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.
| 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 |
|---|
What are the noise and vibration characteristics of roller chains?
Roller chains exhibit specific noise and vibration characteristics during operation. Here’s a detailed answer to the question:
1. Noise Generation: Roller chains can produce noise during operation, especially when operating under certain conditions. The primary sources of noise in roller chains include the interaction between the chain and the sprockets, as well as the impact between the chain pins and the chain guide. The noise level can vary depending on factors such as chain speed, tension, lubrication, alignment, and wear.
2. Vibration: Roller chains can also generate vibrations during operation. These vibrations can be caused by various factors, including the chain’s interaction with the sprockets, chain tension, misalignment, and uneven wear. Excessive vibration can affect the performance and lifespan of the chain and other components in the system. It is important to minimize vibration to ensure smooth and reliable operation.
3. Noise and Vibration Reduction Measures: To mitigate noise and vibration in roller chain systems, several measures can be taken:
- Proper Lubrication: Adequate lubrication reduces friction between the chain and the sprockets, minimizing noise and vibration caused by metal-to-metal contact.
- Alignment and Tension: Ensuring proper alignment and tension of the chain helps to reduce noise and vibration. Misalignment or incorrect tension can lead to increased noise and vibration levels.
- Sprocket Design: The design and condition of the sprockets can affect noise and vibration. Sprockets with worn or damaged teeth can cause increased noise and vibration levels.
- Noise Dampening Elements: Adding noise dampening elements, such as rubber pads or guides, can help reduce the noise generated by the chain’s impact with the chain guides or other components.
- System Design: The overall system design, including the selection of compatible components and proper installation, can contribute to minimizing noise and vibration levels.
It’s important to regularly inspect and maintain the roller chain system to identify and address any sources of noise or excessive vibration. Proper lubrication, alignment, tensioning, and regular replacement of worn components are essential to ensure optimal performance, reduce noise, and minimize vibration in roller chain applications.
How do roller chains handle backstop or anti-reverse motion?
Roller chains are capable of handling backstop or anti-reverse motion through the use of specific chain attachments or additional components. Here’s a detailed answer to the question:
Backstop or anti-reverse motion is the ability of a system to prevent or control the reverse movement of a load. In applications where roller chains are required to handle backstop or anti-reverse motion, the following methods can be employed:
1. One-Way Clutch: A one-way clutch mechanism can be integrated into the system to allow the roller chain to transmit power in one direction while preventing reverse movement. This mechanism typically consists of a set of sprags or rollers that engage with the sprocket teeth in one direction and disengage in the reverse direction.
2. Ratchet and Pawl System: Another approach is the use of a ratchet and pawl system, where the roller chain is connected to a ratchet wheel with pawls that engage with the teeth of the wheel in one direction, allowing power transmission, and prevent reverse movement when the load tries to rotate in the opposite direction.
3. Overrunning Clutch: An overrunning clutch, also known as a freewheel, can be employed to allow the roller chain to transmit power in one direction and disengage in the reverse direction. This allows for smooth operation in applications where backstop or anti-reverse motion is required.
These mechanisms effectively enable the roller chain to handle backstop or anti-reverse motion by allowing power transmission in one direction and preventing reverse movement. The specific mechanism used depends on the application requirements and the desired level of control over the motion.
It’s important to consult the manufacturer’s guidelines and specifications when implementing backstop or anti-reverse motion in roller chain applications to ensure proper selection and installation of the appropriate mechanisms.
What materials are roller chains typically made of?
Roller chains are typically made from various materials, each offering unique properties and advantages. Here’s a detailed answer to the question:
1. Carbon Steel: Carbon steel is the most common material used for roller chains. It provides good strength, durability, and wear resistance. Carbon steel chains are suitable for a wide range of applications and offer a cost-effective solution.
2. Stainless Steel: Stainless steel roller chains are chosen for their excellent corrosion resistance. They are ideal for applications where exposure to moisture, chemicals, or high humidity is expected. Stainless steel chains are commonly used in food processing, pharmaceutical, and outdoor applications.
3. Alloy Steel: Alloy steel roller chains are designed to withstand high loads and offer superior strength and durability. They are commonly used in heavy-duty applications, such as construction equipment, agricultural machinery, and mining equipment.
4. Nickel-Plated Steel: Nickel-plated roller chains provide an added layer of corrosion resistance. The nickel plating helps protect the chain against rust and provides a smooth surface, reducing friction and wear. These chains are often used in applications where both corrosion resistance and aesthetic appearance are important.
5. Plastic: In certain applications, plastic roller chains are used for their lightweight, non-corrosive, and low-noise properties. Plastic chains are commonly found in industries such as packaging, electronics, and conveyors.
6. Coatings: Some roller chains may also have specialized coatings to enhance their performance. Examples include zinc plating for improved corrosion resistance, lubricant coatings for reduced friction, or specialized coatings for specific applications.
The choice of material for a roller chain depends on factors such as the application requirements, operating conditions, load capacity, corrosion resistance, and budget. It’s important to consider these factors and consult with roller chain manufacturers to select the most suitable material for your specific application.
editor by CX 2023-08-14