Carpenter & Paterson Variable Support 09V.pdf

Page 1

Catalog No.09V

SALES OFFICES AND WAREHOUSES CALIFORNIA 5097 Zambrano Street City of Commerce, CA 90040 Tel: 323 622 1830 Fax: 323 622 1837

NEW JERSEY (SOUTH) 3900 River Road, P.O. Box 556 Pennsauken, NJ 08110-0556 Tel: 856 488 1988 Fax: 856 488 0824

MARYLAND 8941 D’Arcy Road Upper Marlboro, MD 20774 Tel: 301 333 4631 Fax: 301 333 4638

CANADA 921 Barton Street, Unit 3 Stoney Creek, ON L8E 5P5 Tel: 905 664 6866 Fax: 905 664 2751

MASSACHUSETTS 225 Merrimac Street Woburn, MA 01801 Tel: 781 935 2950 Fax: 781 935 7664

SALES OFFICES, WAREHOUSES AND MANUFACTURING PLANTS LOUISIANA 434 Latigue Road Waggaman, LA 70094 Tel: 504 431 7722 Fax: 504 431 7900 NEW JERSEY (NORTH) 369 Jefferson Avenue Saddle Brook, NJ 07663 Tel: 973 772 1800 Fax: 973 772 8333

VARIABLE SUPPORTS

PENNSYLVANIA 484 Galiffa Drive Donora Industrial Park Donora, PA 15033 Tel: 724 379 8461 Fax: 724 379 8463

EXECUTIVE OFFICES 225 Merrimac Street, Woburn, MA 01801 Tel: 781 935 2950 • Fax: 781 935 7664 e-mail: cpsales@carpenterandpaterson.com

www.carpenterandpaterson.com

CARPENTER & PATERSON, INC.

DESIGNERS • ENGINEERS • MANUFACTURERS

DESIGNERS • ENGINEERS • MANUFACTURERS


1. PRICES & DESIGNS: Prices and designs are subject to change without notice. All prices are F.O.B. point of shipment, unless otherwise stated. 2. DELIVERY: Seller will make every effort to complete delivery of products as indicted on seller’s acceptance of an order, but seller assumes no responsibility or liability, and will accept no backcharge for loss or damage due to delay or inability to deliver caused by acts of God, war, labor difficulties, accident, delays of carriers, contractors or suppliers, inability to obtain materials, shortages of fuel and energy, or and other causes of any kind beyond the control of seller. Under no circumstances shall seller be liable for any special or consequential damages or for loss, damage, or expenses directly or indirectly arising from delays or failure to give notice of delay. 3. SHIPMENTS: All products shipped will be carefully examined, counted, and packed. No claim for shortages will be allowed unless made in writing within ten (10) days of receipt of shipment. Claims for products damaged or lost in transit should be made on the carrier as seller’s responsibility ceases and the title passes on delivery to the carrier. 4. FREIGHT: All prices are F.O.B. point of shipment. On shipments weighing 2000 pounds or more, rail freight or motor freight at the lowest published rate is allowed to all US rail points or all US highway points listed in published tariffs (Hawaii and Alaska excluded). 5. RETURNS: Seller cannot accept the return of any product unless its written permission has been first obtained. Credit will be allowed on the basis of the price charged for the merchandise less a standard handling charge of twenty percent (20%) and less any freight charges allowed or paid by seller. Material not in first class salable condition will be subject to the total cost of reconditioning. Special or non-standard products are not subject to cancellation or return except on such terms as seller may specify upon application. 6. PRODUCT APPLICATION: Seller’s products are indented for installation and service as illustrated or described in seller’s catalog. Seller shall not be responsible for any losses or damage sustained by the buyer or any other person as a result of misapplication. Buyer shall defend, indemnify and save seller harmless from any and all liability or alleged liability, expenses, including legal fees arising from personal injuries including death or damage to property caused by reason of improper and/or negligent installation of pipe hangers designed and fabricated by seller. In accordance with our product development program, we reserve the right to revise the design and application of our products without notification. For latest product information, please contact the nearest Carpenter & Paterson office. 7. WARRANTY: Carpenter & Paterson, Inc. warrants for one (1) year from date of shipment that all products of Carpenter & Paterson manufacture will be free from defects in material and workmanship when used for the purpose which Carpenter & Paterson recommends. Carpenter & Paterson warrants the products which it sells of other manufacturers only to the extent they are warranted to Carpenter & Paterson by the supplier. Claim for breach of the above warranty must be made within thirty (30) days from the date the material was determined by the Buyer to be defective or in any event within twelve (12) months from the date of delivery to the original users, unless otherwise stated. If Carpenter & Paterson deems to its satisfaction that the products are defective, the product will be repaired or replaced by Carpenter & Paterson, and no other charge will be allowed for labor or expense in repairing or replacing said product by the Buyer. In any event the amount of any adjustment shall not exceed the net sales price of the defective product. Where engineering design or fabrication work is supplied, Buyer’s acceptance of Seller’s design or delivery of work, shall relieve Carpenter & Paterson of all further obligation other than as expressed in Carpenter & Paterson’s product warranty. The foregoing constitutes the Purchaser’s sole and exclusive remedy under Carpenter & Paterson warranty. THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED, INCLUDING ANY IMPLIED WARRANTY OF FITNESS OR FITNESS FOR A PARTICULAR PURPOSE. CARPENTER & PATERSON MAKES NO WARRANTY OF MECHANTABILITY. IN NO EVENT AND UNDER NO CIRCUMSTANCES WILL CARPENTER & PATERSON BE LIABLE FOR PERSONAL INJURY OR PROPERTY DAMAGE ARISING IN ANY MANNER OUT OF THE USE OR APPLICATION OF THE GOODS WHICH ARE THE SUBJECT OF THIS PROPOSAL. UNDER NO CIRCUMSTANCES AND IN NO EVENT WILL CARPENTER & PATERSON BE LIABLE FOR CONSEQUENTIAL, SPECIAL, OR INCIDENTAL DAMAGES WHETHER FOR BREACH OF CONTRACT OR WARRANTY, NEGLIGENCE, OR ANY OTHER TORTIOUS ACT OR OMISSION. The terms of this warranty can be modified or changed only by authorization in writing by an officer of Carpenter & Paterson, Inc. Carpenter & Paterson neither assumes, nor authorizes any person to assume for it any obligation in connection with the sale of its products or parts of products which have been; repaired or altered outside of Sellers factory; subject to misuse, negligence, or accidents; or used in a manner contrary to the Seller’s instructions or recommendations. Seller shall not be responsible for design errors due to inaccurate or incomplete information supplied by the Buyer, or its representative. Carpenter & Paterson, Inc. reserves the right to revise product design without notification. 8. TAXES: The amount of taxes applicable to the sale of material or services shall be added to the purchase price and shall be paid by buyer unless buyer provides seller with an exemption certificate acceptable to the taxing authorities. 9. PRICING INFORMATION: Orders Of any size will be accepted. However, orders less than $150.00 will be subject to a $25.00 Handling Charge in addition to the cost of the material and freight, if any. Prices are subject to change without notice. We are not responsible for typographical errors. 10. TERMS: Net thirty (30) days; 1-1/2% per month service charge (18% per annum) will be charged on all delinquent accounts plus court costs and attorney fees.


VARIABLE SPRING SUPPORTS

e take pleasure in presenting to the piping

industry the most versatile line of engineered hangers and supports. We enjoy a

position of leadership based upon

years of experience in designing and manufacturing

quality pipe iupport devices. Our supports have been employed with outstanding success in the

chemical, processing and electric power industries. Our personnel are committed to respond quickly

INDEX

PAGE

Service and Specifications ............. ..........2

Design

Features.......

............2

Travel Series, Size and Type Selection................... ....................2-3 Presets and Travel Stops .......................... 3 Instal lation and Adjustment ..................... 3

Size and Series Selection

Procedure.....

........................4

to customer requirements and service needs on

Size and Series Selection Chart

both standard items and specialized applications.

(Imperial - IPS) ........................................5

We

are totally a service oriented company

We are staffed

every phase

with engineers knowledgeable in

ofpipe support design and application.

We are equipped

to evaluate support design on the

Size and Series Selection Chart

(Metric -

MKS)

................6-1

Nameplate and Cutaway Detail................ Figure 291

..............

8

.............8

basis of function, reliability and manufacturing economy, and to suggesi improved designs using either

Manufacturers Conversion Table .............9

standard or custom items

Series 920 Dimensions .....................I'7 -23

for special

requirements.

Series

9I

0 Dimensions ..................... 1 0- 1 6

All products are manufactured under a scientffic,

Series 940 Dimensions .....................24-30

statistical quality control system which assures that

Series 960 Dimensions .....................31 -37

finished product will conform to pre-determined standards highest in the industrlt. It is your guarantee the

of consistent, uniform quality at all times.

Series 980 Dimensions .....................38-44

Technical Information .. .....................46- 49


VARIABLE SPRING SUPPORTS pu{poses. The strength ofthe Travel Stop is designed so that it can withstand (up to) 2 times the normal load. Adjustable Travel Stop - allows the resetting of Preset/Travel Stop at any location within the normal operating range of the travel. Limit Stops - permanently installed to prevent the movement of the pipe beyond a predetermined distance or load within the travel range of the spring. Load Column Guide - for Type F units only, to prevent tipping of the Load Flange due to anticipated eccentric

INTRODUCTION The Variable Support is a spring loaded device used for the support of piping and equipment where normal vertical movement is anticipated. Variable Supports are manufactured in five different Travel Series which allow up to ten inches of movement and twenty-five different sizes allowing up to 50,000 pounds of load. Seven different mounting Types allow the user the widest selection of configurations to accommodate practically every hanger design.

.

RECOMMENDED SERVICE

.

. .

loading.

.

- for Type F units only, the length of the load column is furnished longer than normal per customer request. Lifting Lugs - are available on larger sizes to facilitate erection and installation. Hot-dip Galvanized Finish - available for protection against weather and corrosive conditions. The unit is galvanized to ASTM A-153 except the spring coil which is epoxy powder coated to assure protection to the coil as it flexes. The load column of the F Type spring is electro-

.

galvanized. Maximum ambient temperature for the epoxy powdered coating is 350'F (111' C). Epoxy Paint Finish - available for protection against weather and corosive conditions. The unit is painted with a two-part zinc rich epoxy paint except the spring

Extended Load Column

Normally for support of piping systems where thermal changes cause the system,dimensions and position to change, and where load transfer to equipment is not a problem. Maximum recommended variation from the operating load is 257o. Aconstant suppofi should be used when Variability exceeds 257o. Also used for support of equipment and ductwork to customer specifications.

.

SPECIFICATIONS

. .

spring units are designed to meet the requirements of: ASME Code for Pressure Piping, ASME B31.1, 831.3 Manufacturers Standardizatton Society (MSS), SP-58'

. .

and SP-69 Federal Specification A-A-1 192-A British Standard BS3974

A11

STANDARD DESIGN FEATURES

.

'. . . .

Precompression - precompressing the spring coil into the hanger casing saves headroom by reducing the size of the casing, reduces the installed envelope size and also weight and erection time. Spring casing protects the coil from damage and weather' Steel Construction - spring, casing, and internal parts are fabricated of steel making them rugged and compact' All welding is done to the strict requirements of ASME Section IX. The Piston Plate serves as a centering device and guide maintaining coil concentricity under normal

operating conditions. Load Indicators are visible in the slots and are clearly readable. Stainless steel nameplate and travel scale are corrosion resistant.

. All spring hangers are calibrated for accurate loading conditions. . The unit is preset at the factory to the Cold Load . . . . .

upon request. For each series there is a reserve travel at the upper and lower limits of the working range of the spring'

Allowable spring coil stresses conform to MSS-SP-58' Standard finish is a quality rust resisting primer paint. A turnbuckle or other suitable coupling is utilized for adjustment of rod type spring units. F type springs utilize an adjustable load column. All F type units are supplied with a load flange.

OPTIONAL DESIGN FEATURES

.

Travel Stop - set at the Cold load position changes the spring into a rigid support for hydrostatic testing or other

.

coil which is epoxy powder coated. Stainless Steel Construction - allows the greatest degree of corrosion protection. Constructed completely of stainless steel except the spring coil which can be epoxy powder coated for economY.

DETERMINING THE TRAVEL SERIES In choosing the proper Variable Spring Travel Series it must first be determined that the calculated movement will fall within the working range of the support and that the variability of the unit does not induce unacceptable loads on the other supports or connections. Five (5) standard Travel Series are available ranging from 17+" through 10".

SIZE AND SERIES SELECTION PROCEDURE The size of the Variable Spring suppoft selected depends upon the total piping load to be supported' Complete sizing information is given on the SIZE and SERIES SELECTION PROCEDURE shown in this catalog.

DETEHMINING THE TYPE The type of Variable Spring slrpport to be selected depends upon the physical characteristics of the structure to which the hanger assembly will be attached. Consideration must be given to available headroom, whether the piping will be supported from above or below the hanger, interferences, etc. There are ieven (7) standard types available for each Travel Series; they are: . Tlpe A - Is attached to the supporling member by a vertical rod threaded into the top of the case. . Type B - For use where headroom is limited. The unit has a single lug for attachment to the stlucture to permit connecting with a bolt or pin to a clevis or welded beam attachment.


VARIABLE SPRING SUPPORTS

. . . . .

down limit stops,

lYpe C - Also designed for limited headroom applications. The unit has two lugs welded to the top of the casing to permit connecting with a bolt or pin through a single lug attachment to the structure. Type D - Designed for use where the variable spring is positioned above the supporting structure and spring adjustment is made from the top. Tlpe E - Also designed for use where the variable spring is positioned above the supporting structure, but where the spring adjustment must be below the structure on which the case is supported. Type F - Designed to support piping from below. Used to support pipe from the floor or where supporl from overhead is not practical. Tlpe G - For irse where headroom is limited or an obstruction prohibits the use of a single rod type Variable Spring.

Travel Stops have been removed, readjust the spring unit back to the exact Cold Load setting. Prior to startup, be sure all of the spring units have had their Load Presets or Travel Stops removed, and have been adjusted to their Cold Load setting.

After starlup and when the piping system has stabilized thermally, the Lpad Indicator on the unit should be at the Hot Load (Operating) setting. If it is not, the spring should be adjusted to the Hot Load setting. No further adjustment should be needed.

ORDERING INSTRUCTIONS: When ordering a Variable Spring Support please specify for each unit:

LOAD PRESET BAR AND TRAVEL STOP

1. Tlavel Series: 910,920,940,960, or 980

The Load Preset Bars are installed at the factory at the Cold Load setting of the unit.

2. Spring Bpe: A, B, C, D, E, F or G 3. Spring Size: 0 through 22 for all Travel Series; 000 and

The Travel Stops, which are optional and will be provided only if ordered, include both the Load Preset Bars to preset the unit at the Cold Load setting and more imporlantly a down limit stop which locks the unit at that position.

00 available for Travel Series 920 only

4. Movement and Direction of movement from the Cold (Installed) position to the Hot (Operating) position.

This locking effect results in the unit functioning as a rigid hanger during erection, hydrostatic testing, chemical cleaning or other condition which may cause the unit to exceed its load rating. The Travel Stops are designed for twice the maximum working load of the unit and are installed at the factory with a "Caution" tag which calls attention to the fact that they must be removed before system startup.

I

if applicable. To remove the Load

Presets, the spring load must be increased slightly by use of the adjustment means provided. After the Load Presets or

5. Hot Load (Operating position). 6. Cold Load (Installed position). 7. Rod Spacing: For Type G only, specify center to center rod dimension

8. Customer hanger identification or Mark Number (if any). 9. Finish: Primer Painted, Galvanized, Epoxy Painted, Stainless Steel, or Special Customer Requirements.

NSTALLATION AN D ADJUSTM ENT

B and C units do not come with connection pins to the structure. If required, please order as a Figure 291 and specify pin size and finish.

10. Type

In following these installation instructions note that the adjustment is accomplished by rotating the turnbuckle, rod coupling or load column provided with the spring unit. Firmly secure the spring unit to the structure. Attach the appropriate rod and/or pipe attachment. Cut the banding holding the Load Presets or Travel Stops. Remove the

11.

Specify if unit requires Travel Stops, Lifting Lugs, Limit Stop Load Column Guide, Adjustable Travel Stops or any other special feature desired.

TYPICAL APPLICATIONS OF VARIABLE SPRING SUPPORTS

EXISTING STEEL

iflfl# TYPE A

TYPE B

TYPE C

TYPE D

1,.f1 . ll.r'l!e.

TYPE

E

TYPE F

TYPE G


VARIABLE SPRING SUPPORTS SIZE AND SERIES SELECTION PROCEDURE The key criteria in selecting the size and series of a Variable Spring suppofi is a factor known as Variability. This is a calculation of the percentage change in the supporling force of a variable spring between the Hot (Operating Condition) and the Cold (Installed Condition). The formula is shown below. For practical purposes this percentage relates to the amount of load the spring transfers back into the piping system prior to operation. The lower the Variability the lower the effect on the system while in the Cold position. Since the Hot Load is the actual Operating Load of the piping, loading due to Variability is not a factor.

EXAMPLE: Select a Variable Spring for the following conditions: Hot Load = 307 lbs. or 1366 or 139 Kg

= V2" tJp Variability = 20Vo Maximum

Movement

Variability = Movement x Spring Rate Hot Load

N mm

max.

or 13 mm 207o max.

1. Calculate Spring Rate.

x 307 lbs. = 122.8 lbs. per inch, or 0.50 inches

0.20 0.20

x

'1366

N

= 21 N/mm, or

13mm

0.20

x

139

Kg = 2:4 Kg/mm

13mm

2. Find the Spring Size column on the SIZE AND SERIES SELECTION CHART where the Hot Load is 307lbs., or 1366 N or 139 Kg. (A Size 5, Series 920 fits the criteria).

% Variability = Variability x 100

3. Calculate the Cold Load.

The Cold Load is calculated by adding (for UP movement) or subtracting (for DOWN movement) the product of Spring Rate times the Movement to or from the Hot Load.

63 lbs. per inch x 0.50 inches 11

Npermmx13mm

1.12Kgpermmx13mm

If

an allowable Variability is not specified, good practice would be to :use 257o as specified by MSS-SP-5S.

=

32 lbs., or

= 143 N, or = 15Kg

Since the Movement is UP, add the above load change to the Hot Load.

TO SELECT THE PROPER SIZE AND SERIES 1.

13 207a

SOLUTION:

The Spring Rate is the amount of load required to deflect a spring coil over a given distance and is expressed in pounds per inch (Newtons per millimeter). The Movement is the amount the piping system changes due to thermal growth when moving from the Cold to Hot position.

or

Find the Hot Load in one of Spring Size columns on the appropriate SIZE AND SERIES SELECTION CHART found on page 5, 6, or J.

2. Calculate the maximum allowable Spring Rate from the

307 lbs.

+

32 lbs.

=

339 lbs. Cold Load, or

1366N + 143N = 1509 N Cold Load, or 139 Kg

+

15

Kg

= 154 Kg Cold Load

formula;

Spring Rate

4. Now check to

see if the Hot Load and Cold Load fit in the Working Range of a Size 5 Series 920. If so, you have selected the proper unit.

= Variability x

Hot Load Movement

3. Stay in the column and choose the Travel Series with

a

Spring Rate equal to or less than the value calculated.

4. Calculate the Cold Load and check that both the Hot Load and Cold Load fall within the Working Range of the Travel Series selected.

5. If your requirements

are not met, move to an adjacent Spring Size column and recalculate again using the above

procedure.

If the Movement or loading requirements cannot be satisfied, select

a

Travel Series with a greater Working Range

and recalculate.

If any combination of Load, Movement and/or Variability cannot achieve the desired results the use of a Constant Support should be considered.

If you

are unable to find the proper size and series of your application, please call us.


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VARIABLE SPRING SUPPORTS VARIABLE SPRING CUTAWAY DETAIL

TYPICAL NAMEPLATE DESIGNS

: SIZE ]L

FIG, NO,

CALIBRATED

MARK

LOAD

NUMBER

lN. c -0 =il+

TYPE

LBS.

--112

TRAVEL

SEBIAL NIJMBEF

gl+ 1

-ttA

*l----l f--l

r-]

.,r'f--_-l COLD

HOT

l\ilK.#

SERIAL NUMBER

FIGURE NO.91(l

o

CLEVIS PIN WITH COTTERS

TYPE C PIN SELECTION TABLE

Figure 291 The Figure 291 is used with Type C Variable Springs to secure the spring to the structural connection.

Material: Carbon Steel Finish: Plain, Hot-dip galvanized Ordering: Specify pin diameter, figure number, and finish For Metric applications Specify Figure M291.

PIN

MA)t.

SPRING

DIA.

SIZE

D

E

H

I,

w

RECOM LOAD

00dT03

Yz

3/s

3At

3

1t

16

10

5

76

5T

502',1

6TO8 6TO8

3/+

1/g

./ t6

3

2Vq

1810

19

10

5

76

57

R05t

9TO t1 9TO il 12 AND 13 I2AND 13 14 AND 15

Ts

tk

l/,

3Vt

2710

22

10

83

IVz

Ts

6 Vt

4 102

,q

10

lz/s 35

V, 13

000

To

14AND

5

5

4Vt

6 )/t6

12'l

108

22064

5Y2

4V2

140

114

8000 35587

6

)

t52

16 16

lYs

Y2

41

13

R

7

lTs

Y8

T

48

16

7Aa

7

127 \l/,

11

t78

r46

t 1630 51',]35 15700 6qR40

7Ae

lV+

6

8

57

16

l1

184

t52

9 9

2Y2

)/s

1/u,

8

6,/+

64

11

203

1'71

IU

23/4

16 .A

7Aa

I

6Tt

20100 92A82 2'7200 120996 33500

20

1A

t6

11

2{t7

1T1

r49021

3

Tt

t/16

8Vq

6Tq

4158t)

76

19

11

2t0

171

184964

22

3V+

T+

t/rc

8Y2

22

83

19

11

216

178

50580 225000

5

8

I

1130

12055 49bU

8 the

15

/,


v,&ffi !Affi

R_"H

$pH!ruffi

$L$

pp0mTs

COMPARATIVE SCALED DIFFERENCES

Figure 910

Figure 920

LOAD PRESET BAR AND TRAVEL rLoad

STOP

Fisure e40

Preset Bar

Figure 960

Figure 980

MANUFACTURERS CONVERSION TABLE ANYIL INTERNATIONAL

BASIC ENGINEERS

82

401

B-268

402

98

403

Triple

400

Quad

CARPENTER &

CARPENTER &

P,{TERSON

PATERSON LTD.

BV35

482

DV35

BVTO

468

DVTO

BV140

498

DV140

BERGEN-

BERGEN-

PATERSON

POWER

BINDER

or 3100

910

or 3200

920

or 3400

940

or 3600

vs8

960 q80

VS1 VS2 VS4 VS6

DV21O

LEIBFRIED

COMET/PSL

CENTRAL

FEE & MASON

FRONEK

GRINNELL

V1

FSC-I

410

15

at

s

VS

v2

FSC-2

420

30

B-268

R

VM

V3

FSC-4

430

60

98

D

VL

90

Triple

FSC-6

Quad

POWER

PHS

PIPING

INDUSTRIES

PIPING TECHNOLOGIES

PSC

500

910

PTP-1

910

12

600

920 940 960

PTP-2

920

25

PTP-4

960

50

PTP.6

980

75

700 800

SHAW-

FRONEK

NPS


VARIABLE SPRING SUPPORTS SERIES 910 . TYPE A

SIZE

-*]i*n

ROD

CASE

CASE

SIZE

LGTH

DIA.

A

B

C

G

F'

l:

t/s

t/a

1

22

22

?2

6Ts

8

1/s

Ta

8

r62

102

203

22

22

3.6

4

7Vs

Tt

Ts

M 2

178

t02

22

22

9 4.1

r/z

)e/16

Tt

Ts

12.

87

1Ll

194 8% 213

2?

D, t/t

13

22

5q

194

v,

'73/s

5eAe

1t/s

t/s

Ml2

187

l4t

22

5

Yz

73/s

5gAa

5

M12

187

141

200 75h 194

Ts

Ts

I4

22

6.4 9.1

b

5k

8Vz

6Ys

9

IVs

22 I

6

M16

216

168

229

29

25

YE

8Y2

b78

83/t

IYB

7

M16

216

213

29

IVs

1

29 lVq

25 I 3h

0

5k

8Vz

168 br

M16

116

168

li Vs 206

3/,

10

8%

I0Y+

M20 % M20 )/t

254

219

)6

10

ItJV+

M20

a</

6% 219 8% 219

279

8v

I}Ts

196

2t9

276 10 Vz 267

41

llVt

219 6%

Ir/t

T2

M30

?05

2

I

2

M24 I \rt)a

4 4

WGT EACH

R,

Vz

156

I

0

APPROX

M12

6Vs

t\t 4 4

ROD

ENGM'T ENGM'T

4 102 4

Vz

M12

I 2

lvilN. THD.

254 10

lrn 286

'2U

9.1

tt 10

4tl

1/

35

I%

260

IVt 1)

35

q5

11

11/t

ITs

50

32

35

22.1

1,5

1s/z

51

4l

25.9

15/B

o4 29

5

1Vt

12

5

M30

305

6 6

lVt

l3Vz

M36

1

1.3/t

l5Vs

7

M42

384

8% 219 8% 219 8% 219 8% 219

8

2

l6 >h

123/+

16

8

M48

422

Jl+

406

9 g

I

8r,2,1

123/q

l\{55

464

?)A

20

2V)

215/t

)n

M64

549

.14.1

1

25

20

11r/B

Vs

41

fq

4t

t8.1 43

2

?Rq

ni

1|Ts

l3A

2

?Rq

44

51

IZTI

2

2Vt

14V.t

2Yt

2Tz

143

362

67

60

64.9

5l

51

88

9.9 106 48.1

IVE

251

61

113.9

25/a

784 28R

nrk

73 3V2

441

8S

6'.7

123/q

20Ts

3Tz

3VB

at4

.51

8

98

'79

387 115.5

430

21

23/+

23

l2Tq

2ITq

4W

4VB

21

M72

584 27Vz

324

552

108

105

195

123/q

J//

11L

4W lnR

4VB

AOq

263/t 6'74

1n5

161 7

,.2

t)

3 l\ilROvA

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

Note: Please see page 45 to calculate Rod Take-Out. For cor:rosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C910 For metric units specify the Figure Number with the letter prefix "M" e.g. M910 or MC910.

DIMENsIoNs TEMPERATURE LOADS

Wnrcnr

INcuBs

FAHRENIfiIT

PouNos

PouNDs

Mu-r-rusrnns

CsLsrus

NewroNs

KII.ocRAMs

10


VARIABLE SPRINIG SUPPORTS FIGURE 910 TYPE B 1VllN.

;

SIZE

2 2

m7:) T IIF; WW=

d-

4 4

U

LUG HOLE DIAMETER

CASE CASE

SIZE

LGTH

DIA,

6 6

HG'II

THD.

OF

ENGM'T

PIN H

R

LUG APPROX HOLE WGT. DIA. EACH

A

R

C

E

F

v,

6VE

4

9Ys

1/a

Wz

lV+

Y1

Vrc,

MI2

156

t02

232

22

38

3l

6

t7

Y2

63/t

4

9Vz

Ts

1Y2

lVt

V+

MI2

r62

r02

24]l

22

38 IVz 38

32

6 Vt 6

Vz

1

1

9Vs

Ts

M12

178

102

/-) /"

22

V2

ltA

5eAe

9Ts

Ts

M12

187

141

251

22

l,t/z 38

Y2

T3/t

5ehe

93/s

Tt

11/z

JVTl

187

141

238

22

'7Ts

5eAt

9n

r87 8v, 216

141

232

6,/8 168

nv, lot

IVt

v, '

Ml2 5/s

M16

IVt

2)

lt/t

T

'7

3.2

t/tt

8

l7

3.6

IAa

9 4

1'7

Vq

/ro

12

6

1

5.4

n

38

32 l1/t 32

Vrc IT

5.9

1/t

lVz

lVt

V+

tAt

22

38 lV2

32

6

t7

l/q

Vq

3/rc

'2t)

32

6

2l

9.1

29

1

Vs

8V2

6,/t

9t/8

lVs

7

M16

216

251

29

38 Wz

6

13 1,4

6.4

lVq

V+

3/tt

20

32

6

21

91

\Vq

13/a

22

21 15/tr'

40

)/g

IJ Vz

168 b)

9Ys

IVt

38 IVz

M16

216

168

244

29

?R

1)

Vt 6

I0

87i

1l r/a

IVq

1Vt

1Y4

Ts

32

10

lVt

11/+

3/t

t5/td

43

24

20 50

M20

254

U

3/q

10

0

M20

254

3/q

10

2 2

1

lIVq

M24

286

219 8% 719 8% 219 8% 219

3

I

IIV4

3

M24

286

l4

t2

t4

IVt M30

5

IVc

5

M30

305 12 305

6 5

1V,

13Vz

M36

343

13/t

15Vs

9

f-n

ROD

M20

a<t

.A

?qR

11

l13A ?qR

1Y1

32

38

32

10

I2Vz

1r/+

lVt

LVq

3/t

38

32 IVz

10

24

V1

1Vq

318

32

127/s

1%

X/ri

327 2 V2

1%

219 87i

318

41

l4t/s

l3A

219 8%

?65

44

143/s

13k

219

365

44

8% 219 8%

1.57/s

403

nVq

Z5/s

4l

51

3 '76

10 18

5/a

38

13

?)

1V2

t/2

1Y4

38

13

2

5/s

51

23 57

26 64

1a

29

ty,

68 31

16

38

3 '76

2

Tt

IVz

XX

51

16

38

40

2

J

2Vz

3/+

51

T6

64

19

.i 76 4

2 V1

Yl

64

19

3

1/q

1

106

Y+

48

44 z

t+J

7 1

M42

384

2r9

438

67

8

2

l6%

l2T+

/\)

lt/R

8

M48

422

324

508

T3

o)

t6

1q

60

251 114

9

,!Y4

I8%

I

IJ/4

2It/s

4v,

3

Tc

25h

284

M56

464

3V2 Rq

114

76

ls

67

129

2|r/s

Z7/s

381

20

/,y2 l\'164

13

'21

234

176 430

11

22 22

9 20

556

65

51 1tA

i/t

'241/r,

3Tz

4Vz

4

549

324

II4

r02

l2Yq

4/q

4

4

M72

324

632 26Vt 667

98

/-J 5R4

108

1.r4

t02

'79

195

3

2TY2

123/q

313/t

I

33/z

699

324

806

5 121

4

M80x6

4Vq 10R

1n,

25

86

577 262

1'.)

25

'3YB

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 of this catalog. For ordering specify Figure Number, pin diameter and finish. For corrosion resistant units specify the Figure Number with the letter prefix

"C", e.g. C910 For metric units specify the Figure Number wjth the letter prefix M9l0 or MC910. Note: Please see page 45 to calculate Rod Take-Out.

DrMENsroNs

"M"

Tnlcnrurunn LoADS

e.g.

WETcrrT

INcnEs

FeHnnNnnrr

PoLTNDS

PouNDs

MLLIMETERS

Cs.snls

NEwroNs

KrLocRAMs


VARIABLE SPRING SUPPORTS SERIES 910 . TYPE C MIN.

-l

;I

''

STZR,

?

-l r-T

CASE

CASE

SIZE

LGTH.

A

B 6/s

DLA. C

E

F

4

9VB

Ts

102

1)L

Vz

I

l

M12 v, M12

156

1A

M12

6Ts

4

162 Ot/4

102 4

171

10)

s

rl,t

Ts

V4

lVte

7

22

32

22

6

1'7

-1.L

1T

3.6

rlrc

Ts

l1/z

lVt

t/8

V+

22

38

3?

22

9t/8

t/s

tvt

It/t

11/rc

22

12

))

9

?-12.

6 Vt 6

17

41 t2

9Y2

at1

t/s

3/g

JY/t6

Yt/8

t/8

It/+

1/s

1/+

1t/rc

141

251

22

38

12

22

6

13/s

5e/t

o-1,/"

lVt

LVq

Tt

t/q

Ml2

1?'.l

141

238

Tt 22

17 ItAa

5.4

Vz

38

32

22

6

IT

5.9

V1

T3/s

5e/rc

9YB

Ts

lYz

lVq

Ts

Vt

1t/rc

t4

M12

187

232

22

38

32

22

6

6.4 \tJ

ti/td

9.1 ')t)

11

gt

s/g

8Vz

nv,

1YB

IY2

lYt

ItAe

1/t

M16

216

168

267

29

38

32

1"1

6

tA

612

b78

9t/8

IYs

IYz

lVt

ItAe

lt

2I

T T

M16

216

r68 6% r68 8% 219 8% 219 8% 219 6% 219 8% 219 8% 219 8% 219

251

29

38

9\h 744

LVs

113/+

tqR LITq

2 2 3

3

5

1R7

1

6 6

t0

M16 t/t

)16 10

N420

)\4

3/c

10

M20

254

3A

10

M20

254

1

M24 I M24

Illt

286

IIYt 286

)9

Y2

)'7

6

Ilt

ltAa

Vq

32

21

22 10

3/s

t5/ta

40

10

24

18

1/s

15/a

43

1A

20

t5/ta

)(,

1t

23

11

2'.7

6

1l+

1t lVt

1W

lVt

32

?R

?)

32

1Vt

l1h

I1/t

IK

JI

3At,

298

32

38

-)1

10

l.ZVz

t1/,

IVt

llt

IIA

3/s

318

1/-

38

3?

32

10

IVt

Itit

Vz

IVt

51

38

?1

t1

\1

2t/a

JLI 12V) ?1R

1

41

z

It/z

Lf

41

51

1R

32

14t/s

13/t

2

44

3 '76

2

365

,51

51

I4f8

l3A

3

2

2

T6

51

51

Y8

13

llt

.r

I3 1: t3

32

lr: 38

51 26 64 29

I4

llq

12

14

N{?n

305

5

11/+

r2

5

M30

305

6 6

Wz

13v,

b)A

I5Tt

2

J

2 V)

M36

-14-1

219

403

51

/0

T

13/t

15h

678

lYs

J

64 2 V)

T

M42

384

2t9

438

ig

51

65

i6%

12,/t

2r)

76 4

60

,1.

61 2t/x

64

8

3

ITs

\/,

23/s

251

8

M48

n,

76

I8Y4

l2Tt

4t/t

3

?14

556

3V, 89

114

24Ts

31/s

4tb

9

LUG HOLE DIAMETER

R

lY2 38

17 t3/rc

10

L

T

LUG APPROX HOLE WGT DIA. EACH

141 6%

9 q

A-A

PIN H

M12.

8Y2

l-:

HGT. OF

38 l,t/t

Vz

4 4

THD. ENGM'T

ROD

i)4

365

1 V+

// +t

s0R

88

l6

38

40

2./s

,/+

l,/t

106

60

r9

44

4R

t/t

2

143

19

60

114

.J 7II

1A

2t/s

/h

79

19

6T

284 129

4

37s

I

2j/t 71

M56

4.64

'2V2

215/B

2A

M64

549

Jl4

o5l

98

114

102

86

25

)l/,

23

123/a

LbY4

4V+

4Y2

4

3/s

I

M72

584

324

667

108

1t4

t02

92

)5

3

2712

123/q

3It/t

4Vc

5

4

31/z

1

M80x6

699

3)4

Rn6

lnR

12',7

l0?

98

25

22 22

31

1i:

ZtJ

9

68

t/s S :

3% 86 :

130 195 571

262

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C910

Note: Please see page 45 to calculate Rod Take-Out. For metric units specify the Figure Number with the letter prefix "M" e.g. M910 or MC910.

f)TMENsToNsTEMPER{TURE

Lolls

WRrcnr

IrqcHns

FetnnNHsn

Pouxos

Pouros

Mn-r.nmrsns

Crr-srus

Nr.wroNs

Kn-ocnlvs

12


VARIABLE SPRING SUPPORTS SERIES 910 TYPE D

ROD, NUTS, AND WASHER NOT FURNISHED

ROD

CASE

CASE

HGT. OF

APPROX.

HANGER

SIZE

LENGTH

DIA.

SPACER

WEIGHT

SIZR,

A

B

C

E

M

EACH

t/2

6YB

4

9Y2

2Vt

0

Ml2

156

10,

)41

57

27

V,

63/s

4

93/s

71/+

M]2

162

102

238

57

6 2.7

T

4

10

M

2

178

102

?54

ZVt 57

J.l

5eAt

10,/E

3

M

2

187

141

264

4 4

tyE

)e/).6

i0-/i

5T ) l/,

M

2

t87

141

)6L

\7

1t

5eha

lul^

'2tc

T2

187

141

164

5'7

<A

8k

6t/s 168

1|t/a

23/t

18

216

60

8.2

23/s

I7

60

7.1

23/s

2 2

-ll M

-T

I

7Tt

3

5

t/z

5

l\412

6

5

1

B

6

Ml6

7 7

s/s

8Vz

6Yt

M16

216

168

298 ll3A 298

'|/,

10

4.5

II

'/u

5/t

8Vz

6%

113/t

M16

216

168

298

60

9

Y]

10

E78

I3Tc

IYR

9

219 8% 219 8%

349

67

i6

l33A ?4q

)a/a

'19

67

18

1334

'2Ys

46

M20

254

(.)

1/4

1t)

0

I\,f?0

1\A

3/,

10

a</

9.1 Jf)

219

?4q

6'7

21

1

llVt

85^

2Ts

M24

286

2r9

50 23

J

1

IIV+

2Ts

5'7

3

M24

286

8% 219

15% 397 15% 397

IJ

26

4 4

IVq

I2

6r

IlVt

1t/^

M30

30s

1?{ I7

83

59 27

It/q \,{3n

?n5

L6

1V2

13Yz

t6

M36

?A1

7

ITt

7

M42

r5% 384

219 8% 219 8% 219 8% 219

8

2

16,/s

8

M48

^aa

M20 2 2

-c

.

1

t)

9

t2

IZTt 324

l8/+ M56

1

23/4

324

464

4i2

73

L9Y1

79 3V,

489

8q

21.1/z

33/t

546

9-5

128 58

4

230

235

600 Lit/g 657 29t/z

104

4Vt

l.)6

108

117

4V+ 1nR

34')

4Vz

319 172 485

2Y2

10

M64

549

?14

'152

21

)\/,

23

123/1

21

M72

584

324

3lt/s 752

22 22

3

271/z

123/t

37

5

M80x6

699

324

940

t1'7

123/,t

95 43

102

/U

215

77 15

3Vt

155

II4

lta

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For conosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C910 For metric units specify the Figure Number with the letter prefix e.g. M910 or MCg10.

DTMENSToNS

TEnpnrurunr LoADs

"M"

Wmcnr

INCHES

FaHBeNHerr

POUNDS

PoUNDS

MtLLttr{erEns

Cplsrus

NEwroNS

Knocnaus 13


VARIABLE SPRING SUPPORTS SERIES 910 TYPE E IIANGER

sITn

--C

ROD

CASE

CASE

SIZE A

LENGTH

DIAMETER

B

0

V2

6Ys

0

[iI1 ?

156

C 4 102

t/z

R.H. AND L.H. ROD AND NUT NOT FURNISHED, LENGTH TO SUIT CUSTOIV]ER

REQUIRE|\ilENT

E,dCH

WEIGHT

7/s

6

22

2;7

4

r62

(\2 4

Ts

178

o)

l

M12

22

3.2

3

V2

13/s

10

Mi2

187

5e/a 141

t/s

3

22

45

4

l/"

lls

1l

4

M12

187

5 141

1/s

2?

-5

5 5

Vz

13

5 9/td

7/s

12

'2

2

Ml2

T

e/ta

Ts

6

22

2.1

1R7

141

22

6tk

ln

5.4

8t/z

r6R

?s

7.7

8v, 216

65/s

16R

IVB 79

8.2

5/s

8Y2

6Vs

IVs

M16

216

168

)q

gt

36 16

5

Ml6

T

5/B

7

M16

6

I1

l

IJ

ztJ

3/t

I

10

8%

IV1

M20

254

219

0 0

10

U78

32 TA

M20

254

219

1l

l8

3/,

It)

llr

lV+

46

9

TURNBUCKLE IS FURNISHED

F

63/s

6

F

APPROX.

M12 v,

6

'l lA

MIN.THD. ENGM'T

'/+

39

M20

254

219

32

21

1

111/t

8)A

7i

)U

2

M24

)R6

41

23

3

1

/i

3

M24

IIV4 286

219 8%

219

41

51 26

4 4

It/q

T2

305

8% 219

l./t

M30

AA

59 27

5

IVq

2

678

13/t

.5

N,{?n

305

219

M

77 35

1y, t\{16

1'3Yz

6Yn

747

7

13/q

15Vs

219 6%

51 D/8

43 128

7

M42

\RA

219

67

58

8

2

I6Vt

l2Tt

/,t/8

230

422 I8Y4 464 21sk 549

6 6

8

M48

9

).V4

9

M56

'21)

2V2

20

M64

21

')r/+

21

M72

22

))

3

MROX6

2'3

s84 27Vt 6qq

95

324

71

104

123/t

3Yz

25E

324

89

117

l2Vt 324

3Ta

342

98

155

lT/t

4Vq

3t9

108

t72

l') i/)

4Vt

485

324

108

220

n4

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C910 For metric units specify the Figure Number with the letter prefix "M" e.g. M9l0 or MC910.

DnrmNsroNs Tnupon-rrunn

WEIGHT

INcrns

Fermqmrr

PouNos

PouNDs

Mn-Lnarrsns

CBr-srus

NEwroNs

KLocRAMS

14


VARIABLF SPRINIG SUPPORTS SERIES 910 - TYPE F

B

["]

CASE

CASE

LNGTH.

DIA,

SIZE

B

C

BOTTOM FLANGE BOLT DIA.

0

45/s

4

5/t

tAxTlzxith

7

0

1n

t02

M16

6x190x190

178

+1/g

4

7E

r24

102

M16

'2

5V2

4

5/z

2

140

t0?

lv{16

3

5/r

5e/ta

3/t

?

130

141

M20

4

51/z

5eAe

3A

4

140

141

M20

5

5Tt

5e/rc

t/t

5

r49

141

M20

0

)t/E

OY8

1/4

6

r49

168

1

7

)t/B 149

8

65/z

CIRCLB

n'rrn I

FI,ANGE

tA

x'llz x 7)h

6x190x190 tAxlV2xlt/2 6x190x190 t/+ x'11/z xTlz 6 x 190

x

190

lAx'lVzxTlt 6x 190x 190

tOAD

MAX.

DIA.

THICK,

APPROX WGT, EACH

'31/t

lt

12

168

s8

6

54

61/z

6r/s

156

7

93/+

634

61/s

31/s

Vt

t2

248

162

175

98

6

5.4

9t/1

1

'7Vt

3Ts

Y4

13

r78

248

178

191

98

6

5.9

1,/t

93/+

6Vz

1Vr.

)78

Vt

i8

157

148

165

18r

131

6

8.2

73/t

93/t

5%

t/q

2U

)4?

6Tt 175

1t/t

191

131

6

9.1

1A xTlzxTt/z 6x190x190 YBx9 x9

73/t

93/t

7Vt

191 11L

5%

1/,

2t

197

248 l.\Vt

184

200

131

6

9.5

7Y2

8

63/s

235 9Yl

267

191

203

162

6t/s

9 x229 x229 1/8X9 X9

lq 6

33

M20 r/t

t0v,

8r

6J/1

bY8

Vt

JJ

168

M20

9 x729 x229

lJ)

261

206

222

162

6

15

65/s

3/t

8%

9

O/B

Vq

i)

162

6

8%

V2

o6

213

3 th

31

3 x9x9

9Vt

9Vt

I0Vt

2.35

1.61

lli

l0y4

0r/"

168

168

l\,{?0

9

71/s

8%

3/t

hxl3V,txl3t/t

I\eAa

187

219

M20

10

7Ts

8%

3/t

10

200

219

M20

1i 1i

6Y2

6YB

t/4

165

2r9

268 l0%o 268 l\eAs 268

6t/t

8%

M20 r/t

13x337x33? hxI3tAxl3V+ 13x337x33? V)xI3lAxl3Yl 13x337x33? V2xI3\Ax13tA

lue/16

268

115

719

M20

13 1a

8Vt 210

87s

t/+

219

M20

14

8%

3/+

14

8V, 216

219

M20

13x337x33?

15

83/t

8%

1/,

r/2xl3tAxl3t/4

15

222

219

M20

16

10

8%

Tc

1/2x131/4xI3tA

16

t)+

219

M20

1,lv+

678

'/4

fi

MIN.

LOAD

** FLANGE FLANGI

LNGTH. X

t78

R

n

vlx 9Tt 248

g x229 x229

I

OYERALL

BOUT

BOTTOM

13x337x337

411

238

229 r0.4 264

16lq

9Ts

10%

8%

413

251

)'76

211

j

161/t

91/t

8%

Y2

413

8Vt 216

241

213

16Vq

87

07/a

8%

413 l6Vc

775

251

213

l\Vt

llVt

83/s

15

16

1T

72

74

l3

7t

Y2

78

t3

35

V2xl'3tAxI

Vt

13x337x

11

268

413

260

ll)eAa

16lt

tu '/2

286 LIV2

2r3

lzxl3tAxl3t/t

8-h

l)

413

)6'.7

1q)

21?

?

38

1611 413

l}Ta

8%

Vt

1I\

l3/t 298

213

t3

98 44

161/t

l2

13

8%

13x337x337

268 l0e/a 268 l}eAr' 268

413

305

330

213

V2x13thxl31h

l}eAr,

l6Vt

13Vt

1.4Vt

8t

362 14t/t

12Vz

Vt

378 15%

318

t3

115

l4t/s

I2Vt

Vz

211

?7R

40i

318

-l

123

11

18

I / t/,j

t/z

33 I

1.3

x337 x331

13x337x337

lue/t6

I

3T

L3

84

1/z

113

5l

13

138

V2

286

219

M20

413

JJ/

123/t

3/t

)kxlltAxlltA

268

fZYB 1nR

157+

131/s

T4

2l

M20

16x438x438

400

533

13r/z

123/t

3/t

151/t

?)4 l1t/t

M20

20 20

387

324

M20

16x438x438

400

5??

432

457

3tR

2I

15Ts

I

Tt

5/8x|',ltAx17t/1

T53A

2t

18

19

2t

'tl

403 'lUlB

324

M20

16x438x438

13

l2Tt

'/4

Y2

443

22

511

13

201

19

tq

tt/,

)14

3/t

M20

j/sxll thxll t/! l6x'138x43f t/sxl'ltAxl7t/t

l5-/+ dnn 1.53/t

I

,)I

352

2r3

81

Vz

400

533

457

5/8xlltAxlltA

483

12th 318

151/t

2t

J:)y4

23Vt

121/t

16x438x438

400

533

565

591

318

l3

63 253

t3

153

356

V2

161

+* The Installed Height should be the mid-point between the Maximum and Minimum Overall Height "X" , plus the thickness of the Load Flange, and plus any DOWN piping movement when applicable.

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Installed Height, and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C910 For metric units specify the Figure Number with the letter prefix

"M"

e.g. M910 or MC910.

DrmNsroNs TEMPER{TURE

LoADs

Wnrcur

INcHES

FennENnnrr

PoLrNDs

PouNos

MILLIMETERS

Cpr-srus

NswroNs

Kn,ocnatras

15


i {,,;iX,{\i:irifl-Fi

$pffi I ruffi $U ppffi ffiT$

a'

Ordering: Specify Figure Number (Travel Series), Type, Size, Total Load, Hot Load per spring, Cold Load per spring, Movement and Direction of Movement (frorn the Cold/Installed position to the Hot/Operating position), Center to Center of Rods dimension and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

C-C Rod Dimension as specified by customer +

I

I

For corrosion resistant units specify the Figure Number with the letter pre-

fix "C", e.g. C910 For metric units specify the Figure Number with the letter prefix "M" e.g. M9l0 or MC9l0. Note: See page 45 to calculate Take-Out

rC FIGURE 910 TYPE G ROD

CASE

SIZE

Lf,NGTH

A

B

MIN. TI{D. ENGM'T

0

Y2

6Vg

CASE DLA.METBR C 4

2z/s

1/s

0

M12

156

t02

60

22

V2

bjA

Ta

r62

4 102

2Ta

Mt2

60

22

HANGER SIZE

2 2

E

F'

V2

7

4

,1.1/B

Ml2

178

t02

60

t/B

22

Y2

lrk

)'/16

tt/8

t/s

Ml2

187

141

77

22

Y2

'7Ts

5e/rc

2Tt

t/s

M12

187

141

73

z2

5

Vz

73/s

5e/rc

2Ts

Ts

5 6

M12

187

141

73

22

3Vg

lVB

Ml6

6n 2t6

6Va

6

168

'79

29

I

5k

6t/2

3 t/t

T

M16

2t6

IYs 29

YB

8V2

b) r68 6%

Ml6

)16

168

o

3/t

10

9

6% 215 8% 219

t

M20

254

0

3/t

10

0

M20

a<t

19

a7\u6

C3 x 4.1 C'75 x 6 C3 x 4.1

24

5/s

lY2

25

610

16 5h

38

I 1.3

th

t6

16 3/t

1R

11.8

2

JI

t9

5l

t4.5

t/,

2

t9

51

35 15.9

l+ 610 30

762 30 762 30 762 36

914

)5

36

914

lVt

Jb

914 914

11

r08 1W

32

Cl00 x

lVq

219 8% 219

108

32

57

l5/B

143

41

10

I M24

3

1

I1l.+

678

JY8

3

M24

286

143

41

4

lVq t\,f?0

Iyl

?o5

219 8% 219

44

fs

8

C4 x 5.4 C100 x 8 C5 x 6.7 C130 x 10 C5 x 6.7 C130 x 10

L) X 0./ Cli0 x 10

5

M

I'2

iJIA

)r/4 146 <l/,

5

M?O

30.5

2.19

146

6 6

Wz

13Vz

8%

6

2

M36

-141

219

r52

51

13h

L5'^

8%

6r/s

Zt/t

C8 x

11.5

7

M42

384

219

168

6T

C200

x

8

I

L6%

6t/8

2Tz

8

M48

Aa1

I2Tt t1/

CI2 x 20.7 Cl30 x 3l

U

2V't

lSVq

1.23/t

1Y2

g

M56

464

124

l9l

8g

Cl30 x

l')j/t

1t/a

3t/t

at!. x tu.I

t75

44.

I3/t

IJ '3Vz

C8 x 11.5 C200 x 17 C8 x 11.5 C200 x l7

I2

X

17

20.1 31

2Vz

215/8

M64

549

T4

200

g8

Cli0

2l

2Yq

IJ

123/+

8V+

4n

2t

M72

584

324

210

108

22

3

211/z

12Tt

8Vq

4Y4

22

M80x6

699

324

210

108

C15 x 33.9 C380 x .50 C15 x 33.9 C380 x 50

DnrnNsrorls

TEMPERATURE

INcrms

FAHRENHEIT

POLTNDS

PoUNDS

Mnr-ni,tersns

Csr-srus

NEwroNs

K[ocRAMs

x

il

51

16.8 49

51

22.2

l

C75x6 C75x6

31

Y1

19

1

20 20

16

I 1.3

36

1V4

WErcH'l'

25

38

C3 x 4.1

254 ll.Vt 286

l

ty,

29

3/t

4

7r 16

)\

4Y1

85

t4 610

914

108

WEIGHT EACII

P

C75 x6 C3 x 4.1

C4 x 5.4 C100 x 8 c4 x 5.4

APPROX.

SPACING

w

IVt

M20

I7

C75 x6 C3 x 4.1 C75 x6 C3 x 4.1 CT5 x6 c3 x 4.1

c-c

79 4Vt

1

2

MAX.

'3Ys

1

2

UtLq,NNI'L CHANNEL SIZE C3 x 4.1 C'15 x 6 C3 x 4.1

4lJ ,)

21.8

)J

1

1/

25 1Vt

51

32 IV4 JI

76

914

IV+ 32

3 '76

36

IVt

4

l.'2t

914

38

102

54.9

36

IY)

4

138

914

38

t02

62.6

36 36

86 39

3

J

92 41.7 109

16

494

1Y2

4

r44

838

38

t02

65.3

36

7YB

4

190

914

54

102

86,2

36

IYB

4

226

914

54

10.7

102.5

JO

2

4

300

914

54

102

42

25/s

4

518

t067

67

102

235

42

2rh

4

582

t067

67

102

lo+

4U

D/E

763

1016 48 1219

3Vs

4 102 4

't9

102

48

-)-/t{

4

1219

86

10)

6T

1

36.1

J+O. I lJ7 4 396 4

I 163 5')',1

\


VARIAB[.H SPRIIUG $I.' PP#ffiT$ SERIES 920 - TYPE A

-l

SIZE u00 000 00 00

B 2 2 I

ROD

CASE

CASE

SIZE

LNGTH

DIA.

A

R

{-

MIN. THD

ROD

ENGM'T ENGM'1 F

E

G

WGT. EACH

Yz

8

4

lTs

Tz

Ts

6

Ml2

203

102

200

22

22

2.7

V2

QI/^

4

6t/g

Tz

t/R

M12

235

ll)

22

22

Vz

97/s

102 4

t/B

t/z

l0

M12

251

t02

241

11

22

45 11

9Y2

3.2

Vz

9Ts

4

9n

t/8

t/z

M12

251

o)

241

22

22

5

t/z

4 102

9Vz

Ts

Ts

T2

Ml2

9t/s 251

22

5.4

l0

5eAe

241 95h

22

V2

Ts

Tt

Ml2

254

I4I

244

22

22

l1 77 t9

4

Y2

10

5e/rc

9V8

I/B

t/s

4

M12

254

14r

241

22

22

5

Vz

TU

5eAt

9y8

5 b

M12

141

24

b)

6

M16

Ts 5/z

7

APPRX.

M16 )/8

I

't/z

R6

t/c

20

22

22

g1 28

11V+

IV8

lVs

298 IIr/c 298

168

tR6

)a

)q

13

65/8

lVs

IVs

29

16R

llY4 286

1A

29

l3

llr/t

67s

lIVt

lVs

1.Vs

3l

286 l2Vt

29

29

15

lVq

lVt

)4

r/q

M16

?qR

168

o

Tq

1ZVz

9

M20

318

8% 219

308

32

32

0

3/q

133/t

85/B

]r33/t

lVt

lVt

0

M20

349

219

340

?2

Tq

l2Y2 318

6Y8

Izh

M20

219

1nR

32 IVc 11

32

31

2

1

13

rJ%

125/s

l5h

l5h

2

M24

130

219 8% 219 8% 219 8% 219

76 34

13

1

t?

M24

15% 397

1l

IVq

I6V,

14

M30

419

5

1A

16Y2

,5

M30

419

a/ 67 30 68

321

41

4l

I5Vt

1%

lVs

85

387

4I

4t

39

16

lTt

lt

406

44

44

41

16

ITt

F/t

r20

406

44

44

9t)

6

IVz

19

87

18%

2

2

6

M36

483

2t9

471

51

51

'11

2 lVa

8%

/v/8

2,/z

25/s

2t1

524

6'.7

61

203/s

2Ts

2Ts

96 JJd

518

73

73

153

Lj

3v,

3Yz

J6t 113 546

3/+

T

M42

540

8

2

203/+

I

M48

521

219 l'2r/t 324

U

at /,

I

23V,

l23A

M56

59'7

324

587

89

89

2Vz

29V4

l.2Tt

28Ts

3't/t

3Ts

20 20

,!t

))

v8

156

M64

743

324

iJJ

s8

g8

248

D/J

31./B

l2]/t

'32

4n

4Y4

601

M12

822

11.4

813

108

3

38%

T23A

38%

4Y1

108 4t/4

273 811

M80x6

sR1

i24

981

108

10R

16R

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the HotiOperating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C920 For metric units specify the Figure Nuinber with the letter prefix "M" e.g. M920 or MC920. Note: Please see page 45 to calculate Rod Take-Out.

Wucnr

DnrnNsroNs TnMPER{TURE

INcHrs

FAHRTNHEIT

MTLLTMETERS Cet-srus

Pou\DS

Pot nos

NEwroNS I Ktt-ocr.nrras 17


VARIABLH SPRING SUPPORT$ FIGURE 920 TYPE B

-ll r

:[-] SIZE

-!

CASE

THREAD

LNGTI

DIA.

ENGM'T

OF PIN

A

B

C

R

F

H IV2

LUG HOLE

APPROX.

F'A(.H

WEIGHT

R It/q

T

DIA.

Vt

ItAt

6 Yt

17 IVte

2,7

UUU

Vt

8

4

91/s

000

M12

102

232

22

38

4

1.01/s

t/s

Iy2

32 IVq

t02

257

22

?R

1)

6

17 1r/rc

3.2

UU

Y2

203 ol/,

00

M12

235

2 2

6 7

V2

9t/8

4

11

Ts

TY,

1Y4

t/4

Ml2

251

102

219

22

38

11

6

1'.l

4.5

t/2

9!/s 251

4

i1 279

Ta

IY,

1Y4

Vc

It/ta

11

102

22

38

32

6

17

5

Vz

9Tt

I

It/rc

1.2

Ml2

251

102

)'79

17

10

5eAr,

lllE

5.4

V,

M12

254

141

Ml2

1

]l

4

1/z

10

5e/o

4

Ml2

a <,4

141

283 ll.t/z 283

fVl

t/8

LY2

22 t/t

38

32

Vt 6

lY2

IVt

V,I

22

38

72

t0

tl/rc

I7

6

17

7.1

tt/t,

t9

17 )/rc

8.6

1'l

9.1 28

t/s

LVt

lVt

Vt

22

?8

71

6 Yt 6

5

Vz

I0

5eAe

11Yt

Ts

IY2

11/a

5 6 6

M12

254

141

22

3R

32

lL3/+

brA

lYs

lVz

1Va

Ml6

?qR

168

283 2 t/t )1/

29

16

,jl

Vt 6

)1

13

T

-18

l13A

6%

l23A

Vq

t3/to

')9

7

M16

298

168

29

lVz 38

lV4

T4

lVt

32

6

21

13

s/B

lI3/q

654 168

t') i/,

LVt

\v2

tw

1/,

t3Ae

32

124

29

32

6

21

15

l3Yz

IV+

lVt

./B

15/u,

54

5

Mt6

toa

3/c

l2V2

346

72

12

10

a1

Ilt

24

14Ts

IVz

IV+

3/s

t5/rc.

b/

378

1t

?R

1) lVt

10

24

30

t)/rc

68

32

10

24

31

T6 85 3g

M20

318

IU

3A

l3Tt

l0

M20

349

8% 219 8% 219

3/+

LZt/z

6YE

13s

I%

M20

318

2t9

J40

32

l3

2

t M24

3

1

330 15%

j

M24

397

4

IY4

l.6Vz

4

M30

,)

luc Horr DIAMETER

11/z .J6

2

IV,

t/z

4t

51

38 IV2

13

1W 32

Vz

1Y4

51

J6

13

32

5

IVq

5

M30

419 I6Vz 419

6 6

l,vz

l9

M36

483

219

s49

51

76

l./t

ZIVt

67ri

l3)A

2Yz

-.)

540

l,/14)

8

2

8

M48

52'7

11/,

1.27,a

324 123/t

,)IJJA

9 9 20

M56

23Vz 597

2V7

29Vq

20

M64

743

2

)Y4

21

M72

22 22

3

M80x6

s81

4vR

3tt 11

V+

3

lVs

8% 215 6% 219 8% 219 8% 219 8%

7

t{a

1%

4?R

4l

34

t9

I lq

.i

IV:.

Y2

1Vt

90

4R?

44

T6

38

13

4t

19

t /+

483 1t5h

44

3 '76

38 lV1

2

3

L

)/8

5l 2/2

l 3/q

n4

16 ,/ I lc)

44

'71

2Vz

3/,

2

211

38

219

600

67

76

64

19

123/q

24^

lt/g

4

3/t

fV

619

73

t02

J 16

l9

27%

3V1

4V2

60 DA

701

R9

114

-1./tt

31/s

\)4

IU

38 IY2 18

9 9

I

I

HGT.

CASE

t/t

I

A-A

MIN, ROD SIZE

1/J

J 76 4

tq

51

67

120 54 156

96 338 153

J6t 173 546

324

848

qR

4 1/z 114

t02

25

1i

248

123/t

36Vz

41/t

4Y2

4

1

3Vs

822

324

108

114

102

25

38%

123/t

927 435k

601 213

4W

5

4

1

J/t

811

714

1

108

108

T2T

102

25

86

368

-1

1

't9

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 of this catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specify the Figure Number with the letter prefix

"C", e.g. C910

DrMENsroNs

TElpliurunn

Lo,r.ls

Wsrcur

INcHes

FaHneNup,tt

PouNos

Poulrus

MLLIMETERS

Cemrus

Npwroxs

KILocR{MS

1B

For metric units specify the Figure Number with the letter prefix M910 or MC910. Note: Please see page 45 to calculate Rod Take-Out.

"M"

e.g.


VARIABLH SPRING SUFPORTS SERIES 920 . TYPE C

*l i. s -t t---- T

MIN.

T

LUG APPROX. HOLE WEIGHT EACH DIA.

CASE

CASE

,NGTI

DIA.

SIZE

SIZE A

B

C

E

R

S

T

000 000

v, M12

8

4

9t/B

7/a

IY2

1t/t

t/g

Yq

I|/td

0

203

t02

22

ll

6

tt

2.',|

4

IVt

t/s

102

25'7

22

38 IVz 38

32

9W 235

/,3/, t)%

71

22

Vt 6

1t 174

t/a

IV)

lV+

Ts

V+

t1/tr'

22

1R

32

22

6

17

4.)

11

Ts

lVz

IVq

Tt

V+

1Vrc

11

219

22

38

J/.

22

1l

Ts

1Y2

1V+

t/8

6 Vt

UU

1/z

00

M12

t/f

V2

9t/s

1.41t

251

4 102 4 102

97/s

4

2

v, M12

251

102

279

22

-16

32

22

3

Y2

10

5e/rc

llVs

Ts

IY2

lVt

t/s

3

M12

254 t0

141

22

6

t/g

38 fYz

22

Je/16

283 1l7s

IVt

Tt

141

283

22

38

12

22

U

Vz

9t/s

0

M12

251

2

Vz

M12

a<A

l/r

i2

11/rc,

T

17

3.2

5

tI/a

t'2

6

17

5r'

Vq

tt/ts

IT 7.7

V+

17 t1/tr,

6

17

8.6 20

1t/rc

t/z

lVz

lY4

Ts

Vc

1R

z)

22

6

11

l')3/t ?14

l/s

ty,

11/t

IlAt

V1

t3/to

)g

38

32

21

6

1.23/t

1YB

11/t

lVt

Itla

V+

298

6,/s 168

1l+

29

38

32

2'7

6

21

Il3/q

65/8

123/A

1Vs

lVz

IVt

1I/to

Y4

I

21 t)Ae

V1

I0

JY/16

5 b

M12

254

141

5k

Ilr/t

61/s

6

M16

298

168

5h

1134

Mt6 5/s

1

tRl

10

1'7

2.2

5

T

19

21

9.1 28 I-)

t3/rc

/9

t/tt

13

32

Ml6

298

168

324

29

38

32

2T

6

o

3/+

IIVI

578

13%

IVt

IV,

lVt

lVt

3k

9

M20 Tt M20 t/t

318

219

346

38

12

7?

10

24

3t/t 349

xy8

I 4Ts

32 IVq

54 24

Vz

lf4

It/4

3A

\5Ad

61

2t9

378

32

1R

??

l0

24

30

12Y2

87s

13Ys

lVt

I12

lVt

1) lVt

3/t

15/tr,

bU

M20

?1R

?45

11

JR

32

32

10

1t

I

13

14Yp,

l5

2

IV,

lVq

Vt

lVt

/f)

371

41

51

38 lY2

32

13

32

34 85

0

A.A

THD, HGT. ENGM'T ]F PIN F H

ROD

0

M24

15% 391

4

11/t

16V,

719 8% 219 8% 219 8%

4

M30

419

5

1Vc

16Vz

5

M30

419

6

1Y2

I9

6

M36

2 2 3

t\/{, 1

l3/q 7

M42 ,2

8

I

I I

i1n

lVq

Vz

lVt

3/-

13

i2

i9

3

).

V2

lV2

90

44

T6

38

5i

l3

3R

41

l3/q

I

2

2

5

lYz

120

483

44

T6

s1

s1

16

1R

J4

215/s

2

3

2Y2

23/s

T+

13/t

156

{4q

51

16

64

60

19

44

T1

23,/s

2Vs

21/z

23/s

3/+

2

211

67

3 '76

64

60

r9

51

96

2Ta

4

.J

ZTs

y1

23/B

338 153

2

4l

51

t9

lTt

219

483

678

19

219

540

8% 219 8% 219

600

203/q

l2Tt

243/s

483 I I/r

17

l+

\iI4R

527

324

619

IJ

102

16

)1/,

23/2

123h

3Vt

4Y2

3

M56

597

1a,4

27Ys "/02

89

n4

2V2

10t/1

l23h

333/s

J1/8

4Y2

76 4

20 20

M64

2r

23/t

2I

MT2

822

22

3

38%

22

M80x6

981

tq JA

60 2Yt

t9

6'l

It7

33/z

1

2Ts

546

n

601

'JYs ,7Q

743

324

848

98

114

10?

86

25

lYg

lT/t

4Vt

4 Vz

4

-1-.j/l{

1

124

36Y2 s2'7

10R

114

la2

92

25

l')r/t

435/B

4Y4

5

4

3Ts

I

714

1

108

108

127

r02

98

25

3

31

38 IVz

t5h

438

')

15

382

248 3

79 33

86

811 16R

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish. For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C910

For metric units specify the Figure Number with the letter prefix MC910. Note: Please see page 45 to calculate Rod Take-Out.

"M"

DMENSIONS TEMPERATURE LOADS

e.g. M910 or

WEIGHT

INcHES

FAHRENHEIT

Pounos

Pouuls

Mu-LrNtersns

CeLsrus

NEwroNS

Knocn-c14s


VARIABLE SPRING SUPPORTS SERIES 920 TYPE D

A -l I ROD, NUTS, AND WASHER

CASE

CASE

SIZE A

LENGTH

DIA.

B

C

E

M

00u 000 00 00

Vz

8

4

I23A

4

Mt2

203

102

lnt

Vt

9Y4 ?15

4

i4

02 4 102

14%

4

8

371

102

3.6

Ml2

SPACER WEIGHT

EACH

102

2.1

4

356

1/z

9Ts

M12

251 9Ts

4

l4s/s

4

9

M

2

25r

t02

102

4.r

9 t/g

4

4

l0

M

2

251

r02

311 4% 311

It)

)Y/16

tL{

)

254

141

14,/t ?75

4

l)

10

5eAt

143/t

4

t6

4

Mt2

254

l4t

315

l0?

7.3

E

I 2

j

HGT OF APPROX.

ROD

HANGER SIZE

r02 4

l4

10,

6.4

5

th.

10

4

19

M12 /8 M16

254

5e/a 141

1434

5

315

102

8.6 25

6 6 ,7

0 0 1

13/t

6'A

I6tt/tt

4

298

168

A ),4

102

11

YE

llTt

65

l6ItAa

4

25

M16 % M16

298

168

424

r02

11

l1%

078

l6lho

4

/9

2qR

168

424

r02

13

3/t

I',2t/z

t6

4-y'i

1

M20

?lR

8% 219

451

111

50 21

3/t

131/t

6X

19lt

+-/s

54

M20

349

219

489

111

11

1/+

12Vz

8%

18

1%

t6

64 29

2t9

457

1

13

8%

l9ls

330 5%

2t9

486

117

3

M24 I

dY8

2F/t

M20

1

I2 12

-1

111

41

10

i

32 19

3

M1,4

391

219

552

$/s \17

4 4

It/+

I6th

8)^

23.k

5

M30

419

2r9

<o,4

12'7

5

\w

16Vz

231/t

+1/8

\,{?0

41q

8)^ 21q

.591

124

IVz

19

26t/z

51/c

M36

483

673

133

64

13/t

2IVt

8% 219 8%

293/s

5Vz

190 86 311

6 6

36

r42

7 7

M36

540

219

/+o

140

8

I

lu.A

123/t

29Vz

tYl

M48

324

149

tA6

141

ITA

b

Nit56

527 23Y2 5q7

124

32t/s 835

152

348 158

20

212

2911

123/t

39

6

187

20

1\,{64

743

?14

991

152

221

z1

)l/,

323/s

123/q

423/q

6Vt

534

21

MT2

822

324

1086

159

22

3

38%

123/t

4lJ 7n

22

M80x6

981

J 1,+

t222

8 9 o

2Vt

1/ l

1t1 127

324

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the ietter

prefix "C", e.g. C920 For metric units specify the Figure Number with the letter prefix e.g. M920 or MC920.

DnrpNsrous TEN,TPERAIURE

20

Lolls

WEIGHT

"M"


VARIABLE SPRING SUPPORTS SERIES 920 TYPE E

R.H, AND L.H.

ROD AND NUT NOT FURNISHED. LENGTH TO SUIT CUSTOMER

ROD

CASE

CASE

SIZE A

LENGTH

DIAMETER

MIN. THD. ENGM'T

APPROX.

HANGER SIZE

R

C

F

EACH

UUU

Vt

8

4

Ts

6

000 00 00

t\/{1 ?

203

22

2.1

22

Y1

9V+

102 4

M12

235

02

Vt

9r/A

4

Ts

d

M12

251

102

22

3.6

Vz

REOUIREIVIENT

M12 2 2

IS FURNISHED

9 4.1

97/s

4

Ts

10

l0?

22

4.5

V2

10

Je/16

Ts

14

3

tvf 1?

254

141

22

6.4

4 4

Vt

10

5e/rc

Ts

M12

141

22

t0 254

l6

'7?

5eAa

Ts

19

141

8.6

s/s

IIsA

6jA

22 IV8

M16

298

r68

29

11

17s

25

25

T

5/s

IIft

65

7

M16

298

168

29

11

y8

ll3A 298

b)A

l/i

29

29

13

678

llt

JU

7)

l5

11/t

9

.,4

168

9

M20

l2Vz 318

Lt)

3/t

I3t/t

219 8%

t0

M20

349

2t9

32

3/+

l2Vt

IVt

M20

318

32

29

I

8% 219 8%

J4 24 64

17s

70

2r9

41

)L

1%

79

41

36 64

I

\ru"*rr"l*

Ta

22

251

Mt6

-!

4

l0z

3

6 6

,

3.2

Vt

Vz

MUST BE TACK WELDED BY CUSTOMEF

9 l/F

-251

Tt

Ml2

M12

/

WEIGHT

2 2

M24

l3 3i0

3

I

15%

3

M24

15'.7

8% 219

4

It/t

161/z

l1y8

l3A

4

M30

419

5

1Vt

l6Y2

219 8%

lil t42

5

1\,{10

4t9

2r9

44 FA 44

l6

1V:.

\9

8)^

2

t6

M36

483

64

ITq

2lVt

IYB

l9t)

1

M36

540

719 8% 219

51

1

61

86

8

2

20JA

1)t/t

2t/a

311

8

38

50

M48

52',7

324

71

r41

9 9

123/+

3Vt 89

JI+U

M56

23Vz 597

/t)

2Vz

lol/,

123/t

3Ts

487

20

M64

743

324

LD/8

l23A

98 4Vt

221

2:/+

M72

822

108

3

38%

324 l2Tt

M80x6

981

1l+

108

')) 22

4Vt

158

534 aA1

714 324

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the lettel prefix "C", e.g. C920 For metric units specify the Figure Nrrmber with the letter prefix "M" e.g. M920 or MC920.

WEIGHT

DTMENSToNS TEN'IPER{1'URI INCHES

FAHRENHEIT

PoUNDS

POUNDS

MILrME'rERS

CeLsrus

NEwroNS

Kn-ocRAMs


WARIABN-H SPRING

SI..I

PPORTS

SERIES 920 . TYPE F

X

CASE

CASE

LNGTH

DIA.

SIZE

B

c

000 000

6Vt

4

%

l5q

10?

16

xlYzxlY2 6x190x190

00 00

1t/

4 102

7s

tA

16

6

0

6'

%

1A

0

11

4 102

16

6

754 194

4

5h

r02

16

19

BOTTONI FTANGE BOLT DIA

x

178

xlV2

190 x 190

178

x

190

y

x

t/2

x

yl

7

t78

190 t/2

9Tt 248

73/t 107

9Y1

9

ll

248 9,/t 248

229 It Vq

210

7

Yr/1

9Vs

190 x 190

t78

14R

)?)

834

4

5/s

th x'11/2 x 7t/2

2 J

213

102

16

6x190x190

7 r78

3

t94

4 4

6'/1

5

lYl

9

?10

141

19

191

248

87^

5ela

Tt

I r/t

91/4

6

168

l9

10x229x229

6tA

t/+

%x9x9

7

213 9t/t 248

I0 x229 x229

107+

168 67r

l9

6

./1

z/sx9 x9

19 ./+

98 'lt/s

6

6.8

Vq

I5

s8

6

6.8

llli

23

IA x]Y2 x 1V2 6 x 190 x 190

t/cx9 x9

15

260

10

r/+

3/t

5.4

Vt

11

i/to

lg

6

3t/g

1/t

191

l4t

98

{) Vq

6

lTt

o78

279

qR

xlY)xlV2

8%

12

J 7lt

6x190x190

)15

Vt

j/4

10?

248

93Ae

I|/,

9k

llVs

5%

1/t

232

283

r37

6

l0

9t/4

IIr/t

5il

Vt

26

748

298

131

6

0%

I ) i/o

5-*

lt

u

264

3t4

137

07i

12t/s

6 ta

42

I

6%

i

257

108

162

6

19

LFA

l-178

6-r's

l..l

+t

111

zg2

?q5

?46

16z

6

93/rc

111L

t2

t4

63/s

lJ3

292

305

356

162

t/i 6 )

l}e/te

I6V+

t2v,

14y,

8%

Vz

13x337x337

268

133/t

368 15Tt

1t1

I\eAe

413 6Vt

318

/2xI3thx13t/,

413

349

400

213

10x229 x229

260

168

lul2

8)^

267

219

I

10 1n

113/t ?qR

6/u

1/t

219

9

x i37

11

9,/s

l6Vt

thxl3lAxI3t/,

l3 x

ji7

8%

3/t

t/zx13l+xI3t/,

268 lleAa

219

tg

13x331 x337

268

411

87s

1)t

13%

8.7s

?q5

1t6

213

)lB

L

V,

3/+

lzxI3tAxl3t/,

I\eAa

161+

t9

13 x337 x337

268

413

?OR

14t/t ?5q

21i

13

l2Tt

8%

3/t

ljeAe

161/t

14t/t

16t/q

8%

13

324

219

t9

413

375

425

213

13

12t/s

lJys

Yl

t/2xl3thx13rA

268

T4

l)eAe

I6Vt

l4Ts

16Ts

8Tz

Vt

l4

11-

2t9

t9

13 x337 x337

268

413

429

213

V2x1'3tAxl,3tA 13 x337 x337

\)efu

).614

378 15Vs

268 l\eAe

413

384

ltJt/4

11 Vt

l6

l5Vt

16

?q4

t7

llVz

8)^

t/+

219

o

87i 219

3/t

13Vt

13 x331 x337

\TK

8%

213 li-/r 213 8-h ?11

ls

13x337 xi17

169,

411

445

435 19Vz 495

3/t

1/:x131Ax13Vq

ljeAa

I0f1

19Vt

2IV2

268

+t1 2I

4q5

546

5r/

t9k

2IVt

400

533

4q5

546

t/2xI3tAxI3V,

17

445

8% 219

18

113/s

1234

3/t

:hxlTVtxITyA

l8

441

324

t9

16x438x438

19

195

123/a

r/1

19

13x337 x337

5/sxllrAxlltA l5lt 16x438x438

19

498

324

19

IU

/lt/g

l2:/t

3/t

5 xllrAxIlv

20

581

324

19

16x438x438

2l

25

I2-1/t

)/!

21

6i5

tq

I

2r

)1

l/,

)t/r

1"

/:

3 8

I" V:

533 2

552

IJ

603 21

J 8

53/1

400

63s

686

318

uf

)JJ

r5%

21

21./q

29r/t

16x438x'138

400

51?

705

756

12Yt ?1R

./8x Itt/1x

400

2 Vt

311/z

l23A

Ta

sAxlTlAxlltA

153/t

21

34k

36Vs

1"

f,0n

214

1g

16x438x438

400

511

867

918

3 8

t/z

93 42

V,

8%

t/zx I3tAx

11

88

l3

219

83/t

83

40

13

l014 251

l,

19

16

13

12

I3)/s

12

llV2

8

I

12

1q) 91/r,

9 o

12

11

302

fl

5

5

3Tt

Vt

9Ts

19

V4xlthx'11/2 6 x 190 x 190

6

251

r41

)

3Tt 98

248

$/t

5eA6

tA

93/t

?t? IIt/s

248 9Tt 248

6

ll

**

7

x',1t/2 x71/2

t/a

6

12

APPROX

I

tA

xl

tOAD

LOAD

CIRCLE LENGTH X,I* FLANGE FLANG[ THIfK MIN. MAX. MIN. IMAX. DIA.

2

T

OVERALL

BOLT BOTTOM FTANGE

l0L)

Vz

4\

13

104

Vz

47

110 l0i

13

,i

134

61

13

t/:

t62 T3

13

203 92

Vz

11 1A

331 153

13

366 166 485

Vz

13

ti:

220

13

1.4 t1 Vt 13

\l I

1'

675 306

The Installed Height should be the mid-point between the Maximum and Minimun Overall Height "X" , plus the thickness of the Load Flange, and plus any DOWN piping movement when applicable.

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Installed Height, and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. For conosion resistant units specify the Figure Number with the le-tter prefix "C", e.g. C920 For metric units specify the Figure Number with the letter prefix

DnmNsrollsTnlpnrurunn

LoADs

WEIGHT

INcirss

F,qunBNHrn

PouNos

PouNDs

Mn-r-rursrsns

Cm-snls

Newrorqs

KILocRAMS

22

"M"

e.g. M920 or MC920.

l


VARIAB!.E SPRING SUPPORTS Ordering: Specify Figure Number (Travel

C-C Rod Dimension as speci{ied

Series), Type, Size, Total Load, Hot Load per spring, Cold Load per spring, Movement and Direction of Movement (from the ColMnstalled position to the Hot/Operating position), Center to Center of Rods dimension and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

by customer

--

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C920 Note: Please see page 45 to calculate Take-Out' For metric units specify the Figure Number with the letter prefix "M" e.g. M920 or MC920.

FIGURE 920 - TYPE G MIN,THD. ENGM'T

R(rt

CASE

CASE

HANGER

SIZE

LENGTH

DIAMETER

SIZF],

A

B

C

E

00(.)

V2

8

4

I th

000 00 00

M12

203

t02

41

Vz

9n

4

Ml2

2350

U

Vz

97/s

102 4

0

M12

251

t02

?5

22

V Ml2

9Ts

4

l3h

Ts

22

1+

5k

ty,

24

610

16

38

11

5h

t6

16

lVz 38

5/s

IV,

12 .i(,

t6

38 lY2

30

C75x6

13/z

Ts

C3 x 4.1

1"4

i5

22

C75x6

r3k

Ts

C3 x 4.1 C75 x6 C3 x 4.1

610 24 610 24

s/s

16

C-C

SPACING

C75x6

610

C3 x 4.1 C.15 x 6 C3 x 4.1

an

.k

610

L6

30

22

C75x6

162

1/z

C3 x 4.1

JU

22

C75x6

1/s

C3 x 4.1

48

22

by8

ltl/t

168

l4

38

14

lYz

JJ

3/+

2

4I

t9 )/t

51

19

2

46

1S 3A

51 2

2l

C75x6

762 30 762

l9

51

23

lVs

C:l x 4.1

36

1

I

63

46

29

C75x6 c3 x 4.1 C75x6

914

25

51

)q

36

1

I

62

914

25

51

28

')

11

251

102

J.)

9t/8

4

lTs

2

M12

251

102

35

22

V,

10

5eAa

lTt

Ts

)54

141

48

10

5e/to

I1/s

4

M12 v, M12

254

l4l

5

V2

10

5eAt

48 It/s

5

Mt2

14r

6 6

t/z

254 IlTa 298

1/B

15

5l

5A

llTt

65/c

113/to

IVs

Ml6

298

168

46

29

ll t/q

113/ts

C3 x 4.1

36

1

46

IVB 29

C75x6

914

25

5l

32

lVt

C4 x 5.4

JO

IVt

3

113

914

11

76

-if)

11/t

3

914

32

16

51 1'23 56

36

lVt

3

914

76 4

M16

298

65h 168

Tq

12t/z

8%

lt/8

5

9 q

WEIGHT EACH

t/s

1/z

M16

P

22

'z

4

w

MAX,

F

A PPR()X

CHANNtsL CHANNEL SIZE C3 x 4.1

M20

31R

ato

IJ

i2

Cl00 x

0

Y1

l31A

8%

21/s

lVt

0

M20

14q

2r9

'71

32

3/q

l2Vt

U%

2Ts

lVt

M20

318

2t9

C4 x 5.4 C100 x 8 C4 x 5.4 C100 x 8 c5 x 6.7

36

914

38

102

T3

1%

C130 x l0 C5 x 6.7

36

lt/z

t82

41

Cl30 x l0

914

?R

4 102

C5 x 6.7

JJ

IVz 38

4

191

2V8

102 4

260

I

13

678

3Ts

15/t

2

M24

330

98

41

3

I

l55k

219 8%

3Ts

2r9

98 3I'/16

16t/z

8% 219 8%

M30

419

IVz

19

6

M36

T

13/c

483 2IY1 540

3

M24 Wq

4

M30

4t9

5

lV+

5

6

7

M42

8

2

397 6 Vt

1

'lur/4

143 65

32 IVz

32

2

4

8

1

\/+

97

44

Ci30 x

313/r,

L3/t

C8

2r9

97

44

C200 x 17

J6 914

U%

J'/N

2

L6X ll.)

36

2t9

g8

51

x

10 11.5

C200

x

11.5

17

6y8

354

D/R

c8 x

219

92

C200 x 17

I'2J/+

3Ts

67 l1/8 ,7\

ClZ x

20.7

Cl30 x 31 Cl2x70.T Cl30 x 3l CI2 x20.1

838

t6l

R3

87

54

102

118

'Lt/8

4

54

327 148

2 Vs

02 4

54

102

198

4

69t

t06T

)3 67

102

313

1t

)r/s

4

778

r067

6'.7

r02

40 I 016

Zt/s

4

67

102

353 1081 4S0

4 102

1216

914 36 914 42

431

8

M48

527

124

98

l9

) l/,

23 Vz

1214

3t/B

3Vz

1g

M56 lYz M64

597 fOl/t

324

98

8g

123/q

3Ts

3Ts

141

1a,4

98

98

C130 x

Ly4

3234

123/t

31/a

4Vt

Cl5 x 33.9

48

M72

R?1

324

98

108

219

3

38%

ITA

4Y1

48

33/s

4

t632

M80x6

981

\14

108

4V4 10R

C380 x 50 Cl5 x 3J.9 Ci80 x 50

3Vs T9

t219

86

102

140

20 20

22 22

31

DIMENsIONS TEMPERATURE LOADS

552

WEIcHT

INCHES

FAHRENHEIT

Pounos

POUNDS

MtLLI\4ETERS

Cn.snls

NEwroNS

KILocRAMS

23


VARIABLE SPR!NG SUPPORTS SERIES 940 - TYPE A MIN. SIZE

ROD

CASE

CASE

SIZE A

LGTH

DIA.

B I4Vt 762

C

B

4

l4Ys

Ta

Ts

16

102

22

22

7.3

U

V2

0

tvt't,

4 4

1/"

t6

4

Mr2

406

102

F'

WGT

c

t/F

Tz

17

22

22

7,1

Y2

l'7Vz

4

L:IJh

445

102

441

))

Vz

6V,

5eAo

153/s

Tz

1/8

M12

394

14r

391

22

22

12

5e/rc

I6Ta 429

Ta

Ts

31

22

22

I4

Ts

Ts

-14

l/"

I

7

MTz

432

141

V2

t

l8

lY/1 6

457

141 65k

Ml6

t8% 4r|t 20 508

s/s

M16 ,h M16

2l

1

I

1/p,

1/E

Tz

22

8.6

454

22

22

15

fYB

1/s

4)

r68

ilJ V+ 464

29

29

6j/s 168

2t) 508

l,ls

IVB

29

65

21YB

\vs

29 1/8

20 44 20 53 24

533

168

537

)q

)9

8% 219 8% 219

201/t

IYq

)/

llt

530 24VB

lY4

IVt

9'7

613

32

32

9

T+

2I

9 0 0

M20

533

I

APPROX.

Ml2

)/s

1

ROD

ENGM'T ENGM'T

359 I 5t/s 403

N,{1

6 6

THD.

87 3q

32

r/+

) lJ.t/^

M20

616

3/+

Iyy2

XY8

19Tz

lVq

IVt

44 t15

M20

4q5

219 8% 219 8% 219 8%

492

32

32

52

zIsk

I5/g

l%

54?

41

2 2

1

21V2

M24

546

3

1

3

M24

4 4

I/t M30

lr/t

59 I

683

4t

211/z

lTt

l)A

219

699

44

44

11

)/8

8%

11 t/,

13/q

44

lTa t1

212 96

686 11

41

l/E .11

21 l/,

't05

26Tt

YE

l

156

5 5

Mi0

695

2t9

692

6 6

lth. M36

32tk

6/8

JLY2

2

l6u

829

2t9

826

5l

51

t2T

1 7

ITc

87s

365/s

25/B

2.Vg

3t4

215

930

67

67

170

l,'23/q

J0% 924

/.t/8

lt/8

) /t)

324

1i

t5q

13/^

42

31/z

661 300 943 428

,!. I

M42

q4n

8

2

36Vz

8

M48

927

9 9

2W

42VB

1

M56

i070

1067

89

^) 20

2t/z

49 Vz

324 I2Tq

3Vt 89

49Vs

3Ts

3Ta

M64

t257

324

t254

98

98

21

'2t/q

545h

T/t

54Y2

4t/t

)1

M12

i87

324

1384

4Vt lnR

6T

I2'A

61 Y+

4lt

4Vt

1123

70)

21,1

17n't

1na

4,4

22

1)

3

ItQnv(

1

tna

1

108

\

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C940 For metric units specify the Figure Number with the letter prefix e.g. M940 or MC940. Note: Please see page 45 to calculate Rod Tafe-Out.

f)nr.rRNsror*s TRrrrpnnlrrnR

WEIGHT

INcrns

FaHnlNHBn

PouNDs

PouNDs

Mn-mrnrrns

Csr-srus

NEwroNs

KrLocRAMs

24

"M"


VARIABLE SPRING SUPPORTS FIGURE 940 TYPE B MIN.

? A

SIZE

2 2 3

ROD

CASE CASE

SIZE

LGTH DIA.

A

B

F

l4Vl

C 4

E

Vz

15%

Ts

M12

362

t02

397

T

lVq

w

22

32

6

4

r13k

t/s

11/z

lV4

V4

441

22

38

32 lVq 32

6

t7

V,

11V2

4

L8h

T*

lVz

M12

44\

102

22

38

Vz

I5Yz

5eAr

Ts

lt/z

M12

3q4

141

47q l6Ts 429

I7

18%

fE

22 It/z

Vt 6

12

1Vrc

11

31 14

tl/rr

34

461 I9Ta

22

38

32

6

Ta

lVz

tw

Ml2

457

14r

492

22

38

32

Vt 6

b)

19r/t

IVt

tv,

lVt

Vt

32

6

lVt

IV+

Vt

tJ/te

168

\46

29

38

32

6

)1

44 20

6%

22V, 512

lVz 29

IY,

lVt

t/q

13/r

53

J6

32

21

24

15/ts

87

24

39

,A

21

223/s

lVt

lV2

lVq

9 10

t\itt0

8% 219

568

JZ

38

1)

0

25t/s

lt/q

lt/z

IV4

l0

M20

6r6

3/+

87i 219 UX

1

)lVz

3

M24 I M24

546

3

l4

IV+

l4 5

5

38

1t

10

24

++

lVz

Wa

Tt

15/to

115

530

?)

16

24

52

2

32 lVz

10

F/B

V,

IV,I

129

594

41

13

?''.:)

59

1%

51 2

-16

28Tt

IVz

Vz

llq

t46

686

4I

5r

3R

t3

32

213/t

85^

13/t

3

M30

705

T6

51

16

38

71

273/s

219 8%

44

lVt

3

2

5/s

1.Vz

2r2

M30

219

3\Vz 775 30Vt 768

44

16

5l

16

3

2Y2

t/t

38 I Y+

76

64

t9

678

39Vt

51 25h

/n

280

2r9

35v, 902

2

3

2Vz

T+

2

314

2t9

1006 40Ts

6'l

/o

51

170

4

64 J 76

t9

2Ts

3/+

'23/s

lo

6n

570 259

3 '76

3/t

25/s

661

1q

6T

300

1

2Ts

94'3

T3

u

1

ITt

31

'7

M42

940

8

2

36V2

IVz

EY8

t)t/,

lq

,2

s/B

M48

927

\)4"

102

4'2t/s

123/t

1026 +o

73

11/,

3Vz

4Vz

n?0

324

1

168

89

t14

123/+

+t/2

4

1at

53Ts 1368

3Ts

M64

49Vz 1251

98

114

1t/,

545

127+

)9

4Vt

41/t

102 4

25 I

M56 2t/z

1

66

|/.

156

g6 127

38i

)l+

t499

1nR

114

t02

25

79

428 036 410

-)

67

123/t

111/

t

1Vq

5

4

I

3Ts

t423

M80x6

1702

114

835

r08

T2T

1n,

R6

645

M72 22

32

Llt

z'3k

M36

'2',2

651

nr/8

8% 219 8% 219

6 6

)n

t5Aa

3

2t9

695 J/-t8 829

DIAMETER

)o

38

1Vs

9

M20

21

1Q

2l,t/z

6 rh

2

45

502

168

\9Vz 495

15

b/t6

168

54n

241l

I7

6/i

M16

3A

lo

Vt

5e/rc

^l 508

8.6

1V+

18

M16

19

1"1

1T

432

7

It/tt 1|/rt

Vz

467

t7 7;7

Vt 6

M12

-jlll

16.

M \)

5e/o 141

M16

ro,-.

EACH

r02

1

t9

DL4,, 1l/ttt

16

18%

I

APPROX WGT.

406

s/s

L9

'ro

R

IY2 38

LUG HOLE

V,

6 6

)

I

OF

PIN H

M12

y8

A-A

HGI.

T7 ttAe

-r

3 4 4

THD. ENGM'T

1

1

37s

r

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, cold Load, Mov"-ent and Direction of Movement (from the cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure afe not included with the unit and must be ordered separately as a Figure 29 1 , shown on page 8 of this catalog. For ordering specify Figure Number, pin diameter and finish. For corosion resistant units specify the Figure Number with the letter prefix

"C", e.g. C910 For metric units specify'the Figure Number with the letter prefix M910 or MC910. Note: Please see page 45 to calculate Rod Take-Out.

f)rN{ENsroNs TENPER{TURE LoADs

"M"

e.g.

WEIGHT

INcrms

FennpNHpn

PouNDs

PoLrNDs

MnLfirternns

CBmrus

NEwroNs

Knocneus 25


VARIABLE SPRING SUPPORTS SERIES 940. TYPE C MIN.

Tl

I

ROD

CASE

CASE

SIZE

LGTH

DIA.

A

R

C

E

0

t/z

l.4Vt

4

r5%

0

M12

362

1q'7

SIZE

l

B

1/N

PIN H 1Yl

T

LUG HOLE DIA.

lV4

l/,

tI/td

16

6

\7

t.J

R

s

22

38

lVq 32

Vz

16

173/s

t/a

\V2

IV1

I1

406

102

441

I

h

38

32

J/-

17

1.1

l.lVt

4

1.81/s

22 t/t

W 6

I)/ta

Ml2 2

M12

445

r02

IYt

lVa

lVt

lt

tVe

19

22

3R

32

6

17

R6

Vq

1|/tt

26 12

4

Vz

5eAe

479 l6Ts 429 It%

4

Ml2

4i2

141

+o/

5

Vz

l8

5eAe

19./B

5

M12

457

141

4q)

22

38

32

1Vt 32

6

17

15

18% 467

6s/t

193/t

lY8

lY2

lVt

1W

1/+

t3/tr'

45

z0

3

V2

5 Vz

)Y/16

1

lv{1,

394

141

s

M16

6 7

Tt

It/z

lVq

22

?R

7)

32 lVc 12

Ts

IVt

TK

l1/q

22

38

1) lVt

?2

78

lVt

6 Vt 6

11 tlAa

l7

14

t/t

Itt

34

168

502

29

J6

32

32

6

21

211/z

l,t/s

lVz

IYl

lVt

t/t

t3/t

508

65h 168

546

)q

38

32

21

65k

21V2

IVB

IV2

IVt

32 lVa

6

2I

Vq

t3/rt

00

1R

32

6

21

lVt

lVz

lVt

3k

15Aa

32

?R

32 lV+ 12

12

10

24 15/rc

5/s

20

M]6 % M16

533

I

y,1

2r

lJys

I

N4rn

511

2t9

572 ZT/s 568

3/+

24Vt

6%J

l)Vf

l.lq

11/t

3/8

616

?1q

651

tl

11

10

1

T+

19t/z

'20|/s

IVt

lVt

1Va

3/s

1

M20

495

.530

32

38

32

32

t0

2

1

21V2

8% 215 8%

JI lVt

lV2 38

l14

M20

IVz

I5

th

M24

546

2t9

lys 4t

I

2 J

23Tt 594

38

41

l3

32

I

).t

8%

28Ts

1%

IVt

tv

Vt

lrA

3

M24

686

219

/ -1-)

41

38

11

13

32

--)tf

I

H H

0 0

LI

168

l

lV+

4 4

L

LUG HOLE DIAMETER

WGT EACH

1l lVt

6

LI

F

HGT. OF

102 4

Ar i

THD. ENGM'T

Ml0

705

tk

5

\t/t

5

M30

6

IVz

6

M36

695 325h 829

7 7

l3/t

3T

M42

940

27

.1Ot/'+

ll+

3

2

2

768

44

16

51

.51

35lz

).

3

2t/z

-1,.1

l-t

l6t,

902 39]8

51

76

lq

44

J

2-r's

ft

t21

l./8

64 2V,

2% 60

)

006

6',7

T6

o4

51

40Ta

4

3

60 2t/t

l9

) t/r

3/,

23/t

1026 46

73

102

T6

13

19

60

3Vt 89

4)/z

3

3VB

Y1

25/s

114 4Vt

'76

'7q

19

61

4

3%

I

71/s

t1t,

42Ys 1070 49Vz 1)\'.1

1)\/,

54%

22 22

?R7

r,: 38 fi 1l: 6:38 i

146 66

3

7Vt

1

52 129 5q

76

M56

z1

1Vt

44

9 9

a\/ M72

115

13/t

36Vz 927

\,/t6a

t)/rc

'/1 5

2

2l

97

44

3UY2

M48

t0

87 39

67s

8

2Y2

,2

53 24

219 8% 219 8% 219 8% 219

8

IU

51

1t

31

I

i6

51

156

7r0

lll

96

314 170

3Ts

i24

53Ts 1368

98

114

102

86

1\

'71

1',2-ft

\)t

59

4Vt

4Vz

4

3,/s

i

570 259 661 300 943 428

3YB

t036

1499

108

n4

102

79

L70

4Vt

4

1

33/t

1423

835

10R

5 11'7

92 3Tr

25

I )I/,

1n1

g8

25

86

645

l2Tt 1l+

3

67

1234

M80x6

1702

324

1168

1

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C910

For metric units specify the Figure Number with the letter prefix

MC9l0. Note: Please see page 45 to calculate Rod Take-Out.

WRrcnr

Druonsrolls

TEMPERA.TURT,I

INcuns

FAHRENHEIT

Pouwos

PouNos

Mtr-lnrernns

CBr-srus

NEwroNs

Knocnlvs

26

"M"

e.g. M910 or


VARIABLE SPRING SUPPORTS SERIES 940 TYPE D CASE

HGT. OF

DIA.

SPACER

SIZR,

A v, M12

LENGTH B

C

E

I4V+

1

'J',)v2

7Y2

15

362

102

5'.72

19T

6.8

J 3

c

I

TAKEOI]TI WEIGHT EACH

MI

V,

l6

4

24Y4

7Vz

l5

M12

406

102

6t6

191

6.8

Ilt/z

4

1\1/,

1V2

t6

445

102

654

191

8.2

t5y,

5e/rc

233/t

lI/z

141

635

191

11

Vt

394 IT

't5vt

'tvz

t9 13

M 2

q

APPROX.

CASE

SIZE

ROD, NUTS, AND WASHER NOT FURNISHED

E

ROD

ROD

HANGER

j

N,I

JY/16

at

Ml2

+J,a

141

641

191

5

V,

i8

5e/rc

'7Y2

.5

M12

l4l

191

5

5k

457 18%

261/t 667

65

263/t

43

42

M16

467

168

6't9

ly2 19],

'7

)/g

20

26Y4

TY2

T

M16

508

65h 168

718

19l

1g

t

65

19 t/8

7Ts

51

)o

M16

21 533

168

7s9

200

It

9

1/,

2T

d%

3t)

7Ta

84

9

M20

2r9

to/.

200

t0

3/t

533 24Vt

678

33Vt

7Ts

l0

M20

616

200

19y2

219 8%

845

3/t

28Vz

7Ts

0<

zr9

1a

200

J6 94 +J 9o 44

2fV2 546

8%

31Vs

6'l8

103

219

79t

206

M20 2

I

2

M24 I M24

,4

A

t39

2T

87

JbY8

8r

686

2t9

930

206

63

llq

27T+

8%l

38h

8Vz

t49

4

Mln

705

219

968

216

68

5

I1/t

2'.13/s

678

J t'/8

8%

I,UU

695

2r9

q56

2r3

91

).y8

87s

435/s

83/+

76r

3 3 4

M30 lVz

6 6

3

M35

829

219

I 108

222

118

IT

1.3/+

JI

48Ts

9t/1

J+J

I7

M42

940

8% 219

l24t

235

156

'36t/t

123/+

45V4

JY1

533

:\ 1,+

8

,!

8

M48

9 o

6

615

070

324

I 308

152

279

2Y2

49v,

l23A

\ar/l

6

IJ)U

M64

1251

324

505

152

386

23/c

51%

123/+

6Vt

931

M72

1387

i24

65 1651

159

3

61

| )t/1

76V2

5

702

324

1q41

t2'7

425 I21T 579

t/t

M56

20 20

22 22

1^1

11)/i

1t49 5IVt

146

42Vs

)

M80x6

92'7

1

1

Ordering: Specify Figure Number (Travel Series), Type' Size, Hot

Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C940 For metric units specify the Figure Number with the Ietter prefix e.g. M940 or MC940.

"M"

DftIENSIONS TEMPER{TURE INcHes

FAHRENHEIT

PouNDs

Potxls

Mn,I,IMETERS

CsLsrus

NEwroNs

Kn-ocRAMs


VARIABLE SPRING SUPPORTS SERIES 940 TYPE E

MUST BE TACK WELDED BY CUSTOMER

R.H. AND L,H. ROD AND NUT NOT FURNISHED. LENGTH TO SUIT CUSTOMER REOUIREMENT

ROD

CASE

CASE

MIN. THD.

APPROX.

HANGER SIZE

SIZE

LENGTH

DIAMETER

ENGM'T

WEIGHT

A

C

F

EACH

U

Y2

4

t/t

I .5

0

M12

B I4Vt 362

102

22

6.8

2 2

V2

I6

4

Ts

Mt2

406

r02

22

t/z

4

Ts

18

445

102

22

8.2

v,

L5Y2

Je/16

1/a

24

M12

iq4

141

22

11

t7

)t/t6

t/s

t9

432

141

22

t3

18

5eAt

t/s

11

4 4

M

2

) 5

6 6

Vt

Mr2

,1<1

141

22

)/g

l8%

6%

|/s

M16

467

168

29

1n

/t

/t)

6Y8

lVs

42

508

M

tu{1

2

6

19

2I

168 by8

29

,/s

51

Ml6

l/s

533

168

29 lV't

l3

87s

2t9

J/-

8% 219 8% 219 8%

lVt

38 9+

12

43

Tt

M20 F

L.H.

T

THD. MUST BE TACK WELDED BY CUSTOMER

/

3/t

0

M20

616

Y+

19y, 495 ZI12

M20 1 3

6"

3

-

4 4

I

1lt/.

0

,2

43

I

M24 I M24

21

219 llr

686

219

546

lVt

878

M30

705

1W

/- t-18

d4

lY1

32 l5A

44 103

41

47

1% 41

139

tr/

u

63 11!

M30

695

I12

325/8

219 8% 219 8%

M36

829

219

5l

|8

7

I3/t

3t

87

2t/B

J+J

7

M42

940

2t9

61

156

36 Vt

l2Tq

114

533

R

z M4R

324

13 3 V2

615

89

279

5 5 6 6

I

o

2V+

9

M56

20 20

2t/z

927 42Y8 1

n?0

12r/t 214.

68

t/t

44 2

261

242

l!/1

3t/a

85t)

M64

49V2 1251

324

g8

386

2I

lY4

54Ys

123/q

41/+

931

21

M'|2

1387

324

108

425

22

3

61

123/+

4V+

),?

MROX6

1'.7{\1

111

lnR

1277 5?0

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s)

as

necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C940 For metric units specify the Figure Number with the letter prefix e.g. M940 or MC940.

DrlrnusroNs TrMpnruruns

Loitos

WEIGHT

INcrms

FeunrNHBrr

PouNos

PouNos

Mn.LIN{ETEns

Cstsrus

NEw-roNs

Krlocnnus

28

"M"


VARIABLE SPRING SUPPORTS SERIES 940 . TYPE F CASE SIZR

T

-T

DIA.

LOAD LOAD APPROX OVERALL LNGTH. X ** FLANGE FLANG[ WGT. EACH DIA. THICK. NIIIN. lllAx. MIN. 1 N{AX, 3t/N It 14Vt l6Yt 7 93/t 1/a 6 10 4t3 98 362 178 BOLT

CASE BOTTON,I

LNGTH. B

C

FLANGE BOLT DIA.

I ).r/l

4

)/s

1/J

6x19lx19l

BOTTOM FT,ANGR

xlll

x lrL

CIRCLE

'T

324

102

t6

14Vt

4

5A

14x71/2xlt/2

1

93/t

6

368

102

t6

6x191x191

178

406

45'.7

16

4 102

%

tA x'7|L x 11/)

Ilt/t

l6

6x191x191

178

248 9,/t 248

19Vt 495

<t)/.,

3/c

1A

tlt

93/t

11,/s

359

141

19

6x191x191

r91

248

448

t37

6

t7

157:

5e/rc

3A

tAxlhxlth

15% 351

13/q

93/t

to78

18

5%

t/.t

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197

248

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457

137

6

43 20

1t/s

93/t

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20.r'n

5-r/"

lt

16

518 20% 518

111

:lf) 565

63/s

406 141/s

xlV) xlv2

1

1

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1/t

3t/r, gR

10

31/s

tA

t6

98

6

12

5%

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Jti

394

141

19

5

16r/8

5e/rc

./+

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5

429

111

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197

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16% /al

6%

3/t

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l0j/:

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168

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467

6Ys

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235 9t/t

267

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1g t/c

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20lr

470

168

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261

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235

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hx137+xl3f

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213/t

498 11 I

219

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13x337x337

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591 ) t5/"

162

19%

413

552

600

213

8%

3/t

)

562

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1g

llTt

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151

219

1g

I9

8%

3/t

1

483

719

1g

3

74VB

87s

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10

10

2

x229

r,4xlJ/+x137 1i x 137 x 337 thx131AxI3V.

i3x337x33?

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6

78

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162 63/s

6

28

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6 \h

8%

l3l

l6Vt

tt/1

261/t

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V2

4tJ

616

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213

13

l0%o 268

16Vt

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8-/s

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413

505

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552 ,)J

211

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584

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714

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8t

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175

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6./8

I/z

19 11/

281

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411

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r,r:x13/.lxl-17+

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ft

l]ela

l6Vt

26t/s

5

24Vt 622

13x337x337 l3)Ax IJt/.

).6th 673

219

19

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268

113

616

724

213

6

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3/t

1/2xI3tAxl31A

16Vt

3lVt

33 Vt

8-r'i

t/z

6

740

1g

13 x 337 x 337

10%r 268

413

794

l1

33lt

8)^

.1/t

thx 1314x l3t/.

l0%o

l6Y1

35./8

845

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tg

x 337 x 337

268

413

899

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I )\/t

3/t

'Ax11tAx111/. 16x438x438

15%

2I

347s

8

816

1)A

t9

123/t

19 3/t

T9

36% 930

324

l9

20 20

+-1lJ 1 095

1

))/

3/t

21

48l/r 1232

123/t

r/t

s/sxlltAxl'7V

Jl+

1g

16x438x438

59%

I

t-rll

3/t

s/sxI71/txllA

15X

2I

1521

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1g

16x438x438

400

533

21

22 22

324

19

)kxlltAxll\/

16x438x438 '/BX LlrAx llt/.

16x438x4i8

59 I/')

161/+

219

13

2t)

54

611

11

L

13

241/t

hx

62

]eAo

8% 219

**

5%

6 l/,

268

1/2x13tAxl3tA lleAe 13x337x337 268

Ix13hx13I

23

6

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)1

1IJ

102

841

213

13

127

'JlVt q46

8%

Vz

378

211

13

\11

36lt

12Vt

Vz

)0r, 255

400

533

3,61

921

318

13

i5/+

2I

38%

403/+

12Vt

Vt

611

400

s33

981

1035

318

13

280

48 1219

l2th

)h

318

t3

855 388

157+

2I

46

400

533

i168

157+

zt

50%

525/s

121/z

t/:

400

533

1286

1

???

1tR

t3

910 413

62r/t 594

1

643/+

I2Vt

1/:

123 I

645

318

13

55t

1

The Installed Height should be the mid-point between the Maximum and Minimum Overall Heighr "x" , plus the thickness of the Load Flange, and plus any DOWN piping movement when applicable.

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Installed Height, and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary' For conosion resistant units specify the Figure Number with the letter prefix "C", e.g. C940 For metric units specify the Figure Number with the letter prefix "M" e.g. M940 or MC940.

I)rN,rENsroNS

TEN{pERdruRE

LoADs

WETGHT

lNcrEs

FAHRENHEIT

PoUNDS

PoUNDS

MLLIMETERS

CBr-srus

NEwroNs

KtLocneus


VARIABI-E SPRI NG

SI.J

PPORT$

Ordering: Specify Figure Number (Travel Series), Type, Size, Total Load, Hot Load per

spring, Cold Load per spring, Movement and

Direction of Movement (from the Cold/ Installed position to the Hot/Operating position), Center to Center of Rods dimension and Hanger Identification Number (if any). Specify any other optional f-eature(s) as necessary. For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C940 For metric units specify the Figure Number with the lefter prefix "M" e.g. M940 or MC940. Note: Please see page 45 to calculate Rod Take-Out.

L-c-l FIGURE 940 TYPE G ROD

CASE

CASE

NIIN. TIID.

HANGER SIZE

SIZE

LENGTH

DIAX,IETER

ENGM'T

A

B

U

1/z

AN

0 I I

M12

362

C 1 102

Y2

l6

1

M12

446

I

t/z

I 1 Vt

2

Ml2

3

12

3

Mt2

1

1/z

4

Ml2

APPROX.

MAX.

SPACING

C.C

w

P

EACH

1%

F Tt

l4

5/s

l/2

42

3-5

22

C75x6

610

tq

Ts

C3 x 4.1

at

38

t%

16 r

IVz

43

t02

35

72

C75x6

610

16

38

2A

4

l3l

Ts

C3 x 4.1

'24

5/s

445

102

C75x6

610

16

)e/t6

22 t/t

48 22

l5Yz 794 I1

35 l 1/t

lt/z IX

C3 x 4.1

30

3/q

2

6l

141

48

22

C75x6

762

19

.51

28

Ci x 4.1

30

3A

2

7t

141

1t/s 4R

t/s

22

C75x6

762

19

51

32

E

JY/16

WEIGHT

Vz

18

5eAa

lTs

t/s

C3 x 4.1

JU

3/t

2

M12

45'7

141

4R

22

C.75 x 6

19

51

77 35

b

%

18%

I

t00

467

1Vs 2q

I

M16

C75x6

9\4

25

51

45

Yli

/U

6%

lTs 48 1l/t

C3 x 1.1

6

654 168

762 Jf)

1t/s

C3 x 4.1

J6

I

I

9E

M16

508

168

48

29

C'15 x 6

914

51

44

78

Ml6 9

I

M20

0

1/1

0

M20

2 2 3

2

67

lt/t

1r

1

168

48

29

C3 x 4.1 C15 x6

36

533

914

25

2t

lJy8

Lv,r

u4 x ).4

36

11/t

3

533

2\9

32

C100 x 8 C4 x 5.1

9t4

'tl

76

83

Jb

lVt

3

204

Cl00 x

914

32

76

ol

-ib

lVt

3

24

914

32

76

36

IVt

4

s14

1R

10t

36

4

914

IVz 38

102

138

36

IV,

4

324

914 Jb

38

102

147

) t/a

4

445

914

54

-i0

Ly8

102 4

)/J

9t4

54

102

260

36

'2Yt

914

54

346

4'.)

23/t

ta67

4 102 4 't0?

T3 l,t/f

EYs

7i

lVt 1)

I

M'O

4q5

1

2IVt

219 8% 219 8%

M24

546

219

98

41

Cl30 x

I

27

8%

31/s

1%

98 3t/s

13/q

C5 x 6.7 C130 x 10 C5 x 6.7 C130 x 10 C8 x 11.5 C200 x 1? L6 X ll.)

t/c

l9Vt

)7h '7?

lV1 11

31/s

l)^

C4 x 5.4 C100 x C5 x 6.7

I

10

I16

5i i84

109

ut ?l

i01

3

M24

686

4 4

).1+

llt/4

M30

705

219 678 219

5

IV+

21)/B

678

M30 It/z M36

6952

219

6

3',D

8/s

829

.51

C.200

3T

3Ys

25

M12

940

215 8% 219

g8

lTq

92

67

8

2

36Y2

l23A

J78

21/s

8

M48

921

Jl+

98

73

C8 x 11.5 C200 x 17 C12 x 20.7 C130 x 31

42Vs

123/t

-)

3Vz

Cl2 x20.7

42

60 25h

324

98

89

Cl30 x 3l

1067

6T

102

606

I )l/" 71,4

3t/g

.1t/N

40

2Ts

98

Jt/s

4lt

LI)

1016 46

3Ys

4 102 4

t874

98

C12 x20;l C130 x 31

98

108

79

102

946

4t/t

41/t 108

4

2656 1295

6 7 7

9

')l/,

9

M56

/t)

2 Vt

1070 49t/2

20

M64

1257

)4/8

21

ly4 M72

1387

1214 114

2'.2

3

61

l')r/a

22

MR0x6

1702

,)

DrNrENsIoNs TEMPERATURE LoADs

30

CILANNEL CHANNEL SIZE CJ X 4.I

l

I

4l

98

44

J1/B

98

l3A 4A

3Ts

2

7lt

108

x

1'7

X JJ,9

C380 x 50 X JJ.Y C380 x 50

L])

t219

73

48

33

219

86

4

1n')

202

t6l It55 \)A 1336

850 2086


VARIABLE SPRING SUPPORTS SERIES 960 . TYPE A SIZE

ROD

CASE

CASE

SIZE

I,NGTH

DIA.

A

B

v, M12

20V2

C 4

521

r02

V2

23Vs

4

M12

MIN.THD. ENGM'T

NGM'1

F

G

203/c

Ts

Ts

518

22

23 584

E

ROD

APPR,X.

WGT. EACH

'))

1')

10

t/8

t/z

22

22

23 10

5R7

102

1<V

4

t{1,

Ts

7/s

t6

645

102

64t

22

22

5eAa

22Y2

Tt

7/t

14l

572

22

)Y/16

253/a

Ts

22 f8

12 35 16

141

645

22

22

/6

5eAe

25Tz

Ts

t/s

660

141

657

22

22

6,/s 168

ht/4

1.1/s

6t/s 168

/U/1

IYB 29 lVB 29

lVs

lVs

/)

z

Vz

2

M12

J

Y2

3

t\,{1?

515

Vz

25W

Ml2

648

v, M12

1451,

6

s/s

1.O

6

M16

660

T

r/8

29

7

Mi6

654

43

20 48 22 bJ

29

29

IVz

b4 29

29

5/s

30v,

65

730 30Vt

M16

'7'7\

168

768

29

29

34 I'23

3/t

281/s

87

'2V/t

IVt

lV+

h,{?n

133

2t9

730

32

32

56

3/t

34k

6Y8

tn

lYt

M20

876

3A

t6

M20

Tt1

219 8% 219

34Ts 873

2

I

30V2

85h

2

175

38'4

219 8%

t4

M24 I M24 IVt

T4 5 5

M30

978

6 6

1Y2

9 9 10 1n

3 3

968

2t9

383/t

678

ivt?0

984

IVc

38V2 463/s

219 6% 219 8%

-)1

i2

139 61

27Ts

IVt

IVt

163

708 307s

32

i2

'14

FA

1s/s

t85

172

41

41

84

38

1/8

l5/s

210

965 38Vz

41

4I

95

l3A

1%

978 38Vt 9T2

44

4T

tn?

ITt

z

300

44

51 2

403

46Vq

136

M36

r 178

219

t17 5

51

5l

183

1'7

lTt

)u%

87s

50%

25/s

ZVs

535

17

M42

1289

219

1280

6T

67

243

I

51

123/+

)U/tt

2t/t

L'/8

7ri

M48

1295 58%

i1+

1292

73

35

123/t

587s

3v,

929

1492

324

1495

89

421

20 20

M56 2v, M64

3Yt 89

1',)l/1

69s/s

3t/a

t342

1772

i24

JfE 98

g8

I

2Tt

llyl

\')3/t

4Vq

4Vt

M72

?)4

108

108

3

1969 94t/s

I l)/8 1 965

123/q

95YB

1Vq

4Vq

M80x6

2410

324

)416

108

10R

609 1842 836 2350 r 065

8 8 9 o

1

22 22

) t/^

693/q

1

768

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C960 For metric units specify the Figure Number with the letter prefix e.g. M960 or MC960. Note: Please see page 45 to calculate Rod Take-Out'

"M"

DrMENsroNs TnuPnrurunn

INcnrs

FeHneNHgtt

PoUNDS

POUNDS

MIr,LrNrerrns

Cnr-srus

NtwroNs

KILoGR-AMS

'31


VARIABLE SPRING SUPPORTS FIGURE 960 TYPE B MIN. ROD

;l

SIZE SIZE

TIGT.

OF

LUG APPROX. HOLE WGT, DIA. EACH

LGTH.

DIA.

A

B

C

E

F

PIN H

4 102

217/s

Ts

1)/2

Vt

tt/r,

22

Ml2

20t/z 521

R lI/q

T

t/z

556

22

38

32

6

11

i0

Vt

23Vt

4

111/-

t/s

1Y2

lVt

Vt

ttAa

M12

102

622

/2

38

6

17

t0

4

763/+

Ts

1t,

IY4

Vt

Ilta

/6

102

679

22

32

5

Je/1 6

).4

Ts

IY,

lYl

Vt

38 lY2

32

6

lI/t

Vt

38

J/-

Ilt

6

tIle I7

Vt

tIAr,

L

I/"

587 25 t/s

2

M12

645

J

Y2

3

N/1'

575

141

610

22

Vt

25Vt

JY/16

t/s

Mt2

64R

t4l

26|/s 683

5

Vt

lo

5e/ta

273/s

5 6

M12

660

141

%

26

6Ys

6

M16

660

168

692

29

78

29

6Vs

301/+

Ir/t

M16 % M16

137 30 Vz

168

768

29

bYl

3134

775 )8t/s

168

806

7

r/t

6q5 t/i

)-1

'30Vt

22 t/t

lY2

17 tVrc 1T

t1 35 16 43 20 4d

22

?R

72

6

l7

t/t

L)h.

lt/t

lq

I

1'l

12

6

zl

29

1k

IW

1/t

ti/ta

3R

?)

6

11

63 29

lYB

11/z

1.1/t

1/,

|

29

38

32

6

)1

75 14

123

1

rAs

3/tt

22 64

I1/t

IY,

LN

3/s

15Aa

168

32

.)1

l0

24

56

35l/t g1t

IVt

38 lYz

1V+

Ts

I5/tr'

38

JI

10

21

291

IVt

lVt

,k

15/te

746

?) l%

38

i?, l, t/t

10

24

14

M24

30Vt 775

8% 219 8% 219

llt

139 63

822

41

.51

?R

Vt 13

lVt 7)

185 84

I

38r/s

8%

40

lsh

2

llh

Vt

llt

2ll)

3

M24

219

1016

41

51

38

13

32

95

4 4

lVt

968 38% 984

6y8

4lVt

It/t

3

2

V:

lt/:.

224

1054

44

76

5l

l3

38

102

5/8

lVz

53% 1 356 54Tz

M20

'7i3

0

3/t

34y,

8% 219 6%

0

M20

876

219

3/t

28

M20

711

2

1

2

9 q

N{?n

1

M42

1289

219 d/8 219 8% 219 8% 219

8

2

51

I )l/i

8

M48 lI/4 M56

1295

'21)

'2t/t

20

l\tl64

1'172

21

2Tt

17 Vz

21

M72

1969

22

3

22

M80x6

l,lt

38th. 978

5

M?O

6

IVt M36

1178

13/t

503/+

6

9 9

A.A

THD. ENGM'T

CASE CASE

463/t

323/s

4Il+

32

I

163

5r

16

38

49Va

T6 .i

300 136

,1.t/2

Y1

134

4UJ

1251

16

o+

r9

44

183

).

)..i)

1

04R

Y+

44

'2th

67 2Tt

3

3

2V2.

3/+

'76

64

t9

51

243

1

3

3/+

!/8

18 35

t394

13

102

76

tg

6n

)u%

123

63%

3v,

4V2

3

3/t

929

1492

324

1610

89

1r4

19

oyA

I

3t/E

4V2

76 4

2rA 6T

1

ZTs

25

1342 609

/,y4

1

4YB

1)4

1

RRl

98

1r4

102

123/'t

811/s

4Vt

4V2

4

TA

?0R0

rnR

114

10,

T3 3rls '7q

94Ts

123/t

4V+

5

4

3.r'8

2410

324

100/n 2543

t08

12',7

102

25

86

421

t415 66A '20')5

gt9

Ordering: Specily Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

LUG HOLE DIAMETER

Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specify the Figure Number with the letter prefix

"C", e.g. C910 For metric units specify the Figure Number with the'letter prefix M910 or MC910. Note: Piease see page 45 to calculate Rod Take-Out.

Drnrulrsroxs TRprpr:n,ru.rnR

Wr;tGHr'

INcsps

Fa.HRENHerr

PouNos

PoLJNDS

N4ILLIMETERs

CELslus

NEwroNs

KrLocRAMs

32

"M"

e.g.


VARIABLE SPRING SUPPORTS SERIES 960. TYPE C

iF

MIN.

.F

-l r-s

ROD

SIZE LGTH. SIZE

I

A

0

M

l'

M

2 2

Vt

4 4

F

4

217/t

521

102

lJ,/8

R

S

t/s

IVt

IVt

1/t

5.56

72

38

32

22

21t/z

Ta

1Vt

llc

t/B

587

4 r02

622

22

25 Ys

4

loy)

1/s

i8

71

22

1V+

t/t

32

22

lt/t

Tt

T V4

LUG APPROX HOLE WGT DIA. EACH tlrc 22

6

1'.I

10

Vc

tVrc

23

6 t/,

t7

10

rtAe

26

6 t/t

17

)t/ta

12 35

64s

102

679

22

Vt

) )1/a

JY/i6

1.1

1/t

1Vz

610 26Tt

22

38

32

22

6

1',]

l6

Tt

lVt

IVt

1/t

Vt

11/o

43

Mr2

575

t41

Vz

25t/z

5e/.e

M]2

648 26 660

141

68i

22

22

6

I]

273/z

Ts

38 Ith.

J1,

5e/.r,

lVt

1/s

Vt

tVrc

695 27Vt

22

1R

1)

22

6

17

48 22

IiAa

64 29

20

6

)6

141 6rA

ll+

L|/ta

Vt

M16

660

168

692

lVs 29

1y,

6

1R

32

17

6

)/B

/9

b78

30Y4

lVs

lVz

)/+

llAr'

1/,

21 tJ/rc

M16

731

168

2

27

6

11

lo

30tb '71\

6%

lVz

t/+

11/t

75

38

2

2T

Vt 6

l3/v'

168

29 IVr 29

38

Yt

768 31r/t 806

28Ts

8%

JUIl

lY)

IV+

lVt

1/.,

3l

10

llt

\

1s/a

l0

24

139 63

Ys

t5/td

163

t0

L+

\tt

185

rw

210 95 tl l

9 9

3/q

Ilt

M20

'733

219

'769,

J/-

38

)/

0

3/,

341h

8%

351/t

IVt

I)h

IVt

0

M20

876

219

911

??

1R

i1

14

t5/tt

123 56

^n

t/,

t6

8%

29Ts

lVt

IVz

It/t

M20

711

219

71

?R

72

2

1

30 Vt

8%

746 32Tt

t%

2

1y,

lt/t

Vl

2

M24

775

2r9

822

41

51

38

32

l1

3

1

38/r

8/8

r+u

t%

2

1Y2

1/z

1016

41

51

38

lV+ 32

l3

32

2

Vt

lVl

c

l\n1l

q6R

4

1Vt

387+

4

M30

s84

5

11/+

l8%

219 8% 219 8%

5 6

M30

978

219

IVz

16Ts

6

M36

8% 219 8% 219

a/,

1

1178

)u,/1

4IY2

r/q

3

n54

44

76

5t

4114

I1A

7

I 048 49Vt

44

3 '76

2

3

1

q 1.r/"

t3

38

102

5

lY2

300 136 4UJ

51

16

38

)3/s

Yl

60

L9

l3h 44

2t/s

a/,

16

bA

3

2Y2

74 RrL

5l 2t/z 5A

1251

51

63

21

32 lVq ?1

I

A-A

E

201/:

PIN H

Ml2

M16

183 53 24

2

t289 5l

1356

6T

76

64

60

1q

51

2

123/+

t4t/E

2Ts

4

3

23/s

1/,

/-18

M48

1295

1?-4

r394

T3

t02

76

60

19

60

19

ZVt

587+

I'2J/I

6'3J

1 V)

4t/z

3

23/t

Tt

25h

t9

M56

1492

i24

1610 1 41/t I 883

89

114

76

60

19

67

4

3r

I

2t/s

10,

86

25

31/s

I

86

25

79

66q

1 i

B

DIA. (-

HGT. OF

)/s

7

lA I [_:c-l

THD. ENGM'T

CASE

1r/t 38

v, M12

l)t

CASE

I

8

M42

20

2Vt

693/t

I23A

20

M64

1772

324

21

23/t

77Y)

123/t

2l

M72

r969

22

-)

22

MR0xf

t/B

783 355

73

929 421 1342 609

J

141 5

4Y4

324

81% 2080

4Yt 114 4Vt

r08

114

4 102

941/s

173/t

1001

41/t

5

4

3Ts

1

33/z

2025

)410

?14

2543

108

t27

102

98

25

86

919

J

qR

Yrj

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specily the Figure Number with the letter prefix "C", e.g. C910

For metric units specify the Figure Number with the letter prefix "M" e.g. M910 or MC910. Note: Please see page 45 to calculate Rod Take-Out.

DrnrpNsroNs

TnnrpRn,rnnn Lolns

WRr<;nr

INcsEs

FasnENsnn

PouNos

PouNos

MrLLruergns

Crrstus

NswroNs

Knocnelrs 33


VARIABLE SPRING SUPPORTS SERIES 960 TYPE D

A-l ROD, NUTS, AND WASHER NOT FURNISHED

HGT. OF APPROX.

ROD

CASE

CASE

HANGER SIZE

SIZE A

LENGTH

DIA.

B

E

M

0 0

Vz

20Vz

C 4

/9Y4

8V2

21

Mr2

52r

t02

756

216

32rh 822

9.5 22

216

10

'J45/a

6f2

25

879 3lTa

216

l1

8Vz

34 15 ta

SPACER WEIGHT

EACH

t/z

23 Vs

4

1

M12

587

102

I

V2

2

Ml2

645

4 02

22,4

5eAa

J

n Ml2

575

141

V,

251/z

5e/rc

810 34Tt

216

4

4

Ml2

648

141

883

2r6

r9

5

1/"

'16

5e/rc

35Vt

8Vz

46

5

Ml2

660

t4t

895

2-16

21

5/B

t6

678

35Vz

6t/2

M16

660

902

)16

60 21

r/s

l9

168 o,/8 168

38t/z q7R

216

1

3

6 6 '7

253

8Y2

8V2

8v,

M16 7r M16

301/z

6rA

40

81/z

'175

16R

1016

216

62 28 73 33

3/,

28Ts

85h

38%

/ 1J

219

981

8% 219

119

M20 3/q

34V,

8%

44Vt

Uy8

I 3.5

M20 Tt M20

876

219

TT24

2r9

6t

t6

8%

3134

r51

7fi

2r9

959

8% 219

2

I

30Vz

4l

9

178

2

M24

775

8% 219

I

041

229

81

l

3tJVB

87tt

40Vq

9

198

765

219 8%

1022 49Tt

229

I t/"

219

1261

235

96

9

I 0 0

\)a 4 4

M30

l5 t5

11/q

38% s84 3812

M30

9'78

8% 219

6

lVz

+6y8

UY8

6

M36 3/,

178 )U./4

M42

t289

219 ilys 219

51

1Zy''t

1 1

1

1

o1/,

9)/B

l6J

1480

244

129 375 1'70

9]h

6',2t/s

93/t

1578

249

491 223

64 1626

10

732

254

1.1L

10Y4

863

260

391

I 0 Vt

1225

2

9

2t/+

58%

127+

M.56

1492

324

123/t 1 838

20

2Vz

6934

I23A

84

20

M64

1772

324

2r34

267

llVz

23/t

923

r0,/+

2I

2

232

M48

I

90 21

49Y2

8

tq5

'71

1251 587+

8

I

54

21

M72

1969

324

lJ+o

22 22

3

941/t

123/t

M80x6

)410

1)A

I 10/s ?Rn5

556 662

I

754 11

2232

279

1012

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s)

as

necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C960 For metric units specify the Figure Number with the letter prefix "M" e.g. M960 or MC960.

Lolls

Wnrcnt

INCHES

FAHRENHEIT

PouNos

Mn.t.rNrrprgns

Csrsrus

NEwroNs

PouNls Kr.ocn.qvs

DrrroNsrousTEMPERATURE

34


VARIABLE SPRII{G SUPPORTS SERIES 960 TYPE E

BE

MUST TACK WELDED BY CUSTOMER

-\

ROD

CASE

CASE

HANGER SIZE

SIZE

LENGTH

DIAMBTER

A

C

U

Vj

B 20y,

0

M12

I

MUST BE TACK WELDED BY CUSTOMER

\--La\

r

F

.TURNBUCKLE IS FURNISHED

9.5 22

22

10

LJ

')

Vt

253/s

4

t/a

2

M12

645

3

Vt

WEIGHT 2t

t/B

102

22

11

5e/o

Tz

J4

3

Ml2

,575

14r

22

15

4

Vt

75V2

)e/16

7/t

42

4

M12

649,

141

22

19

5 5

V2

26

J'/16

t/g

4b

M12

21

660

141

22

6

5/E

26

65/8

l,t/a

6

M16 % M16

660

168

)a

29

6s/s

11/s

27 62

737

168

)q

28

8

Ys

30Y2

65/z

73

8

M16

775

168

lYs 29

9

3/+

l.t/t

119

3/,

54

IYq

135

9

M?N

t)7

8% 219

t0

3/t

34V2

b78

10

M20

3'76

t/q

)a

M20

711

I M24

219 8% 219 8% 219 8% 219

t3 t4 t4

M24

3012 775 i678 968

1V,t

J67.1

6YE

M?O

t5

It/t

984 38% q7R

t5 I

22

4 102

l3

i

02

587

ll

-/

521

lJ ft

I

L,H, THD.

}'.ACH

4

F Tt

Vz

'7

F

APPROX.

M12

t

R.H. AND L,H. ROD AND NUT NOT FURNISHED, LENGTH TO SUIT CUSTOI\,4ER REQUIREMENT

MIN. THD. ENGM'T

1

M30 IVz M36

71

tTti

41

81 198

1%

q0

41

13/q

285

44

129

2

J/)

51

'))h

170 491

M42

1289

18

I

51

l2Tt

18

M4R

t295

324

178

32

l%

87

17

1

61

157

219

503/q

n

32

lVt

212

lt/t

16

463/s

i3

l1/t 44

219 8% 219 8% 219

l6

bU

96

67

lLl

)1/"

t3/. 863

t9

2t/c

)6-74

l23A

3Vz

19 20

M56

1492

324

89

391

21/z

IZr/q

3Ts

20

M64

693A 1712

\24

98

1225 556

I23A

4Y1

t662

324

10t

'7\L

.J

77V, 1969 94Tt

L2,A

4V+

r\fRoY6

1t-tn

2232

2,11

r0R

1012

')1

21

')) 22

)

\/.

M72

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s)

as

necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C960 For metric units specify the Figure Number with the letter prefix e.g. M960 or MC960.

"M"

Drunusroxs Tnupnnmurut INcurs

F,cHRnNHpn

PouNps

PouNos

Mu-lnmrens

Cu.snrs

Nswroxs

Krlocnrus


VARIABI.E SPRI!NG SUPPORTS SERIES 960 - TYPE F LAS!, DIA,

B

C

18./,r

7s

4',76

4 102

I I:/8

4

%

5/.?

10?

23:/s

4

C A SE

SIZE

2 2

600

lr

-.)

FLANGE BOLT DIA

BOTTOM

FLANGE

IAxlY2xlt/ 6x19ix19l

BOLI I,OAD APPROX LOAD OYERALL CIRCLE LNGTH. X ** FLANGE FLANGE WGT. EACH NIIN.I MAX. MIN. MAX. DIA, THICK. 1

93/c

20Vt

t/t

514

2211 565

3Tt

178

s8

6

14

221/s

t+,/r

I

t/c

31

t6

lAxlhxlt/ 6xlglxlgl

178

248 9,4 248

%

tA xl1/2 x71,

1

y,/4

16

l4

Vc

35

689

98

6

16

')4)h

5./8

1/.

51

)?

6xl9lx19 thx'lhx'lV:

178

248

13/t

Y)/1

llf)

6x191x191

191

)49

\71

61)

111

6

1t/t

9tA

21t/t

<V

lt

191

619

26)/t 670

t31

6

263h

28%

5%

tA

64

670

72r

t37

6

29 92

141

19

5eAe

tA

4

581

141

19

l4fr

)716

629

141

74th.

6%

!/t

-/8xyxy

Yl1

248 9r/t 248 1\Vt

611

168

lg

10x229x229

2i5

261

6%

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%x9x9

l0r/:

6.15

168

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10x229x229

9tA ??s

283/+

65^

lt

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10x229x229

??5

1Ax7bx7t/)

Y.1

6x 191 x 191 1A xlvz xl12

l)/+

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6x191x191

191

t6v

28t/t

6%

1/,

667 /9 t/B

718

r62 6.4 162

6 \/t

144

Jl 7s T9t

IrJtb 261

JV)D

Jlf2

28%

130

168

l9

9

26Ts

8%

l/t

1/2x131Axl3tA ljeAn

l6lq

9

683 32 Vt

219

t9

268

413

87r

Y.1

10e/a

!.-l

6

t/t

/8

10

98 3t/g

16

533

lt)

oJl 21Vt

102

tl

6 6

581

5e/rc

1

I

r,/u

31

l,) '/s 638

3

i

B

sul lulvl

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826

219

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13x337x337 r/:x13f+x137r lJXJJ/XJJ/

268

I614 413

l)f8

dr/8

l/t

L/:x137.+x13%

l 0e/rc

16Vt

13x337x33?

268

651

)1q

tg

21 11

878

1A

6qq

219

ts

351/z

8r'rj

)/+

1/2xI31Axl31A l07rr 13 x

ll7

x 337

V2x131Axl3tA

'7'7\

59 27

42 9l)

6

4r

6-t

Vt

101

6

Rt6

162

30h

8%

A

133

784

21i

1i

78

341/z

8%

V)

t88

816

36th 927

213

13

85

I t,/l

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83/

rh

201

41

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413

708

159

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413

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213

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10%o

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J l12

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6-/8

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t+o

902

219

l9

13 x 337 x 337

)6?,

413

35%

8%

1/t

V:xI3tAxl3rA

10%o

I0/t

q51 J

003

:)l?

t1

11)

lt/8

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r/:

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13 x331 x33'7

268

413

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213

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311/s

39Tt

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13 1i:

15

911

219

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Y2xl3tAxl31A 13x337x337

268

413

959

t013

213

13

152

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423/t 1 nR6

8% 219

f+

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161+

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th

428

l9

13xi37xi37

268

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213

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lg

13x337x337

,6R

413

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13

246

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805

191

324

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5?1

245

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826

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146',7

IzY) 3r8

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324

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57)/t

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13

375

lU

63%

1T/+

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2l

661+

68Y1

1ztb

t/t

1178

20

1

324

t9

16x438x438 400 5/Exl'ltAx111A 15% 16x438x138 400 s/8 x ll tA x \T1A l5Tq 16x438x438 400

533

1683

1734

318

ttl/,

r/,1

ilF

2 Vz

13 IA

I/t{

l5

16

1)t\ 161/s 1

610

1

2

lUt/J

71

1184

124

lg

66/2

llYl

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11,4 a

324

19

72

**

)hxlltAxIl)A l5lr 16x438x438 x I1 t/t x I1 r/t 16x438x438

)/s

2t

5

I

Jll

I

118

534

400

533

t857

t908

646

2t

9tk

9 J1/E

318 I212

13

l)/r

t/.

I 700

400

533

2321

2372

318

13

771

The Installed Height should be the mid-point between the Maximum and Minimum Overall Height "X" , plus the thickness of the Load Flange, and plus any DOWN piping movement when applicable.

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load. Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Installed Height, and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. For conosion resistant units specify the Figure Number with the letter prefix "C", e.g. C960 For metric units specify the Figure Number with the letter prefix

DnTENSToNsTEMPERATURE Lo'r.rs

Wnrcur

INCHES

FAHRENHEIT

PouNls

Pour.ros

MrLl-rurrens

CErsrus

NewroNs

Knocnans

"M"

e.g. M960 or MC960.


VARIABLE SPRING SUPPORTS L

--C-C Rod Dimension as specified ur specrileo

A

ffi= d-

I

O irt

by customer

-r

s

q

FI-E

Ordering: Specify Figure Number (Travel Series), Type, Size, Total Load, Hot Load per spring, Cold Load per spring, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Center to Center of Rods dimension and Hanger Identification Number (if any). Specify any other optionai

a s, I

m _ft1

ffi

w4rc h:

=w

,ilffi

W)I

t'111 f/f/)

feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C960

I I

1

1

wil Lr lI1

For metric units specify the Figure Number with the letter prefix "M" e.g. M960 or MC960. Note: Please see page 45 to calculate Rod Take-Out.

Trl-

I

^l t.:

FIGURE 960 TYPE G HANGER

KUU SIZE A

LAbL LENGTH

LASI! DIAMETER

.LVllN.

lflu.

CHANNEL CHANNET,

MAX.

SPACING

C-C

lv

P

R,ACH

24 610 /.4 610

f8

1Vz

55 25

Yt

1v, 38

57 26

lVt 38

C

E

F

r/t

B /ut/2

4

llA

Ts

SIZB C3 x 4.1

Ml2

521

1n,

?5

22

C75x6

th

23Va

4

13/s

1/t

C-] x 4.1

587

102

35

22

C75x6

2

Vt

253/s

4

Ts

C3 x 4.1

24

2

Mt2

645

n2

1% 35

r6 %

z2

C.75 x 6

610

16

4 4

Y)

225/s

5eAa

515

\4t

Vz

lJt/2

5e/16

M12

648

141

4.i

JU

\/+

8l

1q

?'7

C3 x 4.1

30

1/t

2

C75x6

762

t9

51

99 45

C3 x 4.1

30

Yt

2

106

762 .it)

l9

51

914

25

36

C3 x

C'75 x 6

1/s

t/8

22 t/t

t/2

'26

5eAr,

48 lt/a

M12

660

141

4R

22

2Tz

1/s

b4 29

'762

Ts

22

ITs 48

WBIGHT

l6

M12

M12

APPROX,

ENGM'T

6 6

-/8

26

65/s

M16

660

168

'71

29

C75x6 c3 x 4.1 C75x6

1

5/s

29

65h 168

21/a

tw

C3 x 4.1

'13

29

C]5 x

ZTs

lYs

C3 x 4.1

36

C75x6

914

25

51

71

36

11/+

3

7

9 g

M16

T3T

)/s

6/8

M16

301h 775

168

73

29

t/4

16t/g

x) 219

)-t/g

lVt

73

32

u/8

lt/B

lVt

71

M20

28 711

219 8% 219

M20

133

U

r/+

0

M20

34Y2 9'.76

1 1

3/+

2 2

1

30v,

85^

M24

3

1

J

M24

775 38r4 968

4 4

IVt

38Tt

M30

984

219 8% 219 8% 219

lVt Mi0 It/t

J6t/2

6y8

978

5

5

6

5.4

?')

C4 x C100 C4 X C100

27/s

lVt

c4 x

5.4

J78

1%

?1 98

41

3Ta

l5/s

98

4l

3Ts

13/q

98

44

'3t/s

I

135

914

,2

914

32

76

5 .1

36

IVt

3

287

x8

914

32

T6

130

336

x

8

C100 x R C5 x 6.7 C130 x l0 C5 x 6.7 C130 x 10 C5 x 6.7

36

M 11

3 '76

36

l,t/z

+

J64

s14

38

102

36

11/z

4

914

-16

102

114 432 196

36

102

460 209

qlA

4

914

I3A

C130 x 10 C8 x 11.5

36

ZVt

4

62 l

4A

C200 x

91.4

54

102

282

36

ZYs

4

821

54

0t

13/t

50% I 289

8

2

51

123/t

31/s

27/s

C12x20.7

42

ZTc

4

8

M48

r295

)z+

98

73

106'.1

60

102

9

2Vt

58-7+

I

)t/,

I t/,

3Vz

C130 x 31 CI2 x 20.1

9

M56

1492

324

89

C130 x 31

1061

67

20 20

2V:.

69t/t

12t/t

3t/i

89 jt/g

M64

17T2

324

98

98

17 V)

I

4t/t

'/I

)

1/,

)3/1

,)

11.5

x

s8

5t

C200

17

q14

314 98

2s/s

C8 x 11.5 C200 x 17

) t/a

ql4

4

67

54

102

CI2 x

36

42

4

25

1085

492 15

82

718

t02

870 848

Lbbu

1

40

ZTs

4

C130 x 31 C15 x 33.9

1016 48

73 3Ys

102

12r0

4

J)OU

C380 x 50 X JJ.Y

t219

79

t02

48 1219

J./s 86

4 10?

1615 460{J

70.1

21

l\4'71

124

lnR

22 22

3

941/1

I )..1/t

4|/.s

4t/+

L1)

l\ilR0v6

2410

1/4

108

108

C380 x

969

17

c8 x

4Y+ 1nR

1

152

IVz 38

M42

J1/8

167 255 116

1

M36

40./8 1 178

6I

51 1

7

6 6

63

51

219 6/8 219 8% 219

98

48 139

.50

WRrcnr

DTMENsToNS Tol,rpnnqrunn

l\cHFs MTrJ-rMFTF.Rs

F,rHnurnln

I

CRr.snls

2087

i

ros Nrwrous Por

PoL \DS

Krr-ocnavs

5t


VARIABLE SPRING SUPPORTS SERIES 980 . TYPE A lvlll\. SIZE

ROD

CASE

CASE

SIZE A

LGTH

DIA.

B

V2

21

C 4

l\l[1')

686

t02

1/"

29t/s '7d6

4

Ml2

E

THD, \PPROX ROD ENGM'T ENGM'T WGT EACH F G

261/B

Tt

Ts

32

683 29Vt

22

22

15

Tt

1/a

72

22

t+ t5

10')

2

Vz

30%

4

3jVt

1/s

t/a

2

M12

'7'72

10?

"168

22

22

7

3

1/"

5eAo

293/s

Tc

Ts

3 4

M12

29y, 749

746

72

22

3l

141 5 eAe

52 24

ltt/8

Ts

Ts

62

4

M 2

813

t4r

810

22

22

28

34,/+

)Y/t6

J+.v8

7/t

t/B

b6 31

5 5

t\4

)

88i

141

a?o

z2

22

6 6

34 R64

654 168

J'JJ/I

IVB

Ml6

R57

')g

IYB 19

7

5/t

371/s

65h

3llt

lVa

Ml6

962

l6R

q5q

88

1

IVt )q

29

40

39V, 1 003

lVt

lV8

r06

29

29

4R

39Tq 1010

1W

170

32

lVa 32

447+ 1137

LVt

lVq

187

32

32

85

JO

IVt

zl!

s14

72.

lt/q 32

5

)/t

3914

65/a

M16

r010

168

9

Y1

8%

9

219

M20

39Ts 1013

U

3/t

441/s

678

n

M20

140

2t9

I

3/+

36/s

I

M?O

qlR

1

39Vq

8% 215 8% 219 8% 219 8%

1

'39r/t

41

't'l

99

Iy8

2 2

M24

997

3

1

49t,

3

M24

1257

4 4

lVc

JUY4

M30

t276 49r/t

219

1210

44

lVt

8%

49y,

tvf?o

5 5

YU

954

41

49Ts

I 5,/.

1254

41

l-ls 41 I

50

lt/t

1'\/t

303

13h

I.h

r3'/ +tu

44

191

550 249

41

)It

tt

187

t:O

1264

2r9

1257

44

6 6

lVz

60

1524

59t/s 1521

'2

M?6

8% 219

51

51

'/

1t/t

68V2

68Vs

2Vt

Dh

'7

M42

1740

8% 719

730

h/

6',t

133 1\L

8

2

65Ts

2t/s

ZTs

1122

M48

66 1676

123h

8 9

324

1673

13

T3

509

21/+

153/t

127+

75s/s

3Vt

3Vt

13

9 20

M56

324

1921

89

89

594

2V2

1924 90

l23A

69t/8

J/s

20

\/t6a

2286

3L+

2283

98

98

t812 t4q 2052

1

,)

10

2t

234

100

12r/+

99Ts

lVt

4Y4

21

M?2

2540

?)A

2537

108

r08

931

22 11

3

124Y2 21 41

12Tq

1243/a

+f1

4V4

283 I

11A

?1{O

1nQ

104

11eL

hrfQAv(

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Coldllnstalled position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessafy.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C980 For metric units specify the Figure Number with the letter prefix e.g. M980 or MC980. Note: Please see page 45 to calculate Rod Take-Out.

Lolos

Wurcnr

INcHES

FAHRENTTEIT

Powos

IVIILIMEIERS

Cplsrus

Nswroxs

PouNls Knocna.us

DTMENsIoNs TEMPERATURE

3B

"M"


VARIABLE SPRING SUPPORTS FIGURE 980 TYPE B MIN.

-l+T

,Al

ROD

SIZE

rA

i) 0

SIZE A

LGTH

DIA.

3

PIN H Ith

IVa.

V,I

T

LUG APPROX. HOLE WGT. DIA. EACH

B

C

E

F

/.t

16./g

t/g

\,r1)

6R6

4 101

721

22

3R

32

Vz

293/s

4

JUl/1

t/t

lt/)

I)/+

6 t/,

M12

746 30%

102

7R1

1)

6

1'l

15

313/t

22 f8

1R

1V1

1Y1

Y1

It/to

38

7't2

4 102

806

22

38

tt

6

17

29Vz

5e/to

301/t

Ts

ll)

1Y4

V4

ItAt

MT

784

22

38

17

Ts

lVt

32 IV4

6

tY/16

V'r

\t/rc

22

'r/t

38 lV2

32

6

lVt

lq

22

iJi

1)

6

17

31

90 41

M

2

-.)

4 4

ENGM'T

HGT. OF

Y2

2 2

THD.

CASE CASE

M

2

749

R

tVu,

15

tlAs

34

M12

813

r41

JJ,/8 848

Vt

31,/t

Jt/16

367s

8R3

t41 65

918 35t/t

IVt

lVt

1V+

Vq

13/t

V,

N[],

3l

17

17 \tA6

1T

52 24 62 28 68

,/s

34

M16

R6t

168

Rq5

29

1R

32

6

21

5/s

)tf8

65/s

IVt

Va

13/n

88

962

168

IVs 29

11h.

M16

38Vt 912

38

32

6

21

40

3934 1010

65

4I

th

1y,

1lt

VA

t1/rt

106

M16

168

t041

29

38

32

6

2T

48

9

Yl

391/N

678

4lVt

IVt -)/

\v2

1/,

3/s

t5/tt

38 IVz 38

2

10

24

170 '7'l

Vt

Ta

t)/l 6

187

2

10

24

1V,+

t/z

t)/16

6 6

;t

9

M20

1013

219

1048

1t)

,/+

44't/s

8%

46V,t

l0

M20

140

219

\115

lt/q 32

31 Y2

llq

rth.

1

85 ').19

3/t

361/s

8%

M20

918 39Vt

215

q51

1)

1R

1)

t0

)t

gs

8% 219 8% 219 8% 219

4IlB

lrA

2

ty,

Y2

lVq

045 51%

41

51

38

13

11

253 115

ls/s

2

lY2

t,

LVq

1305

4I

5l

38

13

)/

53

13/t

44

J 76

lVt

346 52 Vt

1

M24

997

-l

1

49th

3

M24

1.251

IVq

)UY.1

M30 5

IVt

5

M30

6 6

If2

rl

to

I\,{36

49r/t 1264 60 1524

ttA

68t,

M42

87s

1

I

219

t -J-J4

8Y8

62r/s I 597

219 8% 219

1

l/t

287 130 .i (,.i

).

Y)

51 2

13

38

137

:A

fY2

420

5I

16 r/t

?R

191

ITt

550

44

3 '76

7

3

51

76

6l

tq

44

)4q

-.)

2Vt

Tq

2

l9

51

733 332

/,f2

lUs

,Dh

807

67

76

h4 3

]L

23/s

T6

19

60

Isk

8

2

1740 66

123/t

69Tt

2Ts

8

M48

16T6

324

1TT5

73

4 102

9 o

)1 /^

123/t

801

3Vz

1Vz

3

3/a

M56

Jt+

89

lr4

67

s94

3Ts

4V2

76 4

L9

t)l/, i14

2035 943k 2391

1

2t/s

I81Z

98

114

10?

71

849

Ll/4

104-ft

4t/t

4l)

4

3Vt

2052

2651

10R

114

102

123/+

]r293/s

5

4

alA

4n

??R6

108

121

102

1

20 20

M64

75Tt 1924 90 2286

zr

l./1

100

?,1

ZVz

N4'1)

?54n

'2'Z

J

l24l)

22

UIROY6

3162

1

25 25

19

1122 s09 l3 t0

931

33/s

283

86

1284

1

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/lnstalled position to the Hot/Operating position), and Hanger Identilication Number (if any). Specify any other optional feature(s) as necessary.

A-A

Pins for attachment to the structure are not included with the unit and must be ordered separately as aFigure 291, shown onpage 8 of this catalog. For ordering specify Figure Number, pin diameter and finish.

For corosion resistant units specify the Figure Number with the letter prefix

"C", e.g. C910 For metric units specify the Figure Number with the letter prefix "M" e.g. M910 or MC910. Note: Please see page 45 to calculate Rod Take-Out. LUG HOLE DIAMETER DTTURNsToNsTEMPERATURE INrcues

Mnrmerrns

FernENnnn CBlsrus

Lttlls

WEIGHT

PouNos

PouNDs

NEwroNs

Krt-ocn,cN4s

eo


VARIABLF SPRING SUPPORTS SERIES 980 . TYPE C MIN. ROD SIZE 0 0

SIZE LGTII A B 21

Vz

N[1

'

29Ts

DIA. C 4 02 4

HGT. OF

LUG APPROX HOLE WGT

E

F

PIN H

R

S

T

).6r/g

Ts

lVz

lY1

1A

%

114r,

721

22

38

32

32

6

l1

l5

t/z

IVt

IVt

tlAt

.14

llt

lt

32

6 l/,

t02

22

38

32

4

313/l

1/t

lY2

Ml2

146 30% 712

t02

22

1R

llt f)

Y)

29y,

5e/to

806 30%

lr/t 7)

Ts

1y,

lY1

1lt

M12 v, M12

749

14r

784

72

38

32

)t/r6

3,/8

Ts

ty,

813 34,/t 883

848 36r

2?

j,/)6

'r/s

141

918

38

34

6rh

72 I r,zs 1q

32 lV+ 32 lVa

12

6

l,t/q

i2

lt

1?

\,{1 ? Vz

4

686

THD. ENGM'T

CASE

30r/'t 781

Vz

4

CASE

12 IVT1

5h '

141

3

32

l1

15

t1/td

JX

l7

L7

tVto

JI

6

32

)a

6

17

24

lYl

lVt

n

t1/to

38

32

6

17

tv,

llt

32 1Vl

62 28

lt

11/tr'

32

6

1T

31

IV+

lt

l jAs

9t)

21

41

6

2T

40 106

IVz

68

6 6

Mt6

3,54

168

351/t 895

7

%

3'7Ts

6s

38n

1Y8

7

Ml6

962

168

972

29

IV2 1R

% M16

3914

65h 168

41

1.1/a

ly,

I t/+

1Vt

t/t

t1/rc

1010

1041

29

38

32

5

11

48

I

Y1

391/B

678

4IVq

1V+

?) lVt

It/q

%

t5/a

170

3R

I

jla

x6

9

M20

1013

2t9

1048

32

IVz 38

32

32

10

24

77

10

J/+

41Ts

46V+

lVt

lVz

lVq

IVt

)t

t5Ae

t87

10

M20

1175

32

JL

10

24

IV+

38 lVz

32

J/1/2 q51

lV'+

IVa

-y'r

15Ae

2t9

12

38

32

24

17

32 1%

10

4lVB 1 045

99 253

41

5t

JR

41

Ir/s

2

ly,

1%

1/:

3/q

36t/s

M?N

918 39Vt qq7

8% 219 8% 219 8% 219

11

Ln

,2

t/: 11 ,

IVt

2 2

M24

3

1

49Vz

87

513

3

M24

125'7

219

1305

41

51

38

41

)UY4

6X

53

LT+

2

2

M30

r276

1346

76

51

51

IVt

4934

521/z

I.r/t

J

'2

.A

lYt

Mi0

1264

219 6% 219

AI ++

3

1334

44

76

5l

16

38

lt/:. I\l?6

60

8:A

621/t

2

.i

ZYt

1524 68V,

7

M42

1'740

219 8% 219

159'7

l3/t 8

2

66

123/t

8

M48

6

9

11/,

753/t

4 1 5

6 6

1

l/,

I

167

lY2

51

85

1?

115

13

l1t. 32

287 130

ft

I r,':

303

13

38

r37 420

3A

Yt

1t

191

).)(,

51

76

64

60

T9

254 67

3

ZY2

'23/s

,/t

76

64

l,/N

4

3

60 2Tt

1g

324

691/t t77 5

73

102

76

'73

1g

60

5nq

123/q

5U78

3V,

41/z

3

3h

Tt

25/a

t3 10

89

114

19

67

594

4Vz

76 4

79

.11/N

3t/g

1

2Ts

I8T2

86

25

73

849

I

'JVB

7 1

lVs 807

3/q

249 1'33

332 23/s

LtzT

9

M56

1924

ll/

2035

lo

2 V2

9U

12,/t

94t

20

M64

i24

2is1

98

II4

t02

I'2r/t

IO4JA

4V+

4Vz

4

M72

2286 r00 2540

114

2651

lnR

114

o1

s2

?5

'7q

2052 gi1

3

1241/z

IZTq

1293/s

4Vt

)

3Ts

I

-1'l8

283

M80x6

3162

324

3286

108

127

4 102

98

25

86

1284

) \/, 22 22

'3X

1

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional f'eature(s) as necessary. Pins for attachment to the structure are not included with the unit and must be ordered separately as a Figure 291, shown on page 8 ofthis catalog. For ordering specify Figure Number, pin diameter and finish.

For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C910

LI LUG HOLE

For metric units specify the Figure Number with the letter prefix or MC9i0. Note: Please see page 45 to calculate Rod Take-Out.

DIAMETER DTNTNsIoNsTEMPER{TURE Lo,r.ls

Wmcnr

INCHES

FAHRENIfiIT

PouNls

PouNos

\{tr-LTMETERS

Cnsrus

NewroNs

KLoGRAMS

"M"

e.g. M910


VARIABLE SPRING SUPPORTS SERIES 980 TYPE D ROD, NUTS,

AND WASHER NOT FURNISHED

HGT. OF APPROX.

ROD

CASE

CASE

HANGER SIZE

SIZE

LENGTH

DIA.

A

R

C

E

M

t)

v,

27

4

36t/t

8V2

R,ACH 32

0

Ml2

686 29Tt

102

92.1

)16

l5

Vz

4

38%

8Vz

34

M12

746

102

981

216

15

2

Vz

3U./E

4

395/t

8Vz

J6

2

M12

772 ,!912

2t6

IT

Se/ta

8v,

52

102

SPACER WEIGHT

M12

'749

141

006 3814 984

216

24

Vz

5eAo

4It/t

8Vz

r,{1?

J/" 813

141

1048

216

62 28

5

V,

343/t

)t/16

44

8y,

6E

5

Ml2

883

118

216

31

6 6

Ys

J+

l4]1 6%

8V2

YU

M16 % M16 )h

864

168

43Yz I 105

tto

4t

3lt/8

65/c

4'lVz

6Y2

88

962

168

1207

216

40

393/4

65/ 168

49Vz

6n

106

1.257

216

48

49Y2

6.78

I^)

T25T

213

7'7

J4Y4 1391

8% 219 8% 219

187 85

Vz

4 4

M16

l0l0

1

9 o

M20

101 3

I(]

3/t

41Ts

8% 219 8%

l0

M20

1140

219

tA

36Vs

6X

46

M20

918

219

J9

8%

1168 4934

2r9

1

391/s

I

2 2

M24

Y1

2t9 99

9

DJ

1264

229

60

9

115 787

t524

229

r30

61V)

9V+

303

13

1

997 +9t/2

13

M?4

125'7

8% 219

4 4

lV+ M30

5\Vt

85^

1276

2r9

1562

235

13'l

5

lVt

491/t

ouy4

9Vt

5

Mi0

8% 219

543

232

dY8

I lt/t

2r9

1922

9Vt 241

420 19T 550 249

6

ly,

6

M36

1264 60 1524

1

11/t

68Vz

d%

80%

93/q

IJJ

1

M42

rT40

2r9

2054

248

37/.

n22

I

2

oo

\'2r/t

'79

10

M48

t676

124

2007

o

lv4

15r/+

11t/,

89

254 I0Vt

9

M56

t924

324

2261

).60

<o/

t812

8

I 'LtJ

2Y2

9t)

123/t

l04Vt

20

M64

2286

1648

ItJt/z 26'7

71

11/^

100

324 l1t/t

Il4t/a

l.0T+

21

M72

2540

324

2918

lti

3

124V2

M80x6

3162

l2t/'t 114

140 J.).)6

),2

11

)'79

s0q 13

10

849

^))t 931 283 1 t28.4

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot

Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C980 For metric units specify the Figure Number with the letter prefix e.g. M980 or MC980.

"M"

D]MENSIONS TEMPER{TURE INCHES

FAHRENI{EIT

PouNls

PoUNDS

M]LLIMETERS

CeLsrus

NEwroNs

Kn.ocRAMs 41


VARIABLE SPRING SUPPORTS SERIES 980 TYPE E

R,H, AND L.H. ROD AND NUT NOT FURNISHED, LENGTH TO SUIT CUSTOMER REOUIREMENT

ROD

CASE

CASE

MIN. THD.

APPROX,

HANGER SIZE

SIZE A

LENGTH

DIAMETER

ENGM'T

WEIGHT

B

C

F

EACH

0

Vz

27

4

Ts

JI

0

MI2

686

102

22

15

I

Vz

'191/8

4

Ts

34

1

Ml2

746

102

22

1.5

Y2

JU/8 172

4

Tt

38

102

)l

'2

z

Ml2

3

Vz

Ml2

Ta

6'.2

141

22

28

5e/r' 141

1/t

68

22

31

).4

5

Vt

5 b

M12

3434 883

YB

3+

6s/s

lVs

90

6

Ml6

864

168

29

4I

5/s

3 lt/g

65

l/s

6U

7

M16

962

168

29

40 106

8

5/s

'393/q

6%

I7r

R

Ml6

1010

168

29

48

9

3/q

391/s

8% 219

lVt

I70

\)

'77

9

M20

10

3/q

447/s

87

I1/t

I

10

M20

1140

219

7)

85

Y1

JbYr 918

8%

l1/+

219

M20

219

32

99

1

39Y4

1%

253

M24 I M24

dx lto

41

115

49y2

I% 4t

1.6

125'.7

8% 219

13

101

3

997

li7

I

130

14

IVc

507'r

8Ys

l,/t

JUJ

14

M30

ttt6

219

44

11'.7

15

IY1

8%

ITt

420

t5

M30

19tA 1264

219

44

191

8% 219 8%

2 51 )5/"

550 249

t6

lVz

60

L6

M36

1524

11

F/t

66Y2

1T

M42

1740

2

0b

I 8

l9 l9 20 20

M48 1t

/,

M56 21/z

1676

219 I2IA 324

5r/c

12,/t

1924 90

7

33/,

l1/B

t122

IJ

509 I3 10

11A.

JY2 Rq

12Tl

3Ts

1812

98

R4q

123/4

4V4

2052 931 283 I 1)9.L

2at

2286

2t

2540

Jl+

108

22 11

J MROX6

124Y2

IZTt

4l+

100

216'.)

733

6T

M64 l)/t M12

21

--T

5e/ta

Ml2

J

I

32 813

17

4

t2 t2

L.H. THD.

141

22 Tt 22

Vz

11

F

J'/16

1

ll

l---

/y12 749

2)t

rnR

5q4

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot

1

12',

MUST BE TACK WELDED BY CUSTOMER

Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), and Hanger Identification Number (if any). Specify any other optional feature(s) as necessafy.

For corrosion resistant units specify the Figure Number with the letter

prefix "C", e.g. C980 For metric units specify the Figure Number with the letter prefix e.g. M980 or MC980.

DTMENsIoNs TEMPERATURE

Lolls

Ir,rcHns

FAHRENHEIT

PouNls

PouNos

VIILLIMETERs

Cer-srus

NEwroNs

KlLocRAMs

"M"


VARIABLE SPRING SUPPORTS SERIES 980 . TYPE F CASE

UAS!,

LNGTH.

DIA.

]

B

c 4

648 21r/t

102 4

Ys

702

1nt

16

31r/E

4

%

lAxlt/tx'lh

803

102

16

1

91/t

)t

l6

6x191x191

178

248

686

tAxThxTh 6xl91x19l

1/t

50

g8

6

23

llr

3Ts

Vt

5L)

T9I

98

6

IJ

ft

Vt

56 25

29 731

1

9)/t

248

29t/t 740

7

9:/+

33

6x191x191

178

98

6

lAXT1/zXlttz

lt/t

841 !9)/2

892

)/t

SlVz

5-7

t/,t

8t)

6x191x191 1A xlV2x I l2

197

248 9Tt 248

149

Rn0

1i7

6

36

t/+

9J/J

3th

331/t

534

t/+

90

197

)t9,

810

860

137

6

41

9,/t 248

34Vz

36%

5%

Vt

99

19'7

876

930 36Vt

t37

6

6%

Vt

130

szl

162 6X

6 t/t

t)9

35r

30,^

5e/n

'/t

772

111

19

-t-) 7li

)Yr6

r/t

6xl91x19l taxIrbx lti)

141

1g

6x191x191

6

841 I D/A

6/l

)/+

6

8t2

168

38

3/t

9fr')

6% 168

38,4

6%

1/t

S8,1

168

19

235

267

I

38 965

8%

,/+

tbx131Axl31/:

l07rr,

l6Vt

219

19

13x337x337

268

42Ts

6Y8

,/t

l0%r

1089

2r9

ls

13 x 337 x 337

?6R

413

I

31Vt

8)^ 219

t/t

Ix13r/x13/+

10%o

16Vt

1g

13x337 x33T

268

413

918

8r's

t/,

1/2x131Axl31A

10e/u,

1614

.)

968 40% 1032

I

861 36%

3Ts

178

4

z

lq 19

:/lx9x9

10 x229

T,/t 91/t

r0k

x229

235

267

31 864

l]Vt

39t/s

11t/t

x229

9)/t 235

267

1013

1064

t62

6

5q

914

t0k

4tl

42

)/t

016

1061

6,4 162

6

140 64

4') 1n67

8*

IA

240

413

4l) 1016

111

I3

t0g

I6I/t

111/s

461/s

83/

Vt

260

140

l191

213

13

118

3614

3814

8% 1t -)

Vt

ldu

13

127

u./8

Vt

310

2t3

13

141

t/2

33rl 150

.r'lx9x9

10 x229

1

%x9x9 10x229x229

/lxISIA(lSt/

gi0

21c)

1g

13 x337 x337

268

413

46/s

8%

3/t

V)xI3\AxI31A

l0%o

l6lt

i\,/8

981 48%

sg

1S1

1r0

t9

268

413

TMI

I

O')

1

173/s

8%

ft

13x337x337 t/2x13\AxI3V.

8-/i 211

L0%r

10'4

:19./s

5

l7!

8%

Vt

4

1

203

2t9

l9

13 x33T x331

268

41i

1254

1

305

213

13

340 154

17./^ 1203

87

Y)

/:xliL/+xl3'r

l0%r

t,

140

t9

11 x117 x11'7

169.

51% I 305

8%

219

16IA 411

19/8

5

213

13

200

Lb

)bYl

8r^

74

161/t

58/:

i6

1435

219

lq

13rA l0%o 13x337 x31'7 268

413

1486

60)h 1537

hx131/txI3tA lleAt

1

5

L

.c-]

\/

14xlY2xlh

4

/.

^o:-/ e/

NIIN.

*

t9

0 0

-9 <"/

CIRCLE

141

9 9

rS/

LOAD LOAD APPROX OVERALL WGT. LNGTH, X'K* FLANGE FLANGE EACH THICK, DIA, N{AX, X,IIN. ] NIAX.

BOLT

BOTTOM FLANGE

28 111

7

I

lu1\'l FLANGE BOLT DIA

25k

SIZE

I

sul

b4-/'r

8Ys

A

7

1645

215

lq

8

6lYN

123/+

j/t

tLxl3tAx

13 x 337 x 337

x ll tA x 1'l tA 16x438x438

5/8

1254

664

6U%

8%

Y)

750

1695

1746

tt:)

13

157+

2t

6T/+

65-rz+

IZVz

340 1120

400

533

1619

157+

2I

I

llA

1610 1 4,/t

1

R4R

t\6')

324

19

70% 1194

123/t

1/+

1t+

i9

16x438x438

400

533

I

3A

AxIltAxll\A

2I

86/

53?

2191

I

).1,/l

?1R

13

l21h 318

V:

1700

t3

771

95

91

l2Y2

Vt

t

.533

2413

2464

318

t3

R'1

153/,

21

11()Vt

12|,Vc

2 Vt

t/:

2150

400

533

3029

3080

318

t3

1111

1g

16 x 438 x 438

21

921/s

I 23/t

ft

5/sx111/lxlltA

$v

2l

21

2359

3:24

1g

400

22

Ltl^

lzjA

22

2975

324

lg

x 438 x 438

'/sx111Ax111A

16x438x438

5nR

Rqq

374

l6

t/l

88/,r l,')

2124

J'/8

318 Llt/2

h

'1?

1220 553

15/+ 400

6

13

413

9

lltAx lltA

)ou

8%

161/+

8

5/sx

l3

268

20 20

*t'

50%

1

,\a

8l0

The Installed Height should be the mid-point between the Maximum and Minimr-rm Overall Height "X" , plus the thickness of the Load Flange, and pius any DOWN piping movement when applicable.

Ordering: Specify Figure Number (Travel Series), Type, Size, Hot Load, Cold Load, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Installed Height, and Hanger Identification Number (if any). Specify any other optional feature(s) as necessary. For corrosion resistant units specify the Figure Number with the letter prefix "C", e.g. C980 For metric units specify the Figure Number with the letter prefix

"M"

e.g. M980 or MC980.

Drr,rENSroNsTpnrpBrurunn Loals

Wrrr;nt

INCHES

FlumNsErr

POUNDS

POUNDS

!4II.r-TMETERS

CELsrus

Npwroxs

KrLocRAMs

-.n


VARIABLE SPRING SUPPORTS Rod

Dimension

-l

-C-C Ordering: Specify Figure Number (Travel

Series),

Type, Size, Total Load, Hot Load per spring, Cold Load per spring, Movement and Direction of Movement (from the Cold/Installed position to the Hot/Operating position), Center to Center of Rods dimension and Hanger Identification Number (if any) Specify any other optional feature(s) as neoessary.

For corosion resistant units specify the Figure Number with the letter prefix "C", e.g. C980 Note: Please see page 45 to calculate Rod Take-Out. For metric units specify the Figure Number with the letter prefix "M" e.g. M980 or MC980.

FIGURE 980 TYPE G HANGER SIZE

KUT,'

UASts

UASU

SIZE A

LENGTH

DIAMETER

M

2

M

2

UHANNUf CTLANNEL

MAX.

B

C

E

F

sr7['

4

l%

Tt

C3 x 4.1

'24

686

n)

15

610

t6

29Ts

4 102

r%

Ts

l4

,/8

35

22

C75x6 LJ X 4.1 C75x6

610

16

4

t/8

1/B

C3 x 4.1

24

%

))

C-C

AfTKUX. WEIGHT

SPACING

27

U

0

MIN. THD. ENGM'T

w

P

EACH

IVz 38

64 29

L1h

68

1V:

76 104

1t

746 JU/8 772

LA2

35

22

C75x6

610

16

Vt

19 y2

5e/ta

l1/a

t/8

C3 x 4.1

30

3A

2

M

2

i4

M12

749

141

48

22

C75x6

7fi-

t9

51

47

4

1/z

32

5eAa

11/s

1/s

C3 x 1.1

./1

Ml2

I

r24

4

RI?

141

48

)1

C;75 x 6

t9

51

56

5

V2

341/+

5e/rc

17/s

Ts

CJ

X 4.1

JU 762 JU

Y1

5

l\iT1,

883

141

22

C75x6

19

,51

62

6 6

34

o./8

178

Ci

2

180

M16

864 Jlt/B

168

48 It/8 48

tol

I

29

C75x6

914

o/8

11/s

th

C3 x 1.1

36

1

I

s

% 7

x

4.1

.i

t)

M16

962

168

48

29

C;75 x 6

gi4

%

39Tt

0/8

L1/t

IVE

C3 x 4.1

36

1

1/0

ztt

1010

16R

4R

?q

C75x6

9t4

25

5l

Tt M20

391/s

8%

lV4

lVt

J

1013

219

1/t

441/8

d78

140

219

1J

JOys

U%

l//8

M20

918

219

"t3

JI IV+ 32

I

39V+ 99'7

8%

l5^

)1q

3Ta qR

C4 x 5.4 C100 x 8 c4 x 5.4 C100 x 8 C4 x 5.4 Cl00 x C5 x 6.7

-Jb

t0 t0

2t/s T3 lt/8

41

Cl30 x l0

914

i8

B%

31/s

1%

36

lt/2

219

98

41

C5 x 6.7 C130 x 10

d78

4Ys 105 1t/s 105

M20

1

Y1

2

)

M24

J J

M24

4

lt/t

1 5 5

M30

1276

2t9

lr/t

19./4

6/8

M30

219

t6 6

1V2

lvf16

7 1

13/t

1264 60 1524 68V,

M42

t140

219

3% 91

d

I

l1/4

3t/8

M48

00 1676

I

8

Jl+ l2r/t

98

73

3 t/3

-l)/z

1

l9 l9

M56

20

2t/z

20 21 21 ,,

49Vz 1251

/)r/4

6Y8

219 8%

1t \/t 44

37/t qR

2s/t 6'.7

324

98

89

123/t

31/s

M64

1924 90 1)9,6

1)A

qR

3Ts qR

23/t

100

123/t

3Tt

4Vq

2540

324

9B

108

l+/2 3t62

Ilr/4 3l+

1f8

41/t

98

108

M72 J

M80x6

I

Wrrcnr

Drwusrous Tnlrpnrurunn INcnrs

FlrrngNnrrr

PouNls

PouNos

I\rI]r-r-rN4erEBs

CsLsrus

NpwroNs

Krlocnq,rlls

I

L)

0./

914

80

51

Mt6

t/J

g?.

51

9 g

32

36

ll

JO

lVt

914

32

.ib

l)/t

914

?1

36

lVz

76 J 76

96 J4U 154 3 1A 1'70

3 '16

438 506

914

38

-i0

lY2

4 102 4 142 4

lqq

2i0 260

Ci30 x l0

914

38

r02

bu0 275

x

.io

2YB

4

64U

sl4

54

102

36

2Y8

1

914

54

10.)

/qq 1466 665

C8

X

11.5 C2(n x 17 C8 x 11.5 C200 x 17

C8 x 11.5 C200 x U c12 x 20.7 C130 x 31 C12 x 20.7 C130 x 31 C12 x20.7 C130 x l1 C15 x 33.9 C380 x 50 L1] X JJ.Y C380 x 50

381 1

100

106'.7

6'7

40

27/s

4 102 4 102 4 102 4

1n16

'71

10.1

48

3VB

41U4

2568

-)o

2V8

914

54

4/.

,!r/8

1067 4L

60 /,t/8

12t9

79

46 1219

J1/8

4 102 +

86

t02

2244 101 8

).6ltJ

il88 3144 1

6qR

1862

)00r


VARIABLE SPRING SUPPORTS

VARIABLE SPRING ROD TAKE OUT CALCULATION Type A

Type

B

Type

G

Type

C

For Spring Types A, B, C, and G, the Rod Takeout can be calculated by adding the spring deflection ofthe load indicator at the cold load setting (found on pages 5-7) to the "E" dimension and then subtracting 3" to compensate for one half of the turnbuckle gap used for adjustment. Example: A Figure 9208 Size f4, with an lnstalled Load of 4000 lbs. Has a Rod Take out of (1-9"+1.5"-3") = 17.5"

Type D This spring type does not require any adjustment to its' "E" dimension.

&e$3&L.R

Type

#sffi MW

*iffig*Ki, (ftslm

E

:II3S#T

*.*leJfR

$sqtftra{gt{f

Hanger rod length to be determined by the customer.

r L '-x" !

f

/1

tr

fl

F,â‚ŹI"!r.;

;

Note: Please confirm that sufficient thread length is available on the rod for field adjustment for all spring types.

45


TECHNICAL INFORMATION

REFERENCE DATA Angle Area

- METRIC CONVERSION

TOCONVERTFROM

TO

MULTIPLY BY

ABBREVIATIONS

degree

radian (rad)

radian (rad)

degree

AISC = American

foot'?

square square square square

x l0''? 5;729578 x l0-' 9.290304 x 1l'z

incht

circular mil square square square square

Bending Moment of Torque

CHART

centimeter meter (m'?) meter (m'?) meter (m')

(cm'?)

lbf.ft lbf.in N.m N.m

meter (m'?) meter (m') meter (m'?)

inch (in')

foot'?

incht

circular mi1 newton meter (N.m) newton meter (N.m)

1.745329

1.550003 1.076391 1.550003 1.973525 1

x 10.'

AWWA

x 10'

Dia.

x 10'

Fr.

Ga

newtons (N)

4.448222

Length

foot (ft) inch (in)

meter (m) meter (m) meter (m) micrometer (prm)

3.048000 x 10'1 2.540000 x 10' 2.540000 x 10r 2.540000 x 10" 3.280840 3.937008 x 10-1 3.937008 x 10* 3.937008 x 105

Mass

Mass

Unit

Per

Length

meter (m) meter (m) meter (m) micrometer (pm)

foot (ft) inch (in)

ounce (avoirdupois) pound (avoirdupois) on (short, 2000 lb) on (1ong,22401b) kilogram (kg) kilogram (kg) kilogram (kg) kilogram (kg)

(kg) (kg) (kg) (kg) ounce (avoirdupois) pound (avoirdupois) ton (shor1 2000 lb) ton (long 22401b)

lblft

kilogram per meter (kg/m) kilogram per meter (kg/m)

lb/in kg/m kg/m

Per

Mass Per

megapascal

N Nm

newton newton-meter

Pa

pascal

1.638706

x 10'

cubic centimeter (cmr) cubic meter (mr) cubic meter (m3) gailon (U.S. liquid)

40

MPa

x10"

inch3

1.601846 2.'76'/990

x

10'r 1013

10t6

I0' 104 107

6.102374 x l)-a 4.162314 x 101 2.402510 x 10-6 6.894757 x 10tr 1.45037'/ x10'

/

degree Celsius degree Fahrenheit

toc = t"F - 32)

cubic meter (m3) cubic meter (m3) cubic inch (in')

2.831685

x

1.638706

x 10'? x l0' x 10-' x 10-a x 10'

foot3 inch3

cubic meter (m3)

(Rounded Root)

millimeter

7-450377

footl

Unified Course Threads Unified Course Threads

film

lbf/in'(psi)

degree Celsius

Poly Vinyl Chloride

meter

x x

Temperature degreeFahrenheit

Ounces Pounds Per Square Inch

m pm

1.450377 1.450377

E (Pa) E (psi)

Manufacturers' Standardization Society Nationai Fire Protection Association Outside Diameter

KN

6.894757 x 6-894757 x 6.894751 x

1(m')

Maximum Minimum

1.0'

pascal (Pa) pascal (Pa) megapascals (MPa) pound force per sq. inch (psi) kip per sq. inch (ksi)

I (in')

Pounds

10.'

4882428 2.048161

S (m') S (in3)

UNC UNCR

Tnch

10-\

x 6.719689 x 5.599741 x

kilogram per square meter (kg/m') pound per square foot (lb/ft':)

section modulus S (in') section modulus S (M') moment of inertia I (ino) moment of inertia I (M') modulus of elasticity E (psi) modulus of elasticity E (Pa)

Oz.

psi PVC

Inside Diameter

METRIC SYMBOLS

lb/fr'

pascal (Pa) pascal (Pa) megapascals (MPa)

o.D.

Feet Gauge

cm kg

1bs/in:

lbf/in'(psi)

NFPA

Testing & Materials American Water Works Association Diameter

1.488164 7.78579'7

lbs/ft'

kip/in? (ksi)

MSS

=

2.204622 1.1023i1 x 10, 9.842064 x 10,

lb/in'

lbf/in'(psi)

Min.

9.0'71847 x 10' 1.016047 x 10{ 3.527396 x 10.,

kg/m3

kg/m'

Volume

lb/ft lb/in

I.D. In. Lbs. Max.

2.834952 x 10" 4.535924 x 10',

kg/m'

Area Unit

Section

kilogram kilogram kilogram kilogram

x 10r x 10" 6.242797 x 10'1 3 612730 x 105 i.728000 x 10-3

Pressure or Stress

Properties

Inch (in)

kilogram per cubic meter (kg/mr) kilogram per cubic meter (kg/m3) 1b/ff

lb/ft' Unit Volume lb/in'

Mass

mil

ASTM = Anlerican Society for

.355818

lbf.in

National

Standards Institute

x 10-l

pounds-force (lbf)

inch (in)

ANSI = American

x 10' x 10t'

Force

mil

Institute

6.451600 x 10" 5,067075 x 10'o

L129848 1.375621 8.850748

lbf.ft

AISI =

Institute of

SteeI Construction American Iron & Steei

1.8

tots=1.8toc+32

6.102374 3.531466 6.102376 3.785412

102

centlmeter

kilogram kilonewton micrometer


TECHNICAL INFORMATION

PIPE WEIGHTS FOR STANDARD AND HEAVY WEIGHT PIPE Nominal Pipe Size %"

Pipe Schedule std / 40

(15mm)

XS/80

%"

std / 40

(2Omm)

XS/80

1"

std / 40

(25mm)

XS/80

1%"

std / 40

(32mm)

XS/80

t%"

std / 40

(40mm)

XS/80

2',

std / 40

(5Omm)

XS/80

2%"

std / 40

(65mm)

XS/80

22

9t

3.0 2.7 3.6

44

48

2.375

60

0.

2.875

75

141

12"

Srd

(300mm) 14" (35Omm)

/

30

(400mm)

XS/40

18'

std

(450mm) 20" (500mm) 24" (600mm) 30"

XS

taI

(1050mm)

6.625 8,625

i68 219

t0.75

2',73

12.'75

235

14.00

355.6

XS

16"

36" (900mm)

89

XS/60

XS srd / 30

/)Umm)

3.500

XS/80

Srd

Srd

/ 20

16.00

406.4

18.00

457.2

20.00

508.0

XS/30 std / 20 XS

24.00

std

30.00

609.6 762.0

36.00

9t4.4

42.00

1066.8

XS/20 std

0.145 0.200 0.154 0.218 0.203 0.276 0.216 0.300 0.226 0.318 0.237 0.331 0.258 0.3'75 0.2tt0 0.432

0322 0.500 0.365 0.500 0.375 0.500 0.375 0.500 0.375 0.500 0.375 0.500 0.3'75 0.500

0.315 0.500

XS/20 Srd

25

1.900

5.563

std / 40

22 32

XS/80

10' (2)Umm)

1.5

1.7

20 24 30 36 43 52 53 64 75 92

.JJ

tt4

std / 40

t.4

2.3

4.500

xs/80

1'.7

2.2

/ 40

150mm) 8" (20Omm)

t.l

0 '79 0. 40

xs/80

std / 40

14

t6

42

r02

6"

1.1

N/m

1.0 1.2

1.660

4.000

XS/80

0.9

J4

std / 40

l25mm)

0 09

XS/20

w/Water lbs/ft

1.315

.1/)

std / 40

lbs/ft

Air. Steam Nlm t2

28

XS/80

5'

PIPE WEIGHT Gas.

1.050

srd / 40

Srd

d

Wall Th'k ln 0 4'/ 0. l3 0. 54 0 33

-l

4" (100mm)

(

0.840

(80mm) lgOmm)

(

PIPE DATA Outside Dia. tn mm

J.t

40 53 53

5.0 5.8

73 85

'7 '7

112

1.7 2.1

2.5 2.9 3.6 3.6 4.4 5.1 6.3

7.9 9.5

1',l

115 139 157

'1.6

111

11

10

150

13

191

9.1

133

l3

195

13

182

16

11

16

l5

t5'7 2Lg

20

15

213

23

21

303

29

19

2',77

31

239 238 291 340 418 460

29 29 43 40 55 50

417

40 50 63 75

65 55

4t7 633

582

tJ3

I

/,J 95s

99 112

922 1090 1271 1439 1641

591 '799

87

796

lr4

t669

12

1052

130

63 83

913

142

1892 2069

1208 1030

l-59 172

2326

71

93

1364

192

2800

79

1147

205

2988

r04

ts20

22'7

95 125

1

1381 831

279 306 410

3313 4067 4460 5983

0.3'/5 0.500

It9

0.375 0.500 0.3'75

143 190

r67

0.500

222

l -58

1731 2299

444

2509

6478 8256

2082

566

2766 2433 3 /-J+

746

8853 10888

194

1i587

60'7

Pipe Weights are based on Carbon Steel pipe

.47


TECHNICAL INFORMATION

USEFUL WEIGHT FORMULAS Weight (1b/f0 = 10.68 x T x (D - T) x F

PLATE AND BAR Weight (lb) = 0.2833 x T x W x L x F

PIPE

PIPE CONTENTS

ROUND ROD

Weight 0b/f0 = 0.3405 x G x (D - 2T)']

Weight (lb/ft) = 2.6'7D2

LEGEND

MATERIAL WEIGHT FACTORS Carbon Steel & Cr-Mo ..................1.00

D = Outside Diameter

F

(inches)

Aluminum ...................... :...............0.35

= Material Weight Factor

............. lron Copper

G = Specific Gravity of Pipe Contents

Brass Cast

Normally 1.0 for water, 0 for air and steam.

L = Length T

(inches)

..........1.12 .................0.91

....................1.14

Ferritic stainless steel .....................0.95 Austenitic stainless steel ................ 1.02

= Pipe Wall, Plate, or Bar Thickness (inches)

W= Width (inches)

Wrought iron ..................................0.98

CALCULATING OF PIPINIG INSULATION WEIGHT The weight per foot of insulation is calculated by using the weight factor "X" from the table below and multiplying by the insulation density (lbs/cu-ft).

EXAMPLE: A 16" pipe wrth 3%" of insulation is lbund to have a weight factor of 1.49 (from table below). With an insulation density of 11 lb/cu-ft, the calculation for insulation weight is 1.49 x 17 = 16.39

INSULATION WEIGHT FACTOR _ X

NOMINAL SIZE | 1"

PIPE

l%"

2"

NOMINAL INSULATION THICKNESS

I 2y""

.10 .12

.16 .15

.22

.11

.21

.29

.14

.21

.29

.091

.t9

.2'7

.36

J

.10

.1'l

.34

3%

.15 .13 .15

.23 .21

.25 .31

.t7

.27

1

.05'7

1%

.051

t% 2

.066 .080

2%

4 5 6

.A

.30 .34

.23

.41 .39 .45 .51

8

.34

.38 .41

10

.43

.59

.75

12

.50

.68

l4

.51

.70

.88 .90

16

.5'7

.64 .70

.78 .81

1.01

18

.96

r.23

1.13

1.44

20 24

.83

.66

l.t2

3"

3yr" I 4" .4U

.38 .37

.48 .47 .58

.59

.56 .66

.68 .78

.63 .71 .83

.'7'7

.96

.88

t.04

.9'l

1.13

.97

1.17

t.36

r.t2

1.54

1.28

1.32 1.52

1.34

1.57

1.81

r.49

l.'14

1.64

1.92 2.09 2.44

2.01 2.21

.46 .44 .54 .51 .58

.64 .80 .93 1.01 1.11

1.24 1.37 1.50 1,77

t.79 2.10

O.D. pipe, etc.), use the lbllowing formula to determine the insulation weight:

Where:

I

= Insulation density (lb/cu-ft) = Insulation thickress 1inches.1 D= Outside diameter of pipe (inches) T

48

I 5%" I

6"

.39

General Formula: For pipe sizes not shown in the table above (special Insulation Weight: (lb/f0 = 0.0218 x I x T x (T + D)

4U" I 5"

.Jl .30

.70

.83 .81 -97

l.'74

2.40 2.80

1.10 1.20 1.34 1.56 1.76 1.99

2.07 2.29

2.5r 1-t-) 3.16

t.'75 1.99

2.24 2.34 2.58 2.82 3.06 3.54

2.50 2.62 2.88

3.t4 3.40 3.92


TECHNICAL INFORMATION

COMMON STRUCTURAL SHAPES USED FOR PIPE SUPPORTS WEIGHT DEPTH

SIZE

Ll%xl%x% L2x2x%

2.3 3.2

I% 2

L2%x 2%x

4.1

at/ L /)

4.9 7.2 9.4

a J a J a J

SHAPE

ANGLE

%

L3x3x% L3x3x% L3x3x% L3% x 3%x%

L4x4x% L4x4x% L5 x5

x%

L6x6x'/, L6x6x% C3x4.l

TUBING

I.BEAM

IN

IN3

1%

/4

2

/4

2%

/4

l/

t/

t/

0.13 0.25 0.38

3

/4

t/

0.s8

J

'/s

0.83

J

a

t/ /)

t.07

l/ /8

1.15

\/

t.5z

8.5

3%

3%

9.8

4 4

,/a

12.8

4 4

%

1.97

16.2

5

5

Yt

t9.6

6 6

6 6

f/ /4

3.16 4.61 6.66

28.7

1/

/2

J

a

t%

%

l%

5/ /t6

C 5 x6.7

5

t%

7ro

C,6 x 8.2

8.2

6

l'/,

5/

C8xl1.5

11.5 15.3

8

'rt/.

%

15.3

l0

2%

1/

C 12x20.l C 15 x 33.9

20.1 33.9

t2

J

/2

21.50

15

3%

%

42.00

ST 2x2x% ST3x3x% ST4x4x% ST4x4x% ST 4x4x% ST6x6x% ST6x6x% ST6x6x% ST8x8x% ST8x8x% ST8x8x% S 4 xl.1 W4x13 W6x12 W6x15 W6x20 W8x18 W8x24 W8x31

5.4 8.8

2

2

/J

t/

J

4

/4 l,/ /4

0.11 2.10

12.2

J 4

n.3

4

4

% t/

5.35

21.6

4 4

19.0

6

6

t/

10.10

27.5 35.2 25.8

6 6

6 6

8

8

%

38.9

8 8

8 8

%

48.9

10

x

W10x33

,/16

t/

t/

/2

/4

\/ /8

tl

l/ /)

1.10 1.93

3.00 4.38 8.14 13.50

4.II 6.r3 13.90 16.80 18.80 26.40 32.90

7.7

4

2%

5,/

13.0 12.0

4'/t

4 4

3/

3.04 5.46

/4

7.31

15.0

6

20.0

6%

6 6

% 3/

18.0

8'/t

5%

24.0 31.0 22.0

J'/, 8 10,/,

5%

6

/t6 /8 t/

9.12

/8

r3.40

5/

15.20

6%

%

8

%o

20.90 21.50 23.20

9%

8

W 12x26

33.0 26.0

r2%

6%

W12x40

40.0

t2

8

Note: Flange thickness for I-Beam and Channel is the "mean" thickness

49

MODULUS

4

W IO x22

\-.

THICKNESS

5.4 6.7

C

SQUARE

IN

SECTION

WIDTH IN

4.1

C4x5.4 CHANNEL

FLANGE

PER FOOT

STRUCTURAL

% '7/

/16

a/

/8 t/ /2

35.00 33.40 51.90


Catalog No.09V

SALES OFFICES AND WAREHOUSES CALIFORNIA 5097 Zambrano Street City of Commerce, CA 90040 Tel: 323 622 1830 Fax: 323 622 1837

NEW JERSEY (SOUTH) 3900 River Road, P.O. Box 556 Pennsauken, NJ 08110-0556 Tel: 856 488 1988 Fax: 856 488 0824

MARYLAND 8941 D’Arcy Road Upper Marlboro, MD 20774 Tel: 301 333 4631 Fax: 301 333 4638

CANADA 921 Barton Street, Unit 3 Stoney Creek, ON L8E 5P5 Tel: 905 664 6866 Fax: 905 664 2751

MASSACHUSETTS 225 Merrimac Street Woburn, MA 01801 Tel: 781 935 2950 Fax: 781 935 7664

SALES OFFICES, WAREHOUSES AND MANUFACTURING PLANTS LOUISIANA 434 Latigue Road Waggaman, LA 70094 Tel: 504 431 7722 Fax: 504 431 7900 NEW JERSEY (NORTH) 369 Jefferson Avenue Saddle Brook, NJ 07663 Tel: 973 772 1800 Fax: 973 772 8333

VARIABLE SUPPORTS

PENNSYLVANIA 484 Galiffa Drive Donora Industrial Park Donora, PA 15033 Tel: 724 379 8461 Fax: 724 379 8463

EXECUTIVE OFFICES 225 Merrimac Street, Woburn, MA 01801 Tel: 781 935 2950 • Fax: 781 935 7664 e-mail: cpsales@carpenterandpaterson.com

www.carpenterandpaterson.com

CARPENTER & PATERSON, INC.

DESIGNERS • ENGINEERS • MANUFACTURERS

DESIGNERS • ENGINEERS • MANUFACTURERS


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