Apparatus for controlling an A.C. powered elevator
First Claim
1. An apparatus for controlling an alternating current (A.C.) powered elevator comprising:
- a converter connected to receive A.C. power from an A.C. power source and to convert the A.C. power into direct current (D.C.) power;
an inverter connected to receive the D.C. power from the converter and to convert the D.C. power to A.C. power of variable voltage and variable frequency, the A.C. power including output current;
an induction motor connected to receive the A.C. power of variable voltage and variable frequency and to operate an elevator cage;
a speed detector connected to detect a speed of the induction motor and to produce a speed signal indicative of the motor speed;
means for generating a speed command value;
a conversion switch which produces an exciting current component switching command when operated;
computing means for receiving the speed signal, the speed command value, and the exciting current component switching command and for calculating a current command value having an exciting current component and a torque current component, the exciting current component being greater when the conversion switch is operated than when the conversion switch is not operated;
a current detector connected to detect the output current of the inverter and to produce a current signal indicative of the detected current; and
means for comparing the current command value with the current signal to produce a result and for applying the result to the inverter.
1 Assignment
0 Petitions
Accused Products
Abstract
An apparatus for controlling an alternating current (A.C.) powered elevator includes a converter for converting A.C. power from A.C. power sources into direct current (D.C.) power and an inverter for converting the D.C. power into A.C. power of variable voltage and variable frequency. The converted A.C. power drives an induction motor to operate an elevator cage. The apparatus calculates a current command value from a speed command value and the speed of the motor and compares the current command value with the output current of the inverter. The apparatus further includes a conversion switch which produces an exciting current component switching command when operated and computing means for receiving the speed command value, a speed signal, and the exciting current component switching command and for calculating the current command value.
32 Citations
6 Claims
-
1. An apparatus for controlling an alternating current (A.C.) powered elevator comprising:
-
a converter connected to receive A.C. power from an A.C. power source and to convert the A.C. power into direct current (D.C.) power; an inverter connected to receive the D.C. power from the converter and to convert the D.C. power to A.C. power of variable voltage and variable frequency, the A.C. power including output current; an induction motor connected to receive the A.C. power of variable voltage and variable frequency and to operate an elevator cage; a speed detector connected to detect a speed of the induction motor and to produce a speed signal indicative of the motor speed; means for generating a speed command value; a conversion switch which produces an exciting current component switching command when operated; computing means for receiving the speed signal, the speed command value, and the exciting current component switching command and for calculating a current command value having an exciting current component and a torque current component, the exciting current component being greater when the conversion switch is operated than when the conversion switch is not operated; a current detector connected to detect the output current of the inverter and to produce a current signal indicative of the detected current; and means for comparing the current command value with the current signal to produce a result and for applying the result to the inverter. - View Dependent Claims (2, 3, 4)
-
-
5. An apparatus for controlling an alternating current (A.C.) powered elevator comprising:
-
a converter connected to receive A.C. power from an A.C. power source and to convert the A.C. power into direct current (D.C.) power; an inverter connected to receive the D.C. power from the converter and to convert the D.C. power to A.C. power of variable voltage and variable frequency, the A.C. power including output current; an induction motor connected to receive the A.C. power of variable voltage and variable frequency and to operate an elevator cage; a speed detector connected to detect a speed of the induction motor and to produce a speed signal indicative of the motor speed; means for generating a speed command value; first computing means for receiving the speed signal and the speed command value, for calculating a current command value having a slip frequency, and for maintaining said current command value constant; and second computing means for reducing the slip frequency of said current command value when the speed of said motor becomes below a predetermined value and said torque command value becomes above a predetermined value. - View Dependent Claims (6)
-
Specification