Product Description
CZPT 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.
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| 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 |
|---|
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.
Can a conveyor chain be used for heavy-duty applications?
Yes, a conveyor chain can be used for heavy-duty applications. Conveyor chains are specifically designed to handle heavy loads and provide reliable transportation in industrial environments.
Here are some factors that make conveyor chains suitable for heavy-duty applications:
1. Robust construction: Conveyor chains are typically made from high-strength materials such as alloy steel, stainless steel, or hardened carbon steel. These materials offer excellent durability and can withstand the heavy loads and harsh operating conditions commonly found in heavy-duty applications.
2. High load-carrying capacity: Conveyor chains are designed to handle significant loads, including heavy products, bulk materials, or large components. The chains are engineered with appropriate pitch, link dimensions, and strength to ensure reliable transport of heavy items.
3. Fatigue resistance: Conveyor chains are built to withstand repetitive stress and fatigue caused by continuous operation under heavy loads. They undergo specific heat treatments and surface hardening processes to enhance their resistance to wear, fatigue, and deformation.
4. Customization options: Conveyor chains can be customized to meet the specific requirements of heavy-duty applications. This includes selecting the appropriate chain type, pitch, attachment design, and surface coating for improved performance and longevity.
5. Compatibility with heavy-duty equipment: Conveyor chains are designed to integrate seamlessly with heavy-duty conveyor systems, including large motors, drives, and supporting structures. This ensures proper power transmission and smooth operation even in demanding environments.
6. Safety features: Conveyor chains for heavy-duty applications often incorporate safety features such as overload protection, emergency stops, and monitoring systems to ensure the safety of operators and prevent damage to the equipment.
It’s important to consult with a qualified engineer or conveyor manufacturer to select the appropriate conveyor chain and system components for the specific heavy-duty application. They can provide guidance on chain selection, system design, and maintenance practices to ensure optimal performance and reliability.
How do you properly tension a conveyor chain?
Properly tensioning a conveyor chain is crucial for its smooth operation and to prevent issues like chain slipping or excessive wear. Here are the steps to properly tension a conveyor chain:
- Identify the Tensioning Points: Determine the locations where the conveyor chain can be tensioned. These are typically at the ends of the chain or at specific tensioning devices.
- Loosen the Tensioning Devices: If there are tensioning devices in place, such as adjustable bolts or tensioning screws, loosen them to allow for adjustment.
- Apply Tension: Apply tension to the conveyor chain by either manually pulling the chain or using a tensioning tool. The amount of tension required depends on the chain type and the manufacturer’s recommendations.
- Check the Tension: Use a tension gauge or other suitable method to measure the tension of the conveyor chain. The tension should fall within the specified range provided by the chain manufacturer.
- Adjust the Tension: If the tension is too loose or too tight, make adjustments accordingly. Tighten or loosen the tensioning devices until the desired tension is achieved.
- Secure the Tensioning Devices: Once the proper tension is achieved, securely tighten the tensioning devices to hold the chain in place.
- Verify the Tension: After tensioning the chain, perform a visual inspection and run the conveyor to ensure the chain runs smoothly without excessive slack or tightness. Make any further adjustments if necessary.
It’s important to refer to the specific guidelines provided by the conveyor chain manufacturer for proper tensioning instructions, as the exact method may vary depending on the chain type and design. Regularly check the tension of the conveyor chain and make adjustments as needed to maintain optimal performance.
editor by CX 2023-09-05