China factory Sugar Industry Welded Steel Conveyor Chain on Wh124, Wh111, Wh106, Wh110

Product Description

Product Description

1, Our Chain types: Agricultural roller chain, hollow pin conveyor chain, sugar industry chain, cane feeder and washing table chain, welded steel chain, bakery industry chain, weld steel drag chains,coil conveyor chain, palm oil chain etc;
2, Main materials: It is 40Mn. 40Cr, 45Mn alloy steel, SUS304, and POM Plastic for plates, 10#, 20#, 20CrMnMo, 30CrMnTi for pins and rollers;
3, Heat treatment: Carburizing, Austemper Stressing, nitro-caburizing harden etc;
4, Surface: Shot peening, black, blue or original;

Detailed Photos

For example of WH78, WH82, WH124, WH111, WH106, WH110, WH132, WH150, WH155

Product Parameters

Packaging & Shipping

plastic bag+carton+ OSB Case

Shipping way: these products will be shipped to your local port by sea, these also could be sent to your specific address by air.

Our Advantages

Our chains could be customized according to your actual order quantity, actual drawing and actual requirement. We have own chain process workshop, heat treatment workshop, process equipments and experienced designers.
(01)Assembled workshop

(02)Punching plate workshop

(03)Plate fabrication workshop

(04)Heat treatment workshop

(05)Shot peening workshop

(06) our warehouse

After Sales Service

Our products can be repaired or replaced the new parts with free cost in six months. 

 

Material: Alloy
Structure: Welded Chain
Surface Treatment: Polishing
Chain Size: 101.60mm
Feature: Heat Resistant
Pitch: 101.60mm
Customization:
Available

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Customized Request

conveyor

Can a conveyor chain be used in automotive assembly lines?

Yes, a conveyor chain can be effectively used in automotive assembly lines. Here are the reasons why:

1. Efficient Material Handling:

– Conveyor chains provide a reliable and efficient means of transporting automotive components and parts along the assembly line. They can handle heavy loads and withstand the demanding requirements of automotive manufacturing.

2. Versatility:

– Conveyor chains offer versatility in terms of design and configuration. They can be customized to accommodate various assembly processes, such as body welding, painting, assembly, and final inspection.

3. Precise Positioning:

– Conveyor chains allow precise positioning and synchronization of automotive components, ensuring accurate assembly and alignment during the production process. This helps maintain consistent quality and reduces errors.

4. Automation Integration:

– Conveyor chains can be easily integrated with automation systems in automotive assembly lines. They can work in conjunction with robotic arms, vision systems, and other automated equipment to optimize the production process and improve efficiency.

5. Assembly Line Flexibility:

– Conveyor chains provide flexibility in terms of line configuration and layout. They can be designed to accommodate different assembly line layouts, including straight sections, curves, inclines, and declines, to meet the specific requirements of automotive assembly processes.

6. Space Optimization:

– Conveyor chains help optimize space utilization in automotive assembly plants. They can be designed to navigate around existing equipment and infrastructure, making efficient use of available floor space.

7. Safety:

– Conveyor chains are designed with safety features to protect operators and prevent accidents. Emergency stop controls, guarding, and interlocking mechanisms ensure the safe operation of the assembly line.

8. Increased Production Speed:

– By using conveyor chains, automotive assembly lines can achieve higher production speeds, allowing for faster manufacturing cycles and increased output.

Overall, conveyor chains play a crucial role in enhancing the efficiency, productivity, and safety of automotive assembly lines, contributing to the smooth and streamlined production of vehicles.

conveyor

How do you calculate the power requirements for a conveyor chain?

Calculating the power requirements for a conveyor chain involves considering various factors. Here’s a step-by-step process:

1. Determine the total weight to be transported: Measure or estimate the total weight of the material or product that will be carried by the conveyor chain. This includes the weight of the product itself, any packaging, and additional loads.

2. Determine the speed of the conveyor: Determine the desired speed at which the conveyor chain will operate. This is typically measured in feet per minute (FPM) or meters per second (m/s).

3. Calculate the required capacity: Multiply the total weight by the desired speed to determine the required capacity of the conveyor system. This will give you the weight per unit of time (e.g., pounds per minute or kilograms per hour).

4. Consider the conveyor’s design factors: Take into account various design factors such as the type and pitch of the conveyor chain, the coefficient of friction between the chain and the conveyor components, and any incline or decline angles of the conveyor system. These factors affect the power requirements.

5. Determine the required power: Use the following formula to calculate the power requirements:

Power (in horsepower) = (Capacity × Friction Factor) ÷ (33,000 × Efficiency)

Where:

– Capacity is the weight per unit of time (from step 3)

– Friction Factor is the ratio of chain tension to chain weight, taking into account the design factors

– 33,000 is a conversion factor to convert the units to horsepower

– Efficiency is the overall efficiency of the conveyor system, typically expressed as a decimal value (e.g., 0.95 for 95% efficiency)

6. Select a suitable motor: Based on the calculated power requirements, select a motor that can provide the necessary power to drive the conveyor chain. Consider factors such as motor type, motor efficiency, and overload capacity.

It’s important to note that the power requirements may vary depending on specific conveyor system designs and operating conditions. Consulting with a qualified engineer or conveyor manufacturer is recommended to ensure accurate calculations and proper motor selection.

conveyor

How do you troubleshoot common issues with conveyor chains?

Troubleshooting common issues with conveyor chains involves identifying the problem and taking appropriate steps to resolve it. Here are some common issues and troubleshooting approaches:

  • Chain Slippage: If the chain is slipping or not engaging properly with the sprockets, check for proper tensioning, alignment, and lubrication. Adjust the tension if necessary and ensure the chain is properly aligned with the sprockets.
  • Chain Jamming: If the chain is frequently jamming or getting stuck, inspect the conveyor for any obstructions or foreign objects that may be causing the issue. Clear any debris or blockages and ensure the chain’s path is clear.
  • Excessive Noise: If the chain is making loud or unusual noises, check for proper lubrication. Insufficient lubrication can cause increased friction and noise. Apply the appropriate lubricant according to the manufacturer’s recommendations.
  • Chain Breakage: If the chain is breaking frequently, inspect for any damaged or worn-out components. Replace any broken or worn links, pins, or attachments. Also, check for proper tensioning and alignment, as excessive tension or misalignment can lead to chain breakage.
  • Chain Wear: If the chain shows signs of wear, such as elongation or corrosion, consider replacing it. Excessive wear can affect the performance and lifespan of the chain. Regularly inspect and measure the chain for wear and replace it when necessary.

It’s important to follow proper maintenance practices, including regular inspection, lubrication, and tensioning, to prevent and address common issues with conveyor chains. Consult the manufacturer’s guidelines and seek professional assistance if needed.

China factory Sugar Industry Welded Steel Conveyor Chain on Wh124, Wh111, Wh106, Wh110  China factory Sugar Industry Welded Steel Conveyor Chain on Wh124, Wh111, Wh106, Wh110
editor by CX 2023-11-29