Product Description
Stainless Steel SL-20/25/30 Easylock High Clamping Forces on a Plain Shaft Lock Head Quick Action Clamping.
1 Production description
Fast Lock Head When the object is locked axially, the inner conical sleeve end of the device is set on the shaft, and the jacket is directly pushed inward to make the whole device move along the shaft until the object is compressed. During the whole moving process, pulling the jacket in the direction of the shaft in reverse cannot cause the device to move in reverse.
Easy Lock Features
easylock – safe, fast, reliable,quick
- shortest possible change-over times
- also suitable for static applications
- modular construction ensures simple adaptation to the task at hand
- no tools required
- single-handed operation
- high clamping forces on a plain shaft
- also suitable for use with driven shafts
- simple transmission of braking moments to the roll or spool: safe emergency stops
- compact, symmetrical design
- maintenance-free
- resistant against vibration
| ITEM | MODEL | MATERIAL | DIMESION | WEIGHT | CAPACITY |
| Top Cone | SL-20 | stainless steel | 67*72*72mm | 461g | 20mm |
| Top Cone | SL-25 | stainless steel | 71*80*80mm | 552g | 25mm |
| Top Cone | SL-30 | stainless steel | 81*90*90mm | 760g | 30mm |
Price
| MODEL | SL-20 | SL-25 | SL-30 |
| PRICE | 45$ | 49$ | 59$ |
2 Specification
Meaning of commodity model letters:
1. F=fast/quick
2. L=lock
3. H=hole
4. T=tip
5. M= metal
6. S= with spring
7. B= needle roller bearing
8. R= Rotary
For example: FLB-20-SMT
The front end has a needle bearing shaft diameter of 20,
The back end is a metal tip cone with a spring.
Questions you need to know
1,How thick is the optical axis used
2,Flat head or cone head
FAQ
Q: Are you trading company or manufacturer ?
A: We are factory.
Q: How long is your delivery time?
A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.
Q: What is your terms of payment ?
A: Payment=1000USD, 30% T/T in advance ,balance before shippment.
We have all sizes in stock.
If you need bulk purchase or agent, please contact our customer service.
Stainless Steel SL-20/25/30 Easylock High Clamping Forces on a Plain Shaft Lock Head Quick Action Clamping.
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| Customized: | Customized |
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| Color: | Black Quick Action Clamping. |
| Type: | Lock Head Quick Action Clamping. |
| Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can I purchase shaft clamps with specific features for use in high-speed applications?
Yes, you can purchase shaft clamps with specific features designed for use in high-speed applications. Here’s a detailed explanation:
When selecting shaft clamps for high-speed applications, it’s important to consider their design, materials, and features to ensure optimal performance and safety. Here are some key features to look for when purchasing shaft clamps for high-speed applications:
1. High-Speed Rating:
Ensure that the shaft clamps are explicitly designed and rated for high-speed applications. Look for clamps that are specifically labeled or advertised as suitable for high rotational speeds. These clamps are engineered to withstand the centrifugal forces and vibrations associated with high-speed rotation.
2. Balancing and Vibration Damping:
Shaft clamps with features that address balancing and vibration damping are crucial for high-speed applications. Look for clamps that incorporate balancing mechanisms or built-in vibration damping elements. These features help minimize vibrations and maintain stability during high-speed operation, which is essential for smooth performance and to prevent damage to the shaft and connected components.
3. Precision and Accuracy:
In high-speed applications, precision and accuracy are vital. Look for shaft clamps that offer precise and consistent clamping force to ensure secure and uniform grip on the shaft. This helps maintain concentricity and eliminates slippage or misalignment that could lead to performance issues or damage at high speeds.
4. Heat Dissipation:
High-speed applications generate heat due to increased friction and rotational forces. It’s important to choose shaft clamps that can effectively dissipate heat to prevent excessive temperature rise. Look for clamps made from materials with good heat conductivity or designs that incorporate cooling features such as fins or heat sinks.
5. Material Selection:
The materials used in the construction of shaft clamps play a crucial role in their performance at high speeds. Look for clamps made from high-quality materials with excellent strength, fatigue resistance, and dimensional stability. Materials such as stainless steel, alloy steel, or other heat-treated alloys are commonly used for high-speed applications due to their desirable mechanical properties.
6. Compatibility and Size Range:
Ensure that the shaft clamps you purchase are compatible with the size and specifications of your shaft. Consider clamps that offer a range of sizes to accommodate various shaft diameters. It’s important to select a clamp that provides proper fitment and sufficient clamping force without damaging the shaft or causing excessive stress.
When purchasing shaft clamps with specific features for high-speed applications, it’s advisable to consult with reputable suppliers or manufacturers who specialize in clamping solutions for high-speed machinery. They can provide guidance on selecting the most suitable clamps based on your specific application requirements and help ensure optimal performance and safety in high-speed environments.
What are the design considerations when using shaft clamps in machinery?
When using shaft clamps in machinery, several design considerations should be taken into account to ensure proper functionality and performance. Here’s a detailed explanation:
1. Shaft Diameter and Tolerance:
The shaft clamp should be designed to accommodate the specific diameter of the shaft it will be clamping. It’s important to consider the shaft’s dimensional tolerance and ensure that the clamp provides a secure and snug fit without excessive play or binding.
2. Clamping Force:
The clamping force exerted by the shaft clamp should be appropriate for the application. Sufficient clamping force is necessary to securely hold the shaft in place and prevent any axial or rotational movement. However, excessive clamping force can lead to deformation or damage to the shaft or other components. The design of the shaft clamp should strike a balance between providing adequate clamping force and avoiding excessive stress on the shaft.
3. Material Selection:
The material used for the shaft clamp should be carefully chosen based on the specific requirements of the application. Factors to consider include mechanical properties, corrosion resistance, and compatibility with the shaft and surrounding components. Common materials for shaft clamps include steel, aluminum, and various alloys. The selected material should provide sufficient strength and durability while considering factors such as weight, cost, and environmental conditions.
4. Alignment and Centering:
Proper alignment and centering of the shaft clamp are essential for the smooth operation of the machinery. The design should ensure that the clamp aligns the shaft concentrically and accurately with other mating components. Misalignment can lead to excessive vibration, increased wear, and potential damage to the machinery.
5. Accessibility and Maintenance:
The design of the shaft clamp should take into consideration the accessibility of the clamp for installation, adjustment, and maintenance purposes. Adequate space should be provided to allow for easy access to the clamp and the tightening mechanism, ensuring convenient and efficient maintenance procedures.
6. Shock and Vibration Resistance:
In applications where shock or vibration is present, the design of the shaft clamp should incorporate features to withstand these dynamic forces. This may involve the use of damping materials, such as elastomers or rubber inserts, to absorb and mitigate the effects of shock and vibration on the clamp and the shaft.
By considering these design considerations, engineers can ensure that the shaft clamps in machinery are properly designed and optimized for their intended applications. This promotes reliable and efficient operation while minimizing the risk of shaft slippage, misalignment, or other issues that could compromise the performance and safety of the machinery.
What are the key features to consider when selecting a shaft clamp for a specific application?
When selecting a shaft clamp for a specific application, several key features should be taken into consideration. These features will help ensure that the chosen shaft clamp is suitable for the intended use and provides optimal performance. Here are the key features to consider:
- Shaft Diameter: The shaft clamp must be compatible with the diameter of the shaft it will be installed on. Measure the diameter of the shaft accurately and choose a shaft clamp that matches or has an adjustable range to accommodate the specific shaft size.
- Material: Consider the material of the shaft clamp, as it can impact factors such as strength, corrosion resistance, and temperature tolerance. Common materials for shaft clamps include steel, stainless steel, aluminum, and plastic. Select a material that suits the environmental conditions and requirements of the application.
- Clamping Mechanism: Evaluate the clamping mechanism used in the shaft clamp. Common types include screw-based mechanisms, lever-operated mechanisms, or cam-style mechanisms. Consider the ease of installation, adjustment, and the level of grip provided by the clamping mechanism.
- Load Capacity: Determine the expected load or torque that the shaft clamp will need to withstand. Check the manufacturer’s specifications to ensure that the chosen shaft clamp can handle the anticipated loads without compromising performance or safety.
- Application Environment: Assess the environmental conditions in which the shaft clamp will be used. Factors such as temperature extremes, humidity, exposure to chemicals, or abrasive particles can affect the performance and durability of the shaft clamp. Choose a shaft clamp that is designed to withstand the specific environmental challenges of the application.
- Certifications and Compliance: In certain industries or applications, specific certifications or compliance with standards may be required. Examples include ISO certifications, FDA compliance for food-related applications, or industry-specific quality management system certifications. Verify that the shaft clamp meets the necessary certifications or standards for your application.
- Installation and Maintenance: Consider the ease of installation and maintenance of the shaft clamp. Look for features such as tool-less installation, accessible adjustment mechanisms, or provisions for lubrication if required. A shaft clamp that is easy to install and maintain can save time and effort in the long run.
- Compatibility with Components: Ensure that the shaft clamp is compatible with the components that need to be secured onto the shaft. Consider factors such as the shape, size, and attachment requirements of the components. The shaft clamp should provide a secure and stable connection without interfering with the functionality of the attached components.
By considering these key features, you can select a shaft clamp that is well-suited for your specific application, providing reliable and efficient performance. It is recommended to consult with manufacturers, suppliers, or industry experts for further guidance and to ensure the most appropriate choice for your specific requirements.
editor by CX 2024-03-27