Product Description

Our roller chain size chart shows all the ANSI standard single-pitch and double-pitch chain sizes for making easy selections when it comes to sizing a chain!

Solid rollers enhance rotation on the bushing while reducing impact loads on the sprocket tooth during operation.

All components are heat treated to achieve maximum strength and greater wear resistance.

Pre-loaded during the manufacturing process to minimize the initial elongation.

Hot dipped lubrication ensures 100% lubrication of all chain components to extend wear life and reduce maintenance costs.

ISO
NO.
ANSI
NO.
PITCH BUSH
WIDTH
ROLLER
DIA
PIN PLATE MIN.
STRENGTH
 AVG.
STRENGTH
WEIGHT
d L1 L2 H t/T
mm mm mm mm mm mm mm mm kgf kgf kgm
*04C-1 *25-1 6.350 3.18 3.30 2.31 3.90 4.80 6.00 0.80 3.50 4.60 0.14
*06C-1 *36-1 9.525 4.77 5.08 3.58 6.00 7.20 9.00 1.30 7.90 10.60 0.35
08A-1 40-1 12.700 7.85 7.77 3.96 8.30 9.60 12.00 1.50 14.10 18.00 0.66
571A-1 50-1 15.875 9.40 10.16 5.08 10.25 11.85 15.09 2.03 22.20 31.00 1.05
012A-1 60-1 19.050 12.57 11.91 5.94 12.65 14.35 18.00 2.42 31.80 42.00 1.56
016A-1 80-1 25.400 15.75 15.88 7.92 16.20 17.90 24.00 3.25 56.70 70.20 2.67
571A-1 100-1 31.750 18.90 19.05 9.52 19.80 23.30 30.00 4.00 88.50 115.00 4.04
571A-1 120-1 38.100 25.22 22.23 11.10 25.00 28.30 35.70 4.80 127.00 170.00 5.94
571A-1 140-1 44.450 25.22 25.40 12.70 26.90 30.90 41.00 5.00 172.00 213.00 7.50
032A-1 160-1 50.800 31.55 28.58 14.27 32.05 35.75 47.80 6.40 226.80 290.00 10.20
036A-1 180-1 57.150 35.48 35.71 17.46 36.05 40.75 53.60 7.20 280.20 340.00 13.95
040A-1 200-1 63.500 37.85 39.68 19.84 39.55 43.85 60.00 8.00 353.00 480.00 16.86
048A-1 240-1 76.200 47.35 47.63 23.81 47.60 52.40 72.39 9.50 510.00 620.00 24.25

ISO
NO.
ANSI
NO.
PITCH BUSH
WIDTH
ROLLER
DIA
PIN PLATE TRANS
PITCH
MIN.
STRENGTH
 AVG.
STRENGTH
WEIGHT
d L1 L2 H t/T
mm mm mm mm mm mm mm mm mm kgf kgf kg/m
*04C-2 *25-2 6.350 3.18 3.30 2.31 7.10 7.90 5.90 0.75 6.40 7.00 8.60 0.28
*06C-2 *36-2 9.525 4.77 5.08 3.58 11.10 12.30 9.00 1.27 10.13 15.80 20.00 0.69
08A-2 40-2 12.700 7.85 7.77 3.96 15.50 16.70 12.00 1.52 14.38 27.60 34.50 1.30
571A-2 50-2 15.875 9.40 10.16 5.08 19.30 20.70 15.00 2.00 18.11 43.60 59.50 2.08
012A-2 60-2 19.050 12.57 11.91 5.94 24.05 25.95 18.00 2.40 22.78 62.30 80.60 3.09
016A-2 80-2 25.400 15.75 15.88 7.92 30.75 33.15 23.50 3.20 29.29 111.20 134.80 5.29
571A-2 100-2 31.750 18.90 19.05 9.52 37.70 41.10 30.00 4.00 35.76 173.50 224.30 8.01
571A-2 120-2 38.100 25.22 22.23 11.10 47.75 51.05 35.80 4.90 45.44 249.10 326.40 11.84
571A-2 140-2 44.450 25.22 25.40 12.70 51.35 55.35 41.50 5.60 48.87 338.10 409.00 14.89
032A-2 160-2 50.800 31.55 28.58 14.27 61.35 65.05 48.00 6.40 58.55 444.80 556.80 20.26
036A-2 180-2 57.150 35.48 35.71 17.46 69.25 73.65 54.00 7.20 65.84 560.50 652.80 27.62
040A-2 200-2 63.500 37.85 39.68 19.84 75.35 79.65 59.60 8.00 71.55 693.90 921.60 33.64
048A-2 220-2 76.200 47.35 47.63 23.81 96.30 96.30 72.10 72.39 87.83 1000.80 1190.40 48.31

Usage: Transmission Chain, Conveyor Chain, Roller Chain
Material: Alloy/Carbon Steel
Surface Treatment: Polishing
Feature: Heat Resistant
Chain Size: Standard Size, Heavy Duty
Structure: Roller Chain
Samples:
US$ 10/Meter
1 Meter(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

transmission chain

How does the choice of chain attachment affect the functionality of a transmission chain?

The choice of chain attachment plays a critical role in the functionality and performance of a transmission chain. Here’s a detailed answer to the question:

1. Load Capacity: Different chain attachments are designed to handle specific types and amounts of loads. The selection of the appropriate attachment is crucial to ensure that the transmission chain can safely and efficiently carry the intended load. The type of attachment, such as extended pins, cleats, or slats, can determine the chain’s ability to handle heavy or irregular loads.

2. Application Compatibility: The choice of chain attachment should align with the specific application requirements. Different industries and applications may require specialized attachments that are designed to address particular challenges or provide specific functionalities. For example, attachments used in conveying systems may include rollers, flights, or grippers to facilitate smooth material transfer.

3. Alignment and Tracking: Certain chain attachments, such as guide rails or track systems, help to ensure proper alignment and tracking of the transmission chain. These attachments minimize the risk of chain derailment or misalignment, which can lead to operational issues and reduced efficiency.

4. Positioning and Orientation: Some applications require precise positioning or orientation of objects or components. Chain attachments, such as indexing pins or brackets, are designed to facilitate accurate positioning or rotation of objects along the chain’s path. These attachments contribute to the reliable and precise operation of the transmission chain.

5. Material Handling: In material handling applications, chain attachments are often used to secure or hold items during transport. Attachments like hooks, clamps, or brackets enable the secure attachment of objects to the chain, preventing slippage or displacement during movement. This ensures safe and efficient material handling operations.

6. Specialized Functions: Chain attachments can provide additional functions based on specific application requirements. For example, attachments such as sensors, RFID tags, or lubrication reservoirs can be integrated into the chain design to enable monitoring, tracking, or lubrication functions. These specialized attachments enhance the overall functionality and performance of the transmission chain.

It’s important to select the appropriate chain attachment based on the specific application needs, load requirements, and desired functionality. Consulting with industry experts or chain manufacturers can help in determining the most suitable attachment options for optimal transmission chain performance.

transmission chain

How does the wear resistance of a transmission chain affect its longevity?

Wear resistance is a critical factor that affects the longevity of a transmission chain. Here’s a detailed answer to the question:

1. Extended Lifespan: A transmission chain with high wear resistance is designed to withstand the effects of friction and abrasion, leading to an extended lifespan. It can resist wear caused by contact with sprockets, other chains, or external contaminants, resulting in reduced chain elongation and degradation over time.

2. Reduced Maintenance Requirements: Chains with excellent wear resistance require less frequent maintenance and replacement. They can operate reliably and efficiently for longer periods without significant degradation, reducing downtime and maintenance costs.

3. Improved Performance: A transmission chain with good wear resistance maintains its performance characteristics over time. It can effectively transmit power, maintain accurate speed ratios, and operate smoothly without excessive noise or vibration. This results in improved system performance and overall efficiency.

4. Resistance to Environmental Factors: Chains operating in harsh environments or exposed to contaminants, moisture, or chemicals are more susceptible to wear. A transmission chain with high wear resistance can withstand these environmental factors, ensuring reliable operation and minimizing the negative impact of wear-related issues.

5. Cost Savings: Using a transmission chain with excellent wear resistance can lead to cost savings in the long run. The reduced need for frequent chain replacements, repairs, and maintenance can result in lower operating costs and increased productivity.

It’s important to consider the specific application requirements and operating conditions when selecting a transmission chain. Factors such as load capacity, speed, operating environment, and compatibility with other system components should be evaluated to choose a chain with optimal wear resistance for maximizing longevity and performance.

transmission chain

What is a transmission chain and how does it work?

A transmission chain is a type of mechanical chain used to transmit power between two or more rotating shafts. It consists of a series of interconnected links that engage with toothed sprockets to transfer motion and torque.

In a typical transmission chain system, the chain wraps around two or more sprockets, with one sprocket connected to the input shaft and the other(s) connected to the output shaft(s). As the input shaft rotates, the chain moves along the sprockets, causing the output shaft(s) to rotate at the same speed or different speeds depending on the sprocket sizes.

The functioning of a transmission chain relies on the principle of mechanical power transmission through interlocking links and the engagement between the chain and the sprocket teeth. The chain’s links are designed to fit precisely with the sprocket teeth, ensuring a positive and reliable transfer of power.

As the chain engages with the sprockets, the teeth on the sprockets push against the chain’s rollers or pins, causing the chain to move. This movement transfers rotational motion and torque from the input shaft to the output shaft(s), enabling the transmission of power and facilitating various mechanical operations.

Transmission chains are widely used in various applications such as automotive engines, motorcycles, bicycles, industrial machinery, and power transmission systems. They are valued for their durability, efficiency, and ability to handle high loads and speeds.

China supplier A Series Short Pitch Roller Chain Roller Chain  China supplier A Series Short Pitch Roller Chain Roller Chain
editor by CX 2023-10-31