Control apparatus for A.C. elevator

US 4,554,999 A
Filed: 04/26/1984
Issued: 11/26/1985
Est. Priority Date: 05/04/1983
Status: Expired due to Term

First Claim

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1. A control apparatus for an A.C. elevator including an A.C. power source, an induction motor, a charging device connected to the A.C. power source, batteries connected to the output of the charging device, an inverter connected to invert the output of the batteries and supply said induction motor with a variable-voltage and variable-frequency alternating current, said induction motor being connected to operate a cage, a charging rate control circuit means, and circuit means included in said control circuit means producing an output connected to control said charging device in response to changes in the load and the running direction of the cage to vary the charging rate of said batteries in correspondence with the discharging rate thereof.

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Abstract

An apparatus for controlling an A.C. elevator comprising: A charging device, a discharging device, an inverter, current detecting means for detecting the current flowing between an A-C power supply and D-C batteries and through said charging and discharging devices, and a charging and discharging rate control circuit responsive to the output of said current detecting means for controlling the charging and discharging rates of said D-C batteries as the load conditions of the car of said elevator change so as to cause said charging and discharging of said batteries to be minimum so that the element of said batteries is not shortened.

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15 Claims

1. A control apparatus for an A.C. elevator including an A.C. power source, an induction motor, a charging device connected to the A.C. power source, batteries connected to the output of the charging device, an inverter connected to invert the output of the batteries and supply said induction motor with a variable-voltage and variable-frequency alternating current, said induction motor being connected to operate a cage, a charging rate control circuit means, and circuit means included in said control circuit means producing an output connected to control said charging device in response to changes in the load and the running direction of the cage to vary the charging rate of said batteries in correspondence with the discharging rate thereof.
- View Dependent Claims (2)
- - 2. A control apparatus for an A.C. elevator as defined in claim 1 wherein said charging device is a rectifier circuit which is connected to an A.C. power source.

3. A control apparatus for an A.C. elevator including an A.C. power source, an induction motor, a charging device connected to the A.C. power source, batteries connected to the output of the charging device, an inverter connected to invert the output of the batteries and supply said induction motor with a variable-voltage and variable-frequency alternating current, said induction motor being connected to operate a cage, and a charging rate control circuit means connected to said charging device and said batteries and operated according to the load and running direction of the cage to control said charging device to produce a charging rate of said batteries which is substantially equal to the discharging rate thereof;
- said control circuit including a command circuit including means for detecting the load and the running direction of said cage.
- View Dependent Claims (4, 5, 9, 10, 11, 12, 13, 14, 15)
- - 4. A control apparatus for an A.C. elevator as defined in claim 3 wherein said command circuit including said detecting means is included in said control circuit means to generate a signal for compensating the discharging rate of said batteries in response to changes in the load, the running direction and a running state of said cage detected by said detecting means, and said circuit means of said charging rate control circuit means produces an output to control said charging device in response to said signal so that when the discharging rate has increased by an increment, the charging rate is increased in correspondence with the increment, that when the discharging rate has decreased by a decrement, the charging rate is decreased in correspondence with the decrement, and that when the discharging rate does not change, the charging rate is held unchanged.
  - 5. A control apparatus for an A.C. elevator as defined in claim 3 wherein said command circuit detects any of a light load, a balanced load and a heavy load as the load of said cage;
    - any of acceleration running, constant speed running and decceleration running, as the running state of said cage; and
      
      any of ascent and descent as the running direction of said cage, and said command circuit generates a signal for controlling said charging rate control circuit on the basis of the detected results.
  - 9. A control apparatus for an A.C. elevator as defined in claim 4 wherein said charging device is a rectifier circuit composed of controlled rectifier elements, said rectifier circuit being controlled by a gate control circuit for said controlled rectifier elements, and said gate control circuit being controlled by said command signal from said command circuit.
  - 10. A control apparatus for an A.C. elevator as defined in claim 9 wherein said command circuit includes means for generating a command signal which changes with a time constant predetermined in correspondence with the running direction, load and running state of said cage, and said gate control circuit for said charging device is controlled on the basis of said command signal.
  - 11. A control apparatus for an A.C. elevator as defined in claim 4, further comprising a discharging device connected to control the discharging rate of said batteries and wherein said command circuit is connected to control said discharging device in response to changes in the load, running direction and running state of said cage detected by said detecting means.
  - 12. A control apparatus for an A.C. elevator as defined in claim 11 wherein said discharging device is constructed of a connection of a plurality of controlled rectifier elements and is controlled by a gate control circuit for said controlled rectifier elements, and said gate control circuit is controlled by said command signal of said command circuit.
  - 13. A control apparatus for an A.C. elevator as defined in claim 12 wherein said command circuit includes means for generating a command signal which changes with a time constant predetermined in correspondence with the running direction, load and running state of said cage, and said gate control circuit for said discharging device is controlled on the basis of said command signal.
  - 14. A control apparatus for an A.C. elevator as defined in claim 4 wherein said charging rate control circuit comprises means including a resistor interposed between said charging device and said power source control the charging currrent;
    - and means to change the resistance of said resistor in correspondence with the running direction, load and running state of said cage.
  - 15. A control apparatus for an A.C. elevator as defined in claim 14 wherein said charging rate control circuit increases the charging rate of said batteries when said cage is under the balanced load acceleration, the light load descent constant speed running, the heavy load ascent constant speed running, the light load descent acceleration and the heavy load ascent acceleration.

6. A control apparatus for an A.C. elevator including an A.C. power source, an induction motor, a charging device connected to the A.C. power source, batteries connected to the output of the charging device, an inverter connected to invert the output of the batteries and supply said induction motor with a variable-voltage and variable-frequency alternating current, said induction motor being connected to operate a cage, a charging rate control circuit means, a command circuit included in said control circuit means generating a command signal in response to variations in the load, the running direction and the running state of the cage, and circuit means in said control circuit means producing an output connected to control said charging device in response to said command signal to vary the charging rate of said batteries in correspondence with the discharging rate thereof;
- said command circuit comprising a first device which detects whether or not said cage is under acceleration running with a balanced load;
  
  a second device which detects whether or not said cage is under a light load descent constant speed running or heavy load ascent constant speed running; and
  
  a third device which detects whether or not said cage is under light load descent acceleration or heavy load ascent acceleration.
- View Dependent Claims (7, 8)
- - 7. A control apparatus for an A.C. elevator as defined in claim 6 wherein said command circuit comprises a balanced load detector which detects whether or not the load of said cage is a balanced load;
    - a heavy load detector which detects whether or not the load of said cage is a heavy load;
      
      a light load detector which detects whether or not the load of said cage is a light load;
      
      an ascent operation detector which detects that said cage is under ascent running;
      
      a descent operation detector which detects that said cage is under descent running;
      
      an acceleration detector which detects that said cage is under acceleration operation; and
      
      a deceleration detector which detects that said cage is under deceleration operation; and
      
      said first, second and third devices operate on the basis of outputs from said respective detectors.
  - 8. A control apparatus for an A.C. elevator as defined in claim 6 wherein said command circuit further comprises a fourth device which detects whether or not said cage is under deceleration running with balanced load;
    - a fifth device which detects whether or not said cage is under light load ascent deceleration running or heavy load descent deceleration running; and
      
      a sixth device which detects whether or not said cage is under light load ascent constant speed running or heavy load descent constant speed running.

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Current Assignee
Mitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
Original Assignee
Mitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
Inventors
Kamaike, Hiroshi
Primary Examiner(s)
Shoop, Jr., William M.
Assistant Examiner(s)
Ip, Shik Luen Paul

Application Number

US06/604,010
Time in Patent Office

579 Days
Field of Search

187/29 R, 187/29, 318/800-806, 318/376, 318/377, 363/35, 363/37, 363/98, 320/14, 320/37, 320/22-24, 320/45, 320/44, 307/64-68, 307/72, 307/73, 307/75
US Class Current

187/290
CPC Class Codes

B66B 1/302   for energy saving

H02J 5/00   Circuit arrangements for tr...

H02J 7/00714   in response to battery char...

H02J 7/02   for charging batteries from...

Y10S 320/10   Nonbattery load controls ch...

Control apparatus for A.C. elevator

First Claim

1 Assignment

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Abstract

Citations

15 Claims

Specification

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Control apparatus for A.C. elevator

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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