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Linear Flange Bearing LMF60LUU 60mm

$8.00

The Linear Flange Bearing LMF60LUU is a cost-effective, precision-engineered bearing offering smooth and accurate motion. With its integrated design of flange and bearing, it simplifies axial positioning. The product’s versatility makes it ideal for various applications from electronic equipment to industrial machinery, ensuring reliable performance.

Linear Flange Bearing LMF60LUU

The ZLV Linear Flange Bearing LMF60LUU is a practical and high-quality product found in a wide array of applications, ranging from printers, fax machines, and monitors to numerous household items. Manufactured under the standard ABEC-1 dimensions and precision requirements, this flange bearing is suitable for general use products.

The Linear Flange Bearing is an economical production of a linear motion system, used in conjunction with cylindrical shafts for infinite travel. The contact between the bearing ball and shaft is at the point, thus using a small load. The steel ball rotates with minimal friction resistance, achieving highly precise and smooth motion.

Specifications

Parameter Specification
Model LM(F K) 60UU
Ball Circuit 6
Weight (g/pcs) 2960
Diameter (D) mm 60
Accuracy (J) 0-0.009
Accuracy (P) 0-0.015
Material Plastics, Steel
Type Bushing
Protection Steel protection
Unit Price (USD) 8

Linear Flange Bearing LMF60LUU drawing

Features and Advantages

  • Integrated Design: The biggest feature of the Linear Flange Bearing is the integration of the flange and the bearing into a single unit. This design simplifies axial positioning and eliminates the need for bearing seats, making it more economical.
  • Versatile Use: This bearing is ideal for applications where one end of the shaft is not connected and needs to be fixed on a flat surface such as a plate or wall. The flange bearing demonstrates its advantage in these situations.
  • High Precision: Small outer diameter steel balls are used to achieve low friction torque, high rigidity, and excellent rotational accuracy.
  • Lightweight: The use of a hollow shaft ensures lightweight and space for wiring.

Applications

The Linear Flange Bearing is widely used in electronic equipment, tensile testing machines, digital three-dimensional coordinate measuring equipment, and other precision equipment. It’s also used in multi-axis machine tools, punch presses, tool grinders, automatic gas cutting machines, printers, card sorters, food packaging machines, and other industrial machinery sliding components.

It is suitable for various industrial equipment, small rotating motors, office equipment, micro motor soft drives, pressure rotors, dental drills, hard disk motors, stepper motors, video recorder drums, toy models, fans, pulleys, rollers, transmission equipment, entertainment equipment, robots, medical equipment, office equipment, detection instruments, reducers, variable speed devices, motor optics, imaging equipment, card readers, electromechanics, precision machinery, electric tools, and toys, among others.

Recommendations for Extending Service Life

  1. Improved Internal Structure: To allow a greater radial gap between the bearing retainer and the bearing ring than the eccentricity, the internal structure has been improved.
  2. Increased Strength: The retainer’s strength has been enhanced through FEM analysis by optimizing the shape and thickness.
  3. Prevention of Surface Damage: A guide groove has been designed in the bearing ring to prevent surface damage caused by the reduction of lubricating oil.

Installation Precautions

  1. Part Identification: The Linear Flange Bearing is composed of multiple parts. During installation, each part must be assembled correctly. It’s crucial to identify all components clearly to avoid confusion.
  2. Clear Steps: To ensure the best installation state, the specific operation steps should be clarified before the installation and strictly followed during the actual operation.
  3. Correct Component Positioning: All parts of the Linear Flange Bearing must be installed in the required position and state to achieve the best installation effect. Therefore, it’s essential to ensure the correct positioning of the parts.
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