Year1
- 产地:
- 台湾
- 型号:
- MFT90-S2-L1-5-K-19-70
- 平均使用寿命:
- 20000小时
-
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Analysis of structural components of right-angle servo reducer:
Gear box: The right-angle reducer is made of chromium-molybdenum alloy steel and one-piece molding design with high precision and Large output torque and high corrosion resistance.
Output shaft: The right-angle double-shaft output reducer adopts an integrated design to ensure a rigid structure for large torque output. The surface is treated with electroless nickel and has high anti-rust function.
Input shaft: The modular design can be matched with servo motors of various brands. The surface of the output shaft is dyed black.
Sun gear: The right-angle servo reducer is made of nickel-chromium-molybdenum alloy steel tooth surface that has been carburized for high wear resistance and high impact resistance. The tooth profile finishing treatment can improve gear accuracy and reduce noise.
Planetary gear: The right-angle double-shaft reducer is made of nickel-chromium-molybdenum alloy steel. The tooth surface is carburized and has high wear resistance and high impact resistance. The tooth profile finishing treatment can improve the gear accuracy and reduce noise. The inner hole does not contain maintenance. The full needle roller of the machine has high wear resistance and high strength.
Spiral bevel gear: The dual-shaft output reducer uses nickel-chromium-molybdenum alloy steel with surface carburizing treatment for wear resistance and high impact characteristics.
Ball bearings: The fulcrum of the simply supported beam of the rotating shaft of the double-axis reducer uses ball bearings to provide greater support and life than needle roller bearings.
Connecting flange: The right-angle double-shaft output reducer adopts modular design and is suitable for the assembly of various servo motors. The surface is treated with sandblasting anode or high-grade baking paint technology to improve the anti-oxidation effect.
Steering body: Special processing can ensure the assembly concentricity of the rotating shaft and the verticality of the input axis. The body is designed with aluminum alloy to significantly reduce the weight of the overall structure. The surface is anodized to improve anti-oxidation treatment.
Double bearing design: Increase input stability.
Rotating shaft: The right-angle servo reducer is made of nickel-chromium-molybdenum alloy steel.
Input end overall structure: This bevel gear backlash adjustment structure can adjust the assembly backlash of the bearing and bevel gear at the same time. Patent number:.
The right-angle double-axis output reducer is used for precise positioning or reciprocating positioning to stably output power to automation equipment with minimal vibration, such as: printing industry, pipe bending equipment, spring machine industry, D inspection equipment , connected to the ball lead screw transmission mechanism
Rated torque
The rated torque is the right angle reducer reducer for a long time (that is, the torque that can be loaded in a continuous working system).
Torque
Torque is the actual driving force for rotational motion. It is the product of the lever arm and the force. =*.
Acceleration torque ()
Refers to the maximum torque allowed to be loaded onto the output shaft for a short period of time when the working cycle is less than times per hour. For > times, r impact factor must be considered (see impact factor for details). It is a limiting parameter in the periodic work system.
Reduction ratio
Indicates the value of the three main parameters of a certain motion changed by the right-angle dual-axis output reducer, that is, the rotation, torque and inertia ratio are changed through the reduction ratio of the reducer. . Change the relationship to the geometry of the transmission component to calculate the result (example: =)
Positioning accuracy
The key to accurate positioning in high-speed mechanical reciprocating motion is to minimize the angle caused by the motion. The deviation positioning accuracy depends on two values. One is the deflection angle related to the load, which involves r (torsional stiffness and return clearance), and the other is the motion-related r (synchronous deviation) problem.
Backlash
Backlash refers to the maximum deviation angle between the output shaft and the input end of the right-angle servo reducer. When measuring, first fix the input end of the reducer and then load a certain torque on the output end with a torque meter to overcome the friction in the reducer. The main factor affecting torsional backlash is the meshing surface gap between teeth.
Arc minutes () The unit of backlash
Degrees are divided into arc minutes. Arc minutes = seconds. When the backlash is marked in arc minutes, the angular deviation of the output end of the servo right-angle reducer is/degree when one revolution is made. In practical applications this angular deviation is related to the shaft diameter. That is to say, when the diameter of the output end is , the accuracy of the right-angle double-axis output reducer is = arc minutes, and the deviation of the reducer for one revolution is =. Calculation formula: =*r*.
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