KASIN intermediate carrier chains operate in the most corrosive conditions brought about by continous operation in raw sugar juice.As a consquence chains employ corrosion resistant materials . The swivel attachments allows for self allignment of the strands during operation compensating for anymismatch.
Kasin group was established in 1989, and its first product is casting carrier trolley for power & free conveyor system. In 1995, CZPT purchased HangZhou Guoping Forging Factory (LYGP), a marketer of forging bolts & nuts to power & free line market in china. With this acquisition, CZPT positioned itself as 1 of major parts suppliers of monorail and power & free conveyor system in china.
|Feature:||Fire Resistant, Oil Resistant, Heat Resistant|
|Link Plate Height:||50.80mm|
Can engineering chains be used for power transmission in automotive applications?
Yes, engineering chains can be used for power transmission in automotive applications. They are commonly employed in various automotive systems that require reliable and efficient power transfer. Here are some automotive applications where engineering chains are used:
- Timing Chains: In internal combustion engines, timing chains are critical for synchronizing the camshaft and crankshaft’s rotation. They ensure that the engine’s valves open and close at the precise time, optimizing engine performance and fuel efficiency.
- Drive Chains: Engineering chains are used in automotive drive systems, especially in older vehicles or specific applications where a chain drive is preferred over a belt or gear drive. Drive chains can be found in various components, such as transfer cases, rear-wheel-drive systems, and motorcycle drives.
- Steering System: In some automotive steering systems, engineering chains are used to transmit the rotational force from the steering wheel to the steering rack or gearbox, enabling vehicle control.
- Transfer Cases: In four-wheel-drive and all-wheel-drive systems, engineering chains are utilized in transfer cases to distribute power between the front and rear axles, allowing for better traction and handling on various terrains.
- Suspension Systems: Some automotive suspension systems incorporate engineering chains to support components like torsion bars or assist in adjusting suspension height in certain vehicles.
- Exhaust System: In exhaust gas recirculation (EGR) systems, engineering chains may be employed to control the flow of exhaust gases, helping to reduce emissions.
It is important to note that while engineering chains are suitable for certain automotive applications, modern vehicles often utilize other methods of power transmission, such as timing belts and gears, due to their quieter operation and reduced maintenance needs. The choice of power transmission method in automotive applications depends on factors like design requirements, space limitations, cost considerations, and desired performance characteristics.
What are the benefits of using an engineering chain in material handling systems?
An engineering chain offers several advantages when used in material handling systems, making it a popular choice for various industrial applications:
1. High Strength and Durability: Engineering chains are designed to withstand heavy loads and offer high tensile strength, making them ideal for material handling tasks that involve transporting heavy or bulky items.
2. Reliable Power Transmission: Engineering chains provide a reliable means of power transmission, ensuring smooth and efficient movement of materials within the handling system.
3. Versatility: These chains are available in various configurations and sizes, allowing for customization to fit different material handling equipment and conveyor systems.
4. Flexibility: Engineering chains can be used in both straight-line and curved conveyor systems, offering flexibility in designing material flow paths.
5. Low Maintenance: When properly lubricated and maintained, engineering chains have a long service life with minimal maintenance requirements, reducing downtime and overall operating costs.
6. Corrosion Resistance: For material handling systems operating in harsh environments, corrosion-resistant engineering chains, such as stainless steel chains, can be used to prevent degradation and ensure longevity.
7. Wide Range of Applications: Engineering chains are suitable for a wide range of material handling applications, including manufacturing, warehousing, distribution centers, and more.
8. Precise Control: These chains offer precise control over the movement of materials, enabling accurate positioning and synchronization in automated material handling systems.
9. Reduced Noise and Vibration: Engineering chains are designed to operate quietly and with minimal vibration, contributing to a more comfortable and quieter working environment.
10. Safety: The reliability and strength of engineering chains enhance the safety of material handling operations, reducing the risk of chain failure and related accidents.
Overall, the use of engineering chains in material handling systems ensures efficient and dependable movement of goods and materials, contributing to increased productivity, reduced downtime, and improved safety in industrial environments.
Can engineering chains handle heavy loads and high torque requirements?
Yes, engineering chains are designed to handle heavy loads and high torque requirements, making them well-suited for various industrial applications that demand robust power transmission capabilities. The construction and materials used in engineering chains ensure their ability to withstand the stresses and forces associated with heavy loads and high torque.
Engineering chains are commonly used in heavy machinery, mining equipment, construction machinery, and other applications where substantial power transmission is necessary. Their sturdy design and precise engineering allow them to efficiently transmit power and handle the forces generated during operation.
The load capacity and torque-handling capabilities of engineering chains can vary depending on their design, size, and material. Manufacturers provide technical specifications and load ratings for different engineering chain types, enabling users to select the appropriate chain based on their specific application requirements.
In summary, engineering chains are well-equipped to handle heavy loads and high torque requirements, making them reliable and effective components in industrial systems that demand strength, durability, and efficient power transmission.
editor by CX 2023-08-18