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.

P W D d Lc L T H
mm mm mm mm mm mm mm mm kgf kgf kgf mm
08AH 40H 12.700 7.850 7.850 3.980 19.000 20.100 12.00 2.00 1,700 2,100 400 NIL
10AH 50H 15.875 9.400 9.400 5.090 21.800 23.700 15.00 2.40 2,670 3,300 670 NIL
12AH 60H 19.050 12.580 12.580 5.960 30.200 34.800 18.00 3.20 3,830 4,550 980 NIL
16AH 80H 25.400 15.750 15.750 7.940 37.400 42.800 24.10 4.00 8,000 9,400 1,700 NIL
20AH 100H 31.750 18.900 18.900 9.540 44.500 50.600 30.10 4.80 10,650 13,700 2,500 NIL
24AH 120H 38.100 25.230 25.230 11.110 55.000 61.600 36.20 5.60 15,320 19,000 3,350 NIL
28AH 140H 44.450 25.230 25.230 12.710 59.000 66.400 42.20 6.40 20,850 23,000 4,400 NIL
32AH 160H 50.800 31.550 31.550 14.290 69.400 77.300 48.20 7.10 27,240 31,000 5,750 NIL
36AH 180H 57.150 35.490 35.490 17.460 77.300 86.400 54.30 7.90 30,040 34,500 6,600 NIL
40AH 200H 63.500 37.850 37.850 19.850 87.100 97.300 60.30 9.50 42,550 59,000 7,750 NIL
48AH 240H 76.200 47.350 47.350 23.810 111.400 121.900 72.40 12.70 63,730 71,000 10,500 NIL
12AH-2 60H-2 19.050 12.580 12.580 5.960 56.300 60.900 18.00 3.20 7,660 9,300 1,650 26.11
16AH-2 80H-2 25.400 16.760 15.750 7.940 70.000 75.400 24.10 4.00 16,000 18,800 2,800 32.59
20AH-2 100H-2 31.750 18.900 18.900 9.540 83.600 89.700 30.10 4.80 21,300 27,400 4,250 39.09
24AH-2 120H-2 38.100 25.230 25.230 11.110 103.900 110.500 36.20 5.60 30,640 38,000 5,650 48.87
28AH-2 140H-2 44.450 25.230 25.230 12.710 111.200 118.600 42.20 6.40 41,700 45,000 7,400 52.20
32AH-2 160H-2 50.800 31.550 31.550 14.290 131.300 139.200 48.20 7.10 54,480 62,000 9,600 61.90
36AH-2 180H-2 57.150 35.490 35.490 14.760 146.500 155.600 54.30 7.90 60,080 69,000 11,000 69.16
40AH-2 200H-2 53.500 37.850 37.850 19.860 165.400 175.600 60.30 9.50 85,100 98,000 12,850 78.31
48AH-2 240H-2 76.200 47.350 47.350 23.810 212.600 223.100 72.40 12.70 127,460 142,000 17,700 101.22

Usage: Transmission Chain, Conveyor Chain, Heavy Type Short Pitch Roller Chain
Material: Alloy/Carbon Steel
Surface Treatment: Polishing
Feature: Heat Resistant
Chain Size: 1/2"*3"
Structure: Roller Chain
US$ 10/Meter
1 Meter(Min.Order)

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What are the considerations for selecting a corrosion-resistant conveyor chain?

When selecting a corrosion-resistant conveyor chain, several considerations should be taken into account to ensure optimal performance and longevity in corrosive environments. Here are the key factors to consider:

– Material Selection:

Choose a conveyor chain material that is resistant to the specific corrosive agents present in the environment. Stainless steel, plastic, and special coatings such as zinc or nickel plating are commonly used for their corrosion resistance properties.

– Corrosion Resistance Ratings:

Review the corrosion resistance ratings of different chain materials and coatings. Look for industry standards such as ASTM or ISO ratings that indicate the material’s resistance to specific corrosive substances or environmental conditions.

– Environmental Factors:

Consider the specific environmental factors that contribute to corrosion, such as humidity, temperature, presence of chemicals or solvents, and exposure to saltwater or acids. Evaluate how these factors may impact the chain’s corrosion resistance requirements.

– Coating or Surface Treatment:

If using a metal chain, consider applying additional coatings or surface treatments to enhance its corrosion resistance. Options may include electroplating, powder coating, or using specialized anti-corrosion coatings.

– Compatibility with Cleaning Methods:

Ensure that the selected chain material is compatible with the cleaning methods and chemicals used in the application. Some corrosive-resistant materials may require specific cleaning procedures to maintain their performance and longevity.

– Operational Considerations:

Take into account the load capacity, speed, and operational requirements of the conveyor system. Ensure that the corrosion-resistant chain can withstand the mechanical stresses and operational demands without compromising its corrosion resistance properties.

– Cost-Effectiveness:

Weigh the initial cost and long-term benefits of using a corrosion-resistant conveyor chain. While corrosion-resistant materials may have a higher upfront cost, they can significantly reduce maintenance, replacement, and downtime costs associated with corrosion-related failures.

By considering these factors, you can select a corrosion-resistant conveyor chain that is well-suited for the specific corrosive environment, ensuring reliable and durable performance in applications such as chemical processing, food production, wastewater treatment, or outdoor environments.


What are the safety measures for working with heavy-duty conveyor chains?

Working with heavy-duty conveyor chains requires strict adherence to safety measures to protect the workers and maintain a safe working environment. Here are some important safety measures to consider:

1. Proper Training: All personnel involved in working with conveyor chains should receive comprehensive training on the safe operation and maintenance of the equipment. This includes understanding the potential hazards, safety procedures, and proper use of personal protective equipment (PPE).

2. Equipment Inspection: Regular inspection of the conveyor chain and associated components is crucial to identify any signs of wear, damage, or malfunction. This includes checking for loose fasteners, worn sprockets, misalignment, and any other potential hazards. Any issues should be addressed promptly to prevent accidents.

3. Lockout/Tagout: Before performing any maintenance or repair tasks on the conveyor chain, proper lockout/tagout procedures must be followed. This ensures that the equipment is de-energized and isolated from any power source to prevent accidental startup or movement.

4. Personal Protective Equipment (PPE): Workers should wear appropriate PPE, including safety glasses, gloves, steel-toed boots, and hearing protection. The specific PPE requirements may vary depending on the nature of the work and the potential hazards involved.

5. Safe Work Practices: Workers should follow safe work practices, such as avoiding loose clothing or jewelry that can get caught in the chain, keeping hands and clothing clear of moving parts, and using proper lifting techniques when handling heavy loads.

6. Emergency Stop Systems: Conveyor systems should be equipped with emergency stop buttons or pull cords that allow workers to quickly stop the chain in case of an emergency or hazardous situation.

7. Regular Maintenance: Scheduled maintenance and lubrication of the conveyor chain should be performed according to the manufacturer’s recommendations. This helps to ensure optimal performance and minimize the risk of unexpected failures.

8. Clear Warning Signs and Labels: Proper signage, warning labels, and safety instructions should be clearly displayed near the conveyor chain system to remind workers of potential hazards and safe operating procedures.

9. Regular Safety Training and Communication: Ongoing safety training and communication among the workforce are vital to reinforce safe practices and raise awareness of any changes or updates to safety protocols.

By implementing these safety measures and fostering a safety-conscious culture, the risks associated with working with heavy-duty conveyor chains can be minimized, ensuring the well-being of the workers and the efficient operation of the equipment.


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:

  1. 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.
  2. Loosen the Tensioning Devices: If there are tensioning devices in place, such as adjustable bolts or tensioning screws, loosen them to allow for adjustment.
  3. 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.
  4. 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.
  5. 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.
  6. Secure the Tensioning Devices: Once the proper tension is achieved, securely tighten the tensioning devices to hold the chain in place.
  7. 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.

China wholesaler Heavy Type Short Pitch Roller Chain Link Chain Conveyor Chain  China wholesaler Heavy Type Short Pitch Roller Chain Link Chain Conveyor Chain
editor by CX 2023-07-19