7applications – Lenze DSD User Manual

Lenze · Drive Solution Designer · Manual · DMS 4.2 EN · 12/2013 · TD23

117

7

Applications

7.8

Hoist drive without counterweight

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

Ascertainment of the active cable mass
The active cable mass is ascertained by means of the mass calculator (field: cylinder) and is calculat-

ed with the following equation:

[7-87] Equation 11: Active cable mass for the stationary torque

Ascertainment of the height difference
For the stationary torque the maximum height difference Δh is required.

[7-88] Determination of Δh

Torque loss
For including the losses for the hoist the friction torque is calculated from the individual efficiencies.

When carrying out a dimensioning process with a user-definable motion profile, the efficiency for a

travel with the maximum stationary torque is assumed.

• The sign is considered with the fraction n/|n|.
• The following equation calculates the torque loss in generator and motor mode:

[7-89] Equation 12: Torque loss

Torque of the application

[7-90] Equation 14: Torque of the application

m

acv Rop

,

ρ

Rop

Δh 10 π

d

Rop

200

-----------









2

⋅

⋅

⋅ ⋅

=

• The height Δh typically is the height differ-

ence from the winding drum to the cable

end of the payload at the lowest position

of the payload.

• The yellow highlighted cable sections

(+) are decisive for the steady-state

torque.

• The other cable sections (+) cancel

each other out.

Dh



?

?



M

th

1

η

Gdn

η

Pll

η

Cor

⋅

⋅

-----------------------------------------

1

–







 max M

sds

(

) nn------

⋅

⋅

=

M

App

M

sds

J

sum

α M

th

+

⋅

+

=