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, CHINAMFG purchased HangZhou Guoping Forging Factory (LYGP), a marketer of forging bolts & nuts to power & free line market in china. With this acquisition, CHINAMFG positioned itself as 1 of major parts suppliers of monorail and power & free conveyor system in china.
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Can engineering chains be used in agricultural machinery and equipment?
Yes, engineering chains are commonly used in various agricultural machinery and equipment applications. Their robust design and ability to handle heavy loads make them well-suited for the demanding and often harsh conditions in the agricultural industry. Here are some examples of how engineering chains are used in agriculture:
- Combine Harvesters: Engineering chains are utilized in combine harvesters to drive components like the cutter head, reel, and auger. These chains are essential for efficient harvesting and grain collection.
- Tractors: In tractors, engineering chains are employed in power take-off (PTO) systems to transfer power from the engine to different agricultural implements, such as plows, mowers, and tillers.
- Balers: Engineering chains are used in balers to compress and bind crops into bales, facilitating easy storage and transport.
- Seeders and Planters: These machines use engineering chains to distribute seeds or plants evenly in the field, ensuring proper crop spacing and optimal growth.
- Grain Handling Equipment: Engineering chains are integral in grain handling equipment, including bucket elevators, grain conveyors, and grain elevators, facilitating the efficient movement and storage of harvested crops.
The agricultural environment can be challenging, with factors such as dust, debris, and varying weather conditions. Engineering chains used in agricultural machinery are often designed with additional protection against contaminants and corrosion to ensure reliable performance over extended periods.
When selecting engineering chains for agricultural applications, it’s essential to consider factors like load capacity, environmental conditions, maintenance requirements, and the specific needs of each machine. Regular inspection and proper lubrication are crucial to maintain the chains’ performance and extend their service life in agricultural machinery.
How do engineering chains handle side loads and lateral forces?
Engineering chains are designed to handle side loads and lateral forces effectively, making them suitable for applications where such forces may be present. The ability of engineering chains to handle side loads and lateral forces is primarily influenced by their construction and material properties.
Key factors contributing to the handling of side loads and lateral forces by engineering chains include:
- Chain Design: Engineering chains are often constructed with solid bushings and rollers that provide smooth articulation between the chain links. This design minimizes friction and wear, allowing the chain to better accommodate lateral movements.
- Material Selection: High-quality engineering chains are typically made from durable materials, such as alloy steel, that offer excellent tensile strength and resistance to fatigue. These material properties enable the chain to withstand lateral forces without deformation or failure.
- Clearances: The clearances between the chain components and the sprocket teeth are carefully engineered to ensure that the chain can flex and adjust to lateral forces without jamming or binding. Proper clearances also help reduce wear and noise during operation.
- Guidance Systems: In certain applications, additional guidance systems may be used to support the chain and maintain its alignment, especially when dealing with significant side loads. These guidance systems can include wear strips, guide rails, or other forms of lateral support.
It’s important to note that while engineering chains can handle some degree of side loads and lateral forces, excessive or prolonged lateral forces can lead to premature wear and reduced chain life. Therefore, it is crucial to select the appropriate chain size and design for the specific application and operating conditions to ensure optimal performance and longevity.
Regular maintenance, including proper lubrication and periodic inspection, is also essential to monitor chain wear and detect any signs of damage that may result from side loads or other external forces. By following proper maintenance practices, the engineering chain’s ability to handle side loads and lateral forces can be maximized, ensuring reliable and efficient power transmission in various industrial applications.
Can engineering chains be used in high-speed applications?
Yes, engineering chains can be used in high-speed applications, but their suitability depends on various factors. While some engineering chains are designed to handle high-speed operation, others may not be suitable for such applications. Here are some considerations:
1. Chain Type: Different types of engineering chains have varying capabilities when it comes to high-speed operation. For example, roller chains are commonly used in industrial applications and can handle moderate to high speeds efficiently. On the other hand, conveyor chains or specialty chains may have limitations on speed due to their design and intended use.
2. Manufacturer Specifications: Check the manufacturer’s specifications and recommendations for the engineering chain you plan to use. Manufacturers often provide maximum allowable speeds for their chains based on factors such as chain size, material, and construction.
3. Lubrication and Maintenance: Proper lubrication and maintenance are critical for high-speed applications. Adequate lubrication reduces friction and wear, allowing the chain to operate smoothly at higher speeds. Regular maintenance ensures that the chain remains in good condition and minimizes the risk of unexpected failures.
4. Load and Tension: High-speed applications can place additional loads and tension on the engineering chain. It is essential to ensure that the chain can handle the increased loads and tension without stretching excessively or experiencing premature wear.
5. Environmental Conditions: Consider the environmental factors that may affect the chain’s performance at high speeds. Temperature, humidity, and the presence of contaminants can impact the chain’s wear and durability.
6. Safety Considerations: High-speed applications require careful consideration of safety measures. Ensure that all safety guidelines and regulations are followed to prevent accidents or injuries resulting from chain failure.
In summary, engineering chains can be used in high-speed applications, but it is essential to select the appropriate chain type and ensure proper maintenance and lubrication. Consulting with chain manufacturers or experts can help you determine the most suitable engineering chain for your specific high-speed application, ensuring safe and reliable operation.
editor by CX 2023-12-11