Types of Electric Motor Bearings

Electric motor bearings are essential components in the mechanical world, responsible for enabling smooth rotational motion and reducing friction. Used in a wide range of applications from automotive engines to industrial equipment, electric motor bearings are essential to maintaining the efficiency and reliability of these systems. In this article, we will take a closer look at electric motor bearings, including their various types and main functions.
Electric motor bearings are a mechanical device designed to support the rotational motion of a shaft or axle while minimizing friction. They consist of two concentric rings – a stationary outer ring and a rotating inner ring. Between these rings, rolling elements such as balls or rollers are placed to facilitate smooth rotation.

Electric Motor Ball Bearings: How They Power Electric Motors

Electric motors require reliable solutions to work optimally. In terms of mechanical properties, electric motors are powerful and versatile, making them ideal for use in high-performance machinery. Whether it is a machine in a factory or an electric car, these bearings can be used in any electric motor to allow rotational motion and transmit power to keep the various parts of the machine running properly. The bearings that support these electric motors need to achieve smooth and quiet operation while providing key characteristics such as high load capacity, long life, and low operating noise. Electric motor ball bearings are subject to a variety of forces, including radial and thrust loads, as well as vibration and shock. To withstand these forces, the bearings must be carefully designed and manufactured. The most common material used for electric motor ball bearings is steel, but other materials such as ceramic or plastic can also be used in certain applications.

Bearing Design Is Important for Electric Motors

One of the factors you must always keep in mind when selecting a motor is which type of bearing design is best for the motor you are using for the job. If you are unsure which bearing design is best for your operating environment, contact a motor bearing expert to determine which bearing setup and motor will work best for you.

Types of Bearings Used in Electric Motors

Bearings are a critical component in electric motors because they enable the shaft within the motor to rotate smoothly and efficiently. The choice of bearing type in an electric motor depends on the specific motor design, load conditions, operating environment, and other factors. Electric motor engineers carefully consider these factors to select the right bearing type to ensure optimal performance, life, and efficiency for a given application.
Thrust Bearings: Thrust bearings are used to carry axial (thrust) loads, allowing components such as motor shafts to withstand forces along the axis. Thrust bearings are critical for electric motors where axial loads are present, especially in high-speed and heavy-load applications.
Uses: Thrust bearings are used in electric motors that are subject to heavy axial loads, such as found in applications such as automotive transmissions.


Tapered Roller Bearings: Tapered roller bearings are capable of supporting both radial and axial loads. They are often used in electric motor applications where a combination of heavy radial and thrust loads are present, such as automotive wheel hubs or industrial gearboxes.
Uses: Tapered roller bearings are used in electric motors that are subject to a combination of radial and axial loads, such as those used in industrial gearboxes.

Single row radial ball bearing: This is one of the most common types of bearings used in electric motors. They consist of inner and outer rings with a set of steel balls in between. Single row radial ball bearings are designed to carry radial loads, which are forces perpendicular to the motor shaft. They are suitable for applications where the loads come primarily from the weight of the motor components and any external forces perpendicular to the shaft.
Uses: These bearings are often used in electric motors for small appliances, fans, and other low to medium load applications. They support the rotor of the motor and allow it to rotate smoothly.
Deep groove ball bearingsDeep groove ball bearings are a subtype of radial ball bearings that are designed for applications with high-speed requirements. They have a larger contact area between the balls and the raceways, making them suitable for motors that run at high speeds, such as those found in small appliances and fans.

Angular contact ball bearings: Electric motors often require bearings that can carry both radial and axial loads. Angular contact ball bearings are designed for this purpose. Their raceways enable them to carry both types of loads and are often used in applications where the motor shaft is subject to both axial and radial forces. This is particularly useful in applications with thrust loads or where precise positioning is required.
Uses: Electric motors that require support for radial and axial loads, such as those in machine tools and robots, typically use angular contact ball bearings.
Self-aligning ball bearings: Self-aligning ball bearings can accommodate misalignment between the shaft and housing, making them suitable for motors that may experience shaft misalignment due to assembly variations or operating conditions. They help reduce friction and wear caused by misalignment.


Spherical roller bearings: Spherical roller bearings are designed to accommodate heavy radial and axial loads and are often used in large industrial applications where severe misalignment or heavy loads may exist, such as conveyors and crushers.
Needle roller bearings: Needle roller bearings feature cylindrical rollers with a high aspect ratio. They are used in compact motor designs and applications where space is limited and high radial load capacity is required, such as small appliances, power tools, and automotive starter motors.

Main functions of motor bearings

Reduce friction
By facilitating smooth rolling motion, bearings reduce friction between moving parts, minimizing wear and heat generation.
Support loads
Bearings provide support for the weight and forces generated during rotation, preventing excessive stress on components.
Precision
Bearings help maintain precise shaft alignment, ensuring accurate operation in a variety of applications.

The Importance of Proper Maintenance
Lubrication

Proper lubrication with the appropriate lubricant reduces friction and prevents wear.
Inspection
Routine inspections can reveal signs of damage, overheating or misalignment.
Alignment
Proper alignment of shafts and bearings prevents premature wear and excessive loads.
Temperature Monitoring
Monitoring bearing temperature can reveal potential problems that need attention.

NSAR has a variety of bearings for sale. Communicate with our bearing experts. We have professional technology and a sound after-sales system. Bearing packaging can be customized according to your needs.