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 |
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| Raw Material: | S55c,Scm420h |
| Precision Grade: | C/H/P |
| 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 find tutorials on retrofitting machinery with shaft clamps for improved performance?
If you are looking for tutorials on retrofitting machinery with shaft clamps for improved performance, here’s a detailed explanation:
Retrofitting machinery with shaft clamps can be a beneficial solution to enhance performance, stability, and efficiency. While specific tutorials may vary depending on the machinery and application, there are several resources where you can find guidance and information on retrofitting with shaft clamps:
1. Manufacturer’s Documentation:
Consult the manufacturer’s documentation or user manuals for the machinery you intend to retrofit. The documentation may provide insights into the recommended retrofitting procedures, including the installation of shaft clamps. It may include step-by-step instructions, diagrams, and specifications specific to your machinery.
2. Online Video Platforms:
Platforms like YouTube and Vimeo host a vast collection of tutorial videos on various engineering and machinery topics. You can search for videos specifically related to retrofitting machinery with shaft clamps. These videos often provide visual demonstrations, explanations of the process, and tips for achieving improved performance through retrofitting.
3. Engineering Websites and Blogs:
Engineering websites and blogs may publish informative articles or tutorials on retrofitting machinery. These resources may cover a wide range of topics, including the selection of shaft clamps, installation techniques, and considerations for improved performance. Look for reputable engineering websites and blogs that specialize in machinery retrofitting, mechanical engineering, or industrial automation.
4. Online Forums and Communities:
Participating in online forums and communities focused on machinery, engineering, or industrial topics can provide valuable insights and guidance. These platforms often have discussion threads where professionals and enthusiasts share their experiences, best practices, and tutorials related to retrofitting machinery. Engaging in these communities allows you to ask questions, seek advice, and learn from others who have undertaken similar retrofitting projects.
5. Professional Training and Courses:
Consider professional training programs or courses offered by engineering organizations, trade associations, or industrial training institutes. These programs may include modules on machinery retrofitting techniques, which can cover the installation and performance optimization of shaft clamps. These training programs often provide comprehensive guidance and practical knowledge to help you successfully retrofit machinery.
When retrofitting machinery with shaft clamps, it’s important to ensure that you have a good understanding of the machinery’s design, compatibility requirements, and safety considerations. If you are unsure or lack experience, it’s recommended to consult with qualified engineers, technicians, or professionals who specialize in machinery retrofitting. They can provide personalized guidance, address specific challenges, and ensure that the retrofitting process is carried out effectively and safely.
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.
What are the advantages of using shaft clamps in mechanical assemblies?
Using shaft clamps in mechanical assemblies offers several advantages that contribute to the overall performance, efficiency, and reliability of the system. Here are some key advantages of using shaft clamps:
- Secure and Reliable Connection: Shaft clamps provide a secure and reliable connection between the shaft and other components in a mechanical assembly. They help prevent unintentional movement or slippage of the shaft, ensuring that the components remain properly aligned and engaged.
- Easy Installation and Adjustment: Shaft clamps are typically designed for easy installation and adjustment. They often feature user-friendly mechanisms such as screws, levers, or cams that allow for quick and precise tightening or loosening of the clamp. This facilitates efficient assembly and adjustment processes.
- Versatility: Shaft clamps are available in various sizes and designs, making them suitable for a wide range of shaft diameters and configurations. They can accommodate different types of shafts, including round, square, or hexagonal shapes. This versatility allows for flexibility in assembly designs and component selection.
- Component Protection: By securely clamping the shaft, these clamps help protect the connected components from excessive movement or vibration. They minimize the risk of damage or wear on the shaft and other components, leading to extended component lifespan and improved overall system durability.
- Adjustability for Alignment: Shaft clamps with adjustable features allow for precise alignment of components. They enable fine-tuning of the relative positions of gears, pulleys, couplings, or other elements connected to the shaft. This helps optimize the performance and efficiency of the mechanical assembly.
- Quick and Easy Maintenance: Shaft clamps simplify maintenance tasks by providing convenient access to the shaft and connected components. When maintenance or repairs are required, the clamps can be easily loosened, allowing for swift disassembly and reassembly without the need for complex tools or extensive downtime.
- Cost-Effectiveness: Shaft clamps are generally cost-effective solutions for securing shafts in mechanical assemblies. They are relatively affordable compared to alternative methods such as rigid couplings or custom-designed connections. Additionally, their ease of installation and adjustment can save time and labor costs during assembly and maintenance processes.
- Compatibility: Shaft clamps can be used with a wide range of materials, including metal, plastic, or composite shafts. This allows for compatibility with different types of shafts and facilitates integration into diverse mechanical systems.
Overall, the use of shaft clamps in mechanical assemblies provides a reliable, versatile, and cost-effective solution for securing shafts and ensuring proper functioning of connected components. Their ease of installation, adjustment, and maintenance make them valuable components in a wide range of applications across various industries.
editor by Dream 2024-05-02