US1126163A - System of electric-motor control. - Google Patents

System of electric-motor control. Download PDF

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Publication number
US1126163A
US1126163A US59851810A US1910598518A US1126163A US 1126163 A US1126163 A US 1126163A US 59851810 A US59851810 A US 59851810A US 1910598518 A US1910598518 A US 1910598518A US 1126163 A US1126163 A US 1126163A
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Prior art keywords
switch
conductor
motor
relay switch
switches
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US59851810A
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William Cooper
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02PCONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
    • H02P1/00Arrangements for starting electric motors or dynamo-electric converters
    • H02P1/16Arrangements for starting electric motors or dynamo-electric converters for starting dynamo-electric motors or dynamo-electric converters
    • H02P1/18Arrangements for starting electric motors or dynamo-electric converters for starting dynamo-electric motors or dynamo-electric converters for starting an individual dc motor
    • H02P1/20Arrangements for starting electric motors or dynamo-electric converters for starting dynamo-electric motors or dynamo-electric converters for starting an individual dc motor by progressive reduction of resistance in series with armature winding
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S388/00Electricity: motor control systems
    • Y10S388/907Specific control circuit element or device
    • Y10S388/921Timer or time delay means

Definitions

  • Electric-Motor Control of which the iollowing is a specification.
  • My .invention relates to controllers for electric motors and particularly to such controllers as comprise a plurality of independently operated switches for governing the circuit connections of the motor and its starting resistance.
  • the object of my invention is to .provide simple and inexpensive means, in a system of the class above indicated, for delaying the action of the resistance-control switches until the current traversing the motor circuit falls below a predetermined value, the current value being automatically varied for each of .the accelerating switches.
  • Series relay switches for delaying the successive action of independently operated control switches are in very general use and are well understood.
  • the same current value in the motor circuit determines the action of each of the switches.
  • the actual relay switch is not only dependent upon the current traversing the motor circuit, but also upon the counterelectromotive force generated at the armature terminals which is, of course, dependent upon the speed of the-motor. 7
  • the relay switch will obviously remain closed until the current in the motor circuit has reached a lower value, when the motor hasattained a considerable speed than will permit the same action when the motor has just been started and is operating at low speed.
  • control system here shown comprises an electric motor having an armaturel and a field magnet winding 2, a motor-starting resistor 3, a plural ty of independently operated control SWltCh"; 4:, 5, 6 and 7, a relay switch 8, a
  • the motor circuit is now established from conductor 11, through armature 1, conductor 25, series magnet winding 26 of relay switch 8, conductor 27, resistor sections 3, 3 and 3 conductor 28 and switch 5 to line conductor 23.
  • the motor is started and sufiicient current traverses the winding 26 to temporarily open relay switch 8,
  • a control circuit is established from conductor 13, through the relay switch, conductor 1 1, contact terminals resistance in the armature circuit is thus decreased, only the section 3 of the resistor 3 being now included.
  • the relay switch 8 is provided with a shunt winding29, one terminal 36 of which is connected, through conductor 25, to one terminal of the armature and the other terminal 37 of which is connected, through more or less of the variable resistor-10 and the conductor 38, to the opposite armature terminaL- As the speed of the motor-inthe series winding 26.
  • the switch 4 is held closed because contact member 34 engaged contact terminals 39 and a control circuit is completed from conductor 13,-through-said contact member and terminals and the winding 35 to conductors 22 and 23.
  • the reduction of resistanee in the armature circuit will usually cause the relay-switch 8 to open temporarily and, as soon as the relay switch is again closed,-a control circuit is established from conductor 13 through the relay switch, conductorv 14, contact terminals 40, contact member 31 (the switch 5 being open) contact terminals41, contact member 19 (the .switch 4 being closed) conductor 42, contact terminals 43, contact member 44 (the switch 6 being'open) magnet winding 45 of switch 6, and conductor 22 to line conductor 23.
  • switch 6 is closed and contact member 44 en- 5 gages contact terminals 46 to complete a holding circuit directly from the conductor 13 through said magnet winding to conductor 22. Since switches 4 and 6 are both closed, the resistorsections 3 and 3 are connected in multiple circuit with the section 3 and again the motor current is increased. As soon as the relay switch is again closed, a control circuit is established from conductor 13, through conductor 14,
  • contact terminals 40 of switch 5 contact terminals 41 of switch .4, conductors 42, contact terminals 46*, contact member 47, (the .switch 6 being closed) contact terminals 48, contact 49, (the switch 7 being open) magnet winding 50 of switch 7 and conductor 22 to line conductor 23.
  • control circuit connections are established from conductor 13 tothe relay switch, through conductor 14, contact terminals 15 and contact member --16 of switch 5, conductor 52, contact terminals 53 and contact member54 of switch 7, conductor 55, conductor 20 and magnet winding 21 of switch 5 to conductors 22 and '23.
  • the switch 5 is thus finally closed and its-holding circuit is established from con- I ductor 13, through .conductor 56, contact terminals 24, contact member 16,.conductor 52, contact terminals 53, contactmember 54, conductor 55, etc-., as before.
  • a motor circuit is then-established directly from conductor27, through switches 6 and 5, the re sistor sections being excluded from the circuith
  • the action of the shunt magnet coil 29 of the relay switch 8 may be adjusted by means of the variable resistor 10 until the acceleration of the motor is accomplished in the most economical and satisfactory manner possible.
  • circuit connections of the system may be varied within the spirit and scope of my invention, and I desire that no limitations shall be imposed which are not specified in:
  • relay switch for delaying the operation of the seyeral switches, said relay switch having a compound winding, a part of which is responsive to the counter-electromotive force of the motor armature.
  • a relay switch for delaying the operation of the several switches, said relay switch having a winding connected in series with the motor circuit and a second winding connected across the terminals or" the motor armature.
  • the combination with an electric motor, and a starting resistor therefor comprising connected sections, of means for connecting said resistor sections in series relation and subsequently in parallel relation, said means comprising a series of progressively actuated switches, and a relay switch for delaying the action of several switches, said relay switch having a compound winding, a part of which is responsive to the counter-electromotive force of the motor armature.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Motor And Converter Starters (AREA)

Description

W. COOPER.
SYSTEM OF ELECTRIC MOTOR CONTROL.
APPLIOATION FILED DEC. 21, 1910.
1 1 2 1 3 Patented Jan. 26, 1915.
EFT WK F173? 40 INVENTOR WITNESSES:
w 9 MM ATTORNEY UNITED STATES PATENT OFFICE.
WILLIAM COOPER, OF PITTSBURGH, PENNSYLVANIA, ASSIGNOR T0 WESTINGHOUSE ELECTRIC AND MANUFACTURING COMPANY, A CORPORATION OF PENNSYLVANIA.
SYSTEM OF ELECTRIC-MOTOR CONTROL.
Specification of Letters Patent.
Patented Jan. 26, 1915.
Application filed December 21, 1910. Serial No. 598,518.
Electric-Motor Control, of which the iollowing is a specification.
My .invention relates to controllers for electric motors and particularly to such controllers as comprise a plurality of independently operated switches for governing the circuit connections of the motor and its starting resistance.
The object of my invention is to .provide simple and inexpensive means, in a system of the class above indicated, for delaying the action of the resistance-control switches until the current traversing the motor circuit falls below a predetermined value, the current value being automatically varied for each of .the accelerating switches.
Series relay switches for delaying the successive action of independently operated control switches are in very general use and are well understood. When a single relay switch of this character is employed, the same current value in the motor circuit determines the action of each of the switches. In some cases it is particularly desirable to delay the action of the switches located near the end of the series until the motor current has fallen to a lower value than is desirable or necessary in connection with the first switches of the series and, in order' to determine independently the closure of each a switch, a relay switch has, in some cases, been provided for each of the control switches. According to my present invention, I accomplish substantially the same result with the use of a single relay switch by equipping the relay switch with a shunt winding in addition to the usual series winding and connecting the shunt winding across the terminals of the motor armature. By this means, the actual relay switch is not only dependent upon the current traversing the motor circuit, but also upon the counterelectromotive force generated at the armature terminals which is, of course, dependent upon the speed of the-motor. 7 By so conecting the two windings of the relay switch as to assist each other, the relay switch will obviously remain closed until the current in the motor circuit has reached a lower value, when the motor hasattained a considerable speed than will permit the same action when the motor has just been started and is operating at low speed.
The single figure of the accompanying drawing 1s a diagrammatic view. of a control system embodying my invention.
' Referring to the drawing, the control system here shown comprises an electric motor having an armaturel and a field magnet winding 2, a motor-starting resistor 3, a plural ty of independently operated control SWltCh"; 4:, 5, 6 and 7, a relay switch 8, a
' master switch 9 and a regulating resistor 10.
Assuming that the master switch 9 is closed, energy is supplied from any suitable source through line conductor 11, conductor 12, master switch 9, conductor 13, relay switch 8, conductor 14:, contact terminals 15, contact member 16 (the switch 5 being open) conductor 17, contact terminals 18, contact member 19 (the switch 4: being open), conductor 20, actuating magnet winding 21 of the switch 5 and conductor 22 to line conductor 23. lVhen magnet winding 21 is energized, the switch 5 is closed, a holdingcircuit being established from conductor 13 through contact terminals 2 1 which are now bridged by contact member 16, conductor 17, etc, as before. The motor circuit is now established from conductor 11, through armature 1, conductor 25, series magnet winding 26 of relay switch 8, conductor 27, resistor sections 3, 3 and 3 conductor 28 and switch 5 to line conductor 23. By reason of the connections just described, the motor is started and sufiicient current traverses the winding 26 to temporarily open relay switch 8, As soon as the motor is so far accelerated and the motor current is so much reduced as to permit the relay switch 8 to close, in spite of the increased counter-electromotive force of the motor armature 1, a control circuit is established from conductor 13, through the relay switch, conductor 1 1, contact terminals resistance in the armature circuit is thus decreased, only the section 3 of the resistor 3 being now included.
The relay switch 8 is provided with a shunt winding29, one terminal 36 of which is connected, through conductor 25, to one terminal of the armature and the other terminal 37 of which is connected, through more or less of the variable resistor-10 and the conductor 38, to the opposite armature terminaL- As the speed of the motor-inthe series winding 26.
The switch 4 is held closed because contact member 34 engaged contact terminals 39 and a control circuit is completed from conductor 13,-through-said contact member and terminals and the winding 35 to conductors 22 and 23. The reduction of resistanee in the armature circuit will usually cause the relay-switch 8 to open temporarily and, as soon as the relay switch is again closed,-a control circuit is established from conductor 13 through the relay switch, conductorv 14, contact terminals 40, contact member 31 (the switch 5 being open) contact terminals41, contact member 19 (the .switch 4 being closed) conductor 42, contact terminals 43, contact member 44 (the switch 6 being'open) magnet winding 45 of switch 6, and conductor 22 to line conductor 23.
I When magnet winding 45 is energized,
switch 6 is closed and contact member 44 en- 5 gages contact terminals 46 to complete a holding circuit directly from the conductor 13 through said magnet winding to conductor 22. Since switches 4 and 6 are both closed, the resistorsections 3 and 3 are connected in multiple circuit with the section 3 and again the motor current is increased. As soon as the relay switch is again closed, a control circuit is established from conductor 13, through conductor 14,
contact terminals 40 of switch 5, contact terminals 41 of switch .4, conductors 42, contact terminals 46*, contact member 47, (the .switch 6 being closed) contact terminals 48, contact 49, (the switch 7 being open) magnet winding 50 of switch 7 and conductor 22 to line conductor 23.
,As soon as switch 7 is closed, its magnet winding 50 is connected in a direct holding circuit which is established through contact terminals 51 and contact member 49. The
switch. 7 short circuits the resistor section 3* and, consequently, the r'esistor'sections 3 and 3 are connected in multiple c1rcu1t.
The motor speed now approaches its normal running value and, consequently, the counter-electromotive force generated in the motor armature is considerable. It'is, therefore, necessary for the current traversingthe motor circuit to be materially reduced before the relay switch can open, and the last step in the sequence of control taken.
As soon as the relay switch has closed after the switch 7 is closed, control circuit connections are established from conductor 13 tothe relay switch, through conductor 14, contact terminals 15 and contact member --16 of switch 5, conductor 52, contact terminals 53 and contact member54 of switch 7, conductor 55, conductor 20 and magnet winding 21 of switch 5 to conductors 22 and '23. The switch 5 is thus finally closed and its-holding circuit is established from con- I ductor 13, through .conductor 56, contact terminals 24, contact member 16,.conductor 52, contact terminals 53, contactmember 54, conductor 55, etc-., as before. A motor circuit is then-established directly from conductor27, through switches 6 and 5, the re sistor sections being excluded from the circuith The action of the shunt magnet coil 29 of the relay switch 8 may be adjusted by means of the variable resistor 10 until the acceleration of the motor is accomplished in the most economical and satisfactory manner possible.
The total amount ofresistance and the number of independently operated switches are relatively small by reason of the fact that the resistor sections are connected first in a series and then in a multiple circuit relation,
The circuit connections of the system may be varied within the spirit and scope of my invention, and I desire that no limitations shall be imposed which are not specified in:
the appended claims.
I claim as my invention:
1. In a control system, the combination withan electric motor, and a plurality of in dependently operated accelerating switches,
of a relay switch for delaying the operation of the seyeral switches, said relay switch having a compound winding, a part of which is responsive to the counter-electromotive force of the motor armature.
2. In a control system, the combination withan electric motor, and a plurality of in dependently operated accelerating switches, of a relay switch for delaying the operation of the several swi'tches, said relay switch having two magnet windings acting in-the same direction, only one of which is responsive to. the counter-electromotive force of the motor armature.
3. In a control system, the combination of the several switches, said relay switchhaving magnet windings, one of which is responsive to the counter-electromotive force of the motor armature and the other of which is responsive to the current in the motor circuit.
4. In a control system, the combination with an electric motor, and a plurality of independently operated accelerating switches, of a relay switch for delaying the operation of the several switches, said relay switch having a winding connected in series with the motor circuit and a second winding connected across the terminals or" the motor armature.
5. In a control system, the combination with an electric motor, and a starting resistor therefor comprising connected sections, of means for connecting said resistor sections in series relation and subsequently in parallel relation, said means comprising a series of progressively actuated switches, and a relay switch for delaying the action of several switches, said relay switch having a compound winding, a part of which is responsive to the counter-electromotive force of the motor armature.
In testimony whereof, I have hereunto subscribed my name this 9th day of Dec. 1910.
WILLIAM COOPER.
Witnesses:
HOWARD L. BEACH, B. B. HINES.
US59851810A 1910-12-21 1910-12-21 System of electric-motor control. Expired - Lifetime US1126163A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2663835A (en) * 1951-03-30 1953-12-22 Westinghouse Electric Corp Traction-motor control
US3067372A (en) * 1960-03-29 1962-12-04 Vehicules Et Travaux Vetra Device for the automatic starting of electric motors

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2663835A (en) * 1951-03-30 1953-12-22 Westinghouse Electric Corp Traction-motor control
US3067372A (en) * 1960-03-29 1962-12-04 Vehicules Et Travaux Vetra Device for the automatic starting of electric motors

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