US1528045A

US1528045A - Automatic transfer switching system

Info

Publication number: US1528045A
Application number: US435790A
Authority: US
Inventors: Charles A Butcher
Original assignee: Westinghouse Electric and Manufacturing Co
Current assignee: CBS Corp
Priority date: 1921-01-08
Filing date: 1921-01-08
Publication date: 1925-03-03
Anticipated expiration: 1942-03-03

Description

Mar. 3, 1925. 1,528,045

c. A. BUTCHER AUTOMATIC TRANSFER SWITCHING- SYSTEM Filed Jan. 8, 1921 WITNESSES: INVENTOR Cfidr/esfl. fiuzc/lef Patented ela; 192s UNITED STATES PATENT OFFICE.

CHARLES A, BUTCHER, O! WILKINSBUBG, PENNSYLVANIA, ASSIGNOR TO WESTING- HOUSE WC & IANUIACTURING COMPANY, A CORPORATION OF PENNSYL- VANIA.

LU'I'OIATIO TRANSFER SWITCHING SYSTEM.

Application fled January 8, 1921. Serial F0. 435,780.

To all whom it may Be it known that I,

a. citizen of the United of Wilkinsburg,

and State of Pennsylvania, have invented a new and useful Improvement in Automatic Transfer Switching Systems, of which the following is a specification.

My invention relates to switching systems and particularly to automatic transfer switching systems for high tension supply circuits.

One object of my invention is to provide bo means for automatically transferring a substation, or a load, from a preferred source of electromotive force to an auxiliary source when a fault occurs in the preferred source, and for transferring the substation, or the load, back to the preferred source when that source becomes normal.

Another object of my invention is to provide an automatic system embodying means of the above indicated character that shall be simple and economical in construction and reliable in its operation.

In practicing my invention, I provide a phase relay for the referred source of electromotive force and one for the auxiliary source that shall be energized in accordance with the condition of that circuit. A. control relay and a transfer relay are provided for the preferred and for the auxiliary sources and are adapted, when energized by the phase relays, in accordance with the con dition of the two supply sources, to actuate the corresponding interrupter of the source that is to supply energy to the substation.

When a fault occurs upon the preferred source of ener the interrupter of that circuit is opens and the transfer relays are simultaneously energized to close the interrupter of the auxiliary circuit, providing that circuit is normal. When the fault in the preferred circuit is cleared, and conditions rendered normal, the phase relay of the preferred circuit effects the opening of the interrupter of the auxiliary circuit and then effects the reclosing of the interrupter of the preferred circuit.

The phase relay that is employed is described in the United States Patent No. 1,344,730, issued to B. H. Smith, June 29, 1920, and assigned to the Westinghouse Electric & Mfg. Co.

The construction of the relay forms no part of the present invention and is mentioned merely to identify the relay in order that reference may be had thereto.

The relay is adapted to effect the engagement between a movable and a stationary member to control an external circuit upon the occurrence of a phase failure, a phase reversal in the circuit, or a decrease in the voltage of the circuit below a predetermined value.

In the relay employed in the system emdying my invention, I have provided an additional contact member that is engaged by the movable contact member while the circuit is normal.

The single figure of the accompanying drawing is a diagrammatic view of an electrical circuit embodying my invention.

The system comprises, in general. a preferred source 1 of electromotive force, an auxiliary source 2 of electromotive force. a load circuit 3 that is to be supplied with energy from either of the two sources, and a plurality of circuit interrupters 4 and 5 for respectively connecting the preferred and the auxiliary sources to the load circult 3.

The preferred circuit l is provided with a plurality of potential transformers 6 and 7 that are employed to energize a phase relay 8 in accordance with the condition of the circuit 1. The circuitl is further provided with a relay 9 and a transfer relay 10 that are controlled by the relay 8 which controls the actuation of the interrupter 4E.

The circuit 2 is similarly provided with a plurality of

transformers

11 and 12 that are employed to energize a phase relay 13. 'The phase relay 13, serves, when properly energized, to control the operation of a relay 14 and a transfer relay 15. The relays 14- and 15 control the actuation of the corresponding interrupter 5 of the auxiliary circuit 2.

The phase relays 8 and 13 are described in the patent mentioned above. So long as conditions are normal in the respective circuits 1 and 2, the relays are stationary. Upon the occurrence of a phase failure, a phase reversal, or a decrease in the voltage of the circuit below a predetermined value, the relays opcrate to eflect the actuation of the

corresponding relays

9 or 14, respectively.

The interrupter 4 is provided with an 9c tuating mechanism 16 that may be operated to close the interrupter through a closing coil 17 and then maintained in that position by. the action of a holding coil 18 on a latching member 19.

18 becomes de-energized, a spring 20 releases the mechanism 16 by moving the latching member 19.

The interrupter o is similarly provided with an actuating mechanism 21, a closing coil 22, a holding coil 23, a latching member 24 and.a spring 25 that o erate in the same manner as the correspom ing elements of the interrupter 4. v

The relay 8 is provided with two stationary contact members 26 and 27 and a morable contact member 28 that normally engages the contact member 27. \Vhen a fault occurs in the circuit 1, the contact member 28 is moved over to engage the contact member 26 and it maintains the engagement until the fault is cleared.

\Vhile conditions in the circuit 1 are normal, a circuit is completed from the terminal 29 of the secondary winding of the transformer 7 through the

contact members

27 and 28 of the relay 8, the operating coil 31 of the relay 9, and a limiting resistor 32 to the other terminal 30 of the secondary. winding of the transformer 7.

y The coil 31, being thus energized actuates the relay 9 and effects en agement of contact members 33 bya bridging member 34, and of contact members. 35 by a bridging member 36. A bridging member 38 is simultaneously disengaged from contact members 37. A spring 39 returns'the relay to its initial position when the coil 31 of the relay 9 becomes de-energized.

' Upon the actuation of the relay 9, a circuit is completed from the terminal 29 of the transformer 7 through the contact members 33, the bridging member 34, and the winding 31, of the relay 9, and the resistor 32 to the other terminal 30 of the transformer. A holding circuit is thus completed that serves to maintain the relay 9 in its energized position, irrespective of slight fluctuations of the circuit that may effect the disengagement of the

contact members

27 and 28 of the relay 8, 'but that may be insufficient to cause the contact member 28 to engage the contact member 26..

When the relay 9 is actuated. a second circuit is simultaneously completed from the terminal 29 of the transformer 7 through the contact members 35 and the bridging member36 of the relay 9, aplurality of contact members 41 and the bridging member 42 of the. relay 15, the operating coil 43 of the relay 10 to the terminal 30 of the transformer 7.

The coil 43 is thereupon ener 'zed and actuates the relay 10, causing the disengagement of a plurality of contact members 44 When the holding coil gize the closing coil of the interrupter that is to be actuated. Relay 55 serves to open the. circuit of the operating coil of the relay 56 after a predetermined interval of time that is normally sutiicientto permit the (ins ing of the interrupter.

Upon the actuation of the relay 10, a circuit is completed from the terminal 29 of the. transformer 7 through the contact members 46 and the bridging member 50 of the relay 10. the, jaw and the blade members 57 and 58 of the switch 54, thence through two parallel circuits, one of which includes the operating coil 59 of the relay 55. and the other of which includes the contact members 60 and the bridging member 61 of the relay 55 and the. operating coil 62 of the relay 56, thence through the jaw and the blade members 63 and 64 of the switch 54 and the contact members 47 and the bridging member 51 .of the relay 10 to the terminal 30 bf the transformer 7. E

The relay 56 is thereupon actuated to complete a circuit from a control bus conductor 65 through the contact members 66 and the bridging members 67 of the relay 56, the. contact members 48 and the. bridging member 52 of the relay 10, the closing coil 17 of the interrupter 4 to the other control bus conductor 68. The closing coil 17 is thereupon energized to close the interrupter 4.

The

control bus conductors

65 and 68 are adapted to be connected to the terminals of the secondary windings of the potential transformers 7 or 12 dependent upon whether the

relay

10 or 15 is closed.

The relay 55, that has meanwhile been energized, effects the disengagement of its contact members GO'by the bridging member 61 after an interval of time that is determined by the setting of the dash pot 69. The circuit of the operating coil 62 of the relay 56 is thereupon opened and the circuit of the. closing coil 17 of the interrupter 4. consequently, is also opened. The relay 55 remains energized to. prevent re-energization of the closing coil of the interrupter 4. so long as conditions in the circuit 1 remain normal.

Simultaneously with the energization of the closing coil of the interrupter 4, a' circuit was completed from the bus conductor 65 through the contact In embers 49 and the bridging member 53 of the relay 10, the holding coil .18 of the interrupter 4, the blade and the jaw members 58 and 57 of the switch 54 to the control bus conductor 68, thereupon ener 'zing the holding coil 18.

The holding coil 18 remainsenergized as long as conditions in the circuit 1 remain normal and the switch 54 remains closed. To open the interrupter 4 after it has been closed, it is necessary merely to open the switch 54 which will thereupon open the circuit of the holding coil 18 and permit the interrupter 4 to open.

Upon the occurence of a fault in the circuit 1 that will be sufficient to operate the relay 8 to effect engagement between the contact members 28 and 26, the coil 31 of the relay 9 will be short-circuited by the contact members 28 and 26 and the consequent deenergization of the coil 31 will permit the spring 39 to reset the relay 9 which will cause the

bridging members

34 and 36 to disengage the corresponding contact members 33 and 35.

Upon the return of the relay 9 to its initial position, engagement is effected between the contact members 37 and the bridging member 38 of the relay. If the condition of the auxiliary circuit 2 is normal, a circuit will be completed through the members 37 and 38 of the relay 9 and two contact members 71 and 72 of the relay 13, which will be engaged. If a fault obtains on the circuit 2, however, such as to cause abnormal conditions therein, the contact member 71, which is movable. will be caused to engage a station ary contact member 73. 7

Assuming the conditions of the auxiliary circuits 2 to be normal, a circuit will be completed upon the return of the relay 9 to its initial position from the terminal 74 of the transformer 12 through the contact mem bers 37 and the bridging member 38 of the relay 9, a resistor 75, the operating coil 76 of the relay 14, and the contact members 71 and 72 of the relay 13 to the other terminal 79 of the transformer 12.

The operating coil 76 thereupon becomes energized and operates the relay 14. Upon the actuation of the relay 14, engagement is effected between a plurality of contact mem: bers 77 and a bridging member 78 of the relay 14, that are connected in parallel relation to the contact members 71 and 72 of the relay 13. A circuit is'then completed through the contact members 77 and the bridgin member 78 that serves as a holding circuit or the relay 14.

When the relay 9 is de-energized and returned to its initial position, the energizing circuit of the holding coil 43 of the relay 10 is opened by the disengagement of the contacts 35 by the bridging member 36 of the relay 9, thus permitting the relay 10 to be returned to its'initial position by a spring 80 Upon the return of the relay 10 to its initial position, engagement is effected between the contact members 44 and the bridging member 45 thereof. The contact members 46, 47, 48 and 49 are simultaneously disengaged by the corresponding bers 50, 51; 52 and 53.

The relay 14 then serves to complete a circuit, for operating the relay 15, from the terminal 79 of the transformer 12 through a plurality of contact members 81 and a bridging member 82, the contact members 44 and the bridging member 45 of the relay 10, and the operating coil 83 of the relay 15 to the other-terminal '74 of the transformer 12.

The operating coil 83, upon being energized, actuates the rela- 15 against the force of the spring 84 to efilict disen 'agement of the contact members 41 and t e bridging member 42. Simultaneously, engagement is effected between four sets of

contact members

86, 87, 88 and 89 and the

corresponding bridging members

90, 91, 92 and 93, respectively.

Upon the actuation of the relay 15, voltage is impressed, by the transformer 12, on the control bus conductors and 68 through the

contact members

87 and 86 and the

corresponding bridging members

91 and 90. The closing of the interrupter 5 is thereupon effected in a manner similar to that explained above in connection with the inter rupter 4.

Tt. will be observed that the interrupter 5 may also be opened by opening the switch 54 since the circuit of the holding coil 23 of the interrupter 5 is opened by that operation. 1

The load circuit 3 has thus been connected to the preferred circuit 1 while that circuit has been normal; it has been disconnected from thatcircuit upon the occurrence of a fault therein and has been immediately connected to the. auxiliary circuit 2, to which it will remain connected until the circuit 1 again becomes normal.

When conditions in the preferred circuit 1 again become normal, the relay 8 becomes so energized as to effect reengagement between the

contact members

27 and 28 thereof. The operating coil 31 of the relay 9 thereupon becomes re-energizcd, and, by effecting the disengagement of the contact members 37 and the bridging member 38, serves to de-energize the coil 76 of the relay 14.

The relay 14 is thereupon returned to its initial position by its spring 94. The consequent disengagement of the contact members 81 and the bridging member 82 opens the bridging merntial position and y ment of the contact members of that relay permitted to open.

circuit of the operating coil 83 of the relay 15, thereby permitting that relay to be returned to its initial position by its spring 84.

42 of the relay 15 completes the circuit that serves'to energize the operating coil 43 of the relay 10. Upon the return of the relay .15 to its inithe consequent disengageand' the corresponding bridging members, the holding coil23 of the interrupter 5 becomes deenergized and the interrupter 5 is Simultaneously, the operation of the relay 10 recompletes the operating circuits that effect the reclosing of the interrupter 4.

It will thus be observed that the preferred circuit remains connected to the load circuit so long as conditions remain normal in the preferred circuit, but, upon the occurrence of a fault in the preferred circuit, the load circuit is automatically disconnected 25 therefrom and transferred to the auxiliary circuit. Also, upon the return of normal conditions in the preferred circuit, the load circuit is disconnected from the auxiliary circuit and reconnected to the preferred circuit.

contact members

71 and 73 thereof and deenergize the operating coil 76 of the relay 14 by short-circuitin'g that coil. The relay 15 would thereupon be returned to its initial position by reason of the deenergization of its holding coil 83 and the interrupter 5 would be opened. Both interrupters 4 and 5 would then remain open until the fault was cleared on either circuit 1 0r 2. The corresponding interrupter would then be reclosed.

Although I have shown a preferred system embodying my invention, I do not limit the system tothe specific devices that are illustrated therein, nor to the specific arrangement of those devices, as various modifications may be made therein without de parting from the spirit and scope of the invention as set forth in the appended claims.

I claim as my invention:

1. In an electrical distribution system, the combination with a preferred and a second source of polyphase electromotive force, and circuit interrupters between said sources and a load section of the system, of means for switching the load section of the system from the preferred source to the sedond source upon the occurrence of a fault on the preferred source and for switching the section back to the preferred source when that source becomes normal again, comprising means responsive to the phase and voltage of electronics onsive to base and voltage conditions of t e preferre source, switching means controlled th'ereby for switching the load section tothe second source upon the occurrence of a fault on the preferred source affecting the normal phase or voltage conditions, and means for switching the section back to the preferred source upon the clearing of the fault.

3. In an electrical distribution system, the i V combination withca preferred and an auxiliarysource of polyphase electromotive force, and circuit interrupters between said sources and a load section of the system, of means responsive to phase and voltage conditions of the preferred source, means controlled thereby for rendering the preferred interrupter inoperative, means controlled by said controlled means for rendering the auxiliary interrupter operative upon the occurrence of abnormal conditions in the preferred source of electromotive force, said last means being rendered inoperative by the condition responsive means of the preferred source when the abnormal condition clears and conditions in the preferred source return to normal.

4. In an electrical distribution system, the combination with a preferred and a second source of polyphase electromotive force, and circuit interrupters between said sources and a load section of the system, of means responsive to the phase and voltage conditions of the preferred source, means controlled thereby for rendering the preferred interrupter inoperative and for rendering the second interrupter operative, and means responsive to the phase and voltage conditions of the second source for controlling the operation of the interrupter associated with that source.

5. In an electrical distribution system, the combination with a preferred and a second source of polyphase electromotive force, and circuit interrupters between said sources and a load section of the system, of means rewith an abnormal condition on the preferred source. 6. In a power-distributing system, the

. sponsive to the condition of the combination with a load section of the system that is to be maintained energized and a plurality of sources of energy for supplying energy thereto in a preferred seuence, of means severally responsive to t 0 conditions of the respective sources, control devices controlled by said means in accordance with the condition of the associated source, means for permitting the operation of only one of said control devices at one time, connecting means between the load section and the respective sources of energy, means comprising a single operating unit for controlling the operation of the several connecting means, and means associated with each source for providing control energyfrom the associated source to the operating unit for controlling the respective connecting means.

7. In an electrical distribution system, the combination with a preferred and an auxiliary source of electromotive force, and circuit interrupters between said sources and a load section of the system, of actuating means for the interrupters, means for ener: gizing the actuating means, means for controlling the efiectiveness of the energizing means, and means responsive to electrical conditions in the respective-sources of elec-,

tromotive force for controlling the controlling means.

8. In an electrical distribution system, the combination with a preferred and an aux iliary source of electromotive force and circuit interrupters between said sources and a load section of the system, of actuating means for the circuit interrupters, means for deriving a control voltage from each source of electromotive force, switching means for subjecting the actuating means of the interrupters to the corresponding control voltage, and means responsive to the electrical condition of the respective sources of electromotiveforce for controlling the actuation of the corresponding switching means.

9. in .an electrical distribution system, the combination with a preferred and an aunliary source of electromotive force, and circuit interrupters between said sources and a load section of the system, of means rereferred source, a relay controlled by said means and normally maintained in its energized position, means controlled by the rela for effecting the closing of the prefe interru ter and for mainta' the same used: a aecondrelay ener when the former relay is released upon ,the occurrence of abnormal conditions in the preferred circuit, and means controlled by the latter relay for effecting the closing of the auxiliary interrupter and for maintaining the same closed until conditions in the preferrcd circuit return to normal.

10. In 'an electrical distribution system, the combination with a preferred and an auxiliary supply source of electromotive force, and a circuit interrupter between each source and a load section of the system, of means responsive to the condition of each supply source, a control relay for each supply source, and a, transfer relay for each supply source controlled by the corresponding control relay to transfer an energizing control circuit from the associated source to actuate the corresponding interrupter.

11. In an electrical distribution system, the combination with a preferred and an auxiliary supply source of electromotive force, and a circuit interrupter between each source and a load section of the syst-em, of means responsive to the condition of each supply source, and a transfer relay for each supply source that is controlled by the responsive means to effect the actuation of the correspondin interrupter.

12. In an electrical distribution system, the combination with a preferred and an auxiliary source of polyphase electromotive force, and circuitinterrupters between said sources and a load section of the system, of'means for switching the load section of the system from the preferred source to the auxiliary source upon the occurrence of a phase failure or phase reversal on the pree rredsource and for switching the section back to the preferred source when that source becomes normal-again.

13. In an electrical distribution system, the combination with a referred and an auxiliary source of polyp ase electromotive force, and circuit interrupters between said sources and a load section of the system, of means responsive to the effect produced by a base failure, phase reversal, and drop in v0 tage on the preferred source, means controlled thereby for rendering the preferred interrupter inoperative and for renderin the auxiliary interrupter o rative, and means responsive to the conditlon of the auxilia source for controlling the operation 'of t e interrupter associated with thatsource.

In testimony whereof, I have hereunto subscribed my name this 23rd day of Decamber, 1920.

CHARLES A. BUTCHER.

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