Product Description
CHINAMFG bearings can manufacture imported brand slewing ring
Modle: 11-50 2645/2-06430
1. Type: single row ball slewing ring
2. Bore diameter: 97.402inch
3. Outside diameter:113.89inch
4. Height: 4.291inch
5. Material: 42CrMo
6. Precision: P0. P6. P5.
7. Cage/retainer: Nylon or aluminum
8. Gear type:internal gear
| Model | Da(inch) | di(inch) | H(inch) |
| External toothed | |||
| 11-50 1900/2-06400 | 84.22 | 68.071 | 4.291 |
| 11-50 2130/2-06410 | 93.732 | 77.126 | 4.291 |
| 11-50 2355/2-06420 | 102.551 | 85.984 | 4.291 |
| 11-50 2645/2-06430 | 113.89 | 97.402 | 4.291 |
| Internal toothed | |||
| 12-50 1800/2-06500 | 77.598 | 61.181 | 4.291 |
| 12-50 2000/2-06510 | 85.472 | 69.449 | 4.291 |
| 12-50 2240/2-06520 | 94.921 | 78.11 | 4.291 |
| 12-50 2490/2-06530 | 104.764 | 88.189 | 4.291 |
| 12-50 2800/2-06540 | 116.969 | 100.157 | 4.291 |
About CHINAMFG bearings
1.introduction:we are a manufacturer of slewing bearing since 1993, our factory occupies a area of 30000square meters with 4 workshop and 1 office building.
2. Featured products: slewing bearing and slewing drive
3. Capital: Current is 1 million RMB, but we are increasing the capital to 10 million RMB
4. Workers: 40
5. Certificate: ISO9001:2008, 3.1 certificate, CCS certificate, Science and Technology Progress Award
6. Annual Exportation: 8million USD
7. Exported countries: (39)
Asia: India, Pakistan, Iran, Signore, Georgia, Malaysia, Vietnam, Thailand, Philippines, Israel, Korea, UAE, Sri Lanka, Saudi Arabia,
Europe: Turkey, Russia, Spain, Czech Republic, Italy, Poland, Slovakia, Bosnia and Herzegovina, Austria, France, Germany, Switzerland, Finland, Ukraine, UK
America: USA, Canada, Mexico, Brazil, Puerto Rico, Peru, Chile
Africa: South Africa, Egypt
Oceania: Australia
Production Process of CHINAMFG slewing bearings
Quality Control Process of CHINAMFG slewing bearings
LYHY Slewing Bearing Packing
Bearing surface is covered with the anti-rust oil first; and then wrapped with the plastic film;
And then packed with kraft paper and professional belts;
At last, with wooden box totally at the outer packing to invoid the rust or the moist;
We can depend on the customers demand to be packed;
Slewing Ring Bearings——Applications:
Slewing ring bearings are widely used in industry and known as “the machine joints” Here under is the specific slewing bearing applications
1. Construction machinery (e.g. cranes, excavators, loader, scraper)
2. Metallurgical machinery (e.g. for steel plant)
3. Heavy machinery equipment (e.g. mining machinery, concrete machinery)
4. Marine machinery equipment (e.g. vessel, port hoisting machine, port oil transfer equipment, onshore and offshore crane)
5. Light machinery equipment (e.g. paper machine, plastic, rubber machine, weave machine)
6. Wind power generator
7. Packing machinery
Transportation:
All CHINAMFG slewing ring bearings can be usually delivered timely, usual production time is 15-50 days based on different slew bearings diameters, sometimes slew rings will be in stock.
Slewing bearings can be offered different delivery terms, such as EXW, FOB, CIF, DDU and so on.
Also, slewing rings can be transported by different transport ways, by express (such as DHL, TNT, UPS, FEDEX and so on), by air, by sea, by truck, by railway and so on.
INSTALLATION OF CHINAMFG SLEWING BEARINGS
Preparation:
Make sure that the model is correct and slewing bearing isn’t damaged during transportation.
2. Check the appearance and rotational state of the bearing, such as rotational precision clearance, rotating flexibility, seals position, lubrication grease etc.
3. The installation datum plane and bracket installing plane should be clean, grease, burr, paint and other foreign body should be wiped off.
Installation:
1. The screws in the installing plane should be fit with the mounting holes in the slewing bearing
2. The slewing bearing has a soft zone marked with an “s” on the upper surface, when installing the bearing, it is important to ensure that this area is placed in a non-load or infrequent load zone.
3. When the bearing is placed on the supporting frame work it is important to check the interface between these 2 surfaces. This check should be carried out with the insertion of feel gauges between the 2 surfaces. If a gap should exist then it is recommended to plane/resurface the effective area so as to remove the gap.
4. Install slewing bearing with high strength screws, and choose appropriate strength bolts. All bolts are required to be tightened evenly. The sequence of this tightening process is shown in Pic. Welding of bearing is not allowed, in the event of welding any adjacent parts, heat transfer shall be avoided so as to cause the bearing to become deformed or change the hardness.
5. After installation, the bearing should be rotated to check for smooth operation and any emission of unusual noise. If either of the aforementioned are noted, then the bearing should be adjusted to eliminate them. The teeth of the largest run-out are coated with green paint.
FAQ:
Q: Are LYHY BEARINGS trading company or manufacturer?
A: CHINAMFG BEARINGS is a professional manufacturer for slewing bearings, thin section bearings, ball bearings and rolling bearings
Q: How do LYHY BEARINGS control quality of their bearing?
A: LYHY BEARINGS has established strict quality control systems, all the products and services has passed ISO9001-2008 Quality Certificate and third party such as CCS, LR,ABS,BV
Q: What is the MOQ?
A: MOQ is 1pc, pls message us for detailed information.
Q: How about the package for CHINAMFG bearings?
A: Standard Industrial packing in general condition (Plastic tube+ professional plastic belts+ plywood case). Accept design package when OEM.
Q: How long is the production time?
A: It takes about 7-40 days, depends on the model and quantity.
Q: How about the shipping?
A: We can arrange the shipment or you may have your own forwarder.
Q: Is sample available?
A: Yes, sample order is acceptable.
Q: Can we use our own LOGO or design on bearings?
A: Yes. OEM is acceptable for LYHY BEARINGS. We can design as per your requirements and use your own LOGO and package design.
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| Standard or Nonstandard: | Standard |
|---|---|
| Sealing Gland: | Sealed On Both Sides |
| Rolling-Element Number: | Single-Row |
| Roller Type: | Four Point Contact Ball |
| Material: | 42CrMo |
| Type: | External Gear |
| Samples: |
US$ 5000/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do you install a ring gear system?
Installing a ring gear system requires careful attention to ensure proper alignment, engagement, and secure attachment. Here’s a detailed explanation of the installation process:
- Prepare the Components: Gather all the necessary components for the ring gear system installation, including the ring gear, driving gear, and any other associated gears or components.
- Clean the Surfaces: Thoroughly clean the mounting surfaces of the gears and the mating components to remove any dirt, debris, or old lubricant. Clean surfaces will ensure better engagement and prevent contamination of the gear system.
- Inspect the Gears: Carefully inspect the ring gear and other gears for any signs of damage, wear, or misalignment. Check the teeth for any chips, cracks, or irregularities that may affect the performance of the gear system. Replace any damaged or worn gears before proceeding with the installation.
- Ensure Proper Alignment: Align the ring gear and the driving gear in the desired configuration. The alignment depends on the specific gear system and application requirements. Follow the manufacturer’s guidelines or engineering specifications to achieve the correct alignment.
- Establish Gear Engagement: Position the driving gear in close proximity to the ring gear and ensure proper engagement of the gear teeth. The teeth should mesh smoothly and evenly without any gaps or interference. Adjust the positioning of the gears if necessary to achieve optimal engagement.
- Secure Attachment: Once the gears are properly aligned and engaged, secure the ring gear in place. This may involve bolting or fastening the ring gear to a stationary component or housing. Follow the recommended torque specifications provided by the manufacturer to ensure proper tightening without overloading the gear system.
- Check Clearance and Backlash: Verify that there is adequate clearance between the gears and other nearby components to prevent interference during operation. Also, check the backlash, which is the slight gap between the meshing teeth, to ensure it falls within the recommended range. Adjust the gear positioning if clearance or backlash is outside the acceptable limits.
- Apply Lubrication: Apply the appropriate lubricant to the gear teeth and the mating surfaces to reduce friction and wear. Refer to the manufacturer’s recommendations for the type and amount of lubricant to use. Proper lubrication is crucial for smooth gear operation and longevity.
- Perform Function and Safety Tests: After the installation, perform function tests to ensure the gear system operates smoothly and without any abnormal noise or vibration. Additionally, check for any safety considerations, such as the presence of appropriate guards or protective covers if required for the specific application.
It’s important to note that the installation process may vary depending on the specific gear system, machinery, and manufacturer’s guidelines. Always refer to the provided instructions and consult with experts or professionals if needed to ensure a proper and accurate installation of the ring gear system.
How does a ring gear impact the overall efficiency of a system?
A ring gear plays a significant role in the overall efficiency of a system. Here’s a detailed explanation of how a ring gear impacts system efficiency:
- Power Transmission: Ring gears are responsible for transmitting power from one component to another within a system. They facilitate the transfer of rotational energy and torque between gears, shafts, or other drivetrain elements. The design and quality of the ring gear, along with its meshing with other gears, directly affect the efficiency of power transmission. Well-designed and properly maintained ring gears minimize energy losses due to friction, misalignment, or backlash, resulting in higher overall system efficiency.
- Friction and Wear: The interaction between the ring gear and other gears or components introduces friction, which can lead to energy losses and reduced efficiency. The smoothness of the gear surfaces, the quality of the lubrication, and the design of the gear teeth profile all influence the amount of friction generated. High-quality ring gears with proper lubrication and optimized tooth profiles can minimize friction and wear, thereby improving system efficiency by reducing energy losses.
- Mechanical Losses: In any gear system, there are inherent mechanical losses due to factors such as gear meshing, rolling resistance, and internal friction. These losses can impact the overall efficiency of the system. The design and quality of the ring gear, including factors such as gear tooth geometry, material selection, and surface finish, can help minimize mechanical losses. By reducing these losses, the ring gear contributes to improved system efficiency.
- Load Distribution: Ring gears play a critical role in distributing loads within a system. They help evenly distribute the forces and torque applied to the gear system, preventing localized overloading and reducing the risk of premature component failure. Proper load distribution achieved through well-designed ring gears ensures balanced operation, minimizes stress concentrations, and optimizes the system’s overall efficiency.
- Backlash and Precision: Backlash refers to the play or clearance between the gear teeth when they change direction. Excessive backlash can result in inefficient power transmission, reduced accuracy, and increased wear. Ring gears with tight tolerances and precise manufacturing help minimize backlash, ensuring smooth and efficient operation. By reducing backlash and maintaining precise gear meshing, the ring gear contributes to improved system efficiency and accuracy.
- System Integration and Compatibility: Ring gears must be properly integrated into the overall system design and be compatible with other components. The alignment, mounting, and proper engagement of the ring gear with other gears or components are crucial for efficient operation. Misalignment or compatibility issues can lead to increased friction, wear, and energy losses. A well-integrated ring gear that is compatible with the system’s requirements contributes to improved overall efficiency.
- Maintenance and Lubrication: Regular maintenance and proper lubrication of the ring gear are essential for maintaining efficiency. Adequate lubrication reduces friction, wear, and heat generation, promoting efficient power transmission. Regular inspections, lubricant analysis, and timely lubricant replenishment or replacement help ensure optimal performance and efficiency of the ring gear and the overall system.
Overall, the design, quality, maintenance, and proper integration of the ring gear within a system significantly impact its efficiency. Through minimizing friction, reducing mechanical losses, optimizing load distribution, and ensuring precise operation, a well-designed and properly maintained ring gear contributes to improved overall system efficiency.
How do ring gears differ from other types of gears?
Ring gears, also known as annular gears or internal gears, possess distinct characteristics that set them apart from other types of gears. Here’s a detailed explanation of how ring gears differ from other gears:
1. Tooth Configuration: The most significant difference between ring gears and other gears is their tooth configuration. In a ring gear, the teeth are located on the inside circumference of a circular ring, whereas in other gears such as spur gears, helical gears, and bevel gears, the teeth are present on the outer surface of the gear. This internal tooth arrangement makes ring gears unique and allows them to mesh with pinion gears or other external gears.
2. Gear Assembly: The assembly of ring gears differs from other gears. In most cases, ring gears are used in combination with pinion gears or other external gears. The pinion gear meshes with the teeth on the inside of the ring gear. This gear set configuration enables the transmission of rotational motion and torque.
3. Load Distribution: Ring gears distribute the load over a larger area compared to other types of gears. The load is spread across the internal teeth of the ring gear, resulting in improved load-carrying capacity and enhanced gear durability. This load distribution characteristic makes ring gears suitable for applications that involve high loads or continuous operation.
4. Gear Ratio: Ring gears offer specific advantages in terms of gear ratios. They are commonly used in applications where high gear ratios are required. The gear ratio is determined by the number of teeth on the ring gear compared to the number of teeth on the mating gear (such as a pinion gear). The internal tooth configuration of the ring gear allows for larger gear diameters, enabling higher gear ratios to be achieved.
5. Space Utilization: Ring gears provide a compact design compared to some other types of gears. The internal tooth arrangement allows for a more space-efficient gear assembly. This compactness is advantageous in applications where space is limited or where a high gear ratio needs to be achieved within a confined area.
6. Applications: Ring gears are commonly used in automotive transmissions, differential systems, planetary gear systems, industrial machinery, robotics, power generation equipment, and heavy machinery. Their unique characteristics make them suitable for applications that require precise motion control, load distribution, and high gear ratios.
It’s important to note that the specific design, tooth profile, material selection, and manufacturing techniques may vary for different types of gears, including ring gears. Each type of gear is designed to meet specific application requirements, operating conditions, and performance needs.
editor by Dream 2024-04-26