Product Description
Standard Double Pitch Conveyor Chain Double Pitch Pintle Drag Drive Roller Conveyor Sprocket Chain For Food Machine
Product Description
Roller chain or bush roller chain is the type of chain drive most commonly used for transmission of mechanical power on many kinds of domestic, industrial, and agricultural machinery, including conveyors, wire- and tube-drawing machines, printing presses, cars, motorcycles, and bicycles. It consists of a series of short cylindrical rollers held together by side links. It is driven by a toothed wheel called a sprocket. It is a simple, reliable, and efficient means of power transmission. ANSI Standard Short Pitch Power Transmission Roller Chains are the most popular chains for driving, transmission reduction, tension, shuttle traction, and other applications.
Product Parameters
Transmission chain (Driving Chain) | Short Pitch Precision Roller Chain (A Series)(1,2,3) | 04C-1 06C-1-2-3 085-1-2-3 08A-1-2-3 10A-1-2-3 12A-1-2-3 16A-1-2-3 20A-1-2-3 24A-1-2-3 28A-1-2-3 32A-1-2-3 40A-1-2-3 48A-1-2-3 |
25 35 35-2 35-3 -2 40-3 50 50-2-50-3 60 60-2 60-3 80 80-2 80-3 100 100-2 100-3 120 120-2 120-3 140 140-2 160 160-2 -2 240 | ||
Short Pitch Precision Roller Chain (B Series)(1,2,3) | 06B-1-2-3 06B-1-2-3 08B-1-2-3 10B-1-2-3 12B-1-2-3 16B-1-2-3 20B-1-2-3 24B-1-2-3 28B-1-2-3 32B-1-2-3 40B-1-2-3 48B-1-2-3 56B-1-2-3 64B-1-2-3 72B-1-2-3 | |
Heavy Duty Series Roller Chain(1,2) | 08AH-1 10AH-1 12AH-1-2-3 16AH-1-2-3 20AH-1-2-3 24AH-1-2-3 28AH-1-2-3 32AH-1-2-3 40AH-1-2-3 | |
Side Bow Chain | 40SB 43SB 50SB 60SB 63SB 80SB 08BSB 08BSBY1 10BSB 12BSB C2050SB | |
Motorcycle Chain | 410 415 415H 420 420H 428 428H 520 520H 525 525H 530 530H 630 630H | |
Engine Mechanism Chain (Timing Chain) | CL04 | |
Self-Lubrication Roller Chain | 08BSLR 10BSLR 12BSLR 16BSLR 40SLR 50SLR 60SLR 80SLR | |
Double Pitch Transmission Chain | 208A 208B 210A 210B 212A 212B 216A 216B 220A 220B | |
2040 2050 2060 2080 2100 | ||
Bush Chain | P15F-B P20-B P25-B P25F1-B P30F2-B P36-B P40-B P45-B P50-B P55-B P60-B P70-B P80-B | |
Conveyor Chain | Roller Chain With Straight Side Plates (A Series) | C08A-1-2-3 C10A-1-2-3 C12-1-2-3 C24A-1-2-3 C32A-1-2-3 |
C35 C40-1-2-3 C50-1-2-3 C80-1-2-3 C100-1-2-3 C120-1-2-3 C140-1-2-3 C160-1-2-3 | ||
Roller Chain With Straight Side Plates (B Series) | C08B-1-2-3 C10B-1-2-3 C12B-1-2-3 C16-1-2-3 C20B-1-2-3 C24B-1-2-3 C28B-1-2-3 C32B-1-2-3 | |
Double Pitch Conveyor Chain | C208A C208AH C208B C208BL C210A C210AL C212A C212AH C212AHL C216A C216AL C216AH C216AHL C220A C220AL C220AH C220AHL C224A C224AL C224AH C224AHL C232A C232AL C232AH C232AHL | |
C2050 C2052 C2060 C2062 C2060H C2080 C2080H C2082 C2082H C2100 C2100H C2102 C2102H C2120 C2120H C2122 C2122H C2160 C2160H C2162 C2162H | ||
Double Pius Speed Chain | BS25-C206B BS25-C208A BS25-C210A BS25-C212A BS30-C206B BS30-C208B BS30-C210B BS30-C212B | |
Conveyor Chain (M Series) | M20 M28 M40 M56 M80 | |
Hollow Pin Conveyor Chain (MC Series) | MC28 MC56 MC112 MC224 | |
Conveyor Chain (FV Series) | FV40 FV63 FV90 FV112 FV140 | |
Conveyor Chain (FVT Series) | FVT40 FVT63 FVT90 FVT112 FVT140 FVT180 FVT250 FVT315 | |
Hollow Pin Conveyor Chain (FVC Series) | FVC63 FVC90 FVC112 FVC140 FVC180 FVC250 FVC315 | |
Conveyor Chain (Z Series) | Z40 Z100 Z160 Z300 | |
Conveyor Chain (ZE Series) | ZE40 ZE100 ZE160 ZE300 | |
Hollow Pin Conveyor Chain (ZC Series) | ZC21 ZC40 ZC60 ZC150 ZC300 | |
Hollow Pin Chains | 08BHPF 08BHPF5 08BHP9 10BHPF3 10BHPF4 12BHPF2 12BHPF3 16BHPF3 16BHPF4 40HP 08BHPF7 08BHP 50HP 50HPF4 50H-HP 60HP 60HPF1 80HP 80HPF1 80HPF2 80H-HP 80HPF3 80HPF4 HB41.75F5 A2080HP | |
Welded-type cranked link chains | WR78 WH78 WR82 WH82 WR106 WH106 WR110 WH110 WR111 WH111 WR124 WH124 WR132 WH132 WR150 WH150 WR155 WH155 WR157 WH157 WR78F5 WH78F4 WH124F1 WH111F1 | |
Palm oil Chains | P101.6F2 P152F14 P152F17 P152F29 90R-S P101.6F64 P76.7 P152F31 | |
Sugar mill chains | DH9063 DH2198 P152F93K2 P152F78K2 DH 0571 0 DH1796 P152F77-AS2 P203.2F9 | |
Rubber gloves carrier chains | P100F155 P100F13 P100F139 P150/90 | |
Lumber conveyor chains | 81X 81XH 81XHE 81XHH 81XHS 500R 441.100R | |
Sharp top chains | 08AF34 08BF21 10AF8 41F6 06BF1 06BF37 08AF41 08BF44 08AF8… | |
Stainless Steel Chain | Stainless Steel Short Pitch Precision Roller Chain(A Series) | 25SS-1 35SS-1 41SS-1 40SS-1 50SS-1 60SS-1 80SS-1 100SS-1 120SS-1 |
Stainless Steel Short Pitch Precision Roller Chain(B Series) | 05BSS-1 06BSS-1 08BSS-1 10BSS-1 12BSS-1 16BSS-1 20BSS-1 24BSS-1 | |
Stainless Steel Roller Chain With Straight Side Plates | C40SS-1 C50SS-1 C60SS-1 C80SS-1 C100SS-1 C120SS-1 C08BSS-1 C10BSS-1 C12BSS-1 C16BSS-1 C20BSS-1 C24BSS-1 | |
Stainless Steel Double Pitch Transmission Chain | 2040SS 2050SS 2060SS 2080SS 2100SS 2120SS 208BSS 210BSS 212BSS 216BSS 220BSS 224BSS | |
Stainless Steel Double Pitch Conveyor Chain | C2040SS C2040HSS C208BSS C2050SS C2060SS C2060HSS C2080SS C2080HSS C2100SS C2100HSS C2120SS C2120HSS | |
Stainless Steel Hollow Pin Chain | 08BHFSS 40HPSS 50HPSS 60HPSS 12BHPSS 80HPSS C2040HPSS C2050HPSS C2060HPSS C2080HPSS HB50.8SS | |
Stainless Steel Double Pitch Hollow Pin Chain | C2042HPSS C2052HPSS C2062HPSS C2082HPSS C2042H-HPSS C2052H-HPSS C2062H-HPSS C2082H-HPSS | |
Lifting Chain | Car Parking Chain | 12AT-1 16AT-1-2 20AT-1-2-3 24AT-1-2 |
Leaf Chain | LH0822 LH0823 LH571 LH0844 LH0846 LH 0571 LH1571 LH1571 LH1034 LH1044 LH1046 LH1066 LH1088 LH1222 LH1223 LH1234 LH1244 LH1246 LH1266 LH1288 | |
BL422 BL423 BL434 BL444 BL446 BL466 BL488 BL522 BL523 BL534 BL544 BL546 BL566 BL588 BL622 BL623 BL634 BL644 BL646 BL666 BL688 | ||
Multile Plate Bearing Pin Chain | LF30 MP50F2 MP50.8 MP70F1 MP70F2 MP70F3 MP80F1 MP90F1 MP90F2 MP110F1 | |
Rollerless Lift Chain | 45-1 55-1 65-1 85-1 105-1 125-1 145-1 165-1 | |
Agricultural Chain | S Type Steel Agricultural Chain & Attachments | S32 S42 S45 S52 S55 S62 S77 S88 A550 A620 |
C Type Steel Agricultural Chain with Attachments | CA550 CA550/S55 CA555 CA550HD CA550V CA557 CA620 CA2801 38.1R 38.4R 38.4V 38.4VB | |
Rice Harvester Chain | S3558T-48001 S3558T-48002 | |
Drop Forged Chain Series | Drop Forged Rivetless Chain | Imperial: 80H X348 X458 468H X658 X678 678 698 998 9118 S348 S458 S678 S698 S9118, Metric system: XT100 XT160 |
Cast Detachable Chain | 55 57 62 74 78 | |
Steel Detachable Chain | 25 32 32W 51 52 55 62 | |
Cast Iron Chain | Cast Iron Chain (C Series) | C55 C55L C77 C188 C188L C102B C111 C131 C132 |
Cast Iron Chain (H Series) | H60 H78 H82 H110 | |
Cast Iron Chain (4 Series) | 462 477 488 4103 720 720S 730 | |
Cast Iron Chain BRH188 | BRH188 C188CP C102B-K2 C55A C55B C55D CC600 H78A H78B H130 H138 MC33 103 4103F29 907-E51 | |
Welded chains | WR78 WH78 WR82 WH82 WR124 WH124 | |
Forging Hanging Chain | X228 X348 X458 X678 698 |
Detailed Photos
FAQ
Q: Do you provide samples?
A: Yes. A sample is available for testing.
Q: What’s your lead time?
A: Standard products need 5-30days, a bit longer for customized products.
Q: Do you provide technical support?
A: Yes. Our company has a design and development team, and we can provide technical support if you
need.
Q: How to ship to us?
A: It is available by air, sea, or train.
Q: How to pay the money?
A: T/T and L/C are preferred, with different currencies, including USD, EUR, RMB, etc.
Q: How can I know if the product is suitable for me?
A: >1ST confirm drawing and specification >2nd test sample >3rd start mass production.
Q: Can I come to your company to visit?
A: Yes, you are welcome to visit us at any time.
Q: How shall we contact you?
A: You can send an inquiry directly, and we will respond within 24 hours.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard or Nonstandard: | Standard |
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Application: | Textile Machinery, Garment Machinery, Conveyer Equipment, Packaging Machinery, Electric Cars, Motorcycle, Food Machinery, Agricultural Machinery |
Surface Treatment: | Chrome Plating |
Samples: |
US$ 10/Meter
1 Meter(Min.Order) | Order Sample |
---|
Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
---|
Payment Method: |
|
---|---|
Initial Payment Full Payment |
Currency: | US$ |
---|
Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can a drive chain be used in a glass or ceramics manufacturing application?
Yes, a drive chain can be used in glass or ceramics manufacturing applications where reliable and efficient power transmission is required. Here is a detailed explanation:
In glass or ceramics manufacturing, various types of equipment and machinery are utilized for processes such as mixing, molding, shaping, drying, and firing. Drive chains offer several advantages in these applications:
- High Load Capacity: Drive chains are known for their high load-carrying capacity, making them suitable for handling heavy loads and transmitting power in glass or ceramics manufacturing equipment. They can effectively transmit power to drive mechanisms involved in mixing blades, conveyor systems, kilns, and other equipment.
- Precision Power Transmission: Drive chains provide precise power transmission, ensuring accurate and synchronized movement of the machinery and equipment in glass or ceramics manufacturing. This allows for reliable and efficient production processes, precise positioning, and synchronized operation of the various components.
- Robustness and Durability: Glass or ceramics manufacturing environments can be demanding, with high temperatures, abrasive materials, and heavy-duty operations. Drive chains are designed to withstand these harsh conditions, providing durability, resistance to wear, and long service life, even in high-demand applications.
- Flexibility and Adaptability: Drive chains offer flexibility and adaptability in designing and configuring the machinery and equipment used in glass or ceramics manufacturing. They can be easily integrated into different types of conveyors, mixers, kilns, and other equipment, allowing for smooth and efficient material flow and process control.
- Compatibility with Auxiliary Components: Drive chains can be easily combined with auxiliary components commonly used in glass or ceramics manufacturing, such as tensioners, guides, sprockets, and bearings. This ensures reliable and efficient power transmission throughout the entire system and facilitates easy maintenance and replacement when necessary.
- Cost-Effectiveness: Drive chains offer a cost-effective solution for power transmission in glass or ceramics manufacturing applications. They have a long service life, reduced maintenance requirements, and lower replacement costs compared to some alternative power transmission systems.
It is important to consider the specific requirements of the glass or ceramics manufacturing application when selecting a drive chain. Factors such as load capacity, speed, environmental conditions, and maintenance considerations should be taken into account.
Regular maintenance, including inspection, lubrication, and tension adjustment, is crucial to ensure optimal performance and longevity of the drive chain in glass or ceramics manufacturing applications.
By utilizing drive chains in glass or ceramics manufacturing, operators can benefit from high load capacity, precise power transmission, durability, adaptability, and cost-effectiveness, contributing to efficient and reliable manufacturing processes.
Can a drive chain be used in a power generation system?
Yes, a drive chain can be used in certain types of power generation systems as a method of power transmission. Here is a detailed explanation:
In power generation systems, the purpose is to convert a primary energy source into electrical power. While drive chains are not commonly used in large-scale power generation applications like turbines or generators, they can be employed in specific scenarios, such as:
- Small-Scale Power Generation: In small-scale power generation systems, such as micro-hydropower or wind turbines, drive chains can be utilized to transmit rotational motion from the turbine or rotor to a generator. The chain connects the rotating components, ensuring efficient power transmission.
- Linkage Mechanisms: Drive chains can be used in mechanical linkage mechanisms within power generation systems to transmit motion or force between various components. These mechanisms can be found in applications such as valve control systems, fuel feeders, or governor systems.
- Ancillary Devices: Drive chains may also be employed in ancillary devices within power generation systems, such as tensioners, clutches, or braking mechanisms.
It’s important to note that the selection and application of drive chains in power generation systems require careful consideration of factors such as load, speed, torque, and environmental conditions. Additionally, regular maintenance, including inspection, lubrication, and tension adjustment, is crucial to ensure optimal performance and longevity of the drive chain in these applications.
While drive chains have their applications in power generation systems, it is essential to consult with experts or manufacturers to determine the most suitable and efficient power transmission method for a specific power generation setup.
What is a drive chain and how does it work?
A drive chain is a mechanical component used to transmit power from one part of a machine or system to another. It typically consists of a series of interconnected links or rollers that form a flexible and durable mechanism. Drive chains are commonly used in various applications, including bicycles, motorcycles, industrial machinery, and automotive systems.
The working principle of a drive chain involves the transfer of rotational motion or power from a driving sprocket or gear to a driven sprocket or gear. Here is a step-by-step explanation of how a typical drive chain works:
- The driving force is applied to the first component of the drive chain, usually a sprocket.
- As the driving sprocket rotates, it engages with the links or rollers of the chain.
- The driving force is transferred from the driving sprocket to the chain links or rollers.
- The chain links or rollers transmit the rotational motion to the driven sprocket.
- The driven sprocket, connected to the driven component, rotates and transfers the power to the intended mechanism, such as wheels or other moving parts.
The efficiency and performance of a drive chain depend on factors such as the quality of the components, proper lubrication, tension adjustment, and maintenance. It is crucial to ensure the chain is properly aligned and tensioned to minimize wear and maximize power transfer.
Overall, drive chains play a vital role in power transmission by efficiently transferring rotational motion from one component to another, enabling the operation of various mechanical systems.
editor by CX 2024-04-23
China supplier Standard Double Pitch Conveyor Chain Double Pitch Pintle Drag Drive Roller Conveyor Sprocket Chain for Food Machine
Product Description
Standard Double Pitch Conveyor Chain Double Pitch Pintle Drag Drive Roller Conveyor Sprocket Chain For Food Machine
Product Description
Roller chain or bush roller chain is the type of chain drive most commonly used for transmission of mechanical power on many kinds of domestic, industrial, and agricultural machinery, including conveyors, wire- and tube-drawing machines, printing presses, cars, motorcycles, and bicycles. It consists of a series of short cylindrical rollers held together by side links. It is driven by a toothed wheel called a sprocket. It is a simple, reliable, and efficient means of power transmission. ANSI Standard Short Pitch Power Transmission Roller Chains are the most popular chains for driving, transmission reduction, tension, shuttle traction, and other applications.
Product Parameters
Transmission chain (Driving Chain) | Short Pitch Precision Roller Chain (A Series)(1,2,3) | 04C-1 06C-1-2-3 085-1-2-3 08A-1-2-3 10A-1-2-3 12A-1-2-3 16A-1-2-3 20A-1-2-3 24A-1-2-3 28A-1-2-3 32A-1-2-3 40A-1-2-3 48A-1-2-3 |
25 35 35-2 35-3 -2 40-3 50 50-2-50-3 60 60-2 60-3 80 80-2 80-3 100 100-2 100-3 120 120-2 120-3 140 140-2 160 160-2 -2 240 | ||
Short Pitch Precision Roller Chain (B Series)(1,2,3) | 06B-1-2-3 06B-1-2-3 08B-1-2-3 10B-1-2-3 12B-1-2-3 16B-1-2-3 20B-1-2-3 24B-1-2-3 28B-1-2-3 32B-1-2-3 40B-1-2-3 48B-1-2-3 56B-1-2-3 64B-1-2-3 72B-1-2-3 | |
Heavy Duty Series Roller Chain(1,2) | 08AH-1 10AH-1 12AH-1-2-3 16AH-1-2-3 20AH-1-2-3 24AH-1-2-3 28AH-1-2-3 32AH-1-2-3 40AH-1-2-3 | |
Side Bow Chain | 40SB 43SB 50SB 60SB 63SB 80SB 08BSB 08BSBY1 10BSB 12BSB C2050SB | |
Motorcycle Chain | 410 415 415H 420 420H 428 428H 520 520H 525 525H 530 530H 630 630H | |
Engine Mechanism Chain (Timing Chain) | CL04 | |
Self-Lubrication Roller Chain | 08BSLR 10BSLR 12BSLR 16BSLR 40SLR 50SLR 60SLR 80SLR | |
Double Pitch Transmission Chain | 208A 208B 210A 210B 212A 212B 216A 216B 220A 220B | |
2040 2050 2060 2080 2100 | ||
Bush Chain | P15F-B P20-B P25-B P25F1-B P30F2-B P36-B P40-B P45-B P50-B P55-B P60-B P70-B P80-B | |
Conveyor Chain | Roller Chain With Straight Side Plates (A Series) | C08A-1-2-3 C10A-1-2-3 C12-1-2-3 C24A-1-2-3 C32A-1-2-3 |
C35 C40-1-2-3 C50-1-2-3 C80-1-2-3 C100-1-2-3 C120-1-2-3 C140-1-2-3 C160-1-2-3 | ||
Roller Chain With Straight Side Plates (B Series) | C08B-1-2-3 C10B-1-2-3 C12B-1-2-3 C16-1-2-3 C20B-1-2-3 C24B-1-2-3 C28B-1-2-3 C32B-1-2-3 | |
Double Pitch Conveyor Chain | C208A C208AH C208B C208BL C210A C210AL C212A C212AH C212AHL C216A C216AL C216AH C216AHL C220A C220AL C220AH C220AHL C224A C224AL C224AH C224AHL C232A C232AL C232AH C232AHL | |
C2050 C2052 C2060 C2062 C2060H C2080 C2080H C2082 C2082H C2100 C2100H C2102 C2102H C2120 C2120H C2122 C2122H C2160 C2160H C2162 C2162H | ||
Double Pius Speed Chain | BS25-C206B BS25-C208A BS25-C210A BS25-C212A BS30-C206B BS30-C208B BS30-C210B BS30-C212B | |
Conveyor Chain (M Series) | M20 M28 M40 M56 M80 | |
Hollow Pin Conveyor Chain (MC Series) | MC28 MC56 MC112 MC224 | |
Conveyor Chain (FV Series) | FV40 FV63 FV90 FV112 FV140 | |
Conveyor Chain (FVT Series) | FVT40 FVT63 FVT90 FVT112 FVT140 FVT180 FVT250 FVT315 | |
Hollow Pin Conveyor Chain (FVC Series) | FVC63 FVC90 FVC112 FVC140 FVC180 FVC250 FVC315 | |
Conveyor Chain (Z Series) | Z40 Z100 Z160 Z300 | |
Conveyor Chain (ZE Series) | ZE40 ZE100 ZE160 ZE300 | |
Hollow Pin Conveyor Chain (ZC Series) | ZC21 ZC40 ZC60 ZC150 ZC300 | |
Hollow Pin Chains | 08BHPF 08BHPF5 08BHP9 10BHPF3 10BHPF4 12BHPF2 12BHPF3 16BHPF3 16BHPF4 40HP 08BHPF7 08BHP 50HP 50HPF4 50H-HP 60HP 60HPF1 80HP 80HPF1 80HPF2 80H-HP 80HPF3 80HPF4 HB41.75F5 A2080HP | |
Welded-type cranked link chains | WR78 WH78 WR82 WH82 WR106 WH106 WR110 WH110 WR111 WH111 WR124 WH124 WR132 WH132 WR150 WH150 WR155 WH155 WR157 WH157 WR78F5 WH78F4 WH124F1 WH111F1 | |
Palm oil Chains | P101.6F2 P152F14 P152F17 P152F29 90R-S P101.6F64 P76.7 P152F31 | |
Sugar mill chains | DH9063 DH2198 P152F93K2 P152F78K2 DH 0571 0 DH1796 P152F77-AS2 P203.2F9 | |
Rubber gloves carrier chains | P100F155 P100F13 P100F139 P150/90 | |
Lumber conveyor chains | 81X 81XH 81XHE 81XHH 81XHS 500R 441.100R | |
Sharp top chains | 08AF34 08BF21 10AF8 41F6 06BF1 06BF37 08AF41 08BF44 08AF8… | |
Stainless Steel Chain | Stainless Steel Short Pitch Precision Roller Chain(A Series) | 25SS-1 35SS-1 41SS-1 40SS-1 50SS-1 60SS-1 80SS-1 100SS-1 120SS-1 |
Stainless Steel Short Pitch Precision Roller Chain(B Series) | 05BSS-1 06BSS-1 08BSS-1 10BSS-1 12BSS-1 16BSS-1 20BSS-1 24BSS-1 | |
Stainless Steel Roller Chain With Straight Side Plates | C40SS-1 C50SS-1 C60SS-1 C80SS-1 C100SS-1 C120SS-1 C08BSS-1 C10BSS-1 C12BSS-1 C16BSS-1 C20BSS-1 C24BSS-1 | |
Stainless Steel Double Pitch Transmission Chain | 2040SS 2050SS 2060SS 2080SS 2100SS 2120SS 208BSS 210BSS 212BSS 216BSS 220BSS 224BSS | |
Stainless Steel Double Pitch Conveyor Chain | C2040SS C2040HSS C208BSS C2050SS C2060SS C2060HSS C2080SS C2080HSS C2100SS C2100HSS C2120SS C2120HSS | |
Stainless Steel Hollow Pin Chain | 08BHFSS 40HPSS 50HPSS 60HPSS 12BHPSS 80HPSS C2040HPSS C2050HPSS C2060HPSS C2080HPSS HB50.8SS | |
Stainless Steel Double Pitch Hollow Pin Chain | C2042HPSS C2052HPSS C2062HPSS C2082HPSS C2042H-HPSS C2052H-HPSS C2062H-HPSS C2082H-HPSS | |
Lifting Chain | Car Parking Chain | 12AT-1 16AT-1-2 20AT-1-2-3 24AT-1-2 |
Leaf Chain | LH0822 LH0823 LH571 LH0844 LH0846 LH 0571 LH1571 LH1571 LH1034 LH1044 LH1046 LH1066 LH1088 LH1222 LH1223 LH1234 LH1244 LH1246 LH1266 LH1288 | |
BL422 BL423 BL434 BL444 BL446 BL466 BL488 BL522 BL523 BL534 BL544 BL546 BL566 BL588 BL622 BL623 BL634 BL644 BL646 BL666 BL688 | ||
Multile Plate Bearing Pin Chain | LF30 MP50F2 MP50.8 MP70F1 MP70F2 MP70F3 MP80F1 MP90F1 MP90F2 MP110F1 | |
Rollerless Lift Chain | 45-1 55-1 65-1 85-1 105-1 125-1 145-1 165-1 | |
Agricultural Chain | S Type Steel Agricultural Chain & Attachments | S32 S42 S45 S52 S55 S62 S77 S88 A550 A620 |
C Type Steel Agricultural Chain with Attachments | CA550 CA550/S55 CA555 CA550HD CA550V CA557 CA620 CA2801 38.1R 38.4R 38.4V 38.4VB | |
Rice Harvester Chain | S3558T-48001 S3558T-48002 | |
Drop Forged Chain Series | Drop Forged Rivetless Chain | Imperial: 80H X348 X458 468H X658 X678 678 698 998 9118 S348 S458 S678 S698 S9118, Metric system: XT100 XT160 |
Cast Detachable Chain | 55 57 62 74 78 | |
Steel Detachable Chain | 25 32 32W 51 52 55 62 | |
Cast Iron Chain | Cast Iron Chain (C Series) | C55 C55L C77 C188 C188L C102B C111 C131 C132 |
Cast Iron Chain (H Series) | H60 H78 H82 H110 | |
Cast Iron Chain (4 Series) | 462 477 488 4103 720 720S 730 | |
Cast Iron Chain BRH188 | BRH188 C188CP C102B-K2 C55A C55B C55D CC600 H78A H78B H130 H138 MC33 103 4103F29 907-E51 | |
Welded chains | WR78 WH78 WR82 WH82 WR124 WH124 | |
Forging Hanging Chain | X228 X348 X458 X678 698 |
Detailed Photos
FAQ
Q: Do you provide samples?
A: Yes. A sample is available for testing.
Q: What’s your lead time?
A: Standard products need 5-30days, a bit longer for customized products.
Q: Do you provide technical support?
A: Yes. Our company has a design and development team, and we can provide technical support if you
need.
Q: How to ship to us?
A: It is available by air, sea, or train.
Q: How to pay the money?
A: T/T and L/C are preferred, with different currencies, including USD, EUR, RMB, etc.
Q: How can I know if the product is suitable for me?
A: >1ST confirm drawing and specification >2nd test sample >3rd start mass production.
Q: Can I come to your company to visit?
A: Yes, you are welcome to visit us at any time.
Q: How shall we contact you?
A: You can send an inquiry directly, and we will respond within 24 hours.
Standard or Nonstandard: | Standard |
---|---|
Application: | Textile Machinery, Garment Machinery, Conveyer Equipment, Packaging Machinery, Electric Cars, Motorcycle, Food Machinery, Agricultural Machinery |
Surface Treatment: | Chrome Plating |
Samples: |
US$ 10/Meter
1 Meter(Min.Order) | Order Sample |
---|
Customization: |
Available
| Customized Request |
---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
---|
Payment Method: |
|
---|---|
Initial Payment Full Payment |
Currency: | US$ |
---|
Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
---|
What are the advantages of using a lightweight drive chain?
Using a lightweight drive chain offers several advantages in certain applications where weight reduction is a critical factor. Here is a detailed explanation:
Lightweight drive chains are specifically designed to provide reliable power transmission while minimizing the overall weight of the system. The advantages of using such chains include:
- Improved Energy Efficiency: Lightweight drive chains reduce the overall mass and inertia of the power transmission system. This results in improved energy efficiency, as less power is required to accelerate and decelerate the lighter components. Reduced energy consumption contributes to cost savings and promotes sustainability.
- Enhanced System Performance: By reducing the weight of the drive chain, the overall system performance can be improved. The reduced mass allows for quicker response times, faster acceleration, and improved dynamic performance of the machinery or equipment. This can be particularly beneficial in applications that require rapid changes in speed or direction.
- Increased Speed Capability: Lightweight drive chains enable higher speeds due to reduced inertia and decreased centrifugal forces. This allows for faster operation, quicker cycle times, and improved productivity in applications that demand high-speed power transmission.
- Reduced Wear and Friction: The lighter weight of the drive chain can contribute to reduced wear and friction between the chain and the sprockets. With less weight bearing on the chain and sprocket teeth, there is reduced contact stress and improved lubrication distribution. This leads to lower frictional losses, decreased wear, and extended chain life.
- Easier Installation and Maintenance: Lightweight drive chains are easier to handle and install compared to heavier chains, reducing the physical strain on operators during installation or maintenance tasks. The reduced weight simplifies handling and improves overall ergonomics, making it more convenient for operators to work with the chain.
- Application Versatility: Lightweight drive chains can be used in a wide range of industries and applications where weight reduction is advantageous. They are commonly employed in sectors such as automotive, robotics, aerospace, and portable equipment, where lightweight components contribute to improved performance and fuel efficiency.
It is important to consider the specific requirements and constraints of the application when selecting a lightweight drive chain. Factors such as load capacity, speed capabilities, environmental conditions, and material selection should be taken into account.
While lightweight drive chains offer numerous benefits, it is crucial to ensure that their reduced weight does not compromise their load-carrying capacity or durability. Regular maintenance, including proper tensioning, lubrication, and periodic inspection, is essential to maintain the optimal performance and reliability of lightweight drive chains.
By utilizing lightweight drive chains in appropriate applications, operators can benefit from improved energy efficiency, enhanced system performance, increased speed capabilities, reduced wear and friction, easier installation and maintenance, and overall weight reduction, contributing to improved efficiency and performance of the power transmission system.
What are the specific guidelines for installing a drive chain?
Proper installation of a drive chain is crucial to ensure its optimal performance and longevity. Here are the specific guidelines for installing a drive chain:
- Inspect the new drive chain before installation. Check for any signs of damage or defects. Ensure that the chain meets the specifications and requirements of the application.
- Ensure the sprockets are in good condition and properly aligned. Check for worn teeth, damage, or misalignment. Replace or repair any faulty sprockets before installing the new chain.
- Clean the sprockets and chain path thoroughly. Remove any dirt, debris, or old lubricant that may affect the performance of the new chain.
- Measure and cut the new chain to the appropriate length. Use a chain breaker or a suitable cutting tool to ensure a clean and precise cut.
- Install the master link or connecting link according to the manufacturer’s instructions. Make sure it is securely fastened and properly seated.
- Place the new chain onto the sprockets. Ensure that the chain engages smoothly and evenly on the teeth of the sprockets.
- Check the chain tension. Follow the manufacturer’s guidelines for the recommended tension. Adjust the tension if necessary by adjusting the position of the rear wheel or using a tensioner mechanism, if available.
- Lubricate the chain with a suitable lubricant. Apply the lubricant evenly along the entire length of the chain. Avoid over-lubrication, as it can attract dirt and debris.
- Rotate the wheel or crank the engine to ensure that the chain moves smoothly and freely without any binding or excessive noise.
- Perform a final inspection to verify that the chain is properly installed, aligned, and tensioned. Check for any abnormal sounds, vibrations, or signs of chain slippage.
Following these specific guidelines for installing a drive chain will help ensure proper functionality, longevity, and optimal performance of the chain in the intended application.
Can a drive chain be used in outdoor or corrosive environments?
Yes, a drive chain can be used in outdoor or corrosive environments. However, it is important to consider certain factors and take appropriate measures to ensure the chain’s performance and longevity in such environments.
Outdoor and corrosive environments can expose the drive chain to various elements that may accelerate wear and corrosion. Factors such as moisture, humidity, saltwater, chemicals, dirt, and debris can all contribute to the deterioration of the chain if not properly addressed.
To mitigate the effects of outdoor or corrosive environments on a drive chain, the following steps can be taken:
- Material Selection: Choose a drive chain that is specifically designed for outdoor or corrosive environments. Chains made from materials such as stainless steel or with corrosion-resistant coatings are recommended.
- Regular Cleaning: Clean the drive chain regularly to remove dirt, debris, and corrosive substances. Use appropriate cleaning agents and brushes to ensure thorough cleaning.
- Lubrication: Apply a suitable lubricant to the drive chain to minimize friction, reduce wear, and provide a protective barrier against corrosion. Consider using lubricants specifically designed for outdoor or corrosive environments.
- Protective Measures: Implement additional protective measures such as using chain guards or covers to shield the chain from direct exposure to corrosive elements. Consider applying coatings or sealants for added protection.
- Inspection and Maintenance: Regularly inspect the drive chain for signs of wear, damage, or corrosion. Address any issues promptly by replacing damaged or corroded components.
By taking these steps, a drive chain can be effectively used in outdoor or corrosive environments while minimizing the impact of corrosion and maintaining its performance and longevity.
editor by CX 2023-11-07
China Custom Sprocket Motorcycle Rear Wheel Brass Drive Crane Timing Chain Snowmobile Track Making Machine Reverse Gear Box Indonesian Market
Product Description
Sprocket motorcycle rear wheel brass drive crane timing chain snowmobile track making machine reverse gear box indonesian market
Manufacturer of Sprocket, Chain sprockets, wheel and sprocket, drive sprocket, sprocket wheel, taper lock sprocket, gear sprocket, idle sprocket, motorcycle sprocket and stainless steel sprocket, can interchange and replace with martin size sprocket, jt size sprockets, did size chain sprocket and so on.
What is motorcycle Sprocket?
A motorcycle sprocket is a toothed wheel that is attached to the engine or the rear wheel of a motorcycle. It is used to transmit power from the engine to the rear wheel, or vice versa. The size of the sprocket determines the speed of the motorcycle. A larger sprocket will make the motorcycle go faster, while a smaller sprocket will make the motorcycle go slower.
There are 2 types of motorcycle sprockets: front sprockets and rear sprockets. The front sprocket is attached to the crankshaft of the engine. The rear sprocket is attached to the rear wheel. The chain connects the front sprocket to the rear sprocket.
The size of the front sprocket and the rear sprocket determine the gear ratio of the motorcycle. The gear ratio is the ratio of the number of teeth on the front sprocket to the number of teeth on the rear sprocket. A higher gear ratio will make it easier to accelerate but will reduce top speed. A lower gear ratio will make it more difficult to accelerate but will increase top speed.
Motorcycle sprockets are an important part of a motorcycle. They help to transmit power from the engine to the rear wheel, and they can be used to control the speed of a motorcycle.
Here are some of the benefits of using motorcycle sprockets:
- They help to transmit power from the engine to the rear wheel.
- They can be used to control the speed of a motorcycle.
- They are relatively inexpensive to replace.
- They are easy to install.
Here are some of the drawbacks of using motorcycle sprockets:
- They can wear out over time.
- They can be damaged if they are not properly installed.
- They can be expensive to replace if they are damaged.
Overall, motorcycle sprockets are a good choice for motorcycles. They are relatively inexpensive, easy to install, and can help to improve the performance of a motorcycle.
Standard Or Nonstandard: | Standard |
---|---|
Application: | Motor, Motorcycle, Machinery, Agricultural Machinery, Car |
Hardness: | Hardened Tooth Surface |
Manufacturing Method: | Rolling Gear |
Toothed Portion Shape: | Spur Gear |
Material: | Stainless Steel |
Samples: |
US$ 9999/Piece
1 Piece(Min.Order) | |
---|
What are the benefits of using a drive chain with low maintenance requirements?
Using a drive chain with low maintenance requirements offers several benefits in industrial applications. Here is a detailed explanation:
- Reduced Downtime: A drive chain with low maintenance requirements minimizes the need for frequent inspections, lubrication, and adjustments. This reduces the downtime associated with maintenance activities, allowing for longer periods of uninterrupted operation and increased productivity.
- Cost Savings: With low maintenance requirements, there is a reduction in the labor, time, and cost associated with regular maintenance tasks such as lubrication, cleaning, and tension adjustments. Additionally, the longer intervals between maintenance cycles result in lower overall maintenance expenses.
- Increased Reliability: Drive chains with low maintenance requirements are designed to be highly reliable and durable. They are engineered to withstand the demands of continuous operation without frequent maintenance interventions. This enhances the reliability of the chain, reducing the risk of unexpected failures or breakdowns that can disrupt production processes.
- Extended Chain Life: Drive chains with low maintenance requirements often incorporate features such as self-lubricating capabilities, corrosion-resistant coatings, or sealed designs. These features help to protect the chain from wear, corrosion, and contaminants, extending its service life and reducing the frequency of chain replacements.
- Improved Safety: Low maintenance drive chains contribute to improved safety in the workplace. With reduced maintenance requirements, there is a decreased need for personnel to access or interact with the chain system, minimizing the risk of accidents or injuries associated with maintenance activities. Additionally, reliable chain performance resulting from low maintenance helps ensure the safe operation of machinery and equipment.
- Simplified Maintenance Routine: Drive chains with low maintenance requirements often have simplified maintenance routines. They may incorporate features such as easy-to-access lubrication points, quick-release pins, or self-adjusting mechanisms. These features simplify the maintenance process, making it more efficient and less time-consuming.
- Enhanced Operational Efficiency: A drive chain with low maintenance requirements allows for continuous operation with minimal interruptions for maintenance. This enhances overall operational efficiency, as production processes can run for longer periods without the need for frequent stops or maintenance-related downtime.
It is important to note that even drive chains with low maintenance requirements still require periodic inspections to ensure proper functioning and detect any signs of wear or damage. However, the intervals between maintenance tasks are extended compared to traditional drive chains, resulting in improved operational efficiency and cost savings.
By utilizing drive chains with low maintenance requirements, industrial operators can benefit from reduced downtime, cost savings, increased reliability, extended chain life, improved safety, simplified maintenance routines, and enhanced operational efficiency in their applications.
How does the backlash or play in a drive chain affect its performance?
The presence of backlash or play in a drive chain can have a significant impact on its performance and overall operation. Here is a detailed explanation:
Backlash or play refers to the small amount of free movement or clearance between the engaged components of a drive chain, typically between the chain and the sprockets. This clearance can lead to several performance-related issues:
- Reduced Accuracy: Backlash can cause a loss of accuracy and precision in the positioning and movement of the driven components. The presence of free play can result in inconsistent positioning, leading to inaccuracies in machine operations or product quality.
- Loss of Power and Efficiency: Backlash causes a loss of power transmission efficiency. As the chain engages with the sprockets, any free movement or clearance reduces the effective transfer of power, resulting in decreased efficiency and potential energy loss.
- Vibration and Noise: Backlash can lead to vibration and noise during operation. The free movement of the chain can cause rattling, knocking, or banging sounds, as well as vibration, which can affect the overall system performance and operator comfort.
- Potential for Chain Skipping or Jumping: Excessive backlash can cause the chain to skip or jump on the sprockets, leading to interrupted or irregular power transmission. This can result in sudden jerks, misalignment, or even chain derailment, affecting the overall system performance and potentially causing damage to the chain or other components.
- Decreased System Response: Backlash affects the responsiveness of the system. When there is excessive play, the system may not respond quickly or accurately to changes in input or commands. This can be problematic in applications requiring precise and immediate movement or control.
To mitigate the negative effects of backlash, it is important to minimize or control the clearance within the drive chain system. This can be achieved through proper chain tensioning, sprocket alignment, and the use of anti-backlash devices or mechanisms.
Regular inspection and maintenance are crucial to identify and address any excessive backlash in the drive chain. Maintaining proper tension, lubrication, and periodically checking and adjusting the sprocket alignment can help minimize the backlash and ensure optimal chain performance.
It is essential to consult with the manufacturer’s guidelines and recommendations for the specific drive chain system to determine the acceptable levels of backlash and the appropriate measures to reduce its impact on performance.
By minimizing backlash or play in a drive chain, operators can ensure accurate power transmission, improved efficiency, reduced noise, and vibration, ultimately leading to better overall system performance and productivity.
editor by CX 2023-10-26
China high quality Sprocket Motorcycle Rear Wheel Brass Drive Crane Timing Chain Snowmobile Track Making Machine Reverse Gear Box Indonesian Market
Product Description
Sprocket motorcycle rear wheel brass drive crane timing chain snowmobile track making machine reverse gear box indonesian market
Manufacturer of Sprocket, Chain sprockets, wheel and sprocket, drive sprocket, sprocket wheel, taper lock sprocket, gear sprocket, idle sprocket, motorcycle sprocket and stainless steel sprocket, can interchange and replace with martin size sprocket, jt size sprockets, did size chain sprocket and so on.
What is motorcycle Sprocket?
A motorcycle sprocket is a toothed wheel that is attached to the engine or the rear wheel of a motorcycle. It is used to transmit power from the engine to the rear wheel, or vice versa. The size of the sprocket determines the speed of the motorcycle. A larger sprocket will make the motorcycle go faster, while a smaller sprocket will make the motorcycle go slower.
There are 2 types of motorcycle sprockets: front sprockets and rear sprockets. The front sprocket is attached to the crankshaft of the engine. The rear sprocket is attached to the rear wheel. The chain connects the front sprocket to the rear sprocket.
The size of the front sprocket and the rear sprocket determine the gear ratio of the motorcycle. The gear ratio is the ratio of the number of teeth on the front sprocket to the number of teeth on the rear sprocket. A higher gear ratio will make it easier to accelerate but will reduce top speed. A lower gear ratio will make it more difficult to accelerate but will increase top speed.
Motorcycle sprockets are an important part of a motorcycle. They help to transmit power from the engine to the rear wheel, and they can be used to control the speed of a motorcycle.
Here are some of the benefits of using motorcycle sprockets:
- They help to transmit power from the engine to the rear wheel.
- They can be used to control the speed of a motorcycle.
- They are relatively inexpensive to replace.
- They are easy to install.
Here are some of the drawbacks of using motorcycle sprockets:
- They can wear out over time.
- They can be damaged if they are not properly installed.
- They can be expensive to replace if they are damaged.
Overall, motorcycle sprockets are a good choice for motorcycles. They are relatively inexpensive, easy to install, and can help to improve the performance of a motorcycle.
Standard Or Nonstandard: | Standard |
---|---|
Application: | Motor, Motorcycle, Machinery, Agricultural Machinery, Car |
Hardness: | Hardened Tooth Surface |
Manufacturing Method: | Rolling Gear |
Toothed Portion Shape: | Spur Gear |
Material: | Stainless Steel |
Samples: |
US$ 9999/Piece
1 Piece(Min.Order) | |
---|
Can a drive chain be used in a chemical or petrochemical processing application?
Yes, a drive chain can be used in chemical or petrochemical processing applications where reliable power transmission is required. Here is a detailed explanation:
Chemical and petrochemical processing industries involve the handling, mixing, and processing of various substances, including corrosive chemicals, solvents, and hydrocarbons. Drive chains offer several advantages in these applications:
- Corrosion Resistance: Drive chains can be selected or specially designed with materials that offer corrosion resistance. Stainless steel, high-performance alloys, or coatings can be applied to the chain components to withstand the corrosive effects of chemicals and maintain chain integrity and performance.
- High Load Capacity: Chemical and petrochemical processing often involves heavy-duty operations and the movement of large loads. Drive chains are designed to handle high load capacities, providing reliable power transmission and withstanding the demanding conditions of these applications.
- Precise Control: Drive chains provide precise control over the movement of equipment and processes in chemical and petrochemical plants. The interlocking design of the chain and sprockets allows for accurate positioning, speed control, and synchronization of various components and machinery.
- Wide Operating Temperature Range: Drive chains can be engineered to operate in a wide temperature range, accommodating the temperature variations encountered in chemical and petrochemical processing. High-temperature materials or lubricants can be used to ensure optimal performance under extreme conditions.
- Resistance to Harsh Environments: Chemical and petrochemical processing environments may involve exposure to extreme temperatures, humidity, dust, and other harsh conditions. Drive chains are designed to withstand these environments, with features such as seals, specialized coatings, or materials that offer protection against contaminants and maintain reliable operation.
- Long Service Life: Drive chains, when properly selected, installed, and maintained, can provide long service life in chemical and petrochemical processing applications. Regular inspection, lubrication, and tension adjustment help optimize chain performance and minimize downtime due to chain failure.
When selecting a drive chain for chemical or petrochemical processing applications, factors such as corrosion resistance, load capacity, temperature range, speed requirements, and compatibility with industry regulations should be considered.
It is important to implement proper maintenance practices, including regular inspection, lubrication, and tension adjustment, to ensure the optimal performance and longevity of the drive chain in chemical and petrochemical processing applications.
By utilizing drive chains in chemical and petrochemical processing, operators can benefit from corrosion resistance, high load capacity, precise control, wide temperature range, resistance to harsh environments, long service life, and reliable power transmission, contributing to efficient and safe processing operations.
Can a drive chain be used in a hydraulic or pneumatic system?
A drive chain is not typically used as a primary power transmission method in hydraulic or pneumatic systems. Hydraulic and pneumatic systems rely on fluid power to transmit force and motion. However, drive chains can still be used in certain auxiliary or secondary applications within these systems. Here is a detailed explanation:
In hydraulic or pneumatic systems, the primary power transmission is achieved through the use of hydraulic fluid or compressed air. The fluid or air is pressurized and controlled to generate force and motion in actuators or motors. Drive chains, on the other hand, are commonly used in mechanical power transmission applications where direct force is required, such as in mechanical drives or conveyors.
While drive chains may not be used as the main power transmission method, they can be employed in auxiliary or secondary applications within hydraulic or pneumatic systems, including:
- Tensioning and Positioning: Drive chains can be used to tension belts or other components in a system that is driven by hydraulic or pneumatic power. They can provide accurate positioning and tension control in certain applications.
- Linkage Mechanisms: Drive chains can be utilized as part of mechanical linkage mechanisms in hydraulic or pneumatic systems to transmit motion or force between different components.
- Drive Chain Actuators: In some cases, specialized drive chain actuators can be used in combination with hydraulic or pneumatic power to provide linear or rotary motion for specific applications.
- Accessories and Ancillary Devices: Drive chains can be employed in various accessories or ancillary devices within hydraulic or pneumatic systems, such as tensioners, clutches, or braking mechanisms.
It is important to note that the selection and application of drive chains in hydraulic or pneumatic systems require careful consideration of the specific requirements, load conditions, and compatibility with the fluid power components. Consulting with experts or manufacturers is recommended to ensure the proper integration and performance of the drive chain in such applications.
What are the noise and vibration levels associated with a drive chain?
The noise and vibration levels associated with a drive chain can vary depending on several factors, including the type of chain, operating conditions, and maintenance practices. Here’s an explanation:
Noise Levels:
- Drive chains, especially roller chains, can generate noise during operation. The noise level depends on various factors, such as the chain’s design, speed, tension, lubrication, and the condition of the sprockets.
- Proper lubrication helps reduce friction and noise generation, while inadequate or dry lubrication can increase noise levels.
- Other factors, such as misalignment, worn-out components, or loose fittings, can contribute to increased noise levels. Regular inspections and maintenance help identify and address sources of excessive noise.
Vibration Levels:
- Drive chains can produce vibrations during operation, especially if there are issues such as misalignment, improper tension, or worn-out components.
- Proper tensioning, alignment, and maintenance practices help minimize vibrations and ensure smooth operation.
- Excessive vibrations can lead to accelerated wear, reduced chain life, and potential damage to other components.
It’s worth noting that advancements in chain design and manufacturing techniques have resulted in quieter and smoother-running chains. Manufacturers may also offer specialized low-noise or low-vibration chains for applications where noise or vibration reduction is a priority.
To maintain acceptable noise and vibration levels associated with a drive chain, it is important to follow proper maintenance practices, including regular lubrication, tension adjustment, and alignment checks. Additionally, addressing any sources of excessive noise or vibration promptly can help ensure the smooth and efficient operation of the drive chain.
editor by CX 2023-08-22