China Good quality Standard Agricultural Drives Steel Pintle Chain (205)

Product Description

Standard Agricultural Drives Steel Pintle Chain (205)

AG Spreader, Grain Processing, Asphalt Paving, Sanding Truck Conveyor, Car Wash Conveyor, Forest Products

Model: 662,667X,667H,667J,667K,88K,D205,662H,667HX,D88C

We own the sophisticated equipment and the advanced technology, such as: 
1. CAD Designer
2. Wire Cutting Machine
3. Chain Running In Machine
4. Conveyor Furance
5. Ball Drift
6. Shot Peened Parts
7. Design Of Link Plate Waist
Packaging accprding to the customers’ demands
To make the clients’ satifaction is our big goal and subject.

Package:Polybag+Box+Case

Choose TAI

1.TAI with sophisticated CNC equipment, advanced technology and perfect inspection equipment produce all kinds of chains, sprockets and other transmission equipments which can make the customers’ trust. The company since its establishment has passed ISO9001 and other certifications.

2.”High quality, high benefit, high standards” to sing more integrated into the world. Adhering to the “good faith service to customers” purposes, from being in order to after-sales service, each bit closely link, TAI will provide the most intimate, comprehensive service.

3.”Meet the customers’ requirement, until customers’ satisfaction” is our goal from start to finish, better innovation and better cooperation can create better TAI to service the world. Let us work together, to create a better future with each other.

 

Chain No Pitch Ultimate tensile strength Weight
mm KN kg/m
205 31.75 12.5 0.58
662 42.27 37.8 1.6
667X 57.15 66.7 3.13
667H 58.75 42.26 1.7
667J 57.15 62.28 2.7
667K 57.15 108.99 3.94
667XH 57.15 124.6 4.48
88K 66.27 108.99 3.91
308C 78.11 222.42 9.8

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Material: Carbon Steel
Structure: Welded Chain
Surface Treatment: Polishing
Chain Size: 1/2"*3/32"
Feature: Heat Resistant
Structure (for Chain): Pintle Chain
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Customization:
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drive chain

Can a drive chain be used in a renewable energy or solar power application?

Yes, a drive chain can be used in certain renewable energy or solar power applications where reliable and efficient power transmission is required. Here is a detailed explanation:

In renewable energy and solar power systems, various components need to be precisely controlled and aligned to harness and transmit energy efficiently. Drive chains offer several advantages in these applications:

  • Precision Power Transmission: Drive chains provide accurate and reliable power transmission, ensuring the precise movement and synchronization of components in renewable energy systems. They can be used to transmit power from the source, such as solar panels or wind turbines, to generators, converters, or other equipment involved in energy conversion and distribution.
  • Adaptability to Variable Loads: Renewable energy systems often experience variable loads and conditions. Drive chains can accommodate these changes and adjust to the varying power requirements, allowing for efficient power transmission and distribution. They offer flexibility in handling different load profiles and variations, ensuring optimal performance and energy conversion.
  • Robustness and Durability: Drive chains are known for their robustness and durability, making them suitable for renewable energy applications that may involve challenging operating conditions, such as outdoor environments or remote locations. They can withstand environmental factors, temperature variations, and exposure to dust, moisture, or corrosive elements, ensuring reliable operation and long service life.
  • Efficient Power Conversion: Drive chains contribute to efficient power conversion and transmission in renewable energy systems. They minimize energy losses through their high power transmission efficiency, enabling maximum utilization of the generated energy. This results in optimized energy conversion and enhanced overall system efficiency.
  • Versatility in System Design: Drive chains offer flexibility in system design and configuration, allowing for the precise alignment and interconnection of components in renewable energy systems. They can be integrated into various types of machinery and equipment, such as solar tracking systems, wind turbines, or hydroelectric generators, enabling customized solutions for different renewable energy applications.
  • Maintenance and Serviceability: Drive chains are relatively easy to maintain and service compared to some alternative power transmission systems. Regular inspection, lubrication, and tension adjustment can ensure optimal performance and extend the service life of the chain in renewable energy applications. This contributes to reduced downtime and enhanced system availability.

It is important to consider the specific requirements and constraints of the renewable energy or solar power application when selecting a drive chain. Factors such as load capacity, speed capabilities, environmental conditions, and maintenance considerations should be taken into account.

By utilizing drive chains in renewable energy and solar power applications, operators can benefit from precise power transmission, adaptability to variable loads, robustness, efficient power conversion, versatile system design, and ease of maintenance, contributing to reliable and efficient utilization of renewable energy sources.

drive chain

How does the weight of a drive chain affect its performance?

The weight of a drive chain can have some impact on its performance, although it is generally not a significant factor. Here is a detailed explanation:

The weight of a drive chain refers to the mass of the chain itself. While the weight of the chain may vary depending on its size, type, and material, it is typically not a critical consideration in most applications. Here are a few points to understand about the weight of a drive chain:

  • Inertia: The weight of the drive chain contributes to its inertia, which is the resistance to changes in motion. In high-speed or dynamic applications, such as robotics or automation, excessive chain weight can increase inertia and potentially affect the responsiveness and precision of the system. However, the weight of the chain is usually relatively small compared to other components in the system, and the impact on performance is often minimal.
  • Tension and Tensioning Mechanisms: The weight of the chain can influence the tensioning requirements and the design of tensioning mechanisms. Heavier chains may require stronger tensioning systems to maintain proper tension and prevent chain slack. It is essential to consider the weight of the chain when designing and implementing tensioning mechanisms to ensure optimal performance.
  • Load Capacity: The weight of the chain itself does not significantly affect the load capacity or strength of the chain. The load capacity is determined by the chain’s design, material, and construction. Proper chain selection based on the specific application requirements is necessary to ensure sufficient load-carrying capacity.
  • Installation and Handling: The weight of the chain can influence the ease of installation and handling, especially in larger or heavier chains. Proper lifting and handling equipment should be used to ensure safe installation and prevent injuries.

Overall, while the weight of a drive chain can have some minor influence on its performance in certain applications, it is typically not a critical factor. Factors such as chain design, material, lubrication, tension, and alignment have a more significant impact on the overall performance and reliability of the drive chain.

drive chain

How does a drive chain differ from a timing belt?

A drive chain and a timing belt are both components used in power transmission, but they differ in their construction, operation, and application. Here are the key differences between a drive chain and a timing belt:

  • Construction: A drive chain consists of interconnected links or rollers, typically made of steel, that form a flexible mechanism. In contrast, a timing belt is a toothed belt made of a reinforced rubber material with teeth on the inner surface.
  • Power Transmission: Drive chains are commonly used for transmitting power in applications where flexibility and high-load capacity are required, such as in vehicles, machinery, and industrial equipment. Timing belts, on the other hand, are primarily used for precise synchronization of engine components, such as camshafts and crankshafts, in internal combustion engines.
  • Motion and Operation: Drive chains transfer power through rotational motion. The engagement of the chain links with sprockets allows for the transfer of rotational force. Timing belts, on the other hand, rely on the meshing of teeth on the belt with grooves or pulleys to ensure precise timing and synchronization of the engine’s internal components.
  • Maintenance and Tension: Drive chains require periodic lubrication and tension adjustment to ensure proper operation and minimize wear. Timing belts, on the other hand, are typically maintenance-free and do not require lubrication or frequent tension adjustments.
  • Noise and Vibration: Drive chains, especially roller chains, can generate more noise and vibration during operation compared to timing belts, which are designed to operate with reduced noise and vibration.
  • Replacement: In case of damage or wear, drive chains can be repaired by replacing individual links or sections. Timing belts, on the other hand, usually require complete replacement as they are not easily repairable.

Ultimately, the choice between a drive chain and a timing belt depends on the specific application requirements, such as the need for power transmission, precision timing, load capacity, maintenance preferences, and operational conditions.

China Good quality Standard Agricultural Drives Steel Pintle Chain (205)  China Good quality Standard Agricultural Drives Steel Pintle Chain (205)
editor by CX 2024-05-14