel. MS21.s.2.1 – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
32
1 2 3 4 5
Body Ball Ends connection Stem Press-on bush
6
Ball seat
7 8 9 10 11 12
Seat ring Spring washer Stem seat Gasket ring Ring Handle
13
Nut
14
Washer
material MS21.c.2.1
material MS 21.s.2.1
P265TR1 1.0258 GX5CrNi19-10 1.4308 P265TR1 1.0258 X20Cr13 1.4021 C22E 1.1151
X6CrNiTi18-10 1.4541 Gx5CrNiTi19-10 1.4308 X6CrNiTi18-10 1.4541 X12CrNiTi18-9 1.4878 X12CrNiTi18-9 1.4878
PTFE
PTFE
St37-2 1.0037 60Si7 PTFE Rubber PTFE GP240GH1.0619
X12CrNiTi18-9 1.4878 X39Cr13 1.4031 PTFE Rubber PTFE GP240GH 1.0619
5 Zn (ISO 4034)
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C20E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.2.1.016.020/015 21.s.2.1.016.020/015 21.c.2.1.016.025/020 21.s.2.1.016.025/020 21.c.2.1.016.032/025 21.s.2.1.016.032/025 21.c.2.1.016.040/032 21.s.2.1.016.040/032 21.c.2.1.016.050/040 21.s.2.1.016.050/040 21.c.2.1.016.065/050 21.s.2.1.016.065/050 21.c.2.1.016.080/065 21.s.2.1.016.080/065 21.c.2.1.016.100/080 21.s.2.1.016.100/080 21.c.2.1.016.125/100 21.s.2.1.016.125/100 21.c.2.1.016.150/125 21.s.2.1.016.150/125 21.c.2.1.016.200/150 21.s.2.1.016.200/150 21.c.2.1.016.250/200 21.s.2.1.016.250/200
DN
L
D
A
20/15
152
26.9
25/20
165
32/25
mm
Dmin
kg
L1
H
Weight
42.4
189
92
12.5
1.23
Kv 10
33.7
51
189
95
17
1.7
21
178
42.4
60.3
189
101
24
2.56
32
40/32
190
51
73
281.5
135
30
2.9
60
50/40
216
60.3
82.5
281.5
140
37
4.54
150
65/50
241
76.1
101.6
281.5
147
48
6.54
160
80/65
283
88.9
127
289
186
64
7.12
380
100/80
305
114.3
139.7
421.5
157
75
12.0
510
125/100
381
138.7
177.8
602
177
98
17.68
590
150/125
457
168.3
219.1
602
191.5
123
23.5
680
200/150
521
219.1
244.5
602
209.5
148
36.5
1830
250/200
559
273
325
1100
258
195
79
3655
DN
L
D
A
L1
H
20/15
152
26.9
42.4
189
92
12.5
1.23
10
25/20
165
33.7
51
189
95
17
1.7
21
32/25
178
42.4
60.3
189
101
24
2.56
32
40/32
190
51
73
281.5
135
30
2.9
60
50/40
216
60.3
82.5
281.5
140
37
4.54
150
65/50
241
76.1
101.6
281.5
147
48
6.54
160
80/65
283
88.9
127
289
186
64
7.3
380
100/80
305
114.3
139.7
421.5
166
75
12.56
510
125/100
381
138.7
177.8
602
177
98
17.68
590
150/125
457
168.3
219.1
602
191.5
123
26.0
680
200/150
521
219.1
244.5
602
209.5
148
38
1830
250/200
559
273
325
1100
258
195
80.5
3655
DN
L
D
A
L1
H
20/15
152
26.9
42.4
189
92
12.5
1.23
10
25/20
165
33.7
51
189
95
17
1.7
21
32/25
178
42.4
60.3
189
101
24
2.56
32
40/32
190
51
73
281.5
135
30
2.9
60
50/40
216
60.3
82.5
281.5
140
37
4.7
150
65/50
241
76.1
101.6
281.5
147
48
7.0
160
80/65
283
88.9
127
289
166
64
7.4
380
100/80
305
114.3
139.7
421.5
157
75
13.2
510
125/100
381
138.7
177.8
602
177
98
18.3
590
150/125
457
168.3
219.1
602
191.5
123
26.0
680
200/150
521
219.1
244.5
602
209.5
148
63
1830
PN 25 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.2.1.025.020/015 21.s.2.1.025.020/015 21.c.2.1.025.025/020 21.s.2.1.025.025/020 21.c.2.1.025.032/025 21.s.2.1.025.032/025 21.c.2.1.025.040/032 21.s.2.1.025.040/032 21.c.2.1.025.050/040 21.s.2.1.025.050/040 21.c.2.1.025.065/050 21.s.2.1.025.065/050 21.c.2.1.025.080/065 21.s.2.1.025.080/065 21.c.2.1.025.100/080 21.s.2.1.025.100/080 21.c.2.1.025.125/100 21.s.2.1.025.125/100 21.c.2.1.025.150/125 21.s.2.1.025.150/125 21.c.2.1.025.200/150 21.s.2.1.025.200/150 21.c.2.1.025.250/200 21.s.2.1.025.250/200
mm
Dmin
kg
Weight
Kv
PN 40 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21.c.2.1.040.020/015 21.s.2.1.040.020/015 21.c.2.1.040.025/020 21.s.2.1.040.025/020 21.c.2.1.040.032/025 21.s.2.1.040.032/025 21.c.2.1.040.040/032 21.s.2.1.040.040/032 21.c.2.1.040.050/040 21.s.2.1.040.050/040 21.c.2.1.040.065/050 21.s.2.1.040.065/050 21.c.2.1.040.080/065 21.s.2.1.040.080/065 21.c.2.1.040.100/080 21.s.2.1.040.100/080 21.c.2.1.040.125/100 21.s.2.1.040.125/100 21.c.2.1.040.150/125 21.s.2.1.040.150/125 21.c.2.1.040.200/150 21.s.2.1.040.200/150
Note: MS 21.c.2.1 - carbon steel ball valve design MS 21.s.2.1 - stainless steel ball valve design
mm
Dmin
kg
Weight
Kv
MS 21.c.2.1 MS 21.s.2.1
DIMENSIONS & WEIGHT
33
Ball valves MS 21.c.1.3 MS 21.s.1.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium.............MS 21.c.1.3 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.1.3 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................flanged ends Control means........................................actuator handwheel Face-to-face dimension.........................according to EN 558-1 Flanges connection................................according to EN 1092-1 Pressure tests.........................................according to EN 12266-1 Ball valve manufactured.......................according to EN 1983 DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Single body all-welded ball valve. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MS21.c.1.3 – made of carbon steel. MS21.s.1.3 – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
1 2 3 4 5 6 7 8 9 10 11 12 13 14
34
Body Ball Flange Stem Gasket ring Ball seat Seat ring Spring washer Gasket ring Ring Handwheel Bolt Nut Washer
material MS21.c.1.3
material MS 21.s.1.3
P265TR1 1.0258 X6CrNiTi18-10 1.4541 GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.4308 P265TR1 1.0258 X6CrNiTi18-10 1.4541 X20Cr13 1.4021 X12CrNiTi18-9 1.4878 Rubber Rubber PTFE PTFE St37-2 1.0037 X12CrNiTi18-9 1.4878 60Si7 X39Cr13 1.4031 Rubber Rubber PTFE PTFE S235JR 1.0037 5 Zn (ISO 4034) A2 (ISO 4034) 60 Si7 1.5027 (ISO 82008) x39Cr13 1.4031 (ISO 82008) 5.3 Zn (ISO 4017) A2 (ISO 4017)
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
D1
D2
MS 21.c.1.3.016.200 MS 21.s.1.3.016.200
200
600
340
295
MS 21.c.1.3.016.250/200 MS 21.s.1.3.016.250/200
250/200
730
405
355
MS 21.c.1.3.016.250 MS 21.s.1.3.016.250
250
730
405
Code
DN
L
MS 21.c.1.3.025.200 MS 21.s.1.3.025.200
200
MS 21.c.1.3.025.250/200 MS 21.s.1.3.025.250/200 MS 21.c.1.3.025.250 MS 21.s.1.3.025.250
mm
kg
B
H
Dmin
d
n
Weight
Kv
268
580
503
195
22
12
89.3
2720
320
647
503
195
26
12
101
3655
355
320
647
620
245
26
12
136.6
12750
D
D1
D2
B
H
Dmin
d
n
Weight
600
360
310
278
580
503
195
26
12
89.3
2720
250/200
730
425
370
335
647
503
195
30
12
101
3655
250
730
425
370
335
647
620
245
30
12
136.6
12750
DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
MS 21.c.1.3.040.150 MS 21.s.1.3.040.150
150
480
300
250
218
520
463
148
26
8
56.2
2024
MS 21.c.1.3.040.200/150 MS 21.s.1.3.040.200/150
200/150
600
375
320
285
580
463
148
30
12
87
1830
PN 25 mm
kg
Kv
PN 40 Code
mm
kg
Kv
MS 21.c.1.3.040.200 MS 21.s.1.3.040.200
200
600
375
320
285
647
503
195
30
12
99.5
2720
MS 21.c.1.3.040.250/200 MS 21.s.1.3.040.250/200
250/200
730
450
385
345
647
503
195
33
12
108
3655
MS 21.c.1.3.040.250 MS 21.s.1.3.040.250
250
730
450
385
345
647
620
245
33
12
155.4
12750
Note: MS 21.c.1.3 - carbon steel ball valve design MS 21.s.1.3 - stainless steel ball valve design
B
D2
D
H
n/d
L
D1
MS 21.c.1.3 MS 21.s.1.3
DIMENSIONS & WEIGHT
35
Ball valves MS 21.c.2.3 MS 21.s.2.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium.............MS 21.c.2.3 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21.s.2.3 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................welding ends Control means........................................actuator handwheel End-to-end dimension...........................according to EN 12982 Welding ends..........................................according to EN 126871 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983 DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Single body all-welded ball valve. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MS21.c.2.3 – made of carbon steel. MS21.s.2.3 – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
1 2 3 4 5 6 7 8 9 10 11 12 13 14
36
Body Ball Ends connection Stem Gasket ring Ball seat Seat ring Spring washer Gasket ring Ring Handwheel Bolt Nut Washer
material MS21.c.2.3
material MS 21.s.2.3
P265TR1 1.0258 X6CrNiTi18-10 1.4541 GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.4308 P265TR1 1.0258 X6CrNiTi18-10 1.4541 X20Cr13 1.4021 X12CrNiTi18-9 1.4878 Rubber Rubber PTFE PTFE St37-2 1.0037 X12CrNiTi18-9 1.4878 60Si7 X39Cr13 1.4031 Rubber Rubber PTFE PTFE S235JR 1.0037 5 Zn (ISO 4034) A2 (ISO 4034) 60 Si7 1.5027 (ISO 82008) x39Cr13 1.4031 (ISO 82008) 5.3 Zn (ISO 4017) A2 (ISO 4017)
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
A
MS 21.c.2.3.016.200 MS 21.s.2.3.016.200
200
521
219.1
323.9
MS 21.c.2.3.016.250/200 MS 21.s.2.3.016.250/200
250/200
559
273
MS 21.c.2.3.016.250 MS 21.s.2.3.016.250
250
559
273
DN
L
D
A
MS 21.c.2.3.025.200 MS 21.s.2.3.025.200
200
521
219.1
323.9
MS 21.c.2.3.025.250/200 MS 21.s.2.3.025.250/200
250/200
559
273
MS 21.c.2.3.025.250 MS 21.s.2.3.025.250
250
559
273
DN
L
D
A
MS 21.c.2.3.040.150 MS 21.s.2.3.040.150
150
457
168.3
MS 21.c.2.3.040.200/150 MS 21.s.2.3.040.200/150
200/150
521
MS 21.c.2.3.040.200 MS 21.s.2.3.040.200
200
MS 21.c.2.3.040.250/200 MS 21.s.2.3.040.250/200 MS 21.c.2.3.040.250 MS 21.s.2.3.040.250
mm
Dmin
kg
T
H
Weight
8
503
195
323.9
8
503
195
95
3655
406.4
8.8
620
245
100.6
12750
T
H
Dmin
Weight
8.8
503
195
323.9
10
503
195
102
3655
406.4
8.8
620
245
104.3
12750
T
H
244.5
8.8
463
148
48
2024
219.1
244.5
8.8
463
148
75
1830
521
219.1
323.9
10
503
195
81.3
2720
250/200
559
273
323.9
10
503
195
96
3655
250
559
273
406.4
12.5
620
245
109.4
12750
83.3
Kv 2720
PN 25 Code
mm
kg
73.4
Kv 2720
PN 40 Code
mm
Note: MS 21.c.2.3 - carbon steel ball valve design MS 21.s.2.3 - stainless steel ball valve design
A
D
H
T
B
L
Dmin
kg
Weight
Kv
MS 21.c.2.3 MS 21.s.2.3
DIMENSIONS & WEIGHT
37
Ball valves
Lightweight
MS 21/02.c.2.1
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium.....................................water, gas, oil products and other nontoxic and non-aggressive medium, neutral for ball valve components Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime..............................................not less than 30 years Pipeline connection.................................welding ends Control means..........................................handle Welding ends............................................according to EN 12627 End-to-end dimension.............................according to EN 12982 Pressure tests...........................................according to EN 12266-1 Ball valve manufacturing.......................according to EN 1983
Lightweight all-welded ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Lightweight single body all-welded ball valve. Reduced bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21/02.c.2.1 – made of carbon steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
38
material
1 2 3 4 5
Body Ball Ends connection Stem Press-on bush
P265TR1 1.0258 GX5CrNi19-10 1.4308 P265TR1 1.0258 X20Cr13 1.4021 C22E 1.1151
6
Ball seat
PTFE
7 8 9 10 11 12 13 14
Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
St37-2 1.0037 60Si7 PTFE Rubber PTFE GP240GH1.0619 5 Zn (ISO 4034) C206 1.1121 (ISO 7089)
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code MS21/02.c.2.1.016.015 MS21/02.c.2.1.016.020/015 MS21/02.c.2.1.016.025/020 MS21/02.c.2.1.016.032/025 MS21/02.c.2.1.016.040/032 MS21/02.c.2.1.016.050/040 MS21/02.c.2.1.016.065/050 MS21/02.c.2.1.016.080/065 MS21/02.c.2.1.016.100/080 MS21/02.c.2.1.016.125/100 MS21/02.c.2.1.016.150/125 MS21/02.c.2.1.016.200/150 MS21/02.c.2.1.016.250/200
mm
DN
L
L1
B
H
Dmin
d1
T
A
15 20/15 25/20 32/25 40/32 50/40 65/50 80/65 100/80 125/100 150/125 200/150 250/200
230 230 230 260 260 300 360 370 390 390 390 390 630
161 189 189 189 281.5 281.5 281.5 289 421.5 602 602 602 1100
231 265 271.5 278 371.5 389.5 402 430.5 574 792.5 830.5 862.5 1379.5
92 92 95 101 135 140 147 186 167 177 191.5 209.5 258
12.5 12.5 17 24 30 37 48 64 75 98 123 148 195
21.3 26.9 33.7 42.4 51 60.3 76.1 88.9 114.3 139.7 168.3 219.1 273
2 2.9 3.2 3.2 3.2 3.2 3.2 4 4 4 5 10 12
DN
L
L1
B
H
Dmin
d1
T
15 20/15 25/20 32/25 40/32 50/40 65/50 80/65 100/80 125/100 150/125 200/150 250/200
230 230 230 260 260 300 360 370 390 390 390 390 630
161 189 189 189 281.5 281.5 281.5 289 421.5 602 602 602 1100
231 265 271.5 278 371.5 389.5 402 430.5 574 792.5 830.5 862.5 1379.5
92 92 95 101 135 140 147 186 167 177 191.5 209.5 258
12.5 12.5 17 24 30 37 48 64 75 98 123 148 195
21.3 26.9 33.7 42.4 51 60.3 76.1 88.9 114.3 139.7 168.3 219.1 273
2 2.9 3.2 3.2 3.2 3.2 3.2 4 4 4 5 10 12
DN
L
L1
B
H
Dmin
d1
T
A
15 20/15 25/20 32/25 40/32 50/40
230 230 230 260 260 300
161 189 189 189 281.5 281.5
231 265 271.5 278 371.5 389.5
92 92 95 101 135 140
12.5 12.5 17 24 30 37
21.3 26.9 33.7 42.4 51 60.3
2 2.9 3.2 3.2 3.2 3.2
38 42.9 44.5 54 63.5 73
38 42.4 44.5 54 63.5 73 101.6 127 133 177.8 219.1 244.5 273
kg
Weight
Kv
0.85 1.02 1.15 1.62 2.15 3.1 4.49 6.47 8.12 13.1 19.29 38.5 62
16.3 10 21 32 60 150 160 380 510 590 680 1830 3655
PN 25 Code MS21/02.c.2.1.025.015 MS21/02.c.2.1.025.020/015 MS21/02.c.2.1.025.025/020 MS21/02.c.2.1.025.032/025 MS21/02.c.2.1.025.040/032 MS21/02.c.2.1.025.050/040 MS21/02.c.2.1.025.065/050 MS21/02.c.2.1.025.080/065 MS21/02.c.2.1.025.100/080 MS21/02.c.2.1.025.125/100 MS21/02.c.2.1.025.150/125 MS21/02.c.2.1.025.200/150 MS21/02.c.2.1.025.250/200
mm
A 38 42.4 44.5 54 63.5 73 101.6 127 133 177.8 219.1 244.5 273
kg
Weight
Kv
0.85 1.02 1.15 1.58 2.09 3.1 4.25 6.49 8.12 13.1 18.83 38.3 76.5
16.3 10 21 32 60 150 160 380 510 590 680 1830 3655
PN 40 Code MS21/02.c.2.1.040.015 MS21/02.c.2.1.040.020/015 MS21/02.c.2.1.040.025/020 MS21/02.c.2.1.040.032/040 MS21/02.c.2.1.040.040/032 MS21/02.c.2.1.040.050/040
mm
kg
Weight
Kv
0.85 1.02 1.15 1.62 2.15 3.1
16.3 10 21 32 60 150
MS 21/02.c.2.1
DIMENSIONS & WEIGHT
d1
T
Note: The end-to-end dimension may be changed by agreement with the client.
39
Ball valves
Full bore
MS 21/01.c.1.1 MS 21/01.s.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium...............MS 21/01.c.water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21/01.s.water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................flanged ends Control means........................................handle Face-to-face dimension.........................according to EN 558-1 Flanges connection................................according to EN 1092-1 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
13 14
4
DESIGN Single body all-welded ball valve with extended stem. Full bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21.c – made of carbon steel. MS21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.
40
1
Body
2
Ball
3
Stem
4
6
8
material MS 21/01.c
3
10
2
material MS 21/01.s
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
Stem extenension
C22E 1.1151
X12CrNiTi18-9 1.4878
5
Press-on bush
C22E 1.1151
X12CrNiTi18-9 1.4878
6
Ball seat
PTFE
PTFE
7
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
8
Spring washer
60Si7
X39Cr13 1.4031
9
Stem seat
PTFE
PTFE
10
Gasket ring
Rubber
Rubber
11
Ring
PTFE
PTFE
12
Handle
GP240GH1.0619
13
Nut
5 Zn (ISO 4034)
14
Washer
11
1
7
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
5
9
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C10E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16
MS 21/01.c.1.1.016.010 MS 21/01.s.1.1.016.010 MS 21/01.c.1.1.016.015 MS 21/01.s.1.1.016.015 MS 21/01.c.1.1.016.020 MS 21/01.s.1.1.016.020 MS 21/01.c.1.1.016.025 MS 21/01.s.1.1.016.025 MS 21/01.c.1.1.016.032 MS 21/01.s.1.1.016.032 MS 21/01.c.1.1.016.040 MS 21/01.s.1.1.016.040 MS 21/01.c.1.1.016.050 MS 21/01.s.1.1.016.050 MS 21/01.c.1.1.016.065 MS 21/01.s.1.1.016.065 MS 21/01.c.1.1.016.080 MS 21/01.s.1.1.016.080 MS 21/01.c.1.1.016.100 MS 21/01.s.1.1.016.100 MS 21/01.c.1.1.016.125 MS 21/01.s.1.1.016.125 MS 21/01.c.1.1.016.150 MS 21/01.s.1.1.016.150 MS 21/01.c.1.1.016.200 MS 21/01.s.1.1.016.200
DN
L
D
D1
D2
10
130
90
60
15
130
95
65
20
150
105
25
160
115
32
180
140
100
40
200
150
110
50
230
165
125
65
290
185
145
80
310
200
160
100
350
220
180
125
400
250
210
150
480
285
200
600
DN
mm
H
Dmin
d
n
kg
L1
B
40
161
276
9
14
4
1.75
6
45
161
226
12.5
14
4
1.85
16.3
75
58
161
236
17
14
4
3.11
29.3
85
161
243
24
14
4
4.12
43
174
264
30
18
4
5.89
89
282
382
37
18
4
6.81
230
48
18
4
9.42
265
64
18
8
11.68
540
75
18
8
15.95
873
98
18
8
33.32
1390
240
68 78 88 102 122 138 158 188 212
340
295
268
L
D
D1
D2
10
130
90
60
15
130
95
65
20
150
105
25
160
115
32
180
40
by agreement with the client
Code
Weight
Kv
311
426
289
434
381
536
602
777
602
803
123
18
8
33.34
1707
602
842
148
22
8
45.6
2024
1100
1398
195
22
12
79
2720
Dmin
d
n
PN 25
MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21/01.c.1.1.025.010 21/01.s.1.1.025.010 21/01.c.1.1.025.015 21/01.s.1.1.025.015 21/01.c.1.1.025.020 21/01.s.1.1.025.020 21/01.c.1.1.025.025 21/01.s.1.1.025.025 21/01.c.1.1.025.032 21/01.s.1.1.025.032 21/01.c.1.1.025.040 21/01.s.1.1.025.040 21/01.c.1.1.025.050 21/01.s.1.1.025.050 21/01.c.1.1.025.065 21/01.s.1.1.025.065 21/01.c.1.1.025.080 21/01.s.1.1.025.080 21/01.c.1.1.025.100 21/01.s.1.1.025.100 21/01.c.1.1.025.125 21/01.s.1.1.025.125 21/01.c.1.1.025.150 21/01.s.1.1.025.150 21/01.c.1.1.025.200 21/01.s.1.1.025.200
mm
H
kg
L1
B
40
161
226
9
14
4
1.75
6
45
161
226
12.5
14
4
1.85
16.3
75
58
161
236
17
14
4
3.11
29.5
85
68
161
243
24
14
4
4.12
43
140
100
78
174
264
30
18
4
5.89
89
200
150
110
88
282
382
37
18
4
6.81
230
50
230
165
125
102
311
426
48
18
4
9.82
265
65
290
185
145
122
289
434
64
18
8
12.53
540
80
310
200
160
138
381
536
75
18
8
17.86
873
100
350
235
190
162
602
777
98
22
8
37.0
1390
125
400
270
220
188
602
802
123
26
8
42.24
1707
150
480
300
250
218
602
842
148
26
8
56.2
2024
200
600
360
310
278
1100
1398
195
26
12
89.3
2720
DN
L
D
D1
D2
Dmin
d
n
10
130
90
60
15
130
95
20
150
25
160
32
by agreement with the client
Code
Weight
Kv
PN 40
MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21/01.c.1.1.040.010 21/01.s.1.1.040.010 21/01.c.1.1.040.015 21/01.s.1.1.040.015 21/01.c.1.1.040.020 21/01.s.1.1.040.020 21/01.c.1.1.040.025 21/01.s.1.1.040.025 21/01.c.1.1.040.032 21/01.s.1.1.040.032 21/01.c.1.1.040.040 21/01.s.1.1.040.040 21/01.c.1.1.040.050 21/01.s.1.1.040.050 21/01.c.1.1.040.065 21/01.s.1.1.040.065 21/01.c.1.1.040.080 21/01.s.1.1.040.080 21/01.c.1.1.040.100 21/01.s.1.1.040.100 21/01.c.1.1.040.125 21/01.s.1.1.040.125 21/01.c.1.1.040.150 21/01.s.1.1.040.150
mm
H
kg
L1
B
40
161
227
9
14
4
1.75
6
65
45
161
227
12.5
14
4
1.85
16.3
105
75
58
161
238
17
14
4
3.11
29.5
115
85
68
161
243
24
14
4
4.12
43
180
140
100
78
174
264
30
18
4
5.89
89
40
200
150
110
88
282
382
37
18
4
6.81
230
50
230
165
125
102
311
426
48
18
4
9.82
265
65
290
185
145
122
286
431
64
18
8
12.53
540
80
310
200
160
138
391
546
75
18
8
17.86
873
100
350
235
190
162
602
777
98
22
8
37.0
1390
125
400
270
220
188
602
803
119
26
8
42.24
1707
150
480
300
250
218
602
842
142
26
8
56.2
2024
by agreement with the client
Code
Weight
Note: MS 21/01.c — carbon steel ball valve design MS 21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client
Kv
MS21/01.c.1.1 MS21/01.s.1.1
DIMENSIONS & WEIGHT
41
Ball valves
Full bore
MS 21/01.c.2.1 MS 21/01.s.2.1
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium..............MS 21/01.c water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21/01.s water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................welding ends Control means........................................handle End-to-end dimension...........................according to EN 12982 Welding ends..........................................according to EN 12627 Pressure tests.........................................according to EN 12266-1 Ball valve is manufacturing..................according to EN 1983
13
12
14
4
DESIGN Single body all-welded ball valve with extended stem. Full bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21/01.c – made of carbon steel. MS21/01.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.
42
1
Body
2
Ball
3
Stem
4
9 3
8
6
7
material MS 21/01.c
11 2
material MS 21/01.s
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
Stem extenension
C22E 1.1151
X12CrNiTi18-9 1.4878
5
Press-on bush
C22E 1.1151
X12CrNiTi18-9 1.4878
6
Ball seat
PTFE
PTFE
7
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
8
Spring washer
60Si7
X39Cr13 1.4031
9
Stem seat
PTFE
PTFE
10
Gasket ring
Rubber
Rubber
11
Ring
PTFE
PTFE
12
Handle
GP240GH1.0619
13
Nut
5 Zn (ISO 4034)
14
Washer
1
10
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
5
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C10E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 D
A
10
140
17.2
42.4
161
9
0.9
6
15
140
21.3
42.4
161
12.5
0.95
16.3
20
152
26.9
51
161
17
1.54
29.5
25
165
33.7
60.3
161
24
2.12
43
32
178
42.4
73
174
30
3.2
89
40
190
51
82.5
282.5
37
3.65
230
50
216
60.3
101.6
311
48
5.67
265
65
241
76.1
127
289
64
8.18
540
80
283
88.9
139.7
381
75
8.9
873
100
305
114.3
177.8
602
98
15.5
1390
125
381
139.7
219.1
602
123
22.1
1707
150
457
168.3
244.5
602
148
29.4
2024
200
521
219
325
1100
195
72
2720
DN
L
D
A
10
140
21.3
42.4
161
9
0.9
6
15
140
21.3
42.4
161
12.5
0.95
16.3
20
152
26.9
51
161
17
1.54
29.5
25
165
33.7
60.3
161
24
2.12
43
32
178
42.4
73
174
30
3.2
89
40
190
51
82.5
282.5
37
3.65
230
50
216
60.3
101.6
311
48
5.67
265
65
241
76.1
127
289
64
8.18
540
80
283
88.9
139.7
381
75
8.9
873
100
305
114.3
177.8
602
98
15.5
1390
125
381
139.7
219.1
602
123
22.1
1707
150
457
168.3
244.5
602
148
29.4
2024
200
521
219.1
272
1100
195
72
2720
DN
L
D
A
15
140
21.3
42.4
161
9
0.95
16.3
15
140
21.3
42.4
161
12.5
0.95
16.3
20
152
26.9
51
161
17
1.54
29.5
25
165
33.7
60.3
161
24
2.12
43
32
178
42.4
73
174
30
3.2
89
40
190
51
82.5
282.5
37
3.65
230
50
216
60.3
101.6
311
48
5.67
265
65
241
76.1
127
289
64
8.18
540
80
283
88.9
139.7
382
75
8.9
873
100
305
114.3
177.8
602
98
15.5
1390
125
381
139.7
219.1
602
123
22.1
1707
150
457
168.3
244.5
602
148
29.4
2024
PN 25 Code MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
21/01.c.2.1.025.010 21/01.s.2.1.025.010 21/01.c.2.1.025.015 21/01.s.2.1.025.015 21/01.c.2.1.025.020 21/01.s.2.1.025.020 21/01.c.2.1.025.025 21/01.s.2.1.025.025 21/01.c.2.1.025.032 21/01.s.2.1.025.032 21/01.c.2.1.025.040 21/01.s.2.1.025.040 21/01.c.2.1.025.050 21/01.s.2.1.025.050 21/01.c.2.1.025.065 21/01.s.2.1.025.065 21/01.c.2.1.025.080 21/01.s.2.1.025.080 21/01.c.2.1.025.100 21/01.s.2.1.025.100 21/01.c.2.1.025.125 21/01.s.2.1.025.125 21/01.c.2.1.025.150 21/01.s.2.1.025.150 21/01.c.2.1.025.200 21/01.s.2.1.025.200
PN 40 Code MS 21/01.c.2.1.040.015 MS 21/01.s.2.1.040.015 MS 21/01.c.2.1.040.015 MS 21/01.s.2.1.040.015 MS 21/01.c.2.1.040.020 MS 21/01.s.2.1.040.020 MS 21/01.c.2.1.040.025 MS 21/01.s.2.1.040.025 MS 21/01.c.2.1.040.032 MS 21/01.s.2.1.040.032 MS 21/01.c.2.1.040.040 MS 21/01.s.2.1.040.040 MS 21/01.c.2.1.040.050 MS 21/01.s.2.1.040.050 MS 21/01.c.2.1.040.065 MS 21/01.s.2.1.040.065 MS 21/01.c.2.1.040.080 MS 21/01.s.2.1.040.080 MS 21/01.c.2.1.040.100 MS 21/01.s.2.1.040.100 MS 21/01.c.2.1.040.125 MS 21/01.s.2.1.040.125 MS 21/01.c.2.1.040.150 MS 21/01.s.2.1.040.150
Note: MSA21/01.c — carbon steel ball valve design MSA21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client
mm
mm
L1
L1
H
by agreement with the client
21/01.c.2.1.016.015 21/01.s.2.1.016.015 21/01.c.2.1.016.015 21/01.s.2.1.016.015 21/01.c.2.1.016.020 21/01.s.2.1.016.020 21/01.c.2.1.016.025 21/01.s.2.1.016.025 21/01.c.2.1.016.032 21/01.s.2.1.016.032 21/01.c.2.1.016.040 21/01.s.2.1.016.040 21/01.c.2.1.016.050 21/01.s.2.1.016.050 21/01.c.2.1.016.065 21/01.s.2.1.016.065 21/01.c.2.1.016.080 21/01.s.2.1.016.080 21/01.c.2.1.016.100 21/01.s.2.1.016.100 21/01.c.2.1.016.125 21/01.s.2.1.016.125 21/01.c.2.1.016.150 21/01.s.2.1.016.150 21/01.c.2.1.016.200 21/01.s.2.1.016.200
L1
H
H
Dmin
kg
L
by agreement with the client
MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS MS
mm
DN
by agreement with the client
Code
Dmin
Dmin
Weight
kg
Weight
kg
Weight
Kv
Kv
Kv
MS21/01.c.1.1 MS21/01.s.2.1
DIMENSIONS & WEIGHT
43
Ball valves
Reduced bore
MS 21/01.c.1.1 MS 21/01.s.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium...............MS 21/01.c.water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21/01.s.water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................flanged ends Control means........................................handle Face-to-face dimension.........................according to EN 558-1 Flanges connection................................according to EN 1092-1 Pressure tests.........................................according to EN 12266-1 Ball valve manufacturing......................according to EN 1983 DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12
13 14
4
DESIGN Single body all-welded ball valve with extended stem. Reduced bore. Flanged ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21.c – made of carbon steel. MS21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.
44
1
Body
2
Ball
3
Stem
4
6
8
material MS 21/01.c
3
10
2
material MS 21/01.s
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
Stem extenension
C22E 1.1151
X12CrNiTi18-9 1.4878
5
Press-on bush
C22E 1.1151
X12CrNiTi18-9 1.4878
6
Ball seat
PTFE
PTFE
7
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
8
Spring washer
60Si7
X39Cr13 1.4031
9
Stem seat
PTFE
PTFE
10
Gasket ring
Rubber
Rubber
11
Ring
PTFE
PTFE
12
Handle
GP240GH1.0619
13
Nut
5 Zn (ISO 4034)
14
Washer
11
1
7
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
5
9
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C10E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16
kg
mm
DN
L
D
D1
D2
L1
MS 21/01.c.1.1.016.020/015 MS 21/01.s.1.1.016.020/015 MS 21/01.c.1.1.016.025/020 MS 21/01.s.1.1.016.025/020 MS 21/01.c.1.1.016.032/025 MS 21/01.s.1.1.016.032/025 MS 21/01.c.1.1.016.040/032 MS 21/01.s.1.1.016.040/032 MS 21/01.c.1.1.016.050/040 MS 21/01.s.1.1.016.050/040 MS 21/01.c.1.1.016.065/050 MS 21/01.s.1.1.016.065/050 MS 21/01.c.1.1.016.080/065 MS 21/01.s.1.1.016.080/065 MS 21/01.c.1.1.016.100/080 MS 21/01.s.1.1.016.100/080 MS 21/01.c.1.1.016.125/100 MS 21/01.s.1.1.016.125/100 MS 21/01.c.1.1.016.150/125 MS 21/01.s.1.1.016.150/125 MS 21/01.c.1.1.016.200/150 MS 21/01.s.1.1.016.200/150 MS 21/01.c.1.1.016.250/200 MS 21/01.s.1.1.016.250/200
020/015
150
105
75
58
189
025/020
160
115
85
68
032/025
180
140
100
040/032
200
150
050/040
230
065/050 080/065
B
H
Dmin
d
n
Weight
Kv
264
12.5
14
4
2.5
10
189
269
17
14
4
3.3
21
78
189
279
24
18
4
4.7
32
110
88
281
381.5
30
18
4
5.45
60
165
125
102
281.5
396.5
37
18
4
7.54
150
290
185
145
122
261.5
426.5
48
18
8
9.34
160
310
200
160
138
289
444
64
18
8
12.76
380
100/080
350
220
180
158
421.5
596.5
75
18
8
26.65
510
125/100
400
250
210
188
602
802
98
18
8
27.0
590
150/125
480
285
240
212
602
842
123
22
8
36.5
680
200/150
600
340
295
268
602
902
148
22
12
62.3
1830
250/200
730
405
355
320
1100
1465
195
26
12
86.5
3655
Code
DN
L
D
D1
D2
Dmin
d
n
Weight
Kv
MS 21/01.c.1.1.025.020/015 MS 21/01.s.1.1.025.020/015 MS 21/01.c.1.1.025.025/020 MS 21/01.s.1.1.025.025/020 MS 21/01.c.1.1.025.032/025 MS 21/01.s.1.1.025.032/025 MS 21/01.c.1.1.025.040/032 MS 21/01.s.1.1.025.040/032 MS 21/01.c.1.1.025.050/040 MS 21/01.s.1.1.025.050/040 MS 21/01.c.1.1.025.065/050 MS 21/01.s.1.1.025.065/050 MS 21/01.c.1.1.025.080/065 MS 21/01.s.1.1.025.080/065 MS 21/01.c.1.1.025.100/080 MS 21/01.s.1.1.025.100/080 MS 21/01.c.1.1.025.125/100 MS 21/01.s.1.1.025.125/100 MS 21/01.c.1.1.025.150/125 MS 21/01.s.1.1.025.150/125 MS 21/01.c.1.1.025.200/150 MS 21/01.s.1.1.025.200/150 MS 21/01.c.1.1.025.250/200 MS 21/01.s.1.1.025.250/200
020/015
150
105
75
58
189
264
12.5
14
4
2.5
10
025/020
160
115
85
68
189
269
17
14
4
3.3
21
032/025
180
140
100
78
189
279
24
18
4
4.7
32
040/032
200
150
110
88
281.5
381.5
30
18
4
5.45
60
050/040
230
165
125
102
281.5
396.5
37
18
4
7.86
150
065/050
290
185
145
122
289
426.5
48
18
8
10.0
160
080/065
310
200
160
138
289
414
64
18
8
14.3
380
100/080
350
235
190
162
421
596.5
75
22
8
29.6
510
125/100
400
270
220
188
602
802
98
26
8
3.8
590
150/125
480
300
250
218
602
842
123
26
8
45.0
680
200/150
600
360
310
278
602
902
140
26
12
75
1830
250/200
730
425
370
335
1100
1465
195
30
12
93.6
3655
Code
DN
L
D
D1
D2
Dmin
d
n
Weight
Kv
MS 21/01.c.1.1.040.020/015 MS 21/01.s.1.1.040.020/015 MS 21/01.c.1.1.040.025/020 MS 21/01.s.1.1.040.025/020 MS 21/01.c.1.1.040.032/040 MS 21/01.s.1.1.040.032/040 MS 21/01.c.1.1.040.040/032 MS 21/01.s.1.1.040.040/032 MS 21/01.c.1.1.040.050/040 MS 21/01.s.1.1.040.050/040 MS 21/01.c.1.1.040.065/050 MS 21/01.s.1.1.040.065/050 MS 21/01.c.1.1.040.080/065 MS 21/01.s.1.1.040.080/065 MS 21/01.c.1.1.040.100/080 MS 21/01.s.1.1.040.100/080 MS 21/01.c.1.1.040.125/100 MS 21/01.s.1.1.040.125/100 MS 21/01.c.1.1.040.150/125 MS 21/01.s.1.1.040.150/125 MS 21/01.c.1.1.040.200/150 MS 21/01.s.1.1.040.200/150
020/015
150
105
75
58
189
264
12.5
14
4
2.5
10
025/020
160
115
85
68
189
269
17
14
4
3.3
21
032/025
180
140
100
78
189
279
24
18
4
4.7
32
040/032
200
150
110
88
281.5
381.5
30
18
4
5.45
60
050/040
230
165
125
102
281.5
396.5
37
18
4
7.86
150
065/050
290
185
145
122
281.5
426.5
48
18
8
10.0
160
080/065
310
200
160
138
380.5
444
64
18
8
14.3
380
100/080
350
235
190
162
421
546.5
75
22
8
29.6
510
125/100
400
270
220
188
602
802
98
26
8
3.8
590
150/125
480
300
250
218
602
842
123
26
8
45.0
680
200/150
600
375
320
285
602
902
148
30
12
75
1830
by agreement with the client
Code
PN 25 kg
mm
B
H
by agreement with the client
L1
PN 40
kg
mm
B
H by agreement with the client
L1
Note: MS 21/01.c — carbon steel ball valve design MS 21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client
MS21/01.c.1.1 MS21/01.s.1.1
DIMENSIONS & WEIGHT
45
Ball valves
Reduced bore
MS 21/01.c.1.1 MS 21/01.s.1.1
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation in pipelines of water and gas supplying systems, for application in heat- power engineering and in chemical, oil-refining, gas and other industries as a closure device blocking liquid and gaseous working medium flow. A ball valve made of stainless steel can be used in food industry. Manufacturer company has available a comprehensive information range regarding the consequences of working medium influence on different types of material and has an opportunity to propose to the client such a ball valve type, that would correspond all the specified parameters.
Working pressure, not higher than.....16bar(class B20), 25bar(class B25), 40bar(class B40) Working medium temperature..............from – 29°C to +180°C Working medium..............MS 21/01.c water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS 21/01.s water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles........................not less than 5000 Full lifetime............................................not less than 30 years Pipeline connection...............................welding ends Control means........................................handle End-to-end dimension...........................according to EN 12982 Welding ends..........................................according to EN 12627 Pressure tests.........................................according to EN 12266-1 Ball valve is manufacturing..................according to EN 1983
13
12
14
DESIGN
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14
46
Body Ball Stem Stem extenension Press-on bush Ball seat Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
material MS 21.c
4
5
9 3
8
6
7
11 2
material MS 21.s
P265TR1 1.0258 X6CrNiTi18-10 1.4541 GX5CrNi19-10 1.4308 Gx5CrNiTi19-10 1.4308 X20Cr13 1.4021 X12CrNiTi18-9 1.4878 C22E 1.1151 X12CrNiTi18-9 1.4878 C22E 1.1151 X12CrNiTi18-9 1.4878 PTFE PTFE St37-2 1.0037 X12CrNiTi18-9 1.4878 60Si7 X39Cr13 1.4031 PTFE PTFE Rubber Rubber PTFE PTFE GP240GH1.0619 5 Zn (ISO 4034) C10E 1.1121 (ISO 7089)
1
10
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
All-welded ball valve with extended stem has a full bore and welding end design. The ball valve has non-split body. All the body components are jointed by welding. The ball valve is related to a nonrepairable and nonservicing class of devices. Design type: MS 21/01.c - produced from carbon steel. MS 21/01.s - produced from stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of the ball valve in an inaccessible place possible with operating handle located away from the ball valve. Control of the ball valve is performed manually by turning a handle at an angle of 90° up to the stop. Handle axis is parallel to bore axis so its position indicates the ball valve “open” or “closed” state. In the ball valve “open” state, handle is parallel to a pipeline axis. The ball valve is intended to be installed in horizontal position in the pipeline with stem directed upwards and for use with working medium streaming in any direction.
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16
MS 21/01.c.2.1.016.020/015 MS 21/01.s.2.1.016.020/015 MS 21/01.c.2.1.016.025/020 MS 21/01.s.2.1.016.025/020 MS 21/01.c.2.1.016.032/025 MS 21/01.s.2.1.016.032/025 MS 21/01.c.2.1.016.040/032 MS 21/01.s.2.1.016.040/032 MS 21/01.c.2.1.016.050/040 MS 21/01.s.2.1.016.050/040 MS 21/01.c.2.1.016.065/050 MS 21/01.s.2.1.016.065/050 MS 21/01.c.2.1.016.080/065 MS 21/01.s.2.1.016.080/065 MS 21/01.c.2.1.016.100/080 MS 21/01.s.2.1.016.100/080 MS 21/01.c.2.1.016.125/100 MS 21/01.s.2.1.016.125/100 MS 21/01.c.2.1.016.150/125 MS 21/01.s.2.1.016.150/125 MS 21/01.c.2.1.016.200/150 MS 21/01.s.2.1.016.200/150 MS 21/01.c.2.1.016.250/200 MS 21/01.s.2.1.016.250/200
mm
L1
H
Dmin
kg
DN
L
D
A
20/15
152
26.9
42.4
189
12.5
1.23
10
25/20
165
33.7
51
189
17
1.7
21
32/25
178
42.4
60.3
189
24
2.56
32
40/32
190
51
73
281.5
30
2.9
60
50/40
216
60.3
82.5
281.5
37
4.54
150
65/50
241
76.1
101.6
281.5
48
6.54
160
80/65
283
88.9
127
289
64
7.12
380
100/80
305
114.3
139.7
421.5
75
12.0
510
125/100
381
138.7
177.8
602
98
17.68
590
150/125
457
168.3
219.1
602
123
23.5
680
200/150
521
219.1
244.5
602
148
36.5
1830
250/200
559
273
325
1100
195
79
3655
DN
L
D
A
by agreement with the client
Code
Weight
Kv
PN 25
MS 21/01.c.2.1.025.020/015 MS 21/01.s.2.1.025.020/015 MS 21/01.c.2.1.025.025/020 MS 21/01.s.2.1.025.025/020 MS 21/01.c.2.1.025.032/025 MS 21/01.s.2.1.025.032/025 MS 21/01.c.2.1.025.040/032 MS 21/01.s.2.1.025.040/032 MS 21/01.c.2.1.025.050/040 MS 21/01.s.2.1.025.050/040 MS 21/01.c.2.1.025.065/050 MS 21/01.s.2.1.025.065/050 MS 21/01.c.2.1.025.080/065 MS 21/01.s.2.1.025.080/065 MS 21/01.c.2.1.025.100/080 MS 21/01.s.2.1.025.100/080 MS 21/01.c.2.1.025.125/100 MS 21/01.s.2.1.025.125/100 MS 21/01.c.2.1.025.150/125 MS 21/01.s.2.1.025.150/125 MS 21/01.c.2.1.025.200/150 MS 21/01.s.2.1.025.200/150 MS 21/01.c.2.1.025.250/200 MS 21/01.s.2.1.025.250/200
mm
L1
H
Dmin
kg
Weight
Kv
20/15
152
26.9
42.4
189
12.5
1.23
10
25/20
165
33.7
51
189
17
1.7
21
32/25
178
42.4
60.3
189
24
2.56
32
40/32
190
51
73
281.5
30
2.9
60
50/40
216
60.3
82.5
281.5
37
4.54
150
65/50
241
76.1
101.6
281.5
48
6.54
160
80/65
283
88.9
127
289
64
7.3
380
100/80
305
114.3
139.7
421.5
75
12.56
510
125/100
381
138.7
177.8
602
98
17.68
590
150/125
457
168.3
219.1
602
123
26.0
200/150
521
219.1
244.5
602
148
1830
250/200
559
273
325
1100
195
3655
DN
L
D
A
20/15
152
26.9
42.4
189
12.5
1.23
10
25/20
165
33.7
51
189
17
1.7
21
32/25
178
42.4
60.3
189
24
2.56
32
40/32
190
51
73
281.5
30
2.9
60
50/40
216
60.3
82.5
281.5
37
4.7
150
65/50
241
76.1
101.6
281.5
48
7.0
160
80/65
283
88.9
127
289
64
7.4
380
100/80
305
114.3
139.7
421.5
75
13.2
510
125/100
381
138.7
177.8
602
98
18.3
590
150/125
457
168.3
219.1
602
123
26.0
680
200/150
521
219.1
244.5
602
148
63
1830
by agreement with the client
Code
680
PN 25
MS 21/01.c.2.1.040.020/015 MS 21/01.s.2.1.040.020/015 MS 21/01.c.2.1.040.025/020 MS 21/01.s.2.1.040.025/020 MS 21/01.c.2.1.040.032/025 MS 21/01.s.2.1.040.032/025 MS 21/01.c.2.1.040.040/032 MS 21/01.s.2.1.040.040/032 MS 21/01.c.2.1.040.050/040 MS 21/01.s.2.1.040.050/040 MS 21/01.c.2.1.040.065/050 MS 21/01.s.2.1.040.065/050 MS 21/01.c.2.1.040.080/065 MS 21/01.s.2.1.040.080/065 MS 21/01.c.2.1.040.100/080 MS 21/01.s.2.1.040.100/080 MS 21/01.c.2.1.040.125/100 MS 21/01.s.2.1.040.125/100 MS 21/01.c.2.1.040.150/125 MS 21/01.s.2.1.040.150/125 MS 21/01.c.2.1.040.200/150 MS 21/01.s.2.1.040.200/150
Note: MS 21/01.c — carbon steel ball valve design MS 21/01.s — stainless steel ball valve design Weight is given without stem extension H — by agreement with the client
mm
L1
H
by agreement with the client
Code
Dmin
kg
Weight
Kv
MS21/01.c.2.1 MS21/01.s.2.1
DIMENSIONS & WEIGHT
47
Ball valves
Full bore
MS 01.c.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......63bar, 100bar, 160 bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Pressure tests...........................................according to EN 12266-1 Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime...............................................not less than 30 years Pipeline connection.................................flanged ends Control means..........................................handle Face-to-face dimension...........................according to EN 558-1 Ball valve manufacturing.........................according to EN 1983 Flanges connection.................................according to EN 1092 DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
17 19
6 11 5
DESIGN
48
13 4
3 7
10 2
12
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
GP240GH 1.0619 GP240GH 1.0619 X12Gr NiTi18-9 1.4878 X39Cr13 1.4031 C22E 1.1151 C22E 1.1151 PTFE C22E 1.1151 DIN 17221 60Si7 1.5027 PTFE PTFE Rubber PTFE Bronze GP240GH 1.0619 34Cr4 1.7033 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 (ISO 82008) C10E 1.1121 (ISO7089)
Body Flange Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Bearing sleeve Handle Stud Nut Washer Washer
14
1
8
9
18
16
17
PRESSURE/TEMPERATURE RATING
200 Pressure, bar
Single body all-welded ball valve with extended stem. Reduced bore. Welding ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS21/01.c – made of carbon steel. MS21/01.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers.Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline horizontally with stem directed upwards and with working medium flow applied from any direction.
15
PTFE
160
PN160
120 PN100
80
PN63
40 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 63 Code MS01.c.1.1.063.010 MS01.c.1.1.063.015 MS01.c.1.1.063.020 MS01.c.1.1.063.025 MS01.c.1.1.063.032 MS01.c.1.1.063.040 MS01.c.1.1.063.050 MS01.c.1.1.063.065 MS01.c.1.1.063.080 MS01.c.1.1.063.100
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100
165 165 190 216 229 241 292 330 356 432
100 105 130 140 155 170 180 205 215 250
70 75 90 100 110 125 135 160 170 200
40 45 58 68 78 88 102 122 138 162
DN
L
D
D1
D2
10 15 20 25 32 40 50 65 80 100
165 165 190 216 229 241 292 330 356 432
100 105 130 140 155 170 195 220 230 265
70 75 90 100 110 125 145 170 180 210
40 45 58 68 78 88 102 122 138 162
DN
L
D
D1
D2
10 15 25 32 40 50 65 80
229 229 254 278 305 368 419 381
121 130 149 159 178 216 244 241
82.6 88.9 101.6 111.1 123.8 165.1 190.5 190.5
35.1 42.9 50.8 63.5 73.2 91.9 104.6 127
mm
kg
L1
H
Dmin
d
B
n
Weight
Kv
190 190 190 314 314 314 400 400 400 517
94 94 98 102.5 106.5 111.5 139.5 154 169.5 195.5
9 12.5 17 24 30 37 48 64 75 98
14 14 18 18 22 22 22 22 22 26
272.5 272.5 285 422 429.5 434.5 546 565 578 733
4 4 4 4 4 4 4 8 8 8
3.5 3.8 7.6 12.2 15.1 20.3 27.6 35.7 43.6 52.3
6 16.3 29.5 43 89 230 265 540 873 1390
L1
H
Dmin
d
B
n
Weight
Kv
190 190 190 314 314 314 400 400 400 517
94 94 98 102.5 106.5 111.5 139.5 154 169.5 195.5
9 12.5 17 24 30 37 48 64 75 98
14 14 18 18 22 22 26 26 26 30
272.5 272.5 285 422 429.5 434.5 546 565 578 733
4 4 4 4 4 4 4 8 8 8
3.5 3.8 7.6 12.6 15.8 20.8 28.6 36.6 44.5 53.6
6 16.3 29.5 43 89 230 265 540 873 1390
L1
H
Dmin
d
B
n
Weight
Kv
190 190 314 314 314 400 400 400
102 102 106.5 113.5 120 140 155 170
12.5 17 24 30 37 48 64 75
22.2 22.2 25.4 25.4 28.6 25.4 28.6 25.4
304.5 304.5 441 454 467 584 610 591
4 4 4 4 4 8 8 8
7.6 9.2 15.1 19 25 34.3 43.9 53.4
6 16.3 43 89 230 265 540 873
PN 100 Code MS01.c.1.1.100.010 MS01.c.1.1.100.015 MS01.c.1.1.100.020 MS01.c.1.1.100.025 MS01.c.1.1.100.032 MS01.c.1.1.100.040 MS01.c.1.1.100.050 MS01.c.1.1.100.065 MS01.c.1.1.100.080 MS01.c.1.1.100.100
mm
kg
MS 01.c.1.1
DIMENSIONS & WEIGHT
PN 160 Code MS01.c.1.1.160.010 MS01.c.1.1.160.015 MS01.c.1.1.160.025 MS01.c.1.1.160.032 MS01.c.1.1.160.040 MS01.c.1.1.160.050 MS01.c.1.1.160.065 MS01.c.1.1.160.080
mm
kg
49
Ball valves
Full bore
MS 01.c.2.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......63bar, 100bar, 160bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Pressure tests...........................................according to EN 12266-1 Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime...............................................not less than 30 years Pipeline connection.................................welding ends Control means..........................................handle End-to-end dimension.............................according to EN 12627 Ball valve manufacturing........................according to EN 1983 Welding ends............................................according to EN 12982
DESIGNATION AND APPLICATION AREA
17
Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
19
6 11 5 13
DESIGN
17
4
3 7
10 2
12
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
GP240GH 1.0619 GP240GH 1.0619 X12Gr NiTi18-9 1.4878 X39Cr13 1.4031 C22E 1.1151 C22E 1.1151 PTFE C22E 1.1151 DIN 17221 60Si7 1.5027 PTFE PTFE Rubber PTFE Bronze GP240GH 1.0619 34Cr4 1.7033 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 (ISO 82008) C10E 1.1121 (ISO7089)
Body Ends connection Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Bearing sleeve Handle Stud Nut Washer Washer
14
1
8
9
16
18
PRESSURE/TEMPERATURE RATING
200 Pressure, bar
Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
50
15
PTFE
160
PN160
120 PN100
80
PN63
40 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 63 Code MS01.c.2.1.063.010 MS01.c.2.1.063.015 MS01.c.2.1.063.020 MS01.c.2.1.063.025 MS01.c.2.1.063.032 MS01.c.2.1.063.040 MS01.c.2.1.063.050 MS01.c.2.1.063.065 MS01.c.2.1.063.080 MS01.c.2.1.063.100
DN 10 15 20 25 32 40 50 65 80 100
L
D
T
165 165 190 216 229 241 292 330 356 432
21 26 29 40 48 56 67 82 104 124
6 6.75 6 8 9 9.5 10 10 14.5 15
L
D
T
165 165 190 216 229 241 292 330 356 432
21 26 29 40 48 56 67 82 101 124
6 6.75 6 8 9 9.5 11 10 14.5 13
L
D
T
229 229 229 254 279 305 368 419 381
21 26 29 40 48 56 67 89 104
5 6 7 8 9 10 12 14 16
mm
A
L1
H
52 52 60 72 76 100 140 170 188 250
190 190 190 314 314 314 400 400 400 517
86 94 98 102.5 106.5 111.5 139.5 154 169.5 195.5
A
L1
H
52 52 60 72 76 100 140 170 188 250
190 190 190 314 314 314 400 400 400 517
86 94 98 102.5 106.5 111.5 140 154 179.5 195.5
A
L1
H
60 60 68 82 86 120 160 190 210
190 190 190 314 314 314 400 400 400
55 55 62 68 82 120 140 155 170
Dmin 9 12.5 17 24 30 37 48 64 75 98
kg
Weight
Kv
2.9 3.1 5.7 11.1 12.9 15.2 18.3 24.5 30.6 36.8
6 16.3 29.5 43 89 230 265 540 873 1390
PN 100 Code MS01.c.2.1.100.010 MS01.c.2.1.100.015 MS01.c.2.1.100.020 MS01.c.2.1.100.025 MS01.c.2.1.100.032 MS01.c.2.1.100.040 MS01.c.2.1.100.050 MS01.c.2.1.100.065 MS01.c.2.1.100.080 MS01.c.2.1.100.100
DN 10 15 20 25 32 40 50 65 80 100
mm
Dmin 9 12.5 17 24 30 37 48 64 75 98
kg
Weight
Kv
2.9 3.1 5.7 11.1 12.9 15.2 18.3 24.5 30.6 36.8
6 16.3 29.5 43 89 230 265 540 873 1390
MS 01.c.2.1
DIMENSIONS & WEIGHT
PN 160 mm
Code MS01.c.2.1.160.010 MS01.c.2.1.160.015 MS01.c.2.1.160.020 MS01.c.2.1.160.025 MS01.c.2.1.160.032 MS01.c.2.1.160.040 MS01.c.2.1.160.050 MS01.c.2.1.160.065 MS01.c.2.1.160.080
DN 10 15 20 25 32 40 50 65 80
kg
Dmin 9 12.5 17 24 30 37 48 64 75
Weight
Kv
3.5 3.7 6.8 13.3 15.5 18.8 26 32.5 38.7
6 16.3 29.5 43 89 230 265 540 873
51
Ball valves
Full bore
MS 01.c.1.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......63bar, 100bar, 160bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Pressure tests...........................................according to EN 12266-1 Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime...............................................not less than 30 years Pipeline connection.................................flanged ends Control means..........................................actuator handwheel Face-to-face dimension...........................according to EN 558-1 Ball valve manufacturing.........................according to EN 1983 Flanges connection...................................according to EN 1092-1
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
6
11 5
13
4
Split body ball valve. Full bore. Flanged ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
2
7
18
9
10 16
12
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
GP240GH 1.0619 GP240GH 1.0619 X12Gr NiTi18-9 1.4878 X39Cr13 1.4031 C22E 1.1151 C22E 1.1151 PTFE C22E 1.1151 DIN 17221 60Si7 1.5027 PTFE PTFE Rubber PTFE Bronze GP240GH 1.0619 34Cr4 1.7033 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 (ISO 82008)
Body Flange Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Bearing sleeve Handwheel Stud Nut Washer
3
14
1
8
17
PRESSURE/TEMPERATURE RATING
200 Pressure, bar
DESIGN
52
15
PTFE
160
PN160
120 PN100
80
PN63
40 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 63 Code
DN
mm
kg
L
D
D1
D2
H
Dmin
d
n
Weight
Kv
MS01.c.1.3.063.125
125
508
295
240
188
506
123
30
8
150.4
1707
MS01.c.1.3.063.150
150
559
345
280
218
522
150
33
8
275.5
2024
MS01.c.1.3.063.200
200
660
415
345
285
561
201
36
12
395
2720
L
D
D1
D2
H
Dmin
d
n
Weight
Kv
PN 100 Code
DN
mm
kg
MS01.c.1.3.100.125
125
508
315
250
188
506
123
33
8
150.4
1707
MS01.c.1.3.100.150
150
559
355
290
218
522
150
33
12
286.1
2024
MS01.c.1.3.100.200
200
660
430
360
285
561
201
36
12
418.4
2720
L
D
D1
D2
H
Dmin
d
n
Weight
PN 160 Code
DN
mm
kg
Kv
MS01.c.1.3.160.100
100
457
292
235
157.2
472
98
31.8
8
85
1309
MS01.c.1.3.160.125
125
559
349
279.4
185.7
506
123
34.9
8
180.5
1707
MS01.c.1.3.160.150
150
610
381
317.5
215.9
522
150
31.8
12
340
2024
MS01.c.1.3.160.200
200
737
470
393.7
269.7
561
201
38.1
12
495
2720
MS 01.c.1.3
DIMENSIONS & WEIGHT
53
Ball valves
Full bore
MSA 01.c.2.3
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......63bar, 100bar, 160bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Pressure tests...........................................according to EN 12266-1 Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime...............................................not less than 30 years Pipeline connection.................................welding ends Control means..........................................actuator handwheel End-to-end dimension.............................according to EN 12627 Ball valve manufacturing........................according to EN 1983 Welding ends...........................................according toEN 12982
DESIGNATION AND APPLICATION AREA Welding ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
15
5 13
4
DESIGN
7
18
9
2
10 17
12
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
GP240GH 1.0619 GP240GH 1.0619 X12Gr NiTi18-9 1.4878 X39Cr13 1.4031 C22E 1.1151 C22E 1.1151 PTFE C22E 1.1151 DIN 17221 60Si7 1.5027 PTFE PTFE Rubber PTFE Bronze GP240GH 1.0619 34Cr4 1.7033 5 Zn (ISO 4034) DIN17221 60Si7 1.5027 (ISO 82008)
Body Ends connection Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Bearing sleeve Handwheel Stud Nut Washer
3
14
1
8
16
PRESSURE/TEMPERATURE RATING
200 Pressure, bar
Split body ball valve. Full bore. Welding ends design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
54
6
11
PTFE
160
PN160
120 PN100
80
PN63
40 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 63 Code
mm
L
D
T
MS01.c.2.3.063.125
125
508
148
17.5
332
MS01.c.2.3.063.150
150
559
190
20
MS01.c.2.3.063.200
200
660
240
22.5
DN
L
D
T
MS01.c.2.3.100.125
125
508
158
17.5
332
MS01.c.2.3.100.150
150
559
190
20
MS01.c.2.3.100.200
200
660
240
22.5
DN
L
D
T
MS01.c.2.3.160.100
100
457
135
17.5
270
472
98
65
1390
MS01.c.2.3.160.125
125
559
165
20
350
506
123
88.2
1707
MS01.c.2.3.160.150
150
610
195
22.5
380
522
150
210
2024
MS01.c.2.3.160.200
200
737
248
24
460
561
201
412
2720
PN 100 Code
mm
A
Dmin
Weight
506
123
74.7
1707
360
522
150
176
2024
440
561
201
344.6
2720
Dmin
Weight
506
123
74.7
1707
360
522
150
176
2024
440
561
201
344.6
2720
Dmin
Weight
A
H
kg
DN
H
kg
Kv
Kv
PN 160 Code
mm
A
H
kg
Kv
MS 01.c.2.3
DIMENSIONS & WEIGHT
55
Ball valves
Full bore
MS 01.s.1.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....16bar, 25bar Working medium temperature..............from – 29°C to +180°C Working medium....................................water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature.....................not less than – 29°C Quantity of work cycles.........................not less than 5000 Full lifetime.............................................not less than 30 years Pipeline connection............................... flanged ends Control means........................................handle Face-to-face dimension.........................according to EN 558 Flanges connection...............................according to EN 1092-1 Testing and inspection..........................according to ISO 5208
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous as well as aggressive working medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
12 14 4 9
56
11
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
GXCrNi19-10 1.4308 GXCrNi19-10 1.4308 X12CrNiTi18-9 1.4878 X12CrNiTi18-9 1.4878 PTFE X12CrNiTi18-9 1.4878 X39Cr13 1.4031 PTFE PTFE Rubber PTFE GP240GH 1-0619 A2 A2 (ISO 4034) X12CrNiTi18-9 1.4878 X12CrNiTi18-9 1.4878
1
15 7
6
2
13 10
8
1
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
14
MATERIALS LIST № part name Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
5
3
DESIGN Split body ball valve. Full bore. Flanged ends design. Cast ball valve body is made of stainless steel. The body is composed of two split parts. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
16
40 30
PN25
20
PTFE
PN16
10 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
D1
MS01.s.1.1.016.015
15
130
95
65
MS01.s.1.1.016.020
20
150
105
75
MS01.s.1.1.016.025
25
160
115
MS01.s.1.1.016.032
32
180
140
MS01.s.1.1.016.040
40
200
150
MS01.s.1.1.016.050
50
230
165
MS01.s.1.1.016.065
65
290
185
MS01.s.1.1.016.080
80
310
200
MS01.s.1.1.016.100
100
350
MS01.s.1.1.016.125
125
400
MS01.s.1.1.016.150
150
MS01.s.1.1.016.200*
200
DN
L
MS01.s.1.1.025.015
15
130
95
65
MS01.s.1.1.025.020
20
150
105
MS01.s.1.1.025.025
25
160
115
MS01.s.1.1.025.032
32
180
140
MS01.s.1.1.025.040
40
200
150
MS01.s.1.1.025.050
50
230
165
MS01.s.1.1.025.065
65
290
185
MS01.s.1.1.025.080
80
310
200
MS01.s.1.1.025.100
100
350
MS01.s.1.1.025.125
125
400
MS01.s.1.1.025.150
150
MS01.s.1.1.025.200*
200
D2
mm
kg
L1
H
Dmin
d
B
n
Weight
Kv
45
190
81
12.5
14
234
4
3.9
16.3
58
190
84
17
14
238
4
4.7
29.5
85
68
190
90
24
14
240
4
5.9
43
100
78
314
103
30
18
372
4
7.7
89
110
88
314
107
37
18
380
4
8
230
125
102
314
115
48
18
404
4
10
265
145
122
314
128
64
18
414
8
14
540
160
138
384
136.5
75
18
459
8
18
873
220
180
158
500
168
98
18
615
8
32
1390
250
210
188
600
178
123
18
750
8
36
1707
480
285
240
212
600
193
148
22
780
8
57
2024
600
340
295
268
200
502
195
22
630
12
107
2720
L1
H
Dmin
d
B
n
Weight
Kv
45
190
81
12.5
14
4
234
3.9
16.3
75
58
190
84
17
14
4
238
4.7
29.5
85
68
190
90
24
14
4
240
5.9
43
100
78
314
103
30
18
4
372
7.7
89
110
88
314
107
37
18
4
380
9
230
125
102
314
115
48
18
4
404
11
265
145
122
314
128
64
18
8
414
18
540
160
138
384
136.5
75
18
8
459
24
873
235
190
162
500
168
98
22
8
615
36
1390
270
220
188
600
178
123
26
8
750
41
1707
480
300
250
218
600
193
148
26
8
780
62
2024
600
360
310
278
200
502
195
26
12
630
116.5
2720
PN 25 Code
D
D1
D2
mm
kg
MS 01.s.1.1
DIMENSIONS & WEIGHT
*— Ball valve design with an actuator
57
Ball valves
Full bore
MS 01.c.4.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.......63bar, 100bar, 160 bar Working medium temperature................from – 29°C to +180°C Working medium......................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Pressure tests...........................................according to EN 12266-1 Environment temperature.......................not less than – 29°C Quantity of work cycles..........................not less than 5000 Full lifetime...............................................not less than 30 years Pipeline connection.................................threaded ends Control means..........................................handle Ball valve manufactured..........................according to EN 1983 Threaded ends.........................................with thread acc. to BSP. ISO 228
DESIGNATION AND APPLICATION AREA Threaded ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous working medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
18
14
5 9 17
10
6 11 4 13
7 12
DESIGN
58
16 2
15
MATERIALS LIST № part name
material
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
GP240GH 1.0619 GP240GH 1.0619 X12Gr NiTi18-9 1.4878 X39Cr13 1.4031 1.1151 (C22E) 1.1181 (C35) PTFE 1.1151 (C22E) DIN 17221 1.502 (60Si7) PTFE PTFE Rubber PTFE 1.0619 (GP240GH) 1.7033 (34Cr4) 5 Zn (ISO 4034) DIN 17221 1.5022 (60Si7) (ISO 82008) EN 10025 1.11.21 (C10E) (ISO 7089)
Body Flange Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Retaining washer Washer
8
3
1
PRESSURE/TEMPERATURE RATING
200 Pressure, bar
Split body ball valve. Full bore. Threaded ends design. Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
PTFE
160
PN160
120 PN100
80
PN63
40 -29
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 63 Code MS01.c.4.1.063.010 MS01.c.4.1.063.015 MS01.c.4.1.063.020 MS01.c.4.1.063.025 MS01.c.4.1.063.032 MS01.c.4.1.063.040 MS01.c.4.1.063.050
DN
L
S
A
G
10 15 20 25 32 40 50
75 75 85 110 120 150 200
32 32 32 40 52 60 72
52 52 60 72 76 100 122
3/8 1/2 3/4 1 11/4 11/2 2
DN
L
S
A
G
10 15 20 25 32 40 50
75 75 85 110 120 150 200
32 32 32 40 52 60 72
52 52 60 72 76 100 122
3/8 1/2 3/4 1 11/4 11/2 2
DN
L
S
A
G
10 15 20 25 32
75 75 85 110 120
32 32 32 40 52
52 52 60 72 76
3/8 1/2 3/4 1 11/4
mm
kg
L1
H
B
F
Dmin
Weight
Kv
180 180 180 180 314 314 400
55 55 62 68 82 115 144
217.5 217.5 222.5 235 374 389 500
11 12 14 16 20.5 22 24
9 12.5 17 24 30 37 48
1.1 1.1 1.4 2.5 3.7 8.9 13.5
6 16.3 29.5 43 89 230 265
L1
H
B
F
Dmin
Weight
Kv
180 180 180 180 314 314 400
55 55 62 68 82 109 144
217.5 217.5 222.5 235 374 389 500
11 12 14 16 20.5 22 24
9 12.5 17 24 30 37 48
1.1 1.1 1.4 2.5 3.7 8.9 13.5
6 16.3 29.5 43 89 230 265
L1
H
B
F
Dmin
Weight
Kv
180 180 180 180 314
55 55 62 68 82
217.5 217.5 222.5 235 374
11 12 14 16 20.5
9 12.5 17 24 30
1.1 1.1 1.4 2.5 3.7
6 16.3 29.5 43 89
PN 100 Code MS01.c.4.1.100.010 MS01.c.4.1.100.015 MS01.c.4.1.100.020 MS01.c.4.1.100.025 MS01.c.4.1.100.032 MS01.c.4.1.100.040 MS01.c.4.1.100.050
mm
kg
PN 160 Code MS01.c.4.1.160.010 MS01.c.4.1.160.015 MS01.c.4.1.160.020 MS01.c.4.1.160.025 MS01.c.4.1.160.032
mm
kg
MS 01.c.4.1
DIMENSIONS & WEIGHT
Note: It is possible to order ball valves with the taper pipe thread according to
ISO7.1 (BSPT) or ANSI B1.20.1 (NPT).
S
G
A
59
Ball valves
Full bore&reduced bore
MS 21.c.4.1 MS 21.s.4.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than......16bar, 25bar, 40bar Working medium temperature...............from – 29°C to +180°C Working medium..............MS21.c.4.1 water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MS21.s..4.1 water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature......................not less than – 29°C Quantity of work cycles.........................not less than 5000 Full lifetime.............................................not less than 30 years Pipeline connection................................threaded ends Control means.........................................handle Testing and inspection............................according to ISO 5208 DESIGNATION AND APPLICATION AREA
11
Threaded ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous working medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
13
12
4 8 3
DESIGN Single body all-welded ball valve. Full and reduced bore. Threaded ends design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MS 21.c.4.1 – made of carbon steel. MS 21.s.4.1 – made of stainless steel. Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. In the “open” state handle is parallel to pipeline axis. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. . Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
60
9
7
material MS21.c.4.1
5
material MS21.s.4.1
1
Body
2
Ball
3
Stem
4
Press-on bush
5
Ball seat
PTFE
PTFE
6
Seat ring
St37-2 1.0037
X12CrNiTi18-9 1.4878
7
Spring washer
60Si7
X39Cr13 1.4031
8
Stem seat
PTFE
PTFE
Rubber
Rubber
PTFE
PTFE
9
Gasket ring
10
Ring
11
Handle
12
Nut
13
Washer
P265TR1 1.0258
X6CrNiTi18-10 1.4541
GX5CrNi19-10 1.4308
Gx5CrNiTi19-10 1.4308
X20Cr13 1.4021
X12CrNiTi18-9 1.4878
C22E 1.1151
X12CrNiTi18-9 1.4878
GP240GH1.0619
GP240GH 1.0619
5 Zn (ISO 4034)
1
2
6
PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
10
PN40
40 30
PTFE
PN25
20
PN16
10 -29
0
100 200 Temperature, °C
C10E 1.1121 (ISO 7089)
We reserve the right to make modification without prior notice.
PN 16 mm
Code MS21.c.4.1.016.010 MS21.s.4.1.016.010 MS21.c.4.1.016.015/10 MS21.s.4.1.016.015/10 MS21.c.4.1.016.015 MS21.s.4.1.016.015 MS21.c.4.1.016.020/15 MS21.s.4.1.016.020/15 MS21.c.4.1.016.025/20 MS21.s.4.1.016.025/20 MS21.c.4.1.016.032/25 MS21.s.4.1.016.032/25 MS21.c.4.1.016.040/32 MS21.s.4.1.016.040/32 MS21.c.4.1.016.050/40 MS21.s.4.1.016.050/40
mm
kg
DN
L
A
G”
L1
H
B
Dmin
Weight
Kv
10
75
42.4
3/8
162.5
87
200
9
0.95
6
10/15
75
42.4
1/2
162.5
87
200
9
0.91
7.5
15
75
42.4
1/2
162.5
87
200
12.5
0.9
16.3
20/15
80
42.4
3/4
162.5
87
202.5
12.5
0.92
10
25/20
90
51
1
162.5
94.5
207.5
17
1.03
21
32/25
110
60.3
11/4
162.5
100
217.5
24
1.5
32
40/32
120
73
11/2
174
118.5
234
30
2.75
60
50/40
140
82.5
2
281
140
351
37
3.6
150
DN
L
A
G”
L1
H
B
Dmin
10
75
42.4
3/8
162.5
87
200
9
0.95
10/15
75
42.4
1/2
162.5
87
200
9
0.91
7.5
15
75
42.4
1/2
162.5
87
200
12.5
0.9
16.3
20/15
80
42.4
3/4
162.5
87
202.5
12.5
0.92
10
25/20
90
51
1
162.5
94.5
207.5
17
1.03
21
32/25
110
60.3
11/4
162.5
100
217.5
24
1.5
32
40/32
120
73
11/2
174
118.5
234
30
2.75
60
50/40
140
82.5
2
281
140
351
37
3.6
150
DN
L
A
G”
L1
H
B
Dmin
10
75
42.4
3/8
162.5
87
200
9
0.95
10/15
75
42.4
1/2
162.5
87
200
9
0.91
7.5
15
75
42.4
1/2
162.5
87
200
12.5
0.9
16.3
20/15
80
42.4
3/4
162.5
87
202.5
12.5
0.92
10
25/20
90
51
1
162.5
94.5
207.5
17
1.03
21
32/25
110
60.3
11/4
162.5
100
217.5
24
1.5
32
40/32
120
73
11/2
174
118.5
234
30
2.75
60
50/40
140
82.5
2
281
140
351
37
3.7
150
PN 25 mm
Code MS21.c.4.1.025.010 MS21.c.4.1.025.010 MS21.c.4.1.025.015/10 MS21.c.4.1.025.015/10 MS21.c.4.1.025.015 MS21.c.4.1.025.015 MS21.c.4.1.025.020/15 MS21.c.4.1.025.020/15 MS21.c.4.1.025.025/20 MS21.c.4.1.025.025/20 MS21.c.4.1.025.032/25 MS21.c.4.1.025.032/25 MS21.c.4.1.025.040/32 MS21.c.4.1.025.040/32 MS21.c.4.1.025.050/40 MS21.c.4.1.025.050/40
mm
kg
Weight
Kv 6
PN 40 mm
Code MS21.c.4.1.040.010 MS21.c.4.1.040.010 MS21.c.4.1.040.015/10 MS21.c.4.1.040.015/10 MS21.c.4.1.040.015 MS21.c.4.1.040.015 MS21.c.4.1.040.020/15 MS21.c.4.1.040.020/15 MS21.c.4.1.040.040/20 MS21.c.4.1.040.040/20 MS21.c.4.1.040.032/25 MS21.c.4.1.040.032/25 MS21.c.4.1.040.040/32 MS21.c.4.1.040.040/32 MS21.c.4.1.040.050/40 MS21.c.4.1.040.050/40
kg
mm
Note: MS 21.c.4.1 - carbon steel ball valve design MS 21.s.4.1 - stainless steel ball valve design It is possible to order ball valves with the taper pipe thread according to ISO7.1 (BSPT) or ANSI B1.20.1 (NPT).
Weight
Kv 6
MS 21.c.4.1 MS 21.s.4.1
DIMENSIONS & WEIGHT
G
61
Gauze filter MS 60.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than........16 bar, 25 bar (steel body), 16 bar (cast iron body) Working medium temperature.................from – 29°C to +180°C (steel body), from – 15°C to +180°C (cast iron body) Working medium.......................................water, gas, oil products and other nontoxic and non-aggressive medium, neutral for filter components Environment temperature........................not less than – 29°C Full lifetime................................................not less than 30 years Pipeline connection..................................flanged ends Flange connection....................................according to EN 1092 - 1 Face-to-face dimension............................according to EN 558-1
DESIGNATION AND APPLICATION AREA Flanged gauze filters are designated for protection of series installations, filtration and collecting of dirt particles. Filters are installed on the pipelines transporting liquid and gaseous working medium in water and gas supplying systems, and are used in heat-power engineering, chemical, oil-refining, gas, and other industries. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of gauze filter that would fully correspond to all the specified parameters.
1 7 8
4
9
DESIGN Gauze filter. Flanged ends design. Cast body and cover are sealed with teflon gaskets. Gauze filter element is made of stainless steel. Gauze filter is intended to be installed on the pipeline in horizontal position with the cover directed downwards. In case of application in gas pipeline systems the cover should be directed sideway. Gauze filter installation in vertical position is possible only with working medium flow top-down. Working medium flow direction in accordance with an arrow direction shown on the body.
62
2
5
material (steel body)
material (cast iron body)
1
Body
GP240GH 1.0619
EN-GJL-250
2
Cover
GP240GH 1.0619
EN-GJL-250
3
Gauze element
4
Body gasket
5
Drain plug
6
X4GrNiTi18-2 1.4303 PTFE
6 PRESSURE/TEMPERATURE RATING
50 Pressure, bar
MATERIALS LIST № part name
3
40 30
C22E 1.1151
20
Bolt
5.8 Zn (ISO 4017)
10
7
Nut
5 Zn (ISO 4034)
8
Retaining washer
9
Washer
DIN 17221 1.5027 (60Si7) (ISO 82008) ClOE 1.1121 (ISO 7089)
-29
PN25 PN16
0
100 200 Temperature, °C
We reserve the right to make modification without prior notice.
PN 16 Code
DN
L
D
D1
MS60.1.0.016.015
15
130
95
65
MS60.1.0.016.020
20
150
105
MS60.1.0.016.025
25
160
115
MS60.1.0.016.032
32
180
MS60.1.0.016.040
40
200
MS60.1.0.016.050
50
MS60.1.0.016.065
65
MS60.1.0.016.080 MS60.1.0.016.100 MS60.1.0.016.125 MS60.1.0.016.150 MS60.1.0.016.200
D2
mm
kg
d
n
H
H1
Weight
Kv
45
14
4
137
168
2.3
5.8
75
58
14
4
155
194
3.1
10.4
85
68
14
4
174
217
4.1
16.4
140
100
78
18
4
209.5
258
5.76
27.3
150
110
88
18
4
214.5
262
8.41
42
230
165
125
102
18
4
246
310
12.35
64.7
290
185
145
122
18
8
292
380
18.27
86.9
80
310
200
160
138
18
8
336
430
24.2
107.9
100
350
220
180
158
18
8
400
530
39.7
217
125
400
250
210
188
18
8
425
537
42.6
307.8
150
480
285
240
212
22
8
520
690
75.8
436.7
200
600
340
295
268
22
12
612.5
785.5
120.8
789.2
DN
L
D
D1
d
n
H
H1
Weight
MS60.1.0.025.015
15
130
95
65
45
14
4
137
168
2.3
5.8
MS60.1.0.025.020
20
150
105
75
58
14
4
155
194
3.1
10.4
MS60.1.0.025.025
25
160
115
85
68
14
4
174
217
4.1
16.4
MS60.1.0.025.032
32
180
140
100
78
18
4
209.5
258
5.76
27.3
MS60.1.0.025.040
40
200
150
110
88
18
4
214.5
262
8.41
42
MS60.1.0.025.050
50
230
165
125
102
18
4
246
310
12.8
64.7
MS60.1.0.025.065
65
290
185
145
122
18
8
292
380
18.27
86.9
MS60.1.0.025.080
80
310
200
160
138
18
8
336
430
25.8
107.9
MS60.1.0.025.100
100
350
235
190
162
22
8
407.5
537.5
45
217
MS60.1.0.025.125
125
400
270
220
188
26
8
435
547
52.6
307.8
MS60.1.0.025.150
150
480
300
250
218
26
8
527.5
697.5
81.3
436.7
MS60.1.0.025.200
200
600
360
310
278
26
12
622.5
795.5
135.6
789.2
MS 60.1
DIMENSIONS & WEIGHT
PN 25 Code
D2
mm
kg
Kv
63