Roller Gear Cam Rotary Table

RDH Series
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    Specification

    Specification
    RDH-200PR RDH-200HR
    Table Diameter mm
    Ø200 Ø200
    Center Height(Vertical) mm 160 160
    Table Surface Height(Horizontal) mm 195 195
    Reference Hole Diameter mm Ø60H7 Ø60H7
    Through Hole Diameter mm Ø45H7 Ø45H7
    Table Width mm 12H7 12H7
    Degree of Reference Channel Width mm
    18h7 18h7
    MIN. Increment deg.
    0.001° 0.001 °
    Max. Rotation Speed (Motor 3000 min-1) 
    Values are Determined by the Servo Motor

    rpm 83 83
    Gear Ratio
    1/36 1/36
    Indexing Accuracy arc-sec 18 18
    Repeatability Accuracy arc-sec 4 4
    Servo Motor (Customer's choice) FANUC αiF 4
    βiS 8
    αiF 4
    βiS 8

    MITSUBISHI HG104S HG104S

    SIEMENS 1FK7060 1FK7060

    YASKAWA SGM7G-09A SGM7G-09A
    Clamp System (Pneumatic / Hydraulic) Kg/cm² P H
    Pneumatic / Hydraulic Pressure Kg.m 5 35
    Pneumatic / Hydraulic Clamping Torque Kg 13 40
    MAX. Allowable Load on the Table Vertical Kg 90 90

    Vertical with Tailstock Kg 180 180

    Horizontal Kg 180 180
    MAX. Allowable Thrust Load on the Table (When clamped) Allowable Axial Load Kgf 1250 1250

    MAX. Output Torque Kgf.m 13 40

    Allowable Bending Torque Kgf.m 45 45
    MAX. Allowable Moment of Inertia Kgf.m² 0.6 0.6
    Net Weight(servo motor excluded) Kg 65 65

    Feature

    These features make the four-axis cam rotary table from Campower Precision Machinery a highly valuable machining equipment. It can meet the processing challenges of various complex workpieces while ensuring high efficiency, precision, and reliability. This is particularly crucial for industries that require high-quality machining, such as aerospace, automotive, and mold manufacturing.

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    Drive mode

    Unlike the commonly used worm and gear mechanisms in the market, Campower Precision Machinery employs roller cam mechanisms for both the fourth and fifth axes to drive the machine.

    Roller cam mechanisms and worm and gear mechanisms are two different mechanical structures, and they differ in terms of stability, rigidity, and wear and tear:


    Roller Cam Mechanism Worm and Gear Mechanism
    Stability Exhibits higher stability. The design of roller cams allows for smoother motion, reducing vibration and instability.
    Lower stability, with potential for vibration and uncertainty, especially under high loads or high-speed conditions.
    Rigidity Possesses higher rigidity, providing better resistance to external forces and torque. Relatively softer, potentially experiencing some deformation when subjected to external forces.
    Wear and Tear Lower wear and tear, capable of maintaining high precision over extended periods. May experience wear and tear due to friction on contact surfaces, particularly during prolonged high-frequency use.
    Backlash Typically achieves zero backlash, offering more accurate motion control. May have some backlash, affecting precision and the accuracy of motion.

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