Single Row Sprocket Drive Roller
Cat:Sprocket Drive Roller
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket d d2 A B...
A driven roller is a type of idler roller used in powered roller conveyors, typically equipped with drive wheels such as sprockets, multi-wedge pulleys, timing pulleys, V-belt pulleys, or O-grooved rollers. Driven rollers with sprockets offer high load capacity, with sprockets usually made of steel and available in various specifications based on load requirements. Driven rollers with multi-wedge pulleys, timing pulleys, and V-belt pulleys are designed for belt-driven systems and have lighter load capacities. O-grooved rollers are also used for light-duty roller conveyors, with load capacities lower than belt-driven rollers.
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket d d2 A B...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Liner size | Sprocket | d | d2 | A | B | W1 | BB |
KR-384010S | 38.1×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×26 | #40×10TS | 46 | 41.1 | 12 | 14 | W-1 | W+28 |
KR-424010S | 42.7×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18x12.2×26 | #40×10TS | 46 | 41.1 | 12 | 14 | W | W+28 |
KR-484010S | 48.6×3.5 | 100~800 | SGP40A | 6001ZZ · 6201Z | 12.0 | 18×12.2×26 | #40×10TS | 46 | 41.1 | 12 | 11 | W+5 | W+28 |
KR-504010S | 50.8×1.6 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×26 | #40×10TS | 46 | 41.1 | 12 | 13 | W-1 | W+28 |
KR-574010S | 57.1×2.1 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×26 | #40×10TS | 46 | 41.1 | 12 | 13 | W | W+28 |
KR-604010S | 60.5×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×26 | #40×10TS | 46 | 41.1 | 12 | 13 | W | W+28 |
KR-605011S | 60.5×3. | 100~1000 | SGP50A | 6002ZZ | 15.0 | 21×15.2×41.5 · 21×15.2×12 | #50×11TS | 63 | 56.35 | 20 | 18 | W+3 | W+48 |
KR-765011S | 76.3×4.2 | 100~1000 | SGP65A | 6002ZZ | 15.0 | 21×15.2×41.5 · 21×152×12 | #50×11TS | 63 | 56.35 | 20 | 18 | W+2 | W+48 |
KR-605013S | 60.5×3.8 | 100~1000 | SGP50A | 6004ZZ | 20.0 | 29×20.2×38.5 · 29×20.2×15 | #50×13TS | 73 | 66.34 | 20 | 18 | W+1 | W+48 |
KR-765013S | 76.3×4.2 | 100~1000 | SGP65A | 6004ZZ | 20.0 | 29x20.2x38.5 · 29×20.2×15 | #50×13TS | 73 | 66.34 | 20 | 18 | W+2 | W+48 |
KR-895013S | 89.1×4.2 | 100~1000 | SGP80A | 6004ZZ | 20.0 | 29×20.2x38.5 · 29×202x15 | #50×13TS | 73 | 66.34 | 20 | 18 | W | W+48 |
KR-1146014S | 114.3×4.5 | 300~2000 | SGP100A | 6205ZZ | 25.0 | 35×26×19 · 35×26×21 | #60×14TS | 93 | 85.61 | 20 | 23 | W | W+58 |
KR-1406016S | 139.8×4.5 | 300~2000 | SGP125A | 6206ZZ | 30.0 | 38×31.1×19 · 38×31.1×21 | #60×16TS | 107 | 97.65 | 20 | 23 | W | W+58 |
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket d1 d2 A ...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Liner size | Sprocket | d1 | d2 | A | B | C | W1 | BB |
KR-384010SW | 38.1×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40×10TSW | 46 | 41.1 | 12 | 23 | 18 | W-1 | W+58 |
KR-424010SW | 42.7×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40×10TSW | 46 | 41.1 | 12 | 23 | 18 | W | W+58 |
KR-484010SW | 48.6×3.5 | 100~800 | SGP40A | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40×10TSW | 46 | 41.1 | 12 | 23 | 15 | W+5 | W+58 |
KR-504010SW | 50.8×1.6 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40x10TSW | 46 | 41.1 | 12 | 23 | 18 | W-1 | W+58 |
KR-574010SW | 57.1×2.1 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40×10TSW | 46 | 41.1 | 12 | 23 | 18 | W | W+58 |
KR-604010SW | 60.5×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×53 | #40×10TSW | 46 | 41.1 | 12 | 23 | 18 | W | W+58 |
KR-605011SW | 60.5×3.8 | 100~1000 | SGP50A | 6002ZZ | 15.0 | 21x15.2×66.5 · 21×15.2x12 | #50×11TSW | 63 | 56.35 | 20 | 25 | 18 | W+3 | W+73 |
KR-765011SW | 76.3×4.2 | 100~1000 | SGP65A | 6002ZZ | 15.0 | 21×15.2×66.5 · 21×15.2×12 | #50×11TSW | 63 | 56.35 | 20 | 25 | 18 | W+2 | W+73 |
KR-605013SW | 60.5×3.8 | 100~1000 | SGP50A | 6004ZZ | 20.0 | 29×20.2×63.5 · 29×20.2×15 | #50×13TSW | 73 | 66.34 | 20 | 25 | 18 | W+1 | W+73 |
KR-765013SW | 76.3×4.2 | 100~1000 | SGP65A | 600422 | 20.0 | 29×20.2×63.5 · 29×20.2x15 | #50×13TSW | 73 | 66.34 | 20 | 25 | 18 | W+2 | W+73 |
KR-895013SW | 89.1×4.2 | 100~1000 | SGP80A | 6004ZZ | 20.0 | 29×20.2×63.5 · 29×20.2×15 | #50×13TSW | 73 | 66.34 | 20 | 25 | 18 | W | W+73 |
Type Roller size Rollerwidth Roller matenal Bearng Shaft diameter Sprocket d1 d2 d3 A L BB P1 P2 ...
Type | Roller size | Rollerwidth | Roller matenal | Bearng | Shaft diameter | Sprocket | d1 | d2 | d3 | A | L | BB | P1 | P2 | P3 | P4 |
KPR-574015SW | 57.2×2.6 | 300~2000 | STKM | UCPA204 | 25xW+152 | #40×15TSW | 67 | 61.08 | 20 | 33 | W+152 | W+86 | 24 | 23 | 17 | 22 |
KPR-604015SW | 60.5×3.8 | 300~2000 | STKM | UCPA204 | 25xW+152 | #40×15TSW | 67 | 61.08 | 20 | 33 | W+152 | W+86 | 24 | 23 | 17 | 22 |
KPR-765013SW | 76.3×4.2 | 300~2000 | SGP65A | UCPA204 | 25xW+163 | #50×13TSW | 73 | 66.34 | 20 | 33 | W+163 | W+97 | 32 | 25 | 18 | 22 |
KPR-895013SW | 89.1×4.2 | 300~2000 | SGP80A | UCPA206 | 35xW+169 | #50×13TSW | 73 | 66.34 | 30 | 39 | W+169 | W+91 | 29 | 25 | 18 | 19 |
KPR-1015018SW | 101.6×4.5 | 300~2000 | SGP90A | UCPA206 | 35xW+169 | #50×18TSW | 98 | 91.42 | 30 | 39 | W+169 | W+91 | 29 | 25 | 18 | 19 |
KPR-1145018SW | 114.3×4.5 | 300~2000 | SGP100A | UCPA206 | 35xW+169 | #50×18TSW | 98 | 91.42 | 30 | 39 | W+169 | W+91 | 29 | 25 | 18 | 19 |
KPR-1405018SW | 139.8×4.5 | 300~2000 | SGP125A | UCPA206 | 35xW+169 | #50×18TSW | 98 | 91.42 | 30 | 39 | W+169 | W+91 | 29 | 25 | 18 | 19 |
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket MAC-CN...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Liner size | Sprocket | |||||
MAC-CN384010S | 38.1×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS | |||||
MAC-CN424010S | 42.7×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18x12.2×17 | #40×10TS | |||||
MAC-CN484010S | 48.6×3.5 | 100~1000 | SGP40A | 60012Z · 6201Z | 12.0 | 18×12.2×17 | #40×10TS | |||||
MAC-CN504010S | 50.8×1.6 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS | |||||
MAC-CN574010S | 57.1×2.1 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS | |||||
MAC-CN604010S | 60.5×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Sprocket | ||||||
MAC-CS384010S | 38.1×2.3 | 100~800 | STKM | 6001ZZ · 6201Z | 12.0 | #40×10TS | ||||||
MAC-CS424010S | 42.7×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | #40×10TS | ||||||
MAC-CS484010S | 48.6×3.5 | 100~1000 | SGP40A | 6001ZZ · 6201Z | 12.0 | #40×10TS | ||||||
MAC-CS504010S | 50.8×1.6 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | #40×10TS | ||||||
MAC-CS574010S | 57.1×2.1 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | #40×10TS | ||||||
MAC-CS604010S | 60.5×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | #40×10TS |
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket MAC-CN...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Liner size | Sprocket |
MAC-CN384010SW | 38.1×2.3 | 100~800 | STKM | 6001Z · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
MAC-CN424010SW | 42.7×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
MAC-CN484010SW | 48.6×3.5 | 100~1000 | SGP40A | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
MAC-CN504010SW | 50.8×1.6 | 100~1000 | STKM | 6001Z · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
MAC-CN574010SW | 57.1×2.1 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
MAC-CN604010SW | 60.5×2.3 | 100~1000 | STKM | 6001ZZ · 6201Z | 12.0 | 18×12.2×17 | #40×10TS |
Type Roller size Roller width Roller material Bearing Shaft diameter Liner size Sprocket d1 d2 ...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Liner size | Sprocket | d1 | d2 |
MAC-CN605010SW | 60.5×2.3 | 100~1000 | STKM | 6002Z7 · 61902Z | 15.0 | 20×15.2×16 | #50×10TS | 57.43 | 51.37 |
MAC-CN765013SW | 76.3×2.0 | 100~1000 | STKM | 6204ZZ · 61904Z | 20.0 | 25×20.2×22 | #50×13TS | 73 | 66.34 |
R Center 1000 Total length Roller width Wide of conveyor Narrow path Large diameter Loading of...
R Center | 1000 | Total length | Roller width | Wide of conveyor | Narrow path | Large diameter | Loading of roller | Weight of roller | |||
Sprocket | #40×10TSW | (∅) | Thickness | (∅) | Thickness | ||||||
W Roller width | 200~600 | 258 | 200 | 260 | 51.5 | 3.0 | 62.5 | 2.6 | 1842 | 1236 | |
Roller material | STKM | 358 | 300 | 360 | 48.8 | 3.0 | 65.2 | 2.6 | 1215 | 1643 | |
Beaning | 6001ZZ · 6201Z | 458 | 400 | 460 | 46.0 | 3.1 | 68.0 | 2.6 | 911 | 2050 | |
db Shaft diameter | 12.0 | 558 | 500 | 560 | 43.3 | 3.2 | 70.7 | 2.4 | 725 | 2456 | |
dC×dc×Lc/Liner size |
18×12.2×53 · 18×12.2×7 | 658 | 600 | 660 | 41.3 | 3.3 | 74.0 | 2.3 | 597 | 2863 |
R Center | 1200 | Total length | Roller width | Wide of conveyor | Narrow path | Large diameter | Loading of roller | Weight of roller | |||
Sprocket | #40×10TSW | (∅) | Thickness | (∅) | Thickness | ||||||
W Roller width | 200~600 | 258 | 200 | 260 | 52.1 | 2.9 | 61.9 | 2.5 | 1842 | 1.132 | |
Roller material | STKM | 358 | 300 | 360 | 49.7 | 3.0 | 64.3 | 2.4 | 1215 | 1487 | |
Beaning | 6001ZZ · 6201Z | 458 | 400 | 460 | 47.3 | 3.1 | 65.7 | 2.4 | 911 | 1842 | |
db Shaft diameter | 12.0 | 558 | 500 | 560 | 45.0 | 3.2 | 69.2 | 2.8 | 725 | 2197 | |
dC×dc×Lc/Liner size | 18×12.2×53 · 18×12.2×7 | 658 | 600 | 660 | 45.0 | 3.2 | 74.0 | 2 | 597 | 2552 |
R Center | 1500 | Total length | Roller width | Wide of conveyor | Narrow path | Large diameter | Loading of roller | Weight of roller | |||
Sprocket | #40×10TSW | (∅) | Thickness | (∅) | Thickness | ||||||
W Roller width | 200~600 | 258 | 200 | 260 | 52.6 | 2.7 | 61.4 | 2.8 | 1842 | 1233 | |
Roller material | STKM | 358 | 300 | 360 | 50.4 | 2.9 | 63.6 | 2.7 | 1215 | 1645 | |
Beaning | 6001ZZ · 6201Z | 458 | 400 | 460 | 48.0 | 3.1 | 65.4 | 2.4 | 911 | 2046 | |
db Shaft diameter | 12.0 | 558 | 500 | 560 | 48.0 | 3.4 | 69.8 | 2.4 | 725 | 2452 | |
dC×dc×Lc/Liner size | 18×12.2×53 · 18×12.2×7 | 658 | 600 | 660 | 48.0 | 3.1 | 74.0 | 2.1 | 597 | 2.86 |
R Center | 2000 | Total length | Roller width | Wde of conveyor | Narrow path | Large diameter | Loading of roller | Weight of roller | |||
Sprocket | #40×10TSW | (∅) | Thickness | (∅) | Thickness | ||||||
W Roller width | 400~800 | 458 | 400 | 460 | 50.0 | 3.0 | 62.5 | 2.3 | 911 | 1990 | |
Roller material | STKM | 558 | 500 | 560 | 50.0 | 3.0 | 65.6 | 2.2 | 725 | 2398 | |
Beaning | 6001ZZ · 6201Z | 658 | 600 | 660 | 50.0 | 3.0 | 68.8 | 2.2 | 597 | 2797 | |
db Shaft diameter | 12.0 | 758 | 700 | 760 | 50.0 | 3.0 | 71.9 | 2.1 | 519 | 3210 | |
dC×dc×Lc/Liner size | 18×12.2×53 · 18×12.2×7 | 858 | 800 | 860 | 50.0 | 3.0 | 75.0 | 2.0 | 450 | 3620 |
R Center 500 Total length Roller width Wide of conveyor Narrow path Large diameter Sprocket #...
R Center | 500 | Total length | Roller width | Wide of conveyor | Narrow path | Large diameter | |
Sprocket | #40×10TSW | (∅) | (∅) | ||||
W Roller width | 300~700 | 328 | 300 | 330 | 42.7 | 60 | |
Roller material | STKM | 428 | 400 | 430 | 42.7 | 65 | |
Beaning | 6001ZZ · 6201Z | 528 | 500 | 530 | 42.7 | 75 | |
db Shaft diameter | 12.0 | 628 | 600 | 630 | 42.7 | 80 | |
dC×dc×Lc/Liner size | 18×12.2×27 · 18×12.2×7 | 728 | 700 | 730 | 42.7 | 89 |
R Center | 900 | Total length | Roller width | Wide of conveyor | Narrow path | Large diameter | |
Sprocket | #40×10TSW | (∅) | (∅) | ||||
W Roller width | 300~700 | 328 | 300 | 330 | 42.7 | 56 | |
Roller material | STKM | 428 | 400 | 430 | 42.7 | 60 | |
Beaning | 6001ZZ · 6201Z | 528 | 500 | 530 | 42.7 | 65 | |
db Shaft diameter | 12.0 | 628 | 600 | 630 | 42.7 | 70 | |
dC×dc×Lc/Liner size | 18×12.2×27 · 18×12.2×7 | 728 | 700 | 730 | 42.7 | 75 |
R Center | 900 | Total length | Roller width | wide of conveyor | Narrow path | Large diameter | |
Sprocket | #40×10TSW | (∅) | (∅) | ||||
W Roller width | 800~1000 | 828 | 800 | 830 | 42.7 | 65 | |
Roller material | STKM | 928 | 900 | 930 | 42.7 | 70 | |
Beaning | 6001ZZ · 6201Z | 1028 | 1000 | 1030 | 42.7 | 75 | |
db Shaft diameter | 12.0 | ||||||
dC×dc×Lc/Liner size | 18×12.2×27 · 18×12.2×7 |
Type Roller size Roller width Roller material Bearing Shaft diameter Polyvee pulley DQR-3812 38...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Polyvee pulley |
DQR-3812 | 38.1×12 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
DQRS-3815 | 38.1×1.5 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
DQR-5015 | 50.8×1.5 | 100~1000 | STKM | 6002ZZ | 12.0 | Resin |
DQRS-5015 | 50×1.5 | 100~1000 | SUS304/201 | 6002ZZ | 12.0 | Resin |
DQR-5721 | 57.2×2.1 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
DQR-6023 | 60.5×2.3 | 100~1000 | STKM | 6002ZZ | 12.0 | Q235 |
DQRS-6020 | 60×2.0 | 100~1000 | SUS304/201 | 6002ZZ | 12.0 | Q235/SUS/Resin |
DQR-7620 | 76.3×2.0 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
DQRS-7620 | 76×2.0 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
Type Roller size Roller width Roller material Bearing Shaft diameter Vnbbed pully VR-3812 38.1×...
Type | Roller size | Roller width | Roller material | Bearing | Shaft diameter | Vnbbed pully |
VR-3812 | 38.1×1.2 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
VRS-3815 | 38×1.5 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
VR-5015 | 50.8×1.5 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
VRS-5015 | 50×1.5 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
VR-5721 | 57.2×2.1 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
VR-6023 | 60.5×2.3 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
VRS-6020 | 60×2.0 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
VR-7620 | 76.3×2.0 | 100~1000 | STKM | 6001ZZ | 12.0 | Q235 |
VRS-7620 | 76×2.0 | 100~1000 | SUS304/201 | 6001ZZ | 12.0 | Q235/SUS |
Type Roller size Roller width Roller material Shaft diameter Bearing OR-3812 38.1×1.2 100~1000 ...
Type | Roller size | Roller width | Roller material | Shaft diameter | Bearing |
OR-3812 | 38.1×1.2 | 100~1000 | STKM | 12.0 | SS |
ORS-3815 | 38.1×1.5 | 100~1000 | SUS304/201 | 12.0 | SS/SUS |
OR-4214 | 42.7×1.4 | 100~1000 | STKM | 12.0 | SS |
OR-5015 | 50.8×1.5 | 100~1000 | STKM | 12.0 | SS |
ORS-5015 | 50×1.5 | 100~1000 | SUS304/201 | 12.0 | SS/Resin |
OR-5721 | 57.2×2.1 | 100~1000 | STKM | 12.0 | SS |
OR-6023 | 60.5×2.3 | 100~1000 | STKM | 12.0 | SS |
ORS-6020 | 60×2.0 | 100~1000 | SUS304/201 | 12.0 | SS/Resin |
The assembly line masters the assembly of the conveyor. Among other things, it promotes specialization and thus increases productivity. If a failure o...
READ MOREThe assembly line masters the assembly of the conveyor. Among other things, it promotes specialization and thus increases productivity. If a failure o...
READ MOREThe assembly line masters the assembly of the conveyor. Among other things, it promotes specialization and thus increases productivity. If a failure o...
READ MOREWhat are the key factors to consider when selecting a driven roller for a specific conveyor system?
When it comes to optimizing the performance and efficiency of a conveyor system, the selection of driven roller is paramount. These components, essential for powering the system’s movement, are designed to transmit energy from the drive source to the conveyor belt or rollers. Whether you are designing a new system or replacing an existing one, choosing the right driven roller can significantly impact operational efficiency, longevity, and overall cost-effectiveness. Below are the key factors to consider when selecting the most suitable driven roller for your specific conveyor system.
Load Capacity Requirements
One of the most critical considerations is determining the load capacity that the driven roller needs to handle. Different types of driven rollers are designed to support varying levels of weight and pressure. Rollers equipped with sprockets, for instance, are typically suited for heavy-duty applications, offering higher load capacities and greater durability. In contrast, those with timing pulleys or V-belt pulleys are better suited for lighter-duty applications where load demands are less stringent. By selecting a roller with the correct load capacity, you not only ensure optimal performance but also extend the lifespan of your system.
Type of Power Transmission Mechanism
The power transmission method is another defining characteristic of driven rollers. Different drive mechanisms, such as sprockets, multi-wedge pulleys, timing pulleys, and V-belt pulleys, offer distinct advantages based on the application.
Sprockets, often used in chain-driven systems, excel in high-load environments. Made of durable steel, they are designed to withstand the demands of heavy-duty applications, making them ideal for industries like automotive manufacturing or large-scale logistics.
Multi-wedge pulleys and timing pulleys, on the other hand, are more suitable for moderate-load systems where precision is critical. The timing pulleys, with their tooth-like structure, ensure synchronized movements, making them a preferred choice in automated processes and high-speed sorting systems.
V-belt pulleys provide efficient power transmission in belt-driven systems, especially when the application requires quiet, smooth operation with a moderate load.
Each of these mechanisms has its own set of strengths, and selecting the appropriate one will depend on your system’s specific needs.
Conveyor System Design and Compatibility
The design of your conveyor system and its compatibility with the driven roller are essential factors that can affect both installation and ongoing performance. Consideration must be given to factors such as roller size, pulley dimensions, and alignment with other conveyor components, such as chains, belts, and motors. For instance, if your system operates in a confined space or requires specialized functionality, custom-driven rollers with specific dimensions may be required. Ensuring compatibility between all components guarantees smooth, uninterrupted operation.
Maintenance and Durability
Driven rollers are subject to wear and tear due to continuous operation. Therefore, the materials used in their construction play a significant role in both their durability and ease of maintenance. Steel sprockets and high-quality pulleys are typically preferred for their strength and resistance to abrasion, but they must be regularly maintained to avoid downtime caused by wear. Timely lubrication and routine inspection of components like bearings and seals are necessary to prolong the lifespan of driven rollers. Additionally, the choice of material—whether steel, stainless steel, or another alloy—can impact the roller’s ability to resist environmental factors such as moisture, dust, and corrosive substances.
Operational Speed and Precision
Another important factor is the operational speed and precision of the system. For high-speed or precision-critical applications, rollers with timing pulleys or V-belt pulleys are ideal. These mechanisms ensure synchronized movement and maintain consistent performance at high speeds, making them a go-to solution for applications in industries like electronics assembly, food processing, or pharmaceutical packaging. On the other hand, systems that do not demand such precision can benefit from simpler designs, like rollers with sprockets, which are highly efficient for moving large volumes of material.
Environmental Considerations
The environment in which your conveyor system operates can also influence the choice of driven roller. In environments with high humidity, extreme temperatures, or exposure to chemicals, selecting rollers made from corrosion-resistant materials is essential to prevent premature failure. For example, stainless steel rollers can offer superior performance in wet or corrosive environments. Additionally, in sensitive environments such as food processing or pharmaceuticals, hygiene standards may dictate the use of non-contaminating materials or specific roller designs.
Cost and Long-Term Value
While it is tempting to choose the least expensive option when selecting driven rollers, it’s crucial to consider the long-term value of the investment. Opting for low-cost rollers may lead to higher maintenance costs and reduced operational efficiency over time. Driven rollers that offer high performance, durability, and energy efficiency will ultimately reduce total cost of ownership by minimizing maintenance, improving throughput, and lowering energy consumption. When evaluating costs, also take into account the potential downtime and replacement costs associated with subpar components.
Customization and Flexibility
In many cases, off-the-shelf driven rollers may not meet all of the specific requirements of your system. In these instances, custom-driven rollers that are tailored to fit your needs are an excellent option. Customization may include modifications in roller size, material, or even the inclusion of specific features like variable-speed capabilities or enhanced durability for extreme conditions. Flexibility in design allows you to create a solution that perfectly fits your operational needs and goals.
Selecting the right driven roller for your conveyor system is a multifaceted decision that requires careful consideration of load capacity, power transmission mechanisms, system compatibility, and environmental factors. By taking into account the operational demands of your system and the characteristics of different roller types, you can ensure optimal performance, increased longevity, and reduced total cost of ownership. Whether you are looking for high-load capacity, precision in movement, or durability in harsh conditions, the right driven roller can make all the difference in achieving smooth, efficient operations in your material handling system.
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