Product Description

We specialize in the chains made to customers’ drawings and specification. Our advantage is reliable quality, competitive price, prompt delivery and good service.

Standard products include various transmission and conveyor chains, like Roller Chain, double pitch Conveyor Chain, Hollow Pin Chain, Leaf Chain, Table Top Chain, Side Bow Chain, Lumber Chain, Agriculture Chain, Silent Chain, PIV Chain, Stainless Steel Chain, Nickel/ Zinc plated Chain, Dacromet Chain, Engineering Chain, Steel Pintle Chain, Welded steel chain, Forged chain, Malleable Iron chain, and many other types. Different kinds of attachment are available.

Product Description
Specifications:
1) Attachments on 1 side
2) Attachments on inner plates
3) Attachments on outer plates
4) Attachments on both sides
5) Straight attachments
6) Crank attachments
7) Pin attachments
8) Other special attachments
Transmission chain is famous for its high strength and continuous antifatigue; The chain dimensions fully meet the standards of ANSI and BS.
According to varied working conditions, it may choose the chain with different coating treatment, such as zinc plating, nickel plating, chromeplating and dacromet plating ec

Product Description

25-1 to 240-1
25-2 to 240-2
25-3 to 240-3
04BB-1 to 72B-1
04B-2 to 72B-2
04B-3 to 72B-3

We supply varied kinds of roller chains, conveyor chains, transmission chains and agricultural chains etc. According drawings.

Features:
1) A series chains:
A) Simplex: 25-1 – 240-1
B) Duplex: 25-2 – 240-2
C) Triplex: 25-3 – 240-3
2) B series chains:
A) Simplex: 04B-1 – 72B-1
B) Duplex: 05B-2 – 72B-2
C) Triplex: 05B-3 – 72B-3
3) Materials: Stainless steel or carbon steel

4) Other chains available: Heavy-duty series roller chains, cottered type short pitch precision roller chains (A series), heavy duty series cottered type roller chains, other simplex roller chains, zinc plated chains, dacromet plated chains, nickel plated chains, anti-side bow chains, side bow chains for pushing windows, side bow chains, side bow chains, self-lubrication roller chains, silent chains, self-tooth forming chains (P. I. V. Chains), heavy-duty cranked-link transmission chains, steel chains for sewage disposal, oil field chains, coupling chains, motorcycle chains, O-ring motorcycle chains, engine mechanism chain (timing chains), double pitch transmission chains and double pitch transmission chain attachments.
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Material: Stainless Steel
Structure: Roller Chain
Surface Treatment: Polishing
Chain Size: 1/2"*11/128"
Feature: Antirust, Anticorrosion
Structure(for Chain): Roller Chain
Customization:
Available

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Customized Request

drive chain

How does the alignment of sprockets affect the performance of a drive chain?

The alignment of sprockets is critical for ensuring the optimal performance and longevity of a drive chain. Here is a detailed explanation:

The alignment of sprockets directly affects the following aspects of a drive chain’s performance:

  • Smooth Power Transmission: Proper alignment of sprockets ensures the smooth engagement and disengagement of the chain with the sprocket teeth. When the sprockets are aligned correctly, the chain articulates smoothly, minimizing friction, wear, and noise. This promotes efficient power transmission and prevents premature chain failure.
  • Reduced Wear and Elongation: Misaligned sprockets can cause uneven loading on the chain, leading to accelerated wear and elongation. When the sprockets are aligned, the chain experiences equal forces on all links, resulting in more uniform wear distribution and reducing the risk of chain elongation. Proper alignment helps maintain the chain’s pitch and overall length, ensuring consistent power transmission and extending the chain’s service life.
  • Minimized Side Loads: Misaligned sprockets can create side loads on the chain, causing it to run at an angle or contact the side plates excessively. This leads to increased friction, wear, and stress on the chain components. Proper alignment reduces these side loads, allowing the chain to run smoothly and minimizing unnecessary wear and stress on the chain’s components.
  • Prevention of Chain Skipping or Jumping: Misaligned sprockets can cause the chain to skip or jump teeth, resulting in loss of power transmission, erratic operation, and potential damage to the chain and sprockets. Proper alignment ensures that the chain remains engaged with the sprocket teeth, preventing any skipping or jumping and ensuring reliable power transmission.
  • Optimal Tension Distribution: Properly aligned sprockets contribute to the even distribution of chain tension. When the sprockets are aligned, the tension is evenly distributed along the chain, reducing the risk of localized stress points and chain elongation. This helps maintain consistent tension, improves power transmission efficiency, and extends the life of the chain and sprockets.

To achieve proper sprocket alignment, it is important to ensure that the sprockets are mounted securely, aligned parallel to each other, and positioned at the correct distance apart. Additionally, the sprockets should have the appropriate tooth profile and pitch diameter to match the chain’s specifications.

Regular inspection and maintenance are essential to verify and maintain sprocket alignment. This includes checking for signs of wear, damage, or misalignment, as well as periodically adjusting the tension and lubricating the chain as needed.

By ensuring the proper alignment of sprockets, operators can achieve smooth power transmission, reduced wear, minimized side loads, prevention of chain skipping, and optimal tension distribution. This ultimately improves the performance, efficiency, and reliability of the drive chain system.

drive chain

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.

drive chain

How do you properly tension a drive chain?

Tensioning a drive chain properly is important to ensure optimal performance, minimize wear, and prevent premature failure. Here are the steps to properly tension a drive chain:

  1. Identify the Tensioning Method: Determine the type of tensioning system used for your specific drive chain. Common tensioning methods include manual adjustment, automatic tensioners, or tensioning devices incorporated into the chain drive system.
  2. Refer to Manufacturer’s Guidelines: Consult the manufacturer’s guidelines or specifications for the recommended tensioning range and procedure specific to your drive chain. Manufacturers often provide specific instructions regarding the appropriate tensioning method and the acceptable slack or sag limits.
  3. Measure the Initial Tension: Measure the initial tension of the drive chain. This can be done using a tension gauge or by applying manual force to the chain at a specific point and measuring the deflection or sag. Ensure that the initial tension is within the recommended range specified by the manufacturer.
  4. Adjust Tension: If the initial tension is outside the recommended range, adjust the tension accordingly. For manual tensioning systems, typically a tensioning device, such as an adjusting bolt or eccentric cam, is used to increase or decrease the tension. Follow the manufacturer’s instructions for the specific adjustment mechanism.
  5. Check Alignment: While tensioning the chain, ensure that it remains properly aligned on the sprockets. Misalignment can cause uneven wear and premature failure. Make any necessary alignment adjustments as per the manufacturer’s recommendations.
  6. Recheck Tension: After tension adjustment and alignment, recheck the tension to ensure it falls within the recommended range. Use a tension gauge or follow the manufacturer’s guidelines for measuring the tension. Repeat the adjustment process if necessary.
  7. Verify Operation: After tensioning, operate the machinery or system with the tensioned chain and observe its performance. Check for any abnormal noise, vibration, or unusual wear patterns. If any issues persist, reevaluate the tensioning and alignment.

It is important to note that proper tensioning may require periodic rechecks and adjustments over time as the chain elongates or wears. Regular maintenance and inspections will help ensure the drive chain remains properly tensioned and aligned for optimal performance and longevity.

China Hot selling Dog Drive Chain for Transmission System  China Hot selling Dog Drive Chain for Transmission System
editor by CX 2024-03-01