Differences between Double-row different diameter ball slewing bearing and Double-Row Ball Slewing bearings

Double-row different diameter ball slewing bearing and double-row ball slewing bearings are two common types of slewing bearings. They have some differences in structure, load-bearing capacity, application scenarios, and other aspects.

What is Double-Row Ball Slewing bearing?

The double-row ball slewing bearing is a mechanical component used to achieve the slewing motion of components. It mainly consists of an inner ring, an outer ring, two rows of steel balls with the same diameter, and a cage. The two rows of steel balls are evenly distributed between the inner and outer rings and jointly bear axial forces, radial forces, and overturning moments. Relative slewing is achieved through the contact and rolling of the steel balls and the raceways. It has a simple structure and is easy to install. It can withstand complex loads to a certain extent and is often used in equipment such as small cranes, aerial work platforms, and small wind turbines that do not require particularly high slewing accuracy but need to bear certain axial and radial forces.

What is Double-row different diameter ball slewing bearing?

The double-row different diameter ball slewing bearing is a slewing bearing device. It is composed of two rows of steel balls with different diameters, inner and outer rings, a cage, and other components. Usually, the diameter of the upper row of steel balls is smaller, mainly bearing axial forces and part of the overturning moment, while the diameter of the lower row of steel balls is larger, mainly bearing radial forces. This structural design can reasonably distribute forces according to different load types and achieve a high load-bearing capacity in a limited space. It has advantages such as good accuracy retention and can adapt to complex working conditions. It is often used in large-scale construction machinery and industrial equipment that require high load-bearing capacity and slewing accuracy, such as large cranes, tunnel boring machines, and large converters.

Structural Characteristics of Slewing bearings

Double-row different diameter ball slewing bearing: The load-bearing rolling elements are composed of two rows of steel balls with different diameters. Generally, the upper row of steel balls with a smaller diameter mainly bears axial forces and part of the overturning moment, and the lower row of steel balls with a larger diameter mainly bears radial forces. This structure can achieve a high load-bearing capacity in a small space by reasonably allocating the diameters and quantities of the steel balls.

Double-Row Ball Slewing bearings: There are two rows of steel balls with the same diameter. The two rows of steel balls are evenly distributed between the inner and outer rings. The two rows of steel balls jointly bear axial forces, radial forces, and overturning moments, and the slewing motion is realized through the contact between the steel balls and the raceways.

Load-Bearing Capacity of Slewing bearings

Double-row different diameter ball slewing bearing: Since steel balls of different diameters are used to bear different types of loads respectively, their load-bearing capacity is highly targeted. For working conditions with large axial forces, radial forces, and overturning moments simultaneously, they can distribute loads more reasonably. Under the same size, they can generally bear a larger overturning moment than double-row ball slewing bearings.

Double-Row Ball Slewing bearings: The two rows of steel balls bear loads evenly and can withstand axial and radial forces well. However, when bearing large overturning moments, due to the same diameter of the steel balls, the load distribution is relatively less reasonable than that of Double-row different diameter ball slewing bearing, and their load-bearing capacity is relatively limited.

Accuracy Retention of Slewing bearings

Double-row different diameter ball slewing bearing: The structural design makes the contact stress distribution between the steel balls and the raceways more uniform when bearing complex loads, which is conducive to reducing the wear and deformation of the raceways. Therefore, it can better maintain slewing accuracy during long-term use.

Double-Row Ball Slewing bearings: They are relatively weak in accuracy retention. Especially when bearing large eccentric loads or impact loads, the wear between the steel balls and the raceways may be aggravated, resulting in a rapid decline in slewing accuracy.

Friction Characteristics of Slewing bearings

Double-row different diameter ball slewing bearing: When the steel balls of different diameters roll, their linear velocities and angular velocities are different, which will generate a certain differential friction. However, through reasonable design and material selection, this differential friction can be controlled within a certain range, and it has little impact on the overall friction characteristics.

Double-Row Ball Slewing bearings: The two rows of steel balls have the same diameter and the same rolling speed. Their friction characteristics are relatively simple, with a small friction resistance, and can provide a relatively smooth slewing motion during low-speed operation.

Installation and Maintenance of Slewing bearings

Double-row different diameter ball slewing bearing: During installation, attention needs to be paid to the installation positions of the upper and lower rows of steel balls and the adjustment of the preload to ensure proper load-bearing and operation. During maintenance, due to the relatively complex structure, it is more difficult to inspect and replace the raceways and steel balls.

Double-Row Ball Slewing bearings: The installation is relatively simple. Only the installation accuracy of the two rows of steel balls and the uniform preload need to be ensured. In terms of maintenance, due to the more intuitive structure, it is relatively easy to inspect and replace components such as steel balls and raceways.

Application Scenarios of Slewing bearings

Double-row different diameter ball slewing bearing: They are often used in large-scale construction machinery that requires high load-bearing capacity and accuracy, such as large cranes and tunnel boring machines, as well as some industrial equipment that needs to operate under complex working conditions, such as port handling equipment and large converters.

Double-Row Ball Slewing bearings: They are suitable for equipment that does not require particularly high slewing accuracy but needs to bear large axial and radial forces, such as small cranes, aerial work platforms, and certain types of wind turbines.

In conclusion, Double-row different diameter ball slewing bearing and double-row ball slewing bearings each have their own characteristics and application ranges. In practical applications, it is necessary to comprehensively consider specific working conditions, equipment requirements, and economic factors to select the appropriate type of slewing bearing to ensure the safe and reliable operation of the equipment and good performance.

Prices of Slewing bearings

There are many factors affecting the price of slewing bearings. Firstly, raw materials. High-quality steel has a high cost and can produce products with excellent performance and long service life, so the price is also high. Secondly, for slewing bearings with complex manufacturing processes and high precision requirements, advanced equipment and strict quality control are required, which will also increase the price accordingly. Moreover, the larger and more special the size and specifications are, the greater the processing difficulty and the amount of materials used, and the higher the price will be.

Suppliers of Slewing bearings

The products of Ldb bearing company cover a wide range. Advanced production and testing equipment are the cornerstone of high-quality products. Ldb bearing company is well aware of this and is equipped with nearly 30 sets of various types of equipment, from 3m CNC drilling and milling machines to quenching machines, providing hardware support for precision processing. At the same time, the company has an experienced design and technical team. With their profound professional knowledge and innovative spirit, they continuously optimize product designs and overcome technical problems.