China wholesaler Plastic Roller Chain (POM +SS 304) 40p for Conveyor Machine

Product Description

Small Pitch Roller Chains
Type: PC 35, PC 40, PC50, PC60
Materials: POM+ stainless steel
Pitch: 6.35mm, 9.525mm, 12.7mm, 15.875mm, 19.05mm
Color: White
We are manufacturer professionally in plastic top chains, stainless steel top chains, and other conveyor components. We have abtained the quality certificate of ISO 9001: 2000, and our products have been sold to Europe, Middle East, America and many other coutries and regions.

type PC 35, PC 40, PC50, PC60
 
Materials POM+ stainless steel
 
Pitch 6.35mm, 9.525mm, 12.7mm, 15.875mm, 19.05mm
 

Small Pitch Roller Chains
Type: PC 35, PC 40, PC50, PC60
Materials: POM+ stainless steel
Pitch: 6.35mm, 9.525mm, 12.7mm, 15.875mm, 19.05mm
Color: White

Advantages: short pitch, low noise, light weight,
corrosion resistance, diamagnetic.
Plasic roller chains can be widely use for eletronic, food,medicine, chemical industry etc.
We are manufacturer professionally in plastic top chains, stainless steel top chains, and other conveyor components. We have abtained the quality certificate of ISO 9001: 2000, and our products have been sold to Europe, Middle East, America and many other coutries and regions.

Our products application:
Packaging and conveying industry
Beverage bottling and handling industry
Food and meat processing industry
Chemical industry
Pharmaceuticals industry
Automobile industry
Electrical and electronics industry
Textile industry
Light engineering industry

Material: Plastic
Structure: Roller Chain
Surface Treatment: No
Chain Size: 12.7mm
Feature: Wear Resistant
Advantage: Corrosion Resistance
Samples:
US$ 1/Piece
1 Piece(Min.Order)

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Customization:
Available

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roller chain

Can roller chains be used for power transmission in automotive applications?

Yes, roller chains can be used for power transmission in automotive applications. However, it’s important to note that roller chains are not commonly used as the primary method of power transmission in modern automotive systems. The automotive industry has largely transitioned to other technologies such as timing belts and gears for power transmission. Nevertheless, roller chains can still be found in some automotive components and systems. Here’s a detailed answer to the question:

1. Engine Timing: Roller chains are commonly used in internal combustion engines to drive the camshafts and synchronize the opening and closing of the engine’s valves. The timing chain ensures precise timing between the crankshaft and camshaft, allowing for efficient engine operation.

2. Transfer Cases: In certain four-wheel-drive and all-wheel-drive vehicles, roller chains are used in the transfer case to transmit power from the transmission to the front and rear axles. The roller chain in this application allows for smooth and efficient power transfer between the different drivetrain components.

3. Other Applications: While roller chains are not as prevalent in other automotive systems, they can be found in some secondary applications such as power steering systems, engine oil pumps, and accessory drives.

It’s important to consider the specific requirements of the automotive application when determining the suitability of a roller chain. Factors such as load capacity, speed, temperature, and environmental conditions need to be carefully evaluated. Additionally, regular maintenance and lubrication are crucial to ensure the longevity and reliable performance of the roller chain in automotive applications.

roller chain

How do roller chains handle static loads?

Roller chains are primarily designed for transmitting power and handling dynamic loads, which involve motion and varying forces. However, roller chains can also handle static loads to some extent. Here’s a detailed answer to the question:

1. Load Distribution: When a roller chain is subjected to static loads, the weight or force is evenly distributed across multiple rollers and pins. This helps to distribute the load more effectively and reduces stress concentrations on individual components. The load is transferred from one roller to another through the pins, ensuring a more balanced distribution.

2. Stiffness: Roller chains possess a certain degree of stiffness that enables them to resist static loads. The rigid construction of the chain, including the link plates and pins, helps maintain the integrity of the chain under static conditions. This stiffness allows the chain to support the applied load without excessive elongation or deformation.

3. Lubrication: Proper lubrication is essential for roller chains to handle static loads effectively. Lubrication helps reduce friction and wear, which can occur even under static conditions due to the weight of the load. Adequate lubrication ensures smooth movement of the chain and minimizes the risk of surface damage or increased friction during load-bearing.

4. Chain Preload: In some cases, applying a pre-load or initial tension to the roller chain can help improve its ability to handle static loads. The pre-load helps to eliminate any slack or looseness in the chain, enhancing its rigidity and reducing the potential for excessive elongation or misalignment when subjected to static forces.

While roller chains can handle static loads, it’s important to note that they are primarily designed for dynamic applications involving motion. Excessive static loads or prolonged exposure to static conditions may lead to increased wear, elongation, or deformation of the chain. In scenarios where the majority of the load is static, alternative power transmission systems or load-bearing mechanisms may be more suitable.

roller chain

What are the key components of a roller chain?

A roller chain consists of several key components that work together to facilitate power transmission. Here’s a detailed answer to the question:

1. Inner and Outer Plates: The inner and outer plates are flat metal plates that form the sides of the roller chain. They provide support and protection to the other components and help maintain the proper spacing between the rollers.

2. Rollers: The rollers are cylindrical components that are positioned between the inner and outer plates. They are responsible for engaging with the sprockets and transmitting power. The rollers rotate freely on the bushings and reduce friction during operation.

3. Bushings: The bushings are cylindrical sleeves that fit inside the rollers. They provide a low-friction surface for the rollers to rotate on and help reduce wear and extend the life of the chain.

4. Pins: The pins are cylindrical metal rods that connect the inner and outer plates. They pass through the bushings and hold the chain together. The pins are press-fitted into the plates and provide a pivot point for the rollers.

5. Link Plates: The link plates are the connecting elements between adjacent chain links. They are the plates that hold the pins in place and provide structural integrity to the chain.

6. Master Link or Connecting Link: The master link, also known as the connecting link, is a special link that allows for easy installation and removal of the roller chain. It typically has a removable pin or clip that enables the chain to be opened and closed without the need for special tools.

These components work together to form a continuous loop that engages with the sprockets and transfers power from one shaft to another. The precise design and construction of these components contribute to the overall strength, durability, and efficiency of the roller chain.

China wholesaler Plastic Roller Chain (POM +SS 304) 40p for Conveyor Machine  China wholesaler Plastic Roller Chain (POM +SS 304) 40p for Conveyor Machine
editor by CX 2023-09-15

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