Product Description
Upgrade Your Motorcycle with CNC Aluminum Handle Bar Brace Clamp from Youngparts
High precision CNC parts strictly according to customers’ drawing, packing and quality demands
Tolerance: +/-0.005mm
100% inspection during production and final to guarantee quality
10 years experienced engineers and workers
Fast and timely delivery. Speedy & professional service
Offer with professional consultations in designing of new parts to save cost.
Quality assurance in accordance to ISO9001
| Material | Stainless Steel | SUS201,SUS303,SUS304,SUS316,SUS416,SUS420,17-4PH,SUS440C | |
| Steel | Q235,C20,C45(K1045),1214,1215 | ||
| Copper | C36000(C26800),C37700(HPb59),C38500(HPb58),C27200(CuZn37),C28000(CuZn40/H62),C3604, C51000, C52100, C54400,CuSn8 | ||
| Alumina | AL2571,AL5754(Almg3),AL5083,AL6061,AL6063,AL5052,AL7075 | ||
| Alloy Steel | SCM435,10B21 | ||
| Plastic | PA6,PA66,PP,PC,POM,FR4,ABS,Acrylic | ||
| Machining Processes | CNC 3-axis, 4-axis machining, CNC milling, CNC turning, CNC Lathe High precision 5-Axis turning-milling combined machining, CNC milling and turning, drilling, grinding, stamping, tapping, bending |
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| Finish | Heat treatment, powder coating, electroplating, spraying, painting, polishing, deburring, wire drawing/brushed, anodizing, chrome plating, nickel plating, tin plating, silver plating, gold plating, galvanizing, blackening etc. | ||
| Dimensions | Customized | ||
| Tolerance | ±0.005mm | ||
| Drawing Format | PDF/JPEG/AI/PSD/CAD/Dwg/Step/LGS | ||
| MOQ | Negotiable | ||
| QC Policy | 100% inspection and random inspection before shipment, with QC passed label | ||
| Stardard | Materials and surface treatment comply with RoHS/Reach Directives | ||
| Testing Equipments | CMM, Projector, Pull Tester, Automatic Optical Inspector, Salt Spray Tester, Durometer, Tensile Machine, height gauge, micrometer, plug gauge, thread Gauges, digital caliper and etc. | ||
| Application | Automotives, Optical instrument, medical device, industrial machine, automobile, electric appliance, robot, computers, tele-communication, electronic device, digital communication, UAV, aerospace, bicycle, pneumatic tools, hydraulic and other industries, | ||
| Packaging | PE bags or bubble bags, boxes, cartons, pallet, standard carton or plastic tray, sponge tray, cardboard tray or as per customers’ requirements | ||
| Trade Terms | EXW, FOB, CIF, As per customers’ request | ||
| Payment Terms | Paypal or Western Union for sample orders; Larger amount by T/T with 30% as deposit,70% before shipment | ||
| Delivery Time | Within 15-20 working days after deposit or payment received | ||
| Shipping Ports | FOB HangZhou, FOB HangZhou, FOB Hongkong | ||
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| After-sales Service: | Quality Guaranteed |
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| Condition: | New |
| Certification: | CE, RoHS, GS, ISO9001 |
| Samples: |
US$ 30/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
| Customized Request |
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| Shipping Cost:
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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 get recommendations for cost-effective shaft clamps for different budget constraints?
Yes, recommendations for cost-effective shaft clamps can be provided based on different budget constraints. Here’s a detailed explanation:
When selecting shaft clamps, it’s important to consider both the cost-effectiveness and the specific requirements of your application. Here are some recommendations for cost-effective shaft clamps across different budget constraints:
1. Low Budget:
If you have a limited budget, there are cost-effective options available that still provide reliable performance. Consider clamps made from materials like aluminum or steel, as they are commonly more affordable compared to exotic alloys or specialized materials. Look for clamps with simple designs that offer basic functionality without unnecessary features. Additionally, consider clamps from reputable manufacturers that offer competitive pricing for their products.
2. Mid-Range Budget:
With a mid-range budget, you have more options to choose from without compromising on quality. Look for shaft clamps made from high-quality materials such as stainless steel or alloy steel. These materials offer good strength and durability while maintaining a reasonable cost. Consider clamps with additional features such as adjustable tightening mechanisms or corrosion-resistant coatings, as they can enhance performance and longevity.
3. Higher Budget:
If you have a higher budget, you can explore shaft clamps with advanced features and materials that offer enhanced performance and durability. Look for clamps made from specialized alloys or materials designed for specific environments or applications. These clamps often have superior mechanical properties and corrosion resistance. Consider clamps with innovative designs that offer improved functionality, such as quick-release mechanisms or integrated vibration damping features.
4. Custom Solutions:
In some cases, custom shaft clamps may be the most cost-effective option. Working with a reputable manufacturer or engineering firm, you can collaborate to design a shaft clamp that precisely meets your requirements while optimizing cost. Custom clamps allow you to choose the most suitable materials, features, and dimensions for your specific application, ensuring an optimal balance between performance and budget.
When selecting shaft clamps based on budget constraints, it’s important to strike a balance between cost and quality. Consider factors such as the expected lifespan of the clamp, the criticality of the application, and any specific environmental or operational conditions. Always prioritize reliability, performance, and safety over cost savings alone.
It’s recommended to consult with suppliers, manufacturers, or industry professionals who specialize in shaft clamps to get specific recommendations based on your budget constraints and application requirements. They can provide valuable insights and help you identify cost-effective options that meet your needs.
Can I find guidelines on lubricating and maintaining shaft clamps for optimal performance?
Yes, guidelines for lubricating and maintaining shaft clamps can be found to ensure optimal performance. Here’s a detailed explanation:
When it comes to lubricating and maintaining shaft clamps, it’s important to refer to the manufacturer’s guidelines and recommendations specific to the type of clamp being used. These guidelines may vary depending on the design, materials, and intended application of the shaft clamp. However, here are some general considerations:
1. Lubrication:
Some shaft clamps may require lubrication to reduce friction and ensure smooth operation. The type of lubricant and the frequency of lubrication will depend on the specific clamp design and the environmental conditions in which it operates. It’s important to use lubricants that are compatible with the materials of the clamp and the shaft to avoid degradation or damage. The manufacturer’s guidelines will provide specific recommendations on the appropriate lubrication method and lubricant type.
2. Inspection and Cleaning:
Regular inspection and cleaning of the shaft clamps are essential for maintaining optimal performance. Inspect the clamps for any signs of wear, damage, or misalignment. Clean the clamps to remove any dirt, debris, or contaminants that may affect their operation. Use appropriate cleaning methods and avoid using harsh chemicals that could damage the clamp or its surface finish.
3. Torque Checks:
Over time, the clamping force of the shaft clamp may diminish due to factors such as vibration or thermal expansion. It’s important to periodically check and verify the torque settings of the clamp to ensure that it maintains the desired clamping force. This can be done using torque wrenches or other suitable torque measurement tools as specified by the manufacturer.
4. Environmental Considerations:
Consider the operating environment of the shaft clamp when determining the maintenance requirements. In harsh or corrosive environments, additional protective measures may be necessary to prevent corrosion or deterioration of the clamp. This can include applying protective coatings or using corrosion-resistant materials.
5. Replacement and Spare Parts:
If a shaft clamp shows signs of significant wear or damage that cannot be remedied through maintenance, it may be necessary to replace the clamp. Ensure that replacement clamps or spare parts are obtained from reputable sources and are compatible with the specific clamp design.
It’s important to note that these are general considerations, and the specific maintenance requirements for shaft clamps may vary. Always consult the manufacturer’s guidelines and recommendations for the particular make and model of the shaft clamp to ensure proper lubrication and maintenance practices are followed. Adhering to these guidelines will help optimize the performance, longevity, and reliability of the shaft clamps in your 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 Dream 2024-04-19
China Aluminum Steel Set Screw Clamping Ring Shaft Collar ball bearing shaft collar
Merchandise Description
Aluminum Steel Established Screw Clamping Ring Shaft Collar
| Type | Function |
| Setscrew Kind | Metric Dimension |
| Inch Dimensions | |
| Splits sort | Solitary split/one particular piece split |
| Double break up/2 parts splits | |
| Material | Metal/Aluminum/Stainless steel |
| Surface area Treatment |
Black oxide/zinc plated other specified remedy. |
Use:
are used in a variety of application and industries. Examples include agricultural implements, office machines, exercise equipment, mixers, and printing presses.A variety ofspecialized products are available. Knurled shaft collars provide a friction surface for hand gripping and are suitable for conveyors and other applications which require frequent collar adjustment.
Hexagonal-bore shaft collars are suitable for power transmission and drive applications.
Weighty-duty shaft collars feature large cross sections and sturdy clamping screws for added holding power.
Because heavy-duty shaft collars provide better vibration and shock resistance,
they are designed for applications such as off-highway, mining, paper and steel mill equipment.
Major Items:
one. Timing Belt Pulley (Synchronous Pulley), Timing Bar, Clamping Plate
2. Forging, Casting, Stampling Part
3. V Belt Pulley and Taper Lock Bush Sprocket, Idler and Plate WheelSpur Gear, Bevel Gear, Rack
four. Shaft Locking Device: could be alternative for Ringfeder, Sati, Chiaravalli, Tollok, etc.
5. Shaft Coupling:including Miniature couplings, Curved tooth coupling, Chain coupling, HRC coupling, Normex coupling, Type coupling, GE Coupling, torque limiter, Universal Joint
six. Shaft Collars: including Setscrew Type, Single Split and Double Splits
7. Gear & Rack: Spur gear/rack, bevel gear, helical equipment/rack
eight. Other customized Machining Parts according to drawings (OEM).
Much more Rewards:
one. More competitive prices,
two. Shorter delivery date: 35 days.
3. We are the professional manufacturer in the field of Power Trans. Components,specially for Timing Pulleys.
four. Produce standard and non-regular
five. Strict QC Management:ISO9001:2008,our engineer,Mr.Wang has specialized in the prodcution for over 20 years.
Packaging & Delivery:
All the products can be packed in cartons,or,you can choose the pallet packing.
MADE IN CHINA can be pressed on wooden cases.Land,air,sea transportation are available.UPS,DHL,TNT,
FedEx and EMS are all supported.
Firm:
Manufacturing facility See:
Exhabition:
FAQ:
1. MOQ
A: Normally, 1 pc for common parts contact for nonstandard parts.
2. Delivery Time
A: In inventory: inside 5 operating times. Out of stock: depends on your buy amount.
three. How To Select
A: component quantity or drawing, catalogue. If no, you can send us your sample, so we can make the drawing and sample accordingly.
4: What is the Warranty for your goods?
A:Typically our warranty is 1 yr.
Contacts:
| Standard Or Nonstandard: | Standard & Custom |
|---|---|
| Shaft Hole: | Standard & Nonstandard |
| Bore Diameter: | 8-65 |
| Material: | Steel/Aluminum/Stainless Steel |
| Type: | Collar |
| Service: | Standard and Custom |
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| Samples: |
US$ 1/Piece
1 Piece(Min.Order) |
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| Customization: |
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| Type | Feature |
| Setscrew Type | Metric Size |
| Inch Size | |
| Splits type | Single split/one piece split |
| Double split/2 pieces splits | |
| Material | Steel/Aluminum/Stainless steel |
| Surface Treatment |
Black oxide/zinc plated other specified treatment.
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| Standard Or Nonstandard: | Standard & Custom |
|---|---|
| Shaft Hole: | Standard & Nonstandard |
| Bore Diameter: | 8-65 |
| Material: | Steel/Aluminum/Stainless Steel |
| Type: | Collar |
| Service: | Standard and Custom |
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| Samples: |
US$ 1/Piece
1 Piece(Min.Order) |
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| Customization: |
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| Type | Feature |
| Setscrew Type | Metric Size |
| Inch Size | |
| Splits type | Single split/one piece split |
| Double split/2 pieces splits | |
| Material | Steel/Aluminum/Stainless steel |
| Surface Treatment |
Black oxide/zinc plated other specified treatment.
|
Shaft Collar
A shaft collar is a common machine component that provides mechanical support to shafts. It is found in motors and gearboxes and serves several important functions. Its design makes it an easy component to install. In addition to providing mechanical support to shafts, shaft collars can also serve as locating components and bearing faces.
Sizes
Shaft collars are complex components with several factors that determine their performance. Typical considerations include the style, materials used, bore size, and shaft geometry. Manufacturers typically have information on these factors on their websites. Users can also contact them for advice. These components are available in different sizes and types.
Shaft collars are available in a wide range of sizes, from 1/8 inch to six inches. They can also be re-bored if necessary. There are two main types of shaft collars. The basic one uses set screws, which may mar the shaft. The other type features a clamp screw and a hinge on one side. This eliminates the risk of losing screws.
The most common types of shaft collars are made from steel or aluminum. Plastic shaft collars are lightweight and inexpensive, but have reduced holding power. Steel shaft collars are more durable and hold their shape without bending. They also tend to be corrosion resistant. The steel grades used can have a big impact on their performance. For example, the 12L14 alloy is easier to machine, but does not do well in welding applications. Stainless steel shaft collars offer enhanced corrosion resistance, but reduced holding power. They are most commonly made from 304 stainless steel.
Shaft collars are an integral part of many mechanical systems. They are used to mount shafts onto flat surfaces and hold mechanical components in place. These accessories are available in a wide range of sizes and styles. Depending on the application, a shaft collar can be made to fit virtually any shaft.
The material used for shaft collars is also an important factor. The material of the shaft collar can make a big difference in the performance of the collar. The screw can be either flat or hex. The material will also determine the holding power. A screw with a hardened center will provide better holding power.
Another factor affecting the holding power of shaft collars is its surface treatment. The most common types are steel, black oxide, and zinc-plated. The latter is beneficial as it reduces the friction coefficient and enhances the holding power. Zinc-plated collars are better corrosion resistant than black oxide. However, the black oxide treatment is more effective because it prevents slippage.
Construction
Shaft collar construction involves the construction of a collar around an underground shaft. This structure consists of steel casing and concrete that extends below the surface of the ground. The concrete may be constructed using conventional or specialty cements. It may also contain accelerators and other additives to improve its holding strength. The concrete may also contain heavyweight or lightweight aggregates for optimal properties.
There are two main types of shaft collars. The double split collar is the most common type. It has a split design in the middle and is fastened using two allen head cap screws on each side. It has greater holding power than a solid collar, and the two-piece design makes it easier to install and replace. In addition, double split collars don’t require disassembling the entire shaft and its components.
There are many factors to consider when selecting a shaft collar. The material, holding power, and surface treatment of the shaft collar will affect its ability to withstand the load without slipping. These factors must match the specifications of the application in order to maximize its safety. A guide can help you choose the most appropriate shaft collar for your needs. The holding power of a shaft collar depends on the material used for construction and the screw size.
Shaft collars are used for a variety of applications that require a secure grip on mechanical components. They can be used on shafts, tubes, piping, and even flat surfaces. Only the highest quality collars are approved for use in industrial settings. These collars help ensure proper alignment of mechanical components and prevent any unnecessary movement. There are three different types of shaft collars. One type is a two-piece collar that is held together by two socket head screws.
Shaft collars may include an extended concrete pad at the surface. This concrete pad can support surface equipment and piping support assemblies. The shaft collar extends below temporary bracing material and within the retainment wall. The extended portion of the collar is then extended into the competent rock. From there, the collar transitions to a shaft lining assembly.
Functions
A shaft collar is a simple device that plays a critical role in a wide variety of industrial applications. Its primary functions are to hold components in place, locate components on the shaft, and form an attachment between a shaft and another component. In designing a shaft collar, a designer needs to consider several factors, including the material, bore size, and geometry of the shaft. It is also important to consider the specific requirements of the system.
Threaded collars are superior to smooth-bore collars in many ways. Threaded collars are more resistant to axial loads than smooth-bore collars, which rely on friction. Because the collar and shaft are threaded, they are practically impossible to move axially without breaking the shaft.
There are many types of shaft collars, each with their own unique properties. Each collar has different applications, and its performance must match the needs of the application. For many applications, holding power is paramount, while other performance factors include weldability, inertia, conductivity, corrosion resistance, and precision of collar-face relative to the bore.
While shaft collars may exert some holding force, they also exert other forces on the shaft. For example, they are ideal for splitting hubs, where they act as interfaces between various components. In addition, their close tolerances allow them to exert minimal force on the hub. This allows them to provide increased holding power while minimizing the force needed to close the hub.
Despite their simplicity, the shaft collar plays a crucial role in machine design. They hold components in place and provide necessary positioning for power transmission. Additionally, they are used as spacers in motor assemblies. And, they can also act as mechanical stops, limiting the movement of the shaft. You can find them in virtually any type of machinery.
Another type of shaft collar is the threaded collar, which can be axially or radially attached to the shaft. Its design has an internal thread that helps to precisely position it along the shaft. Internal threads also offer enhanced support for high axial loads. Internal threads also act as a positive mechanical stop.
Applications
Shaft collars are used in a variety of industrial applications. They serve as accurate stops and easy-to-adjust spacers. They can be used on glass, thin-wall tubing, and plastic. Other applications include optical measuring instruments and positioning systems for MRI machines. These collars are available in different sizes, materials, and styles.
The material used for shaft collars can have a significant impact on their performance. A collar’s holding power is also affected by the strength of its screw. Generally, a collar manufacturer will provide a screw that is compatible with the application. However, in some cases, it is necessary to use a nonstandard screw.
The clamp-style collar is reliable under constant loads, but it may need extra support when shock loads are present. In these situations, a small mass is impacted, and high forces are created. A positive stop can help a clamp-style collar stay in place during such shock loads. Alternatively, a collar undercut on a shaft can provide positive stops in both axial directions.
There are many different shaft collar designs and styles. Choose the right one for your application by considering your specifications. Different styles have different purposes, so consider the type and material that is right for your application. Some manufacturers offer a variety of different styles to choose from. You can visit their website or call their customer service representatives for assistance. This way, you can choose the best shaft collar for your specific needs. These collars are a very important part of many mechanical systems.
Clamp-style collars are an excellent choice when axial adjustment along the shaft is required frequently. These collars are easy to install and remove and do not mar the shaft. In addition, they provide excellent clamping force and impressive holding power. Quick-clamp collars are also a great choice for light-duty applications. They allow for fast and easy adjustment and are particularly useful in packaging and printing industries.
Shaft collars are composed of two components: a central bore and a second component. The first component is preferably made of resilient elastomeric material. The second component is made of a plastic material and has a relative stiffness that helps the shaft collar slide on a shaft without causing too much stress.
editor by CX 2023-04-03