Product Description
Product Description
Sheave features:
| Material: | Q235B, Q345B, 35#, 45#, 60#, SSW-QR1, S45C | |||||||||
| Groove surface quench | HRC45-55 | |||||||||
| Groove surface quench depth | 2mm-2.5mm | |||||||||
| Max processing diameter | 2, 000mm | |||||||||
| Short Production cycle | ||||||||||
| It is used for crane equipment, port equipment, oil drilling rig and so on | ||||||||||
Product Parameters
| Code | Wire rope diameter(mm) | Main dimension(mm) A | |||||
| Groove diameter | Outside diameter | R | Groove Width | Shaft diameter | Bearing hole width | ||
| BX1201 | 10-14 | 240 | 280 | 7 | 37 | 55 | 55 |
| BX2201 | >14-19 | 350 | 400 | 10 | 50 | 80 | 80 |
| BX3201 | >19-23.5 | 440 | 510 | 12 | 60 | 95 | 95 |
| BX4201 | >23.5-30 | 510 | 650 | 15 | 73 | 130 | 122 |
| BX5201 | >23.5-30 | 680 | 800 | 19 | 92 | 160 | 142 |
| BX6201 | >30-37 | 800 | 920 | 22 | 104 | 160 | 142 |
| BX7201 | >43-50 | 900 | 1050 | 26 | 123 | 190 | 182 |
| BX8201 | >50-58 | 1100 | 1260 | 29 | 135 | 190 | 182 |
Production Profile
About Us
About Us
As a company of industries and trading integration with ISO 9001-2008 Certificate, HangZhou CHINAMFG Metallurgy Equipment Manufacturing Co., Ltd. Has been in manufacturing material handling equipment parts for many years, with professional experience.
Our Service:
If you are interested in any of our products, please contact me freely! Warmly Welcomed your visit to our factory in China, OEM service will be ok.
Application
Customer Visiting
Certifications
Packaging & Shipping
Services:
Best Services For You
1) We can provide OEM service and design for you
2) We can pack the goods according to your requirement
3) We test the quality of all products before delivery
4) We guarantee our reply in 24 hours of working day
5) We can communicate with you in different languages
6) High quality, best price, punctual shipment, good after-sale service will be guaranteed.
FAQ:
Q: What information should I provide if I want to order the products?
1) Product information: Quantity, specification
2) Delivery time required.
3) Shipping information: Company name, address, phone number, destination seaport/air port.
4) Forwarder’s contact details if there is any in China.
Q: How about your payment terms?
A: 30% -50%deposit, with the balance before delivery, we accept T/T and L/C at sight.
Q: Can I use our own logo?
A: Yes, we can produce by using your own logo if you need.
Q: How about sample & MOQ policy?
A: Welcome sample order. MOQ can be 1 set.
Q: What is your lead time for your goods?
A: Normally 30 days after confirmed order,
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| Certification: | ISO9001 |
|---|---|
| Condition: | New |
| Operation Form: | Cabin |
| Maximum Lifting Height: | 30-40m |
| Maximum Lifting Weight: | 150-200t |
| Sheave: | Goods Crane |
| Customization: |
Available
| Customized Request |
|---|
Can sheaves be integrated into existing mechanical systems for upgrades?
Yes, sheaves can often be integrated into existing mechanical systems as part of upgrades or improvements. Sheaves, also known as pulleys, are versatile components that can be incorporated into various types of machinery and systems. Here are some considerations when integrating sheaves into existing mechanical systems:
- Compatibility: Before integrating sheaves into an existing system, it is important to assess their compatibility. Consider factors such as the dimensions, load-bearing capacity, and operating requirements of the sheaves, ensuring they align with the specifications of the existing system.
- System analysis: Conduct a thorough analysis of the existing mechanical system to identify areas where sheaves can be beneficial. Determine the specific objectives of the upgrade, such as improving efficiency, increasing power transmission capabilities, or reducing wear and tear on components.
- Engineering and design: Engage with qualified engineers or experts to design and engineer the integration of sheaves into the existing system. This may involve selecting the appropriate sheave sizes, types, and materials, as well as designing the necessary supports, mounts, or modifications to accommodate the sheaves.
- Load and stress analysis: Evaluate the load distribution and stress factors within the existing system to ensure that the integration of sheaves does not exceed the system’s design limits. Consider the potential impact on other system components and make any necessary adjustments or reinforcements to handle the increased loads or changes in operating conditions.
- Installation and alignment: Proper installation and alignment of the sheaves are critical to their effective integration. Follow manufacturer guidelines or consult with experts to ensure precise installation, including correct positioning, alignment of grooves, and tensioning of belts or ropes.
- Testing and monitoring: After integrating sheaves into the existing system, perform thorough testing to verify their performance and assess the overall system functionality. Monitor the system during operation to identify any issues or adjustments required to optimize the integration of the sheaves.
- Maintenance and service: Incorporate the integrated sheaves into the regular maintenance and service schedule of the existing system. This includes inspecting and lubricating the sheaves, monitoring their wear and alignment, and addressing any maintenance needs specific to the sheaves.
By following these considerations and best practices, sheaves can be successfully integrated into existing mechanical systems, providing upgrades and improvements to enhance system performance, efficiency, and longevity.
Are there safety considerations when working with sheave systems?
Yes, there are several safety considerations to keep in mind when working with sheave systems. Sheaves, also known as pulleys, are mechanical components that are often part of complex machinery and systems. It is important to follow proper safety practices to prevent accidents and ensure the well-being of personnel. Here are some safety considerations when working with sheave systems:
- Training and knowledge: Ensure that personnel working with sheave systems have received proper training and possess the necessary knowledge to operate and maintain the equipment safely. They should understand the potential hazards associated with sheave systems and be familiar with the specific safety precautions and procedures.
- Personal protective equipment (PPE): Depending on the specific application and workplace requirements, appropriate PPE should be used. This may include safety glasses, gloves, hearing protection, and protective clothing to protect against potential hazards such as flying debris, noise, and contact with moving parts.
- Lockout/tagout procedures: When performing maintenance or repair tasks on sheave systems, it is essential to follow lockout/tagout procedures. This involves disconnecting the power source, locking out the energy isolation points, and using tags to indicate that the equipment is undergoing maintenance. These procedures prevent unintentional startup or movement of the sheave system, protecting workers from injury.
- Proper lifting and handling: Sheave systems and their components can be heavy and awkward to handle. Use proper lifting techniques and equipment, such as cranes or hoists, when moving or installing sheaves. Avoid lifting loads beyond the recommended capacity of the equipment to prevent accidents and injuries.
- Clearance and workspace: Ensure that there is adequate clearance and workspace around sheave systems. This includes maintaining a safe distance from moving parts, allowing sufficient space for maintenance activities, and keeping the area free from clutter or obstructions that could pose a tripping or entanglement hazard.
- Regular inspections: Regularly inspect sheave systems for signs of wear, damage, or malfunction. Address any issues promptly to prevent potential safety hazards. This includes checking for loose or missing fasteners, damaged belts or ropes, and unusual noise or vibrations during operation.
- Emergency procedures: Establish and communicate clear emergency procedures in case of accidents, malfunctions, or unexpected events involving sheave systems. This may include procedures for stopping the equipment, evacuating personnel, and providing first aid.
By adhering to these safety considerations, the risks associated with working with sheave systems can be minimized, creating a safer work environment for all individuals involved.
What is a sheave, and how is it used in mechanical systems?
A sheave is a mechanical component used in various mechanical systems for transmitting power and changing the direction or speed of a belt or rope. Here is a detailed explanation of what a sheave is and how it is used:
Definition:
A sheave, also known as a pulley wheel or a belt wheel, is a grooved wheel that is typically mounted on an axle or shaft. It features a groove or grooves along its circumference to guide a belt, rope, or cable. The groove prevents slippage and provides traction for power transmission.
Function:
Sheaves serve several important functions in mechanical systems:
1. Power Transmission:
Sheaves are primarily used to transmit power from one rotating component to another. When a belt or rope is looped around a sheave, the rotation of the sheave causes the belt or rope to move, transferring power from the input side to the output side.
2. Speed and Directional Changes:
By using different-sized sheaves in combination with belts or ropes of varying lengths, mechanical systems can achieve speed and directional changes. Larger sheaves connected to smaller sheaves will result in speed reduction, while smaller sheaves connected to larger sheaves will increase speed. Changing the arrangement of sheaves can also alter the direction of motion.
3. Tensioning and Belt Tracking:
Sheaves play a role in tensioning belts or ropes within a system. Proper tension is crucial for efficient power transmission and preventing belt slippage. Tensioning mechanisms, such as adjustable sheave positions or spring-loaded idler pulleys, are used to maintain the desired tension. Sheaves can also assist in tracking the belt or rope along the correct path within the system.
4. Load Distribution:
In systems with multiple sheaves, load distribution is an important consideration. By distributing the load across multiple sheaves, the system can handle higher loads while reducing the strain on individual components.
Types of Sheaves:
Sheaves come in various types depending on the application:
a. Flat Belt Sheaves: Designed for flat belts, these sheaves have a flat groove along their circumference.
b. V-Belt Sheaves: These sheaves are designed to accommodate V-belts, which have a trapezoidal cross-section. The groove in V-belt sheaves matches the shape of the V-belt, providing a secure fit.
c. Timing Belt Sheaves: Used in systems that require precise synchronization, timing belt sheaves have teeth that mesh with the teeth on the timing belt, ensuring accurate timing and positional control.
d. Wire Rope Sheaves: Wire rope sheaves are specifically designed for use with wire ropes or cables and feature a groove that prevents the wire rope from slipping.
Applications:
Sheaves are employed in a wide range of mechanical systems, including:
– Conveyor systems
– Elevators and lifts
– Cranes and hoists
– Agricultural machinery
– Industrial machinery
– HVAC systems
– Power transmission systems
Summary:
In summary, a sheave is a grooved wheel used in mechanical systems for power transmission, speed and directional changes, tensioning, load distribution, and belt tracking. They come in various types, such as flat belt sheaves, V-belt sheaves, timing belt sheaves, and wire rope sheaves, and find applications in a wide range of industries and machinery.
editor by CX
2024-05-08
