Product Description

Diagram of the working principle of the rail slider

Rail structure diagram

Selection of series

GH series:Grinding Miling ,and riling machine,Lathe. Electric discharge machine,Wirecutting machine,Wood cutting machine,Precision measure equipment,Machin-e center
GE series:Automatic equipment,Semiconductor equipment,Laser engraving mac-hine,High speed transfer machine,Packing machine,Medical equipment
QE/QH series:High precision measure equipment,Semiconductor
equipment,Automatic equipment, can be widely aplied in high-tech industry required high speed,low noise,low dust generation
GR senies:CNC machining centers,Heavy duty cutting machine,CNC ginding Machine
GMN/GMW Series: Miniature device,semiconductor equipment,3Dprinter
 

 

 

Detailed Photos

 

 

Brand SHAC
Precision C/H/P
Model GHH/GHW/GEH/GEW/MGN/MGW
Size customize Available
Maximum length 4000MM-6000MM
Raw Materail S55C,SCM420H
HS CODE 8466939000,8483300090
Items packing Plastic bag+Cartons+Plywood boxes.According to our customer’s request.
Payment terms L/C,TT,Westeb Union
Production lead time Base on customer required quantity,by negotiated
Samples Value less than $20 free samples and sample catalogue available,sample express request pay by clients
Application CNC machines,machine tools,Industrial Machinery,Pringting Machine,Paper-processing machine,automatic machines,textiles machines,electronic machinery,transport machinery,Robot,etc

As follows linear guide&block are in stock(compatible with CZPT linear guide):

GH series rail GHR15,GHR20,GHR25,GHR30,GHR35,GHR45
GHH..CA square block GHH15CA,GHH20CA,GHH25CA,GHH30CA,GHH35CA,GHH45CA
GHW..CC flange block GHW15CC,GHW20CC,GHW25CC,GHW30CC,GHW35CC,GHW45CC
GHH..HA lengthen GHH20HA,GHH25HA,GHH30HA,GHH35HA,GHH45HA
GHW..HC lengthen GHW15HC,GHW20HC,GHW25HC,GHW30HC,GHW35HC,GHW45HC
GE low assembly rail GER15,GER20,GER25
GEH..CA GEH15CA,GEH20CA,GEH25CA
GEH..SA GEH15SA,GEH20SA
GEW..CA GEW15CA,GEW20CA,GEW25CA
MGN rail MGNR5,MGR7,MGR9,MGR12,MGR15
MGN..C MGN5C,MGN7C,MGN9C,MGN12C,MGN15C
MGN..H MGN7H,MGN9H,MGN12H,MGN15H
MGW rail MGW7,MGW9,MGW12,MGW15
MGW..C MGW7C,MGW9C,MGW12C,MGW15C
MGW..H MGW7H,MGW9H,MGW12H,MGW15H

Company Profile

 

Certifications

Our Advantages

Service:
1,Our Team:
We have experienced and qualified team of marketing and sales representatives to serve our valued customers with the finest products and unsurpassed service.And have professional engineers team to assessment and development the new precision products,and make the OEM customized more easily,experienced QC team to test the products quaity ensure the goods quality before delivery out.
2,Our products:
Quality is the life .We use only the best quality material to ensure the precision of our
Product.All products we sold out are strictly selected and tested by our QC department.
3,Payment:
We accept payment via TT (Bank transfer), L/C,Western Union.Paypal and other payment.
4,Shipping method:
Including DHL, UPS, TNT, FEDEX,EMS, Airfreight and by Sea,as customer required.

To get sample or price list of linear gudies, please contact us.

  

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Original Maximum Length: 4000/6000mm
Raw Material: S55c,Scm420h
Precision Grade: C/H/P
Customization:
Available

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Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

shaft clamp

Where can I find information on alternatives to traditional shaft clamps for specific applications?

If you are looking for information on alternatives to traditional shaft clamps for specific applications, here’s a detailed explanation:

When exploring alternatives to traditional shaft clamps, it’s important to consider the specific requirements of your application and the desired performance characteristics. Here are some sources where you can find information on alternative solutions:

1. Manufacturer’s Websites:

Visit the websites of manufacturers that specialize in clamping solutions or components related to your specific application. Many manufacturers provide detailed product information, including alternative clamping solutions that may offer unique features or advantages over traditional shaft clamps. These websites often include specifications, application examples, and technical resources to help you understand the alternatives available.

2. Industry Trade Shows and Exhibitions:

Attending trade shows and exhibitions focused on engineering, machinery, or specific industries can provide opportunities to discover alternative clamping solutions. These events often feature exhibitors showcasing innovative products and technologies. Engaging with manufacturers and industry experts at these events allows you to gather information, ask questions, and explore alternative options specific to your application.

3. Technical Journals and Publications:

Technical journals and publications related to mechanical engineering, manufacturing, or specific industries can be valuable sources of information on alternative clamping solutions. These publications often feature articles, case studies, or research papers that discuss new developments and advancements in clamping technologies. They provide insights into alternative solutions and their applications in various industries.

4. Engineering Consultancies and Experts:

Consulting engineering firms or experts in the field can provide specialized knowledge and recommendations on alternative clamping solutions. These professionals have expertise in various clamping technologies and can assess your specific application requirements to offer tailored suggestions. They can help you evaluate the feasibility, performance, and suitability of alternative solutions.

5. Online Communities and Forums:

Participating in online communities and forums focused on engineering, machinery, or specific industries can be a valuable way to gather information on alternative clamping solutions. These platforms often have discussions, threads, and user experiences shared by professionals and enthusiasts. Engaging in these communities allows you to seek advice, ask questions, and learn from the collective knowledge and experiences of the community members.

When seeking information on alternatives to traditional shaft clamps, it’s important to critically evaluate the sources and consider the credibility and reliability of the information. Every application is unique, and alternative solutions may have specific advantages and limitations. Consulting with experts, conducting thorough research, and considering real-world case studies will help you make informed decisions regarding alternative clamping solutions for your specific application.

shaft clamp

Can I get advice on choosing shaft clamps for applications with varying loads?

Yes, you can receive advice on choosing shaft clamps for applications with varying loads. When selecting shaft clamps for such applications, it is important to consider certain factors to ensure optimal performance and reliability. Here are some key points to consider:

  • Load Capacity: The first and foremost consideration is the load capacity of the shaft clamp. Determine the maximum expected load that the clamp will need to handle in your application. This includes both static loads (constant loads) and dynamic loads (loads that change over time). Check the specifications provided by the manufacturer to ensure that the selected shaft clamp can withstand the anticipated loads.
  • Material Strength: The material strength of the shaft clamp is crucial for applications with varying loads. Higher strength materials, such as stainless steel or hardened alloys, are often preferred as they offer better resistance to deformation under heavy or fluctuating loads. Consider the material properties of the shaft clamp and choose a material that matches the load requirements of your application.
  • Clamping Mechanism: Different shaft clamps employ various clamping mechanisms, such as set screws, split collars, or compression clamps. Evaluate the effectiveness of the clamping mechanism in maintaining a secure grip on the shaft under varying loads. Some mechanisms may be better suited for specific load conditions, so choose a design that aligns with the load characteristics of your application.
  • Adjustability: Applications with varying loads may benefit from shaft clamps that offer adjustability. Look for clamps that allow for easy adjustment or repositioning of the clamp along the shaft. This flexibility enables fine-tuning the clamping force, accommodating different load conditions, and optimizing the performance of the assembly.
  • Anti-Vibration Features: In applications with varying loads, vibration can be a concern. Consider shaft clamps that incorporate anti-vibration features, such as damping elements or serrated contact surfaces. These features help minimize the effects of vibrations, ensuring a secure connection between the shaft and the components even under dynamic load conditions.
  • Application Specific Requirements: Each application may have unique requirements that should be taken into account when selecting shaft clamps. Consider factors such as environmental conditions (temperature, moisture, chemicals), operating speed, shaft material, and compatibility with other components in the assembly. Ensure that the chosen shaft clamps are suitable for the specific demands of your application.

Additionally, consulting with industry experts, mechanical engineers, or suppliers specializing in shaft clamps can provide valuable advice and guidance tailored to your specific application. They can help analyze the load characteristics, recommend suitable shaft clamp options, and offer insights based on their experience and knowledge.

By considering these factors and seeking expert advice, you can choose shaft clamps that are well-suited for applications with varying loads, ensuring reliable and efficient operation of your mechanical assemblies.

shaft clamp

What is a shaft clamp, and how does it differ from other shaft fastening methods?

A shaft clamp is a type of fastening device used to secure components onto a shaft. It differs from other shaft fastening methods in its design and mechanism of operation. Here’s a detailed explanation of what a shaft clamp is and how it differs from other shaft fastening methods:

A shaft clamp is typically a two-piece device consisting of a collar and a clamping mechanism. The collar is a ring-shaped component that fits around the shaft, while the clamping mechanism is used to tighten the collar securely onto the shaft. The clamping mechanism can vary depending on the specific design but often includes screws, bolts, or levers that apply pressure to the collar, creating a tight grip on the shaft.

One key difference between a shaft clamp and other shaft fastening methods is the ease of installation and removal. Shaft clamps are designed to be easily installed or removed without requiring specialized tools or equipment. The clamping mechanism allows for quick adjustments and secure tightening of the collar onto the shaft, ensuring a reliable grip.

Compared to other shaft fastening methods such as set screws or keyways, shaft clamps offer several advantages:

  • Easy Adjustability: Shaft clamps provide the ability to easily adjust the position of components along the shaft. The clamping mechanism allows for precise tightening or loosening of the collar without damaging the shaft or the component being secured. This adjustability is particularly useful in applications where component alignment or positioning needs to be fine-tuned.
  • No Shaft Damage: Unlike set screws, which can cause indentation or damage to the shaft, shaft clamps distribute the clamping force more evenly around the shaft circumference. This helps to prevent shaft damage while ensuring a secure grip. It is especially beneficial when working with softer or delicate shaft materials.
  • Reduced Slippage: Shaft clamps provide a reliable and secure grip on the shaft, minimizing the risk of slippage or movement of the secured components. The clamping mechanism applies even pressure around the collar, creating a uniform grip along the shaft circumference. This feature is advantageous in applications with high torque, vibration, or dynamic loads.
  • No Shaft Modification: In contrast to keyways or other methods that require shaft modification, such as drilling or milling, shaft clamps can be easily installed on standard shafts without the need for any modification. This preserves the integrity of the shaft and allows for reversibility if needed.
  • Wide Range of Sizes and Designs: Shaft clamps are available in various sizes, materials, and designs to accommodate different shaft diameters and application requirements. They can be found in materials such as steel, stainless steel, aluminum, or plastic, offering flexibility in terms of strength, corrosion resistance, or weight considerations.

It is important to note that the selection of the appropriate shaft fastening method, including shaft clamps, should be based on the specific application requirements, load conditions, and compatibility with the components being secured. Consulting with shaft collar manufacturers, engineers, or industry experts can help in determining the most suitable fastening method for a particular application.

China OEM Linear Rail Clamp Linear Motion Guide Clamping Element for 3D Printer   custom shaft collarChina OEM Linear Rail Clamp Linear Motion Guide Clamping Element for 3D Printer   custom shaft collar
editor by Dream 2024-04-23