SU41392A1 - Signaling device - Google Patents

Description

A copyright certificate No. 36866 describes a method for converting single-pulse signals to one-pulse pulsed signaling system with recording the number of a signaling beam.

The proposed image relates to the signal devices of the aforementioned system and consists in using contact encoders for the purposes of the above-mentioned conversion and for transmitting a conversion signal to the control and recording devices, as well as controllers serving for the appropriate control of the seekers and signal spreaders devices.

In FIG. 1 shows a device diagram; FIG. 2 - scheme of its modification.

The operation of the device in FIG. 1 occurs as follows. When an alarm is triggered, a linear break relay, not shown in the diagram, v.a, the receiving device releases its measles and attracts it again. The release of the core is accompanied by the fact that through the contact 1 of the breakaway relay the current is included in the circuit of the electromagnet 2 of the controller 3. The brush at the nearest one moves along one hag. In this case, relay 4 will lose the current it receives through the brushes of the controllers. Relay 4 will release the measles and give a minus through contacts 6 and 7 to the winding 8 pulse-relay 9. Plus, the pulse-relg will receive when the signal is given through contact 10 of the alarm relay. Relay 8 doesn’t have measles and through contact 11 it will give a plus to the winding 12 ”hive-relay 9. Relay 9 will work and anchor Anchor through contact 13 will give a current pulse to the electromagnet 14 of the searcher 15 along the circuit: plus, contact 13, winding 14-12 , contact 10, electromagnet 14 and minus.

Seeker brushes move one step and

the brush p and S7 will give minus v to contact 7 of winding 12. Contact 7 when pulsrel triggers, 9 will open. The winding S. depriving the current will open the contact 11, deprive the current of the counter 12. The contact 7, due to this, closes the sleep, and the contacts 13 and 18 are closed. Relay 8 will fall apart and will close contact 11 of relay 12. Electromagnet 14 of the searcher 15 will receive a current pulse again through contact 13. The brushes of the searcher 15 will move one more step and, thus, the sending of current pulses through the contacts of the pulsrel 9 will continue finder brushes 15 will move one step at each pulse. When the brush P 19 and reaches the contact of the signaling beam, the relay 20 will receive a plus through this brush from the contact of the relay of the receiving device. The minus of the relay 20 will receive from the encoder 21 through a brush, a row of 22. Relay 20 will work and through contacts 23 and 13 relay 9 will switch the current pulse circuit to the electromagnet 24 of the contact encoder 21, depriving these pulses of the beam finder 15, since contact 16 is opens. As a consequence, the brushes of the searcher 15 stop on the detected signaling beam and the brushes of the contact encoder 21 begin to move. The pulses on the encoder 21 are copied in the following way; when the brushes of the contact encoder 21 reach the contact corresponding to the number of the signaling beam number, the relay 25 will operate, receiving a plus from this beam through the brush of row 26 of the encoder 21, and will block through the contact 27. The circuit of the electromagnet 28 of the perforator or other recording device will close: contact 18, contact 29 relay 25, brush p yes 30 contact encoder 21, contact 31 relay 32, electromagnet 28, minus; Thus, the current pulses carried through the contacts of the pulse relay will enter the electromagnet 28 registering the device. The ipynnKpojKa of the emuls of tens and units of the signaling beam number is reached by the idle contact interval of the p 30 and encoder 21.

By brushing a row 26 of that contact, which corresponds to the number of units of the ignalizing beam number, a relay 32 of the circuit is turned on: plus or a signaling beam, a brush of a row of 26 encoder 21, a coil of a wrap 32, a brush of row of 33; the relay 32 is blocked by pin 34. The electromagnet 28 circuit of the receiving device is opened by pin 31 pe.ie 32 and the feed of the pulses is stopped.

At each full turn of the brushes of the contact encoder 21, the electromagnet 35 of the controller 38 will receive a current pulse with a brush standing on the last contact of row 30 of the encoder 21, and moving the brush of the congroller 36 by one step will give a minus to the winding of the relay 20. When switching brushes contact encoder 21 to idle contact p 33 and unlocks relays 25 and 32. Attorney 21 brushes move on further Of impulses, they continue to come in 24, and make a full second turn, repeating the process of ciphering and registering again at the receiving device e nome;) and signaling beam. When the brushes of the encoder 21 reach the post-contact, a single pulse goes through the electromagnet 3J through the brush of the encoder p 30 and the brush of the controller 36 moves to the third CONT.1KT and deprives the winding of the relay 20 for 1 minus. Since the latter does not receive minus at the same time from the brush of row 22 in the shifter 21, which stands for the last idle contact, and also does not have a minus from the controller 36, the relay 20 is blocked and opens contacts 37 and 23, the contact is simultaneously contacts 16 and 38. At the same time, the electromagnet 24 will receive another impulse for price and: plus, contact 13 re le 12, contact 38, relay 20, contact 39, relay 25 (which is still blocked ;, winding electromagnet 24, minus. At the moment, the impulse moves the brushes of the contact encoder 21 from the latter to the first contact. Relay 25 and minus minus 32 and de-elocked. The electromagnet 24 is deprived of current, and its brushes are stopped in the initial position. At the same time, when the relay 20 is unlocked, the electromagnet And the ray finder Ij will begin to receive pulses through the circuit: plus, contact 13, relay 12, contact 16, relay 20, winding 14 minus Seeker brushes nach; {u peedoedvigys, until ng reach the first initial contact; then the pulse-relay 9 will be deprived of the minus through the brush 17 and the searcher 15 and the postpedy will stop. If during this period of time there is a signal of a new beam, the electromagnet 2 of the controller 3 will receive a new current pulse through pin 1; the brush will move to the third contact, the relay 4 will lose the minus and the search process of the signaling beam will be repeated by the LZ seeker and the registration of the LZ number on the receiving device by means of the contact encoder 25 and the order described above.

ria FIG. 2 images of the Sidoism scheme of the device. Beam finder 41 sosg IT from two contact fields 42 and 43. To contacts nol 42

suitable conductors 44 from the contacts of the auxiliary relays of the receiving device. The contacts of the field 43 are connected by the contacts of the field of the encoder 46. The latter serves to convert a single-pulse signal into a multi-pulse code and to send coded pulses to recording instruments. This is emitted by the field 47 of the contact encoder 46, which has two rows of contacts, of which the upper one sends pulses to the electromagnets 48 and 49 of the recording device (perforator), and the lower one sends pulses to the decoder at the control point.

The finder brushes 41 are driven by an electric motor 50, activated via the contact 31 of the alarm relay and through the controller 52.

The controller 52 serves to start and stop the engine 50, to limit the frequency of repetition of the signal, and to turn on the electromagnets 33 34. It consists of an electromagnet 56 and onact coupling disks 57 and 58.

The electromagnet 56 of the congroller 52 is turned on via the contact 59 of the open circuit relay.

D-1I switching the digester and finder to the encoder, after the signaling beam is located, serves as a friction switch with an electromagnet 53. The switch-on relay 54 serves to supply current to the electromagnets of the recording device (perforator and decoder). The off relay turns off when the reception of the required number of emulses is completed, the recording devices (perforator) and the decoder of the control point.

When a signal is sent from one of the detectors, the breaker relay in the receiving device will release the measles, and then again attracts it. When releasing the relay core with.) The electromagnet 56 of the controller works due to the formation of the following circuit: plus, pin 59, winding of the electromagnet 56 of the controller, minus.

The controller's brush moves one step to pin 61, the motor circuit closes 50: plus, alarm 51. pe.ie (alarm triggered when a signal is sent from the detector), motor 55, controller pin 6, controller brush, minus.

The anchor of the electromagnet 53 of the friction switch in the EGOT moment is released and the ray finder brushes are engaged in coupling by means of a friction spring with the motor shaft with the help of an appropriate gear that slows the movement of the brushes.

When the finder brush 4 in field 42 reaches the signaling beam, the circuit closes through the winding of the electromagnet 53, contact 62 and 63 of the disk 58 of the control pad (since spring 63 has already left the pin 64 of the disk 58).

In this case, the electromagnet 53 is blocked through its contact 6J and the frictional clutch of the motor shaft with the brushes of the searcher 41 is broken and switches to the brushes of the contact encoder 46. Thus, the signal beam has been found and preparations made for encryption.

When the friction switch 6J is activated, the brushes are searched. 4 are stopped at the contacts of the signaling beam and are also rotated from the brush motor of the encoder 46 and the eccentric (punch) of the perforator. The tape is fixed in two-digit numbers corresponding to the numbers of the signal beam. For example, we consider the case when the finder brushes 41 remain on the contacts of the signaling beam. When the brushes of an encoder to which, for example, No. 15 has been assigned, are slid over the contacts of the polga 47 with the contact encoder 46, they do not send current pulses until they reach the contact corresponding to the number of tens in the signaling beam number, since Receives the power and its contact 66, supplying the encoder zero 46,,) is closed. But when the brush of the contact encoder reaches contact 67, corresponding to the number of beam dozens, the switch-on relay 54 on the circuit will work: plus, contact 65 of electromagnet 53, brush field 43, contact of first ten and the top p and floor 43, contact 67, brush, winding relay 54, contact 68, -druck 69 of disk 58 of controller a, minus (since, as the disk 58 rotates, the spring 69 will jump off the stop 70). Relay 54 is blocked through its contact 71 and | supplies the power supply via the contact in the field 47. In this case, the brush includes a registering device (perforator) and a decoder of the control point along the circuit: plus, contact 66 of relay 54, encoder brush, contact 67 tens, contact 72, electromagnet 48 and 49 of the recording device ( perforator) and parallel to the brush saws 47, through the contacts of the tenths 67 of the lower row of contacts, floor 47, to the control point. One impulse falls on the recording devices according to the number of tens of beams. Next, the encoder brush will put two blank contacts separating the ten contacts; -. from the units, and slipping over the contacts 73, 74, 75, 76, and 77, will give the registering device five current pulses corresponding to the number of units of the signaling beam. The brush of the encoder, only at the first contact of the units, supplies current to the relay coil, which opens to; measures 72, 79, and 39 registering prioorosis and deprives them of the possibility of obtaining impulses upon further brushing. To repeat the recording on the recording devices of the signaling beam number on the controller disk 58, there are two protruding stops 64 and 70 for the springs 63 and 69 installed at diametrically opposite points of the disk. The stops are fixed so that in the relaxed position of the disk the springs 63 and 69 rest on them, and the contacts 62 and 68 open at the same time. When the disk 58 comes into rotation, the springs 63 and 69 will come off the stops and the contacts 62 and 78 close. rotation 180 °, the stop 64 approaches the spring 68 and opens the contact 68, at the same time the stop 70 approaches the spring 63, but does not touch the latter and does not disturb the contact 62. {1 when the contact 68 is broken, the relay 54 will break and it will release and let your measles go. The circuit of the electromagnet 53 of the frictional switch will remain closed by the contact 62. The rotation of the disk 58 by 180 ° corresponds to a full 360 ° turn of the brushes of the contact encoder 46. At a given moment, its brushes will start on the first idle contact, but will continue their forward movement, repeating the cycle operation, as the electromagnet 53 of the friction switch is energized. The brushes of the seeker will continue to stand by the contact of signaling teaching no. 15. Therefore, the process of registering the number of the ignalizing beam is repeated on the recirculating devices. By the end of this process, disk 58 will make a full turn, stops. - its 64 and 70 will return to normal position and the contacts 62 and b8 will be open with pressure on the springs 63 and 69. This will unlock the switch 54 and the solenoid 53 of the friction switch and turn off the engine 50 the controller controller brushes from pin 61. The encoder brushes stop idling. The ray finder brushes will remain on the contact signaling beam No. 15. Further advancement of the finder brushes 41 from ray 15 will occur when a signal is received from another beam, since it releases the breaker and closes the electromagnet of controller 42. When a single pulse is applied electromagnet 56 from the contact of the relay the actuated beam brush on the disk 57 of the controller 2 switches from idle contact to contact 61 and, before going one step further, turns on the engine 50, since the electromagnet 53 of the frictional switch HS feeds current the finder brushes are in engagement with the shaft of the engine 50, then when the latter starts, they will come off the contact of the previously signalized beam -s 15 and will search for the contact of the new signaling beam. Upon finding it, the electromagnet 53 will operate and the friction switch will switch the shaft engagement from the I1 41 brushes to the encoder brushes 46. The searcher's brush will stop at the contact of the new spotted beam, and the encoder brushes will begin to move. At the same time, the disk 57 of the controller will begin to rotate, the system of circular conicts 60 and 61 will follow; the disk 57 brush will gradually go off contact 61, moving to idle contact 60. The rotation speed of disk 57 is calculated so that the brush comes off contact 61 to the end of the above registration process l;, cha, i.e. after two complete The speed of the brushes of the encoder encoder 46, turning off the digester 50 at this moment. If during the time period of the registration process of the registration of the sigcalized beam the signal from the drush rays still occurs, the drive brush 57 will not come off from the contact 61, since with the number of signaling beams the electromagnet is 56 k ntrollera get a few pulses with contacts srabotavschih obry relay. but. Under 1 of these pulses, the disk brush 57 moves along the contact ring 61 to the corresponding number of steps further, and after twisting the brushes of the contact encoder 46 twice, the engine 50 does not occur, because the disk brush 57 will not have time to come off contact 61. The engine, connected, the absence of current in the electromagnet 53, with a beam finder, will begin to move these knobs to search for a signal beam. After finding it, the process of double recording of the sngalized beam on the recording devices will be repeated, after which Diegatel will stop or continue its operation, due to the presence of new signaling beams.

subject matter of the invention.

Claims (4)

1. Signaling device with recording the number of the signaling beam of the beam signaling system according to the author's certificate No. 36866, penetrating the use of the contact encoder 21 for transferring a single-pulse signal from the signaling beam found by the searcher 15 into a multipulse code signal and for transmitting it to a receiving device. 2. In the apparatus of claim 1, the use of controllers 2 and 36. electrically coupled to each other and serving to control the relay 4, which activates the pulse relay, and to establish multiple transmissions to the recording instrument. 3. Change the signaling device according to. 1, characterized by the use of a contact encoder 46 for converting a single-pulse signal from one of the beams found by the searcher 41 into a multipulse code signal and for transmitting it to receiving and control recording devices. 4. In the device according to claim 3, use the controller 52, whose brush can move progressively one step from sending each current pulse to the electromagnet 56 and turn on the motor. -,