Product Description
OEM custom steel galvanized clamp shaft collar precision CNC machining parts 1 piece clamping collar single split shaft collar
Basic Information :
Tolerance | 0.02~0.1mm. |
Materials | Low, middle,high carbon steel / spring steel / Stainless steel 201, 301, 304, 316 / Aluminum / Brass / Bronze / Copper / Titanium / Plastic (PP, Nylon, PVC, APET) Brass or ABS,POM Ect And Customized raw material. |
Surface Finish | Heat treatment / Polishing,Electronic Polishing / (Zinc, nickel, chrome, tin, brass, glod, silver, titanium) Plating / Electrophoresis / Black Oxide / Hot-dip galvanizing / Powder Coating / Paint Coating / Blasting / Shot Blasting / Bead Basting / Anodizing / Phosphating / PAD Printing / Laser etching / Dacromet Coating / Enamel. |
Payment terms | Trade Assurance TT,paypal,Western Union,alipay,L/C. |
Packing Detail |
Inner Packing: PE bag / EPE Foam Packing / Anti-Rust Paper Packing / Blister / SMT / Vacuum Packing / Plastic Box Packing / Color Box Packing. Outter Packing: Stretch Film Packing / Carton / Pallet / Wood Case. |
Our Advantage
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Provide OEM/ODM service and assembling service, since 2000.
- One-stop purchasing service :Stamping part, CNC lathe part, CNC milling part, Springs, Shafts, fastener etc.
- The 2ndtier supplier of , factory audits passed.
- Product certification: RoHS, HE, vailable.
- Management certification: ISO/9001: 2015 and IATF16949 Passed.
Application: | Auto and Motorcycle Accessory, Hardware Tool, Machinery Accessory |
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Standard: | GB |
Surface Treatment: | Polishing |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | Order Sample Customized services
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Customization: |
Available
| Customized Request |
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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 purchase split collars with specific features suitable for use in conveyor systems?
Yes, you can purchase split collars with specific features tailored for use in conveyor systems. Split collars are commonly used in conveyor applications to secure pulleys, rollers, and other components to shafts. Here are the specific features and considerations for selecting split collars for conveyor systems:
- 1. Corrosion Resistance: In conveyor systems, which often operate in industrial environments, it’s essential to choose split collars made from materials with excellent corrosion resistance. Stainless steel split collars are a popular choice due to their resistance to rust and corrosion.
- 2. Self-Locking Mechanism: Some split collars are designed with self-locking features that prevent them from loosening over time. This is particularly important in conveyor systems to maintain the tight fit of components.
- 3. Quick Release: Quick-release split collars allow for easy installation and replacement of components, reducing maintenance downtime in conveyor systems. Look for collars with user-friendly locking mechanisms.
- 4. Precision Positioning: Conveyor systems require precise component positioning. Split collars with accurate clamping and positioning capabilities help maintain alignment and reduce tracking issues with conveyor belts.
- 5. Material Compatibility: Ensure that the split collars you choose are compatible with the materials used in your conveyor system, such as steel, aluminum, or plastic. The collar material should not cause wear or damage to the shaft or components.
- 6. Load Capacity: Consider the load-bearing capacity of the split collars. Conveyor systems may carry significant loads, so it’s important to select collars that can handle the expected loads without deformation or slippage.
- 7. Food-Grade Options: In conveyor systems used in food processing or pharmaceutical industries, it’s crucial to choose food-grade split collars that meet hygiene and safety standards. These collars are typically made from materials approved for such applications.
- 8. Dust and Debris Resistance: Conveyor systems in industrial settings often encounter dust and debris. Look for split collars that are designed to resist the ingress of particles, maintaining smooth operation.
- 9. Size and Shaft Compatibility: Ensure that the split collars you select are the right size for your conveyor system’s shafts. Consider the shaft diameter, width, and collar size to achieve a secure fit.
- 10. Technical Support: Collaborate with split collar manufacturers or suppliers who can provide technical support and guidance in choosing the most suitable collar features for your conveyor application.
When purchasing split collars for conveyor systems, it’s essential to consider the specific requirements of your application, including environmental conditions, load capacity, and the type of materials being conveyed. This ensures the smooth and reliable operation of your conveyor system.
What are the design considerations when utilizing split collars in machinery?
When using split collars in machinery, several design considerations are essential to ensure optimal performance and reliability. Here are key design considerations:
- 1. Shaft Material and Diameter: Select split collars compatible with the material and diameter of the shaft. Ensure a proper fit and consider any tolerances required for the application.
- 2. Collar Material: Choose the appropriate collar material based on factors such as corrosion resistance, temperature tolerance, and environmental conditions. Common materials include steel, aluminum, plastic, and stainless steel.
- 3. Collar Type: Determine whether a single-split, double-split, or triple-split collar is required based on the application’s holding power and torque requirements.
- 4. Fastening Method: Consider the fastening method, whether it’s set screws, clamping levers, or other mechanisms. Select the method that provides the necessary grip and ease of adjustment for your machinery.
- 5. Load and Torque: Calculate the anticipated loads and torque that the collar will need to withstand. Ensure the selected collar is rated to handle these forces without slippage or deformation.
- 6. Alignment and Precision: Proper alignment of split collars is crucial for accurate positioning of components on the shaft. Misalignment can result in uneven pressure and reduced performance.
- 7. Space Constraints: Assess space limitations and choose a split collar design that fits within the available space without interference with other components or machinery elements.
- 8. Environmental Conditions: Consider the operating environment, including temperature extremes, moisture, chemicals, and potential contaminants. Select collars with suitable coatings or materials to resist environmental factors.
- 9. Maintenance Access: Ensure that split collars can be easily accessed for maintenance and adjustments. Quick installation and removal are beneficial for reducing downtime during servicing.
- 10. Reusability: Determine whether the collars need to be reusable for frequent adjustments or if they are for one-time use. Reusable collars are designed for multiple installations and removals.
- 11. Industry Standards: Check if there are specific industry standards or regulations that apply to your machinery. Ensure that the chosen split collars meet these standards for safety and compliance.
- 12. Material Compatibility: Verify that the material of the split collar is compatible with the components it will contact on the shaft. Avoid materials that may cause galvanic corrosion or chemical reactions.
By carefully considering these design factors, you can select the right split collars for your machinery, ensuring they provide secure, precise, and reliable performance in your specific application.
Where can I find reliable suppliers for high-quality split collars suitable for various applications?
Finding reliable suppliers for high-quality split collars is essential to ensure the performance and reliability of your mechanical assemblies. Here are some sources to help you locate reputable suppliers:
- 1. Industrial Supply Companies: Established industrial supply companies often stock a wide range of mechanical components, including split collars. You can contact these companies and inquire about their product offerings and suppliers.
- 2. Online Marketplaces: Online marketplaces like Amazon, eBay, and Alibaba have numerous sellers offering split collars. Read product descriptions, reviews, and seller ratings to make informed decisions.
- 3. Manufacturer Websites: Visit the official websites of split collar manufacturers. Many manufacturers provide information about their products, specifications, and contact details for inquiries and purchases.
- 4. Local Distributors: Check if there are local distributors or dealers in your area who supply mechanical components, including split collars. Working with local distributors can provide convenience and support.
- 5. Industrial Trade Shows: Attend industrial trade shows and exhibitions related to mechanical components. These events often feature suppliers and manufacturers showcasing their products, allowing you to assess the quality of split collars in person.
- 6. Online Industrial Directories: Online industrial directories, such as Thomasnet and GlobalSpec, can help you search for suppliers and manufacturers of split collars based on your specific requirements.
- 7. Recommendations from Peers: Seek recommendations from colleagues, peers, or industry professionals who have experience with split collars. They can provide valuable insights into reputable suppliers.
- 8. Industry Associations: Contact industry-specific associations related to your field. They may have lists of approved suppliers and manufacturers of mechanical components, including split collars.
- 9. Specialty Suppliers: Some suppliers specialize in specific types of split collars or offer customized solutions. Explore specialty suppliers to find collars tailored to your unique application needs.
- 10. Reviews and Ratings: Utilize online reviews and ratings on platforms like Trustpilot or industry forums to assess the reputation and reliability of suppliers. High ratings and positive reviews are indicators of trustworthiness.
- 11. Request Samples: Some suppliers may offer samples or trial products to help you evaluate the quality of their split collars before making a bulk purchase.
When sourcing high-quality split collars, it’s crucial to consider factors such as material quality, precision engineering, and compliance with industry standards. Always communicate with potential suppliers to discuss your specific requirements and assess their ability to meet your needs.
editor by CX 2023-11-16
China OEM Propeller Nut for CZPT Outboard Engine E40g 40HP 676-45616-01 676-45616-A0 square shaft collar
Product Description
Product Description
676-45616-01 Propeller Nut for CZPT Outboard E40G 40HP 676-45616-A0
Company Profile
HangZhou Himarine Machinery Co.,Ltd is a new established trading company, specialized in outboard motor spare parts. Our staff team are from previous outboard motor manufacturing factory which improve our ability in sourcing spare parts in decent quality. Our team members are young and energetic, we have the very simple dream to grow our business together with our valued customers. Honest and spirit of contract are our principle and foundation.We look CZPT to have long term and win cooperation with our valued clients across the world.
1. how can we guarantee quality?
Always a pre-production sample before mass production;
Always final Inspection before shipment;
2.what can you buy from us?
HIMARINE spare parts are compatible with the most famous outboard motor brand,such as YAMAHA,SUZUKI,TOHATSU ect. We produce the high quality spare parts with economy power price.Our spare parts including the most consumable items like propellers,various size of gears,bearings,drive shaft,propeller shaft,impellers,water pump repairing kits,hardware parts,carburetor,reed valve,fuel pump,fuel filter,fuel pipe & joint,electrical parts like CDI,charging coil,pulser coil,lighting coil romote control systerm,steering systerm,Crank shaft,connecting rod,piston kits,Liners.
703 Remote Control Box | Crankshaft | Housing Bearing | Propeller Hardware kit |
Anode | Drive Shaft | Insert Cartridge | Pulser Coil Assy |
Bearing | Drum Sheave | Lanyard Stopper Switch | Reed Valve Assy |
Bolt | Filter Assy | Lighting Coil | Regulator Rectifier |
Bracket Clamp | Flywheel | Lower Unit Assy | Ring Cross Pin |
Bracket Steering | Fuel Connector | Mount Damper | Rod Tilt Lock |
Carburetor Assy | Fuel Line Assy | Nut | Seal Labyrinth |
Case Starter | Fuel Pump | Oil Seal | Silencer Assy Intake |
Casing Upper | Fuel Tank Assy | O-Ring | Spark Plug |
CDI Unit Assy | Gasket | Outer Plate Cartridge | Spring |
Charge Coil | Gears | Pawl Drive | Starter Assy |
Clutch Dog | Grip Steering Handle | PIN DOWEL | Starter Motor |
Coil Ignition | Xihu (West Lake) Dis. Exhaust | Piston | Top Cowling Assy |
Connecting Rod | Handle Starter | Propeller | Water Pump Impeller |
Crankcase Assy | Handle Steering Assy | Propeller Shaft | Water Pump Repair Kit |
3. why should you buy from us not from other suppliers?
Mechanic with 10 years factory expierence. Deeply cooperated with various factories. Customer value oriented principle . Always be honest and helpful to customer. Always support customers who want to grow together with us.
4. what services can we provide?
Accepted Delivery Terms: FOB,CIF,EXW,DDP;
Accepted Payment Currency:USD,CNY;
Accepted Payment Type: T/T,L/C,PayPal;
Language Spoken:English,Chinese
Frequently bought together
product name | Spare parts No |
WATER TUBE ASSY | 6BX-G4360-00-00 |
ANODE | 68D-G5251-00-00 |
BOLT,FLANGE | 95895-06012-00 |
WASHER, INTERNAL TOOTH | 92990-06300-00 |
BOLT, WASHER | 90119-06253-00 |
COLLAR | 90387-06806-00 |
SPACER1 | 68D-G5987-00-00 |
NUT, PROPELLER | 6L5-45616-00-00 |
PIN.COTTER | 91490-25030-00 |
WASHER, PLATE | 95711-08M54-00 |
PROPELLER(3X7-1/2″X8″-BA) | 6E0-45941-01-EL |
PROPELLER (3X7-1/2″X7″-BA) | 6E0-45943-01-EL |
PROPELLER (3X7-1/4″X6-1/2″-BA) | 6E0-45949-00-EL |
PROPELLER (3X7-1/4″X8-1/4″-BA) | 6E0-45952-00-EL |
PROPELLER (3X7-1/2″X9″-BA) | 6E0-45954-00-00 |
After-sales Service: | 6 Months |
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Warranty: | 6 Months |
Material: | Alloy |
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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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What Is a Shaft Collar?
A shaft collar is a simple machine component, but its function is important in many power transmission applications. Most commonly, shaft collars are used in motors and gearboxes. They can act as locating components, bearing faces, and mechanical stops. Their compact design makes them easy to install. In addition, they provide a clean, simple look for your gearbox or motor.
Sizes
There are a variety of sizes of shaft collars. Each type has different parameters and requirements. These specifications can be found on the manufacturer’s website. These dimensions are important for the selection process. In order to determine which size is best for your needs, first identify the system parameters and limitations that you’ll be using.
Shaft collars are available in a variety of sizes and materials. These pieces can range in thickness from just a few millimeters to several inches. A solid steel shaft collar is usually available from 1/8″ to six inches. The material used for shaft collars is either 304 stainless steel or lead-free steel.
The oldest style of shaft collar is the set collar, which uses a hardened set screw to penetrate the shaft surface. It is ideal for holding bearings, spacers, and sprocket hubs. These collars are typically installed using hex keys, which are six-sided L-shaped tools, also known as Allen Wrenches. These collars are useful for many different machine applications, and are often used in conjunction with springs and dampers to hold components in place. They are also useful as mechanical stops, stroke limiters, and bearing holders.
Shaft collars come in one-piece and two-piece designs. A one-piece collar provides uniform holding force on the shaft, whereas a two-piece shaft collar is stronger and can be assembled anywhere on the shaft. Shaft collars are generally available in English and metric units, and the manufacturer can alter the dimensions of any standard collar to meet your needs. For more unique situations, you can also choose a fully customized shaft collar that is specific to your application.
Functions
A shaft collar is a metal or plastic device used to locate and position components on a shaft. It also limits the movement of the shaft. These devices can be found on a wide variety of applications, including motor assembly components. There are many types of shaft collars. To help you find the right shaft collar for your application, you can use Thomas Supplier Discovery Platform. The platform has over 70,000 product categories to help you find the right solution.
Clamp-type collars are reliable under constant loads, but may require additional support under shock loads. A shock load is a force generated by a relatively small mass that is rapidly increased by impact. Clamp-style collars are designed to counteract this force, and an undercut on the shaft may help them stay firmly in place. Clamp-style collars are also available in two-piece designs, which offer a high holding force and ease of assembly.
A shaft collar is an important machine component. It holds and positions sprockets on a shaft. It also acts as a mechanical stop, and helps prevent a shaft from slipping. They can also be used to limit the movement of cylinders and actuators. These simple components are found in virtually every type of machinery.
The torque-generating force in a set-screw shaft collar is absorbed by friction between the threads and the clamp body. The friction between these parts helps compensate for the lost torsioning effort, which can lead to the collar failing to hold. Alternatively, a torque wrench can help control the final torque of the shaft collar.
Types
There are many different types of shaft collars available for different applications. It is important to understand the characteristics of each to find the right one for your application. The most common shaft collars are made from steel or aluminum, but some are also made of plastic. These are relatively inexpensive and lightweight, but their holding power is limited. Titanium shaft collars are much lighter than aluminum and are resistant to extreme temperatures, but they are only used in a few specific applications.
Another type is a clamp collar, which is mounted using a compression method. Compared to the set screw type, clamp collars are much stronger and have a higher holding power. Clamp collars come in either a one-piece or two-piece design. One-piece collars are used in applications where the shaft is split and requires a positive stop.
The strength of a shaft collar depends on the type of screw used to attach it to the shaft. The screw’s strength and diameter will affect the holding power of the shaft collar. In most cases, a manufacturer will offer the proper screw with the collar. In some cases, however, a non-standard screw may be more appropriate.
The set screw collar is one of the oldest types. Its disadvantage is that it can be difficult to move and may damage the shaft. Also, it is not as secure as a clamp-based collar. In addition, two-piece hinged shaft collars are the most convenient. One-piece collars are difficult to move, while two-piece collars can be moved easily along the shaft without separating components.
Dimensions
Shaft collars are a complex component and their dimensions are crucial to the performance of the application. Designing a shaft collar requires consideration of a variety of factors, such as the type of material, bore size and geometry of the shaft. The manufacturer of a shaft collar will usually publish performance data on its website, or users can contact them for assistance.
The material used in shaft collars has a significant impact on the collar’s strength and its holding capacity. Shaft collars should be made from a high-quality, corrosion-resistant material. The strength of the screw also plays an important role in the collar’s holding capacity. Generally, a collar’s manufacturer will provide the appropriate type of screw for the application. However, in some cases, a non-standard screw may be necessary.
Shaft collars are available in a variety of styles. One-piece collars are often used in applications where there is minimal or no disassembly or adjustment required. Alternatively, two-piece collars may be used when frequent disassembly is needed. Regardless of the style, the size of shaft collars should be consistent with the requirements of the assembly.
Shaft collars are made from steel or aluminum. They offer good holding power and are lightweight. Steel shaft collars are durable and have good corrosion resistance. However, the grade of steel can affect their performance. Stainless steel collars are easier to machine and have improved corrosion resistance. However, they may reduce the holding power.
Stainless steel
A stainless steel shaft collar is a simple mechanical component used to secure a shaft. It is used for many different applications, most commonly in motors and gearboxes. They also function as locating components, mechanical stops, and bearing faces. These collars are available in different sizes and can be used for a variety of different purposes.
Shaft collars come in various materials, including stainless steel, aluminum, and polyamide. They are available with a variety of different finishes, including electroless nickel plating. Stainless steel shaft collars are available in various diameters, including 5/16 in. through 5/8 in. They are also available in single and double split styles.
CZPT offers a full line of stainless steel shaft collars in both 303 and 316 stainless steel. These collars are resistant to corrosion caused by water and a wide variety of commercial-grade cleaning agents. They are also supplied with fastening hardware of similar material. For added durability, CZPT shaft collars are also available in engineered plastic.
Stainless steel shaft collars can be easily adjusted for the proper torque. They come in various sizes and are easy to install and remove. They can also be re-bored if necessary. One type of shaft collar is quick-clamp, which is equipped with a clamping lever and a handle. It’s ideal for frequent setup and adjustment.
Quick-clamp shaft collars
Quick-clamp shaft collars are a simple and convenient way to secure a shaft. They have a flush handle that sits flush with the outside diameter of the shaft and can be easily adjusted by hand. They are made from lightweight aluminum and stainless steel hardware that does not mar the shaft.
These shaft collars replace standard hardware and are easy to install and remove. Quick-clamp shaft collars are available in one, two, and three-piece clamping styles. Some quick-clamp shaft collars have an integrated hinge and countersunk mounting holes for easy mounting. They can also have a knurled nut for easier locating.
Quick-clamp shaft collars are a convenient option for many types of packaging machinery. They can be installed and adjusted with no tools, making them an efficient choice for frequent changeovers and setups. CZPT offers two types of quick-clamp shaft collars. The first type has a cam lever that sits flush with the outside diameter and is finger operated. The second type has an adjustable tension-adjustment screw for easy adjustment. Both designs are ideal for low-rpm applications where frequent changeovers are needed.
Quick-clamp shaft collars are made of black anodized aluminum and steel fasteners. These shaft collars are available in sizes ranging from 0-300mm and in various designs. A quick-clamp shaft collar has a high load-bearing capacity, and a high torque capacity. Axial load capacities and torque specifications are non-binding guidance values and do not represent a warranty or guarantee of their characteristics.
editor by CX 2023-11-08
China Best Sales OEM D35488 Rear Dana35 Tiller Gearbox Transmission CZPT CZPT Wheel Pinion Gear with Competitive Price for Sale clamping two-piece shaft collar
Product Description
Product Description
Car Fitment | Jeep Wrangler |
OE No. | D35488 |
Speed Ratio | 8*39 |
Type | Differential Gear |
Material | 20CrMnTi/ 8620 |
Hardness | HRC58-62 |
Treatment | Carburizing,Hardening, tempering,high frequency treatment,black coating,zincing,nickelage |
We can make all kinds of CZPT Wheel Pinion as per your drawing or sample by our DHL account.
D3571 | 11/41 | CJ5/7/8 CZPT 30 FRONT STD.3.73 72-86 |
D3571TJ | 11/41 | TJ (97-06) FRONT CZPT 30 3.73 (SHORT STYLE) |
D3571 | 10/41 | CJ5/7 CZPT 30 FRONT STD.4.10 |
D3571R | 10/41 | YJ(87-95) FRONT CZPT 30 REVERSE 3.73 XJ(84-91) |
D3571TJ | 10/41 | TJ (97-06) FRONT CZPT 30 4.10 (SHORT STYLE) |
D3 0571 | 9/41 | CJ5/7/8 CZPT 30 FRONT STD.4.56 72/86 |
D3 0571 R | 9/41 | YJ(87/95) FRONT CZPT 30 REVERSE 4.56 XJ(84-91) |
D3 0571 TJ | 9/41 | TJ(97-06( FONT CZPT 304.56 (SHORT STYLE) XJ(92-01) |
D30488 | 8/39 | CJ5/7 CZPT 30 FRONT STD.4.88 72-86 |
D30488R | 8/39 | YJ(87-95) FRONT CZPT DANA 30 REVERSE 4.88 XJ(84-91) |
D30488TJ | 8/39 | TJ FRONT CZPT 30 4.88 (SHORT STYLE) |
D3571JK | 8/41 | YJ(07-21) FRONT DANA30 5.13 |
D35712(47715) | 18/49 | |
D35373 | 11/41 | YJ/TJ CZPT 35 REAR 3.73 |
D35411 | 10/41 | YJ87-95 /TJ97-06/XJ93-07 CZPT 35 REAR 4.10 |
D35456 | 9/41 | YJ/TJ CZPT 35 REAR 4.56 |
D35488 | 8/39 | YJ/TJ CZPT 35 REAR 4.88 |
D44373 | 11/41 | TJ REAR CZPT 44 3.73 |
D44409 | 11/45 | TJ REAR CZPT 44 4.10 22745 |
D44456R | 9/41 | DANA 44 4.56 REVERSE |
D44455 | 11/50 | TJ REAR CZPT 44 4.56 22105 |
D44455X | 11/50 | |
D44488R | 8/39 | DANA 44 4.88 REVERSE |
D44489 | 9/44 | TJ REAR CZPT 44 4.88 23053 |
D44489X | 9/44 | |
D44488X | 8/39 | RUBICON FROUT/REAR CZPT 44 4.88 |
D44513R | 8/41 | DANA 44 5.13 REVERSE |
D44513 | 8/41 | TJ REAR CZPT 44 5.13 |
D44513X | 8/41 | RUBICON FROUT/REAR CZPT 44 5.13 |
D5 0571 | Sep-41 | |
D50488 | Aug-39 | |
D5571 | Aug-41 | |
D44-4-373 | Nov-41 | 85719 |
D44-4-342 | Dec-41 | 80364 |
D44-4-353 | 46/13 | 75945 |
D44-4-307 | 43/14 | |
D44-4-346 | Nov-38 | 84707 |
D44463 | 37*8 | 74960 |
D44410 | 41*10 | 80320 |
D44373 | 41*11 | 22736X |
D44456 | 41*9 | 85713 |
D44323 | 42*13 | 28744 |
D44331 | 43*13 | 23592X |
D44307 | 43*14 | 22106X |
D44354 | 46*13 | 22856X |
D44427 | 47*11 | 23064 JEEP WILLYS 11*47 8125051 ANO 1985(CJ6) |
D44427X | 47*11 | CHRYSLER |
D44538 | 43*8 | |
D44-3-342 | 41*12 | 660150 |
D6571 | 37*9 | 74905 CZPT 3F,D60-411,9X37 |
D6571 | 41*10 | 24807(FORD250) |
D6571 | 41*11 | 25538 |
D6 0571 | 46*13 | 24813 |
D6 0571 | 41*9 | FORD F250 |
D6 0571 X | 41*9 | |
D6571 | 41*8 | |
D6571R | 41*8 | |
D60586 | 41*7 | |
D6571 | 43*8 | Isuzu NHR,D60-586 7*41 |
D6571R | 43*8 | |
D60488 | 39*8 | |
D60488R | 39*8 | |
D70488 | 39*8 | 72148 |
D7571 | 41*10 | 72153 |
D7571 | 41*11 | 72159 |
D7571 | 41*8 | 72150 C30/P30 F350 41*8 5.3 |
D7 0571 | 41*9 | 72152 CZPT F350 75-80 |
D7 0571 X | 46*13 | 72168 |
D70-1-410 | 41*10 | 72154 CZPT F350 BAJA 75/80 41*10 4.10 |
D70586 | 41*7 | 72156 D300/P300 41*7 5.86 |
D75-410 | 41*10 | BA457171-X CZPT Cargo |
D75-462 | 37*8 | BA457104-X |
D8571 | 41*8 | 73168 |
D8571 | 41*10 | 73200 |
D8571X | 41*40 | |
D80430 | 43*10 | 76128 |
D80488 | 39*8 | 76138 |
D80463 | 37*8 | 73167 |
D8571 | 41*11 | 76256 |
D8 0571 | 46*13 | 73353 |
Company Profile
HangZhou CZPT Machinery is a professional manufacture of spiral bevel gear. The company has CNC milling machine, the GLEASON milling machine, rolling inspection machine, gear measuring center, a full set of metallographic analysis, inspection equipment and other related advanced equipment.
Our company owns gear measuring center equipped with advanced testing machines such as contourgraph, universal measuring microscope and full set netlaaographic analysis detector. According to various technical requirements and through procedures of sampling, special inspection and re-examination, multi-indexes of gears like observation, measurement and tracking can be completed.
With our high quality products, high credibility and trusty cooperation, aiming to be a highly specialized gear manufacturer of high level and all-directional service,we are looking CZPT to your business negotiation and our promising cooperation.
FAQ
Q1: Are your products standard?
A: Our model is standard, if you have specific demand, pls tell us the details.
Q2: What is you main categories?
A: Commercial Vehicles Like Isuzu,Nissan, Hino, CZPT ,Toyota , Mazda ,Suzuki, Agricultural Machinery and Electric Storage.
Q3: If we don’t find what we want on your website, what should we do?
A: You can email us the descriptions and pictures of the products you need, we will check whether we have them.
B: We develop new items every month, and some of them have not been uploaded to website in time. Or you can send us sample by express, we will develop this item for bulk purchasing.
Q4: What is your terms of payment?
A: T/T 30% as deposit, and 70% before delivery. We’ll show you the photos of the products and packages before you pay the balance.
Q5:Do you test all your goods before delivery?
Yes, we have 100% test before delivery.
Application: | Motor, Electric Cars, Motorcycle, Machinery, Agricultural Machinery, Car |
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Hardness: | Hardened Tooth Surface |
Gear Position: | External Gear |
Manufacturing Method: | Cut Gear |
Toothed Portion Shape: | Curved Gear |
Material: | Cast Steel |
Customization: |
Available
| Customized Request |
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Common Uses for the Shaft Collar
The shaft collar is a relatively simple machine component, but one of the most important in many power transmission applications. It is most often used in gearboxes and motors, where it serves as a locating component, bearing face, and mechanical stop. Its simple design allows for easy installation and makes it ideal for a range of applications. Listed below are some of the most common uses for the shaft collar. Learn more about this important machine component.
Single split
Two-piece shaft collars are an excellent option for applications where a single piece collar is not practical. They provide the same benefits as one-piece collars, but with more convenience when installing. The two-piece collar has a clamp style, which allows the collar to be adjusted with a hand tool. They are suitable for light-duty applications and come in a variety of diameters. In addition to shaft diameters, collars are available with different threaded bore sizes. Shaft diameters are usually measured in mm. They can be easily installed and disassembled by removing the cap screws from each side.
Single split shaft collars come with a machine screw that tightens the clamp around the shaft. This ensures a tight, secure fit and better holding power than solid collars. They are easy to install, remove, and adjust, and work on virtually all types of shafts. The machine screw helps to prevent the collar from ripping the shaft.
Shaft collars come in a variety of materials. Typical materials include stainless steel, alloyed steel, and nylon. They are also available in custom sizes. If you want a specific size, be sure to specify that when ordering. These collars are made of quality materials, and they will hold up to the most rigorous applications.
Heavy duty shaft collars are manufactured from higher-grade materials than standard collars. They have a larger outer diameter, wider flange, and a larger screw for increased holding power. These collars are typically used in short-term, rigid coupling applications, and they are available in one-piece and two-piece clamp styles. These collars are typically made from 1215 lead-free steel or 303 stainless steel. Some of them can be finished with an anodized finish.
Mountable shaft collars are used to mount sensors, fixtures, and other assemblies. There are three different styles of mountable shaft collars: flange collars, flat collars, and quick-release collars. The material used for shaft collars can be 1215 lead-free steel with a black oxide finish, high-strength aluminum, and 303 stainless steel.
Solid
A solid shaft collar is a shaft coupling that is used to connect two shafts. They can be made of a variety of materials, including steel, zinc plated, and stainless steel. In addition, they come with various finishing options, including a zinc plated or black oxide finish. In addition, they can be made to fit a variety of shaft sizes and types.
Shaft collars are a simple, yet essential part of machine design. They can be found in virtually any piece of machinery. They can serve a variety of functions, including holding bearings on shafts, positioning components within motor assemblies, and acting as mechanical stops. While they can serve a variety of functions, they are most commonly used as bearing faces, mechanical stops, and locating components. They are also easy to install and tighten, making them a popular choice for a variety of different applications.
Solid shaft collars are available in two types: one-piece and two-piece. The two-piece collars are generally more rigid, offering better clamping force. However, they require more seating torque than the one-piece clamp collar. This is because there are more screws to tighten the two-piece collar than the single-piece collar.
One type of solid shaft collar is the set screw collar. Its holding power comes from the set screw, which is tightened onto the shaft. Ideally, the set screw should impinge on the shaft, and bite into it. The screw should be made of a softer material, as a harder material would reduce its holding power. However, the set screw collar can be adjusted by milling small flats into the shaft at the locations of the set screw.
A solid shaft collar is a simple machine component used in various power transmission applications. The most common places where it is used include motors, gearboxes, and bearings. Their simple design makes it easy to install and maintain. Unlike early versions, however, which were primarily made of square-headed set screws, modern shaft collars feature recessed set screws.
lamping-style
A Clamping-style shaft collar is an essential component of a gearbox or motor. Its high holding power allows it to hold components securely in place and ensure proper power transmission. These collars are also commonly used as spacers or to limit the movement of shafts during reciprocating motion.
These collars come in a variety of styles, including the double-split and semi-split varieties. They are ideal for repetitive positioning and are available in steel and stainless steel. They also feature a quick release element. And the index lever makes them easy to adjust or repair.
There are several different styles of shaft collars, including the Clamping-style shaft collar. The Clamping-style collar is one of the most commonly used in industrial settings. Its clamp is attached to the shaft by screws and has a hinge on one side. This feature eliminates the risk of the screws becoming dislodged while operating the machine.
Clamping-style shaft collars are generally made of steel or stainless steel. They can be made of aluminium, but this material has lower holding power. Stainless steel collars are a good choice for cleanroom environments because they do not outgas. They also require less maintenance. If you’re uncertain which style to choose, consult with a specialist in your field.
Clamping-style shaft collars are commonly used on industrial machinery and are an important part of gearbox maintenance. If you’re planning to install one, make sure you measure it carefully before you install it. If you don’t, you may damage the shaft or endcap. And while you’re at it, be sure to check for any kinks before you use it.
Set screw
Set screw shaft collars are the most cost-effective type of shaft collar. Available in bore sizes ranging from 3/16″ to 4″, they offer increased holding power and torque capacity. Additionally, they come with a keyway in case the shafts are keyed. Commercially produced shaft collars are non-magnetic and made of 303 stainless steel. They also come with one set screw per collar.
Shaft collars can be made of aluminum, steel, or a combination of steel. They serve multiple purposes including mechanical stops and stroke limiters, and can be adjusted for the correct fit. They are easy to install and remove, and they provide high clamping power. Custom designs are also available. They can be made of different materials to suit your specific needs.
Set screw for shaft collars are commonly used in transmission and machinery applications. Set screw shaft collars can be adjusted using a screw driver. When tightened, the set screw bites into the shaft material and holds it in place. When used properly, they can reduce the amount of torque required to hold components in place.
Shaft collars come in a variety of sizes. In general, shaft collars can range from 5/64″ to one inch in diameter. In addition, you can choose between metric and inch-sized shaft collars. When choosing a shaft collar, it is important to consider the size and bore diameter of the shaft.
editor by CX 2023-06-06
China OEM Gcr15 Bearing Steel Auto Parts 3D Printer Chrome Plated Hardness Linear Piston shaft collar aliexpress
Product Description
Product Description
Product description
Linear shaft features
Items |
Linear shaft |
Flexible shaft |
Hollow shaft |
Material |
CK45, SUJ2 |
CK45 |
SUJ2 |
Heat treatment |
Induction hardened |
Not hardened |
Induction hardened |
Surface hardness |
HRC58±2 |
HRC15±3 |
HRC60±2 |
Surface treated |
Hard chrome plated |
Hard chrome plated |
Hard chrome plated |
Precision |
h7, g6, h6 |
h7, g6 |
h7, g6, h6 |
Roundness |
Max3.0µm |
Max3.0µm |
Max3.0µm |
Straightness |
Max5.0µm |
Max5.0µm |
Max5.0µm |
Chrome thickness |
20-30µm |
30µm |
30µm |
Roughness |
Max1.5µm |
Max1.5µm |
Max1.5µm |
Process machinized |
Threading, reduced shaft dia,coaxial holes drilled and tapped, flats-single or multiple, key way, snap ring grooves, radial holes drilled and tapped, chamfering |
Linear shaft description
ERSK Linear offers linear shafting in a variety of different options to meet a wide range of customer needs. Available in hardened steel, CK45 material steel, SUJ2 material steel, hollow steel , inch and metric, Simplicity Shafting maintains the ideal surface finish for linear plain bearings and ball bearings.
· CZPT round shafting is available in inch sizes from 3/16″ thru 4″ and metric sizes from 3 mm thru 80 mm
· Machining available CZPT request
High Reliability
ERSK linear shaft has very straight quality control standards covering every production process. With proper lubrication and use, trouble-free operation for an extended period of time is possible.
Smooth Operation
The high efficiency of linear shaft is vastly superior to conventional shaft. The torque required is less than 30%. Linear motion can be easily changed from rotary motion.
High Durability
Rigidly selected materials, intensive heat treating and processing techniques, backed by years of experience,have resulted in the most durable linear shaft manufactured.
Induction linear shaft, Flexible linear shaft,
linear bearings shaft, hollow linear shaft,
hardened linear shaft, chromed linear shaft
Application
For delicate application in industrial application, machine tool and automation application.
Linear Shafts – Technical Properties.
Test linear shaft surface roughness the max roughness is Ra0.4um |
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Straight the linear shaft straightness: We control the traighness 0.05mm of linear shaft 300mm |
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Test hardness: S45C materail induction linear shaft, the hardness is HRC55-58 GCr15 (SUJ2) materail induction linear shaft, the hardness is HRC58-63 If flexible shaft, the hardness is based on the shaft material itself |
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Test the linear shaft dia precision, as usually, h7 is the normal tolerance in our stock, But we can offer g6, h6 precision too. if any special tolerance, we are able to customize them for you. |
We can machinize all kinds of machining,
Related products
Related products
There are many kinds of products we can offer, If you are interested in them, please click the picture and see the details.
Production Flow
Over service
Over Service
Packaging & Shipping
Packaging and shipping
PP bag for each linear shaft, Standard exported carton outside for small order shipping by international express, such as DHL, TNT, UPS
Wooden box outside for big quantity or very long linear shaft by sea, by air
Company Profile
Company information
Our principle
Material: | Gcr15 |
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Load: | Drive Shaft |
Stiffness & Flexibility: | Stiffness / Rigid Axle |
Journal Diameter Dimensional Accuracy: | H7, H6, G6 |
Axis Shape: | Straight Shaft |
Shaft Shape: | Real Axis |
Samples: |
US$ 3/Meter
1 Meter(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How to Choose the Right Shaft Collar
A shaft collar is a small, inexpensive machine component that serves a variety of purposes in power transmission. It is most commonly used in gearboxes and motors. It can serve as a mechanical stop, bearing face, or locating component. Its simple design makes it easy to install. Here are some of the most common types and their functions.
Function
Shaft collars are an important part of many mechanical systems. These devices hold mechanical components on a shaft and also help mount shafts on flat surfaces. They are available in many different styles, sizes, and materials. Selecting the right shaft collar is essential in preventing damage to components. Stafford Manufacturing, a leading manufacturer of shaft collars and other related mechanical components, can help you choose the right one for your application.
There are two main types of shaft collars. The first is the Heavy Duty type. It has a larger outer diameter and wider opening. While this may seem to increase holding power, the problem with that is that it can reduce the amount of space the collar has on the shaft. On the other hand, the Thin Line type is similar, but is made with smaller outer diameters. Another type is the Threaded Bore shaft collar. These shaft collars offer exceptional axial holding power, and are designed to protect threaded shafts without causing any damage.
A shaft collar has many uses and is typically used in industrial applications. It can act as a spacer and to stop shaft movement in reciprocating applications. It can also be used to align and position parts of automation machinery.
Types
There are several different types of shaft collars. These components are critical for a variety of applications, and their design plays a large role in the performance of the resulting product. To select the most appropriate collar, designers must consider several factors, including the style, material, bore size, and geometry of the shaft. Many manufacturers provide performance data, and users can contact them for assistance.
There are many different types of shaft collars, which make it important to understand how each one works and what applications they can serve. Fortunately, shaft collars are easy to install and require little maintenance. Whether you need to secure industrial railings or position medical equipment, shaft collars are a versatile component that can be tailored to meet your needs.
One type of shaft collar is the locking collar. This type of shaft collar has a threaded end that is designed to mate with spindle bearings. They offer an increased TIR than standard shaft collars and allow for precise preload control. They also feature slots for spanner wrenches.
Sizes
Shaft collars come in a variety of sizes. You can get a small diameter shaft collar for small equipment, or a large diameter shaft collar for larger equipment. Both styles are made from solid steel, and they come in several thicknesses. You can choose between one-half inch and six-inch collars, depending on your needs.
There are no specific standards for shaft collars, but most manufacturers have similar designs. They’re either single-point faced or double-split, and can be fine or coarse threaded. They’re often used as mechanical stops, bearing faces, or as locating components. Their bore is either fine or coarse, and their outside diameter and width are determined by the shaft diameter.
Shaft collars are commonly found in mechanical and automation equipment. These ring-shaped devices hold motor components, sprockets, and bearings in place. They also allow them to be adjusted and positioned precisely. A shaft collar is often used to connect the end of a shaft to a mechanical stop.
Another type of shaft collar is called a set collar. It has a recessed area for a screw to bite into a shaft. These collars are perfect for holding sprocket hubs, bearings, and spacers. They can also be used as a rigid coupling.
Cost
When choosing a shaft collar, consider its intended application and cost. Some shaft collars are very expensive while others are quite affordable. Choose one that meets the needs of your assembly. If you’re using the shaft collar infrequently, a clamp style or a set screw style may be a better choice. Then, you can easily adjust or disassemble it with just a few tools. If you’re using it more frequently, choose a two-piece shaft collar.
The material of the shaft collar is also an important consideration. Steel and stainless steel are common choices. While both materials are strong and durable, steel tends to have better holding power. However, aluminum shaft collars are lighter and provide better strength-to-weight ratio. The type of material you choose depends on the amount of corrosion protection you need, and whether you’ll need the collar to resist extreme temperatures. If the shaft collar is going to be used in a hot environment, you may want to go with a titanium collar.
There are many different sizes and types of shaft collars. The type of collar you choose depends on the specific application and the system it’ll be used in. Consider the dimensions of your shaft, the material of the shaft, and the length of the shaft to find the right fit. If you’re not sure what size you need, ask a manufacturer for help.
Placement on shaft
In some applications, the placement of the shaft collar can be critical to the overall performance of the machine. The collar’s design must take many factors into account, including material, style, bore size, and shaft geometry. If a user is uncertain of the proper placement of their collar, they should refer to the manufacturer’s website for guidance.
While shaft collars may look simple, they’re actually essential mechanical components that are used in almost every type of machinery. Despite their ubiquitous use in every industry, they are often underappreciated due to their complexity. Many people aren’t aware of their importance or the various types of collars available. This shaft collar guide will provide detailed information to help you find the right shaft collar for your specific application.
The surface treatment of the shaft collar is another important factor that contributes to its holding power. The most common treatment is a black oxide finish. This finish enhances screw torque while preserving the frictional properties of the bore. This finish can be further optimized by applying light oil to the screw. Zinc plating is also a good option for shaft collars. This material offers better corrosion resistance, but can reduce holding power.
Clamp style
A clamp style shaft collar is a simple and effective tool for securing shafts in machine tools. Its two-piece design allows for quick and easy positioning adjustments and has greater holding power than set screw collars. In addition, its friction-based connection maintains ease of use and prevents shaft damage. This type of collar is also more corrosion resistant than set screw collars.
There are several different types of shaft collars, including single and double split collars. Single-piece clamp collars are anchored into the shaft with a single tangential screw, whereas double-piece collars are anchored to the shaft with two socket cap screws. The latter type provides more stability and axial holding power and is suitable for rotating assemblies. A single or double-piece clamp collar can also be threaded to allow for precise positioning along the shaft. Its internal threads also provide enhanced support for high axial loads and act as a positive mechanical stop.
There are different types of shaft collars, each with its own set of advantages and disadvantages. A set-screw collar may be preferred over a clamp-style shaft collar, but it’s not the only choice. A set-screw collar can severely mar the shaft and can prevent fine adjustments. However, it is a good idea to use the torque wrench when tightening a shaft collar.
Zinc plated
Zinc plated shaft collars are available in a variety of sizes. They are precision machined from cold finished steel bar stock and zinc plated for corrosion resistance. They are also very attractive. They are made in the USA. Whether you need a zinc-plated shaft collar for a simple repair or a more complicated installation, Lovejoy has the right solution for your needs.
The CZPT MSP-12-FZ two-piece shaft collar has a 12mm bore, 28mm OD, and 11mm width. Its clamp style design allows you to easily install and remove the shaft collar. It is easily adjustable and is stamped with the CZPT name.
editor by CX 2023-05-29
China OEM Machinery Part Roller Chain Coupling Aluminum Case Sprockets Shaft Flexible Coupling shaft collar coupling
Product Description
Process: |
CNC Machining, turning,milling, lathe machining, boring, grinding, drilling,broaching, stamping,etc… |
Surface treatment: |
Clear/color anodized; Hard anodized; Powder-coating;Sand-blasting; Painting; |
Nickel plating; Chrome plating; Zinc plating; Silver/gold plating; |
|
Black oxide coating, Polishing etc… |
|
Gerenal Tolerance:(+/-mm) |
Gear grade :7Gread (ISO) |
Run Out:0.005mm |
|
Roundness:0.001mm |
|
ID/OD Grinding: 0.002 |
|
Roughness : Ra 0.05 Rz 0.2 |
|
Certification: |
IATF 16949, ISO140001 |
Experience: |
16 years of machining products |
Packaging : |
Standard: carton with plastic bag protecting |
For large quantity: pallet or wooden box as required |
|
Lead time : |
In general:30-60days |
Term of Payment: |
T/T, L/C |
Minimum Order: |
Comply with customer’s demand |
Delivery way: |
Express(DHL,Fedex, UPS,TNT,EMS), By Sea, By air, or as required |
ZheZheJiang nlead Precision Co., Ltd. which focuses on CNC machining, including milling, turning, auto-lathe turning,holing,grinding, heat treatment from raw materials of bars, tube, extruded profiles, blanks of cold forging & hot forging, aluminum die casting.
We provide one-stop service, from professional design analysis, to free quote, fast prototype, IATF16949 & ISO14001 standard manufacturing, to safe shipping and great after-sales services.During 16 years, we have win lots of trust in the global market, most of them come from North America and Europe.
Now you may have steady customers, and hope you can keep us in the archives to get more market news.
Sunlead produce all kinds of machining parts according to customer’s drawing, we can produces stainless steel Turned parts,carbon steel Turned parts, aluminum turned parts,brass & copper turned parts.
Please feel free to send inquiry to us, and our professional sales manager will get back to you ASAP!
FAQ:
Q1: How can I get the samples?
A: If you need some samples to test, you should pay for the transportation freight of samples and our samples cost.
Q2: Can we have our marking,Logo or company name to be printed on your products or package?
A: Sure. Your marking,logo,or company name can be put on your products by Laser machine
Q3: How to order?
A: Please send us your purchase order by Email, or you can ask us to send you a Performa invoice for your order. We need to know the following information for your order.
1) Product information-Quantity, Specification ( Size, Material, Technological and Packing requirements etc.)
2) Delivery time required
3) Shipping information-Company name, Street address, Phone&Fax number, Destination sea port.
4) Forwarder’s contact details if there’s any in China.
Q4: When can you get the price?
We usually quote within 48 hours after we get your inquiry. If you are very urgent to get the price, please call us or tell us in your email so that we will regard your inquiry priority. Kindly note that if your inquiry is with more details then the price we quote will be more accurate.
Q5: How can you get a sample to check our quality?
After price confirmation, you can require for samples to check our quality.
Q6: What kind of files do we accept for drawing?
A: PDF, CAD,STP,STEP
Q7: What about the lead time for mass production?
Honestly, it depends on the order quantity and the season you place the order. Generally speaking,it would need about 30-60days to finish the sample.
Q8: What is our terms of delivery?
We accept EXW, FOB, CFR, CIF, DDU, DDP, etc. You can choose the 1 which is the most convenient or cost effective for you.
Application: | Fastener, Auto and Motorcycle Accessory, Hardware Tool, Machinery Accessory |
---|---|
Standard: | GB, EN, China GB Code |
Surface Treatment: | as Requiried |
Production Type: | Mass Production |
Machining Method: | CNC Machining |
Material: | Steel, Brass, Alloy, Copper, Aluminum, Iron |
Common Uses for the Shaft Collar
The shaft collar is a relatively simple machine component, but one of the most important in many power transmission applications. It is most often used in gearboxes and motors, where it serves as a locating component, bearing face, and mechanical stop. Its simple design allows for easy installation and makes it ideal for a range of applications. Listed below are some of the most common uses for the shaft collar. Learn more about this important machine component.
Single split
Two-piece shaft collars are an excellent option for applications where a single piece collar is not practical. They provide the same benefits as one-piece collars, but with more convenience when installing. The two-piece collar has a clamp style, which allows the collar to be adjusted with a hand tool. They are suitable for light-duty applications and come in a variety of diameters. In addition to shaft diameters, collars are available with different threaded bore sizes. Shaft diameters are usually measured in mm. They can be easily installed and disassembled by removing the cap screws from each side.
Single split shaft collars come with a machine screw that tightens the clamp around the shaft. This ensures a tight, secure fit and better holding power than solid collars. They are easy to install, remove, and adjust, and work on virtually all types of shafts. The machine screw helps to prevent the collar from ripping the shaft.
Shaft collars come in a variety of materials. Typical materials include stainless steel, alloyed steel, and nylon. They are also available in custom sizes. If you want a specific size, be sure to specify that when ordering. These collars are made of quality materials, and they will hold up to the most rigorous applications.
Heavy duty shaft collars are manufactured from higher-grade materials than standard collars. They have a larger outer diameter, wider flange, and a larger screw for increased holding power. These collars are typically used in short-term, rigid coupling applications, and they are available in one-piece and two-piece clamp styles. These collars are typically made from 1215 lead-free steel or 303 stainless steel. Some of them can be finished with an anodized finish.
Mountable shaft collars are used to mount sensors, fixtures, and other assemblies. There are three different styles of mountable shaft collars: flange collars, flat collars, and quick-release collars. The material used for shaft collars can be 1215 lead-free steel with a black oxide finish, high-strength aluminum, and 303 stainless steel.
Solid
A solid shaft collar is a shaft coupling that is used to connect two shafts. They can be made of a variety of materials, including steel, zinc plated, and stainless steel. In addition, they come with various finishing options, including a zinc plated or black oxide finish. In addition, they can be made to fit a variety of shaft sizes and types.
Shaft collars are a simple, yet essential part of machine design. They can be found in virtually any piece of machinery. They can serve a variety of functions, including holding bearings on shafts, positioning components within motor assemblies, and acting as mechanical stops. While they can serve a variety of functions, they are most commonly used as bearing faces, mechanical stops, and locating components. They are also easy to install and tighten, making them a popular choice for a variety of different applications.
Solid shaft collars are available in two types: one-piece and two-piece. The two-piece collars are generally more rigid, offering better clamping force. However, they require more seating torque than the one-piece clamp collar. This is because there are more screws to tighten the two-piece collar than the single-piece collar.
One type of solid shaft collar is the set screw collar. Its holding power comes from the set screw, which is tightened onto the shaft. Ideally, the set screw should impinge on the shaft, and bite into it. The screw should be made of a softer material, as a harder material would reduce its holding power. However, the set screw collar can be adjusted by milling small flats into the shaft at the locations of the set screw.
A solid shaft collar is a simple machine component used in various power transmission applications. The most common places where it is used include motors, gearboxes, and bearings. Their simple design makes it easy to install and maintain. Unlike early versions, however, which were primarily made of square-headed set screws, modern shaft collars feature recessed set screws.
lamping-style
A Clamping-style shaft collar is an essential component of a gearbox or motor. Its high holding power allows it to hold components securely in place and ensure proper power transmission. These collars are also commonly used as spacers or to limit the movement of shafts during reciprocating motion.
These collars come in a variety of styles, including the double-split and semi-split varieties. They are ideal for repetitive positioning and are available in steel and stainless steel. They also feature a quick release element. And the index lever makes them easy to adjust or repair.
There are several different styles of shaft collars, including the Clamping-style shaft collar. The Clamping-style collar is one of the most commonly used in industrial settings. Its clamp is attached to the shaft by screws and has a hinge on one side. This feature eliminates the risk of the screws becoming dislodged while operating the machine.
Clamping-style shaft collars are generally made of steel or stainless steel. They can be made of aluminium, but this material has lower holding power. Stainless steel collars are a good choice for cleanroom environments because they do not outgas. They also require less maintenance. If you’re uncertain which style to choose, consult with a specialist in your field.
Clamping-style shaft collars are commonly used on industrial machinery and are an important part of gearbox maintenance. If you’re planning to install one, make sure you measure it carefully before you install it. If you don’t, you may damage the shaft or endcap. And while you’re at it, be sure to check for any kinks before you use it.
Set screw
Set screw shaft collars are the most cost-effective type of shaft collar. Available in bore sizes ranging from 3/16″ to 4″, they offer increased holding power and torque capacity. Additionally, they come with a keyway in case the shafts are keyed. Commercially produced shaft collars are non-magnetic and made of 303 stainless steel. They also come with one set screw per collar.
Shaft collars can be made of aluminum, steel, or a combination of steel. They serve multiple purposes including mechanical stops and stroke limiters, and can be adjusted for the correct fit. They are easy to install and remove, and they provide high clamping power. Custom designs are also available. They can be made of different materials to suit your specific needs.
Set screw for shaft collars are commonly used in transmission and machinery applications. Set screw shaft collars can be adjusted using a screw driver. When tightened, the set screw bites into the shaft material and holds it in place. When used properly, they can reduce the amount of torque required to hold components in place.
Shaft collars come in a variety of sizes. In general, shaft collars can range from 5/64″ to one inch in diameter. In addition, you can choose between metric and inch-sized shaft collars. When choosing a shaft collar, it is important to consider the size and bore diameter of the shaft.
editor by CX 2023-05-26
China OEM Customized Metal Shaft Collar Shaft Locking Collars axle collar bearing
Product Description
Product Description
SET SCREW
Set screw shaft collars are the most effective when used on a shaft made of a material which is softer than the set screw. our set screw collars are finished exclusively with forged socket set screws for greater torque capacity and improved
1.materials:stainless steel,alloy steel ,aluminum ,brass etc.
2.Finish: Zinc plating, Nickel plating,nature
3.competitive price ,prompt delivery
4.OEM service as your drawings
Technics
1.Milling 2.grinding 3.Turning 4.wire-cutting 5.CNC bending 6.CNC machining 7.Stamping 8.forging 9.boring 10.broaching and so on .
Accuracy
1.Milling:0.01mm 2.Turning:0.01mm 3.Grinding:0.002mm 4.Wire-cutting :0.005mm 5.CNC Machining : 0.005mm
Company Profile
RunCheng Import and Export Co., Ltd is the leading professional OEM/ODM manufactory of auto parts, hardware, graphite products, sanitary ware and mechanical items. Product ranges include CNC machining parts, casting parts, stamping parts, forged parts, turning parts, pipe fitting, rubber parts, CZPT and many more.
We ensure the highest quality by using only the highest quality raw materials and by subjecting all our products to a rigorous Quality Control System. The quality control of our large-scale production process conforms to ISO9001 standards.
We have won the trust of our clients with our top quality products and outstanding service.
Our business is built on the following 4 advantages, namely Full range of products, Top quality, Outstanding service and Reasonable price!
Contact us at once and let′ S do mutually beneficial business together!
Production ability
EQUIPMENT LIST |
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NAME
|
SPECIFICATION |
BRAND |
ORIGINAL PLACE |
QUANTITY |
CNC Machines |
Graph 600 |
KNUTH |
CHINA |
20 |
1370 |
KAFO |
TAPAN |
20 |
|
EDM Machines |
ZNC450 |
BHangZhouNA |
ZheJiang |
20 |
ZNC430 |
BHangZhouNA |
ZheJiang |
30 |
|
Grinding Machines |
ACC-350ST |
BESFORD |
CHINA |
50 |
Auto Lathe Machining |
L150G-II |
OKUMA |
CHINA |
80 |
Wire Cutting Machines |
DK7732 |
NEW FAST |
CHNA |
30 |
Milling Machine |
SHCM-97A |
GENTIGER |
ZheJiang |
20 |
CMM Machine |
CRT-PA574 |
MITUTYO |
JAPAN |
10 |
Hardness Tester |
TILO-T60 |
MITUTYO |
JAPAN |
5 |
Productions showing:
Equipments & Working plant:
Worry about our quality problem?
We are an IATF16949:2016 Certifed supplier, strictly execute inspection on ISO quality control system. All our products will pass 10-step inspections: it starts from incoming material inspection to IPQC, then FQC and final inspection with reports before shipment.
Packaging & Shipping
Generally carton or wooden case or plastic foam with standard export wooden pallet , or as per consumer’s requirements.
Certifications:
Your Satisfaction, Our Motivation!
FAQ
Q1. Are you factory or trading company?
A: We are a customized factory with independent oversea trading office .
Q2.Can you provide sample for us?
A: Yes, free sample is available
Q3. What raw material do you use?
A: Stainless Steel, Carbon Steel, Mild Steel, Galvanized Steel, Aluminum alloy, brass, copper, Aluminum etc.
Q4. What finishes can you provide?
A: powder coating, polishing, zinc/nickel /chrome plating, painting, anodized, hot dip galvanized, sandblasted etc.
Q5. How do you ensure quality control?
A: We inspect every process based on your drawings or samples and also check the products before packing
Q6. Is small quantity available?
A: Yes, Small quantity for trial order is available.
Q7. How do you ship the goods?
A: We have our cooperation forwarder, they can deliver the goods to you in very short time with competitive price, and you can ship by your own agent as your convenience.
Q8. How about your delivery time ?
A: 3-10 days for samples and 15-45 days for mass production .
Q: How To Place A Order?
* You send us drawing or sample
* We make the sample and send it to you
* You think the sample is good then place an order and pay us 30% deposit
* We start to make the product
* When the goods is done, we take photoes for your check and you then pay the balance
* We deliver the products to courier company
Application: | Auto and Motorcycle Accessory, Machinery Accessory |
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Standard: | GB, EN, JIS Code, TEMA, ASME |
Surface Treatment: | Anodizing |
Production Type: | Mass Production |
Machining Method: | CNC Turning |
Material: | Nylon, Steel, Plastic, Alloy, Aluminum |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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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 2023-05-23
China TAIWAN SUNITY High performance 6HA Zinc anodes OEM 27200-300400 20mm30mm8mm for Yanmar 6HA inboard acme shaft collar
Condition: New
Engine: 4 Stroke
Fuel Type: Diesel
Cylinders: 4
Engine Position: Inboard
Dimensions (L x W x H) (mm): 20mm*30mm*8mm
anodes for rudder Application: Marine inboard engine parts : Oversea boat , Auto boat, power boat
anodes for rudder Material: High Purity Zinc Ingot
anodes for rudder Size: 40mm*40mm*10mm
anodes for rudder Weight: Within 1kg
anodes for rudder Packing: Carton
anodes for rudder Certificate: Available(ISO9
Zinc 6LA , 6HA | Anodes | Zinc pencil anode with brass plug |
AIR FILTER | AIR CLEANER | BRAKE SHOE |
CLUTCH SHOE | CON-ROD BEARING | CON-ROD BUSH |
CONNECTING ROD | CYLINDER HEAD | CYLINDER |
CYL. LINER & O’RING | CYL. HEAD GASKET | CARBURETOR |
CONDENSER/RADIATOR | CRANKSHAFT | DELIVERY VALVE |
FUEL INJ.VALVE | FUEL INJ. PUMP ASSY | FLYWHEEL |
FUEL STRAINER | GASKET KIT | GEAR |
IMPELLER | L.O. FILTER | MAIN BEARING |
MUFFLER | NEEDLE BEARING | NOZZLE |
OIL SEAL | OIL PUMP | OIL SIGNAL/SENDER |
PISTON/PIN/CLIPS | PISTON RINGSET | PISTON PIN BUSH |
PLUNGER & BARREL | REGULATOR ASSY | REGULATOR NEEDLE |
ROTOR | ROCKER ARM ASSY | THRUST WASHER |
VALVE IN/EX | VALVE STEM SEAL | VALVE XIHU (WEST LAKE) DIS. |
FOR CZPT engine seriesRK50, RK60, RK70, RK125, ET70, ET80, ET110, ZB500, ZB600, L2201, L2100,GA70, GA80, GA100, ER50, ER80, ER100, ER1500, cone crusher part mainshaft for HP300 HP400 HP500 CH440 CH660 CS440 CS660 spare part crusher KND80, KND5, D950, D1000.. |
FOR CZPT engine seriesTF65, TF90, TF115, TF160, TS50, TS60, TS105, TS220, TH4, TH6, D9, F8, NT85,NT110, 3TN84, 4TN84, 4CH, 6CH.. |
FOR HONDA engine seriesGX100, GX110, GX120, GX140, GX160, GX200, GX240, GX270, GX340, GX390,GX440, GX620, GX25, GX35.. |
FOR CZPT engine seriesM85, M95, NM45, NM85, NM155, SD4, SD65, D700, D800, R Series Helical Gear Motor Series Gear Motor Helical Gearbox Speed Reducer D1200, 8HP, 16HP.. |
FOR ROBIN / SUBARU engine seriesEY12, EY15, EY20, EY25, EY28.. |
FOR CZPT engine seriesEF1600, EF2000, EF2500, EF6600.. |
FOR CZPT engine series4BT, 6BT, M11, EY25, EY28.. |
FOR MOTORCYCLE & RACING MOTOR engine using –NEW!!GN5, KGG, W110, 5YP, KV8, KPH, CG125, GY6 125, LC135, LC150, GL135.. |
Contact Us
Types of Shaft Collars
A shaft collar is a simple machine component that plays a critical role in power transmission. It is typically found in gearboxes and motors, and serves as a bearing face, mechanical stop, and locating component. Its simple design makes it easy to install and use. Its various functions make it a useful machine part for many applications.
Set screw shaft collars
Set screw shaft collars are used in many different applications and can be manufactured in a variety of materials. Typical materials include carbon steel, stainless steel, platinum, silver, nylon, polysulphone, PTFE, and PVC. Collars are easy to install and adjust. A variety of secondary services are available, including internal forming, chroming, and passivating.
Set screw shaft collars come in different styles, including standard collars, quick-release collars, split collars, and threaded collars. They can be purchased in standard and metric sizes, and are available in a variety of finishes. Standard collars are available in steel and stainless steel and have a zinc plated or black oxide finish.
Set screw shaft collars are an excellent choice for holding power transmission components in place and limiting shaft movement. They are held in place by a set screw that digs into the shaft material, providing holding power. They are available in both 303 and 316 Stainless Steel, making them a reliable and efficient choice for a variety of applications.
Clamping-style shaft collars
Clamp-style shaft collars are a versatile alternative to set-screw collars. They eliminate the problems associated with the set-screw collar, such as the possibility of shaft damage. They also lock in place by compressing against the shaft. This method distributes the force on the collar and shaft evenly, creating a stronger holding power.
Shaft collars are manufactured by many companies. You can buy them in-store or online, but it is important to buy from a reputable manufacturer. Many counterfeit collars endanger the life of your machine. Choosing a quality collar will help you avoid costly and time-consuming machine breakdowns.
Clamping-style shaft collars come in a variety of sizes and types. Some of them have a hex or D-bore. Some have circular grooves to assist with installation. They can be found in bore sizes from 1/4″ to one inch. They are often used for mounting gears, sprockets, and bearings.
Two-piece clamp collars are an excellent choice for high-load applications. They have improved clamping force and impressive holding power, and can be easily installed without major disassembly. Two-piece clamp collars can also be designed with a keyway to secure a keyed shaft. There are also special double-wide clamp collars for high axial load applications.
Another type of shaft collar is the quick clamping collar. It is an excellent choice for applications where you want to make frequent setup and adjustments. It allows for easy adjustments with minimal tools. Quick clamping collars feature a cam lever and a clamping lever. They are convenient and highly flexible, making them ideal for use in many industries.
Single split shaft collars
A single split shaft collar is designed to fit one shaft and eliminate two pieces. This makes installation and disassembly easy, reducing labor and downtime. It also uses a full seating torque of the set screws to distribute forces evenly around the shaft circumference, providing stronger holding power. It can be used on a wide range of rotating equipment.
Single split shaft collars are available from CZPT Products. They are a common, high-quality way to secure a shaft. They wrap around the shaft for a secure and tight fit. They are also a versatile option that can be easily removed. These collars can be used on both hard and soft standard round shafts. They provide superior grip compared to solid collars, provide tremendous axial force, and minimize shaft distortion.
Single split shaft collars are one of the many types of bearing shaft locking collars. They are made of EN8 steel, and come with a locking setscrew. This makes installing the collar quick and easy. The collar is available in many sizes, including small, medium, and large. If you do not find the right fit, you can also have one custom-made.
These collars are commonly used for mounting fixtures, sensors, and other assemblies. They are available in two-piece and one-piece styles, and have higher holding power than standard shaft collars. They are available in a wide range of materials, including 1215 lead-free steel, 303 stainless steel, and lightweight 2024 aluminum.
Aluminum shaft collars
The CZPT company produces Aluminum shaft collars for a variety of applications. These shaft collars feature a proprietary manufacturing process to ensure accurate face-to-bore perpendicularity. This helps to improve clamping forces and installation fit. Each collar features the CZPT name stamped on it, and the collar is finished with a black oxide process to achieve a fine glossy finish. The shaft collars are available in a variety of bore sizes and styles, and can be ordered in single or two-piece styles. Additionally, they are manufactured with a high-grade forged screw, which ensures the highest quality.
Aluminum shaft collars can be customized to fit your needs. Several accessories can be added to the shaft collar, such as steel mending plates. Those who need extra load capacity can select a keyed shaft collar. They are also available in lightweight styles. These shaft collars are easy to install and disassemble, and are made from two-piece aluminum for ease of installation.
Choosing the right shaft collar material is critical to the success of your application. You should consider steel, stainless steel, or aluminum for the best corrosion resistance. Steel is stronger and offers better holding power, while aluminum offers a lower weight and a favorable strength-to-weight ratio. When selecting shaft collars, it is important to take into consideration the corrosion resistance of each material. For example, carbon steel shaft collars will not be as corrosion resistant as aluminum shaft collars, but they are lighter and have a good hold power.
Carbon steel shaft collars
Carbon steel shaft collars are a versatile solution to holding bearings in place. They are available in a range of diameters and styles to meet your application needs. They can be used for many different applications, from aerospace and military applications to marine and automotive applications. These collars are available in a variety of materials, including carbon steel, aluminum, and stainless steel.
Carbon steel shaft collars are a cost-effective alternative to stainless steel shaft collars. CZPT manufactures lead-free carbon steel shaft collars, and they are also available with RoHS-compliant yellow zinc plating. Zinc plating is less expensive than stainless steel and is an excellent anti-corrosive option. CZPT yellow zinc collars are plated by a trivalent process rather than a non-compliant hexavalent process.
Shaft collars are available in both metric and inch bore sizes. They can be used for a variety of applications and are typically available in sizes ranging from 1/4″ to three inches. They are also available with metric screws in a range of sizes, which are useful for retrofitting equipment.
Shaft collars are available in a variety of materials, including carbon steel, 303 stainless steel, and aluminum. Some options feature threads and can be welded or bolted to shafts. For more advanced applications, aluminum threaded shaft collars can be used. They are often used for mounting sensors, fixtures, and other assemblies. They come in several styles, such as double-wide, heavy-duty, and threaded.
Hinge shaft collars
Hinge shaft collars are fastening devices that secure shafts or axles. They come in a wide range of sizes, shapes, and materials. These collars can be used in a wide range of applications, including non-rotary applications. They can be manufactured in stainless steel, 1018 steel, aluminum, and brass.
Shaft collars are simple to use but can perform a variety of functions. Their primary functions include holding components in place, locating components on a shaft, and establishing attachment between the shaft and another component. To choose the right collars for a specific application, designers should consider the design, style, materials, bore size, and geometry of the shaft. They should also consider any limitations or requirements associated with the application.
Hinge shaft collars are available in round and square bores. They are most commonly used in agricultural applications. Their size makes them easy to install, and their design makes them suitable for both large and small shafts. They are also used in situations where shafts are not easily accessible. Some types of shaft collars feature flat surfaces, which are great for mounting applications and splitting hubs.
Heavy duty shaft collars are also available. These collars have larger outer diameters, wider bores, and larger screw diameters. They are manufactured from lead-free steel with a proprietary black oxide finish.
editor by czh2023-02-20
China Aftermarket OEM Symons Cone Crusher Parts: Mainshaft diy shaft collar
Merchandise Description
Merchandise Description
Quality Parts to Go well with Symons Cone Crusher
Symons cone crusher has been a legend in mining and mining and aggregate processing industries since it is originally made and designed by Symons CZPT in 1920s, right up until now, there are tens of countless numbers of Symons cone crusher are nonetheless running in the world. The optimum effectiveness which can be obtained from the crusher is right dependent on the quality of the parts. Powerups has been specializing in producing high quality good quality aftermarket wear and substitute parts considering that nineties, supplying more aggressive elements and service around the world than common components suppliers. In most of instances, we have the areas on shelf or castings in inventory, which efficiently shortens the guide time. We are CZPT to offer high quality high quality put on components and spare components to protect all versions of both Symons regular cone crusher and shorthead cone crusher these kinds of as 2ft, 3ft, 4ft, 4 1/4ft, 5 1/2ft, 7ft weighty obligation, 7ft additional large responsibility and 7ft super extra weighty obligation. In addition, Powerups delivers full line of quality elements aftermarket to protect Gyradisc cone crusher, Metso HP Series cone crusher, GP Collection cone crusher, C Collection jaw crusher, MP Series cone crusher, Omnicone Series cone crusher , Sandvik Hydrocone and Superior cone crusher components.
Detailed Pictures
- Mainframe
- Mainframe liner
- Arm guard
- Mainframe seat liner
- Counterweight
- Eccentric equipment
- Internal eccentric bushing
- Eccentric
- Outer eccentric bushing
- Phase bearing plates
- Head
- Mainshaft
- Head wiper ring
- Drinking water baffle
- Feed plate
- Feed distributor
- Mainshaft nut
- Locking collar
- Locking nut
- Locking nut cover
- Adjustment ring
- Spring
- Seals
- Spring bolt & nut
- Socket
- Spring & housing
- Socket sealing ring
- Socket liner
- Water chamber
- U-bolt assembly
- Mainshaft sleeve
- Torch ring
- Feed cone
- Bowl
- Duckworth lock publish
- Feed hopper
- Hydraulic lock put up
SYMONS Areas Guide
Model | Part Variety | Description |
2ft | 1959-2997 | Bowl liner bolt |
2ft | two/ | Principal shaft |
3ft | 3886-3183 | Major shaft |
3ft | 7058-7620 | Shim |
3ft | 7058-7626 | Shim |
3ft | 7058-7630 | Shim |
3ft | 7292-5601 | Head wear ring |
3ft | 7305-5396 | Tapered bushing |
3ft | 7320-3201 | Main shaft sleeve |
3ft | 9439-5046 | Feed cone |
4ft | 1063-1877 | Feed hopper |
4ft | 1063-1898 | Feed hopper |
4ft | 1063-1903 | Feed hopper |
4ft | 1063-2661 | Bowl hopper |
4ft | 1063-2890 | Bowl hopper |
4ft | 1970-571 | U-bolt |
4ft | 1970-1150 | U-bolt |
4ft | 1970-3830 | U-bolt |
4ft | 1970-3832 | U-bolt |
4ft | two/8822 0571 six | Principal shaft |
4 1/4ft | 6886-4350 | Major shaft |
4 1/4ft | 7058-8501 | Shim |
four 1/4ft | 7058-8751 | Shim |
4 1/4ft | 7058-8505 | Shim |
four 1/4ft | 7320-4202 | Primary shaft sleeve |
four 1/4ft | 7320-4331 | Main shaft sleeve |
four 1/4ft | 7381-7/8822 0571 one | Socket sealing ring |
7ft | 6380-9190 | Socket sealing ring |
7ft | 6391-5481 | Torch ring |
7ft | 6466-9667 | Seat liner |
7ft | 6482-5651 | Spring segment |
7ft | 6876-1324 | Countershaft |
7ft | 6886-7662 | Main shaft |
7ft | 6886-7663 | Principal shaft |
7ft | 6886-7877 | Primary shaft |
7ft | 6886-7943 | Major shaft |
7ft | 7058-9790 | Shim |
7ft | 7058-9802 | Shim |
7ft | 7058-9805 | Shim |
7ft | 7292-7601 | Head use ring |
7ft | 7303-9875 | Bushing |
7ft | 7320-8011 | Principal shaft sleeve |
7ft | 7381-9005 | Socket |
7ft | 7381-9007 | Socket |
7ft | 7381-9576 | Socket |
7ft | 7381-9583 | Socket |
7ft | 8642-8301 | Counterweight |
7ft | 8642-8350 | Counterweight |
Assured to match, perform and extended dress in existence |
Company Profile
HangZhou Powerups Machinery Co., Ltd, located in HangZhou of northern China, is a international company of approach answers for a selection of industries including mineral processing, aggregate processing, coal mining, and so forth. It is a producing company of machinery and parts specially for mineral and mixture processing.
HangZhou Powerups Equipment Co., Ltd is dedicated to designing, producing and preserving cone crusher, jaw crusher, influence crusher, feeder, screen and washing gear, and it’s also a great source of quality substitute parts for Metso HP Sequence cone crusher, GP Series cone crusher, MP Sequence cone crusher, C Series jaw crusher, Symons cone crusher, Gyradisc cone crusher, Omnicone cone crusher, Sandvik cone crusher, and many others. Powerups has big inventory of parts for the leading types of crushers to fulfill the distinct needs of each and every client.
Powerups upholds the maximum requirements for engineering and manufacturing to incorporate all the sophisticated technological innovation in the types of our crushers, feeders, screens, washers, etc. In addition, it is CZPT to design and style and manufacture full crushing plant, portable crushing plant. Aside from, the business operates with its very own hugely experienced management staff to continually boost the good quality of casting, machining method, parts inspection in order to give extended use lifestyle.
Powerups’ procedure equipment and systems are established in mining procedure, with set up in above 20 nations all around the entire world including United States of America, Canada, Chile, Peru, Colombia, Mexico, Greece, Russia, Turkey, Australia, New Zealand, Saudi Arabia, Thailand, Indonesia, Cambodia, Malaysia, Vietnam, and so forth. Powerups is preferably positioned to produce large good quality and competitive remedies to tasks everywhere in the planet.
Our Mission: Let’s Make Things Better
US $99-9,999 / Piece | |
1 Piece (Min. Order) |
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Certification: | CE, ISO 9001:2000, ISO 9001:2008 |
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Standard: | AISI, ASME, BS, ANSI, JIS, GB, GOST, ASTM, DIN |
Surface Treatment: | Spray-Paint |
Manufacturing Process: | Forging |
Material: | Alloy Steel |
Transport Package: | Crated |
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Customization: |
Available
|
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###
Model | Part Number | Description |
2ft | 1959-2997 | Bowl liner bolt |
2ft | 2005-1176 | Bowl |
2ft | 2005-1401 | Bowl |
2ft | 2206-6641 | Inner eccentric bushing |
2ft | 2281-4030 | Adjustment cap |
2ft | 2302-1101 | Main frame cap |
2ft | 2618-0961 | Feed cone |
2ft | 3113-7351 | Eccentric |
2ft | 3378-1436 | Mainframe |
2ft | 3680-7001 | Pinion |
2ft | 3680-8401 | Eccentric gear |
2ft | 3806-0941 | Arm guard |
2ft | 4245-7003 | Head |
2ft | 4245-7004 | Head |
2ft | 4537-5762 | Countershaft box |
2ft | 4545-1381 | Spring housing |
2ft | 4703-2415 | Tapered key |
2ft | 4705-5910 | Key |
2ft | 4709-3361 | Socket sealing ring key |
2ft | 4829-1921 | Bowl liner |
2ft | 4829-3001 | Bowl liner |
2ft | 4829-3541 | Bowl liner |
2ft | 4829-4081 | Bowl liner |
2ft | 4829-4351 | Bowl liner |
2ft | 4851-2681 | Main frame liner |
2ft | 4872-2335 | Socket liner |
2ft | 5013-1001 | Mantle |
2ft | 5013-1401 | Mantle |
2ft | 5434-7581 | Main frame pin |
2ft | 5598-1221 | Feed plate |
2ft | 5598-1781 | Feed plate |
2ft | 6341-5501 | Pinion thrust washer |
2ft | 6380-2381 | Socket sealing ring |
2ft | 6391-0181 | Torch ring |
2ft | 6482-0701 | Spring segment |
2ft | 6863-2501 | Countershaft |
2ft | 6886-1221 | Main shaft |
2ft | 6886-1781 | Main shaft |
2ft | 7058-7510 | Step bearing shim |
2ft | 7058-7520 | Step bearing shim |
2ft | 7058-7525 | Step bearing shim |
2ft | 7320-1691 | Main shaft sleeve |
2ft | 7320-2681 | Main shaft sleeve |
2ft | 7381-1001 | Socket |
2ft | 8607-7041 | Torch ring |
3ft | 1603-1121 | Feed hopper |
3ft | 1603-1781 | Bowl hopper |
3ft | 1934-6050 | Spring bolt |
3ft | 1970-5001 | U-bolt |
3ft | 2005-2437 | Bowl |
3ft | 2005-2576 | Bowl |
3ft | 2206-0762 | Countershaft bushing |
3ft | 2207-2561 | Inner eccentric bushing |
3ft | 2207-1401 | Inner eccentric bushing |
3ft | 2214-5321 | Outer eccentric bushing |
3ft | 2281-4850 | Adjustment cap |
3ft | 2618-1550 | Feed cone |
3ft | 2618-2186 | Feed cone |
3ft | 2747-5951 | Locking nut cover |
3ft | 3041-2875 | Feed distributor |
3ft | 3113-8401 | Eccentric |
3ft | 3113-8751 | Eccentric |
3ft | 3378-2727 | Main frame |
3ft | 3680-7353 | Pinion |
3ft | 3680-7703 | Pinion |
3ft | 3680-8753 | Eccentric gear |
3ft | 3680-9455 | Eccentric gear |
3ft | 3806-4021 | Arm guard |
3ft | 4246-3001 | Head |
3ft | 4246-3002 | Head |
3ft | 4246-3004 | Head |
3ft | 4246-3005 | Head |
3ft | 4573-6067 | Countershaft box |
3ft | 4545-1786 | Spring housing |
3ft | 4829-5161 | Bowl liner |
3ft | 4829-5431 | Bowl liner |
3ft | 4829-5701 | Bowl liner |
3ft | 4829-6530 | Bowl liner |
3ft | 4829-6544 | Bowl liner |
3ft | 4829-7591 | Bowl liner |
3ft | 4872-3565 | Socket liner |
3ft | 4872-4795 | Socket liner |
3ft | 5013-2201 | Mantle |
3ft | 5013-2501 | Mantle |
3ft | 5013-2801 | Mantle |
3ft | 5013-3401 | Mantle |
3ft | 5013-3801 | Mantle |
3ft | 5168-4896 | Main shaft nut |
3ft | 5434-7801 | Pin |
3ft | 5434-9341 | Pin |
3ft | 5598-2621 | Feed plate |
3ft | 5598-3461 | Feed plate |
3ft | 5683-1500 | Locking key |
3ft | 5759-7801 | Step bearing |
3ft | 5759-9350 | Step bearing |
3ft | 5920-7751 | Sheave |
3ft | 5921-4907 | Sheave |
3ft | 6187-3900 | Adjustment ring |
3ft | 6272-7401 | Locking collar |
3ft | 6273-2501 | Locking nut |
3ft | 6358-3921 | Oil flinger |
3ft | 6358-7771 | Oil flinger housing |
3ft | 6359-4701 | Socket sealing ring |
3ft | 6380-5101 | Socket sealing ring |
3ft | 6391-0181 | Torch ring |
3ft | 6482-1961 | Spring segment |
3ft | 6482-7301 | Spring segment |
3ft | 6587-6610 | Adjustment lock post |
3ft | 6863-3701 | Countershaft |
3ft | 6886-2273 | Main shaft |
3ft | 3886-3183 | Main shaft |
3ft | 7058-7620 | Shim |
3ft | 7058-7626 | Shim |
3ft | 7058-7630 | Shim |
3ft | 7292-5601 | Head wear ring |
3ft | 7305-5396 | Tapered bushing |
3ft | 7320-3201 | Main shaft sleeve |
3ft | 9439-5046 | Feed cone |
4ft | 1063-1877 | Feed hopper |
4ft | 1063-1898 | Feed hopper |
4ft | 1063-1903 | Feed hopper |
4ft | 1063-2661 | Bowl hopper |
4ft | 1063-2890 | Bowl hopper |
4ft | 1970-0710 | U-bolt |
4ft | 1970-1150 | U-bolt |
4ft | 1970-3830 | U-bolt |
4ft | 1970-3832 | U-bolt |
4ft | 2005-3652 | Bowl |
4ft | 2005-3653 | Bowl |
4ft | 2005-3988 | Bowl |
4ft | 2005-3989 | Bowl |
4ft | 2005-4330 | Bowl |
4ft | 2206-2090 | Countershaft bushing |
4ft | 2214-4481 | Inner eccentric bushing |
4ft | 2214-5601 | Outer eccentric bushing |
4ft | 2281-5100 | Adjustment cap |
4ft | 2281-5120 | Adjustment cap |
4ft | 2281-6515 | Adjustment cap |
4ft | 2618-2246 | Feed cone |
4ft | 2618-3190 | Feed cone |
4ft | 2618-3226 | Feed cone |
4ft | 2618-3232 | Feed cone |
4ft | 3378-2995 | Main frame |
4ft | 3680-4204 | Eccentric gear |
4ft | 3680-4903 | Pinion gear |
4ft | 3680-4905 | Pinion gear |
4ft | 3806-4055 | Arm guard |
4ft | 3806-4092 | Countershaft box guard |
4ft | 3806-4581 | Arm guard |
4ft | 4246-5994 | Head |
4ft | 4246-5997 | Head |
4ft | 4246-6003 | Head |
4ft | 4537-6128 | Countershaft box |
4ft | 4545-2731 | Spring housing |
4ft | 4703-4295 | Key |
4ft | 47037585 | Key |
4ft | 4829-8540 | Bowl liner |
4ft | 4829-8545 | Bowl liner |
4ft | 4829-8603 | Bowl liner |
4ft | 4829-8671 | Bowl liner |
4ft | 4830-0023 | Bowl liner |
4ft | 4830-0158 | Bowl liner |
4ft | 4830-0291 | Bowl liner |
4ft | 4830-0350 | Bowl liner |
4ft | 4830-1101 | Bowl liner |
4ft | 4830-1151 | Bowl liner |
4ft | 4851-5001 | Main frame liner |
4ft | 4851-5100 | Main frame liner |
4ft | 4872-5205 | Socket liner |
4ft | 5013-4101 | Mantle |
4ft | 5013-4201 | Mantle |
4ft | 5013-4300 | Mantle |
4ft | 5013-4801 | Mantle |
4ft | 5168-5701 | Main shaft nut |
4ft | 6187-5200 | Adjustment ring |
4ft | 6342-3501 | Pinion thrust washer |
4ft | 6358-5160 | Oil flinger |
4ft | 6358-8156 | Oil flinger housing |
4ft | 6360-1743 | Socket sealing ring |
4ft | 6360-5261 | Baffle ring |
4ft | 6391-3321 | Torch ring |
4ft | 6482-1725 | Spring segment |
4ft | 6587-7025 | Lock post |
4ft | 6875-0416 | Countershaft |
4ft | 6686-4304 | Main shaft |
4ft | 7058-7706 | Shim |
4ft | 7058-7711 | Shim |
4ft | 7058-7713 | Shim |
4ft | 7292-5650 | Head wear ring |
4ft | 7320-4200 | Main shaft sleeve |
4ft | 7320-4201 | Main shaft sleeve |
4ft | 7320-4331 | Main shaft sleeve |
4ft | 7381-4603 | Socket |
4ft | 9439-6020 | Feed cone assembly |
4ft | 9439-6027 | Feed cone assembly |
4ft | 9439-6029 | Feed cone assembly |
4ft | 9439-6521 | Feed cone assembly |
4ft | 9439-6690 | Hydraulic lock post |
4ft | 9439-7091 | Hydraulic adjustment ram |
4 1/4ft | 1028-6361 | Feed hopper |
4 1/4ft | 1063-1886 | Bowl hopper |
4 1/4ft | 1063-2890 | Bowl hopper |
4 1/4ft | 1936-7960 | Spring bolt |
4 1/4ft | 1970-0710 | U-bolt |
4 1/4ft | 1970-1150 | U-bolt |
4 1/4ft | 1970-3830 | U-bolt |
4 1/4ft | 1970-3832 | U-bolt |
4 1/4ft | 1970-5821 | U-bolt |
4 1/4ft | 2005-4776 | Bowl |
4 1/4ft | 2005-4778 | Bowl |
4 1/4ft | 2005-5006 | Bowl |
4 1/4ft | 2206-2090 | Countershaft bushing |
4 1/4ft | 2214-3930 | Inner eccentric bushing |
4 1/4ft | 2214-5885 | Outer eccentric bushing |
4 1/4ft | 2281-6291 | Adjustment cap |
4 1/4ft | 2618-3190 | Feed cone |
4 1/4ft | 2618-3201 | Feed cone |
4 1/4ft | 2618-3221 | Feed cone |
4 1/4ft | 3114-1201 | Eccentric |
4 1/4ft | 3680-5608 | Eccentric gear |
4 1/4ft | 3806-4092 | Countershaft box guard |
4 1/4ft | 4246-9002 | Head |
4 1/4ft | 4404-9932 | Head |
4 1/4ft | 4537-6128 | Countershaft box |
4 1/4ft | 4636-6064 | Clearing jack |
4 1/4ft | 4545-2731 | Spring housing |
4 1/4ft | 4701-0175 | Key |
4 1/4ft | 4701-5660 | Key |
4 1/4ft | 4703-4295 | Key |
4 1/4ft | 4703-7585 | Key |
4 1/4ft | 4830-1826 | Bowl liner |
4 1/4ft | 4830-2957 | Bowl liner |
4 1/4ft | 4830-2958 | Bowl liner |
4 1/4ft | 4830-4341 | Bowl liner |
4 1/4ft | 4830-4612 | Bowl liner |
4 1/4ft | 4851-6186 | Main frame liner |
4 1/4ft | 4872-6340 | Socket liner |
4 1/4ft | 5013-4451 | Mantle |
4 1/4ft | 5013-6001 | Mantle |
4 1/4ft | 5168-5161 | Main shaft nut |
4 1/4ft | 5435-0001 | Main frame pin |
4 1/4ft | 5598-4161 | Feed plate |
4 1/4ft | 5598-4581 | Feed plate |
4 1/4ft | 5598-5701 | Feed plate |
4 1/4ft | 5683-2175 | Locking key |
4 1/4ft | 5760-2301 | Upper step bearing plate |
4 1/4ft | 5760-2601 | Lower step bearing plate |
4 1/4ft | 5885-0065 | Bowl lock post |
4 1/4ft | 5923-9208 | Crusher sheave |
4 1/4ft | 6187-5589 | Adjustment ring |
4 1/4ft | 6187-5590 | Adjustment ring |
4 1/4ft | 6342-3501 | Pinion thrust washer |
4 1/4ft | 6358-5160 | Oil flinger |
4 1/4ft | 6358-8156 | Flinger housing |
4 1/4ft | 6360-4161 | Socket sealing ring |
4 1/4ft | 6360-4163 | Socket sealing ring |
4 1/4ft | 6360-1210 | Socket sealing ring |
4 1/4ft | 6360-4601 | Head seal ring |
4 1/4ft | 6391-3321 | Torch ring |
4 1/4ft | 6482-2351 | Lower spring segment |
4 1/4ft | 6482-2352 | Lower spring segment |
4 1/4ft | 6482-7961 | Upper spring segment |
4 1/4ft | 6482-7963 | Upper spring segment |
4 1/4ft | 6587-7025 | Adjustment lock post |
4 1/4ft | 6875-0416 | Countershaft |
4 1/4ft | 6875-0681 | Countershaft |
4 1/4ft | 6886-5196 | Main shaft |
4 1/4ft | 6886-4350 | Main shaft |
4 1/4ft | 7058-8501 | Shim |
4 1/4ft | 7058-8751 | Shim |
4 1/4ft | 7058-8505 | Shim |
4 1/4ft | 7320-4202 | Main shaft sleeve |
4 1/4ft | 7320-4331 | Main shaft sleeve |
4 1/4ft | 7381-7004 | Socket |
4 1/4ft | 7381-7012 | Socket |
4 1/4ft | 7381-7016 | Socket |
4 1/4ft | 9439-6522 | Feed cone |
4 1/4ft | 9439-6690 | Hydraulic lock post |
4 1/4ft | 9439-7012 | Feed cone |
4 1/4ft | 9439-7014 | Feed cone |
5 1/2ft | 1063-4791 | Feed hopper |
5 1/2ft | 1063-4826 | Feed hopper |
5 1/2ft | 1063-5550 | Bowl hopper |
5 1/2ft | 1063-6121 | Bowl hopper |
5 1/2ft | 1940-3500 | Spring bolt |
5 1/2ft | 1940-3584 | Spring bolt |
5 1/2ft | 1970-7040 | U-bolt |
5 1/2ft | 1970-7871 | U-bolt |
5 1/2ft | 2005-5791 | Bowl |
5 1/2ft | 2005-5792 | Bowl |
5 1/2ft | 2005-7026 | Bowl |
5 1/2ft | 2005-7027 | Bowl |
5 1/2ft | 2206-5840 | Countershaft housing |
5 1/2ft | 2213-4800 | Bushing |
5 1/2ft | 2214-5706 | Inner eccentric bushing |
5 1/2ft | 2214-6161 | Outer eccentric bushing |
5 1/2ft | 2281-7691 | Adjustment cap |
5 1/2ft | 2281-7701 | Adjustment cap |
5 1/2ft | 2281-7963 | Adjustment cap |
5 1/2ft | 2618-5761 | Feed cone |
5 1/2ft | 2618-6001 | Feed cone |
5 1/2ft | 2618-6142 | Feed cone |
5 1/2ft | 2748-2476 | Locking nut cover |
5 1/2ft | 3041-7755 | Feed distributor |
5 1/2ft | 3114-2863 | Eccentric |
5 1/2ft | 3378-5157 | Main frame |
5 1/2ft | 3682-9752 | Pinion gear |
5 1/2ft | 3683-0807 | Eccentric gear |
5 1/2ft | 3806-7381 | Arm guard |
5 1/2ft | 3806-8501 | Countershaft box guard |
5 1/2ft | 4247-2035 | Head |
5 1/2ft | 4247-2040 | Head |
5 1/2ft | 4247-2041 | Head |
5 1/2ft | 4537-6723 | Countershaft box |
5 1/2ft | 4545-4621 | Spring housing |
5 1/2ft | 4700-8121 | Key |
5 1/2ft | 4700-8625 | Key |
5 1/2ft | 4701-2821 | Key |
5 1/2ft | 4701-5655 | Key |
5 1/2ft | 4703-4295 | Key |
5 1/2ft | 4703-8525 | Key |
5 1/2ft | 4830-6501 | Bowl liner |
5 1/2ft | 4830-6638 | Bowl liner |
5 1/2ft | 4830-6771 | Bowl liner |
5 1/2ft | 4830-6871 | Bowl liner |
5 1/2ft | 4851-6306 | Main frame liner |
5 1/2ft | 4851-7321 | Main frame liner |
5 1/2ft | 5013-6801 | Main shaft sleeve |
5 1/2ft | 5013-7001 | Mantle |
5 1/2ft | 5149-2502 | Spring bolt nut |
5 1/2ft | 5168-6781 | Main shaft nut |
5 1/2ft | 5425-9655 | Pin |
5 1/2ft | 5426-8435 | Pin |
5 1/2ft | 5433-3421 | Pin |
5 1/2ft | 5434-4850 | Pin |
5 1/2ft | 5435-2100 | Main frame pin |
5 1/2ft | 5598-6261 | Feed plate |
5 1/2ft | 5598-7101 | Feed plate |
5 1/2ft | 5683-1725 | Locking key |
5 1/2ft | 5760-3501 | Lower step bearing plate |
5 1/2ft | 5760-5011 | Upper step bearing plate |
5 1/2ft | 5885-0019 | Lock post |
5 1/2ft | 5923-9126 | Crusher sheave |
5 1/2ft | 5923-9206 | Crusher sheave |
5 1/2ft | 6187-6302 | Adjustment ring |
5 1/2ft | 6187-6303 | Adjustment ring |
5 1/2ft | 6358-5940 | Oil flinger |
5 1/2ft | 6358-9201 | Oil flinger |
5 1/2ft | 6360-9010 | Oil retainer ring |
5 1/2ft | 6961-2302 | Baffle ring |
5 1/2ft | 6380-6801 | Socket sealing ring |
5 1/2ft | 6482-6551 | Lower spring segment |
5 1/2ft | 6875-3762 | Countershaft |
5 1/2ft | 6886-5800 | Main shaft |
5 1/2ft | 6886-6286 | Main shaft |
5 1/2ft | 7058-8876 | Shim |
5 1/2ft | 7058-8880 | Shim |
5 1/2ft | 7058-9001 | Shim |
5 1/2ft | 7320-4661 | Torch ring |
5 1/2ft | 7381-7206 | Socket |
5 1/2ft | 9439-8025 | Floating feed cone |
5 1/2ft | 9439-8026 | Floating feed cone |
5 1/2ft | 9439-8078 | Ram |
5 1/2ft | 9439-8080 | Bowl lock |
5 1/2ft | 9439-8257 | Hydraulic lock post |
5 1/2ft | 2005-6280 | Bowl |
5 1/2ft | 2005-6282 | Bowl |
5 1/2ft | 2281-7691 | Adjustment cap |
5 1/2ft | 2281-7701 | Adjustment cap |
5 1/2ft | 2281-7963 | Adjustment cap |
5 1/2ft | 2681-5521 | Feed cone |
5 1/2ft | 4247-2039 | Head |
5 1/2ft | 4247-2042 | Head |
5 1/2ft | 4830-5415 | Bowl liner |
5 1/2ft | 4830-5421 | Bowl liner |
5 1/2ft | 4830-5556 | Bowl liner |
5 1/2ft | 4830-6331 | Bowl liner |
5 1/2ft | 5013-7401 | Mantle |
5 1/2ft | 5013-7601 | Mantle |
5 1/2ft | 6391-8355 | Adjustment cap |
5 1/2ft | 7320-6600 | Main shaft sleeve |
5 1/2ft | 9439-8035 | Floating feed cone |
7ft | 1063-6471 | Feed hopper |
7ft | 1063-8781 | Bowl hopper |
7ft | 1970-7871 | U-bolt |
7ft | 2005-8831 | Bowl |
7ft | 2005-9361 | Bowl |
7ft | 2206-8500 | Countershaft bushing |
7ft | 2214-0636 | Bushing |
7ft | 2214-6721 | Inner eccentric bushing |
7ft | 2214-7561 | Outer eccentric bushing |
7ft | 2281-8910 | Adjustment cap |
7ft | 2281-8970 | Adjustment cap |
7ft | 2302-7027 | Main frame cap |
7ft | 2470-9500 | Countershaft box guard |
7ft | 2618-8161 | Feed cone |
7ft | 2618-8221 | Feed cone |
7ft | 2748-4501 | Locking nut cover |
7ft | 3014-8357 | Feed distributor |
7ft | 3114-4262 | Eccentric |
7ft | 3682-7652 | Pinion gear |
7ft | 3682-9230 | Eccentric gear |
7ft | 3806-9061 | Countershaft box guard |
7ft | 3806-9502 | Arm guard |
7ft | 4247-5200 | Head |
7ft | 4537-7927 | Countershaft box |
7ft | 4545-6511 | Spring housing |
7ft | 4700-8651 | Key |
7ft | 4701-2845 | Key |
7ft | 4701-5680 | Key |
7ft | 4703-8995 | Key |
7ft | 4705-7175 | Key |
7ft | 4705-7303 | Key |
7ft | 4830-7378 | Bowl liner |
7ft | 4830-7379 | Bowl liner |
7ft | 4830-7581 | Bowl liner |
7ft | 4830-7583 | Bowl liner |
7ft | 4830-8400 | Bowl liner |
7ft | 4830-8494 | Bowl liner |
7ft | 4851-9281 | Main frame liner |
7ft | 4851-9410 | Seat liner |
7ft | 4851-9501 | Main frame liner |
7ft | 4872-8520 | Socket liner |
7ft | 5013-9001 | Mantle |
7ft | 5013-9203 | Mantle |
7ft | 5013-9268 | Mantle |
7ft | 5013-9276 | Mantle |
7ft | 5426-9100 | Main frame pin |
7ft | 5434-4970 | Pin |
7ft | 5435-2751 | Main frame pin |
7ft | 5598-8781 | Feed plate |
7ft | 5760-7401 | Lower step bearing plate |
7ft | 5760-8650 | Upper step bearing plate |
7ft | 5885-0017 | Bowl lock post |
7ft | 5885-0018 | Lock post |
7ft | 5923-2260 | Sheave |
7ft | 5923-9232 | Sheave |
7ft | 5923-9262 | Sheave |
7ft | 6187-9501 | Adjustment ring |
7ft | 6187-9500 | Adjustment ring |
7ft | 6273-1601 | Locking collar |
7ft | 6273-7151 | Locking nut |
7ft | 6291-2500 | Wear ring |
7ft | 6342-5501 | Pinion thrust washer |
7ft | 6358-7662 | Oil flinger |
7ft | 6358-9421 | Oil flinger housing |
7ft | 6361-7151 | Baffle ring |
7ft | 6380-9190 | Socket sealing ring |
7ft | 6466-9810 | Seat liner segment |
7ft | 6482-6311 | Lower spring segment |
7ft | 6876-1342 | Countershaft |
7ft | 6886-7889 | Main shaft |
7ft | 7058-9802 | Step bearing shim |
7ft | 7058-9805 | Step bearing shim |
7ft | 7292-7601 | Head wear ring |
7ft | 7303-9875 | Bushing |
7ft | 7305-1925 | Sleeve |
7ft | 7381-9576 | Socket |
7ft | 8030-2725 | Step bearing plate |
7ft | 8642-8350 | counterweight |
7ft | 9439-9018 | Floating feed cone |
7ft | 9439-9019 | Floating feed cone |
7ft | 9439-9142 | Bowl adjustment ram |
7ft | 9439-9358 | Lock post assembly |
7ft | 9450-4418 | Clearing jack assembly |
7ft | 1063-7927 | Feed hopper |
7ft | 1063-8781 | Bowl hopper |
7ft | 1970-0710 | U-bolt |
7ft | 2005-8833 | Bowl |
7ft | 2005-9335 | Bowl |
7ft | 2005-9345 | Bowl |
7ft | 2206-8500 | Countershaft bushing |
7ft | 2214-0636 | Bushing |
7ft | 2214-6721 | Inner eccentric bushing |
7ft | 2214-7564 | Outer eccentric bushing |
7ft | 2281-8977 | Adjustment cap |
7ft | 2618-8221 | Feed cone |
7ft | 3114-4262 | Eccentric |
7ft | 3378-9519 | Main frame |
7ft | 3378-9526 | Main frame |
7ft | 3682-7652 | Pinion |
7ft | 3682-9237 | Eccentric gear |
7ft | 3806-9061 | Countershaft box guard |
7ft | 3806-9502 | Arm guard |
7ft | 4537-7927 | Countershaft box |
7ft | 4700-8650 | Key |
7ft | 4701-2845 | Key |
7ft | 4701-5680 | Key |
7ft | 4705-7175 | Socket |
7ft | 4705-7303 | Key |
7ft | 4851-9282 | Main frame liner |
7ft | 4851-9401 | Seat liner |
7ft | 4851-9501 | Main frame liner |
7ft | 4872-8520 | Socket liner |
7ft | 5168-7386 | Main shaft nut |
7ft | 5426-7175 | Pin |
7ft | 5426-9100 | Main frame pin |
7ft | 5923-9360 | Sheave |
7ft | 6187-9512 | Adjustment ring |
7ft | 6319-2500 | Wear ring |
7ft | 6342-5501 | Pinion thrust washer |
7ft | 6358-7662 | Oil flinger |
7ft | 6358-9421 | Flinger housing |
7ft | 6361-7351 | Baffle ring |
7ft | 6391-5481 | Torch ring |
7ft | 6466-9810 | Seat liner segment |
7ft | 6482-6311 | Lower spring segment |
7ft | 6876-1325 | Countershaft |
7ft | 6886-8541 | Main shaft |
7ft | 7303-9875 | Bushing |
7ft | 7320-8350 | Main shaft sleeve |
7ft | 7381-9583 | Socket |
7ft | 8642-8850 | Counterweight |
7ft | 9439-9018 | Floating feed cone |
7ft | 9439-9019 | Floating feed cone |
7ft | 9439-9193 | Hydraulic lock post |
7ft | 9439-9752 | Bowl adjustment ram |
7ft | 9450-4418 | Clearing jack |
7ft | 1063-6375 | Feed hopper |
7ft | 1063-6471 | Feed hopper |
7ft | 1063-8184 | Bowl hopper |
7ft | 1063-8501 | Bowl hopper |
7ft | 2005-8605 | Bowl |
7ft | 2005-9276 | Bowl |
7ft | 2005-9359 | Bowl |
7ft | 2005-9385 | Bowl |
7ft | 2206-8500 | Countershaft bushing |
7ft | 2214-0636 | Bushing |
7ft | 2214-6721 | Inner eccentric bushing |
7ft | 2214-7561 | Outer eccentric bushing |
7ft | 2281-8910 | Adjustment cap |
7ft | 2281-8915 | Adjustment cap |
7ft | 2281-8945 | Adjustment cap |
7ft | 2281-8950 | Adjustment cap |
7ft | 2618-7681 | Feed cone |
7ft | 2618-7921 | Feed cone |
7ft | 2618-8161 | Feed cone |
7ft | 2618-8221 | Feed cone |
7ft | 2748-4501 | Locking nut cover |
7ft | 3041-8357 | Feed distributor |
7ft | 3114-4262 | Eccentric |
7ft | 3378-6711 | Main frame |
7ft | 3682-7652 | Pinion |
7ft | 3682-9233 | Gear |
7ft | 3682-9229 | Gear |
7ft | 3800-7665 | Guard |
7ft | 3800-7670 | Guard |
7ft | 3806-8781 | Arm guard |
7ft | 3806-9061 | Countershaft box guard |
7ft | 4247-5045 | Head |
7ft | 4247-5049 | Head |
7ft | 4247-5097 | Head |
7ft | 4247-5139 | Head |
7ft | 4537-7443 | Countershaft box |
7ft | 4545-6511 | Spring housing |
7ft | 4700-8650 | Key |
7ft | 4700-8651 | Key |
7ft | 4701-2845 | Key |
7ft | 4701-5680 | Key |
7ft | 4703-4295 | Key |
7ft | 4703-8995 | Key |
7ft | 4705-7157 | Key |
7ft | 4830-7378 | Bowl liner |
7ft | 4830-7379 | Bowl liner |
7ft | 4830-7581 | Bowl liner |
7ft | 4830-7583 | Bowl liner |
7ft | 4830-8400 | Bowl liner |
7ft | 4830-8494 | Bowl liner |
7ft | 4830-8556 | Bowl liner |
7ft | 4830-8846 | Bowl liner |
7ft | 4830-9472 | Bowl liner |
7ft | 4830-8068 | Bowl liner |
7ft | 4851-7611 | Main frame liner |
7ft | 4851-8481 | Main frame liner |
7ft | 4851-9320 | Seat liner |
7ft | 4851-9455 | Seat liner |
7ft | 4872-8485 | Socket liner |
7ft | 4872-8520 | Socket liner |
7ft | 4952-0001 | Bowl lock |
7ft | 5013-8101 | Upper mantle |
7ft | 5013-8201 | Upper mantle |
7ft | 5013-8401 | Lower mantle |
7ft | 5013-8601 | Lower mantle |
7ft | 5013-8801 | Lower mantle |
7ft | 5013-8901 | Lower mantle |
7ft | 5013-9001 | Mantle |
7ft | 5013-9203 | Mantle |
7ft | 5013-9268 | Mantle |
7ft | 5013-9276 | Mantle |
7ft | 5168-8131 | Main shaft nut |
7ft | 5434-0321 | Socket dowel |
7ft | 5434-6481 | Locking key |
7ft | 5598-7491 | Feed plate |
7ft | 5598-8781 | Feed plate |
7ft | 5760-7401 | Lower step bearing plate |
7ft | 5760-8650 | Upper step bearing plate |
7ft | 5923-9318 | Sheave |
7ft | 5923-9319 | Sheave |
7ft | 6187-7951 | Adjustment ring |
7ft | 6187-7952 | Adjustment ring |
7ft | 6237-1601 | Locking collar |
7ft | 6273-8201 | Locking nut |
7ft | 6358-7662 | Oil flinger |
7ft | 6358-9421 | Flinger housing |
7ft | 6361-7351 | Baffle ring |
7ft | 6386-8161 | Socket sealing ring |
7ft | 6380-9190 | Socket sealing ring |
7ft | 6391-5481 | Torch ring |
7ft | 6466-9667 | Seat liner |
7ft | 6482-5651 | Spring segment |
7ft | 6876-1324 | Countershaft |
7ft | 6886-7662 | Main shaft |
7ft | 6886-7663 | Main shaft |
7ft | 6886-7877 | Main shaft |
7ft | 6886-7943 | Main shaft |
7ft | 7058-9790 | Shim |
7ft | 7058-9802 | Shim |
7ft | 7058-9805 | Shim |
7ft | 7292-7601 | Head wear ring |
7ft | 7303-9875 | Bushing |
7ft | 7320-8011 | Main shaft sleeve |
7ft | 7381-9005 | Socket |
7ft | 7381-9007 | Socket |
7ft | 7381-9576 | Socket |
7ft | 7381-9583 | Socket |
7ft | 8642-8301 | Counterweight |
7ft | 8642-8350 | Counterweight |
Guaranteed to fit, perform and long wear life |
US $99-9,999 / Piece | |
1 Piece (Min. Order) |
###
Certification: | CE, ISO 9001:2000, ISO 9001:2008 |
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Standard: | AISI, ASME, BS, ANSI, JIS, GB, GOST, ASTM, DIN |
Surface Treatment: | Spray-Paint |
Manufacturing Process: | Forging |
Material: | Alloy Steel |
Transport Package: | Crated |
###
Customization: |
Available
|
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###
Model | Part Number | Description |
2ft | 1959-2997 | Bowl liner bolt |
2ft | 2005-1176 | Bowl |
2ft | 2005-1401 | Bowl |
2ft | 2206-6641 | Inner eccentric bushing |
2ft | 2281-4030 | Adjustment cap |
2ft | 2302-1101 | Main frame cap |
2ft | 2618-0961 | Feed cone |
2ft | 3113-7351 | Eccentric |
2ft | 3378-1436 | Mainframe |
2ft | 3680-7001 | Pinion |
2ft | 3680-8401 | Eccentric gear |
2ft | 3806-0941 | Arm guard |
2ft | 4245-7003 | Head |
2ft | 4245-7004 | Head |
2ft | 4537-5762 | Countershaft box |
2ft | 4545-1381 | Spring housing |
2ft | 4703-2415 | Tapered key |
2ft | 4705-5910 | Key |
2ft | 4709-3361 | Socket sealing ring key |
2ft | 4829-1921 | Bowl liner |
2ft | 4829-3001 | Bowl liner |
2ft | 4829-3541 | Bowl liner |
2ft | 4829-4081 | Bowl liner |
2ft | 4829-4351 | Bowl liner |
2ft | 4851-2681 | Main frame liner |
2ft | 4872-2335 | Socket liner |
2ft | 5013-1001 | Mantle |
2ft | 5013-1401 | Mantle |
2ft | 5434-7581 | Main frame pin |
2ft | 5598-1221 | Feed plate |
2ft | 5598-1781 | Feed plate |
2ft | 6341-5501 | Pinion thrust washer |
2ft | 6380-2381 | Socket sealing ring |
2ft | 6391-0181 | Torch ring |
2ft | 6482-0701 | Spring segment |
2ft | 6863-2501 | Countershaft |
2ft | 6886-1221 | Main shaft |
2ft | 6886-1781 | Main shaft |
2ft | 7058-7510 | Step bearing shim |
2ft | 7058-7520 | Step bearing shim |
2ft | 7058-7525 | Step bearing shim |
2ft | 7320-1691 | Main shaft sleeve |
2ft | 7320-2681 | Main shaft sleeve |
2ft | 7381-1001 | Socket |
2ft | 8607-7041 | Torch ring |
3ft | 1603-1121 | Feed hopper |
3ft | 1603-1781 | Bowl hopper |
3ft | 1934-6050 | Spring bolt |
3ft | 1970-5001 | U-bolt |
3ft | 2005-2437 | Bowl |
3ft | 2005-2576 | Bowl |
3ft | 2206-0762 | Countershaft bushing |
3ft | 2207-2561 | Inner eccentric bushing |
3ft | 2207-1401 | Inner eccentric bushing |
3ft | 2214-5321 | Outer eccentric bushing |
3ft | 2281-4850 | Adjustment cap |
3ft | 2618-1550 | Feed cone |
3ft | 2618-2186 | Feed cone |
3ft | 2747-5951 | Locking nut cover |
3ft | 3041-2875 | Feed distributor |
3ft | 3113-8401 | Eccentric |
3ft | 3113-8751 | Eccentric |
3ft | 3378-2727 | Main frame |
3ft | 3680-7353 | Pinion |
3ft | 3680-7703 | Pinion |
3ft | 3680-8753 | Eccentric gear |
3ft | 3680-9455 | Eccentric gear |
3ft | 3806-4021 | Arm guard |
3ft | 4246-3001 | Head |
3ft | 4246-3002 | Head |
3ft | 4246-3004 | Head |
3ft | 4246-3005 | Head |
3ft | 4573-6067 | Countershaft box |
3ft | 4545-1786 | Spring housing |
3ft | 4829-5161 | Bowl liner |
3ft | 4829-5431 | Bowl liner |
3ft | 4829-5701 | Bowl liner |
3ft | 4829-6530 | Bowl liner |
3ft | 4829-6544 | Bowl liner |
3ft | 4829-7591 | Bowl liner |
3ft | 4872-3565 | Socket liner |
3ft | 4872-4795 | Socket liner |
3ft | 5013-2201 | Mantle |
3ft | 5013-2501 | Mantle |
3ft | 5013-2801 | Mantle |
3ft | 5013-3401 | Mantle |
3ft | 5013-3801 | Mantle |
3ft | 5168-4896 | Main shaft nut |
3ft | 5434-7801 | Pin |
3ft | 5434-9341 | Pin |
3ft | 5598-2621 | Feed plate |
3ft | 5598-3461 | Feed plate |
3ft | 5683-1500 | Locking key |
3ft | 5759-7801 | Step bearing |
3ft | 5759-9350 | Step bearing |
3ft | 5920-7751 | Sheave |
3ft | 5921-4907 | Sheave |
3ft | 6187-3900 | Adjustment ring |
3ft | 6272-7401 | Locking collar |
3ft | 6273-2501 | Locking nut |
3ft | 6358-3921 | Oil flinger |
3ft | 6358-7771 | Oil flinger housing |
3ft | 6359-4701 | Socket sealing ring |
3ft | 6380-5101 | Socket sealing ring |
3ft | 6391-0181 | Torch ring |
3ft | 6482-1961 | Spring segment |
3ft | 6482-7301 | Spring segment |
3ft | 6587-6610 | Adjustment lock post |
3ft | 6863-3701 | Countershaft |
3ft | 6886-2273 | Main shaft |
3ft | 3886-3183 | Main shaft |
3ft | 7058-7620 | Shim |
3ft | 7058-7626 | Shim |
3ft | 7058-7630 | Shim |
3ft | 7292-5601 | Head wear ring |
3ft | 7305-5396 | Tapered bushing |
3ft | 7320-3201 | Main shaft sleeve |
3ft | 9439-5046 | Feed cone |
4ft | 1063-1877 | Feed hopper |
4ft | 1063-1898 | Feed hopper |
4ft | 1063-1903 | Feed hopper |
4ft | 1063-2661 | Bowl hopper |
4ft | 1063-2890 | Bowl hopper |
4ft | 1970-0710 | U-bolt |
4ft | 1970-1150 | U-bolt |
4ft | 1970-3830 | U-bolt |
4ft | 1970-3832 | U-bolt |
4ft | 2005-3652 | Bowl |
4ft | 2005-3653 | Bowl |
4ft | 2005-3988 | Bowl |
4ft | 2005-3989 | Bowl |
4ft | 2005-4330 | Bowl |
4ft | 2206-2090 | Countershaft bushing |
4ft | 2214-4481 | Inner eccentric bushing |
4ft | 2214-5601 | Outer eccentric bushing |
4ft | 2281-5100 | Adjustment cap |
4ft | 2281-5120 | Adjustment cap |
4ft | 2281-6515 | Adjustment cap |
4ft | 2618-2246 | Feed cone |
4ft | 2618-3190 | Feed cone |
4ft | 2618-3226 | Feed cone |
4ft | 2618-3232 | Feed cone |
4ft | 3378-2995 | Main frame |
4ft | 3680-4204 | Eccentric gear |
4ft | 3680-4903 | Pinion gear |
4ft | 3680-4905 | Pinion gear |
4ft | 3806-4055 | Arm guard |
4ft | 3806-4092 | Countershaft box guard |
4ft | 3806-4581 | Arm guard |
4ft | 4246-5994 | Head |
4ft | 4246-5997 | Head |
4ft | 4246-6003 | Head |
4ft | 4537-6128 | Countershaft box |
4ft | 4545-2731 | Spring housing |
4ft | 4703-4295 | Key |
4ft | 47037585 | Key |
4ft | 4829-8540 | Bowl liner |
4ft | 4829-8545 | Bowl liner |
4ft | 4829-8603 | Bowl liner |
4ft | 4829-8671 | Bowl liner |
4ft | 4830-0023 | Bowl liner |
4ft | 4830-0158 | Bowl liner |
4ft | 4830-0291 | Bowl liner |
4ft | 4830-0350 | Bowl liner |
4ft | 4830-1101 | Bowl liner |
4ft | 4830-1151 | Bowl liner |
4ft | 4851-5001 | Main frame liner |
4ft | 4851-5100 | Main frame liner |
4ft | 4872-5205 | Socket liner |
4ft | 5013-4101 | Mantle |
4ft | 5013-4201 | Mantle |
4ft | 5013-4300 | Mantle |
4ft | 5013-4801 | Mantle |
4ft | 5168-5701 | Main shaft nut |
4ft | 6187-5200 | Adjustment ring |
4ft | 6342-3501 | Pinion thrust washer |
4ft | 6358-5160 | Oil flinger |
4ft | 6358-8156 | Oil flinger housing |
4ft | 6360-1743 | Socket sealing ring |
4ft | 6360-5261 | Baffle ring |
4ft | 6391-3321 | Torch ring |
4ft | 6482-1725 | Spring segment |
4ft | 6587-7025 | Lock post |
4ft | 6875-0416 | Countershaft |
4ft | 6686-4304 | Main shaft |
4ft | 7058-7706 | Shim |
4ft | 7058-7711 | Shim |
4ft | 7058-7713 | Shim |
4ft | 7292-5650 | Head wear ring |
4ft | 7320-4200 | Main shaft sleeve |
4ft | 7320-4201 | Main shaft sleeve |
4ft | 7320-4331 | Main shaft sleeve |
4ft | 7381-4603 | Socket |
4ft | 9439-6020 | Feed cone assembly |
4ft | 9439-6027 | Feed cone assembly |
4ft | 9439-6029 | Feed cone assembly |
4ft | 9439-6521 | Feed cone assembly |
4ft | 9439-6690 | Hydraulic lock post |
4ft | 9439-7091 | Hydraulic adjustment ram |
4 1/4ft | 1028-6361 | Feed hopper |
4 1/4ft | 1063-1886 | Bowl hopper |
4 1/4ft | 1063-2890 | Bowl hopper |
4 1/4ft | 1936-7960 | Spring bolt |
4 1/4ft | 1970-0710 | U-bolt |
4 1/4ft | 1970-1150 | U-bolt |
4 1/4ft | 1970-3830 | U-bolt |
4 1/4ft | 1970-3832 | U-bolt |
4 1/4ft | 1970-5821 | U-bolt |
4 1/4ft | 2005-4776 | Bowl |
4 1/4ft | 2005-4778 | Bowl |
4 1/4ft | 2005-5006 | Bowl |
4 1/4ft | 2206-2090 | Countershaft bushing |
4 1/4ft | 2214-3930 | Inner eccentric bushing |
4 1/4ft | 2214-5885 | Outer eccentric bushing |
4 1/4ft | 2281-6291 | Adjustment cap |
4 1/4ft | 2618-3190 | Feed cone |
4 1/4ft | 2618-3201 | Feed cone |
4 1/4ft | 2618-3221 | Feed cone |
4 1/4ft | 3114-1201 | Eccentric |
4 1/4ft | 3680-5608 | Eccentric gear |
4 1/4ft | 3806-4092 | Countershaft box guard |
4 1/4ft | 4246-9002 | Head |
4 1/4ft | 4404-9932 | Head |
4 1/4ft | 4537-6128 | Countershaft box |
4 1/4ft | 4636-6064 | Clearing jack |
4 1/4ft | 4545-2731 | Spring housing |
4 1/4ft | 4701-0175 | Key |
4 1/4ft | 4701-5660 | Key |
4 1/4ft | 4703-4295 | Key |
4 1/4ft | 4703-7585 | Key |
4 1/4ft | 4830-1826 | Bowl liner |