CATALOGUE 218
PROTEK MANUFACTURING CORP. ,ŝŐŚ WĞƌĨŽƌŵĂŶĐĞ &ŝƌĞ &ŝŐŚƟŶŐ ƋƵŝƉŵĞŶƚ
R
www.protekfire.com.tw
sales@protekfire.com.tw
0062
Protek's Foam Eductors range offers the In-Line Eductors and the Portable By-Pass Eductors. The eductors feature a removable metering valve, and a large and easy-to-read removable metering dial with adjustable settings of between 0% to 6%. Compatible with most foam concentrates. Features: • Eductors are rated for optimum flow at 200 psi (14 bar) inlet pressure • Works well with nozzles rated at 75 psi (5 bar) and 100 psi (7 bar) • Ball check valve prevents back flow into foam concentrate • Supplied with clear foam pick up tube
FOAM EQUIPMENT
FOAM EDUCTORS
In-Line Eductors
• 1-1/2" or 2-1/2" swivel inlet x 1-1/2" male • 30" pick up hose & 15" tube • Pickup rate may be set at any position between 0% to 6% with detentes at 1/4, 1/2, 1, 3, and 6% 201-60
201-95
203-60
203-95
203-125
In-Line Eductor • Brass construction • 60 GPM ( 230 LPM)
Style 201
In-Line Eductor • Brass construction • 95 GPM ( 360 LPM) In-Line Eductor • Lightweight alloy • 60 GPM ( 230 LPM)
Style 203
In-Line Eductor • Lightweight alloy • 95 GPM ( 360 LPM)
In-Line Eductor • Lightweight alloy • 125 GPM ( 475 LPM)
Style
Material
Inlet
Outlet
201-60 201-95 203-60 203-95 203-125
Brass Brass Alloy Alloy Alloy
1-1/2"or 2-1/2"(38 or 65mm) 1-1/2"or 2-1/2"(38 or 65mm) 1-1/2"or 2-1/2"(38 or 65mm) 1-1/2"or 2-1/2"(38 or 65mm) 1-1/2"or 2-1/2"(38 or 65mm)
1-1/2"(38mm) 1-1/2"(38mm) 1-1/2"(38mm) 1-1/2"(38mm) 1-1/2"(38mm)
Flow GPM LPM 60 230 95 360 60 230 95 360 125 475
Length 10.5"(276mm) 10.5"(267mm) 8.6"(218mm) 8.6"(218mm) 8.6"(218mm)
Weight Lbs. (kg) 9.2(4.2kg) 9.2(4.2kg) 3.5(1.6kg) 3.5(1.6kg) 3.5(1.6kg)
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
61
FOAM EQUIPMENT
FOAM EDUCTORS
In-Line Eductor 205-250
In-Line Eductor • Lightweight alloy • 2-1/2" swivel x 2-1/2" male • 250 GPM (950 LPM) • Complete with 48" pick up hose & 15" tube • Pickup rate may be set at any position between 0% to 6% with detentes at 1/4, 1/2, 1, 3, and 6%
Style
Material
Inlet
Outlet
205-250
Alloy
2-1/2" (65mm)
2-1/2" (65mm)
Style 205 Flow
GPM
LPM
250
950
Length
Weight Lbs(kg)
12" (305mm)
8 (3.6kg)
Portable By-Pass Eductors • • • • •
222-60
222-95
222-125
Brass Construction 1-1/2" or 2-1/2" swivel inlet x 1-1/2" male Allows the operator to easily change from water to foam without shutting down Easy to change into water line use Complete with 30" pick up hose and 15" tube
Portable By-Pass Eductor • 60 GPM (230 LPM) Portable By-Pass Eductor • 95 GPM (360 LPM)
Portable By-Pass Eductor • 125 GPM (475 LPM)
Style
Material
222-60
Brass
222-125
Brass
222-95
Brass
Style 222
Inlet
Outlet
1-1/2"or 2-1/2" (38 or 65mm) 1-1/2"or 2-1/2" (38 or 65mm) 1-1/2"or 2-1/2" (38 or 65mm)
1-1/2" (38mm) 1-1/2" (38mm) 1-1/2" (38mm)
Flow GPM
LPM
60
230
125
475
95
360
Length
Weight Lbs(kg)
17" (432mm) 17" (432mm) 17" (432mm)
22 (10kg) 22 (10kg) 22 (10kg)
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
62
TECHNICAL DATA
FLOW & REACH DATA
The flow and reach data provides you with key information on our handline nozzle capabilities. The following table outlines the flow setting and the straight stream reach for our handline nozzles at various pressures. The data is compiled and updated by our Engineering & Testing departments.
Selectable Gallonage Handline Nozzles Style
360 (page 3)
361 (page 3)
362 (page 3)
Nozzle Pressure PSI
BAR
75
5
100
7
125
8.5
75
5
100
7
125
8.5
75
5
100
7
125
8.5
Flow Setting GPM 5 10 24 40 5 10 24 40 5 10 24 40 13 25 40 60 13 25 40 60 13 25 40 60 12 23 30 12 23 30 12 23 30
LPM 19 37 90 150 19 37 90 150 19 37 90 150 50 100 150 230 50 100 150 230 50 100 150 230 50 90 115 50 90 115 50 90 115
Actual Flow GPM 4 9 21 35 5 10 24 40 6 11 27 45 11 22 35 52 13 25 40 60 15 28 45 67 10 20 26 12 23 30 13 26 34
LPM 15 34 79 132 19 37 90 150 22 42 102 170 42 83 132 197 50 100 150 230 57 106 170 254 38 76 98 50 90 115 49 98 129
Straight Stream Reach Effective Overall Feet Meters Feet Meters 45 13 55 16 45 13 55 16 65 19 75 22 75 22 85 26 50 15 60 18 50 15 60 18 70 21 80 24 90 27 100 30 55 16 65 20 55 16 65 20 70 21 80 18 90 29 105 32 50 15 60 18 60 18 70 21 75 22 85 25 95 29 105 32 55 16 65 20 60 18 70 21 90 27 100 30 105 32 115 35 55 16 65 19 65 19 75 23 95 29 105 32 110 34 120 36 50 15 60 18 65 19 75 22 70 21 80 24 55 16 65 19 21 80 24 70 75 22 85 26 60 18 70 21 70 21 80 24 80 24 90 27
Notes Reach figures are measured with nozzle at 32° above horizontal. Overall reach is considered where the furthest droplets of water fall, in still conditions. Effective reach is considered the furthest portion of the water droplet foot print where fire fighting can be accomplished, in still conditions. These tests are conducted in still conditions, so the actual results will vary depending upon conditions.
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
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The flow and reach data provides you with key information on our handline nozzle capabilities. The following table outlines the flow setting and the straight stream reach for our handline nozzles at various pressures. The data is compiled and updated by our Engineering & Testing departments.
Selectable Gallonage Handline Nozzles Style
366 (page 4)
Nozzle Pressure PSI
BAR
75
5
100
125
75
367, 368 (page 5-6)
100
125
7
8.5
5
7
8.5
GPM 30
LPM 115
GPM 26
LPM 98
Straight Stream Reach Effective Overall Feet Meters Feet Meters 80 24 90 27
125
475
108
409
130
360
95
Flow Setting
60 95
30
60 95
125
230 360
115
230
Actual Flow
52 82
30
60
197 310
115
230 360
30
110
34
85
26
95
29
120
105 125
40
30 38
140
115 135
42
35 41
107
125
475
108
409
125
38
135
41
250
950
217
821
160
48
170
51
95
125 95
150
200 95
125
150
200
250 95
125
150
200
250
230
475 360
550
750
360
475
550
750
950 360
475
550
750
950
67
140 82
130
173 95
125
150
200
250 106
140
168
224
280
129
90
254
110
310
115
401
530
492
654
360
475
550
750
950 401
530
636
848
1060
125
135
145
155
140
150
160
170
175 115
145
160
175
185
27 34
38
41
35
44
47
42
45
48
51
53 44
47
48
53 56
150
39
360
60
34
42
130
125
115
140
36
475
30
475
100
100 120
130
145
125
155
165
150
160
170
180
185 155
165
170
185
195
TECHNICAL DATA
FLOW & REACH DATA
45
30 36
41
44
38
47
50
45
68
51
54
56 47
50
51
56 59
Notes Reach figures are measured with nozzle at 32° above horizontal. Overall reach is considered where the furthest droplets of water fall, in still conditions. Effective reach is considered the furthest portion of the water droplet foot print where fire fighting can be accomplished, in still conditions. These tests are conducted in still conditions, so the actual results will vary depending upon conditions.
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
67
TECHNICAL DATA
FLOW & REACH DATA
The flow and reach data provides you with key information on our handline nozzle capabilities. The following table outlines the flow setting and the straight stream reach for our handline nozzles at various pressures. The data is compiled and updated by our Engineering & Testing departments.
Multi-Purpose Handline Nozzles Orifice Size
Nozzle Pressure PSI 50 75 50 75 50 75 50 75 50 75 50 75 50 75
3/8" 1/2" 5/8" 3/4" 7/8" 15/16" 1"
Combination Flows Style
332 (page 9)
Tip Size 3/8"
1/2"
5/8"
333 (page 9)
3/4"
7/8"
15/16" 1"
BAR 3.5 5 3.5 5 3.5 5 3.5 5 3.5 5 3.5 5 3.5 5
Inlet Pressure PSI BAR 50 3.5 75 5 50 3.5 75 5 50 3.5 75 5 50 3.5 75 5 50 3.5 75 5 50 3.5 75 5 50 3.5 75 5
Smooth Bore Flow GPM 23 50 45 60 75 95 108 135 155 190 187 229 216 266
LPM 87 114 170 227 284 360 409 571 587 719 708 867 818 1007
Flow GPM LPM 66 250 78 295 88 333 107 405 108 409 136 515 199 753 247 935 232 878 289 1094 250 946 313 1185 270 1022 334 1264
Straight Stream Reach Effective Overall Feet Meters Feet Meters 55 17 65 20 65 20 75 23 65 20 75 23 85 26 95 29 85 26 95 29 105 32 115 35 105 32 115 35 115 35 125 38 135 41 145 44 155 47 165 50 135 41 145 44 155 47 165 50 140 43 150 46 160 48 170 52
Fog Flows Style
332
333
Inlet Pressure PSI BAR
Flow GPM LPM
50
3.5
42
160
100
7
60
226
70
5
50
3.5
100
7
75
5
52
197
95
360
135
510
118
445
Notes Reach figures are measured with nozzle at 32° above horizontal. Overall reach is considered where the furthest droplets of water fall, in still conditions. Effective reach is considered the furthest portion of the water droplet foot print where fire fighting can be accomplished, in still conditions. These tests are conducted in still conditions, so the actual results will vary depending upon conditions.
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
68
The flow and reach data provides you with key information on our handline nozzle capabilities. The following table outlines the flow setting and the straight stream reach for our handline nozzles at different pressures. The data is compiled and updated by our Engineering & Testing departments.
Constant Gallonage Handline Nozzles Style
371 (page 15)
Straight Stream Reach Actual Flow 100 psi Effective Overall Flow 75 psi 100 psi 125 psi 75 psi 100 psi 125 psi 75 psi 100 psi 125 psi Setting 5 bar 7 bar 8.5 bar 5 bar 7 bar 8.5 bar 5 bar 7 bar 8.5 bar 13 11 13 15 GPM 55 65 75 65 75 85 50
42
40
35
25
100
60
52
60
254 67
197
230
254
125
108
125
140
95
360
150
550
200
750
250
950
374 (page 16)
230
45
230
475
373 (page 16)
67
197 82
310
409
130
492
173
655
217
821
95
360
475
150
550
200
750
250
821
950
250
300
1140
655
217
260
984
750
300
1140
Meters
GPM
75
85
95
85
95
105
Feet
32
35
LPM
GPM LPM
GPM
168
636
224
848
280
70
21
23
85
26
85
LPM
26
GPM
115
LPM
41
LPM
280
950
750
26
530
401
250
200
23
GPM
1060
173
20
106
950
200
23
LPM
60
150
20
170
52
40
16
GPM
106
LPM
GPM
GPM LPM
GPM LPM
75
23
26
85
26
29
95
105
29
32
29
95
32
105
80
24
26
95
29
38
41
35
38
41
38
135
130 40
150 45
145 44
145 44
160 49
135
160 47
160 49
170 52
115
30
29
100
125
105
32
115
125 38
29
29
105
115 35
26
95
95
90
27
85
125
140 44
140 42
160 49
32
125
135 41
155 47
155 47
170 52
44
165 50
170 52
180
1060
LPM
49
52
56
52
55
59
335
1268
GPM LPM
160
170 52
170
190 58
185
200 61
170
180 55
180
200 61
Meters
Meters Feet
Meters Feet
Meters Feet
Feet
180
GPM
Feet
195
170 52
Feet
Meters
150 45
Meters
55
170 52
Feet
Feet
160 49
Meters
145
135
140 42
Meters
Meters
GPM LPM
Feet
35
224
848
Feet
LPM
28
100
132
230
25
57
83
150 60
372 (page 15)
22
49
55
210 64
TECHNICAL DATA
FLOW & REACH DATA
Feet
Meters
Meters Feet
Meters
Notes Reach figures are measured with nozzle at 32° above horizontal. Overall reach is considered where the furthest droplets of water fall, in still conditions. Effective reach is considered the furthest portion of the water droplet foot print where fire fighting can be accomplished, in still conditions. These tests are conducted in still conditions, so the actual results will vary depending upon conditions. WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
69
TECHNICAL DATA
COMPATIBILITY CHART These charts are designed to help you determine the compatibility of Protek monitors with its wide selection of nozzles and available accessories. It will assist you in choosing the suitable nozzle(s) for your new monitor as well as the accessories that you may like to add in order to broaden the application of your monitor. Monitors Accessories
Combination of Style 911 oscillating flange,and Style 611 monitor and Style 847-BC monitor nozzle
Combination of Style 649 monitor and Style 848-BC monitor nozzle
Industrial Monitors 605 111 611 119 560 699 911 916 612 119 560 699 911 916 633 119 560 699 911 916 636 119 560 699 911 916 648 119 560 699 911 916 649 119 560 699 911 916 655 119 560 699 911 916 736 119 560 699 911 916 Portable Ground Monitors 600-1 119 600-2 119 Portable Dual Purpose Ground Monitors 622-1 119 120 190 699 622-2 119 120 190 699 622-3 119 120 699 Remote Controlled Monitors 922 Electric Valve, Quick Connection Wireless Remote Controlled Monitors 933 Touch Screen Control Panel, Wire or Wireless Joystick Control, Electric Valve 955
Monitors Nozzles (Handline / Monitors / Self-Educting) & Smooth Bore Tips Industrial Monitors 605 106 112 115 366-TO 367-TO 372-TO 373-TO 375-TO 820 611 823-BC 825-BC 830 832 835-BC 845-BC 847-BC 848-BC 887 612 823-BC 825-BC 830 832 835-BC 845-BC 847-BC 848-BC 887 633 823 825 830 832 835 845 847 848 887 636 823-BC 825-BC 832 835-BC 845-BC 847-BC 848-BC 887 888 648 823-BC 825-BC 832 835-BC 845-BC 847-BC 848-BC 887 888 649 823-BC 825-BC 830 832 835-BC 845-BC 847-BC 848-BC 887 655 823 825 830 832 835 845 847 848 887 736 823-BC 825-BC 830 832 835-BC 845-BC 847-BC 848-BC 887 Portable Ground Monitors 600-1 117 118 314-TO 368-TO 375-TO 822 824 600-2 117 118 314-TO 368-TO 375-TO 822 824 Portable Dual Purpose Ground Monitors 622-1 823 825 830 832 835 845 847 848 887 622-2 823 825 830 832 835 845 847 848 887 622-3 823 825 830 832 835 845 847 848 887 Portable Oscillating Ground Monitors 625-1 118 822 824 625-2 118 822 824 Remote Controlled Monitors 922 818E 819E 820E Wireless Remote Controlled Monitors 933 817E 955 855E
888 888 888 889 889 888 888 888
889 889 889 889 889 889
888 888 888
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
70
This chart is designed to help you better understand the performance of our foam eductors at various operating pressures. It will also help you choose a nozzle that is compatible with your eductor. All of our eductors achieve their rated flow at an inlet pressure of 200 psi. At lower pressures the water flow is less, but the flow of foam concentrate will remain the same. Consequently, the foam solution will be a richer mixture than the metering valve indicates. In addition, at lower pressures (flows) the effective reach of the nozzles decreases. Please take this into account when making your initial attack.
TECHNICAL DATA
EDUCTOR/NOZZLE PERFORMANCE DATA
Foam Eductors
Eductor Recommanded Nozzles Inlet (pages 61-62) For Use With Eductor Pressure 201-60 203-60 222-60
201-95 203-95 222-95
366, 372, 366-BC, 372-BC
366, 367, 368, 369, 372, 366-BC, 372-BC, 373-BC, 374-BC
200
120
100
200
150
100
200
150
100
205-250
366, 367, 368, 369, 372, 366-BC, 372-BC, 373-BC, 374-BC
368, 374, 368-BC, 374-BC
GPM
LPM
60
231
52
42
95
82
67
95
82
197
156
360
310
254
360
310
Maximum Nozzle Effective Hose Lay^ Pressure Reach# (feet) (psi) (feet) 100
100
100
50
65
75
90
100
100
150
50
150
250
100 50
250
254
250
150
108
408
150
200
125
100
125 88
475
333
475
75
85
75
95
75
95
90
75
150
100
100
150
50
75
75
90
300
100
100
300
50
75
150
108
200
250
950
200
100
120
100
177
670
150
50
80
100
150
88
217
408
75
150
67
200
203-125 222-125
Flow Rate*
333
821
300
200
Notes * Total flow when picking up 6% foam concentrate through metering valve. ^ Maximum hose lay from eductor discharge to nozzle. # These figures are with foam solution flowing and the nozzle set on straight stream.
75
75
90
110
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
71
TECHNICAL DATA
THREAD INFORMATION
These tables outline the most commonly used threads. However, Protek has the ability to cut many other threads required by the fire service. Generally, there is no extra charge for these unique threads. Style 3/4" 1" 1-1/2" 2" 2-1/2" 3" 3-1/2" 4" 4-1/4" 5" 6"
National Standard (NH) ODM TPI 1.375 8 1.375 8 1.99 9 2.515 8 3.068 7.5 3.6239 6 4.2439 6 5.0109 4 5.7609 4 6.26 4 7.025 4
Straight New York New York Pacific Chicago Iron Pipe FD Corp Coast Fire Dept. (NPSH) (FDNY) (NYC) (PCT) (CFD) ODM TPI ODM TPI ODM TPI ODM TPI ODM TPI 1.0353 14 1.0625 11 1.295 11.5 1.66 8 1.3125 11.5 1.8788 11.5 2.1 8 2.093 11 2.1 11 1.933 11.5 2.3528 11.5 2.561 11 2.55 10 2.841 8 3.03 8 3 8 3.046 7.5 2.99 7.5 3.47 8 3.97 8 4.052 8 4.47 8 5.011 4 4.97 8 5.761 4 6.26 4 5.53 8 6.59 8
Canadian Standard 2-1/2" Hose Threads
Code
Description
ODM
TPI
AMA
Albert Mutual Aid
2.99
8
Province of Quebec Standard
3.031
BCT CSA QST WCT NDC
British Columbia
3
Canadian Standards Association - Ontario 3.125 Western Canada Fire Underwriters Nova Scotia - Zones 1 2-1/2" ANSI 150#
Outside Diameter Thickness Bolt Hole Circle Number of Bolts Size of Bolts
7"
0.75" 5.5" 4
5/8"
3.25
3.234
8 5
7
6
5
5/8"
8
5/8"
4.45 4.95 5.45 6.45
ABBREVIATION DEFINITIONS ODM – outside diameter of male TPI – threads per inch
11 11 11 11
THREAD DESIGNATIONS National Hose – NH or NHT; also called National Standard Thread (NST) National Pipe Straight Hose – NPSH; also called Straight Iron Pipe Thread (SIPT) National Pipe Thread – NPT; also called Tapered Iron Pipe Thread (TIPT) British Standard Parallel Pipe – BSPP British Standard Pipe Taper – BSP
Flange Specifications 3" ANSI 150# 4" ANSI 150# DN80 PN20 DN100 PN20 7.5" 9" 190.5mm 230mm 0.75" 0.94" 20mm 23mm 6" 7.5" 152.5mm 190.5mm 4
British Standard (BSP) ODM TPI 1.041 14 1.309 11 1.882 11 2.347 11 2.96 11 3.46 11
DN80 PN16
DN100 PN16
200mm
220mm
160mm
180mm
16mm
16mm
22mm 8
22mm 8
Please contact us on support@protekfire.com.tw to check availability of a specific thread on your product. WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
72
Liquid Volume Into Multiply By Mililiters (ml) 29.57 Liters (l) 0.4732 Liters (l) 0.9464 Liters (l) 3.785 Ounces (oz) 0.0338 Pints (pt) 2.113 Quarts (qt) 1.057 Gallons (gal) 0.2642 Solid Volume - Weight To Convert Into Multiply By Ounces (oz) Grams (g) 28.3495 Pounds (lb) Kilograms (kg) 0.4536 Grams (g) Ounces (oz) 0.035 Kilograms (kg) Pounds (lb) 2.205 Pressure To Convert Into Multiply By Pounds per Square inch (psi) Kilopascals (kPa) 6.895 Pounds per Square inch (psi) bar 0.06895 Kilopascals (kPa) Pounds per Square inch (psi) 0.145 Kilopascals (kPa) bar 0.01 bar Pounds per Square inch (psi) 14.503 bar Kilopascals (kPa) 100 Length To Convert Into Multiply By inches (in) Milimeters (mm) 25.4 inches (in) Centimeters (cm) 2.54 Feet (ft) Centimeters (cm) 30.48 Yards (yd) Meters (m) 0.914 Miles (mi) Kilometers (km) 1.609 Milimeters (mm) inches (in) 0.039 Centimeters (cm) inches (in) 0.394 Meters (m) Yards (yd) 0.094 Kilometers (km) Miles (mi) 0.6214 Area To Convert Into Multiply By Square inches (sq in) Square Centimeters (cm²) 6.425 Square feet (sq ft) Square Meters (m²) 0.093 Square Yards (sq yd) Square Meters (m²) 0.836 Square Miles (sq mi) Square Kilometers (km²) 2.59 Square Centimeters (cm²) Square inches (sq in) 0.155 Square Meters (m²) Square feet (sq ft) 1.196 Square Kilometers (km²) Square Yards (sq yd) 0.386 Pressures 50 psi = 345 kPa = 3.45 bar 300 psi = 2069 kPa = 20.69 bar 60 psi = 414 kPa = 4.14 bar 350 psi = 2413 kPa = 24.13 bar 70 psi = 488 kPa = 4.88 bar 400 psi = 2758 kPa = 27.58 bar 75 psi = 517 kPa = 5.17 bar 450 psi = 3103 kPa = 31.03 bar 80 psi = 552 kPa = 5.52 bar 500 psi = 3448 kPa = 34.48 bar 90 psi = 621 kPa = 6.21 bar 550 psi = 3792 kPa = 37.92 bar 100 psi = 690 kPa = 6.9 bar 600 psi = 4137 kPa = 41.37 bar 150 psi = 1034 kPa = 10.34 bar 650 psi = 4482 kPa = 44.82 bar 200 psi = 1379 kPa = 13.79 bar 700 psi = 4827 kPa = 48.27 bar 250 psi = 1723 kPa = 17.23 bar
To Convert Ounces (oz) Pints (pt) Quarts (qt) Gallons (gal) Mililiters (ml) Liters (l) Liters (l) Liters (l)
3/4" Tip 7/8" Tip 1" Tip 1-1/8" Tip 1-1/4" Tip 1-3/8" Tip
1" Hose 1.5" Hose 1.75" Hose 2" Hose 2.5" Hose 3" Hose 3.5" Hose 12 gpm 13 gpm 20 gpm 23 gpm 25 gpm 30 gpm 40 gpm 50 gpm 55 gpm 60 gpm 70 gpm 75 gpm 85 gpm 95 gpm 100 gpm 120 gpm 125 gpm 150 gpm 175 gpm 200 gpm 250 gpm 300 gpm 350 gpm 375 gpm 400 gpm 450 gpm 500 gpm 700 gpm 750 gpm 800 gpm 1000 gpm 1200 gpm 1250 gpm 1500 gpm 2000 gpm
Tip Sizes 19 mm 1-1/2" Tip 22 mm 1-3/4" Tip 25 mm 2" Tip 28 mm 2-1/4" Tip 32 mm 2-1/2" Tip 35 mm 3" Tip Hose Sizes = 25.4 mm 4" Storz = = 38.1 mm 4" Storz = = 44.5 mm 4.5" Storz = = 63.5 mm 5" Storz = = 63.5 mm 5" Storz = = 76.2 mm 6" Storz = = 88.9 mm Flow Rate = 45.42 lpm = = 49.20 lpm = = 75.70 lpm = = 87.06 lpm = = 94.62 lpm = = 113.55 lpm = = 151.40 lpm = = 189.25 lpm = = 208.18 lpm = = 227.10 lpm = = 264.95 lpm = = 283.88 lpm = = 321.73 lpm = = 359.58 lpm = = 378.50 lpm = = 454.20 lpm = = 473.13 lpm = = 567.75 lpm = = 662.38 lpm = = 757.00 lpm = = 946.25 lpm = = 1135.50 lpm = = 1324.75 lpm = = 1419.38 lpm = = 1514.00 lpm = = 1703.25 lpm = = 1892.50 lpm = = 2649.50 lpm = = 2838.75 lpm = = 3028.00 lpm = = 3785.00 lpm = = 4542.00 lpm = = 4731.25 lpm = = 5677.50 lpm = = 7570.00 lpm = = = = = = =
= = = = = =
38 mm 45 mm 50 mm 57 mm 64 mm 76 mm
TECHNICAL DATA
METRIC CONVERSION
100mm 101.60mm 114.30mm 125.00mm 127.00mm 152.40mm 45 lpm 50 lpm 75 lpm 90 lpm 95 lpm 115 lpm 150 lpm 190 lpm 210 lpm 230 lpm 265 lpm 285 lpm 320 lpm 360 lpm 380 lpm 460 lpm 475 lpm 550 lpm 660 lpm 750 lpm 950 lpm 1140 lpm 1325 lpm 1420 lpm 1525 lpm 1700 lpm 1900 lpm 2660 lpm 2900 lpm 3030 lpm 3800 lpm 4500 lpm 4800 lpm 6000 lpm 7600 lpm
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
73
TECHNICAL DATA
STYLE NUMBER INDEX
Style 100 101 101-BC 102 102-BC 103 104 105 106 111 112 115 117 118 119 119-BC 120 129 130 130-BC 132 133 135 137 139 150 155 162 176 178 182 190 191 201-60 201-95 203-60 203-95 203-125 204
Page 25 25 25 25 26 26 18 27 27 29 27 27 27 27 46 46 27 29 26 26 26 29 29 29 29 29 28 28 28 28 28 55 29 61 61 61 61 61 22
Style 205-250 210 211 212 213 214 215 216 217 218 219 221 222-60 222-95 222-125 225 226 227 236 238 277 279 280 302 303 304 305 306 307 308-3 308-6 309 310 311 312 314 314-TP 320 321
Page 62 24 24 24 24 24 24 24 24 24 24 46 62 62 62 24 24 24 21 22 23 23 23 19 19 19 19 19 31 35 35 31 11 11 11 11 11 34 12
Style 322 322-SP 323 323-DP 324 324-TP 332 333 360 360-TO 360-BA 360-BC 361 362 366 366-TO 366-BA 366-BC 366-BC 366-BCSP 366-BI 367 367-TO 367-BA 367-BC 367-BI 368 368-TO 368-BA 368-BC 368-BCTO 368-BCTP 368-BI 368-TP 369 369-TO 369-BA 370 371
Page 12 12 13 13 13 13 9 9 3 3 3 3 3 3 4 4 4 4 32 32 4 5 5 5 5 5 6 6 6 6 6 6 6 6 5 5 5 4 15
Style 372 372-TO 372-BA 372-BC 372-BC 373 373-TO 373-BA 373-BC 374 374-BC 374-BC 374-TP 374-BCTP 375 375-TO 379 382 385 386 387-BC 388-BC 392 505 506 510 520 520-BC 530 540 540-BC 541 545 545-BC 550 555 560 585 587
Page 15 15 15 15 32 16 16 16 16 16 16 32 17 17 17 17 34 33 33 33 20 20 34 63 63 64 63 63 63 63 63 63 64 64 63 64 58 64 63
Style 595 596 600-1 600-2 605 611 612 622-1 622-2 622-3 625-1 625-2 633 636 648 649 655 699 736 814 817E 818 818E 818-BC 819 819E 819-BC 820 820-BC 820E 822 822-BC 823 823-BC 824 824-BC 825 825-BC 830
Page 64 64 53 53 48 49 49 54 54 55 56 56 52 50 50 51 52 58 51 35 43 39 43 39 39 43 39 39 39 43 40 40 40 40 40 40 42 42 41
Style 832 833 835 835-BC 837-BC 845 845-BC 846 846-BC 847 847-BC 848 848-BC 849 849-BC 855E 881-BC 883-BC 886 886-BC 887 887-BC 888 888-BC 889 889-BC 911 916 918 922 933 955 2360 2361 2365 2366 2368 2368-TP
Page 41 41 42 42 42 40 40 37 37 37 37 37 37 37 37 43 44 44 45 45 45 45 45 45 46 46 57 57 57 59 60 60 7 7 7 7 7 7
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
74
LIMITED WARRANTY Protek Manufacturing Corp., 64 Kan Su Road, Section #2, Taichung, Taiwan (“Warrantor”) warrants to the original purchaser of the new fire protection equipment manufactured by Warrantor, and to anyone to whom it is transferred, that the equipment shall be free from defects in material and workmanship during the five (5) year period (electrical components two [2] years) commencing upon the receipt of such equipment by the original purchaser. Warrantor’s obligation under this warranty is specifically limited to replacing or repairing its equipment or parts which are shown by Warrantor’s examination to be in a defective condition attributable to Warrantor. To qualify for this limited warranty, the claimant must return the equipment to Warrantor, at its above address, transportation charges prepaid, within a reasonable time after discovery of an alleged defect. Warrantor will examine the equipment. If Warrantor determines that there is a defect attributable to it, Warrantor will correct the problem within a reasonable time. If the equipment is covered by this limited warranty, Warrantor will assume the expenses of repair, except for transportation charges and shipping expenses incurred in delivering such equipment to Warrantor.
If any defect attributable to Warrantor under this limited warranty cannot be reasonably cured by repair or replacement, Warrantor may elect to refund the purchase price of the equipment, less reasonable depreciation, in complete discharge of its obligations under this limited warranty. If Warrantor makes this election, the claimant shall return the equipment to Warrantor free and clear of any liens and encumbrances.
This is a limited warranty. The original purchaser of the equipment, any person to whom it is transferred, and any person who is an intended or unintended beneficiary of the equipment, shall not be entitled to recover from Warrantor any consequential or incidental damages for injury to person and/or property resulting from any defective equipment manufactured or assembled by Warrantor. Warrantor shall have no obligation under this limited warranty if the equipment is, or has been, misused or neglected (including failure to provide reasonable maintenance) or if there have been accidents to the equipment or if it has been repaired or altered by someone else.
THIS IS A LIMITED EXPRESS WARRANTY ONLY. WARRANTOR EXPRESSLY DISCLAIMS WITH RESPECT TO THE EQUIPMENT ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND ALL IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE. THERE IS NO WARRANTY OF ANY NATURE MADE BY WARRANTOR BEYOND THAT STATED IN THE DOCUMENT. Warrantor reserves the right to change the parts or design of its products from time to time without notice, and with no obligation to maintain spare parts or to make corresponding changes in the products previously manufactured. Protek is proud to be ISO 9001:2008 registered with the internationally recognised Underwriter Laboratories Inc. (UL) and CE marking with Bureau Veritas S.A.
WƌŽƚĞŬ DĂŶƵĨĂĐƚƵƌŝŶŐ ŽƌƉ͘ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
WARRANTY
WARRANTY
PROTEK MANUFACTURING CORP.
,ŝŐŚ WĞƌĨŽƌŵĂŶĐĞ &ŝƌĞ &ŝŐŚƟŶŐ ƋƵŝƉŵĞŶƚ
,ĂŶĚůŝŶĞ EŽnjnjůĞƐ ^ĞůĞĐƚĂďůĞ͕ DƵůƟͲWƵƌƉŽƐĞ͕ ƵƚŽŵĂƟĐ͕ ŽŶƐƚĂŶƚ ,ŝŐŚ WƌĞƐƐƵƌĞ ĂŶĚ ^ŚŽĐŬůĞƐƐ EŽnjnjůĞƐ ^ĞůĨͲ ĚƵĐƟŶŐ EŽnjnjůĞƐ ĂŶĚ &ŽĂŵ EŽnjnjůĞƐ Ăůů ^ŚƵƚŽīƐ͕ WůĂLJƉŝƉĞƐ ĂŶĚ ^ŵŽŽƚŚ ŽƌĞ dŝƉƐ EŽnjnjůĞ ĂƐĞ͕ dĞĞƚŚ͕ ,ĂŶĚůĞƐ ĂŶĚ ĐĐĞƐƐŽƌŝĞƐ
^ƉĞĐŝĂůŝƚLJ EŽnjnjůĞƐ tŝůĚůĂŶĚͬ&ŽƌĞƐƚƌLJ͕ DĂƌŝŶĞ͕ &ůĂƐŚŽǀĞƌ͕ ůĞĐƚƌŝĐ͕ ĞŝĐŝŶŐ WŝĞƌĐŝŶŐ ƉƉůŝĐĂƚŽƌƐ ĂŶĚ /ŶĚƵƐƚƌŝĂů &ŽŐ EŽnjnjůĞ
DŽŶŝƚŽƌ EŽnjnjůĞƐ ^ĞůĞĐƚĂďůĞ͕ ĚũƵƐƚĂďůĞ &ůŽǁͲ ĂŋĞ͕ ƵƚŽŵĂƟĐ͕ ŽŶƐƚĂŶƚ ůĞĐƚƌŝĐĂůůLJ ŽŶƚƌŽůůĞĚ DŽŶŝƚŽƌ EŽnjnjůĞƐ ^ĞůĨͲ ĚƵĐƟŶŐ DŽŶŝƚŽƌ EŽnjnjůĞƐ DŽŶŝƚŽƌ EŽnjnjůĞ ĐĐĞƐƐŽƌŝĞƐ
DŽŶŝƚŽƌƐ /ŶĚƵƐƚƌŝĂů͕ WŽƌƚĂďůĞ͕ ƵĂůͲWƵƌƉŽƐĞ͕ WŽƌƚĂďůĞ KƐĐŝůůĂƟŶŐ ZĞŵŽƚĞ ŽŶƚƌŽůůĞĚ ĂŶĚ tŝƌĞůĞƐƐ ZĞŵŽƚĞ ŽŶƚƌŽůůĞĚ DŽŶŝƚŽƌ ĐĐĞƐƐŽƌŝĞƐ
&ŽĂŵ ƋƵŝƉŵĞŶƚ ^ĞůĨͲ ĚƵĐƟŶŐ ,ĂŶĚůŝŶĞ ĂŶĚ DŽŶŝƚŽƌ EŽnjnjůĞƐ ƵĂůͲ&ůŽǁ &ŽĂŵ͕ ƵĂůͲ ŐĞŶƚ͕ ƌLJ ŚĞŵŝĐĂů EŽnjnjůĞƐ &ŽĂŵ ĞƌĂƟŽŶ dƵďĞƐ /ŶͲ>ŝŶĞ ĂŶĚ WŽƌƚĂďůĞ LJͲWĂƐƐ ĚƵĐƚŽƌƐ
sĂůǀĞƐ tLJĞƐ tĂƚĞƌ dŚŝĞĨ ^ŝĂŵĞƐĞ sĂůǀĞƐ
,ĞĂĚƋƵĂƌƚĞƌ Θ DĂŶƵĨĂĐƚƵƌŝŶŐ &ĂĐŝůŝƟĞƐ
/ŶƚĞƌŶĂƟŽŶĂů ^ĂůĞƐ KĸĐĞ
ϲϰ <ĂŶ ^Ƶ ZŽĂĚ͕ ^ĞĐ͘ Ϯ͕ yŝƚƵŶ ŝƐƚ͕͘ dĂŝĐŚƵŶŐ ϰϬϳ dĂŝǁĂŶ DĂŝůŝŶŐ ĚĚƌĞƐƐ͗ WK Ždž ϮϳͲϭϮϲ͕ dĂŝĐŚƵŶŐ dĂŝǁĂŶ ǁǁǁ͘ƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ
WK Ždž ϳϬϳ͕ ĂůǁLJŶ EŽƌƚŚ͕ sŝĐƚŽƌŝĂ ϯϭϬϰ ƵƐƚƌĂůŝĂ DŽďŝůĞ͗ нϲϭͲϰϬϬͲϴϴϴͲϲϯϵ &Ădž͗ нϲϭͲϯͲϵϴϱϵͲϭϭϮϮ ŵĂŝů͗ ƐĂůĞƐΛƉƌŽƚĞŬĮƌĞ͘ĐŽŵ͘ƚǁ ^ŬLJƉĞ͗ ƉƌŽƚĞŬƐĂůĞƐ