China Custom ODM OEM One Stop Customize Metric High Precision CNC Machining Shafts shaft collar with grub screw

Product Description

 

 

Company Profile

HangZhou HangZhou, which is a manufacturer specializing in the machining parts with rich manufacturing and design experience for 20 years. 

Our products include: gringing parts, machining parts, turning parts, lathe parts, milling parts, CNC milling parts, CNC machining parts, CNC turning parts, CNC lathe parts, CNC metal parts, casting and forging parts, assembly service, laser cutting parts, flange and fitting, die casting parts, metal stamping parts, gear and transmission, aluminum profile, automation group, shaft parts, embedded nut and all kinds of custom/customize parts. 
Welcome to send us your drawing for CNC parts machining service, we can customize as your request.

Product Parameters

1.Material Brass, Red Copper, Bronze, Carbon Steel, Stainless Steel, Aluminium
2.Tolerance +/-0.005mm
3.Finishing anodizing,polishing,plating ,blacken ect
4.Surfaces free of scratches
5. Various materials and finishing ways are available 
6. Material and finishing comply with RoHS Directive
7. Small orders are welcome 

 

Equipment List

 

Name Origin  Precision 
CNC machining center  Japan  0.005mm
Tsugami & Star CNC  Japan  0.005mm
Grinding machine  ZheJiang   0.002mm
Milling machine  Japan  0.01mm
Turn-mill combination machine  Japan  0.005mm
Wire drawing machine  ZheJiang   0.02mm 

 

Inspection Equipment

 

Profilometer, Pneumatic micrometer, Roughness tester 

Product Application

Electronical accessories, Automotive accesories, Telecommunication accesories, Engineering parts, Medical equipment, 3C electronical accessories. 

Material Capability

BrassRed Copper, Bronze, Stannum 
Stainless steel: SUS303, 304, 316L, 17-4, 420F, 430F
Carbon Steel: S45C, 12L14, 12L15, 11SMnPb30
Aluminum: 7075, 6061
 

FAQ

1.How long and how can I get quotation from your company?
We will reply you in 2 hours if getting detailed information during working days.
In order to quote you as soon as possible, please provide us the following information together with your inquiry.
1). Detailed drawings (CAD/PDF/DWG/IGS/STEP/JPG)
2). Materials required
3). Surface treatment
4). Quantity (per order/per month/annual)
5). Any special demands or requirements, such as packing, labels,delivery,etc.
2.Can I get samples for testing?
We can offer free samples for small parts, but for big and high-value products, samples will be charged.
3.How about the payment terms?
For new customers, we prefer to use T/T in advance. We can accept L/C, D/P for old customers.
4.If I need urgent delivery, can you help?
Of course! Customer first is our company philosophy. You need to tell us the delivery time when placing the order, and we will do our best to adjust the production schedule.
5.How about the transportation?
You can choose any mode of transportation you need, sea delivery, air delivery or express delivery.
6.How about the quality guarantee?
We will make 100% inspection before packing and delivery and make sure the products 100% meet your requirements . If there is any problems during using, please tell us anytime, we will reply you in time
7.Can we CHINAMFG NDA?
Sure. We never divulge any customer’s information to anyone else.

 

Application: Fastener, Hardware Tool, Machinery Accessory, Medical/Communication/Vehicle, Metal Processing Machinery Parts
Standard: GB, EN, API650, China GB Code, JIS Code, TEMA, ASME, DIN, ASTM, GB, JIS
Surface Treatment: Anodizing, Degrease
Samples:
US$ 0.5/Piece
1 Piece(Min.Order)

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Order Sample

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.

screw jack

What advancements in screw jack technology have improved efficiency and reliability?

Advancements in screw jack technology have led to significant improvements in efficiency and reliability. Here are some key advancements that have contributed to these improvements:

  • High-Efficiency Ball Screws: Traditional screw jacks often used trapezoidal or square threads, which had relatively lower efficiency due to higher friction. However, the introduction of high-efficiency ball screws in screw jack designs has greatly improved efficiency. Ball screws offer low friction and higher efficiency, resulting in reduced power consumption and improved overall system efficiency.
  • Improved Lubrication Systems: Proper lubrication is crucial for the smooth operation and longevity of screw jacks. Advancements in lubrication systems, such as the use of self-lubricating materials, improved lubricants, and better sealing mechanisms, have enhanced the reliability and maintenance intervals of screw jacks. These advancements minimize wear, reduce friction, and ensure consistent performance over extended periods.
  • Materials and Coatings: The use of advanced materials and coatings has significantly improved the durability and reliability of screw jacks. Components made from high-strength alloys, such as stainless steel or hardened steel, can withstand higher loads and resist wear. Additionally, coatings like zinc plating or epoxy coatings provide corrosion resistance, extending the lifespan of screw jacks in challenging environments.
  • Integrated Sensors and Feedback Systems: Integration of sensors and feedback systems in screw jacks has improved their reliability and control. Position sensors, load sensors, and torque sensors can be integrated into screw jacks to provide real-time feedback and monitoring. This enables precise positioning, load measurement, and the ability to detect and respond to abnormal operating conditions, ensuring safe and reliable operation.
  • Automation and Control Integration: The integration of screw jacks with advanced automation and control systems has improved efficiency and reliability. Motorized screw jacks can be integrated with programmable logic controllers (PLCs) or computer numerical control (CNC) systems, enabling precise and synchronized movements, remote operation, and automation. This integration minimizes human error, enhances repeatability, and optimizes the overall efficiency of screw jack systems.
  • Design Optimization: Advancements in computer-aided design (CAD) and simulation tools have allowed for the optimization of screw jack designs. Finite element analysis (FEA) and virtual prototyping enable the evaluation and refinement of various design parameters, resulting in improved load-bearing capabilities, reduced weight, and enhanced structural integrity. These design optimizations contribute to increased efficiency and reliability.

These advancements in screw jack technology have collectively improved efficiency, reliability, and overall performance. Manufacturers continue to innovate and refine screw jack designs to meet the evolving needs of various industries, ensuring that screw jacks remain a reliable and efficient solution for lifting and adjusting loads.

screw jack

Can you provide real-world examples of machinery or structures that use screw jacks?

Yes, screw jacks are commonly used in various machinery and structures for lifting, lowering, and positioning applications. Here are some real-world examples of machinery and structures that utilize screw jacks:

  • Industrial Machinery: Screw jacks are widely used in industrial machinery and equipment. They are employed in material handling systems, assembly lines, packaging machines, and conveyors to lift or lower components, adjust working heights, or provide precise positioning. Screw jacks are also used in presses, injection molding machines, and die-casting equipment to apply controlled force or pressure.
  • Construction and Infrastructure: In the construction industry, screw jacks are used in various applications. They are utilized in formwork systems to support and adjust the height of concrete molds during construction. Screw jacks are also employed in scaffolding systems to provide stability and height adjustment. In addition, they are utilized in bridge construction and maintenance to lift and position heavy components or to create temporary supports.
  • Aerospace and Defense: Screw jacks find application in aerospace and defense industries. They are used in aircraft maintenance and assembly for tasks such as raising or lowering landing gear, adjusting wing flaps, or positioning aircraft components. Screw jacks are also utilized in missile launch systems, satellite deployment mechanisms, and radar systems.
  • Automotive and Transportation: Screw jacks play a role in the automotive and transportation sectors. They are used in vehicle lifting systems, such as car lifts or hydraulic ramps, for maintenance and repair operations. Screw jacks are also employed in adjustable-height truck trailers, lifting platforms for disabled access vehicles, and loading dock levelers.
  • Stage and Entertainment: In the stage and entertainment industry, screw jacks are utilized for stage rigging and set construction. They are employed to lift and position lighting fixtures, sound equipment, and scenery elements. Screw jacks provide precise control over the elevation and alignment of stage components, facilitating dynamic performances and efficient setup.
  • Medical and Rehabilitation: Screw jacks find application in medical and rehabilitation equipment. They are used in patient lifts and adjustable hospital beds to facilitate safe patient transfers and positioning. Screw jacks also play a role in rehabilitation equipment, such as lifting platforms for physical therapy or adjustable exercise machines.

These are just a few examples of the many applications of screw jacks in various industries. The versatility, reliability, and precise control offered by screw jacks make them suitable for a wide range of machinery and structures where lifting, lowering, or positioning operations are required.

screw jack

Can you explain the basic principle behind the operation of a screw jack?

The basic principle behind the operation of a screw jack is the conversion of rotational motion into linear motion. A screw jack consists of a threaded shaft, known as the screw, and a nut that engages with the screw’s threads. When the screw is rotated, it moves the nut linearly along its threads, resulting in linear displacement. Here are some key points regarding the basic principle of operation for a screw jack:

  • Rotational Motion: The operation of a screw jack begins with the application of rotational motion to the screw. This can be achieved through various means, such as manually turning a handle, using an electric motor, or employing hydraulic or pneumatic systems. The rotational motion is typically applied to the top end of the screw.
  • Threaded Shaft: The screw in a screw jack is a threaded shaft with helical grooves running along its length. The threads can be either square or trapezoidal in shape. The pitch of the screw refers to the distance traveled along the screw’s axis for each complete revolution. The pitch determines the linear displacement achieved per rotation.
  • Nut Engagement: The nut is a component that engages with the screw’s threads. It is typically a cylindrical or rectangular block with a threaded hole that matches the screw’s threads. The nut is free to move linearly along the screw’s length when the screw is rotated.
  • Linear Motion: As the screw is rotated, the nut moves along the screw’s threads, causing linear displacement. The direction and magnitude of the displacement depend on the rotational direction and the pitch of the screw. Clockwise rotation typically results in upward linear displacement, while counterclockwise rotation leads to downward displacement.
  • Mechanical Advantage: One of the advantages of a screw jack is its ability to provide a mechanical advantage. The pitch of the screw determines the distance traveled per revolution. By increasing the pitch or using multiple-start threads, the linear displacement achieved per rotation can be increased, allowing for the lifting or lowering of heavier loads with relatively less rotational effort.
  • Self-Locking: The friction between the screw and the nut helps to maintain the position of the load once the rotational force is removed. This self-locking characteristic of screw jacks allows them to hold loads in position without requiring continuous power or external braking mechanisms.

In summary, the basic principle behind the operation of a screw jack involves the conversion of rotational motion into linear motion. By rotating the screw, the nut moves along the screw’s threads, resulting in linear displacement. The pitch of the screw determines the distance traveled per revolution, and the self-locking nature of the screw and nut interface helps maintain the position of the load.

China Custom ODM OEM One Stop Customize Metric High Precision CNC Machining Shafts   shaft collar with grub screwChina Custom ODM OEM One Stop Customize Metric High Precision CNC Machining Shafts   shaft collar with grub screw
editor by CX 2023-12-13

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