Hoisting Machine

  • Step 1
    Select gearmotor series
  • Step 2
    Select Output Shaft Type
  • Step 3
    Select equipment and mounting method of gearmotor
  • Step 4
    Enter user values
Step1 Select gearmotor series

Select gearmotor series

Click here for the differences in each series
Tips!
Please select [Induction gearmotor (MID series / MINI series)] if you are having trouble selecting it.
Calculations are performed assuming that the gearmotor to be used is [Induction gearmotor (MID series / MINI series)].
Choose power frequency
  • Step 1
    Select gearmotor series
  • Step 2
    Select Output Shaft Type
  • Step 3
    Select equipment and mounting method of gearmotor
  • Step 4
    Enter user values
Step2 Select Output Shaft Type

Select output shaft type of the gearmotor

If you want to go back to the previous page, click the “Back” button at the bottom left.

  • Step 1
    Select gearmotor series
  • Step 2
    Select Output Shaft Type
  • Step 3
    Select equipment and mounting method of gearmotor
  • Step 4
    Enter user values
Step3 Select equipment and mounting method of gearmotor

Select linkage method with the gearmotor.

If you want to go back to the previous page, click the “Back” button at the bottom left.

  • Step 1
    Select gearmotor series
  • Step 2
    Select Output Shaft Type
  • Step 3
    Select equipment and mounting method of gearmotor
  • Step 4
    Enter user values
※Sample Image
Step4 Enter user values

If you want to go back to the previous page, click the “Back” button at the bottom left.

Elevating Speed V =
Weight of the work M1 = kg
Weight of
the winding
material
M2 =
kg
Weight of
the winding drum
M3 =
kg
Weight of
the rotating shaft
M4 =
kg
Outer Diameter of
the winding drum
D1 =
mm
Pitch circle
diameter of
the rolling
element bearing
D2 =
mm
Outer diameter of
the rotating
shaft
D3 =
mm
P.C.D. of
Driven Side
Sprocket
(Timing Pulley, Gear)
D4 =
mm
P.C.D. of
Drive Side
Sprocket
(Timing Pulley, Gear)
D5 =
mm
Tension
(external force)
※Applied force
other than weight
of work M1
F =
N (1kgf=9.8N)
Friction Coefficient
of the Bearing
μ =
Service Factor Sf =
※Select the coefficient
Correction
Coefficient of
Moment of
Inertia
by Operating
Conditions
C=
Coefficient by
Linkage Method K1 =
Coefficient by
Load Position K2 =
Select linkage method.
Select the load level.
Please set O.H.L. Load position
※Enter only if necessary.
Repeated
Stopping
Accuracy = ±
mm
(travel
distance
equivalent)
(Note) Stopping with a brake is a condition, when repetitive stopping accuracy value is input.
Before using the gearmotor
calculation selection tool.
Please read carefully before using
the gearmotor calculation selection tool.

When using the gearmotor selection tool(hereafter referred to as "this calculation selection tool")
provided on the website by Nissei Corporation(hereafter referred to as "we"),
please be sure to read the notes and disclaimers below and use it only if you agree to all the terms. If you disagree,
you may not be able to use this calculation selection tool.

Notes & Disclaimers

  1. The calculation results from this calculation selection tool are all reference values and we do not guarantee the contents. Please use it as a reference when selecting a product. When using the product, be sure to recalculate and check if it meets the conditions of use.
  2. We do not take any responsibility for any damage, disadvantage or trouble caused to users or third parties by using this calculation selection tool or its calculation results.
  3. Contents of the calculation selection tool are subject to change without notice.
    We take no responsibility for any loss of opportunity due to the changes of the calculation selection tool.