Roller Chain General Catalog

I - Selection Procedure for Double Plus ® , Outboard Roller and Top Roller Chain

Table 3 f 1 - Coefficient of Friction between chain sand rail when conveying

6 - Determination of Chain Size Multiply the maximum chain tension (T) by the speed coefficient (K) listed in Table 6 and verify with the following formula T • K ≤ Maximum allowable chain tension Note - When there are two strandes, the maximum chain tension should be T • 0.6 ≤ Maximum allowable chain tension ■ Ambient Temperature Range Suggested ambient temperature range is between 14°F and 140°F, for which standard lubrication is suggested. Special lubrication is required for temperatures between 140°F and 300°F. For temperatures above 300°F please consult Tsubaki engineering.

Table 2 - Maximum Allowable Roller Load of Base Chain

Chain Type

Type of Roller on Base Chain

Dry

Lubricated

Type of Roller for transfer Standard Roller “S” Oversized Roller “R” Standard Roller “S” Oversized Roller “R”

40 C2040

50 C2050

60 C2060

80 C2080

100 C2100

Chain

1 - Confirmation of operating conditions for free flow conveyors The Following information is needed in order to select an appropriate chain for free flow conveyors: 1 - Material weight, dimension and quantity of the conveyed object (including pallet). 2 - Conveyor speed 3 - Conveyor length (the length for accumulating and transferring portion respectively). 4 - Lubrication requirements and environment. 2 - Tentative selection of chain size T = W T ●• f •● K W T = Total weight of conveyed object except chain (lbs) f = Coefficient of friction f = f 2 + f 3 (See page 264, Tables 4 and 5 or Table 8) K = Chain speed coefficient (See page 264, Table 6) Note: In the case where two matched strands are to be operated, the chain’s maximum allowable tension (shown in Table 7, page 264) should be compared with T • 0.6 to decide the chain type and size. 3 - Confirmation of the maximum allowable roller load The maximum allowable roller load for conveyed objects should not exceed the figures shown in Table 1 below. However, maximum allowable roller load for the base chain should be checked using Table 2.

Double Plus Chain

Regular and high friction type

0.08

121

176

“S” Roller

0.21

0.14

Steel Roller

“R” Roller

0.12

0.08

Outboard Roller Chain

143

220

352

594

880

“S” Roller

0.12

Plastic roller

“R” Roller

0.08

Top Roller Chain (Single Strand)

Poly-Steel

0.25

110

198

286

Top Roller Chain

“S” Roller

0.21

0.14

Steel Roller

“R” Roller

0.12

0.08

Poly Steel 13 Note - The above figures for Poly-Steel show the maximum allowable load per plastic inner link. 4 9

■ Use of Chain Guide

Table 4 f 2 - Coefficient of Friction between chain and Conveyed Object when Accumulating Chain Type Type of Roller on Base Chain Dry

Lubricated

4 - Calculation of maximum chain tension (T)

Reg ular Type

0.10

Double Plus Chain

High Friction Type

0.15

Plastic Outboard Roller

0.06

Outboard Roller Chain

Plastic brake outboard roller

0.10

Steel outboard roller

0.09

0.06

Plastic top roller

0.06

Top Roller Chain

Note: 1 – When using plastic brake outboard roller chain, the rollers of the base chain on the return side should be supported by the rail in the same way as the conveying side. 2 – When using Poly-Steel chain with the outboard rollers, the guide should support the bottom surface of the links.

Steel top roller

0.09

0.06

Table 1 - Maximum Allowable Roller Load For Conveyed Objects

Note: These factors are for reference only.

Type of Guide Rail

Chain Type

C2030VRP C2040VRP C2050VRP C2060VRP C2080VRP

5 - Calculation of required power (HP)

P: Maximum number of pallets o n conveyor T: Maximum chain tension (lbs) L 2 : Length of accumulating portion (ft) W 2 : Weight of conveyed objects in accumulating portion (Lbs/ft) L 1 : Length of conveying portion (ft) W 1 : Weight of conveyed objects in conveying portion f 1 : Coefficient of friction between chain and rail when conveying f 2 : Coefficent of friction between chain and conveyed object when accumulating f 3 : Coefficient of friction between chain and rail when accumulating M: Weight of chain and slat, etc. (lbs/ft)

Table 5 f 3 - Coefficient of Friction between Chain and Rail when Accumulating Chain Type Type of Roller on Base Chain Dry

Aluminum

Double Plus Chain

Aluminum with Steel Rail

107

134

201

Lubricated

This is the load for two strands of Double-Plus chain Note - When using aluminum frame with steel rail, the maximum allowable for VR series is twice that of VRP series

Table 7 - Maximum Allowable Chain Tension (Lbs)

Regular Type

0.20

Double Plus ® Chain

High friction type

0.25

Type of Roller on Base Chain

Chain Type

40 C2040

50 C2050

60 C2060

80 C2080

100 C2100

C2030

Note : For all chains except Double Plus ® chain, f

3 equals f 1 . These factors are for reference only.

Regular

120

200

310

460

1190

Table 6 - Chain Speed Coefficient

Lbs/Roller

Double Plus ® Chain

High Friction

100

155

230

595

Type of Roller for transfer Plastic Outboard Roller Steel Outboard Roller

40 C2040

50 C2050

60 C2060

80 C2080

100 C2100

Chain Speed ft/min Chain Speed Coefficient (K)

Chain

Stainless Steel

100

155

230

595

Steel Roller

220

350

550

840

Hp: Required power (Hp) V: Chain speed (ft/min) ᵑ: Transmission efficiency of drive unit L: Length of pallet

0 - 50

1.0

Steel Roller

595

970

1410 2400 3835

50 - 100

1.2

Outboard Roller Chain

Plastic Roller

100

155

230

400

575

100 - 160

1.4

121

176

Poly-Steel

100

155

200

160 - 230

1.6

Plastic Top Roller Steel Top Roller

Steel Roller

595

970

1410 2400 3835

230 - 300

2.2

Top Roller Chain (Single Strand)

Top Roller Chain

Calculate the maximum chain tension (T) with the following formula referring to Table 3 and Tables 4 and 5 (or Table 8) on page XXX

Plastic Roller

100

155

230

400

575

300 - 360

2.8

121

176

360 - 400

3.2

Table 8 - Coefficient of Friction Double Plus ® “VR” Steel Roller

Note: These factors are for reference only.

Double Pitch Double Plus ® Steel Roller

Large Size Double Plus ®

Coefficient of Friction

Suggested chain speed is as follows: Double Plus ® - 50ft/min or less

In general, free flow conveyors should have two matched strands of chain and in this case, the chain weight should be for two strands of chain. T, calculated above is the maximum chain tension for two strands of chain.

Coefficient of friction between chain and rail when conveying Coefficient of friction between chain and conveyed object when accumulating Coefficient of friction between chain and rail when accumulating

0.05

Plastic Roller Chain - 230ft/min or less Poly-Steel Chain - 230ft/min or less When chain speed exceeds the above, consult Tsubaki engineering

0.10

0.15

0.10

0.15

0.10

0.25

0.05

0.15

Note - Tsubaki suggests lubricating steel roller and “VR” type chains

263

264