Product Description

Here are the parameters for various types of 6006 bearings:

1. SKF6006-2Z/C3: This is a Deep Groove Ball Bearing with a metal cover, which has the following parameters:

-Dimensions: Inner diameter (inner diameter) is 30 millimeters, outer diameter is 55 millimeters, and width is 13 millimeters.

-Sealing form: non-contact metal cover sealing.

-Temperature range: Suitable for applications with a temperature range of -40 ° C to+120 ° C.

-Accuracy level: Normal accuracy level.

2. SKF6006-2RSH: This is a Deep Groove Ball Bearing with rubber seal, which has the following parameters:

-Dimensions: Inner diameter 30mm, outer diameter 55mm, width 13mm.

-Sealing form: non-contact rubber seal (2RS).

-Temperature range: Suitable for applications with a temperature range of -40 ° C to+100 ° C.

-Accuracy level: Normal accuracy level.

3. SKF6006-2ZTN9/C3VT162: This is a Deep Groove Ball Bearing with polytetrafluoroethylene (PTFE) coating and metal cover, which has the following parameters:

-Dimensions: Inner diameter 30mm, outer diameter 55mm, width 13mm.

-Sealing form: non-contact metal cover sealing.

-Temperature range: Suitable for applications with a temperature range between -40 ° C and+250 ° C.

-Accuracy level: Normal accuracy level.

Model Basic Dimensions   (mm) Basic Dynamic load rating  (kn) Rated Speed     ( r/min)
Inner Diameter Outer Diameter Width Trends static state Reference speed Limiting Speeds
  d[mm] D[mm] B[mm] C[kN] C0[kN] [r/min] [r/min]
16006 30 55 9 11.9 7.35 28 000 17 000
6006 30 55 13 13.8 8.3 28 000 17 000
6006 N 30 55 13 13.8 8.3 28 000 17 000
6006 NR 30 55 13 13.8 8.3 28 000 17 000
6006-2RS1 30 55 13 13.8 8.3   8 000
6006-2RZ 30 55 13 13.8 8.3 28 000 14 000
6006-2Z 30 55 13 13.8 8.3 28 000 14 000
6006-RS1 30 55 13 13.8 8.3   8 000
6006-Z 30 55 13 13.8 8.3 28 000 17 000
W 6006 30 55 13 11.4 8.15 28 000 17 000
W 6006-2RS1 30 55 13 11.4 8.15   8 000
W 6006-2RS1/VP311 30 55 13 11.4 8.15   8 000
W 6006-2Z 30 55 13 11.4 8.15 28 000 14 000

Applicable Industries: Motorcycle/Auto/Machinery Parts
Delivery Date: with in 5 Working Days or According to You Request
MOQ: 1
Customization:
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deep groove ball bearing

How do deep groove ball bearings contribute to the smooth operation of electric motors?

Deep groove ball bearings play a crucial role in ensuring the smooth operation of electric motors. Their specific design features and capabilities contribute to the overall performance and efficiency of electric motors. Here’s a detailed explanation of how deep groove ball bearings contribute to the smooth operation of electric motors:

  • Reduced Friction:
  • Deep groove ball bearings are designed to minimize friction between the rotating components of an electric motor. The smooth rolling motion of the steel balls within the deep raceway reduces frictional resistance, resulting in less energy loss and efficient power transmission. This leads to smoother operation and improved overall motor performance.

  • Low Noise and Vibration:
  • Deep groove ball bearings help dampen vibrations and reduce noise generation in electric motors. The precise alignment of the inner and outer rings, combined with the smooth rolling motion of the balls, minimizes vibrations that can cause noise. This results in quieter motor operation, which is particularly important in applications where noise reduction is desired, such as in household appliances or office equipment.

  • High-Speed Capability:
  • Electric motors often require high-speed rotation to achieve efficient performance. Deep groove ball bearings are designed to handle high rotational speeds, allowing electric motors to operate at their intended speeds without compromising performance or reliability. The smooth and continuous rolling motion of the balls within the deep raceway enables the motor to achieve and maintain high speeds with minimal friction and heat generation.

  • Radial Load Support:
  • Deep groove ball bearings are capable of supporting both radial and axial loads. In electric motors, radial loads are common due to the weight and forces exerted on the rotating shaft. Deep groove ball bearings efficiently transmit and distribute these radial loads, providing support and stability to the motor’s rotating components. This ensures smooth and balanced operation, reducing the risk of premature wear or damage to the motor’s internal parts.

  • Long Service Life:
  • Deep groove ball bearings are designed for durability and long service life in electric motors. They are typically manufactured using high-quality materials and precision engineering techniques. This results in bearings that can withstand continuous operation, high-speed rotation, and various operating conditions without significant wear or performance degradation. The long service life of deep groove ball bearings contributes to the smooth and reliable operation of electric motors over extended periods.

  • Versatility and Availability:
  • Deep groove ball bearings are available in a wide range of sizes, configurations, and materials to suit different electric motor designs and applications. This versatility allows motor manufacturers to select the most appropriate bearing based on factors such as load requirements, speed capabilities, and operating conditions. The availability of deep groove ball bearings from numerous suppliers ensures easy sourcing and replacement options, further contributing to the smooth operation of electric motors.

In summary, deep groove ball bearings contribute to the smooth operation of electric motors through reduced friction, low noise and vibration levels, high-speed capability, effective support of radial loads, long service life, versatility, and availability. By incorporating deep groove ball bearings into electric motor designs, manufacturers can optimize performance, efficiency, and reliability, resulting in smooth and trouble-free motor operation in a wide range of applications.

deep groove ball bearing

What advantages do deep groove ball bearings offer compared to other types of bearings?

Deep groove ball bearings offer several advantages compared to other types of bearings, making them a popular choice for many applications. Here’s a detailed explanation of the advantages of deep groove ball bearings:

  • Versatility:
  • Deep groove ball bearings are highly versatile and can accommodate both radial and axial loads. This versatility allows them to be used in a wide range of applications, eliminating the need for multiple specialized bearings. Their ability to handle different load types simplifies inventory management and reduces the complexity of bearing selection.

  • High-Speed Performance:
  • Deep groove ball bearings are designed for high-speed operation. The smooth, low-friction rolling contact between the steel balls and the raceway grooves enables them to rotate at high speeds with minimal heat generation. This makes them suitable for applications that require fast rotational speeds, such as electric motors, turbines, and machine tool spindles.

  • Low Friction and Energy Efficiency:
  • Deep groove ball bearings offer low-friction operation due to the rolling contact between the balls and the raceway grooves. This results in reduced energy losses due to friction, making the bearings more energy-efficient. The low-friction characteristics contribute to improved system efficiency, reduced power consumption, and longer operating life.

  • Quiet and Smooth Operation:
  • Deep groove ball bearings provide quiet and smooth operation. The rolling contact between the balls and the raceway grooves produces less noise and vibration compared to other types of bearings. This makes deep groove ball bearings suitable for applications that require low-noise operation, such as household appliances, office equipment, and precision machinery.

  • Simple and Cost-Effective Installation:
  • Deep groove ball bearings are relatively easy to install and require minimal additional components. They can be easily mounted on shafts or in housing units using standard bearing mounting methods. This simplicity and ease of installation contribute to cost savings in terms of labor and equipment required for installation.

  • Wide Availability and Standardization:
  • Deep groove ball bearings are widely available and come in standardized sizes and configurations. This standardization simplifies the replacement process, as bearings with the same specifications can be easily sourced from various manufacturers. The wide availability and standardization of deep groove ball bearings contribute to shorter lead times, reduced downtime, and increased equipment availability.

In summary, deep groove ball bearings offer advantages such as versatility, high-speed performance, low friction, energy efficiency, quiet operation, simplicity of installation, and wide availability. These advantages make deep groove ball bearings a preferred choice in various applications across industries.

deep groove ball bearing

What challenges are associated with minimizing noise and vibration in deep groove ball bearings?

Minimizing noise and vibration in deep groove ball bearings can be challenging due to several factors that can contribute to these unwanted effects. While deep groove ball bearings are designed to provide smooth and quiet operation, certain challenges need to be addressed to achieve optimal noise and vibration levels. Here’s a detailed explanation of the challenges associated with minimizing noise and vibration in deep groove ball bearings:

  • Internal Clearance and Preload:
  • The internal clearance and preload of deep groove ball bearings can significantly impact noise and vibration levels. Insufficient preload or excessive internal clearance can result in excessive ball movement, leading to increased vibration and noise generation during operation. On the other hand, excessive preload can cause additional bearing stress and potential noise issues. Achieving the proper balance between preload and internal clearance is crucial to minimize noise and vibration in deep groove ball bearings.

  • Manufacturing and Assembly Variations:
  • Manufacturing and assembly variations can introduce irregularities or imperfections in deep groove ball bearings, leading to increased noise and vibration. Variations in ball size, shape, or surface finish, as well as irregularities in raceway profiles or cage design, can contribute to uneven loading, increased friction, and vibration. Strict quality control measures and precision manufacturing techniques are essential to minimize these variations and ensure consistent performance and reduced noise levels across deep groove ball bearings.

  • Lubrication:
  • Lubrication plays a critical role in minimizing noise and vibration in deep groove ball bearings. Insufficient or improper lubrication can result in increased friction, wear, and noise generation. Inadequate lubrication film thickness can also lead to metal-to-metal contact and increased vibration levels. Proper selection and application of suitable lubricants, taking into account factors such as speed, temperature, and load conditions, are essential to maintain optimal lubrication and mitigate noise and vibration issues.

  • Operating Conditions:
  • The operating conditions in which deep groove ball bearings are used can pose challenges in minimizing noise and vibration. Factors such as high speeds, heavy loads, misalignment, or temperature variations can induce vibrations and increase noise levels. In some cases, external factors such as electrical or magnetic fields can also impact the performance of deep groove ball bearings. Understanding the specific operating conditions and selecting bearings with appropriate load and speed ratings, as well as implementing proper alignment and environmental controls, are crucial to minimizing noise and vibration.

  • Application-Specific Challenges:
  • Each application may have its unique challenges in minimizing noise and vibration in deep groove ball bearings. For example, in electric motors, the electromagnetic forces can introduce additional vibrations and noise. In such cases, careful design considerations, such as optimizing bearing selection, mounting techniques, and implementing vibration dampening measures, may be necessary to address these application-specific challenges.

In summary, minimizing noise and vibration in deep groove ball bearings requires addressing challenges related to internal clearance and preload, manufacturing and assembly variations, lubrication, operating conditions, and application-specific factors. By understanding these challenges and implementing appropriate measures such as precise manufacturing techniques, proper lubrication practices, suitable bearing selection, and application-specific considerations, it is possible to achieve reduced noise and vibration levels, resulting in smoother and quieter operation of deep groove ball bearings.

China Hot selling High-Quality Deep Groove Ball Bearing for Auto/Agriculture/Industrial/Machinery Parts (6006-2Z/C3, 6006-2RSH, 6006-2Z)   bearing and raceChina Hot selling High-Quality Deep Groove Ball Bearing for Auto/Agriculture/Industrial/Machinery Parts (6006-2Z/C3, 6006-2RSH, 6006-2Z)   bearing and race
editor by CX 2023-11-16