CH123216A - Electrical installation for controlling sets of devices in a substation from a control station. - Google Patents

Description

  

  Electrical installation for controlling sets of devices in a substation from a control station. The present invention relates to an electrical installation making it possible to control sets of devices in a substation from a control station by means of groups of control relays, one provided at the sub-station. with a pair of relays for each set of devices to be controlled and combined with two line relays, the other, similar, arranged at the control station with also a pair of relays for each set of devices to be controlled and also combined with two line relays, and control circuits at the substation and at the control station, which are arranged so as to enclose, first,

    one of the line relays of the substation and one of the line relays of the control station, then the other line relay of the substation and the other line relay of the control station, which has as a result, when operating the control circuits in association with the first line relay at the substation and the control station, respectively, the first relay of the control relay pair, associated with a set of control relays, respectively. devices, in the control relay group at the substation is energized, then that, when operating the control circuits in association with the second line relay at the substation and at the control station, respectively, the first relay of the pair of relays, associated with the same set of devices,

   in the group of control relays at the control station is energized and, then, when de-energizing the control circuits after the operation of the second line relays, the second relays of the relay pairs corresponding to said set of devices in the control relay groups to.

   the substation and the control station, respectively, are energized simultaneously, the control circuits at the substation and at the control station comprising two interrupt relays arranged to be energized by the operation of the relays of the corresponding control relay groups and having contacts associated with the control circuits so as to. interrupt these during the operation of either of said interrupt relays, whereby the simultaneous operation of the corresponding relays in the control relay groups at the substation and at the control station and the succession of the above-mentioned operating steps can be maintained.

    



  An embodiment of the object of the invention, given by way of example, is shown in the accompanying schematic drawing. The devices and circuits shown in fig. 1 to 3 are those placed in the control station, while the devices and circuits shown in fig. .1 to 6 are placed in the substation.



  The embodiment shown comprises a group of relays with two line relays both at the control station and at the substation. These groups of relays are used, in pairs, to control a series of devices to be controlled at the substation. A selection relay group is associated with each control relay group. A control switch is provided at the control station for each set of devices to be controlled.

   In addition, signaling devices are provided at the control station for each set of devices to be controlled. A control circuit has also been provided connecting the relay groups of the substation and of the control station.



  The operation of the installation occurs briefly as follows: When the supervisor wishes to produce the action of a circuit breaker at the substation, he will operate. the switch associated with the desired set of devices and then a starter switch. By the last operation, the control circuit begins to operate to actuate the relays of the control relay groups in a determined sequence. As a result of the action of the control relays, the selection relays at the station and at the substation are actuated in a predetermined sequence to select different sets of apparatus and signaling devices.



  When the desired set of devices is chosen, the action of the control circuit is interrupted, and the control circuit is completed to operate the selected set of devices. As a result of the action of the set of devices chosen, a signaling circuit is completed to actuate the exact signaling device at the control station to inform the supervisor of the completion of the task. desired action at the substation. When the signaling device has worked,

   the control circuit resumes its function and the switchgear is returned to the normal state at the control station as well as at the substation, when the last grouping control relay has been actuated.



  In the event that a set of devices is operated at the substation, either by hand. either automatically, the selection action of the selection relays is the consequence and the exact signaling devices are activated in order to inform the supervisor of the action at the substation.



  In fig. 1, relays 100 to 133 constitute the group of control relays at the control station. Relays 12-1 to 126 control certain actions of relay selector devices. In fig. 2, - relays 305 to 214 constitute the group of selection relays at the control station. These relays have been shown as being of the multi-contact relay type. The switch Ii is of the simple ordinary type without locking common to all the switches such as K-1. K-1 belongs to a plurality of control switches and is of a latch type.



  When turning a handle 319, the springs 317, 318, 230 and 370 come to occupy a position opposite to that shown. When the handle is turned in the opposite direction, the springs are brought to the position shown in the drawing.

   Relays 2013-224 are associated with each switch such as K-1. The armatures of the relays \ 200 and 201 are arranged relative to one another so that the armature 223 of the relay 201, when in the withdrawn position, is arranged to mechanically hold the armatures -221 and 222. of relay 200 in the action position. The relays 202 and 203 are similarly constructed and arranged and control the action of the signaling devices 224 and 225 which indicate the action of the sets of apparatus corresponding to the substation. Relay 204 is a delayed action relay.

   The relays 215 and 216 control certain signaling and control actions in a manner which will be described below. Relays 300 to 315 (fig. 3) constitute the control circuit at the control station, one of them, 305, serving to interrupt this circuit. Switch K-12 is a starter switch and is of the ordinary single type without interlocking.



  In fig. 4, relays 405 to 41.4 form the selector relay group at the substation. Three relays are associated with each set of devices to be controlled, relays 400 to 402 being associated with circuit breaker C. Circuit switch C can perform any desired function in the sub- station, for example connecting two food circuits together. The relays 480, 415 and 416 control certain selection operations as will be seen below.



  The relays 500 to 517 (fig. 5) constitute the control circuit at the substation, one of them, 501, serving to interrupt this circuit.



  In fig. 6, the relays 600 to 623 constitute the group of control relays at the substation. Relays 624 to 626 control certain tripping operations as will be described below.



  Having briefly described them. devices shown in the drawing, their operation will be explained in detail. For this purpose, it will be assumed that the supervisor wishes to produce the closure of circuit switch C at the substation. To achieve this goal, the supervisor will place switch K-1 in a position opposite to that shown and then lower start switch K-12 for a moment.



  The selector apparatus is normally held in the inoperative position by a blocking circuit extending from earth through armature 321, stop relay 303, conductor 26, armature 259, conductor 30, armature 442 and its rest contact, conductor 476, armature 532 and its rest contact and stop relay 502 to the battery. The action of the stop relay 303 at the station produces the interruption of the blocking circuit of the relay 300 at the armature 322, the preparation of a starting circuit at the armature 323 and the opening of the circuit. fired from relay 306 to frame 324.



  At the substation, the action of the stop relay 502 causes the preparation of a starting circuit at armature 523, the opening of the circuit of relay 500 at armature 524, and the preparation of 'a circuit for relay 506 to armature 525.



  When switch K-12 is lowered, a circuit is completed which extends from earth through the springs of said switch, the normally closed contact and armature 329, armature 323 and its make contact, the. armature 320 and its rest contact, and relay 301 to the battery. Relay _301 is energized to complete a circuit extending from the. earth by armature 317, armature 319 and its working contact, relay 302 and relay 301 to the battery. Relay 302 is shorted as long as switch K-12 remains down.

    When this switch is released, the short circuit of relay 302 is suspended and this relay is energized to open the blocking circuit at armature 321 so that relays 303 and 502 are de-energized.



  When relay 303 has been de-energized, it completes a circuit for relay 306 to rear 324, opens the start circuit to armature 323, and prepares armature 322 for a latch circuit for relay 300. Relay 306 is actuated to open the starter circuit at armature 329, and to prepare the control circuit at armature 330.



  At the station, relay 502 is de-energized to open the starting circuit at armature 523 at one point, to complete a circuit for relay 500 to armature 524, and to prepare a latch circuit for relay 503 to armature 525. Relay 500 is actuated to complete the control circuit to armature 519.



  The control circuit is now closed by a path extending from the battery through the closed contact and armature 339, line relay 311, closed contact and armature 352, closed contact and armature. ar mature 327, armature 330 and its make contact, connection conductor 32, work contact and armature 519, armature 521 and its rest contact, rest contact and armature 538 , the line relay 513, and the armature 551 and its reset contact to the earth.



  Line relay 311 is actuated to complete a circuit for relay 308 to armature 341 and to complete a circuit for relay 809 to armature 342. Relay 309 is energized to open the latch circuit at one point. from relays 312 and 313 to armature 336, and to complete a circuit for relay 310 to armature <B> 337 </B> by a path extending from the. earth by the armature 183 and its rest contact, the conductor 25, the armature 342 and its rest contact, the armature 337 and its work contact, the relay 310 and the relay 309 to the battery. This circuit, however, does not cause the relay 310 to be energized before the short-circuit of the latter is suspended by the de-energization of the relay 311.

   Relay 308 is actuated to open the lockout circuit from relay 307 to armature 335, and to establish a latch circuit for itself at armature 334 to ground to conductor 25.



  At the substation, line relay 513 is actuated to complete a circuit: for relay 516 to armature 548, and to complete a circuit for relay 515 to armature 549. Relay 515 is actuated to open the circuit of relays 511 and 512 to the armature 552, and to complete a circuit for the relay 51.1 to the armature 553 by a path which extends from the earth through the armature 6'86 and its normally closed contact, conductor 475, armature 546 and its rest contact, armature 553 and its work contact, relay 514 and relay 515 to the battery. This circuit does not energize relay 51.1 until the short of this relay is suspended by the. de-excitation of re lais 514.



  Relay 516 is actuated to open the latch circuit of relay 517 to arm 555, to establish a lockout circuit for itself to armature 55.1, to ground through conductor 475, and to complete a circuit to armature 556 which passes from earth through said armature and its working contact, conductor 472, armature <B> 687 </B> and its rest contact, armature 631 and its contact of rest, the control relay 600, the closed contact and the armature 680 and the closed contact and the armature 683 to the battery.

      The control relay 600 is energized by this circuit and completes a circuit to the armature <B> 627 </B> which extends from the earth through the armature 685 and its normally closed contact, the armature 627 and its work contact, relay 601, relay 600, armature 680 and armature 683 to the battery, and to complete a circuit to armature 628 which passes from earth through said armature and its working contact , the ar mature 633 and its rest contact, the driver 460 and the relay 501 to the battery.



  Relay 501 is energized to establish a latch circuit for itself at ar mature 520, to open the control circuit containing relays 311 and 513a. ar mature 521, to connect the control circuit to the armature 539 of the relay 509 to the opening contact of the armature <B> 521, </B> and to complete a circuit for the relay 509 to Par- mature 522. The 501 relay latch circuit extends from earth through the grounded conductor 475, the normally closed contact and the armature 5.12, the armature 520 and its make contact, and the relay. 501 to the battery.



  The circuit of the relay 509 passes from the earth through the armature 481, the conductor 477, the mature artery 522 and its make contact, and the relay 509 to the battery. Relay 509 is actuated to open the line relay circuit 513 to. armature 538, to establish a latch circuit for itself at armature 540, and to prepare a circuit for line relay 510 at armature 539. It is seen that, as a result of the action of the relays 50: 1 and 509, the circuit of line relays 3l1 and 513 is interrupted. Relay 513 is de-energized to suspend the short circuit of relay 514. Relay 514 acts to open the circuit of relay 513 at another point.



       At the control station, relay 311 is de-energized. to suspend the short circuit of relay 310. Relay 310 opens the primary circuit of relay 309 to armature 338, to open the circuit of relay 311 to armature 335 and to complete a circuit to armature 340 for relay 315. Relay 315 is energized to establish a latch circuit for itself at armature 353, to cut off line relay 311 from the control circuit to armature 352 and to connect the control circuit to relay 314 to the working contact of this armature.



  The control circuit extends from earth through the normally closed contact and armature 347, line relay 314, work contact and armature 352, armature 327, armature 330 and its work contact, the connection conductor 32, the work contact and the armature 519, the armature 521 and its work contact, the armature 539 and its <B> contact (the </B> work, the line relay 510, and the armature 545 and its rest contact to the battery The line relay: 314 and 510 are energized by this circuit.



  Line relay 314 operates to complete a circuit for relay 307 to frame 350 and to complete a circuit for relay 312 to armature 351. Relay <B> 312 </B> is actuated for open the circuits of relays 309 and 310 to armature 343 and to prepare a circuit for relay 313 to armature 344. Relay 310 is de-energized to prepare a circuit for relay 309 to arm 338 , to prepare a circuit for line relay 311 to armature 339, and to open the primitive excitation circuit from relay 315 to armature 340.

   Relay 309 is de-energized to open the circuit from relay 310 to armature 337, and to complete a circuit that extends from ground through conductor 25, armature 336, armature 334 and its make contact. , relay 313 and relay 312 to the battery. Relay 313 is shorted as long as relay 314 is energized and, therefore, relay 313 is not energized.



  Relay 307 is actuated to prepare a latch circuit for itself at armature 332, to open the lockout circuit from relay 308 to armature 331, and to complete a pulse circuit at Par- mature 333 Relay 308 is de-energized to complete a latch circuit for relay 307 to ground it through conductor 25 to armature 335.



  The circuit. The aforementioned impulse extends from the earth through, the normally closed contact and the armature 349, the armature 333 and its make contact, the conductor 22, the armature 186 and its closed contact, the armature 150 and its normally closed contact, the control relay 111, the armature <B> 157 </B> and the armature 184 to the battery.



  The control relay 111 is energized by this circuit and completes a circuit to the armature 1.53 which extends from the earth through the armature 182 and its normally closed contact, the armature 153 and its working contact, the relay 110, the re lais 111, the armature 157, the armature 181 to the battery and to complete a circuit to the mature artery 154 which extends from the earth through the said armature and its working contact, the armature 152 and its rest contact, the conductor 10, the relay 305, and the armature 325 and its rest contact to the battery. Relay 305 is energized to establish a latch circuit for itself to ar mature 326 to ground through conductor 25, and to open armature control circuit 3? 7 which contains line relays 314 and 510.



  At the substation, line relay 510 is actuated to complete a circuit for relay 512 to armature 541. Relay 512 is energized to open the circuit of relays 514 and 515 to armature 5.16 and to prepare a circuit for relay 511 to armature 547. Relay 514 is de-energized to prepare a circuit for relay 515 to armature 550, and to prepare a circuit for relay 513 to armature 554. Relay 515 is de-energized to open the circuit from relay 514 to armature 553, and to complete a circuit which extends from the conductor to the. earth 4.75 by the rest contact and the armature 552, the armature 547 and its work contact, the relay 511 and the relay 51? to the battery.

   This circuit does not produce relay 511 excitation until the short-circuit of this relay is suspended by the de-energization of relay 510.



  When the control circuit is turned off by the action of relay 305, relay 314 is de-energized as mentioned above. After its de-energization, relay 31-1 opens the primitive excitation circuit of relay 307 to armature 350 and suspends the short-circuit of relay 313 on armature 351. Relay 3l3 is immediately actuated to open the relay. primitive circuit for relay 312 to armature 3.16, to open the circuit from line relay 314 to armature 317, to open the latch circuit of relay 315 to armature 348, and to open the pulse circuit to the frame 349.

   The relay 315 is de-energized to cut the line relay 314 of the control circuit and to connect the line relay 311 to it to the armature 3r2.



  When the pulse circuit is open, the short circuit is suspended from the control relay 110 and this relay can operate. After its action, the relay 110 opens the primitive excitation circuit of the relay 111 to the armature 150, prepares a circuit for the control relay 123 to the armature 149, cuts the earth (read conductor 10 to the ar mature <B> 152, </B> completes a circuit to armature 148 which extends from earth through armature 176, armature 148 and its working contact.

    and the relay <B> 126 </B> to the battery, and completes to the armature 151 a circuit which extends from the earth through the armature 182 and its rest contact, the armature 181 and its contact of rest, the armature 151 and its working contact, the conductor 21, the armature 256 and its rest contact, and the relay 215 to the battery.



  Relay 215 is energized to complete a circuit which extends from earth through armature 185 and its normally closed contact, conductor 23, armature 254 and its work contact, relay 216 and relay 215 to the battery, and completes to the armature 255 a circuit which extends from the earth through the said armature and its working contact, the rest contact and the armature <B> 257, </B> the conductor 27, and the re lais 304 to the drums. Relay <B> 216 </B> is shorted as long as the primitive excitation circuit of relay 215 is closed. Relay 126 is actuated to prepare the circuit of relay <B> 123. </B> at another point.



  Relay 304 is. energized to open the latch circuit of relay 305 which is de-energized. Relay 305 recalls the <B> 327 </B> armature to prepare the control circuit.



  At the substation, the line relay is de-energized by the interruption of the control circuit to suspend the short-circuit chi relay 511. As a result of this action, the relay 511 is actuated to open the relay latch circuit. 501 and 509 to mature ar 542, to complete a circuit for relay 517 to armature 543, to open the primitive circuit of relay 515 to armature 5-1-1 and to open the line relay circuit 510 to the frame 5.15.



  Relay 517 is energized to interrupt the latch circuit of relay 516 at ar mature 5.57 and polish to prepare a circuit for itself at armature 558. Relay 516 is de-energized to complete a latch circuit for the armature. relay 517 to armature 555 and to open the pulse circuit to armature 556. As a result of the interruption of the pulse circuit, the short circuit of the control relay 601 is suspended and this relay is excited.



  By its operation, the relay 601 opens the primitive -d'excitation circuit of the relay 600 to. armature 631, prepare a circuit for the control relay 612 to armature 630, complete a circuit to armature 629 which extends from earth through the normally closed contact and armature 558, armature 629 and its working contact and the relay 624 to the battery, cuts the earthing of the conductor 460 to the mature artery 633, and completes to the armature 632 a circuit which extends from the earth through the armature 685 and its normally closed contact, the armature 656 and its closed contact, the armature 632 and its working contact, the conductor 471, the armature 440 and its closed contact, and the relay 416 to the battery. Relay 624 is energized to prepare the circuit for control relay 612.



  The interruption of the connection of the conductor 460 to earth causes the opening of the primitive excitation circuit of the relay 501. As a result of the interruption of the earthing of the conductor 460, the relay 501 is de-energized for open the primitive circuit of relay 509 to armature 522, and to connect the control circuit to the reset contact of armature 538 of relay 509 to ar mature 521. Relay 509 is de-energized to connect the relay line 513 to the control circuit and to open the circuit from relay 510 to armature 539.



  Relay 416 is energized to complete a circuit extending from earth through armature 684 and its normally closed contact, conductor 473, armature 443 and its normally open contact, relay 415 and relay 416 at the bat terie. This circuit is not active as long as the primitive circuit of relay 416 is maintained.



  The control circuit is completed as a result of the de-energization of the relays 501 and 509. This control circuit extends from the. battery by armature 399, relay 311, armature 352, armature <B> 327, </B> armature 330 and its working contact, conductor <B> 32, </B> the NO contact and armature 519, armature 521 and its normally closed contact, armature 538, line relay 513, and armature 554 and its rest contact to earth. Line relays 311 and 513 are energized by this circuit.



  Line relay 311 is actuated to complete a circuit for relay 309 to rear 342, and to complete a circuit for relay 308 to armature 341. Relay 309 is energized to open the circuits for relays 312. and 313 to armature 336, and to prepare a circuit for relay 310 to armature <B> 337. </B> Relay 31-3 is de-energized to prepare a circuit for the relay;

  312 to armature 346, to prepare a circuit for line relay 314 to armature 3-17, to close the circuit of relay 315 to armature 348, and to close the pulse circuit to l reinforcement 3.19. Relay 312 is de-energized to open the circuit from relay 313 to armature 344, and to complete the circuit from relay 310 to armature 343. Relay 310 is not energized until the primitive circuit for relay 309 is energized. is maintained. Relay 308 is actuated to open the latch circuit from relay 307 to armature 335, and to prepare a latch circuit for itself at armature 334.

   Relay 307 is de-energized to complete the clt circuit, latching relay 308 and to open the pulse circuit to armature 333.



  At the substation, relay 513 is energized to complete a circuit for relay 5.16 to armature 548, and to complete a circuit for relay 515 to armature 549. Relay 515 is actuated to open the circuit. relays 511 and 512 and to prepare a circuit for relay 514. Relay 511 is de-energized to prepare a circuit for relay 512 to armature 544, to prepare a circuit for relay 510 to armature 545, to open the original excitation circuit (read relay 517 to armature 543, and to prepare a latching circuit for relays 501 and 509 to armature 542.



  Relay 516 is energized to prepare a latch circuit for itself at armature 554, to open the lockout circuit from relay 517 to armature 555, and to complete a pulse circuit at armature 555. ar mature 556. Relay 517 is de-energized to close the latch circuit of relay 516.



  The aforementioned impulse circuit extends from earth through armature 556 and its make contact, conductor 472, armature 687 and its make contact, make contact and armature 630, l armature 660 and its normally closed contact, the control relay 612, the closed contact and armature 680, and the closed contact and armature 683 to the battery.



  Control relay 612 is energized by this circuit and operates to open the circuit from relay 416 to armature 656, to complete a circuit at the make contact of this armature which extends from earth through armature 685 and its normally closed contact, armature 656 and its make contact, relay 613, armature 68.0 and armature 683 to battery, and complete to. armature 655 a circuit which extends from earth through said armature and its contact, armature 657 and its rest contact, conductor 460 and relay 501 to the battery. The circuit for the relay 613 does not yet energize this relay and this until the primitive circuit of the relay 612 is opened.

   Relay 501 is energized to open the control circuit containing line relays 311 and 513 at armature 521, to complete a latch circuit for itself at armature 520, and to complete a circuit for relay 509 to frame 52 ?. Relay 509 is energized to establish a latch circuit for itself at armature 540 and to prepare the control circuit by connecting relay 510 to armature 539 therein.



  As previously mentioned, the action of relay 612 opens the primi tive circuit of relay 416. This action causes the suspension of the short-circuit of relay 415. This relay is actuated to prepare signal and control circuits for the armatures. 4.11 and 442 respectively.



  Line relay 513 de-energizes as a result of opening the control circuit to suspend relay-514 short circuit. Relay 514 is energized to open the circuit of relay 515 at one point and to open the circuit of relay 513 at another point.



  When the control circuit is or green, the relay 311 at the control station is de-energized to suspend the short circuit of the relay 310. The relay 310 opens the primitive circuit for the relay 309 at the armature 338. to open the circuit of the relay. line relay 311 to armature 339, and to complete a circuit for relay 315 to armature 3.10. Relay 315 is energized to connect line relay 314 to the control circuit at armature 352, and to establish a lock circuit for itself at armature 353. The control circuit, containing the relays of line 314 and 510 in series, is now completed.



  Line relay 314 is energized to complete a circuit for relay 312 and for relay <B> 307. </B> Relay <B> 307 </B> operated and opens the circuit of relays 309 and 310 to ar mature 343 and prepares a circuit for relays 313. Relay 310 is: de-energized to prepare circuits for relays 309 and 311 to armatures 338 and 339, and to open the primitive excitation circuit of relay 315 to armature 340. Relay 309 is de-energized to complete a circuit for relay 313.

    This last operation is ineffective, until the short-circuit of relay 313 is suspended by the.

       de-energization of relay 31-1. Relay 307 is actuated to prepare a latch circuit for itself at armature 332, to open the lockout circuit from relay 308 to armature 331, and to complete a mature arc pulse circuit 333 Relay 308 is de-energized to complete the latch circuit for relay 307. The impulse circuit extends from earth through armature 349, armature 333 and its make contact, conductor 22, l '. armature 186 and its make contact, make contact and armature 149, armature 178 and its rest contact, control relay 123, armature 157 and armature 184 to the battery.



  The control relay 123 is energized by this circuit and opens the circuit of the relay 215 to the armature 181, completes a circuit for the relay 122. To the working contact of this mature ar by a path which goes from the ground through the armature. armature 182 and its rest contact, armature 181 and its work contact, control relay 122, relay 123, armature 157 and armature 18.1 to the battery, and prepare a circuit for the battery. 'armature 180 which extends from the earth through said armature and its working contact, armature 175 and its rest contact, conductor 10, relay 305, to armature 325.

       The control relay 122 is not actuated by this circuit because it is bypassed as long as the primitive circuit of the relay 123 is maintained.



  By cutting the conductor 21 from earth, the primitive circuit of the relay 215 is opened with the result that the short circuit of the relay 216 is suspended. Relay 216 opens the primitive circuit of relay 215 to armature 256, opens the circuit of relay 304 to armature <B> 257, </B> and connects control and signal conductors 30 and 31, to 258 and 259 armatures, to the selection relay contacts.



  Relay 304 is de-energized and completes a circuit for relay 305 as mentioned above. Relay 305 is energized to establish a latch circuit for itself at armature 326 and to open the control circuit, containing line relays 314 and 510 at armature <B> 327. </B> The relay: 31.1 is immediately de-energized to open the primitive excitation circuit of relay 307 and to suspend the short-circuit of relay 313. Relay 313 is energized to open the primitive circuit from relay 312 to armature 346, to open the circuit from relay 314 to armature 347, to open the latching circuit of relay 315 to armature 348, and to cut the ground connection of the pulse circuit to armature 349.

   Relay 315 is de-energized to connect line relay 311 to the control circuit.



       As a result of interrupting the pulse circuit, the short circuit of relay 122 is. suspended and this relay can work. When energized, relay 122 cuts earth from conductor 10 to armature 175, opens circuit from relay 126 to armature <B> 176, </B> prepares a circuit for the control relay 109 to armature 177, and completes to armature 179 a circuit which extends from the earth through armature 1.82 and its rest contact, armature 1.16 and its rest contact, armature 179 and its working contact, the driver 20, and the selection relay 214 to the battery. Relay 126 is de-energized to prepare the circuit from control relay 109 to armature 186 and its rest contact.



  As a result of the interruption of the connection of the conductor 10 to earth, the primitive excitation circuit of the relay 305 is interrupted. This relay is not, however, de-energized by the fact that its locking circuit remains closed.



  Selection relay 214 is actuated to complete a circuit for signaling device 241 to spring 250, to prepare a signal circuit to spring 251, to prepare a control circuit to spring 252, and to prepare the circuit for relay 304. to spring 253. The action of the 2-1-1 signal device informs the supervisor of the operation of the selection relays.

   The circuit of relay 304 is not closed due to the fact that switch K-1 is in a position opposite to that shown, and the earth is cut off from the conductor passing through the springs of switch Ii-11 .



  At the substation, line relay 510 is de-energized, when the control circuit is interrupted, to suspend the short circuit of relay 51. Relay 511 is actuated to open the primitive circuit of relay 512 to the armature. 544, to open the circuit from line relay 510 to armature 545, to complete a circuit for relay 517 to armature 543, and to open the latch circuits of relays 501 and 509 to armature 542 .



  Relay 517 is energized to open the latch circuit from relay 516 to armature 557, and to prepare a lockout circuit for itself at armature 558. Relay 516 is de-energized to complete the lockout circuit. locking relay 517 to arm 555 and to open the impulse circuit to armature 556. As a result of this last action, the short circuit of control relay 613 is suspended and this relay can operate. .



  When energized, relay 613 cuts off the ground connection from conductor 460 to armature 657, opens circuit from relay 624 to armature 658, prepares a circuit for control relay 602 to. armature 659, opens the primitive circuit of relay 612 to, ar mature 660, and completes to armature 661 a circuit which extends from earth through armature 685 and its rest contact, the armature . 634 and its NC contact, the armature 661 and its NC contact, the conductor 470, and the selection relay 405 to the battery.

   The select relay 405 is energized to prepare a signal circuit to the spring 426, to prepare a control circuit to the spring 425, and to complete a circuit to the spring 427 for the relay .180. Relay 62.4 is de-energized to prepare the circuit for relay 60? At another point.



  The interruption of the. Grounding conductor 460 causes relay 501 to de-energize. Relay 501 prepares a circuit for line relay 513 and for opening line circuit 513 and for opening relay circuit 509. Relay 509 is de-energizing to open at another point the line relay circuit 510 and to prepare at another point the line relay circuit 513. The relay 480 is energized to cut the circuit of the relay 509 at another point. The control circuit does not enter. not in operation because the relay 305 is blocked. To produce the action of circuit switch C, the supervisor will operate the common control switch K.

   As a result of this operation, a circuit is completed which extends from the earth through the upper springs of the switch If ", the working contact of the spring 217 of the switch K-1 and said switch, the working contact. and the armature 222, the working contact of the spring 252 and said spring, the working contact and the arm 259, the connection conductor 30, the armature 442 and its working contact, the spring 425 and its contact, the armature 419 is its working contact, and relays 402 to the battery.



  Relay 402 is thus energized to complete a circuit for the close coil of circuit switch C. Close coil 403 causes the circuit breaker to close in a well-known manner. Simultaneously with the closing of this control circuit is completed a signaling circuit which extends from the battery by the working contact and the armature 420, the working contact of the spring 426 and said res goes out, the working contact and the armature 441.

    the conductor 31, the armature 258 and its working contact, the spring 251 and its working contact, the armature 230 and its rest contact, and the relay 203 to the battery.



  As the exact signal device 224 is actuated to indicate that the circuit breaker is in its on position, there is no change in the signaling devices. The action of the circuit switch C at the substation causes the circuit of the delay relay 400 of the switch 423 to open and a circuit to close, before the delay relay is de-energized, circuit which extends from the earth through the auxiliary switch 423, the armature 417 and its working contact, the conductor 478, the working contact and the armature 580, the armature 518 and its contact of work, armature 537 and its rest contact, and relay 507 to the battery.

        Relay 507 is energized to prepare the circuit from relay 506 to armature 534, and to complete a circuit extending from earth through the normally-open contact and armature 533, armature 535 and its ground contact. work, relay 508 and relay 507 to the battery. Relay 508 is shorted until the relay 507 circuit is open. When the delay relay 400 is finally de-energized, the short-circuit of the relay 508 is suspended and this relay is actuated to earth the conductor 478 to the armature 536. A starting circuit is prepared by the connection to the earth. conductor earth 478.



  As a result of the de-energization of the delayed-action relay 400, the earth is connected to the above-mentioned signaling circuit which contains the relay 203 at the control station. By its action, the relay 203 attracts its armature 229 so that the armatures 226, 227 and -228 of the relay 202 can return to their normal position. By the action of armature 226, signal device 225 is turned off and signal lamp 224 is turned on. The action of armature 227 completes a circuit for relay 204, while armature 228 opens the circuit of relay 200 at one point. By the change in signal devices, the supervisor is informed that the desired action is taken. at the substation was carried out.



  The delayed action relay 204 is energized to open the circuit of the signaling relay 203 to the armature 230 and to complete a circuit to the armature 231, which extends from the battery through said armature and its working contact, the relay 201, the working contact of the spring 220 and said spring to earth. The relay 201 is energized by this circuit and its mature ar 223 is actuated to enable the. release of reinforcements 221 and \ l22 from re lais 200.

   By the action of the armature 222, the control circuit containing the relay 402 is cut, while, by the action of the armature 221, a circuit is completed which extends from the earth through the spring 220 and its working contact, and the armature 22l, the springs of the switch g-11, the working contact of the spring 253 and said spring, the conductor? 7 and the relay 30.1 to the battery. Relay 304 is energized to open the circuit. lock relay 305 to armature 325 and relay 305 is de-energized to prepare the control circuit.



  The control circuit now continues to function in the same way as before. Line relays 311 and 31.1 are connected alternately to this circuit to produce the action of the control relays in the following sequence: 109, 108, 121, 120, 107, 106, 119, 1 <B> 1 </B> 8, 105, 10.1, 117, 116, 103, 102, 115, 114, 101, 100, 113 and 112. As a result of the action of the control relays, the selection relays 213, 21 \ l, 211, 210 , 909, 208, 207, 206 and 205 are actuated in the stated succession, each relay being released after energization of the following control relay.

   In other words, the selection relay 214 is released by the energization of the control relay <B> 109. </B> The selection relays prepare by their action certain circuits for the. connection of the various switches, such as K1, and signal devices, such as 224 and 225 to line conductors 30 and 31. As it has been assumed that the supervisor only wishes to actuate circuit switch C , there will be no further control circuit to complete and the action of the control current to produce <B> the </B> operation of the above-mentioned relays will continue.



  At the substation. the line relays 513 and 510 are connected alternately to the control circuit and actuated to produce the excitation of the control relays in the following sequence: 602, 603, 614, (i15, 604, 605, 616, 617, 606 , 607, 608, 619 ,. 608, 609, 620, 621, 610, 611, 622 and 623. The action of the control relays causes the selection relays to be energized in the following sequence: 406 407, -108 , 409, 410, -111, 41 ?, 413 and 414.

   The selection relays are de-energized in the same succession by the action of the following ten control relays, i.e. the selection relay 405 is de-energized by <B> the </B> operation of the control relay 601.

        Therefore: <B> de </B> the action of the selection relays, different: relays, such as 400 to d0 ?, including,: connected to the output signaling and control circuits (read the signals exact values are transmitted to the control station to inform the supervisor of the position of the various assemblies (the devices.



  It is obvious that in order to ensure an exact operation of the circuit (the control, it is necessary to alternately connect the line relays 311 and 314 and the line relays <B> 513 </B> and 510 to the control circuit at the substation. control station and the substation, respectively.

   The alternating connection of the line relays and the action of the control circuit is controlled indirectly. by excitation of the control and selection relays, since it is necessary for line relays 311 and 31-1 to be actuated to produce the excitation of a single control relay, such as. control relay 111.

    <B> A </B> the, substation. "The control relay 600 is actuated when the first. line relay, i.e. 513, 'is actuated, but it is necessary that both line relays 513, and 51 (_1 be actuated before ( read the following control relay 601 can operate.



  The operation of the control relays, such as 111 and 600, causes: the operation of the relays 305 and 501 serving% -ant the interruption of the control circuits., This operation produces the simultaneous energization of the selection relays which are chosen. Operation (These selection relays control the operation of relays 301 and 480 to close the control circuits. By virtue of this mutual relationship of the circuits, the simultaneous action of the relay selection apparatus is ensured.

   This is accomplished even if the circuits (the controlled are subject to inductive faults, because it will not occur (the selection action without due the line relays are exactly connected to the control circuits.



  When the control relay, 113 is actuated by energizing the line relay 31.1, the selector relay circuit 205 is opened and a circuit is completed for the relay <B> 1122. </B> The circuit for the relay 112 has no effect until the circuit of relay 113 is opened.

   Relay 205 is de-energized to turn certain circuits (signaling and to cut off the earth connection to conductor 27 so (read relay 304 is de-energized to complete a circuit for relay 305. Relay 305 is activated) to open the circuit of relay 31d. This relay is de-energized to cause the action of relay 313.

   Relay 313 is actuated to open the pulse circuit. so that the short circuit of the relay 112 is suspended. Relay 112 cuts the primitive excitation circuit of relay 3Û! 5 to armature 155 ', opens the circuit of relay 126 to armature 156 and suspends the short circuit of relay 125 to armature <B> 1.57 . </B> Relay 125 is now energized in series with all the relays (the command.

   This relay cuts the connection to. the earth of the conductor 23 to the armature 183 and completes a circuit for the delayed action relay 12-1 to the working contact of this armature. As a result of this interruption of the earthing of the conductor 23,

   the circuit of relays 215 and 216 is cut and these relays are de-energized. Relay 215 is de-energized to open the circuit of relay \? 16 --t at one point to open the circuit of relay 30.1 at one point. Relay? 16 is de-energized to prepare a circuit for relay 215 to armature 256, to prepare relay 30-1 circuit to armature 257, to open signaling circuit to armature 258, to open the.

   circuit (the command to the armature? 59 and to prepare a blocking circuit for the rest contact of this armature.



  The delayed action relay 124 is energized to cut the connection to the earth (read conductor 25 to the armature 183 and to connect the conductor-24 to the earth by the make contact of this armature. The action of the relay 1 ? -1 is used as a plus: to open the circuits of all the corner relays 11) 0 to 123 and spread the circuit of relay 1: 3a to the armature 182.

   Relay 125 is de-energized to open the circuit of delayed-action relay 12.1 although this relay remains energized for a while. The control relays are de-energized to return certain circuits to the normal state.



  Interruption of the grounding of conductor 25 produces de-energization of relays 305 and relays 312 and 313. Relay 305 separates the control circuit.



  The relays 312 and 313 are de-energized to restore certain circuits to the normal state. By connecting the conductor 24 un. Circuit is completed for relay 300. Relay 300 is energized to establish a latch circuit for itself at armature 316, to open the circuits of relays 301 and 302 to armature 317, and to open circuit. from relay 306 to armature 3.18. -The relay 301 is de-energized to open the circuit of relay 302 at one point. Relay 302. is de-energized to prepare the b-locage circuit for armature 321.

   The relay 306 is de-energized to open the control circuit to the armature 330 and to prepare the starting circuit for the armature 329. In this way, the devices at the control station are brought into the normal state.



  At the substation, the control relay 622 is energized by the action of the line relay 513. The relay 622 is actuated to produce the energization of the relay 501 and the interruption of the selection relay circuit. 414. Relay 414 is de-energized to open the circuit of relay 480. Relay 480 is de-energized to prepare a circuit for relay 509. Relay 501 is energized to complete a circuit for relay 509. As a result of the action of relays 501 and 509, line relay 510 is connected to the control circuit so that this relay is energized in series with line relay 314 at the control station.



  When the control circuit is either green by the action of relay 305 as described, relay 511 can operate. As a result of this action, relay 516 is de-energized and the short circuit of control relay 623 is suspended. Control relay 623 opens the primary excitation circuit from relay 501 to armature 678, opens circuit of relay 624 to armature <B> 679 </B> and suspends the short circuit of relay 625 to ar mature 680. Relay 625 is actuated to cut the earth of conductor 473 to armature 684 and to complete a circuit for relay 626 to the make contact of this mature ar.



  By interrupting the earth connection of conductor 473, the circuits of relays 415 and 416 are interrupted. Relay 416 is de-energized to open the circuit of relay 415 at another point. Relay 415 actuates its armatures to prepare the circuit from relay 416 to armature 440, to open the signaling circuit to armature 441, to open the control circuit to the armature 442, and to prepare the blocking circuit for the rest contact of this mature ar.



  The delayed action relay 626 is actuated to open the circuits of all control relays 600 to 623 and also to open the circuit of relay 625. The various control relays are de-energized to return certain circuits to the circuit. normal state. Relay 625 is de-energized to open the circuit of relay 626, which remains energized for a moment. Interruption of the earth connection of conductor 475 de-energizes relays 511 and 51-2. These relays activate their matures to return the corresponding circuits to the normal state.



       By grounding the conductor .174 a circuit is completed for relay 503. Relay 503 is actuated to open circuits from relays 504. and 505 to armature 528. to open circuit from relay 500 to armature 526 and to establish a lock circuit for itself at armature <B> 527. </B> Relay 504 is de-energized to open circuit of relay <B> 505 </B> to armature 529 and to open the circuit of relay 506 to armature 530. Relay 505 is de-energized to prepare a circuit for relay 504 to armature 531 and to prepare a blocking circuit for armature 532 .



  The blocking circuit is now completed by a path extending from earth through the normally closed contact and the armature 321, the stop relay 303, the conductor 26, the closed contact and the armature 259, the conductor 30, the armature 442 and its rest contact, the conductor 476, the armature 532 and its rest contact, and the stop relay 502 to the battery.



  Relay 303 at the control station is energized to open relay 300 latch circuit and to prepare a circuit for start relay 301. Relay .300 is de-energized to prepare a circuit for relay 302 to armature 317 and to prepare a circuit for relay 306 to armature 318.



  At the substation, stop relay 5Ü2 is energized to open the latch circuit from relay 503 to armature 525, and to prepare relay circuit 506 for the make contact of that armature. Relay 503 is de-energized to prepare a circuit for relay 500 to armature 526 and to prepare a circuit for relay 505 to armature 528. In this way, the switchgear to. the substation is brought back to normal.



  When the relay 502 is energized, a starting circuit is completed which extends from earth to conductor 478 through the make contact and the armature 523, the armature 518 and its closed contact, the armature 531. and its de-contact, and relay 504 to the battery. Relay 504 is energized to complete a circuit for 1 "relay 505 - to armature 529 and to complete a circuit to armature 530, which extends from earth through armature 525 and its contact. armature 530, relay 506, and armature 534 to the battery, relay 505 is not energized until the primitive circuit for relay 504 is held.



  Relay 506 is actuated to open the circuits of relays 507 and 508. Relay 508 is de-energized to open the circuit of relay 504. Relay 505 is immediately energized in series with relay 501-. By the action of relay 505, the blocking circuit is interrupted and stop relays 303 and 502 at the control station and at the substation respectively are de-energized. The results of de-energizing these relays are the same as those previously described and cause the device to select action. relay. The purpose of this new action is to check all the supervisor control indications.



  In case a set of devices at the. substation is automatically activated by the action of devices (not shown) meeting the conditions of the control circuit, the action of the selection device is immediately initiated. To describe this action, we will assume due to the switch (the circuit C is closed and that it is opened by the action of automatic devices or by hand by an operator at the substation. When the circuit breaker is When open, there is a circuit completed for slow acting relay 400 by auxiliary switch 423.

   Before this relay 400 is energized; a circuit is completed which extends from the earth through the auxiliary switch 423, the armature 418 and its break contact, the conductor 478, the work contact and the armature 523, the armature 518 and its contact of rest, the ar.- mature 531 and its rest contact. and the 504 left to the drums. Relay 504 is energized to complete a circuit for relay 505. When relay -100 is finally energized, the connection of conductor 478 'to earth is cut with the effect that the relay 505' short-circuited. suspended and that this release is actuated to open the blocking circuit. The selection action is initiated by this operation.



  Obviously, under certain conditions the supervisor will find it desirable to establish a connection with a certain set of devices and to maintain that connection, while observing its control operation. To accomplish this, the supervisor has a plurality of switches, such as X-2 through i-11 inclusive. To describe this action, assume that the supervisor wishes to observe the operation of circuit switch C. To achieve this result, the supervisor will operate switch K-11 and then start switch K-12. .



  The action of the selection apparatus occurs as before and the selection relays 214 and 405 at the control station and at the station are energized by the action of the control circuit. Under these conditions, the relay 305 is blocked in the energized state and the circuit of the relay 304, which opens the latch circuit of the relay 305, can be interrupted by the action of the switch K-11. Therefore, until this switch is returned to the "Normal" position, the devices will remain in this position due to the control circuit being open.

   The supervisor is therefore Ù even to actuate the circuit switch C as often as he wishes and to observe its action by the operation of the signal devices 224 and 225.



  When the supervisor wants the selection apparatus to continue his selection action, he will return switch K L 11 to the normal position so that the circuit for relay 304 can be closed. As an effect of this action, relay 305 is de-energized to complete the control circuit. The operations of the selection apparatus proceed in the same way as before.

 

Claims (1)

CLAIM Electrical installation making it possible to control sets of devices in a substation from a control station by means of: groups of control relays, one provided at the sub-station with a pair of relays for each set of devices to be controlled and combined with two line relays, the other, similar, arranged at the control station with also a pair of relays for each set of devices to be controlled and also combined with two line relays , and control circuits at the substation and at the control station. which are arranged so as to contain, on board, one of the substation line relays and one of the control station line relays, then the other substation line relay and the another line relay of the control station, which results in the operation of the control circuits in association with the first line relay at the substation and the control station, respectively, the first relay of the pair of control relays associated with a set of devices, in the group of control relays at the substation is energized, then that, during operation of the control circuits in association with the second line relay at the sub - station and at the control station, respectively, the first relay of the relay pair. associated with the same set of devices, in the group of control relays at the control station is exeited and, then, that when de-energizing the control circuits after the operation of the second line relays, the second relays of the pairs- , of relays corresponding to said set of devices in the groups of control relays at the substation and at the control station, respectively, are energized simultaneously, the control circuits at the substation and aïi control station comprising. two interrupting relays arranged to be energized by the operation of the relays of the corresponding control relays and groupings having contacts associated with the control circuits so as to interrupt the latter during operation ile one or the other other of said interrupt relays. whereby the simultaneous operation of the corresponding relays in the control relay groupings at the substation and at the control station and the succession of the operating steps. above C, c can be maintained. SUB-CLAIMS 1 Installation according to claim, further comprising a group of selection relays both. the substation than at the control station, a selection relay being associated with each set of devices <B> to </B> to control, and means arranged to produce, by the synchronous action of the second relay of the pair of relays in the control relay groups <L the substation and at the control station, respectively, corresponding to a set of devices to be controlled, establishing circuits for energizing the selection relay corresponding to the substation and the control station, respectively. 2 Installation according to claim and sub-claim 1, characterized in that it comprises two auxiliary relays, one associated with the group of selection relays and the control circuit of the control station and the other, associated with the group of selection relays and with the control circuit of the substation and connected in such a way that when the control circuit is de-energized after the operation of the second line relay, said control circuit cannot be completed again before the auxiliary relays are energized, a circuit for energizing each of the auxiliary relays being completed by the operation of a selection relay at the control station and at the substation, respectively.