single

Nongeared Slewing Bearing: Definition, Uses, and Advantages

Home » Nongeared Slewing Bearing: Definition, Uses, and Advantages

Nongeared Slewing Bearing: Definition, Uses, and Advantages

If you’re in the market for a slewing bearing, you may have come across the term “nongeared”. Nongeared slewing bearings are a type of bearing that do not have gears attached to them. Instead, they rely on other components in the machine to transmit power and torque.

A nongeared slewing bearing rotates smoothly on a horizontal axis, supported by a sturdy base and surrounded by industrial machinery

Nongeared slewing bearings are often used in applications where there is limited space or weight restrictions. Without the added weight and complexity of gears, these bearings can be more compact and lightweight than their geared counterparts. They are also typically less expensive, making them a cost-effective option for many applications.

While nongeared slewing bearings may not have gears, they still play a critical role in many machines and systems. They are designed to handle radial, axial, and moment loads, and can help facilitate smooth rotation and movement. If you’re considering a nongeared slewing bearing for your application, it’s important to carefully consider your specific requirements and consult with a knowledgeable supplier to ensure you choose the right bearing for your needs.

Fundamentals of Slewing Bearings

A nongeared slewing bearing rotates smoothly on its axis, with ball or roller elements evenly spaced around the inner and outer rings

Slewing bearings are rotational rolling-element bearings used to support slow-turning or slowly-oscillating loads in combination. They are typically used in applications such as cranes, excavators, wind turbines, and other heavy machinery. In this section, we will discuss the design principles and core components of nongeared slewing bearings.

Design Principles

Nongeared slewing bearings are designed to provide smooth and stable movement of heavy equipment. They consist of an outer ring, an inner ring, and rolling elements (balls or rollers) that are placed between the two rings. The rolling elements enable the rings to rotate relative to each other, while the raceways on the rings guide the rolling elements. The raceways are typically machined directly into the rings, which allows for a compact design and high load-carrying capacity.

Slewing bearings are designed to withstand a combination of axial, radial, and moment loads. They are also designed to minimize friction and wear, which helps to extend their service life. To achieve this, the raceways are typically hardened and ground to a high degree of precision. The rolling elements are also carefully selected and matched to ensure that they roll smoothly and evenly along the raceways.

Core Components

The core components of a nongeared slewing bearing include the outer ring, inner ring, and rolling elements. The outer ring is typically mounted to the stationary structure, while the inner ring is mounted to the rotating structure. The rolling elements are placed between the two rings and are responsible for transmitting the load between them.

In addition to the core components, slewing bearings may also include seals, lubrication systems, and other accessories. Seals are used to prevent dirt, dust, and other contaminants from entering the bearing, while lubrication systems are used to ensure that the bearing is properly lubricated. Other accessories may include mounting bolts, shims, and spacers, which are used to properly position the bearing and adjust its preload.

Overall, nongeared slewing bearings are critical components in many heavy machinery applications. By understanding their design principles and core components, you can better appreciate their importance and ensure that they are properly maintained and serviced.

Nongeared Slewing Bearing Overview

A nongeared slewing bearing sits on a flat surface, with its circular outer ring and inner ring clearly visible. The bearing is surrounded by bolts and mounting holes, and its smooth surface reflects light

Characteristics

Nongeared slewing bearings are a type of slewing bearing that does not have gears attached to the outer ring. They are designed to accommodate oscillating movements and high axial loads. Nongeared slewing bearings are comprised of an inner ring and an outer ring, with rolling elements and cages or spacers that are designed to accommodate loads acting singly or in combination, and in any direction. They have a compact design and are easy to install, making them popular in various applications.

One of the main advantages of nongeared slewing bearings is their ability to handle high axial loads. They are also able to accommodate radial loads, tilting moments, and combinations of all three. Nongeared slewing bearings are typically used in applications where high precision and accuracy are required, such as in cranes, excavators, and wind turbines.

Applications

Nongeared slewing bearings are commonly used in various applications, including:

  • Cranes: Nongeared slewing bearings are used in cranes to support the boom and provide rotation. They are able to handle the high axial loads that are generated by the weight of the load and the boom.
  • Excavators: Nongeared slewing bearings are used in excavators to support the weight of the cab and provide rotation. They are able to handle the high axial loads that are generated by the weight of the cab and the arm.
  • Wind turbines: Nongeared slewing bearings are used in wind turbines to support the rotor and provide rotation. They are able to handle the high axial loads that are generated by the weight of the rotor and the wind.

In conclusion, nongeared slewing bearings are a type of slewing bearing that are designed to accommodate oscillating movements and high axial loads. They are commonly used in various applications, such as cranes, excavators, and wind turbines.

Manufacturing Processes

When it comes to nongeared slewing bearings, the manufacturing process involves two key steps: materials selection and fabrication techniques.

Materials Selection

The materials used for nongeared slewing bearings are carefully selected to ensure high strength, wear resistance, and corrosion resistance. Common materials used for the inner and outer rings include high-carbon chromium bearing steel and high-strength alloy steel. The rolling elements are typically made of high-grade bearing steel or ceramic materials, depending on the specific application requirements.

Fabrication Techniques

The fabrication techniques used for nongeared slewing bearings are designed to ensure precision, accuracy, and reliability. The following are some of the key fabrication techniques used in the manufacturing process:

  • Forging: The process of forging involves shaping the metal into the desired shape by applying pressure and heat. This technique is used to create the raceways, which are the tracks on which the rolling elements move.
  • Machining: Machining involves removing material from the metal to create the desired shape and dimensions. This technique is used to create the installation holes and to ensure that the raceways have the correct dimensions and surface finish.
  • Heat Treatment: Heat treatment is used to improve the mechanical properties of the metal, such as its hardness and strength. This technique is used to harden the raceways and rolling elements to ensure that they can withstand the high loads and stresses that are encountered during operation.
  • Assembly: The final step in the manufacturing process is the assembly of the nongeared slewing bearing. This involves fitting the rolling elements into the raceways and securing them in place with cages or retainers. The inner and outer rings are then fitted together and the bearing is lubricated to ensure smooth operation.

Overall, the manufacturing processes used for nongeared slewing bearings are designed to ensure that the bearings are strong, durable, and reliable, making them ideal for a wide range of applications.

Installation Procedures

Installing a nongeared slewing bearing requires careful preparation and adherence to certain procedures to ensure proper function and longevity. Here are some general guidelines to follow:

  1. Inspect the bearing: Before installing the nongeared slewing bearing, carefully inspect it for any physical damage or defects. Check the raceway, rolling elements, and other components for signs of wear or damage. If any issues are found, the bearing should be repaired or replaced before installation.
  2. Prepare the mounting surface: The mounting surface should be clean, flat, and free of debris. Any burrs, sharp edges, or other imperfections should be removed. The mounting surface should also be properly sized and aligned with the bearing to ensure a secure fit.
  3. Lubricate the bearing: Proper lubrication is essential for the smooth operation and longevity of the nongeared slewing bearing. Lubricate the bearing according to the manufacturer’s recommendations, using the appropriate type and amount of lubricant. Over-lubrication can be just as damaging as under-lubrication, so be sure to follow the recommended guidelines.
  4. Mount the bearing: Carefully position the nongeared slewing bearing on the mounting surface, taking care to align it properly with any mating components. Use appropriate lifting equipment to prevent damage during installation. Tighten the mounting bolts to the recommended torque specifications, taking care not to over-tighten or strip the bolts.
  5. Test the bearing: After installation, test the nongeared slewing bearing to ensure proper function. Rotate the bearing through a full 360-degree range to check for smooth operation and any signs of binding or other issues. Check for proper clearance and preload, and make any necessary adjustments.

By following these procedures, you can ensure a successful installation of your nongeared slewing bearing. Remember to always refer to the manufacturer’s instructions and guidelines for specific details and recommendations.

Maintenance and Inspection

Regular maintenance and inspections are essential to ensure the longevity and proper functioning of nongeared slewing bearings. The following subsections provide important information on lubrication and wear and tear monitoring.

Lubrication

Proper lubrication is critical for the smooth operation of nongeared slewing bearings. Lubrication helps to reduce friction and wear, and also prevents corrosion. The type of lubricant used depends on the operating conditions of the bearing, such as temperature, speed, and load.

It is important to follow the manufacturer’s recommendations for lubrication intervals and quantities. Over-lubrication can cause overheating and premature failure, while under-lubrication can cause excessive wear and damage. Regular checks should be made to ensure that the correct amount of lubricant is present.

Wear and Tear Monitoring

Regular inspection of nongeared slewing bearings is necessary to detect any signs of wear and tear. This can help to prevent costly downtime and repairs. The following are some key areas to monitor:

  • Raceways: Check for signs of wear, such as pitting, scoring, or spalling. These can be caused by improper lubrication, contamination, or excessive loads.
  • Rolling elements: Inspect the balls or rollers for signs of wear, such as flat spots or cracks. These can be caused by improper lubrication, contamination, or shock loads.
  • Seals: Check the seals for signs of damage or wear, such as cracks or tears. These can allow contaminants to enter the bearing and cause damage.
  • Mounting bolts: Check that the mounting bolts are tight and secure. Loose bolts can cause misalignment and excessive wear.

Regular inspections should be carried out at intervals recommended by the manufacturer or based on the operating conditions of the bearing. Any signs of wear or damage should be addressed immediately to prevent further damage and ensure the continued proper functioning of the bearing.

Performance Parameters

When selecting a nongeared slewing bearing, it is important to consider its performance parameters. Two key parameters are load capacity and rotational accuracy.

Load Capacity

The load capacity of a slewing bearing refers to the maximum amount of weight it can support. It is important to choose a slewing bearing with a load capacity that is appropriate for the application. The load capacity is affected by several factors, including the bearing’s size, the number of rolling elements, and the material used to make the bearing.

Manufacturers typically provide load capacity ratings for their slewing bearings. These ratings are based on standardized testing procedures and take into account factors such as the bearing’s size, the number of rolling elements, and the material used to make the bearing. When selecting a slewing bearing, it is important to choose one with a load capacity that exceeds the maximum weight it will need to support.

Rotational Accuracy

Rotational accuracy is another important performance parameter to consider when selecting a slewing bearing. It refers to the degree to which the bearing can rotate without deviation from its intended path. In other words, it measures how precisely the bearing can rotate.

Rotational accuracy is affected by several factors, including the bearing’s design, the manufacturing process used to make the bearing, and the quality of the materials used. Manufacturers typically provide rotational accuracy ratings for their slewing bearings. These ratings are based on standardized testing procedures and take into account factors such as the bearing’s design and manufacturing process.

When selecting a slewing bearing, it is important to choose one with a rotational accuracy rating that is appropriate for the application. If the bearing is intended to be used in a high-precision application, such as a robotic arm, it is important to choose a bearing with a high rotational accuracy rating. If the bearing is intended to be used in a less precise application, such as a crane, a lower rotational accuracy rating may be acceptable.

Common Issues and Solutions

If you are using nongeared slewing bearings, you may encounter some common issues. Here are some of the most common problems and solutions that you can use to ensure that your nongeared slewing bearings are functioning optimally:

Lack of Lubrication

One of the most common issues with nongeared slewing bearings is a lack of lubrication. Without proper lubrication, the bearings can become damaged and fail prematurely. To prevent this from happening, it is essential to ensure that your bearings are properly lubricated. You can use a high-quality lubricant to keep your bearings running smoothly, and you should also make sure to check the lubrication levels regularly.

Corrosion

Another issue that you may encounter with nongeared slewing bearings is corrosion. Corrosion can occur due to exposure to harsh weather conditions or chemicals. To prevent corrosion, it is important to use high-quality materials for your bearings. You can also use protective coatings to help prevent corrosion from occurring.

Misalignment

Misalignment is another common issue that can occur with nongeared slewing bearings. Misalignment can occur due to improper installation or due to wear and tear over time. To prevent misalignment, it is important to ensure that your bearings are properly installed and maintained. You can also use alignment tools to help ensure that your bearings are properly aligned.

Overloading

Overloading is another issue that can occur with nongeared slewing bearings. Overloading can cause damage to the bearings and can cause them to fail prematurely. To prevent overloading, it is important to ensure that you are using the correct bearings for your application. You can also use load calculators to help ensure that you are not overloading your bearings.

In summary, nongeared slewing bearings can encounter issues such as lack of lubrication, corrosion, misalignment, and overloading. To prevent these issues, it is important to use high-quality materials, proper lubrication, and alignment tools. You can also use load calculators to ensure that you are not overloading your bearings.

Market Trends and Future Developments

If you are interested in the nongeared slewing bearing market, then you should know that this market is projected to grow at a CAGR of 6.78% during the forecast period to reach a total market size of US$8.349 billion by 2026. These bearings are ball or roller-style bearings composed of two concentric rings either of which may rotate. They are used in a wide range of applications, including cranes, excavators, wind turbines, and medical equipment.

One of the trends in the nongeared slewing bearing market is the increasing demand for renewable energy. According to a report by Allied Market Research, the market for slewing bearings in China has been increasing rapidly due to the numerous solar investments made by the government as well as the growing medical sector. Another trend is the growing demand for automation in various industries. Slewing bearings are an essential component in many automated systems, and as more industries adopt automation, the demand for these bearings is expected to increase.

Looking to the future, one of the developments in the nongeared slewing bearing market is the increasing use of advanced materials. For example, some manufacturers are using advanced ceramics to make their bearings. These materials offer several advantages, including high wear resistance, low friction, and high-temperature resistance. Another development is the increasing use of 3D printing technology to manufacture these bearings. This technology allows for the creation of complex geometries that would be difficult or impossible to achieve with traditional manufacturing methods.

Overall, the nongeared slewing bearing market is expected to continue to grow in the coming years, driven by trends such as the increasing demand for renewable energy and the growing demand for automation. As new materials and manufacturing technologies are developed, we can expect to see further advancements in this market.