Product Description

 

Product Description

The double row ball slewing bearing has 3 seat rings , the steel ball and the spaces can be directly arranged into the upper and lower races. Two rows of steel balls are fitted according to the force born . Open mode fitting is extraordinary convenient .The load angles of both upper and lower race are 90°,which enable to bear large axial force and the tilting moment.

As the axial and radial dimension of the double row ball slewing bearing are rather large , structural is tightening and can support high static loads. They are mainly used in situations with variational load position and direction and continuously rotating . Especially suitable for tower cranes which require working radius over medium range , mobile crane and loading and unloading machinery .

Product Parameters

Different dia product specification

Model Boundary dimensions(mm) Bolt hole diameter(mm) Structure dimensions(mm) Gear parameters(mm) Basic load ratings Mass
Non-gear External gear Internal gear H D1  D2  n <p  D3 (D d1 (dT) H1 h n3 φ3  m Da Z  da Z b X Coa 104N kg
571-25-500 571-25-500 571-25-500 616 384 106 580 420 20 18 523 518 96 26 4 M10x1 5 645 126 355 72 60 0.5 121 100
  571-25-500 571-25-500 616 384 106 580 420 20 18 523 518 96 26 4 M10x1 6 648 105 348 59 60 0.5 121 100
571-25-560 571-25-560 571-25-560 676 444 106 640 480 20 18 583 577 96 26 4 M10x1 5 705 138 415 84 60 0.5 134 115
  571-25-560 571-25-560 676 444 106 640 480 20 18 583 577 96 26 4 M10x1 6 708 115 408 69 60 0.5 134 115
571-25-630 571-25-630 571-25-630 746 514 106 710 550 24 18 653 647 96 26 4 M10x1 6 792 129 480 81 60 0.5 153 130
  571-25-630 571-25-630 746 514 106 710 550 24 18 653 647 96 26 4 M10x1 8 792 96 472 60 60 0.5 153 130
571-25-710 571-25-710 571-25-710 826 594 106 790 630 24 18 733 728 96 26 4 M10x1 6 864 141 558 94 60 0.5 173 140
  571-25-710 571-25-710 826 594 106 790 630 24 18 733 728 96 26 4 M10x1 8 864 105 552 70 60 0.5 173 140
571-30-800 571-30-800 571-30-800 942 658 124 898 702 30 22 829 823 114 29 6 M10x1 8 984 120 616 78 80 0.5 230 200
  571-30-800 571-30-800 942 658 124 898 702 30 22 829 823 114 29 6 M10x1 10 990 96 610 62 80 0.5 230 200
571-30-900 571-30-900 571-30-900 1042 758 124 998 802 30 22 929 923 114 29 6 M10x1 8 1088 133 712 90 80 0.5 258 250
  571-30-900 571-30-900 1042 758 124 998 802 30 22 929 923 114 29 6 M10x1 10 1090 106 710 72 80 0.5 258 250
571-30-1000 571-30-1000 571-30-1000 1142 858 124 1098 902 36 22 1571 1571 114 29 6 M10x1 10 1200 117 810 82 80 0.5 286 300
  571-30-1000 571-30-1000 1142 858 124 1098 902 36 22 1571 1571 114 29 6 M10x1 12 1200 97 792 67 80 0.5 286 300
571-30-1120 571-30-1120 571-30-1120 1262 978 124 1218 1571 36 22 1148 1143 114 29 6 M10x1 10 1320 129 920 93 80 0.5 321 340
  571-30-1120 571-30-1120 1262 978 124 1218 1571 36 22 1148 1143 114 29 6 M10x1 12 1320 107 912 77 80 0.5 321 340
571-40-1250 571-40-1250 571-40-1250 1426 1074 160 1374 1126 40 26 1286 1282 150 39 6 M10x1 12 1500 122 1008 85 90 0.5 482 580
  571-40-1250 571-40-1250 1426 1074 160 1374 1126 40 26 1286 1282 150 39 6 M10x1 14 1498 104 1008 73 90 0.5 482 580
571-40-1400 571-40-1400 571-40-1400 1576 1224 160 1524 1272 40 26 1436 1432 150 39 6 M10x1 12 1644 134 1152 97 90 0.5 543 650
  571-40-1400 571-40-1400 1576 1224 160 1524 1272 40 26 1436 1432 150 39 6 M10x1 14 1652 115 1148 83 90 0.5 543 650
571-40-1600 571-40-1600 571-40-1600 1776 1424 160 1724 1476 45 26 1636 1632 150 39 8 M10x1 14 1848 129 1344 97 90 0.5 620 750
  571-40-1600 571-40-1600 1776 1424 160 1724 1476 45 26 1636 1632 150 39 8 M10x1 16 1856 113 1344 85 90 0.5 620 750
571-40-1800 571-40-1800 571-40-1800 1976 1624 160 1924 1676 45 26 1836 1832 150 39 8 M10x1 14 2058 144 1540 111 90 0.5 692 820
  571-40-1800 571-40-1800 1976 1624 160 1924 1676 45 26 1836 1832 150 39 8 M10x1 16 2064 126 1536 97 90 0.5 692 820
571-50-2000 571-50-2000 571-50-2000 2215 1785 190 2149 1851 48 33 2038 2032 178 47 8 M10x1 16 2304 141 1696 107 120 0.5 987 1150
  571-50-2000 571-50-2000 2215 1785 190 2149 1851 48 33 2038 2032 178 47 8 M10x1 18 2304 125 1692 95 120 0.5 987 1150
571-50-2240 571-50-2240 571-50-2240 2455 2571 190 2389 2091 48 33 2278 2272 178 47 8 M10x1 16 2544 156 1936 122 120 0.5 1110 1500
  571-50-2240 571-50-2240 2455 2571 190 2389 2091 48 33 2278 2272 178 47 8 M10x1 18 2556 139 1926 108 120 0.5 1110 1500
571-50-2500 571-50-2500 571-50-2500 2715 2285 190 2649 2351 56 33 2538 2532 178 47 8 M10x1 18 2804 153 2196 123 120 0.5 1110 1500
  571-50-2500 571-50-2500 2715 2285 190 2649 2351 56 33 2538 2532 178 47 8 M10x1 20 2820 138 2180 110 120 0.5 1110 1500
571-50-2800 571-50-2800 571-50-2800 3015 2585 190 2949 2651 56 33 2838 2832 178 47 8 M10x1 18 3114 170 2484 139 120 0.5 1390 1900
  571-50-2800 571-50-2800 3015 2585 190 2949 2651 56 33 2838 2832 178 47 8 M10x1 20 3120 153 2480 125 120 0.5 1390 1900
571-60-3150 571-60-3150 571-60-3150 3428 2872 226 3338 2962 56 45 3198 3192 214 56 8 M10x1 20 3540 174 2760 139 150 0.5 1870 3300
  571-60-3150 571-60-3150 3428 2872 226 3338 2962 56 45 3198 3192 214 56 8 M10x1 22 3542 158 2750 126 150 0.5 1870 3300
571-60-3550 571-60-3550 571-60-3550 3828 3272 226 3738 3362 56 45 3598 3592 214 56 8 M10x1 20 3940 194 3160 159 150 0.5 2110 3700
  571-60-3550 571-60-3550 3828 3272 226 3738 3362 56 45 3598 3592 214 56 8 M10x1 22 3938 176 3168 145 150 0.5 2110 3700
571-60-4000 571-60-4000 571-60-4000 4278 3722 226 4188 3812 60 45 4048 4042 214 56 10 M10x1 22 4400 197 3608 165 150 0.5 2370 4200
  571-60-4000 571-60-4000 4278 3722 226 4188 3812 60 45 4048 4042 214 56 10 M10x1 25 4400 173 3600 145 150 0.5 2370 4200
571-60-4500 571-60-4500 571-60-4500 4778 4222 226 4688 4312 60 45 4548 4542 214 56 10 M10x1 22 4884 219 4114 188 150 0.5 2670 4700
  571-60-4500 571-60-4500 4778 4222 226 4688 4312 60 45 4548 4542 214 56 10 M10x1 25 4900 193 4100 165 150 0.5 2670 4700

Same dia product specification
Internal and external gera

Designations Gear parameters External gear parameters Internal gear parameters Weight (kg)
External gear Internal gear b m da Z da Z
031.25.560 033.25.560 60 5 704 138 417 84 156
032.25.560 034.25.560 60 6 706.8 115 410.4 69  
031.25.630 033.25.630 60 6 790.8 129 482.4 81 175
032.25.630 034.25.630 60 8 790.4 96 475.2 60  
031.25.710 033.25.710 60 6 862.8 141 560.4 94 198
032.25.710 034.25.710 60 8 862.4 105 555.2 70  
031.30.800 033.30.800 80 8 982.4 120 619.2 78 324
032.30.900 034.30.900 80 10 1088 106 714 72  
031.30.1000 033.30.1000 80 10 1198 117 814 82 405
032.30.1000 034.30.1000 80 12 1197.6 97 796.8 67  
031.30.1120 033.30.1120 80 10 1318 129 924 93 455
032.30.1120 034.30.1120 80 12 1317.6 107 916.8 77  
031.40.1250 033.40.1250 90 12 1497.6 122 1012.8 85 837
032.40.1250 034.40.1250 90 14 1495.2 104 1013.6 73  
031.40.1400 033.40.1400 90 12 1641.6 134 1156.8 97 940
032.40.1400 034.40.1400 90 14 1649.2 115 1153.6 83  
031.40.1600 033.40.1600 90 14 1845.2 129 1349.6 97 1075
032.40.1600 034.40.1600 90 16 1852.8 113 1350.4 85  
031.40.1800 033.40.1800 90 14 2055.2 144 1545.6 111 1213
032.40.1800 034.40.1800 90 16 2060.8 126 1542.4 97  
031.50.200 033.50.2000 120 16 2300.8 141 1702.4 107 1921
032.50.2000 034.50.2000 120 18 2300.4 125 1699.32 95  
031.50.2240 033.50.2240 120 16 2540.8 156 1942.4 122 2159
032.50.2240 034.50.2240 120 18 2552.4 139 1933.2 108  
031.50.2500 033.50.2500 120 18 2804.4 153 2203.2 123 2406
032.50.2500 034.50.2500 120 20 2816 138 2188 110  
031.50.2800 033.50.2800 120 18 3110.4 170 2491.2 139 3221
032.50.2800 034.50.2800 120 20 3116 153 2488 125  
031.60.3150 033.60.3150 150 20 3536 174 2768 139 4652
032.60.3150 034.60.3150 150 22 3537.6 158 2758.8 126  
031.60.3550 033.60.3550 150 20 3936 194 3168 159 5262
032.60.3550 034.60.3550 150 22 3933.6 176 3176.8 145  
031.60.4000 033.60.4000 150 22 4395.6 197 3616.8 165 5938
032.60.4000 034.60.4000 150 25 4395 173 3610 145  

No gear

Designations Dimension (mm)
Non-geartype D d T H h D1 d1 dn n n1
030.25.560 676 444 110 100 26 640 480 18 20 4
676 444 110 100 26 640 480 18 20 4
030.25.630 746 514 110 100 26 710 550 18 24 4
746 514 110 100 26 710 550 18 24 4
030.25.710 826 594 110 100 26 790 630 18 24 4
826 594 110 100 26 790 630 18 24 4
030.30.800 942 658 130 120 29 898 702 22 30 6
942 658 130 120 29 898 702 22 30 6
030.30.900 1042 758 130 120 29 998 802 22 30 6
1042 758 130 120 29 998 802 22 30 6
030.30.1000 1142 858 130 120 29 1098 902 22 36 6
1142 858 130 120 29 1098 902 22 36 6
030.30.1120 1262 978 130 120 29 1218 1571 22 36 6
1262 978 130 120 29 1218 1571 22 36 6
030.40.1250 1426 1074 170 160 39 1374 1126 26 40 5
1426 1074 170 160 39 1374 1126 26 40 5
030.40.1400 1576 1224 170 160 39 1524 1272 26 40 5
1576 1224 170 160 39 1524 1272 26 40 5
030.40.1600 1776 1424 170 160 39 1724 1476 26 45 5
1776 1424 170 160 39 1724 1476 26 45 5
030.40.1800 1976 1624 170 160 39 1924 1676 26 45 5
1976 1624 170 160 39 1924 1676 26 45 5
030.50.2000 2215 1785 200 188 47 2149 1851 33 48 8
2215 1785 200 188 47 2149 1851 33 48 8
030.50.2240 2455 2571 200 188 47 2389 2091 33 48 8
2455 2571 200 188 47 2389 2091 33 48 8
030.50.2500 2715 2285 200 188 47 2649 2351 33 56 8
2715 2285 200 188 47 2649 2351 33 56 8
030.50.2800 3015 2585 200 224 47 2949 2651 33 56 8
3015 2585 200 224 47 2949 2651 33 56 8
030.60.3150 3428 2872 240 224 56 3338 2962 45 56 8
3428 2872 240 224 56 3338 2962 45 56 8
030.60.3550 3828 3272 240 224 56 3738 3362 45 56 8
3828 3272 240 224 56 3738 3362 45 56 8
030.60.4000 4278 3722 240 224 56 4188 3812 45 60 8
4278 3722 240 224 56 4188 3812 45 60 8

Company Profile

HangZhou solarich machinery Co., Ltd. is a professional manufacturer of bearings, We can design and manufacture single-row ball slewing bearings, double-row ball slewing bearings, three-row roller slewing bearings, ball combination slewing bearings, crossed roller bearings, crossed tapered roller bearings Bearings, slewing drives and custom bearings.

Subordinate factories use high-quality chrome steel and stainless steel as raw materials, specializing in the design, development and manufacture of deep groove ball bearings, stainless steel bearings, stainless steel outer ball bearings , tapered bearings , cylindrical bearings, needle bearing , thrust bearing , bearing housing and non-standard bearings.

Adhering to the business philosophy of “Quality and Integrity”, we will continue to provide excellent bearings and high-quality services to serve global customers

Solutions

Playground Equipment

Slewing bearing can provide excellent performance experience and safety guarantee for amusement equipment, and the durability of slewing bearing is also the main concern of technical engineers. For more than 20 years, slewing bearing solutions have been used in many key applications of large amusement equipment. reflect.

We designed the cross-sectional area to remain the same as the raceway center distance increased, and the slewing ring achieves better dynamic capabilities with less mass.

Key advantages include:
* Lighter weight
* Save spaighter weightce
* Long life and lower maintenance costs
* Better stiffness
* Better lubrication in extreme conditions

Medical Device
With the comprehensive development of scientific and technological strength, the social economyu has been improved faster, and the medical equipment has also been comprehensively improved.

 

Mining & construction machinery

Mining machinery and heavy construction machinery industry uses a range of different types of highly specialized mobile machinery. . The places where mining machinery and construction machinery are active are mostly mining sites such as mountains and deserts that are far away from ordinary human life. These heavy machinery work in the harshest environments and require continuous low-friction work without reducing load capacity and minimum. assembly and adjustment time. Solving the bearing heating problem caused by the large exciting force, high vibration frequency and continuous operation of vibratory rollers for users has become the focus of the work. Mineral crushing machinery, cutting machinery, screening machinery, loading machinery, conveying machinery and other equipment in the use environment of bearings, users desire products with robustness, durability and high reliability to resist these harsh working conditions.

Transportation vehicle

Metric and inch needle roller bearings have various structural types, mainly including open drawn cup needle roller bearings, closed drawn cup needle roller bearings, needle roller bearings with inner ring and needle roller bearings without inner ring/without inner ring Cage needle roller bearings, caged and cageless needle roller bearings. Widely used in automobiles, motorcycles, mopeds, power tools, textiles, agricultural machinery, printing machinery, construction machinery, automatic instruments and other fields.

Automatic machinery

Industrial robot bearings mainly include 2 categories: 1 is thin-walled bearings, and the other is crossed cylindrical roller bearings. In addition, there are harmonic reducer bearings, linear roller bearings, spherical plain bearings, etc. Bearings with good performance have large bearing capacity, good rigidity, high rotation precision and easy installation.

 

Packaging & Shipping

FAQ

Q: Are you trading company or manufacturer?
A: We are bearing manufacturer.

Q: How do you control quality of bearing?
A: All products and services passed ISO9001-2008 Quality Certificate.

Q: What is the MOQ?
A: It depends on the bearing type. You can send inquiry or send e-mail  for more information.

Q: How about the package?
A: Industrial packing in general condition (Plastic tube+ carton+ pallet). Accept design package when OEM.

Q: How long is the delivery time?
A: It will take about 10 to 40 days, depends on the model and quantity.

Q: How about the shipping?
A: We can arrange the shipment or you may have the forwarder.

Q: Is sample avaiable?
A: Yes, sample order is acceptable.

Q: Can we use our own LOGO or design on bearings?
A: Yes. OEM is acceptable. We can design the bearing with your requirements and use your own LOGO and package design.

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Standard or Nonstandard: Nonstandard
Sealing Gland: Non-Seal
Rolling-Element Number: Double-Row
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Customization:
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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

How do electronic or computer-controlled components integrate with slewing rings in modern applications?

In modern applications, electronic or computer-controlled components are often integrated with slewing rings to enhance functionality, precision, and automation. This integration allows for advanced control, monitoring, and optimization of rotating systems. Here’s a detailed explanation of how electronic or computer-controlled components integrate with slewing rings in modern applications:

  • Sensor Integration: Electronic sensors can be integrated with slewing rings to provide real-time feedback and data on various parameters. For example, position sensors can be used to accurately track the position and angle of the slewing ring, enabling precise control and positioning of the rotating components. Load sensors can measure the load applied to the slewing ring, allowing for dynamic load monitoring and optimization.
  • Control Systems: Computer-controlled components, such as programmable logic controllers (PLCs) or microcontrollers, can be used to manage the operation of slewing rings. These control systems can receive input from sensors and execute algorithms to control the speed, direction, and positioning of the slewing ring. By integrating electronic control systems, precise and automated control of the slewing ring can be achieved, improving efficiency and reducing human error.
  • Automation and Synchronization: In modern applications, slewing rings are often integrated into automated systems where they work in synchronization with other components. Electronic or computer-controlled components can facilitate this synchronization by coordinating the movements of multiple slewing rings or integrating them with other automated processes. This integration enables seamless and optimized operation of the rotating system as a whole.
  • Data Monitoring and Analysis: Electronic components can be used to collect and analyze data from slewing rings. This data can include parameters such as position, speed, temperature, and load. By monitoring and analyzing this data, it is possible to identify patterns, detect anomalies, and optimize the performance of the slewing rings. This information can be used for predictive maintenance, energy optimization, and performance improvement.
  • Communication and Networking: Electronic components enable communication and networking capabilities for slewing rings. They can be connected to a network or interface with other control systems, allowing for remote monitoring, control, and integration into larger systems. This enables centralized monitoring and control of multiple rotating systems, facilitating efficient operation and maintenance.
  • Feedback and Safety Systems: Electronic components can provide feedback and safety features in slewing ring applications. For example, limit switches or proximity sensors can detect the end positions of the slewing ring’s rotation and trigger safety mechanisms or control actions accordingly. This ensures safe operation, prevents over-rotation, and protects the equipment and personnel.

By integrating electronic or computer-controlled components with slewing rings, modern applications can achieve enhanced control, precision, automation, and data-driven optimization. This integration allows for efficient operation, improved safety, accurate positioning, synchronization with other systems, and the ability to adapt to changing operational requirements. It paves the way for advanced technologies such as robotics, Internet of Things (IoT), and Industry 4.0, where slewing rings play a vital role in the seamless integration of mechanical and electronic systems.

What safety considerations should be taken into account when using slewing rings in industrial settings?

When using slewing rings in industrial settings, several safety considerations should be taken into account to ensure the well-being of personnel, equipment, and the surrounding environment. Here’s a detailed explanation of the safety considerations when using slewing rings:

  • Proper Training and Familiarity: Personnel involved in the operation, maintenance, and servicing of systems equipped with slewing rings should receive proper training and be familiar with the specific procedures and safety guidelines related to slewing ring usage. This includes understanding the system’s limitations, recommended operating parameters, and emergency procedures.
  • Safe Working Distance: Establishing a safe working distance is crucial when working with rotating systems that incorporate slewing rings. Adequate barriers, guardrails, or safety signs should be in place to prevent unintended access to hazardous areas around the slewing ring. Personnel should be aware of the safe working zones and maintain a safe distance from the rotating components.
  • Lockout/Tagout Procedures: Before performing any maintenance or repair tasks on systems with slewing rings, proper lockout/tagout procedures should be followed to ensure the equipment is de-energized and cannot be accidentally started. This prevents unexpected rotation of the slewing ring during maintenance activities, reducing the risk of entanglement or injury.
  • Personal Protective Equipment (PPE): Personnel working with or around slewing rings should wear appropriate personal protective equipment, such as safety helmets, protective eyewear, gloves, and safety footwear. The specific PPE requirements may vary depending on the nature of the industrial setting and potential hazards associated with slewing ring operation.
  • Regular Inspection and Maintenance: Routine inspection and maintenance of slewing rings are essential for identifying any signs of wear, damage, or misalignment. Regularly scheduled inspections help detect potential issues early on and allow for timely repairs or replacements, reducing the risk of sudden failures or accidents during operation.
  • Proper Lubrication: Adequate lubrication of slewing rings is crucial for their optimal performance and longevity. Lubrication intervals and methods recommended by the manufacturer should be followed to ensure proper lubrication. Improper or inadequate lubrication can lead to increased friction, overheating, accelerated wear, and potential failure of the slewing ring.
  • Environmental Considerations: The environmental conditions in which slewing rings operate should be taken into account for safety purposes. Factors such as temperature extremes, moisture, dust, or corrosive substances can affect the performance and durability of slewing rings. Proper sealing, protective coatings, and environmental controls should be implemented to mitigate potential hazards and ensure safe operation.
  • Emergency Stop and Shutdown: Rotating systems equipped with slewing rings should be equipped with emergency stop buttons or other means of immediate shutdown. Personnel should be trained on how to use these emergency stop features effectively and be aware of the emergency shutdown procedure to quickly and safely halt the rotation of the slewing ring in case of an emergency.
  • Compliance with Regulations and Standards: It is essential to comply with relevant safety regulations, standards, and industry guidelines when using slewing rings in industrial settings. These regulations may vary depending on the region and industry-specific requirements. Adhering to these guidelines helps ensure the safety and compliance of the equipment and protects against potential hazards.

In summary, safety considerations when using slewing rings in industrial settings include proper training, maintaining safe working distances, following lockout/tagout procedures, wearing appropriate PPE, conducting regular inspections and maintenance, ensuring proper lubrication, considering environmental factors, implementing emergency stop measures, and complying with safety regulations. By addressing these safety considerations, the risks associated with slewing ring operation can be minimized, promoting a safe working environment and preventing accidents or injuries.

How do slewing rings contribute to precise and controlled motion in machinery?

Slewing rings play a crucial role in enabling precise and controlled motion in machinery. Their design and functionality contribute to achieving accurate positioning, smooth rotation, and controlled movement. Here’s a detailed explanation of how slewing rings contribute to precise and controlled motion:

  • Precision Engineering: Slewing rings are meticulously engineered to provide high precision in motion control. The manufacturing processes involve tight tolerances and precise machining to ensure accurate dimensions and alignment of the rolling elements and raceways. This precision engineering minimizes any deviations or errors in motion, allowing for precise positioning and controlled movement.
  • Low Friction and Smooth Rotation: Slewing rings are designed to minimize friction and enable smooth rotation. The rolling elements, whether balls or rollers, are precisely positioned and guided within the raceways of the slewing ring. This design ensures that the rolling elements make contact with the raceways at specific angles, reducing friction during rotation. The low-friction characteristics allow for smooth and controlled motion, enabling precise positioning without undue resistance or jerky movements.
  • Integrated Gear Mechanism: Many slewing rings are equipped with an integrated gear mechanism. The gear teeth on the inner or outer ring of the slewing ring engage with external gears or pinions, providing a means to transmit torque and control rotational motion. The gear mechanism allows for precise and controlled movement, enabling operators or automated systems to achieve accurate positioning and controlled rotation at desired speeds.
  • Backlash Control: Backlash refers to the slight play or clearance between mating gears or components. Slewing rings are designed to minimize backlash, particularly in applications that require precise motion control. By reducing or eliminating backlash, slewing rings ensure that there is minimal lost motion or error when initiating rotational movement or changing direction. This feature contributes to improved accuracy and controlled motion.
  • Stiffness and Rigidity: Slewing rings are designed to provide high stiffness and rigidity, minimizing deflection or deformation during operation. This characteristic is especially important in applications where precise and controlled motion is required. The high stiffness of slewing rings ensures that the applied forces and torques are efficiently transmitted, allowing for accurate positioning and controlled motion without significant distortion or flexing.
  • Positioning Sensors and Feedback Systems: In conjunction with slewing rings, machinery often incorporates positioning sensors and feedback systems. These sensors and systems provide real-time data on the position, speed, and rotation of the slewing ring. By continuously monitoring and adjusting the motion based on the feedback, precise and controlled movement can be achieved, enabling accurate positioning and motion control.

Overall, slewing rings contribute to precise and controlled motion in machinery through their precision engineering, low friction, integrated gear mechanisms, backlash control, stiffness, and compatibility with positioning sensors and feedback systems. These features ensure accurate positioning, smooth rotation, and controlled movement, making slewing rings essential components for applications that require precise motion control in various industries such as construction, material handling, robotics, and manufacturing.

China best Precision Slew External Internal Gear Bearing Slewing Ring Tower Crane Gearbox Slewing Reducer for Sale 034.30.900 031.30.1000 033.30.1000  China best Precision Slew External Internal Gear Bearing Slewing Ring Tower Crane Gearbox Slewing Reducer for Sale 034.30.900 031.30.1000 033.30.1000
editor by Dream 2024-05-14