Product Description
Product Description
1) Feature of Taper Bushing:
*Easy on-easy off;
*Machined to high precise tolerance;
*A full range of both metric and inch sizes taper bushes are available;
2) Taper Bushings Specification:
Bushing No. | Bore |
1008 | 10.11.12.14.15.16.18.19.20.22.24.25 |
1108 | 10.11.12.14.15.16.18.19.20.22.24.25.28 |
1210 1215 | 11.12.14.15.16.18.19.20.22.24.25.28.30.32 |
1310 | 14.15.16.18.19.20.22.24.25.28.30.32.35 |
1610 1615 | 14.15.16.18.19.20.22.24.25.28.30.32.35.38.40.42 |
2012 2017 | 18.19.20.22.24.25.28.30.32.35.38.40.42.45.48.50 |
2517 2525 | 20.22.24.25.28.30.32.35.38.40.42.45.48.50.55.60 |
3571 3030 | 25.28.30.32.35.38.40.42.45.48.50.55.60.65.70.75 |
3525 3535 | 35.38.40.42.45.48.50.55.60.65.70.75.80.85.90 |
4030 4040 | 40.42.45.50.60.65.70.75.80.85.90.95.100 |
4535 4545 | 55.60.65.70.75.80.85.90.95.100.105.110 |
5040 5050 | 60.65.70.75.80.85.90.95.100.105.110.115.120.125 |
Detailed Photos
Cast iron taper bushing, phosphated
Carbon steel taper bushing
Each set individually packed
Large stock in warehouse
Catalogue
Packaging & Shipping
Export wooden box
FAQ
Q1: Are you trading company or manufacturer ?
A: We are factory.
Q2: How long is your delivery time and shipment?
1.Sample Lead-times: 10-20 days
2.Production Lead-times: 30-45 days after order confirmed.
Q3: What is your advantages?
1. The most competitive price and good quality.
2. Perfect technical engineers give you the best support.
3. OEM is available.
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Standard Or Nonstandard: | Standard |
---|---|
Shaft Hole: | 19-32 |
Bore Diameter: | 19mm |
Structure: | Phosphated |
Material: | Cast Iron |
Type: | Bushing |
Customization: |
Available
| Customized Request |
---|
What are the temperature and environmental considerations when using taper lock bushings?
When using taper lock bushings, it is important to consider the temperature and environmental conditions in which the bushings will operate. These factors can have a significant impact on the performance, durability, and overall effectiveness of the bushings. Here are some key considerations:
- Temperature Range: Taper lock bushings are typically designed to operate within specific temperature ranges. Exceeding these temperature limits can result in reduced performance, increased wear, or even failure of the bushings. It is crucial to consult the manufacturer’s specifications and guidelines to ensure that the bushings are suitable for the anticipated temperature range in your application. Extreme temperatures, whether hot or cold, can affect the material properties, dimensional stability, and lubrication characteristics of the bushings.
- Corrosive Environments: In environments where corrosive substances are present, such as chemicals, moisture, or saltwater, special considerations must be taken. Corrosion can deteriorate the surface finish and structural integrity of the taper lock bushings, leading to premature failure. It is important to select bushings that are made from materials resistant to corrosion, such as stainless steel or corrosion-resistant coatings. Regular inspection, cleaning, and proper maintenance can also help mitigate the effects of corrosive environments.
- Dust, Dirt, and Contaminants: Taper lock bushings operating in dusty or dirty environments can be prone to accelerated wear and decreased performance. Dust, dirt, and other contaminants can infiltrate the bushing interface, impairing the locking mechanism or causing excessive friction. Regular cleaning, protective covers or guards, and appropriate sealing measures can help minimize the effects of contaminants on the bushings.
- Moisture and Humidity: Moisture and high humidity levels can promote corrosion, rust, or the formation of oxidation on the surface of taper lock bushings. This can lead to increased friction, reduced locking efficiency, and potential damage to the bushings. Using moisture-resistant materials, applying protective coatings, and ensuring proper lubrication can help mitigate the negative effects of moisture and humidity.
- Shock and Vibration: Taper lock bushings may be subjected to shock and vibration in certain applications. Excessive shock and vibration can lead to loosening of the bushings, misalignment, or even complete disengagement from the shaft. It is important to consider the magnitude and frequency of shock and vibration in the operating environment and select bushings that are designed to withstand such conditions. Additional measures such as using locking compounds, thread-locking adhesives, or anti-vibration mounts can enhance the stability and reliability of the bushings.
Understanding and addressing these temperature and environmental considerations can help ensure optimal performance and longevity of taper lock bushings in your specific application. It is recommended to consult the manufacturer’s guidelines, industry standards, and experts in the field to determine the most suitable bushings and maintenance practices for your operating conditions.
Where can I find tutorials on removing and replacing taper lock bushings in machinery?
If you are looking for tutorials on removing and replacing taper lock bushings in machinery, there are several resources available that can provide step-by-step guidance and instructions. These tutorials can help you understand the process and ensure correct and safe removal and installation of the bushings. Here are some places where you can find such tutorials:
- Manufacturer’s Documentation: The first place to check for tutorials is the documentation provided by the manufacturer of the machinery or the taper lock bushings. Manufacturers often include detailed instructions and diagrams on how to remove and replace the bushings in their product manuals, technical guides, or installation guides. These documents are specifically tailored to their products and can provide specific information on the recommended procedures.
- Online Video Platforms: Video platforms such as YouTube or Vimeo are a valuable resource for finding tutorials on various topics, including the removal and replacement of taper lock bushings. Many individuals, organizations, and manufacturers create and share instructional videos demonstrating the process. These videos allow you to visually follow the steps and gain a better understanding of the procedure. You can search for specific keywords like “taper lock bushing removal” or “taper lock bushing installation” to find relevant videos.
- Industrial Equipment and Machinery Forums: Online forums dedicated to industrial equipment, machinery, and maintenance often have discussions and threads where users share their experiences and provide guidance on removing and replacing taper lock bushings. These forums can be a valuable resource for finding tutorials, asking specific questions, and getting advice from industry professionals and experienced users.
- Supplier and Distributor Websites: Suppliers and distributors of taper lock bushings often provide resources on their websites, including tutorials, guides, or FAQs related to bushing installation and removal. These resources may be specific to the brands or models they offer, providing detailed instructions on how to work with their products.
- Professional Training and Education: If you require more comprehensive training or guidance, you may consider professional training programs or courses in mechanical engineering, maintenance, or industrial equipment operation. These programs can provide hands-on training and practical knowledge on various aspects of machinery maintenance, including the removal and replacement of taper lock bushings.
When using tutorials for removing and replacing taper lock bushings, it is important to ensure that the information aligns with the specific equipment and bushings you are working with. Always prioritize safety and follow any safety guidelines provided by the manufacturer or relevant authorities.
By utilizing these resources and gathering information from reputable sources, you can find tutorials that will guide you through the process of removing and replacing taper lock bushings, helping you maintain and service your machinery effectively.
What is a taper lock bushing, and how does it function in mechanical applications?
A taper lock bushing is a mechanical component used to mount rotating shafts securely onto driven components, such as pulleys, sprockets, or gears. It provides a reliable and efficient method of power transmission by creating a tight and secure connection between the shaft and the driven component. The taper lock bushing operates based on the principle of frictional locking. Here’s how it functions in mechanical applications:
A taper lock bushing consists of a cylindrical body with a tapered bore and a flange or collar at one end. The tapered bore allows for easy installation onto the shaft. The opposite end of the bushing typically features threaded holes or slots for tightening screws or bolts. The inner surface of the bushing is precision machined with a matching taper angle to ensure a tight fit and maximize the frictional grip between the bushing and the shaft.
The installation process involves sliding the taper lock bushing onto the shaft and positioning it at the desired location. As tightening screws or bolts are tightened, they exert an axial force on the bushing, causing it to compress and expand radially. This radial expansion creates a tight fit between the bushing and the shaft, creating a secure connection. The frictional forces generated between the mating surfaces of the bushing and the shaft transmit torque from the shaft to the driven component.
The taper lock bushing’s design allows for easy installation and removal without the need for extensive machining or keyway slots on the shaft. It offers advantages such as high torque transmission capacity, concentricity, and resistance to axial and radial loads. Additionally, the bushing’s compression fit creates a self-centering effect, ensuring accurate alignment between the shaft and the driven component.
Taper lock bushings are commonly used in various mechanical applications, including power transmission systems, conveyor systems, industrial machinery, and automotive components. They provide a reliable and versatile solution for connecting rotating shafts to driven components, allowing for efficient torque transmission and facilitating easy maintenance or replacement of components.
Manufacturers and suppliers of power transmission components provide detailed specifications, installation instructions, and technical resources on taper lock bushings. Engineering catalogs, manufacturer websites, and industry publications are valuable sources of information for understanding the design, selection, and application considerations of taper lock bushings in mechanical systems.
By utilizing taper lock bushings, engineers and designers can achieve secure and efficient power transmission, ensuring reliable operation and performance in a wide range of mechanical applications.
editor by CX 2024-01-03