Yaskawa Varispeed 626M5 User Manual

15.2 Basic Inverter Drive mechanics

15 -9

J

Inertial Moment Converted on a Motor Axis with a Gearbox

To obtain the required mechanical speed, a pulley and gears that can accelerate and decelerate are some-

times used. In Fig. 15.8, the load inertial moment converted to the motor axis as gear ratio a can be ex-

pressed using the following formula.

J

M

=

N

M

2

J

L

N

L

2

=

J

L

a

2

(kg

⋅

m

2

)

A simplified diagram of the rotation circumference is shown in Table 15.1.

Table 15.1 Simplified Diagram of the Rotation Circumference

Rotation axis is

the same as the

cylinder center-

line

Solid cylinder
(D

2

= D

0

2

∕2)

D

0

Hollow cylinder

D

2

= (D

0

2

+ D

1

2

)∕2

D

0

D

1

Rotation axis

passes through

the center of

gravity

Right-angle

box

D

2

= (b

2

+ c

2

)∕3

b

c

Cylinder

D

2

= L

2

∕3 + D

0

2

∕4

D

0

L

Sphere

D

2

= 25 D

0

2

D

0

Hollow sphere

D

2

= 25 ·

D

0

5

− D

1

5

D

0

3

− D

1

3

D

0

D

1

Cone

D

2

=

3

10 D

0

2

D

0

Circle

D

2

= D

0

2

+

3

4 D

1

2

D

0

D

1

Rotation axis is

at one tip

D

2

= (4b

2

+ c

2

)∕3

c

b

Right-angle

box

Cylinder

D

2

= 43 L

2

+

D

0

2

4

D

0

L

Rotation axis is

outside rotator

Right-angled

box

D

2

=

4b

2

+ c

2

3

+ 4 (bd + d

2

)

b

d

c

Cylinder

D

2

= 43 L

2

+

D

0

2

4

+ 4 (dL + d

2

)

D

0

L

d

General equation

when rotation

axis is outside ro-

tator

Center of
gravity

Rotation
axis

d

The general equation for the rotation circumference when the rotation axis

is outside the rotator is shown below.

D

2

2

= D

1

2

+ 4d

2

D

1

: Rotation circumference when the axis parallel to the rotation

axis and whose center of gravity passes through the rotation axis is

hypothetically the rotation axis.

15