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.

ISO
NO.
ANSI
NO.
PITCH  ROLLER
LINK
WIDTH
ROLLER
DIA
PIN PLATE MIN. TENSILE
STRENGTH
AVG. TENSILE
STRENGTH
MAX. ALLOWABLE
LOAD
Pt
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
Samples:
US$ 10/Meter
1 Meter(Min.Order)

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Request Sample

Customization:
Available

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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 benefits of using a modular conveyor chain system?

A modular conveyor chain system offers several benefits in terms of flexibility, efficiency, and ease of maintenance. Here are some key advantages:

1. Versatility: Modular conveyor chains are designed with interlocking modules that can be easily connected and disconnected. This allows for flexibility in configuring the conveyor system according to specific layout requirements, production needs, or space limitations. Modules can be added, removed, or repositioned to accommodate changing production processes or product variations.

2. Customizability: The modular design of the conveyor chain system enables customization to meet specific application requirements. Different types of modules are available, including straight sections, curves, inclines, declines, merges, and diverters. Accessories such as side guides, cleats, or product hold-downs can be easily integrated into the system.

3. Quick Installation and Modification: Modular conveyor chains are designed for easy installation and modification. With their snap-in or snap-on connections, modules can be rapidly assembled or disassembled, reducing downtime during system setup or reconfiguration. This feature also facilitates maintenance, repairs, or future expansions.

4. Enhanced Efficiency: The modularity of the conveyor chain system allows for efficient material handling and optimized workflow. The smooth transfer between modules minimizes product jams or misalignments, ensuring a continuous and consistent flow of materials. The ability to incorporate curves or inclines in the system enables efficient use of floor space and facilitates the movement of products through different elevations.

5. Easy Maintenance: Modular conveyor chain systems are designed for ease of maintenance. Individual modules can be easily accessed and replaced without disassembling the entire system. This reduces maintenance time and costs. Additionally, the open structure of the modules allows for easy cleaning, debris removal, and inspection.

6. Durability and Reliability: Modular conveyor chains are typically made from high-quality materials such as plastic or stainless steel, ensuring durability and long-lasting performance. They are resistant to wear, corrosion, and chemical damage, making them suitable for various industrial environments. The interlocking design provides stability and prevents chain slippage during operation.

7. Safety Features: Modular conveyor chain systems can incorporate safety features such as emergency stop buttons, safety guarding, or sensors for detecting blockages or excessive loads. These features help maintain a safe working environment for operators and protect the integrity of the products being transported.

Overall, a modular conveyor chain system offers versatility, customizability, efficiency, and ease of maintenance. It is a reliable solution for material handling in industries such as manufacturing, packaging, distribution, and logistics.

conveyor

What is a conveyor chain and how does it work?

A conveyor chain is a type of mechanical chain specifically designed for use in conveyor systems. It is composed of a series of interconnected links that form a continuous chain loop. The links are typically made of metal and are joined together through pins or other connecting elements.

Conveyor chains work by transferring power and motion from the driving mechanism, such as a motor or sprocket, to the conveyor system to move materials or products along a predetermined path. The chain is placed on a track or guide rails, and as it moves, it carries the load placed on it.

The operation of a conveyor chain involves the following steps:

  1. Power transmission:

The driving mechanism transfers rotational power to the conveyor chain, typically through a motor and sprockets. The motor provides the necessary torque to drive the chain.

  1. Traction and motion:

As the driving mechanism rotates the sprockets, the teeth of the sprockets engage with the links of the conveyor chain. This interaction creates traction, causing the chain to move along the desired path.

  1. Load carrying:

The load to be transported is placed on the conveyor chain. The load can be in the form of products, materials, or other items. As the chain moves, it carries the load along the conveyor system, allowing for efficient transportation or handling.

  1. Support and guidance:

The conveyor chain is supported and guided by various components, such as guide rails, rollers, or wear strips. These components ensure the proper alignment and smooth movement of the chain along the conveyor system.

Conveyor chains are commonly used in industries such as manufacturing, logistics, packaging, and material handling. They offer a reliable and efficient method for moving products or materials in a controlled and automated manner.

China manufacturer Heavy Type Short Pitch Roller Chain Link Chain Conveyor Chain  China manufacturer Heavy Type Short Pitch Roller Chain Link Chain Conveyor Chain
editor by CX 2023-09-19