Search
English
All Categories
    Menu Close

    FACS34


    ★ Flexible coupling – Spiral beam type – High rigidity clamping fixing.
    ★ Zero rotation backlash.
    ★ The flexure allowed by the beam portion of the coupling is capable of accommodating angular, parallel, and axial misalignment.
    ★ Rotation character of clockwise or anti-clockwise is exactly the same.
    ★ Free maintenance, oil-resist and anti-corrosiveness.
    ★ Offset of angular, parallel, or axial deviation are individual allowed value, so couple reasons of axial offset appearing at same time would reduce the unit allowable value.


    The product picture is FACS34 for reference, please base on below specification for further information.

    Ship to
    *
    *
    Shipping Method
    Name
    Estimated Delivery
    Price
    No shipping options

    Update:2022.11.8

    Model No.

    FACS34

    Specification

    Material

    Super duralumin

    Surface finish

    Anodized

    Accessories

    Hexagon socket screw

    ØD

    34

    Ød1

    10

    11

    12

    14

    15

    16

    Ød2

    14

    14

    12 / 14 / 16

    14 / 15 / 16

    15 / 16

    16

    L (mm)

    35

    L1 (mm)

    12

    F (mm)

    6

    M (mm)

    3

    A (mm)

    11

    Allowable wrench torque (N・m)

    3

    Allowable misalignment

    Angular (°)

    0.5

    Parallel (mm)

    0.05

    Axial (mm)

    ± 0.1

    Static torsional stiffness (N・m / rad)

    2200

    Max RPM (r / min-1)

    4400

    Moment of Inertia (kg・m2)

    1.1 x 10-5

    (Calculated by max. diameter)

    Screw fixing torque (N・m)

    1.5

    Weight (g)

    62

    (Calculated by max. diameter)

    Coupling fixing

    (1) There are five ways to fix coupling onto shaft as below.
    (2) Set screw or clamping screw (hexagonal countersink screw) shall be secured by screw driver or torque wrench. Securing torque refer to product specifications. 

     

    Coupling installation

    ♦  To maintain installation completeness of all kinds of couplings, it's recommended to install as follow charts to avoid direct contact of two shafts and to have a regular run. 

     

    Motor reference

     

    ♦ Induction motor

    (1) More than triple torque occurs in case of running momently. 

    (2) Shaft axis center of the motor has ±1.5mm movement back and forth while running, and it's not recommended to use spiral beam type. 

    (3) DC motor could be used in working environment with dust. 

     

    ♦ Stepping motor

    (1) Without triple torque in case of running momently, but max. rated torque of motor occurs. 

    (2) Larger torque in low speed than servo motor in same level.

    (3) Higher RPM, smaller torque in motor.

    (4) Motor have temperature rise in case of running continuously.( to improve by using disk type coupling)

    * Force output in stepping motor is smaller than servo motor.

     

    ♦ Servo motor

    (1) More than triple torque occurs in case of running momently.

    (2) Under rated RPM range, cause rated torque.

    (3) Same torque produce in low speed and high speed.

    (4) Temperature rise is small in case of running continuously.

     

    ♦ Encoder

    (1) Built-in servo motor, has tiny driven torque. 

    (2) Or connected to stepping motor. (optional)