CH121192A - 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. This invention relates to an electrical installation making it possible to control in a substation sets of devices from a control station, in which there is a group of control relays at the substation and a group of control relays. control relay similar to the control station as well as means for bringing the relays of said groups of relays simultaneously into operation in a determined succession and means by which, during the operation of a relay in the <B> a < / B> substation control relay group together with the operation of a corresponding relay in the control station control relay group,

    a control circuit is prepared for the actuation of a set of devices at the substation with signaling of this actuation to the central station, this installation being characterized in that the groups of control relays of the substation and the control station are established so that there is, in each group, each time a pair of control relays corresponding to each set of devices to be controlled and that after the first the pair of control relays associated with a set of devices in one of the relay groups, the first relay of the.

   pair of corresponding control relays in the other group of relays will be energized and then the second relays of these pairs of control relays in the two groups of control relays will be simultaneously energized.



  The appended drawing represents, by way of example, an embodiment of the object of the invention.



  Figs. 1 to 3 show the parts of it belonging to the command post and serving cry at the same time ù. the monitoring of control operations, while FIGS. 4 to 7 give the parts located at the substation to the sets of devices to be controlled. Referring to fig. 1 of this drawing, relays 100 to 1'2: 3 constitute the group of control relays at the control and monitoring station, arranged in pairs corresponding to the sets of devices to be controlled.

   Relay 12.1 is slow-acting, ie relays 125 to <B> 127 </B> are relays which are controlled by certain operations of the control relays. An IL key is of the ordinary single movement type without locking device.



  In f ig. 2, a key K 'is of a double switching type. There is one such key for each set of devices you want to control. Keys such as_K 'are constructed to get stuck in a certain position when pressed. In this way, in order to force the springs 218 and 221 into engagement with their working contacts and the springs 219 and 222 out of engagement with their rest contacts, it is necessary to turn the drive shaft 220. When the key is moved in the opposite direction, the springs are returned to the position shown. The key is a form of rotary switch.



  The trigger 290, the closure 200 and the click device 201 are types of calling devices similar to those used in automatic telephony, set up so that it is only possible to produce a number of calls. no more interruptions with any of these. Device 200 is set up to produce two interrupts in the control circuit, device 201 will produce four interrupts and device 290 six interrupts.

   Each of these devices can be set up for this purpose by taking the ordinary calling device and placing a dowel in the particular finger hole needed, then covering the other finger holes with a cover so that it is necessary to use. of the ankle to actuate the device. Relays 202 to 206 are associated with each key, such as T '. The relays 202 and '? 03 have their armatures mechanically interlocked so that when the relay 20? works and is de-energized,

      the armatures 223 and '2? 4 are maintained in their operative position by the locking action of the mature arm 225 of the relay 2t13 .. The armatures of the relays 20I and 2'U5 are arranged so that, when the relay 20-1 is energized and de-energized, the armatures 228, <B> 229 </B> and 23l1 are held in their attractive position by the action of the armature 231 of the relay 205.

   The action of relay 20-1 controls the action of signal devices 2-226 and <B> 2227. </B> Relay 206 is of the ordinary type of delayed action relay. Relays 207 to 216 form the group of selector relays on the monitoring buddy. The keys K1 Ii2 -and hl \ are associated with the control devices 20 (l, 201 and 290 respectively. These keys are of the ordinary type of simple locking switch.



  On the fib. 3, relays 300 to 317 constitute the control circuit at the monitoring station. The key II is of the ordinary type of simple switch without locking.



  In the fib. 1, relays .100 to -102 are associated with each circuit switch C. The relays, such as 41! 0, associated with each switch (the circuit, are slow-acting, i.e. 'they are so constructed that when their circuit is closed they require an appreciable time to be excited, and that when their circuit is open

   it takes an appreciable time to de-excite them. Relays 405 through -11-1 include relays from the selector group to the substation. Relays 500 to. 519 (fis. 5) constitute the control circuit at the substation.



  Relays 600 to 623 in fi ;. 6 constitute the group of relays <B> (the </B> command to the substation, which are also arranged in pairs like the respective relays of the command station. Relay 690 and relays F, 2-1 to 626 are ordinary tvpe and command certain operations (the cerclais (the command.



       In fig. 7, the relays 70 (ta 721 control the operation of the circuit breakers thus due to the action r ('@ fired from the control circuit @ under certain conditions as will be described later. Having briefly described the devices re presented in the drawing, we will now describe in detail their operation.

   For this purpose, it will be assumed that the circuit switch C in the substation is in the open position and that the supervisor wishes to close it. To achieve this result, the surgeon will activate the key K3 so that the springs occupy a position opposite to that shown. By this operation, the connection to the earth 'is cut off from the conductor which goes to the key K13 for reasons indicated later. To initiate the operation of the control circuit, the supervisor will activate the key K14.



  Normally a circuit is established there which passes from earth through the restraining relay 301, the closed contact and the armature 325, the closed contact and the armature 332, the communication conductor 370, the armature 520. and its rest contact, the retaining relay 506 and the armature 534 and its rest contact, to the battery. Relay 301 is energized to open the latch circuit from relay 300 to armature 321 and to open the circuit from relay 306 to armature 322.



  At the substation, relay 506 is actuated to prepare a starting circuit for armature 531, to open the circuit from relay 503 to armature 532, and for. prepare a circuit for relay 709 to. armature 530.



  When the key K14 is now lowered to the monitoring station, a circuit is completed which passes from the earth through the work contact and said spring, the armature 324 and its rest contact: and the relay 302 to the battery. The relay 302 is energized to prepare a circuit for the relay 302 by a path which extends from the. earth by armature 319 and its normally closed contact, armature 323 and its work contact che town, relay 303 and relay 302 to the battery.



  When the key K14 is released, the short circuit of relay 303 is raised, and the latter is energized. After its activation, the relay 303 opens another point of the primitive excitation circuit for the relay 302 to the armature 324 and opens to the armature 325 the restraint circuit traced above, containing the restraint relays < B> 301 </B> and 506. Relay 301 is de-energized to prepare a latching circuit for relay 300 at armature 321 and to close at armature 322 a circuit that passes from earth through armature 320 and its rest contact and relay 306 to the battery.

   Relay 306 is energized to prepare a close point in mature rear control circuit 329.



  At the substation, relay 506 is de-energized to prepare a latch circuit for relay 509 at armature 530, to prepare a circuit for start relay 708 at armature 531, and to close at. the armature 532 a circuit which passes from the earth through the armature 539 and its rest contact, the armature 532 and its rest contact and the relay 503 to the battery. Relay 503 is energized to close the control circuit to armature 525.



  The control circuit path now extends from battery B through armature 340 and its normally closed contact, line relay 313, armature 350 and its closed contact, armature 329 and its contact pin , the armature 331 and its rest contact, the connection conductor 372, the armature 523 and its rest contact, the armature 524 and its rest contact, the armature 525 and its contact pin. work, armature 541 and its rest contact, line relay 514 and armature 553 and its rest contact to earth. Line relays 313 and 514 are energized by the aforesaid circuft.



  Line relay 313 is actuated to close a circuit for relay 311 and rear 341. Relay 311 is actuated to open at one point the latch circuit of relays 314 and 315 to armature 336 and to close a circuit to armature 337 which passes from earth through armature 18-1 and its rest contact, conductor 24, armature 342 and its rest contact, armature 337 and its working contact elieville, relay 312 and relay 311 to the battery. Relay 312 is not energized as long as the primitive drive circuit for relay 311 is held.



  At the substation, line relay 514 after its actuation establishes a circuit for relay 516 and armature 551, and arm 550 closes a circuit for relay 505. Relay 516 is actuated for open at one point the interlock circuit of relays 512 and 513, and to establish a circuit to the armature <B> 557 </B> for a path which extends from the earth through the armature 687 and its contact rest, conductor .169, armature 548 and its rest contact, armature 557 and its work contact pin, relay 515 and relay 516 to the battery. Relay 515 is not actuated due to being shorted as long as the primitive drive circuit of relay 516 is closed.



  Relay 505 is actuated to establish a latch circuit for itself to ar mature 529 and to complete a circuit which passes from earth through armature 528 and its normally closed contact, conductor 454, armature 682 and its rest contact, armature 631 and its rest contact, conductor 454, armature 682 and its rest contact, armature 631-and its rest contact, control relay 600, l armature 684 and its rest contact, armature 680 and its rest contact, and armature 683 and its rest contact to the battery.



  The control relay 600 is energized by the aforesaid circuit and it causes the establishment of a circuit to the armature 637 which passes from the earth through the armature 686 and its rest contact, the armature 627 and its pin. contact <B> (the </B> work, relay 601, relay 600, armature 684 and its rest contact, mature arm 680 and its rest contact, and mature arm 683 and its Normally closed contact to the battery This circuit has no effect as long as the primitive excitation circuit for relay 600 is maintained.



  Another result of the operation of the relay 600 is that the armature 628 is closed a circuit which passes from the earth through the armature: ï44 and its contact <B> (the </B> rest, the conductor 453 , armature 628 and its normally closed contact, armature 633 and its closed contact, conductor 452, relay 502 and armature 526 and its closed contact, to the battery. Relay 502 is actuated to open the circuits of line relays 514 and 313 at armaz, ture 524.



  The relay 313 is de-energized to remove the short-circuit of the relay 312. The relay 312 is actuated to cut the circuit of the relay 313 at another point, at the armature 340, to cut the circuit of the relay 311 at another point at another point. armature 339, and to complete a circuit to armature 338 by a path which extends from ground to conductor grounded 24 by armature 338 and its make contact pin, and relay 317 to battery. Relay 317 is actuated <B> </B> to prepare a circuit for line relay 316 at armature 350, and to establish a latch circuit for itself at armature 351.



  Line relay 51-1 at the substation being de-energized opens the primitive excitation circuit for relay 505 to armature 550, and clears to armature 551 the short circuit of relay 515. Relay <B > 515 </B> is actuated to open at another point the initial output circuit from relay <B> 516 </B> to armature 55 \ 2, to open the relay circuit at another point from line 514 to armature 553, 'to disconnect the battery from conductor 458 to ar mature 554 and to complete a circuit to armature 555 for relay 510.



  Relay 510 is actuated to establish a latch circuit for itself at armature 542, to complete a circuit for relay 504 to armature 540 and to prepare the control circuit for armature 5.11. The relay 504 is energized to open the circuit of the relay 502 to the armature 526, and to establish a latch circuit for itself at the armature 527. The interruption of the circuit of the relay 502 causes the. keyexitation of this relay to complete circuit <B> (the </B> command.



  The control circuit then follows a path which extends from earth through armature 346 and its normally closed contact, line relay 316, armature 350 and its work constant pin, armature 329 and its contact. working contact peg, armature 331 and its rest contact, connection conductor 3 72, armature 523 and its rest contact, mature arm 524 and its rest contact, flour 525 and its work contact pin, armature 541 and its work contact pin, line relay 511 and armature 547 and its rest contact to the battery.

   Line relays 316 and 511 are energized by the above circuit.



  After being activated, relay 316 completes armature 349 with a circuit for relay 314 and earths, at Par- \ mature 348, conductor 23. Relay 314 acts to open the circuits of relays 311. and 312 to the armature 342 and prepares for the armature 343 a circuit for the relay 315. The relay 312 is de-energized to connect the earth to the conductor 22 to the armature 338, to prepare a circuit for the relay 311 to the 'arinatur e 339 and to prepare a circuit for line relay 313 to armature 340.

   The relay 311 is de-energized to open the circuit of the relay 312 and to complete a circuit which passes through the conductor 24 connected to the earth, by the mature artery 336 and its repps contact, the armature 343 and its contact pin. working, relay 315 and relay 314 to the battery. This circuit is not active from the point of view of energizing relay 315 as long as the primitive energizing circuit for relay 311 is. maintained.



  The earthing of the conductor <B> 213 </B> completes a circuit which passes from the earth through the ar mature 188 and its closed contact, the armature 151 and its closed contact, the relay 111 , armature 185 and its rest contact, mature arm 158 and its rest contact, and armature 187 and its rest contact ü, the battery.

    The control relay 111 is energized by the aforesaid circuit and acts to complete a circuit cooked to the armature 154 which passes from the earth through the armature 183 and its rest contact, the armature 154 and its pin to the working contact. , relay 110, relay <B> 111, </B> armature 185 and its normally closed contact, armature 158 and its closed contact and armature 187 but 110 is not energized before due the primitive excitation circuit of relay 111 is not open.



  Another result of the operation of the relay 111 is that a circuit is connected to the armature 155, which circuit passes through the conductor 24 connected to earth, through the armature 338 and its rest contact, the conductor 222, armature 155 and its working contact pin, armature 153 and its rest contact, conductor 21, armature 326 and its rest contact, and relay 307. to the battery.

    The relay 307 is energized to open the circuit from the delayed action relay 305 to the armature 330, to connect the battery to the conductor 9 to the. contact pin of this armature, to open the circuits of line relays 316 and 511 to armature 331 and to prepare a latch circuit for itself at armature 395. By connecting the battery to conductor 29, a circuit prepare for selector relay 216.



  Line relay 316 is de-energized to open the circuit previously drawn for control relay 111 to armature 345 and to clear the short circuit from relay 315 to armature 349. Relay 315 is actuated to open a point of the armature. relay circuit <B> 316, </B> to armature <3.16, to open another point in the primitive excitation circuit of relay 314 to armature 345 and to prepare a locking circuit at the armature 344 for relay 304.

   A further result of the failure of relay 315 is that the latch circuit of relay 317 is open and this relay is de-energized to prepare a circuit for relay <B> of </B> line 313.



  When the primitive circuit of relay 111 is open, the short circuit is released from relay 110 and this relay can open. The relay 110 opens after its activation at another point the original excitation circuit of the relay 111 to the armature 151,

       prepares a circuit for control relay 123 to armature 150 and completes a wax to armature 1-19 which passes from ground to armature <B> 177 </B> and its normally closed contact, the frame 149 and; a rlie- the battery. Relay <B> 1227 </B> is energized to link the control circuit to relay 123 at armature 188.



       Another result of the operation of relay 110 is that a circuit is completed to armature 15: 3, which passes from earth through armature 18û and its normally closed contact, Par- mature <B> 1.52 </B> and its working contact pin, the conductor 10 and the relay û08 to the battery.



  Yet another result of the operation of relay 110 is that the relay û07 circuit is open at armature 153. The relay <B> 307 </B> is de-energized to cut the connection between the battery and the conductor. 2: 3, to again complete the circuit from the slow-acting relay 305 to the armature 330, and to close the control circuit to the rear 331. The relay 308 is energized to connect the signal conductors 370 and <B> 371 </B> to conductors 31 and 30, respectively, which go to the multiple contacts of the various selector relays 20 "r through 216.

   In the ordinary selection operation, the delayed action relay 305 is not de-energized, while the relay 307 is energized.



       t1 the substation, line relay 511 is actuated to complete a circuit for relay 513. Relay 513 is energized to open the circuit of relays 515 and 516 to ar mature 548 and to prepare a circuit for the relay 512 to reinforcement 5.19. Relay 515 is de-energized to prepare a circuit for relay <B> 51.6 </B> at armature 552, to prepare a circuit for relay 514 to. armature 553, to connect the battery to conductor 458 to armature 554 and to open the primitive excitation circuit of the relay: J10 to armature 555.



       L (# relay <B> 516 </B> is de-energized to open the circuit from relay 515 to armature <B> 575 </B> and to complete <<armature 556 a circuit that does not. read conductor 469 connected to earth by an armature 556 and soli contact of rest, arm.itnre 519 and.

   his work contact ankle. <B> the </B> relay 5l? and 1 (: relay <B> 513 </B> to bat- tc # ri (#. Cu circuit does not energize relay 512 as long as the primitive energize circuit for relay <B> 513 </B> is maintained.



  When the circuit of the line relay 511 is open, as previously described, this relay is de-energized to remove the short-circuit of the relay 512. Following its operation, the relay 512 cuts it off. update. conductor earth -153 to armature 54.1, opens the latching circuit of relay 505 to armature 545, opens another point in the primitive excitation circuit of relay 513 to armature 546 and opens to the The armature 54 of the line relay 511 circuit. By cutting the ground of the conductor 453, the relay circuit 502 is opened at another point.



  Relay 505 is de-energized to cut off the earth of conductor 454, thus opening the primitive excitation circuit of control relay 600. Control relay 601 is immediately activated due to the fact that the interruption of the relay 600 circuit also clears the short circuit of relay 601. Relay 601 in operation opens another point in the primitive excitation circuit from relay 600 to armature 631, prepares a circuit for control relay 612 to the armature 630, and completes to the armature 629 a circuit which passes from the earth through the armature 658 and its rest contact. ar mature 629 and its work contact pin, and relay 690 to the battery.

   The relay 690 is energized to prepare the closing of the control circuit containing the relay (. The control 612 to the armature 682.



  It also results from the operation of the relay 601 that a circuit is completed to the mature artery 632, which passes from the earth through the armature 686 and its rest contact. the armature 632 and its rest contact, the conductor 451 and the relay 500 to the battery.



  Another result. The operation of relay 601 is that the circuit of relay 502 is open at armature 633. Relay 500 is actuated to connect the conductors (signaling; 370 and <B> 371 </B> to inverters l:)! @ and -163, respectivenieiit, upright (the arnia- tures 521 and 520.

        The operation of the control relay 601 also completes a circuit which passes from the earth through the armature 668 and its rest contact, the armature 640 and its work contact pin, the conductor 456. and relay 519 to the battery. Relay-515 is actuated to complete a circuit for relay 517 to armature 560. Relay 517 is energized to open the latch circuit from relay 510 to armature 558. Relay 510 is de-energized to prepare a circuit. for the release of line 514.



  The control circuit is now established from the battery by armature 340 and its rest contact, line relay 313, armature 350 and its rest contact, armature 340, line relay -313 , armature 350 and its rest contact, armature 329 and its work contact pin, armature 331 and its rest contact, conductor 372, armature 523 and its rest contact, armature 524 and its normally closed contact, armature 525 and its work contact pin, armature 541 and its rest contact, line relay 514 and armature 553 and its rest contact to earth . Line relays <B> 313 </B> and 314 are energized by this circuit.



  Relay 313, in operation, completes a circuit for relay <B> 311. </B> Relay 311 is energized to prepare a circuit for relay 312 and to open circuits for relay 314 and 315. Relay 315 is de-energized to prepare a circuit for relay 316 and to open the latch circuit for relay 301 at one point. Relay 304 is de-energized to complete the circuit for relay 312. This circuit has no effect until the circuit is de-energized. of relay 311 is opened by de-energizing relay <B> 313. </B>



  At the substation, relay 514 is activated to complete a circuit for relay 51.6. Relay 516 is energized to turn the circuit of relays 512 and 513. Relay 512 is de-energized to prepare a circuit for relay 511 to armature 547 and to connect conductor 453 to ground to ar mature. 544. Relay <B> 513 </B> is de-energized to complete a circuit for relay 515. This relay is not energized until the primitive energizing circuit for relay 516 is held.



  Another result of the operation of relay 514 is that a circuit is closed for relay 505. Relay 505 acts to establish a latch circuit for itself to ar mature 529 and to connect conductor 454 to ground. As a result of the earthing of the .154 conductor, a circuit is completed, extending from the earth through armature 68 2 and its work contact pin, armature 530 and its work contact pin. , armature 660 and its normally closed contact, relay 612, armature 684 and its closed contact, armature 680 and its closed contact, and armature 683 and its closed contact at drums.



  The relay 612 is energized by the aforesaid circuit and acts to cut the ground of the conductor 456 to the armature 668, to prepare a circuit for the relay 613 to the armature 656 and to complete a circuit to the armature. 'ar mature 655 which passes from the conductor 453 hardly connected to the earth by the de-energization of the relay 512, by the armature 655 and its working contact plug, the armature <B> 657 </B> <I > ut </I> its rest contact, the conductor 45 ?, the relay 502, the armature 526 and its rest contact on the battery. Relay 502 is energized to open the circuit from line relays <B> 313 </B> and 514 to armature 524.



  Relay 51-1 is de-energized to clear the short circuit of relay 515. Relay 515 is actuated to cut the connection between the battery and conductor 458 to armature 554 and to complete a circuit for relay 510 to l armature 555. Relay <B> 510 </B> is actuated to establish a latch circuit for itself at armature 542 and to prepare a circuit for the relay (line 511 to armature 541.

   It further results from the operation of relay 510 that the circuit of relay 5 () 1 is completed. Relay 501 is actuated to establish a latch circuit for itself at armature <B> 5-27. </B> and to open the circuit of relay 502 at armature 526. Relay 502 is de-energized to prepare a circuit. for line relay 511. At the control station, when line relay 313 is de-energized, it cancels the short-circuit of relay 312.

   The relay 312 is then actuated to cut the earthing of the conductor 22 to the armature 338 and to complete the circuit of the relay 317 to the work contact pin of this armature. Relay 317 is energized to establish a latch circuit for itself at armature 351 and to prepare a circuit for line relay 316. The control circuit is then completed and line relays 316 and 511 are energized. series.



       A, following its operation, the line relays 316 connects the conductor 23 to the earth at. armature 348 and completes armature 349 with a circuit for relay 314. Relay 31.1 is actuated to open the circuit of relays 311 and 312 and to prepare the circuit for relay 315. Relay 312 is de-energized for open the primary explanation circuit of relay 317 to. armature 338. Relay 311 is de-energized to complete a circuit for relay 315. Relay 315 is shorted as long as the primitive excitation circuit of relay 314 is closed.



  The earthing of the conductor 23 completes a circuit which passes from this conductor through the armature 188 and its work contact pin, the armature 150 and its work contact pin, the armature 179 and its contact. rest, the control relay 123, the armature 185 and its rest contact, the mature arm 158 and its contact. idle, the <B> 187 </B> armor and its idle contact to the battery.

    Relay 123 is energized to complete a circuit for relay 1-) 2 to armature 182 and to complete a circuit to armature 181, which extends from conductor 22 connected to ground, through armature 181 and its working contact pin, the armature 176 and its rest contact, the conductor 21, the armature 326 and its rest contact, and the relay 307 to the battery. Relay 307 is energized to open the control circuit to the armature: i31, to connect the battery to conductor 29 to armature 3:

  311, (#t to establish an eir- ture 395 by a path which extends from the conductor connected to earth 24 by the armature â97 and its rest côntact, the armature 398 and its rest contact, the armature 396 and its make contact plug, armature 395 and its work contact pin, and relay <B> 307 </B> to the battery. r1 the substation, line relay 511 is operated by current from conductor <B> 372 </B> to complete a circuit for relay <B> 513. </B> Relay 513 is energized to open the circuits of relays 515 and 516 and to prepare a circuit for relays 512.

   Relay 515 is de-energized to prepare a circuit for relay 514 and to open the primitive drive circuit for relay 510. Relays 516 are de-energized to complete a circuit for relay 512. Relay 512 is shorted. as long as the primitive excitation circuit of relay <B> 513 </B> is maintained. Finally, the battery is connected to the conductor 458 as a result of the de-energization of the relay 515.



  When the control circuit is cut: as described above, the line relay 316 at the monitoring station is de-energized by the lack of current in the conductor <B> 372 </B> to cut the earth of the conductor 23 and to remove the short-circuit of relay 315.. The relay 315 is actuated to prepare a locking circuit for the relay 30.1 to the rear 344 and to open the circuit of the relay 316 at another point. It further results from the operation of the relay 315 that the locking circuit of relay 317 is open. Relay 317 is de-energized to prepare a circuit for line relay 313.



  By cutting the earth of the conductor 23, the short circuit of the relay 122 is raised and this relay is actuated. During its operation, the relay 122 opens the primitive excitation circuit (read relay <B> 123 </B> to the armature 179, prepares a circuit for the control relay 109 to the armature 178, opens the circuit of relay 127 to armature <B> 177, </B> opens the circuit, primitive excitation of relay 307 to a circuit extending from earth through armature 183 and its contact of rest, the armature 147- and its normally closed contact, the armature 180 and its working contact pin, the conductor 20, the selector relay 2.1.6, the conductor 29,

   the armature 330 and its working contact pin to the battery.



  The selector relay <B> 2 </B> 16 is energized by the aforesaid circuit and acts to prepare a circuit for the signal device 243 at res. 270, to prepare a signal circuit for the spring 271, to prepare a circuit of auxiliary control to the spring 272 and to prepare a circuit for connecting the conductor 27 to the earth at the location of the res out 273 ..



  When relay 307 is energized, as described above, the circuit of delayed action relay 305 is opened and this relay is de-energized, after an interval of time, to close a circuit which extends from ground through armature 328 and its rest contact, the conductor 28, the spring <B> 2 </B> 70 and its working contact, and the signal device 243 to. drums. The action of the signal device informs the supervisor of the selection operation and that the signal devices 226 and 227 are connected to said signaling circuit.



  At the substation, line relay 511 is de-energized due to the fact that its circuit is cut off by the action of relay 307. Relay 511 is de-energized to clear the short circuit of relay 51 \ 3. After its activation, the relay 512 opens at one point the circuit from relay 511 to armature 547, at another point opens the primary excitation circuit of relay 513 to armature 546, opens the circuit latching relays 504 and 505 to armature 545 and cuts to, armature 544 the ground of conductor 453.



  Relay 505 is immediately de-energized to cut the ground of conductor 454. Interruption of ground of conductor 454 causes relay <B> 613 </B> to energize due to the fact that the short circuit of this relay is removed. After its activation, the relay 613 at one point opens the primitive excitation circuit from the relay 612 to the armature 660, prepares a circuit for the counter relay 602 to the armature 659, opens the circuit. from relay 690 to. armature 658, and opens to armature 657 the circuit connecting conductor 452 to earth.



  From the operation of relay 613, it further follows that a circuit is completed which extends from ground through armature 686 and its contact. rest, armature 634 and its rest contact, armature 661 and its make contact pin, conductor 472, selection relay 405, conductor .158, armature 554 and its contact contact. battery rest. The selector relay 405 is actuated to connect the conductors 459 and .157 through the springs 428 and 427 respectively, to prepare a signaling circuit for the springs .126 and to prepare control circuits to the springs 424 and .1 \ 35.



  Grounding conductor 459 completes a circuit for relay <B> 706. </B> Relay 706 is thus energized to prepare a circuit. for relay 700 to armature ï32. The update. Ground conductor 45 causes relay 518 to energize. Relay 518 is actuated to complete a circuit for relay 517. Relay 517 is energized to open relay 510 latch circuit.

   Relay 510 is de-energized to open the circuit from relay 50.1 to armature 5.10 and to prepare a circuit for line relay: 514 to armature 541. Relay 504 is de-energized to prepare a circuit for relay 502.



       Lc.s operations :, by which the selector rel.iis 405 is energized, are produced by the operation of the relay 307 of the. same way as the operations by which the selector relay 21.6 is energized. The relays 216 and -105 are thus energized sensiblem (#nt simultaneously.



  It should be remembered here that the supervisor wishes to close circuit switch G in order to initiate certain operations at the substation. To accomplish this result. when the supervisor is informed by the operation of signal device 243 that the selection operation is complete, he will act. the control device 200.

   As the key Ii 'has been previously activated by the supervisor, a circuit is completed, when the selector relays 216 and 405 are activated, which extends from the earth by the resources thereof. key Ii ', the springs of the control device 200, the working contact of the spring 218 and said spring, the armature 224 and its working contact pin, the working contact of the spring 272 and said spring, the conductor 31 , armature 332 and its work contact pin, conductor 370, ar mature 520-et sa, contact peg, conductor 463, relay 700, armature 732 and work contact pin to the battery.

    The relay 700 is energized by the aforesaid circuit and opens the circuit of the delayed action relay 702 to the armature 722, and prepares a pulsating circuit at the work contact pin of this armature. It further results from the operation of the relay 700 that a circuit is completed for the delayed action relay 702 to the armature 724. When the delayed action relay 70 \ 3 is de-energized after a small time interval, a circuit is. prepared to connect conductors 460 and 462 to earth. The relay at. delayed action 701 is energized to prepare a circuit for counter relay 711 to armature 725.



  When the controller 200 is now actuated, two inteiruptions are produced in the circuit containing the relay 700 at the substation. After the first de-energization of the relay 700, the circuit of the delayed action relay 701 is opened to the armature 724, and a pulse is sent, to the rest contact of this armature, by a circuit which extends from the earth. by the armature 724 and its work contact pin, the armature 725 and its pin (the work contact, the armature 738 and its normally-open contact, the relay <B> (the, </B> command 711, Armature 753 and its normally closed contact, armature 731 and its closed contact,

   and armature 727 and its rest contact to the battery.



  Relay 711 is energized by the circuit traced above and completes a circuit extending from the. earth by armature 729 and its normally closed contact, armature 740 and its working contact socket, relay 710, relay 711, armature 753 and its closed contact, armature 731 and its contact rest, the <B> 727 </B> armature and its rest contact on the battery. Relay 710 is not energized due to the fact that it is not energized in the proper direction to be energized as long as the original energizing circuit of relay <B> 711 </B> is closed. It further results from the first interruption of the drive circuit of the relay 700 that a circuit is completed for the delayed action relay 702.

    Relay 702 is energized to open the control circuit.



  When the relay 700 is energized, the primitive circuit of the relay 711 is opened to the rear 724 and also the circuit of the delayed action relay 702 to the armature 729. As a result of the interruption of the primitive circuit of the relay 711 , relay 710 can be actuated in the desired direction. During operation, which is now established, relay 710 connects conductor 468 to earth at armature 73q. Prepares a circuit for the control relay 713 to the armature 738 and a circuif, for the relay 703 to the armature 737.



  Grounding of the .188 conductor causes the chi relay 501 to energize. Relay 501 is energized to complete a latch circuit for itself at armature 522 and to open at another point. the control circuit to the armature 523. The relay 501 latch circuit extends from the battery through the relay 501, the armature 522 and <B> its </B> contact pin, the conductor .167, armature 728 and its rest contact to earth.



  After the following de-energization of the rel @ iis 700, a circuit is completed which extends from the earth through the armature 7-24 and its rest contact, the armature 725 and its working contact pin, the armature 724 and its rest contact, the relay <B> 713, </B> the armature <B> 753 </B> and its rest contact, the armature 7,31 and its contact rest, the <B> 727 </B> armature and its rest contact to the battery.

   The relay 713 is ex cited by this circuit and completes a circuit extending from the earth by the armature 729 and its normally closed contact, the armature 743 and its working contact pin, the relay 712, the relays 713, the armature 753 'and its rest contact, the armature 731 and its rest contact to the battery. This circuit is not active as long as the primitive excitation circuit for relay 713 is maintained.



  When the relay 700 is energized at the end of this series of pulses; the relay circuit 713 is open and, as described above in connection with the relay 710, the relay 712 is then enabled to operate and to prepare a circuit to connect the conductor 460 to earth. The delayed action relay 702 is kept energized during interruptions produced in the circuit of the relay 700 due to its delayed action. When, however, relay 700 is energized at the end of the series of pulses, the relay circuit 702 is opened and this relay is de-energized.



  A circuit is now completed which extends from earth through armature 722 and its work contact peg, armature 72G and its rest contact, armature 741 and its work contact peg, armature 744 and its normally closed contact, the conductor 460, the spring 425 and its working contact, the armature 418 and its working contact pin, and the relay 401 to the battery. The relay 401 completes the armature 420 with a circuit for the closing coil 404 of the circuit breaker C. this circuit comprising the auxiliary switch 423. The closing coil 404 closes the switch.



  When the circuit switch is closed, the closing coil circuit 404 is opened by the auxiliary switch 423 and the delayed action relay circuit 100 is opened by the auxiliary switch 422, and a circuit is momentarily turned on. B> plete </B> which extends from the earth by said auxiliary switch, the armature 415 and its contact plug, the conductor 455, the armature 531 and its rest contact, the conductor 465 , armature 733 and its break contact and relay 7 (l8 to la.

       t> atteric. Relay 708 is energized to complete a circuit extending from earth through armature <B> 736 </B> and its rcpoa contact, armature 735 and. its working contact pin, the <B> 707 </B> relay and the 708 relay to the battery. This circuit has no effect until the circuit (the primitive excitation for relay <B> 708 </B> is opened.



  The slow-action relay 400 is de-energized after a small time interval to connect the battery to the conductor 450 to the magnet 419, to open the circuit from relay 4111 to the frame 418, to prepare a circuit for the relay -10 \ 3 to armature 417, and to open <B> the </B> main excitation circuit of relay 708 to armature .115. This last action allows relay 707 to be actuated to open at another point the primitive circuit from relay 708 to armature 733.

    and to connect, to the reinforcement 73-1, the conductor -155 to the earth.



  When the battery is connected to the conductor 450, a circuit is completed which extends through said conductor, the armature 5'21 and <B> its </B> working contact pin, the main conductor '371, the armature 333 and its work contact pin, conductor 30, res outputs <B> 271 </B> and its work contact, armature 232 and its rest contact, and relay 205 to earth. The relay 205 is energized to attract the armature 231 so that the armatures 228, 229 and 230 of the relay 20-1 can take up their normal position.



  As a result (the operation of the armature 228, the circuit of the signal device 227 is opened and a circuit is completed for the signal device <B> 226. </B> The operation of the armature 229 completes a circuit for the delayed action relay <B> 206, </B> while Ic # operation of the armature 230 opens the circuit known as relay 2l) 2 at one point.



  Relay <B> 206 </B> is actuated to open the circuit. of relay 20: i, to prepare a circuit for relay 20-t to armature 232 <B> and </B> to complete a circuit to armature <B> 233. </B> which is extends the earth through spring 221 and its make contact, armature 233 and its work contact pin and relay '103 to the battery. Relay 205 is de-energized to let its armature return 31 to position normal.

   Relay 20: 3 is energized to attract armature 35, thereby allowing armatures 2 3 and 2 4 of relay 202 to return to their normal positions.



  As a result of the operation (on the armature 224, a circuit is prepared to connect the controller 201 to the control circuit, and the circuit of the relay 700 at the substation is opened. As a result of the operation of the armature 223, the earth is connected to the conductor 27 by a circuit which extends from the earth by the spring 221 and its working contact in the key K ', the armature 223 and its rest contact, the springs of the key K '. The working contact of spring 273 and said spring to the conductor 27.

      By setting. the. conductor earth 27- i1 has closed a circuit for relay 309 and the latter completes a circuit for relay 304 to armature 334, and opens the latch circuit for relay 307 to armature 397. Relay 304 is actuated to open at one point the primitive excitation circuit from relay 307 to armature 326 and to establish a circuit (the latch for itself to ar mature 327. Relay 307 is de-energized to cut the. connection between battery and lead 29, to complete a circuit for the delayed action relay 305 to armature 330, and to complete the control circuit to armature 331.



  When the battery is <B> cut off (111 conductor 29, the circuit (11i selector relay 216 is open and this relay is (unexcited polish open the control and signal circuits to re, q #, orts 271 and 272, to open the circuit of (signal device 243 to spring 270 and to open the circuit of relay 309 to res- çor1: 273.

   Relay 309 is de-energized polish open circuit (primii.if excitation (read 309- to armature 33-4 and polish prepare 11n interlock circuit for <B> </B> relay 307 to frame 397.



  When the circuit (111 i'elaiS <B> 700 </B> is or green, as previously described, this relay is de-energized. Following the recall of armature 722 the earthing connection of the conductor 460 is cut and a circuit for relay 702 is completed. Recalling rear 724 opens the circuit for delayed action relay 701 and completes a circuit for selector relay 715. This relay is actuated to prepare a circuit for relay. relay 714. When the delayed action relay 701 is open, the relay 71-1 is actuated to prepare a circuit for the relay 717.

   The operation of relays 714 and 715 has no particular effect at this time.



  By de-energizing relay 701. a circuit is completed which extends from the earth through armature 724 and its rest contact, ar mature 725 and its rest contact, relay 703, armature 737 and its contact pin (working on the battery. The relay 703 opens after its activation the circuit of the control relays 710 to 715, to the armature 727, and cuts to the armature 728 the earthing of the conductor .167 Relays 710 to 715 are de-energized to restore certain circuits to the normal state.



  As a result of the de-energization of relay 710, the connection of conductor 46'8 to. the. earth is cut, the original relay excitation circuit thus being open. Deactivation of relay 710 also opens the circuit of relay 703. Interruption of the earthing of conductor 167 as a result of energizing relay 703 opens the latch circuit of relay 501.

   Relay 501 is de-energized to complete the control circuit. Relay 703 is de-energized polish prepare some circuits. Line relays 313 and 314 are now energized in series.



  The control circuit now acts (in the manner described for controlling the action (relays 109, 108, 121, 120, 107, 10 \. 119, 11.8, 10 <B> 5 </B>, 101, 117, 116, 103, 102. 11a, 119-, 101, 100, 113 and 112 in the order listed. As a result of the operation of these relays (the control up to relay 100 inclusive, the selected relays) are action born in the following order: 215, 21-1, 21 ".? 12, 211, 210, 209, 208 and 207.

        <B> A </B> the substation, the control circuit supplied with current produces the operation of control relays 602, 6 (Y3, 614, 615, 604, 605, 616, 617, 606, <B > 607, </B> 618, 619, 608, 609, 620, 621, 610, 611; 622 and 623. The operation of the control relays up to and including relay 611 causes the action of the selector relays in the 'following order: 406, 407, 408, 409, 410, 411, 412, 413 and .114.



  During the operation of the selector relays, the control and signal circuits operate in a manner similar to that already described. That is to say, if the supervisor wishes to control another circuit switch, the key corresponding to this switch at the monitoring station, similar to the key K '\, will be activated. By this operation, the control circuit is prevented from acting until the supervisor has actuated this switch and has received a response signal indicating its operation.



  In the event that the supervisor has not carried out other control operations, the selection operation will take place depending on the control circuit. The operation of the selector relays in each case, however, closes signal circuits for relays so inili tary to relays 2 (Y4 and 205 at the monitoring station so that the condition of the signal devices, similar to devices 226 and 227, is checked to ensure that these signal devices indicate the exact condition of their corresponding circuit switches.

   If, for any reason :-) n, the conditions of the signal devices and the circuit switch do not match, the signal circuit will be completed to energize a relay, such as 2 (1-1 or 205 , to produce the necessary signal change.



  As it does not take an appreciable time to establish the signal circuit and change the signal devices, it is not necessary to interrupt the operation of the control circuit until these signals are received, and this especially in consideration of the fact that the selector relays corresponding to the monitoring station and to the substation are energized substantially simultaneously so that the signal circuit is closed to. both at the monitoring station and at the substation.



  When relay 113 is energized by the operation of line relay 316, the selector relay circuit 207 is opened at armature 161, a circuit is completed for relay 112 at the work contact pin of that armature and a circuit is completed at armature 160, which circuit extends from earth through conductor connected to earth 24, through armature 338 and its reset contact, conductor? 2, armature <B> 160 </B> and soi rest contact, armature 156 and its rest contact, conductor 21, armature <B> \ 26 </B> and its rest contact, and relay 3U7 to drums.



  The relay <B> 307 </B> is energized to open the circuit of the delayed action relay 305 to the rear 330, to connect the battery to the lead 29 at the work contact pin of this armature and to open the control cir cuit to the armature 831. By or vrant the control circuit, the relay 31ti is de-energized and the relay 112 put in a state to be actuated.



  Relay 112, when actuated, clears the short of relay 125 to armature 158, opens circuit of relay 127 to armature <B> 157, </B> and opens to armature 156 the primitive excitation circuit known as relay 307.

   The relay 125 is actuated to supplement a circuit cooked to the armature 136 for the delayed action relay 12-1. The 1M delayed action relay is thus energized to open the circuits of all relays 100 to 123 and from relay 125 to armature 183.

   to cut the earthing of the conductor 24 to the armature 184 and to connect the conductor 25 to the earth by the work plug of this armature. The control relays 100 to 123 are de-energized to restore the normal condition of their circuits. Relay <B> 1-25 </B> is de-energized to open the circuit of delayed action relay 124.



  Interrupting the earth, called conductor 2-1, has the effect of opening the circuits of relays 1314 and 315, and also the circuit of relay 317. These relays are de-energized to restore the normal state. of certain circuits. By connecting conductor 2à to earth, relay <B> 300 </B> is energized. Relay 3U0 establishes a latch circuit <B> 1 </B> for itself at armature 318, opens the circuit of relays 302 and <B> 303 </B> at armature 3. ï9 and opens the circuit from relay <B> 306 </B> to armature 320.

   Relay 306 is de-energized to open the control circuit at one point.



  Relay <B> 302 </B> is de-energized to open the 3U3 relay circuit at one point. Relay 303 is de-energized to prepare a circuit for the restraining relay <B> 301 </B> at armature 325. As a result of the interruption of the grounding of conductor 24, the locking circuit of the conductor. 3U relay 7 is open and this relay is de-energized to complete a circuit for the delayed action relay <B> 305 </B> and to disconnect the battery connection to the driver 29.

   The previously described de-energization of control relay 110 produces de-energization of relay <B> 308. </B> The armature of relay 308 is recalled to open certain points in the signal and control circuits and to prepare. a circuit for the restraint relay 301.



  At the substation, relay 623 is energized indirectly by the action of line relay 51.1. That is, line relay 511. is energized to complete a circuit for relay 513. Relay <B> 51.3 </B> is actuated to prepare a circuit for relay 512. When the circuit control is opened by the activation of relay <B> 307, </B> as above, relay 511 is de-energized, the short-circuit of relay 512 being thus removed. Relay 512 is actuated to open the latch circuit of relay 505. Relay 505 is de-energized to clear the short circuit. of relay G? 3.



       When relay 623 is actuated, it clears the short circuit of relay G35 to armature 680, opens the circuit of relay 690 to armature 679, and opens to armature <B> 678 </B> a relay circuit point 502.

       When relay 6? 5 is actuated, it completes a circuit for the delayed action relay% 2C to the armature <B> 68.5. </B> The delayed action relay <B> 626 </B> opens the cir baked relays <B> 600 </B> and <B> 62-3 </B> and relay 6? 5 cuts, through armature 686, the connection of conductor 469 to earth at armature <B > 687, </B> and connects conductor 466 to earth via the working contact pin of this armature. Counter relays <B> 600 </B> to <B> 623 </B> are de-energized to restore the normal state of certain circuits.

   Relay <B> 625 </B> is de-energized to open the circuit of slow-action relay 626.



  The circuits of relays <B> 512 </B> and 513 are caused to open as a result of the interruption of the earth connection of conductor 469. These relays are de-energized to restore the normal state of certain circuits. . The excitement. of relay G? 6 has the effect of opening the circuit of relay 500 and this relay is de-energized to or to turn at certain points the signal and control circuits and to prepare a retention circuit for relay 506.



  The ground connection of conductor 466 completes a circuit for relay <B> 509. </B> Relay 5U9 is energized to establish a latch circuit for itself at armature 537, to open the circuit of relay i> 07 and 508 to armature 538,

          and to open the circuit of relay 503 <B> a </B> Farniature 539. Relay <B> 508 </B> is de-energized to open the circuit of relay <B> at one point. 507. </B> Relay 7 is thus de-energized to prepare a circuit. for the restraint relay The relay 513 is de-energized to open another point at it. the control circuit.



  The containment circuit is now completed by a path extending from the. earth by relay 301. arinat.ure 325 and its contact <B> (If- </B> rest, armature 332 and its rest contact, concluct (-ur 370, armature 520 and its rest contact, relay 506. armor .534 and its contact:

   (rest at bafterif .. Relays 301 and <B> 506 </B> are de-energized by the <@ our.int of this circuit.



  During its operation, the relay 301 opens the locking circuit of the relay 300 at the armature 321 and opens at the armature 22 at another point the circuit of the relay 3011). Relay 300 is de-energized to prepare a cooked circuit. for relay 8U6 to armature 320 and to prepare a circuit for relay 303 to armature 319.



  At the substation, relay 506 is actuated to open the latch circuit from relay 509 to armature 530, to prepare a start circuit to armature <B> 531 </B> and to open another point in the circuit from relay 503 to armature 532. Relay 509 is de-energized to prepare a circuit for relay 507 to armature 538 and to prepare a circuit for relay 503 to armature 539.



  It will be recalled that the conductor 455 has been previously grounded by the operation of the relay 707 immediately after the circuit switch C has been actuated. Now, when relay 506 is energized, a circuit is completed for relay 508. Relay 508 is actuated to complete a circuit for relay <B> 507. </B> Relay <B> 507 </B> is not energized until the primitive circuit of relay 508 is opened. By the operation of relay 508 a circuit is completed which extends from earth through armature 530 and its make contact pin, armature 535 and its contact peg, conductor 464 and relay <B> 1709 </B> to the battery.



  Relay 709 is actuated to open the circuits of relays 707 and 708 to, armature 736. Relay 708 is de-energized to open the circuit of relay 707. Relay <B> 707 </B> is de-energized to open the circuit. previously mentioned for relay 508. By this operation, the relay circuit <B> 507 </B> is activated. After being put into action, relay 507 opens the stop circuit which contains relays 506 and 301.



  The selection operation is reproduced in substantially the same way as described above. In this case, however, only signaling actions will occur due to the fact that the supervisor did not activate a d (: control key. The reason why the select operation was prompted again is. ensure that the control indications for the supervisor give the true status of the sets of devices corresponding to the substation.

   The triggering of the devices is produced in substantially the same way as described above.



  When the installation is used to operate sets of devices which are, on the other hand, controlled by automatic devices of the usual form, responding to circuit conditions, it becomes necessary to initiate the operation. automatic installation immediately after the automatic operation of a set of devices at the substation. For further description of this operation, it will be assumed that the circuit switch C is in the position indicated and that it is automatically controlled by the operation of the devices responding to the circuit, not shown.



  When the circuit switch is operated, the circuit from the slow-action relay 400 is opened at the auxiliary breaker 422 and a circuit is closed at the same instant, going from earth through the auxiliary breaker 422, the ar mature. 415 and its make contact, conductor 455, armature 531 and its work contact, armature 533 and soli reset contact, relay 508 to the battery. Relay <B> 508 </B> is energized to complete a circuit for relay 507.



  When the 40U delayed action relay is finally deenergized, the circuit for relay 508 is opened. Then, the circuit which contains: relays 507 and 508 becomes active. The relay 507 produces the opening of the retaining circuit which contains the relays 301 and 506. By this operation, the installation is caused to run wild in the manner described.



  If switch C had. been closed and. (If the supervisor would have liked to open it. The opening would appreciably dispense with the.

       mînic way as above, except that the key Ii "at the transmitter station would be found in the,

       The binding indicated and the coin- inandc \ 201 device would be connected. The supervisor would then activate the control device <B> 2 901, </B> thus producing four iliterrliptïoils in the circuit (read relay <B> 700,

  </B> The operation of the relay 700 would produce the activation of the relays î 10 to 17 with the effect: that, the series of pulses ended, the de-energization of the relay tt)? would cause the circuit to close for the -10? relay. The -10 relay? occasion would create the key connection to the circuit switch C.

   The control signals would be returned to the transmitter station in a manner similar to that described.



  The above gives a description of the normal functions of the installation. However, certain circuit arrangements have been made in view of circumstances which may arise and cause incorrect maneuvers. These arrangements will now be described.



  During the control operation the control circuit is open. both at the transmitter master and at the substation, as a result of the operation of relays 307 and 501. Consequently, no sudden current surge in the control circuit can cause a wrong manual reading:

  work in the selection apparatus. Also, due to the fact that in order to produce operation it is necessary to interrupt the <B> 700 </B> relay circuit a certain number of times, any induced key-ups which produce a number of smaller or larger pulses will not cause circuit switch C to operate.



  Due to the fact that it is necessary to produce in the so-called relay circuit <B> 700 </B> a predetermined number of interruptions if a unit is to be operated at the substation, no induced current is will be able to produce such functions. At least, the possibility of such: induced currents, producing the characteristic number of interruptions in the <B> 700 </B> relay circuit is very small, so small, in reality, that it can be considered as negligible.



  The starting circuit by means of which the aclion selectivc. <B> (read </B> the instillation is initiated is arranged in this way.

    action occurs when even the remote control of the circuit switches.

   takes place by hand or as a result of a mechanical keyfitness (besides the circuit breaker. as due the auxiliary breakers, such as .13 ?, on each circuit breaker come into operation whenever the switch is actuated, whether by hand or by a mechanical fault.



  The -1h0 delayed action relay is either energized or de-energized; that is, due if the switch is open or closed, the circuit known as the delayed action relay. 110 will be open. However, before de-energization (this relay. The hopscotch conductor 455 will be earthed for a moment. In the event that the switch is closed and tripped, the relay circuit is delayed. is closed.

   This relay is constructed in such a way that it takes a considerable amount of time to actuate its armatures and, therefore, the earth is. for a moment, re linked to the start-up driver -15J.



       Anytime the <B> 3074 </B> relay is energized to open the circuit. control, the selector relay must operate in such a way that ittet in function one of the two relaizs 309, 310 before the control circuit is closed again. Therefore. The selective action is interrupted until the operation of the safe control relay of group 100 to 123 and of the own selective relay of groups 0î to? 16 is assured.



  The control station is also able to provide the means to produce, whenever desired, the release of the selection relays at the control station and at the substation.



  To cause the relays at the substation to be released or released, the supervisor will activate the release key 1i-16 and the key device release command? 90.

   By the actioittiement (the key I1-16, the earth is disconnected from the driver:

  .'91 which is connected with youiti- device control keys. such as l1-3. This produces the interrupticui of the control circuit,

          regardless of the selective state in which it is found at the moirent or the uii of the relays (the selection at the command station and the <B> relay (the </B> rorresliondant selection of the substation is energized. Actuation of the K-16 key also closes a circuit for the

  relay 700 at the substation. As a result of the operation of the trigger device <B> 290, </B> six interrupts are produced in the circuit of relay 700. By de-energizing and energizing of relay 700, control relays 710 to <B> 721 </B> are operated. Immediately after the operation of the control relay 720, a circuit is completed which is established from earth through the armature 755 and its make contact, the conductor 470 and the relay 624 to the battery. Relay 624 is energized and clears the short of relay 625.

   Relay 625, coming into action, triggers all of the selector relays at the substation in the same manner as that described above.



  As a result of the operation of the relay 720, the short circuit of the relay 705 is also released at the armature 753. The relay 705, after being activated, completes a circuit for the delayed action relay 704 and opens. the circuits of all control relays 710 to 721. The control relays: 710 to <B> 721 </B> are de-energized to return certain circuits to their normal state.



  The delayed action relay 704 reopens, during its operation, at another point the circuit of the control relays. De-energizing the control relays de-energizes relay 705 which is actuated to open the circuit of relay 704. After a short time interval, relay 704 and. de-excited. In this way, the device at the substation is brought back to the normal state.



  To trigger the device at the station, the supervisor will activate the key Ii in fib. 1 .. This operation suspends the short-circuit of relay 125. The operations produced by energizing relay 105 and linking the device to the substation is triggered, have been described previously.



  The supervisor may have the desire to choose a predetermined set of devices, stay in touch with him in order to actio, enter repeatedly and observe its operation. In order to obtain this result, the supervisor activates one of the keys, for example the key K13, associated with this particular set of devices. The result of this maneuver is that the circuit of one of the relays, such as relay 309 or that 310, is permanently open until the key is returned to the starting position.

   Thus, when the key K13 is actuated, the circuit of relay 309 is or green so that the operation of relays 202 to 206 is not able to produce its excitation. Therefore, the supervisor can operate circuit switch C as often as he wants.

   Each actuation of circuit switch C will cause the correct response signal to be returned to the control station to inform the supervisor of the status of that set of devices. When the supervisor examined at. the operation of this set of devices, it will return the key 1113 to the normal position, the relay 309 being thus de-energized and the control circuit being again effective to actuate the relay selection devices.



  In the installation described, only the number of devices sufficient to control and adjust the action of ten devices has been shown; d, order. The capacity of the installation can however be increased by providing additional groups of similar selector relays:

      to the group of relays 207 Ù, '216, with corresponding switch relays to connect these control relays depending on the <B> de </B> relays 100 to 123, at the given amount. Similar devices can be provided at the substation.

 

Claims (1)

CLAIM Electrical installation making it possible to combine sets of devices in a substation from a control station in which there is a group of relays (the command ii the substation and a group of control relays similar to the station ( the <RTI ID = "0017.0083"> control as well as means for bringing the relays of said groups of relays simultaneously would operate in a determined succession and means by which, during operation (the one relay in the group of control relays of the substation together with 11: operation of a corresponding relay in the group of control panels of the control station, a control circuit is prepared polishing the actuation of a set of devices at 111 substation with signaling of this acceptance to the central master , this installation being characterized in that the groups of control relays of the substation and of the control station are established in such a way that there are 1v, in each group, each time a pair of control relays corresponding to each set of devices to be controlled and that after the first relay of the pair of associated control relays has been energized with a set of devices in one binds: groups of relays, the first relay of the corresponding pair of control relays clan: the other group of relays will be energized and then the second relays link these pairs of control relays in the two groups of control relays will be simultaneously energized ". EMI0018.0046 SUB-CLAIMS EMI0018.0047 1 <SEP> Installation <SEP> following <SEP> the <SEP> claim, <SEP> corner carrying <SEP> two <SEP> relays <SEP> from <SEP> line <SEP> to <SEP> the <SEP> sub-section <SEP> and <SEP> two <SEP> relays <SEP> of <SEP> line <SEP> similar <SEP> to <tb> mate <SEP> of <SEP> command <SEP> and <SEP> a <SEP> circuit <SEP> of <SEP> command <SEP> connecting <SEP> the <SEP> substation <SEP> to <SEP> mate <SEP> of <tb> command, <SEP> set <SEP> from <SEP> way <SEP> to <SEP> enclose, <tb> first, <SEP> one <SEP> of the <SEP> relays <SEP> from <SEP> line <SEP> to <SEP> the <SEP> substation <SEP> and <SEP> l 'a <SEP> of <SEP> relays <SEP> from <SEP> line <SEP> to <SEP> station <tb> of the <SEP> command <SEP> and, <SEP> then, <SEP> the other. <SEP> relay <SEP> of <tb> link <SEP> to <SEP> 111 <SEP> substation <SEP> and <SEP> the other <SEP> relay <SEP> of <tb> line <SEP> at <SEP> station <SEP> of the <SEP> command <SEP> and <SEP> in <SEP> the Clili.lle <SEP> the <SEP> provisions <SEP> are <SEP> such as <SEP> than <SEP> when <tb> of <SEP> failetionncilii-nt <SEP> of <SEP> circuit: <SEP> binds <SEP> coin niallde. <SEP> i @ n <SEP> association <SEP> with <SEP> the <SEP> preinler <SEP> re lais <SEP> from <SEP> line <SEP> to <SEP> the <SEP> substation < SEP> and <SEP> at the <SEP> station <tb> iii- <SEP> comlil <illdi @, <SEP> rl-siiectivimcnt, <SEP> il <SEP> <SEP> occurs. <tb> the l-xcitation <SEP> dli <SEP> first <SEP> relay <SEP> (the <SEP> the <SEP> pair <tb> <B> il (- </B> <SEP> relay <SEP> of the <SEP> eomland <SEP> llll <SEP> group <SEP> (the <SEP> relay <tb> iii- <SEP> eomnïande <SEP> il <SEP> lli <SEP> substation <SEP> associated <SEP> with <tb> the ell-elnble <SEP> of devices <SEP> to <SEP> c0millander, <SEP> that EMI0018.0048 during <SEP> of <SEP> operation. <SEP> of the <SEP> circuit <SEP> of the <SEP> command, <SEP> in <SEP> association <SEP> with <SEP> the <SEP> -i @ eoiiti <SEP> ri-taï of <SEP > line <SEP> to <SEP> the <SEP> s0us-_Itation <SEP> and <SEP>: 1l1 <SEP> pop <SEP> ïe <SEP> e <tb> command, <SEP> respectively, <SEP> it <SEP> occurs <SEP> <tb> eSCltatlon <SEP> of <SEP> first <SEP> relay <SEP> of <SEP> the <SEP> p,; lrë <SEP> relay <SEP> <SEP> <SEP> command <SEP> group <SEP> of <SEP> rel; Lily <tb> from <SEP> command <SEP> to <SEP> buddy <SEP> from <SEP> corresponding <SEP> command <SEP> ail <SEP> provided <SEP> set <SEP> from apartment = iï to <SEP> order <SEP> and <SEP> than <SEP> during <SEP> of <SEP> the interrliptioii <tb> says <SEP> circuit <SEP> of <SEP> command, <SEP> after <SEP> the <SEP> eoill command <SEP> of <SEP> seconds <SEP> relay <SEP> of <SEP> line , <SEP> the <SEP> conds <SEP> relays <SEP> of said <SEP> pairs <SEP> of <SEP> relays <SEP> of <tb> <SEP> command in <SEP> the <SEP> groups <SEP> binds <SEP> relay <SEP> of <tb> command <SEP> <l <SEP> 111 <SEP> sub-stlitioii <SEP> and <SEP> to <SEP> station <SEP> linked <tb> command, <SEP> respectively. <tb> audit <SEP> set <SEP> of devices, <SEP> have <SEP> simultaneously <SEP> excited. <tb> \ 3 <SEP> Installation <SEP> following <SEP> the <SEP> claim <SEP> and <SEP> <B> the </B> <tb> sub-claim <SEP> 1, <SEP> comprising <SEP> a <SEP> group <tb> of <SEP> relay <SEP> selectors <SEP> both <SEP> to <SEP> the <SEP> sub-statioli <tb> that at <SEP> station <SEP> of <SEP> command <SEP> <B> of </B> <SEP> way <SEP> that a <tb> relay <SEP> selector <SEP> corresponds <SEP> to <SEP> c <SEP> each <SEP> together <SEP> of devices <SEP> to <SEP> control <SEP> and <SEP> in <SEP> which <SEP> of the <SEP> means <SEP> are <SEP> expected. <SEP> thanks to <SEP> to which, <SEP> during <SEP> of <SEP> operation <SEP> sllilllüaïi @ <tb> of <SEP> seconds <SEP> relay <SEP> of <SEP> blades <SEP> of <SEP> relal- <SEP> <I> of </I> <tb> command <SEP> to <SEP> 111 <SEP> --3U., - wt11t1011 <SEP> and <SEP> to <SEP> 11U-And <SEP> binds <tb> command, <SEP> which <SEP> correspond <SEP> to <SEP> a <SEP> en-elli ble <SEP> of devices <SEP> to <SEP> command. <SEP> the <SEP> that. <SEP> <B>: - </B>; readers <SEP> corresponding <SEP> as long as <SEP> it <SEP> the <SEP> soll @ - tl tlon <SEP> that at the <SEP> station <SEP> of the <SEP> command <SEP> is <SEP > alillene <tb> to <SEP> work. <tb> <3 <SEP> Installation <SEP> following <SEP> the <SEP> claim <SEP> and <SEP> h! # sub-claims <SEP> 1 <SEP> and <SEP>?, <SEP> containing <SEP> (. # s <tb> means <SEP> arranged <SEP> for <SEP> to operate <SEP> in <SEP> iié dependence <SEP> of <SEP> 111 <SEP> coniniande <SEP> of a <SEP> ensenli! li d <SEP> devices <SEP> to <SEP> 11t <SEP> -olh-sta110i1. <SEP> from <SEP> <B> (.il, [</B> <tb> <SEP> station of commanded <SEP> #. <SEP> to <SEP> produce <SEP> <B> on </B> <tb> t: operation <SEP> of a <SEP> if @@ llill <SEP> <B> of </B> <SEP> monitoring <SEP> ciu <tb> mate. <SEP> binds <SEP> conimanilF @. <SEP> inimc # lliiitenielit <SEP> to <SEP> ï <SEP> < <tb> suite <SEP> dtl <SEP> follet <SEP> iwllliqnelit <SEP> ililclit <SEP> cn-emiil @ of devices, <SEP> binds <SEP> way <SEP> that <SEP> the <SEP> signal <SEP>! 1 overs (@illlince <SEP> ctu <SEP> station <SEP> binds <SEP> command <SEP> lilli- @ e. <tb> be <SEP> given <SEP> when <SEP> said <SEP> cn-cmble <SEP> ll *: iplici reils <SEP> is <SEP> brought <SEP> to <SEP> operate <SEP> to <SEP> the <SEP> if-) u. station. <tb> 1 <SEP> Ilislallation <SEP> following <SEP> the <SEP> reveiliiication <SEP> ut <SEP> read <tb> subclaims <SEP> 1, <SEP>? <SEP> and <SEP> a, <SEP> conillortan. at the control station, a plurality of switches controlled by keys üc- inanceuvre and arranged to be able to give a different number of inerruptions, to initiate operation by closing a set of devices with 1 sub- station, to initiate an operation causing the opening of a set of devices at the substation and to return all the relays to the normal state. these switches being associated, at the substation, with a group of auxiliary relays and being arranged in a small way the number (the relays in said group which function neilt corresponds to the number of interruptions predetermined by said switches at the control station, so that, after the selected selector relay has actuated, the desired operation can be initiated by the operation of the back- (switch beds. Installation according to claim and sub-claims 1, 2, <B> 3 </B> and .1, comprising EMI0019.0034 as, <SEP> at <SEP> station <SEP> of <SEP> command, <SEP> a <SEP> key <SEP> â <SEP> rmn iand <SEP> manual <SEP> for '<SEP> anioreer < SEP> the <SEP> function <SEP> of the <SEP> circuit <SEP> (the <SEP> coinniaiide, <SEP> uuw <SEP> key <SEP> to <tb> double <SEP> colnmut, rtion, <SEP> à <SEP> colnniand, # <SEP> l <B> 11 </B> a uuelle, <SEP> combined <SEP> with <SEP> each <SEP> together <tb> of devices <SEP> to <SEP> order <SEP> for <SEP> determine <tb> the <SEP> command <SEP> required, <SEP> then <SEP> in <SEP> association <tb> has <SEP> each <SEP> relay <SEP> selector, <SEP> it <SEP> device <SEP> of <tb> signalialion <SEP> for <SEP> indicate <SEP> iii <SEP> selection <SEP> of said <SEP> relay, <SEP> and <SEP> a <SEP> key, <SEP> to <SEP> <SEP> niai nuclle command, associated <SEP> <SEP> -i <SEP> each <SEP> relay <SEP> selector <tb> to <SEP> station <SEP> of <SEP> command, <SEP> of <SEP> way <SEP> due <SEP> 1o <tb> successive <SEP> operation <SEP> closed <SEP> relay <SEP> closed <tb> <SEP> relay groups <SEP> <B> cl (- </B> <SEP> command <SEP> and <SEP> (fans <SEP> li-s <tb> r; @ lai @ <SEP> selectors <SEP> may <SEP> be <SEP> interrupted <tb> when <SEP> 1_e <SEP> relay <SEP> selector <SEP> to <SEP> station <SEP> of <SEP> corner iminde <SEP> associated <SEP> to <SEP> this last <SEP> < SEP> rlé <SEP> and <SEP> the <SEP> re lais <SEP> selector <SEP> corresponding <SEP> to <SEP> the <SEP> son-station <SEP> have <SEP> worked.