#80 Chain Idler Sprocket
The #80 Chain Idler Sprocket is an essential component in roller chain systems, designed to guide and tension the chain for optimal performance. It prevents slack and ensures smooth operation, enhancing the efficiency and longevity of machinery. This sprocket is crucial for maintaining the proper alignment and functionality of the chain drive system.
Specifications of #80 Chain Idler Sprocket
Ball Bearing Idler Sprocket
| Z | Pitch | de | dp | A | D1 | F | B | H | Chain Size |
| 12 | 1"×17.02 | 109 | 98.14 | 16.2 | 20 | 47 | 14 | 17.7 | #80 |
Needle Bearing Idler Sprocket
| Sprocket Size | Number Of Teeth | Bearing Type | Chain Size | Outside Diameter | Bore Size | Length Thru Bore | Dimension (T) | Hub Diameter | Weight |
| 80NB13H | 13 | Needle Bearing | #80 | 4.66" | 1.00" | 1.25" | 0.575" | 2.63" | 2.90 LBS |
Application Scenarios of #80 Chain Idler Sprocket
The #80 Chain Idler Sprocket is widely used in various industrial applications, providing crucial support and efficiency. Here are some specific devices where it can be applied:
- Conveyor Systems: It helps in maintaining tension and alignment of chains, ensuring smooth operation.
- Material Handling Equipment: The sprocket is essential for driving mechanisms in forklifts and pallet jacks.
- Agricultural Machinery: Used in tractors and harvesters for reliable power transmission.
Comparison of Different Idler Sprocket Types
When considering the #80 Chain Idler Sprocket, it's essential to understand the differences in bearing types. Ball bearings offer smooth operation and high-speed capabilities, making them ideal for applications requiring precision. Needle bearings, on the other hand, provide a compact design with high load capacity, suitable for tight spaces. Bronze bushings are durable and resistant to wear, making them preferable in heavy-duty applications with lower speeds. Each bearing type presents unique advantages, allowing users to choose based on specific operational requirements and environmental conditions, ensuring optimal performance of the