Product Description

CHINAMFG rollers enhance rotation on the bushing while reducing impact loads on the sprocket tooth during operation.

All components are heat treated to achieve maximum strength. All components are heat treated to achieve maximum strength.

Pre-loaded during the manufacturing process to minimize initial elongation.

Hot dipped lubrication ensures 100% lubrication of all chain components to extend wear life and reduce maintenance costs.

 

CHC
NO.
PITCH BUSH
WIDTH
ROLLER
DIA
PIN PLATE MIN.
STRENGTH
 AVG.
STRENGTH
MAX.
STRENGTH
TRANS
PITCH
d L LC H T
mm mm mm mm mm mm mm mm kgf kgf kgf mm
C35-1 9.525 4.68 5.08 3.60 12.15 13.40 8.80 1.25 800 1,100 220 NIL
C40-1 12.700 7.85 7.92 3.98 17.80 21.00 12.00 1.50 1,420 1,950 370 NIL
C50-1 15.875 9.40 10.16 5.09 21.80 25.00 15.00 2.00 2,200 3,100 650 NIL
C60-1 19.050 12.58 11.91 5.96 26.90 31.00 18.00 2.35 3,190 4,200 920 NIL
C80-1 25.400 15.75 15.87 7.94 33.50 38.00 24.10 3.20 5,680 7,500 1,500 NIL
C100-1 31.750 18.90 19.05 9.54 41.10 47.00 30.10 4.00 8,870 12,100 2,300 NIL
C120-1 38.100 25.23 22.22 11.11 50.80 57.00 36.20 4.70 12,770 16,000 3,100 NIL
C140-1 44.450 25.23 25.40 12.71 54.90 62.00 42.20 5.50 17,380 21,000 4,100 NIL
C160-1 50.800 31.55 25.87 14.29 65.50 73.00 48.20 6.40 22,700 30,000 5,400 NIL
C40-2 12.700 7.85 7.92 3.98 32.30 36.20 12.00 1.50 2,840 3,900 630 14.38
C50-2 15.875 9.40 10.16 5.09 39.90 44.00 15.00 2.00 4,440 6,200 1,100 18.11
C60-2 19.050 12.58 11.92 5.96 49.80 54.40 18.00 2.35 6,380 8,400 1,530 22.78
C80-2 25.400 15.75 15.87 7.94 62.70 68.10 24.10 3.20 11,360 15,000 2,550 29.29
C100-2 31.750 18.90 19.05 9.54 77.00 83.10 30.10 4.00 17,740 24,200 3,900 35.76
C120-2 38.100 25.23 22.22 11.11 96.30 102.90 36.20 4.70 25,540 32,000 5,250 45.44
C140-2 44.450 25.23 25.40 12.71 103.60 111.00 42.20 5.50 347,600 42,000 6,970 48.87
C160-2 50.800 31.55 28.57 14.29 124.20 132.10 48.20 6.40 57,460 60,000 9,150 58.55

Usage: Transmission Chain, Conveyor Chain, Roller Chain
Material: Alloy/Carbon Steel
Surface Treatment: Polishing
Feature: Heat Resistant
Chain Size: 3/8"*2"
Structure: Roller Chain
Customization:
Available

|

Customized Request

conveyor

How do you calculate the chain pull force in a conveyor chain system?

The chain pull force, also known as the chain tension, is an important parameter to determine in a conveyor chain system. It represents the force required to move the conveyed load along the conveyor. The calculation of chain pull force involves several factors:

1. Weight of the Load: Determine the weight of the load being conveyed. This includes the weight of the product, packaging materials, and any additional equipment or components carried by the conveyor.

2. Friction Coefficients: Identify the friction coefficients between the load and the conveyor components. This includes the friction between the product and the conveyor chain, as well as the friction between the product and the conveyor bed or guides. These coefficients are typically provided by the manufacturer or can be obtained through testing.

3. Incline or Decline Angle: Consider the angle at which the conveyor operates. If the conveyor has an incline or decline, the angle will affect the force required to move the load.

4. Acceleration and Deceleration: Account for any acceleration or deceleration requirements in the conveyor system. If the conveyor needs to start or stop abruptly or if there are changes in speed, these factors will impact the chain pull force.

Once these factors are determined, the chain pull force can be calculated using the following formula:

Chain Pull Force = (Weight of Load + Friction Force) × (1 + Incline or Decline Factor) × (1 + Acceleration or Deceleration Factor)

It’s important to note that the accuracy of the calculation depends on the accuracy of the input values. Therefore, it’s recommended to consult the conveyor manufacturer or an engineering professional to ensure precise calculations and proper sizing of the conveyor chain.

conveyor

What are the best practices for storing and handling conveyor chains?

Proper storage and handling of conveyor chains are essential to maintain their performance, prevent damage, and prolong their lifespan. Here are some best practices to consider:

1. Clean and dry storage area: Store conveyor chains in a clean and dry environment to prevent the accumulation of dirt, dust, moisture, or contaminants that can affect their performance and cause corrosion.

2. Adequate support: Ensure that the stored conveyor chains are properly supported to prevent excessive bending or deformation. Use pallets, racks, or designated storage containers that can accommodate the weight and length of the chains.

3. Avoid excessive heat or cold: Conveyor chains should be stored in an area with a moderate temperature range to avoid extreme heat or cold that can affect the material properties or lubrication of the chains.

4. Protection against impacts and vibrations: Protect the stored chains from impacts or excessive vibrations that can cause damage or deformation. Use suitable packaging or covers to shield the chains from any potential physical damage.

5. Lubrication: Apply a thin layer of appropriate lubricant to the chains before storage to prevent corrosion and maintain their smooth operation. Follow the manufacturer’s recommendations for lubrication type and quantity.

6. Regular inspections: Periodically inspect the stored conveyor chains to ensure there are no signs of damage, corrosion, or deformation. If any issues are identified, take appropriate actions such as cleaning, lubricating, or replacing the chains.

7. Proper handling techniques: When handling conveyor chains, use appropriate lifting equipment or tools to avoid excessive strain or bending. Avoid dragging or dropping the chains, as this can cause damage to the chain links or attachments.

8. Training and awareness: Provide training to personnel involved in handling and storing conveyor chains to ensure they understand the proper procedures and best practices. Promote awareness of the importance of careful handling and storage to prevent accidents and maintain chain integrity.

By following these best practices, you can ensure the longevity and reliable performance of your conveyor chains, reducing the risk of downtime and costly repairs.

conveyor

What are the advantages of using a conveyor chain in material handling?

Conveyor chains offer numerous advantages in material handling applications, making them a preferred choice in various industries. Here are some of the key advantages:

  • Efficient Transportation: Conveyor chains provide a continuous and reliable means of transporting materials, ensuring a smooth flow throughout the production or distribution process. They can handle both light and heavy loads, enabling efficient movement of items of different sizes and weights.
  • Increased Productivity: By automating the material handling process, conveyor chains help increase productivity and operational efficiency. They eliminate the need for manual handling and reduce human effort, allowing employees to focus on other tasks, resulting in higher throughput and reduced labor costs.
  • Flexibility and Customization: Conveyor chains can be designed and configured to meet specific material handling requirements. They are available in various lengths, widths, and configurations, allowing for customization based on the layout and space constraints of the facility. Additionally, different types of conveyor chains can be selected to handle specific materials or accommodate special handling needs.
  • Improved Safety: Conveyor chains enhance workplace safety by reducing the risk of manual lifting and carrying heavy loads. They provide a controlled and controlled movement of materials, minimizing the chances of accidents and injuries. Additionally, safety features such as emergency stop buttons, guardrails, and sensors can be incorporated into the conveyor system to further enhance safety.
  • Space Optimization: Conveyor chains utilize vertical and horizontal space efficiently, making them ideal for facilities with limited floor space. They can be designed to navigate corners, inclines, and declines, allowing for optimized layout and maximizing the use of available space.
  • Versatility: Conveyor chains are versatile and can handle a wide range of materials, including bulk items, packaged goods, fragile items, and irregularly shaped objects. They can accommodate different types of conveyance methods such as flat, inclined, or spiral conveyors, providing flexibility in material handling processes.
  • Improved Inventory Control: Conveyor chains enable better inventory control by facilitating the smooth movement and tracking of materials. They can be integrated with barcode scanners, RFID technology, or other tracking systems to monitor the flow of goods and provide real-time information on inventory levels.
  • Reduced Material Damage: Conveyor chains help minimize material damage during handling and transportation. They provide a stable and controlled movement, reducing the risk of items falling or getting damaged due to manual handling or rough transportation methods.

The advantages of using a conveyor chain in material handling include improved efficiency, productivity, safety, space utilization, and inventory control, leading to cost savings and enhanced overall operational performance.

China best A Series of Straight Roller Chain Warehouse Lift Roller Chain Conveyor Chain  China best A Series of Straight Roller Chain Warehouse Lift Roller Chain Conveyor Chain
editor by CX 2023-11-03