Custom Aluminium Single Split Clamp Screw Bore Shaft Collar One Piece Shaft Collar
|Material||1) Aluminum: AL 6061-T6, 6063, 7075-T etc.|
|2) Stainless steel: 303, 304, 316L, 17-4(SUS630) etc.|
|3) Steel: 4140, Q235, Q345B, 20#, 45# etc.|
|4) Titanium: TA1, TA2/GR2, TA4/GR5, TC4, TC18 etc.|
|5) Brass: C36000 (HPb62), C37700 (HPb59), C26800 (H68), C22000(H90) etc.|
|6) Copper, Bronze, Magnesium alloy, Delrin, POM, Acrylic, PC, etc.|
|Finsh||Sandblasting, Anodize color, Blackenning, Zinc/Nickl Plating, Polish.|
|Power coating, Passivation PVD, Titanium Plating, Electrogalvanizing.|
|Electroplating chromium, Electrophoresis, QPQ(Quench-Polish-Quench).|
|Electro Polishing, Chrome Plating, Knurl, Laser etch Logo, etc.|
|Main Equipment||CNC machining center(Milling), CNC Lathe, Grinding machine.|
|Cylindrical grinder machine, Drilling machine, Laser cutting machine, etc.|
|Drawing format||STEP, STP, GIS, CAD, PDF, DWG, DXF etc or samples.|
|Tolerance||+/-0.01mm ~ +/-0.05mm|
|Surface roughness||Ra 0.1~3.2|
|Inspection||Complete inspection lab with Micrometer, Optical Comparator, Caliper Vernier, CMM.|
|Depth Caliper Vernier, Universal Protractor, Clock Gauge, Internal Centigrade Gauge.|
|Capacity||CNC turning work range: φ0.5mm-φ150mm*300mm.|
|CNC milling work range: 510mm*1571mm*500mm.|
Runsom, a company specializing in rapid prototyping and manufacturing, has decades of experience in
CNC machining, 3D printing, injection molding, sheet metal fabrication, and die casting. Our engineering
team with extensive knowledge and experience utilizes the latest prototyping technologies and top-notch
machining equipment to provide comprehensive services to satisfy global customers’ requirements,
timescales, and specific needs. We are able to take your concepts or designs to reality production in just
days with our advanced machining technologies, extensive manufacturing experience, and a wealth of
Runsom Precision was established to give support to companies in the industries fields who continually
need to reduce their costs and meet tight deadlines. Our purpose is to ensure customer satisfaction by
providing first-class project management control and problem-free products.
Get a Quote
Q1: What’s kinds of information you need for quote?
A1: Kindly please provide the 2D/3D drawings (PDF/DWG/DXF/IGS/STP/SLDPRT/etc) and advise material
, finish, quantity for quoting.
Q2: What is your MOQ?
A2: MOQ depends on our client’s needs, besides, we welcome trial order before mass-production.
Q3: What is the lead time?
A3: Depending on your specific project and quantity.
Q4: Available for customized design drawings?
A4: Yes, please send the technical drawings to us. It’s better if you can send both 2D and 3D drawings if
Q5: If the parts we purchase from your company are not good, what can we do?
A5: Please feel free to contact us after you got the products. Kindly send us some photos, we will
feedback to our engineers and QC departments and solve the problems ASAP.
Q6: Are you a manufacturer or trading company?
A6: We are a manufacturer, we are located in HangZhou, China.
Q7: Will my drawings be safe after sending to you?
A7: Yes, we will keep them well and not release to third party without your permission.
|Application:||Fastener, Auto and Motorcycle Accessory, Hardware Tool, Machinery Accessory|
|Standard:||GB, EN, API650, China GB Code, JIS Code, TEMA, ASME, ISO9001:2015|
|Production Type:||Batch,Mass Production|
|Machining Method:||CNC Machining|
|Material:||Nylon, Steel, Plastic, Brass, Alloy, Copper, Aluminum, Iron|
Choosing a Shaft Collar
The shaft collar is a simple machine component used in a variety of power transmission applications. They are most often found on gearboxes and motors. Their simple design makes them an easy component to install and remove. Among other uses, shaft collars are used as bearing faces, mechanical stops, and locating components.
Colares de eixo tipo braçadeira
Clamp-style shaft collars fix many of the problems associated with set-screw collars. Available in two-piece and one-piece designs, these collars compress the shaft and lock into place. This allows for a uniform distribution of force on the shaft. Clamp-style shaft collars provide more holding power than set-screw collars, but they work best under consistent pressure. Clamp-style shaft collars also work better against negative forces, as they have a separate, un-tightened side.
Clamp-style shaft collars feature mounting holes in the outer diameter. Like clamp-style collars, mountable shaft collars can be installed on adjacent assemblies, but the mounting method does not affect holding power. Mountable shaft collars are commonly used in mounting sensor brackets. They may have rounded or flat outer diameters to accommodate the mounting process. Mountable shaft collars may also have tapped or flat holes to facilitate installation.
Quick-clamp shaft collars have the same functionality as clamp-style collars, but feature a removable lever. They are typically quick-to-install and do not mar the shaft. Quick-clamping collars are especially beneficial in applications that require light-duty torque. They also make for quick and easy adjustments.
Heavy-duty shaft collars feature larger outer diameters, a wider face, and a larger screw. These collars are ideally suited for d-shafting and can offer greater holding power than set-screw collars. These collars are typically manufactured from high-strength 2024 aluminum.
Clamp-style shaft collars can be used in many different applications. They can be used for a variety of applications, including bearings, and are especially suited for rotary machines. However, there are some drawbacks. While they may not be as flexible as set-screw collars, they can still perform well under constant loads. One drawback is that they tend to loosen under shocks and reduce the holding power of clamping hardware.
Another advantage of clamp-style shaft collars is that they do not mar the shaft and allow for easy positioning adjustments. Furthermore, they are easier to install and offer greater holding power than set-screw collars. These collars are made from high-quality materials with tight tolerances and are available in different bore sizes.
Clamp-style shaft collars are the most common type of shaft collars. They can be two-piece or one-piece. Among these, two-piece collars are the most convenient option. One-piece collars are hard to move, and two-piece collars have a hinge on one side and a clamp-style collar on the other side.
The materials used in Clamp-style shaft collars play a crucial role in their overall performance. They should be strong, corrosion-resistant, and have good holding power. They should also be able to withstand high temperatures. The most common materials used for shaft collars are steel and aluminum. Some types are made from stainless steel, while others are made from engineered plastic.
Clamp-style shaft collars can come in two pieces or single-piece designs. The smaller one-piece collars usually have a back-cut opposite the clamp cut, which reduces the cross-sectional area at the hinge point. This reduces the amount of force required to clamp the collar, which makes it easier to use stronger screws.
Aluminum, carbon steel, and stainless steel shaft collars
When choosing a shaft collar, you should consider the material it is made of. You can purchase collars made of carbon steel, aluminum, or stainless steel. Each of these materials has its benefits and disadvantages. Steel is more durable than aluminum and tends to provide better holding power. Aluminum, on the other hand, is lighter and has a favorable strength-to-weight ratio. The material you choose should depend on your specific needs, such as corrosion resistance or weight.
Mountable shaft collars are used to mount sensors, fixtures, and other assemblies. These collars are available with outer diameter holes, flats, or quick-release designs. The material used to make these collars varies, with standard models made of 1215 lead-free steel and 2024 aluminum.
When choosing shaft collars, take into account the material and surface treatment. Different materials offer different properties, which will determine the performance of the collar. In addition to material, each shaft collar comes with a different holding power. Holding power is a key factor in choosing a shaft collar because it determines the amount of load it can withstand without slipping. The holding power depends on the screw size, the bore size, and the bulk of the collar.
Aluminum, carbon steel, and stainless steel shaft-collars can come in various styles. CZPT, for example, offers standard shaft collars in hex and d-bore profiles. Hex collars provide extra holding power and are better than set screws. Additionally, they do not mar the shaft and provide a better grip.
Another type of shaft collar is the quick-clamp shaft collar. These features allow users to install and remove them with ease. The quick-clamp collar has a handle that allows the user to quickly adjust it. While these shaft collars are designed for light duty applications, they are not recommended for heavy-duty or high-RPM applications.
Shaft collars are simple yet versatile components. They are used for various applications, including mechanical stops, stroke limiters, and retainers. They can also be used to align and space other components. Shaft collars are widely used in gearbox assemblies, flagpoles, and medical instruments, among others.
Two-piece shaft collars offer the same benefits of one-piece shaft collars, but offer additional convenience and versatility. They are easier to install and disassemble, reducing installation and labor costs. They also offer superior holding power. They also feature a threaded bore that acts as a positive mechanical stop when the shaft is rotated.
Over-torqueing shaft collars
Shaft collars are often used to secure components on shafts or other surfaces. They also provide an easy way to adjust the positioning of motor assembly components. Many different types of shaft collars are available to meet the specific needs of different applications. These include round, hexagonal, square, and D-bore collars.
The design of shaft collars must account for the load they will support. Some collars are made of metals, while others are made of plastic or composite materials. Typically, shaft collars are made of steel, but can also be made from aluminum or alloyed steel. Some are coated with zinc.
Shaft collars are available in one-piece and two-piece designs. Single-piece collars are designed to fit securely around a shaft, while double-piece collars allow for greater clamping force. These collars can be assembled anywhere along the shaft and can be installed between two pieces. They are available in different bore configurations and can be customized to meet your specific application.
Clamp style collars are easy to install and disassemble, and have a larger holding force than one-piece collars. These collars are also more shock-load resistant. They also don’t mar shaft surfaces, unlike setscrews. They can also be easily adjusted without damaging the shaft. Another style of collar is the quick-clamping style. This type of collar doesn’t mar the shaft, and is easily installed and removed without tools. These are best for light-duty applications.
When choosing a shaft collar, you should consider the tolerance of the shaft. It is important to select a shaft with a tight tolerance. The shaft’s hardness should not be greater than Rockwell C35. A wide tolerance will affect the holding power of the collar. If the shaft is undersized, you may need to use a screwdrive to slide the collar on the shaft.
Shaft collars are a versatile component with many different applications. They can secure industrial railings or serve as positioning devices in medical equipment. They are also widely used in automation machinery. They are used to protect cylinders and actuators and to ensure alignment between components. For this reason, they are very versatile and adaptable.
Clamp-style collars work well under constant loads, but they may need assistance during impact loads. Shock loads can be difficult to avoid, especially if the mass is small. Clamp-style collars with an undercut in the shaft help to resist the impact of shock. Moreover, they offer positive stops in both axial directions.
Clamp-style shaft collars are a good alternative for set-screw collars. They are easy to install and prevent shaft damage. They also come with an added advantage of being easy to adjust. Clamp-style shaft collars have double the holding power of set-screw collars.
In addition to holding components, shaft collars can also function as spacers and limit shaft movement. They are essential for many applications. They are commonly used in motors and gearboxes to ensure correct positioning for power transmission. They are also used to control shaft movement in reciprocating applications.
editor by CX 2023-05-10