China Hot selling Cast Steel 500 Class Bucket Eelenator Conveyor Chains

Product Description

 

500 CLASS BUCKET ELEVATOR CHAINS

Product Description

 

500 CLASS BUCKET ELEVATOR CHAINS is a heavyweight, moderately priced chain capable of handling average loads at slow or intermediate speeds. It is proportionately cast for balance, strength and long, efficient service, and is available in cottered construction. The head of each pin is notched to fit the sidebar locking lug which keeps the pin from rotating when the chain is in use. Closed bearing construction makes 500 CLASS BUCKET ELEVA TOR CHAINS useful in conveying gritty and CZPT materials. 
Manufactured in HZPT CHAINS, with a tensile strength range from 12,500 to 40,000 pounds, 500 CLASS BUCKET ELEVATOR CHAINS is carefully cored for pitch accuracy with smooth bearing surfaces that reduce “break-in” wear causing pitch elongation. 
500 CLASS BUCKET ELEVATOR CHAINS is available in a pitch range of 2.32 to 6.30 inches with a complete assortment of Brutaloy or cast steel sprockets. 
A large assortment of attachments are available to handle a wide variety of applications. Styles K1,K2 ,F2 and G attachments are offered in right and left hand links. 
As a drive chain, 500 Class Pintle is designed to travel in the direction of the barrel end of the links;as an elevating or conveying chain, its direction of travel should be toward the open ends of the links. 
All 500 CLASS BUCKET ELEVATOR CHAINS is manufactured according to manufacturer’s standards and is completely interchangeable. 

 

 

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Standard or Nonstandard: Standard
Application: Textile Machinery, Garment Machinery, Conveyer Equipment, Packaging Machinery, Electric Cars, Motorcycle, Food Machinery, Marine, Mining Equipment, Agricultural Machinery
Surface Treatment: Oil Blooming
Structure: Roller Chain
Material: Carbon Steel
Type: Short Pitch Chain

China Hot selling Cast Steel 500 Class Bucket Eelenator Conveyor Chains

cast chain

Can cast chains be used in power generation equipment such as turbines?

Yes, cast chains can be used in power generation equipment, including turbines, in certain applications. Power generation equipment requires components that can withstand high loads, extreme temperatures, and harsh operating conditions, and cast chains are designed to meet these requirements.

In power generation, cast chains are commonly used in turbine systems for various purposes:

  • Conveying Fuel: Cast chains can be utilized in biomass, coal, and other fuel handling systems to transport the fuel from storage to the combustion area.
  • Ash Handling: Power plants often produce ash as a byproduct of combustion, and cast chains can be employed in ash handling systems to transport and dispose of the ash.
  • Boiler Feed Systems: Cast chains can be used in the boiler feed systems to transport water and steam within the power generation process.
  • Generator Cooling: Cast chains may also play a role in cooling systems for generators and other power generation equipment.

It’s important to note that the selection of chains for power generation applications depends on various factors, including the specific requirements of the equipment, operating conditions, and safety regulations. In some cases, other types of chains, such as forged chains or roller chains, might be more suitable for certain power generation applications.

When using cast chains in power generation equipment, regular maintenance, lubrication, and inspection are essential to ensure optimal performance and to prevent potential failures that could lead to downtime and costly repairs.

cast chain

How do cast chains handle misalignment between sprockets?

Cast chains, like other types of roller chains, are designed to handle a certain degree of misalignment between sprockets. Misalignment can occur due to various factors, such as installation errors, wear, or thermal expansion. While some misalignment is inevitable, excessive misalignment can lead to premature wear and reduced chain life.

Cast chains have some inherent flexibility, which allows them to accommodate minor misalignments between sprockets. The design of the chain’s link plates and rollers allows for a certain amount of lateral movement, allowing the chain to follow the contour of the sprockets to some extent.

However, it’s essential to minimize misalignment as much as possible to ensure optimal performance and chain longevity. Proper alignment of sprockets is critical to avoid additional stress on the chain and reduce wear on the sprocket teeth and chain components.

Regular maintenance, including inspecting sprocket teeth for wear and ensuring proper tensioning of the chain, can help prevent excessive misalignment and extend the life of the cast chain. Additionally, using tensioners or guides can help improve chain alignment and reduce the risk of misalignment-related issues.

In applications where misalignment is a concern, it may be beneficial to consider using engineering chains with specialized attachments that provide better alignment capabilities. These engineering chains are designed for specific applications and can handle more severe misalignment compared to standard roller chains.

In summary, cast chains can handle some degree of misalignment between sprockets, but maintaining proper alignment is essential to ensure optimal performance and longevity of the chain and sprockets.

cast chain

How does a cast chain differ from other types of chains?

Cast chains differ from other types of chains primarily in their manufacturing process and design characteristics. The main differences are as follows:

  • Manufacturing Process: Cast chains are made by pouring molten metal into molds to create individual chain links. This casting process gives the chain its unique shape and design. In contrast, other chains, such as roller chains and engineering chains, are typically assembled from separate components like pins, rollers, and plates.
  • Strength and Durability: Cast chains are known for their exceptional strength and durability, making them suitable for heavy-duty applications. The casting process allows for a uniform distribution of material, resulting in robust and reliable chains. Other types of chains may have comparable strength, but the casting process gives cast chains a distinct advantage in specific high-load scenarios.
  • Design and Configuration: Cast chains come in various designs, such as cast link chains, drag chains, apron chains, etc., each optimized for specific industrial applications. The design of cast chains often includes unique features, such as overlapping plates, special attachments, or deep link plates, to address specific handling requirements. Other types of chains, while versatile, may not offer the same tailored solutions for certain applications.
  • Application Specificity: Cast chains are often preferred in industries where heavy loads, harsh environments, or abrasive materials are encountered. Industries like mining, lumber, cement, and steel commonly rely on cast chains due to their ability to withstand demanding conditions. On the other hand, other types of chains, like roller chains and engineering chains, find applications in a broader range of industries and power transmission systems.

In summary, cast chains stand out for their robustness, unique design features, and suitability for heavy-duty applications in specific industries. While other types of chains offer their own advantages and versatility, cast chains excel in scenarios where exceptional strength and durability are crucial.

China Hot selling Cast Steel 500 Class Bucket Eelenator Conveyor Chains  China Hot selling Cast Steel 500 Class Bucket Eelenator Conveyor Chains
editor by CX 2023-09-11