RU109078U1 - ELECTRIC DRIVE CONTROL DEVICE - Google Patents

Abstract

 1. A control device for a turnout electric drive, containing five linear wires, an alternating current drive with a three-phase electric motor and an arrow position control sensor, polarized and neutral start relays, an arrow position control relay, a transformer, diodes, resistors, a capacitor, fuses, three-phase and single-phase alternating current sources current source, direct current source, contacts of the closing and switch-directional relays, the button for auxiliary translation of the arrow and the block of commands for the translation of the arrow, the inus pole of the DC source is connected to the front contact of the switch-track relay and to the make contact of the auxiliary switch button, the common contact of which is connected to the common contact of the switch-track relay and to the front contact of the make-up relay, the common contact of which is connected to the common contact of the first contact group neutral start relay, and through the winding of the neutral start relay to the common contact of the first contact group of the polarized start relay, whose contact is translated connected to the anode of the first diode, the cathode of which is connected to the beginning of the first winding of the polarized start relay, and the normal contact of the first contact group of the polarized start relay to the anode of the second diode, whose cathode is connected to the beginning of the second winding of the polarized start relay, the end of which is connected to the end of the first winding polarized start relay and to the front contact of the first contact group of the neutral start relay, characterized in that the second, third and fourth position monitoring relays are introduced into it

Description

The utility model relates to the field of signaling, centralization and blocking in railway transport and is intended for the transfer of railway switches.

A control device for a turnout electric drive is known, comprising five linear wires, an electric drive with an electric motor and an automatic switch having working and control contacts, polarized and neutral starting relays, switch position control relays, transformers, diodes, capacitors, resistors, direct and alternating current sources, the second and the third line wires are connected respectively to one and the other ends of the series-connected two resistors, while the connection point between these x resistors through one normally closed control contact of the switch is connected to one terminal of the diode, which through one normally open control contact of the switch is connected to the first line wire, and the fourth and fifth line wires are connected respectively to one and the other ends of two other resistors connected in series, while the connection point between these resistors is connected through another normally open control contact of the circuit breaker with another terminal of the diode, which through another normally closed control contact of the switch is connected to the first linear wire (RU No. 67300, G05B 7/02, publ. 10/10/2007).

A disadvantage of the known switchgear control device is its low reliability, because, firstly, it disconnects the working circuits of the electric motor by the contacts of a circuit breaker installed in the electric switch, and secondly, the switch time is not monitored, including when the electric motor is in friction .

The closest technical solution to the claimed utility model is a switchgear control device containing five linear wires, a three-phase electric motor drive, a switch and an arrow position sensor, polarized and neutral start relays, arrow position control relays, transformer, diodes, resistors, capacitor, fuses, sources of three-phase and single-phase alternating current, direct current source, contacts of the closing and switch-way relay, kn an auxiliary switch arrow switch and an arrow transfer command block, wherein the negative pole of the DC source is connected to the front contact of the arrow-track relay and to the make contact of the auxiliary switch of the arrow, whose common contact is connected to the common contact of the switch-track relay and to the front contact of the make relay the common contact of which is connected to the common contact of the first contact group of the neutral starting relay, and through the winding of the neutral starting relay to the common contact of the first contact group of the polarized start relay, the translated contact of which is connected to the anode of the first diode, the cathode of which is connected to the beginning of the first winding of the polarized start relay, and the normal contact of the first contact group of the polarized start relay is to the anode of the second diode, the cathode of which is connected to the beginning of the second winding of the polarized trigger relay, the end of which is connected to the end of the first winding of the polarized start relay and to the front contact of the first contact group of the neutral start relay, outputs the AC rectifier is connected to the second winding of the neutral start relay, the first phase output of the three-phase AC source through the first fuse and the primary winding of the first transformer is connected to the front contact of the second contact group of the neutral start relay, the second phase output of the three-phase AC source through the second fuse and the primary winding the second transformer is connected to the front contact of the third contact group of the neutral starting relay, the third phase the output of the three-phase AC source through the third fuse, the primary winding of the third transformer is connected to the front contact of the fourth contact group of the neutral start relay, the first output of the AC rectifier through connected in series and according to the windings of the first, second and third transformer is connected to the second input of the DC rectifier, common the contact of the second contact group of the neutral starting relay is connected to the common contact of the second contact group is polarized start relay, the normal contact of which through the first line wire is connected to the working contacts of the circuit breaker, and transferred through the second line wire to the control contacts of the switch, the common contact of the third contact group of the neutral start relay is connected to the common contact of the third contact group of the polarized start relay, the normal contact which through the third line wire is connected to the control contacts of the auto switch, and transferred through the fourth linear wire to the working to the contacts of the automatic switch, the common contact of the fourth contact group of the neutral start relay is connected to the three-phase electric motor, the rear contact of the second contact group of the neutral start relay through the winding of the position control relay is connected to the rear contact of the fourth contact group of the same relay, the first output of the arrow of the position control relay is connected via in series the first resistor, the secondary winding of the fourth transformer and the capacitor is connected to the second terminal of the winding of the same barely, the fourth primary winding of the transformer is connected to the outputs of the single-phase AC power source and working contacts avtopereklyuchatelya in series through a second resistor and a third diode is connected to the control terminals avtopereklyuchatelya (station automation and robot system: Proc. for universities railway transp. / Ed. Vl. V. Sapozhnikova. - M .: Transport, 1997, p.103, fig. 4.29).

The disadvantage of this switchgear control device is its low reliability, because in it, firstly, the three-phase motor circuits are disconnected by the contacts of a circuit breaker installed in the switchgear, where they are subjected to high mechanical and severe climatic loads, and secondly, the transfer time is not controlled arrows, including the operation of a three-phase electric motor of the electric drive for friction, which generally reduces the resource of the electric drive.

The objective of the utility model is to increase the reliability of the switchgear control device.

This goal is achieved by the fact that in the control device of the switchboard electric drive, containing five linear wires, the drive with a three-phase electric motor and a sensor for monitoring the position of the arrow, polarized and neutral starting relays, relay control the position of the arrow, transformer, diodes, resistors, capacitor, fuses, sources three-phase and single-phase alternating current, direct current source, contacts of the closing and direction-switching relays, the button for auxiliary translation of the arrow and the command block ne arrows, and the minus pole of the DC source is connected to the front contact of the arrow-track relay and to the make contact of the auxiliary switch arrow button, the common contact of which is connected to the common contact of the switch-track relay and to the front contact of the make relay, the common contact of which is connected to the common the contact of the first contact group of the neutral start relay, and through the winding of the neutral start relay to the common contact of the first contact group of the polarized start relay, the contact of which is connected to the anode of the first diode, the cathode of which is connected to the beginning of the first winding of the polarized start relay, and the normal contact of the first contact group of the polarized start relay is to the anode of the second diode, the cathode of which is connected to the beginning of the second winding of the polarized start relay, the end of which is connected to at the end of the first winding of the polarized start relay and to the front contact of the first contact group of the neutral start relay, the second, third and fourth position monitoring relays are inserted lc, an additional neutral start relay and a time delay unit, the common contact of the first contact group of the neutral start relay connected to the first output of the time delay unit, the second output of which is connected to the rear contact of the second contact group of the neutral start relay, the front contact of which is connected to the common contact of the first the contact group of the polarized start relay, and the common contact is to the third output of the time delay unit, the fourth output of which is connected to the plus pole of the source direct current, the translated contact of the first contact group of the polarized start relay is connected to the rear contact of the first contact group of the first arrow position control relay, the common contact of which is connected to the first output of the arrow translation command block, the second output of which is connected to the common contact of the first contact group of the second position control relay arrows, the rear contact of which is connected to the normal contact of the first contact group of the polarized start relay, the negative pole of the source is constant the current through the winding of the additional neutral starting relay is connected to the front contact of the third contact group of the neutral starting relay, the rear contact of which is connected to the plus pole of the DC source, and the front contact is to the common contact of the second contact group of the polarized starting relay, whose normal contact is connected to the common the contact of the second contact group of the first relay control the position of the arrow, and the translated contact is to the common contact of the second contact group of the second relay con arrow position control, the rear contact of which is connected to the rear contact of the second contact group of the first arrow position control relay to the plus pole of the DC source, the front contact of the second contact group of the first arrow position control relay through the winding of the third arrow position control relay is connected to the negative pole of the DC source , front contact of the second contact group of the second relay for controlling the position of the arrow through the winding of the fourth relay for controlling the position of the arrow connected to the negative pole of the DC source, the first phase of the three-phase AC source through the first fuse is connected to the front contact of the first contact group of the additional neutral starting relay, the second phase of the three-phase AC source through the second fuse is connected to the front contact of the second contact group of the additional neutral starting relay, the third phase of the three-phase AC source through the third fuse is connected to the front contact t contact group of the additional neutral start relay, the common contact of the first contact group of the additional neutral start relay is connected to the common contact of the third contact group of the polarized start relay, whose normal contact is connected to the translated contact of the fourth contact group of the polarized start relay, and through the first line wire it is connected to the first winding of a three-phase electric motor, the common contact of the second contact group of the additional neutral starting relay connected to the common contact of the fourth contact group of the polarized start relay, the normal contact of which is connected to the translated contact of the third contact group of the polarized start relay, and through the second line wire to the second winding of the three-phase motor, the common contact of the third contact group of the additional neutral start relay through the third line wire connected to the third winding of a three-phase electric motor, voltage of a single-phase AC source through the fourth fuse The transformer is connected to the primary winding of the transformer, the first output of the secondary winding of the transformer through the first resistor and capacitor connected in series is connected to the beginning of the first winding of the first arrow position control relay, and through the fourth linear wire, to the first output of the arrow position sensor, the second output of which is connected to the second output the secondary winding of the transformer and to the beginning of the first winding of the second relay control the position of the arrow, the end of which is connected to the end of the first winding of the first relay control An arrow is turned on, the beginning of the second winding of which is connected to the positive pole of the direct current source, and the end is to the negative pole of the same source and to the end of the second winding of the second relay for controlling the position of the arrow, the beginning of which is connected to the positive pole of the direct current source, the third output of the arrow position monitoring sensor through the second resistor and the third diode connected in series, it is connected to the fourth output of the arrow position sensor.

The arrow position control sensor contains contacts of four contact groups, with the first contact of the first contact group connected to the first contact of the second contact group, the first contact of the third contact group connected to the first contact of the fourth contact group, the second contact of the second contact group connected to the second contact of the fourth contact group and the first output of the arrow position sensor, the second contact of the third contact group is connected to the second contact of the third contact group and to the second terminal control hand position sensor, the first contact a third contact connected to the third group, and the second contact of the second contact group is connected to the fourth terminal control hand position sensor.

The third output of the arrow position monitoring sensor is made in the form of a socket-plug connector, and the fourth is in the form of a plug-socket

A diagram of the inventive switchgear control device is shown in the drawing.

The control device for the turnout electric drive contains five linear wires 1-5, the drive 6 with a sensor for controlling the position of the arrow 7 and with a three-phase electric motor 8 having three stator windings 8.1, 8.2, 8.3 and a rotor 8.4, polarized 9 and neutral 10 starting relays, the first 11 and second 12 relay control the position of the arrow, an additional neutral starting relay 13, block 14 time delay, contacts 15 of the closing and 16 arrow-track relay, button 17 auxiliary switch arrows, three-phase AC source 18, one source aznaya alternating current 19, transformer 20, first 21, second 22 and third 23 diode, first 24 and second 25 resistors, capacitor 26, translation command block 27, four fuses 28-31, third 32 and fourth 33 relay position control switches, as well as a direct current source "P" and "M".

The switchgear control device has the following connections. The minus pole “M” of the direct current source is connected to the front contact 16 of the arrow-track relay and to the make contact of the auxiliary switch button 17, the common contact of which is connected to the common contact 16 of the track and switch relay and to the front contact 15 of the make relay. The common contact 15 of the closing relay is connected to the common contact of the first contact group 10.1 of the neutral start relay 10, and through the winding of the neutral start relay 10 to the common contact of the first contact group 9.1 of the polarized start relay 9. The transferred contact of the first contact group 9.1 of the polarized start relay 9 is connected to the anode of the first diode 21, the cathode of which is connected to the beginning of the first winding of the polarized start relay 9. The normal contact of the first contact group 9.1 of the polarized start relay 9 is connected to the ano the second diode 22, the cathode of which is connected to the beginning of the second winding of the polarized start relay 9, the end of which is connected to the end of the first winding of the polarized start relay 9 and to the front contact of the first contact group 10.1 of the neutral start relay 10. General contact of the first contact group 10.1 of the neutral start relay 10 is connected to the first terminal 14.1 of the time delay unit 14, the second terminal 14.2 of which is connected to the rear contact of the second contact group 10.2 of the neutral start relay 10, the front contact of which is connected n to the common contact of the first contact group 9.1 of the polarized start relay 9, and the common contact to the third terminal 14.3 of the time delay unit 14, the fourth terminal of which 14.4 is connected to the plus pole "P" of the DC source. The translated contact of the first contact group 9.1 of the polarized start relay 9 is connected to the rear contact of the first contact group 11.1 of the first relay for controlling the position of the arrow 11, the common contact of which is connected to the first terminal 27.1 of the translation command block 27, the second terminal 27.2 of which is connected to the common terminal of the first contact group 12.1 of the second relay for controlling the position of the arrow 12, the rear contact of which is connected to the normal contact of the first contact group 9.1 of the polarized start relay 9. Minus pole of the "M" source direct current through the winding of the additional neutral start relay 13 is connected to the front contact of the third contact group 10.3 of the neutral start relay 10, the rear contact of which is connected to the plus pole "P" of the DC source, and the front contact of group 10.3 is connected to the common contact of the second contact group 9.2 polarized start relay 9, the normal contact of which is connected to the common contact of the second contact group 11.2 of the first relay for monitoring the position of the arrow 11, and the translated contact of the second group 9.2 is polarized one start relay 9 - to the common contact of the second contact group 12.2 of the second relay for monitoring the position of the arrow 12, the rear contact of which is connected to the rear contact of the second contact group 11.2 of the first relay for monitoring the position of the arrow 11 and to the plus pole "P" of the DC source. The front contact of the second contact group 11.2 of the first relay for controlling the position of the arrow 11 through the winding of the third relay for controlling the position of the arrow 32 is connected to the negative pole "M" of the DC source. The front contact of the second contact group 12.2 of the second relay for controlling the position of the arrow 12 through the winding of the fourth relay for controlling the position of the arrow 33 is connected to the negative pole "M" of the DC source. The first phase 18.1 of the three-phase AC source 18 is connected through the first fuse 28 to the front contact of the first contact group 13.1 of the additional neutral starting relay 13. The second phase 18.2 of the three-phase AC source 18 is connected through the second fuse 29 to the front contact of the second contact group 13.2 of the additional neutral starting relay 13. The third phase 18.3 of the three-phase AC source 18 through the third fuse 30 is connected to the front contact of the third contact group 13.3 additional neutral start relay 13. The common contact of the first contact group 13.1 of the additional neutral start relay 13 is connected to the common contact of the third contact group 9.3 of the polarized start relay 9. The normal contact of the third contact group 9.3 of the polarized start relay 9 is connected to the translated contact of the fourth contact group 9.3 of the polarized start relay relay 9, and through the first line wire 1 to the first winding 8.1 of the three-phase motor 8. The common contact of the second contact group 13.2 additional a solid neutral start relay 13 is connected to the common contact of the fourth contact group 9.4 of the polarized start relay 9. The normal contact of the fourth contact group 9.4 of the polarized start relay 9 is connected to the translated contact of the third contact group 9.3 of the polarized start relay 9, and through the second line wire 2 to the second winding 8.2 of a three-phase electric motor 8. The common contact of the third contact group 10.3 of the neutral starting relay 10 is connected to the third winding 8.3 of the three-phase via the third line wire 3 of the electric motor 8. The voltage of the single-phase AC source 19 through the fourth fuse 31 is supplied to the primary winding of the transformer 20. The first output of the secondary winding of the transformer 20 is connected through the first resistor 24 and the capacitor 26 connected in series to the beginning of the first winding of the first position control relay arrows 11, and through the fourth line wire 4 - to the first terminal 7.1 of the position indicator of the arrow 7, the second terminal 7.2 of which is connected to the second terminal of the secondary winding of the transformer 20 and to the beginning the first winding of the second relay for controlling the position of the arrow 12. The end of the first winding of the second relay for controlling the position of the arrow 12 is connected to the end of the first winding of the first relay for controlling the position of the arrow 11, the beginning of the second winding of which is connected to the plus pole “P” of the DC source, and the end to the minus pole “M” of the same source and towards the end of the second winding of the second relay for controlling the position of the arrow 12, the beginning of which is connected to the plus pole “P” of the direct current source. The third pin 7.3 of the arrow 7 position control sensor is connected to the first terminal 25.1 of the resistor 25 through the plug-socket connector, the second pin 25.2 of which is connected to the cathode of the third diode 23, the anode of which is connected to the fourth pin 7.4 of the arrow 7 position-control sensor via the socket-plug connector.

The sensor for controlling the position of the arrow 7 contains the first 7.1.1 and second 7.1.2 contacts of the first contact group, the first 7.2.1 and second 7.2.2 contacts of the second contact group, the first 7.3.1 and second 7.3.2 contacts of the third contact group, the first 7.4 .1 and second 7.4.2 contacts of the fourth contact group. The arrow position sensor has the following connections. The first contact 7.1.1 of the first contact group is connected to the first contact 7.2.1 of the second contact group and to the fourth pin 7.4 of the arrow position sensor. The first contact 7.3.1 of the third contact group is connected to the first contact 7.4.1 of the fourth contact group and to the third pin 7.3 of the position indicator arrow 7. The second contact 7.1.2 of the first contact group is connected to the second contact 7.4.2 of the fourth contact group and to the first the output 7.1 of the sensor for monitoring the position of the arrow 7. The second contact 7.3.2 of the third contact group is connected to the second terminal 7.2.2 of the second contact group and to the second terminal 7.2 of the sensor for monitoring the position of the arrow 7.

In the inventive switchgear control device as a polarized starting relay 9, a relay of the ПМУШ 150/150 type is used (Soroko V.I., Rosenberg E.N. Railway automation and telemechanics equipment: Reference: in 2 book Kn.1. - 3- e ed. - M .: NPF PLANETA, 2000, p.410-411), as a neutral starting relay - relay type NMShM2-4000 (ibid., table 110), as the first 11 and second 12 relays position control arrows - relay type PLZU 2700/4500 (ibid., table 97), as a sensor for position control arrows - control contacts of the switch trelochnogo drive SP-6M (ibid s.35-42) as the button 17 and the buttons "+" and "-" block transfer commands arrows 27 - CDM type button (ibid tabl.77).

The control device switch electric works as follows. It has two stable and two intermediate states. One of the stable states corresponds to the conditionally accepted as positive, the other - as the minus position of the arrow. One of the intermediate states corresponds to the transfer of the arrow from the plus to the minus position, the other to the transfer of the arrow from the minus to the plus position.

The state of the contacts of the relay 9, 10, 11, 12, 13, as well as the contacts 7.1.1-7.4.2 of the sensor for monitoring the position of the arrow 7 in the drawing corresponds to the positive position of the arrow. The state of the contacts 15 of the closing and 16 arrow-track relays corresponds to the safety conditions under which the switch is possible from one position to another. The three-phase electric motor 8 of the electric drive 6 in both stable states is disconnected from the source of the three-phase alternating current 18.

In both stable states, the time delay unit 14 by the rear contact of the second contact group 10.2 of the neutral start relay 10 is connected to a constant current source "P", "M", accumulating the energy necessary to keep the neutral start relay 10 in the on state for a specified time

In the positive position of the arrow, there is the following electrical circuit for monitoring the position of the arrow: the second terminal of the secondary winding of the transformer 20 - the fifth line wire 5 - the second terminal 7.2 of the sensor for monitoring the position of the arrow 7 - closed contacts 7.2.1 and 7.2.2 of the sensor for monitoring the position of the arrow 7 - fourth terminal 7.4 position control sensors arrows 7 - third diode 23 - second resistor 25 - third terminal 7.3 position control sensors arrows 7 - closed contacts 7.4.1 and 7.4.2 position control sensors arrows 7 - first output 7.1 position control sensors arrows 7 - fourth linear wire 4 - capacitor 26 - a first resistor 24 - first terminal of the transformer secondary winding 20 in which an alternating current is converted to a third diode 23 into a direct current. This direct current generates a positive voltage potential at the beginning of the first winding of the first relay for controlling the position of the arrow 11 and a negative potential at the beginning of the first winding of the second relay for controlling the position of the arrow 12. Since the current directions in the windings of the first relay for controlling the position of the arrow 11 are the same, it will be in in the on state, its front contact of the second contact group 11.2 is closed, and the third relay for controlling the position of the arrow 32 is turned on, fixing the wit of the arrow of the arrow in the positive position. The second monitoring relay 12 will be turned off, since the direction of the currents in its windings will be opposite.

To move the arrow from the positive to the minus position, press the “-” button of the block of the translation command of the arrow 27. The following electric circuit of switching on the neutral start relay 10 is formed: the pole “P” of the direct current source - the closing contact of the button “-” of the block of the translation of the arrow 27 - rear contact of the first contact group 12.1 of the second relay for controlling the position of the arrow 12 - normal contact of the first contact group 9.1 of a polarized start relay 9 - winding of the neutral start relay 10 - front contact 15 a relay - front contact 16 points-track relays 16 - terminal "M" DC source. After turning on, the neutral starting relay 10 closes its front contacts. At the same time, a time delay unit 14 is connected to its winding by the front contact of the second contact group 10.2 of the neutral start relay 10, which ensures that the relay 10 is slowed down after releasing the “-” button for a time equal to three times the standard time of the arrow.

At the same time, an electric circuit is formed to turn on the polarized start relay 9 with a reverse polarity current: pole “P” of the direct current source - make contact of the “-” button of the block 27 of the arrow transfer commands - rear contact of the first contact group 12.1 of the second relay for controlling the position of the arrow 12 - second diode 22 - second winding of a polarized start relay 9 - front contact of the first contact group 10.1 of the neutral start relay 10 - front contact 15 of the make relay - front contact 16 of the switch-track relay - pole "M" of a direct current source. After turning on the polarized start relay 9, its contacts switch to opposite positions. In this case, the following electric circuit is formed for switching on the additional neutral starting relay 13: pole “M” of the DC source - winding of the additional neutral starting relay 13 - closed front contact of the third contact group 10.3 of the neutral starting relay 10 - translated contact of the second contact group 9.2 of the polarized starting relay 9 rear contact of the second contact group 12.2 of the second control relay 12 - pole "P" of the DC source.

After the inclusion of an additional neutral starting relay 13, its front contacts 13.1, 13.2, 13.3 are closed, forming the following three chains of currents of the arrow transfer. First circuit: first phase 18.1 of a three-phase AC source 18 - first fuse 28 - front contact of the first contact group 13.1 additional neutral start relay 13 - translated contact of the third contact group 9.3 polarized start relay 9 - second line wire 2 - second winding 8.2 of three-phase motor 8 Second circuit: second phase 18.2 of a three-phase AC source 18 - second fuse 29 -front contact of the second contact group 13.2 of an additional neutral starting relay 13 - ne the contact of the fourth contact group 9.4 of the polarized relay 9 - the first line wire 1 - the first winding 8.1 of the three-phase electric motor 8. The third circuit: the third phase 18.3 of the three-phase AC source 18 - the third fuse 30 - the front contact of the third contact group 13.3 of the additional neutral start relay 13 - third line wire 3 - third winding 8.3 of a three-phase electric motor 8.

The rotor 8.4 of the three-phase electric motor 8 begins to rotate in a direction that ensures the movement of the wit of the arrow from the plus to the minus position. At the beginning of the movement of the wits of the arrow, the contacts 7.4.1 and 7.4.2 of the position sensor of the arrow 7 open, breaking the electrical circuit for switching on the first relay for controlling the position of the arrow 11. The first relay for monitoring the position of the arrow 11 is turned off and the front switching circuit of the second relay 11.2 breaks the circuit for switching on the third relay control the position of the arrow 32. The relay 32 is turned off, fixing the lack of control of the position of the arrow.

The length of time the arrow is transferred from one stable state to another, in this case their plus to minus position, is controlled by the time delay unit 14. If this time exceeds the standard value, for example, due to the impossibility of reaching the opposite position due to a foreign object between the wit and the rail, the neutral start relay 10 will turn off, since the energy accumulated earlier by the time delay unit 14 will be exhausted. In this case, the front contact of the third contact group 10.3 of the neutral start relay 10 opens, breaking the switching circuit of the additional neutral start relay 13, which turns off, and its front contacts 10.1, 10.2 and 10.3 open, disconnecting the three-phase electric motor 8 of the switch electric drive 6 from the three-phase AC source 18 The three-phase electric motor 8 is stopped, thereby preventing the failure of the electric drive 6 due to a failure of its mechanical components that occur during prolonged operation of the three-phase electric motor electric motor 8 for friction.

If the switch time does not exceed the standard value, then after the witters reach the opposite position of the arrow, in this case the negative position, the contacts 7.3.1 and 7.3.2 of the sensor for monitoring the position of the arrow 7 close. The following electric circuit for controlling the negative position of the arrow is formed: the first output of the secondary winding of the transformer 20 - the first resistor 24 - capacitor 26 - the first output 7.1 of the sensor for controlling the position of the arrow 7 - closed contacts 7.1.1 and 7.1.2 of the sensor for monitoring the position of the arrow 7 - fourth pin 7.4 of the sensor arrow position control 7 - third diode 23 - second resistor 25 - third terminal 7.3 of the arrow position sensor 7 - closed contacts 7.3.1 and 7.3.2 of the arrow position sensor 7 - terminal 7.2 of the arrow position sensor 7 - fifth line wire 5 - the second output of the secondary winding of the transformer 20.

In this circuit, the alternating current is converted by the third diode 23 into direct current. This direct current generates a positive voltage potential at the beginning of the first winding of the second relay for controlling the position of the arrow 12 and a negative potential at the beginning of the first winding of the first relay for controlling the position of the arrow 11. Since the current directions in the windings of the second relay for controlling the position of the arrow 12 are the same, it will turn on, its the rear contact of the second contact group 12.2 will open, breaking the switching circuit of the additional neutral start relay 13. In this case, the front contacts 13.1, 13.2 and 13.3 of the additional neutral will open lnnogo starting relay 13, breaking the switching circuit of a three-phase motor 8.

Thus, turning off the three-phase electric motor 8 after the switch is turned off in the inventive control device of the electric switch is not carried out by the contacts placed in the electric switch 6, where they are subjected to aggressive mechanical stress and climatic conditions, which leads to their short life, but by the contacts of an additional neutral starting relay 13, who work in favorable conditions, which determines their great resource.

After the second relay for controlling the position of the arrow 12 is turned on with its rear contact of the first contact group 12.1, the neutral start relay 10 circuit is opened. At the same time, the next electric circuit for turning on the fourth relay for controlling the position of the arrow 33 is formed: pole “P” of the DC source - translated contact of the second contact group 9.2 polarized start relay 9 - front contact of the second contact group 12.2 of the second relay control the position of the arrow 12 - winding of the fourth relay control the position of the arrow 33 - pole "M" of the direct current source. The inclusion of the fourth relay control the position of the arrow 33 means the successful completion of the translation of the arrow in the negative position.

The arrow is transferred from the minus to the plus position in the same way after pressing the “+” button of the arrow translation command block 27.

The claimed device implements protection against false control of the position of the wits of the arrow, both when the line wires 4 and 5 are mixed up when they are connected to the terminals 7.1 and 7.2 of the sensor for controlling the position of the arrow 7, and when the second resistor 25 and the third diode 23 are incorrectly connected to terminals 7.3 and 7.4 of the same sensor for controlling the position of the arrow 7 of the pointer electric drive 6.

Improper connection of the resistor of the second 25 and the third diode 23 in the inventive device is impossible due to the structural difference of the connectors, which are equipped with both the conclusions 7.3 and 7.4 of the position sensor arrows 7, and the second resistor 25 and the third diode 23 connected to them, respectively.

If the fourth 4 and fifth 5 line wires are incorrectly connected to the sensor for controlling the position of the arrow 7, the control of its position is lost, which is a protective failure acceptable in signaling, centralization and blocking devices. For example, if the arrow is in the positive position and after completion of repair work the fourth line wire 4 was connected to the second terminal 7.2 of the sensor for controlling the position of the arrow 7, and the fifth linear wire 5 was connected to the first terminal 7.1 of the same sensor, the first relay for monitoring the position of the arrow 11 turns off, and the second relay for monitoring the position of the arrow 12 turns on. With this open front contact of the second contact group 11.2, the first relay control the position of the arrow 11, the third relay control the position of the arrow 32 will be turned off. At the same time, there will be no electrical circuit to turn on the fourth relay for monitoring the position of arrow 33, since the contact of the second contact group 9.2 of the polarized start relay 9 will remain in the normal position, and in order to obtain negative control it must be in the switched position.

Thus, the claimed control device switch electric drive has greater reliability compared to the prototype. Firstly, because the switching of power circuits of a three-phase electric motor is carried out not in a floor-mounted device - an arrow electric drive, where switching contacts, due to mechanical and climatic influences, quickly develop their life, but in the room where the control equipment for the arrow electric drive is located, for example, at the electric centralization station , where switching contacts are not subject to aggressive environmental influences, which means that their resource is much higher than that of contacts placed in Christmas tree drive. Secondly, in the inventive device, the switch time of the switch is controlled, thereby eliminating the long-term operation of the three-phase electric motor of the switch electric drive to friction, due to which premature wear of the mechanical parts of the electric drive occurs.

Claims (3)

1. A control device for a turnout electric drive, containing five linear wires, an alternating current drive with a three-phase electric motor and an arrow position control sensor, polarized and neutral start relays, an arrow position control relay, a transformer, diodes, resistors, a capacitor, fuses, three-phase and single-phase alternating current sources current source, direct current source, contacts of the closing and switch-directional relays, the button for auxiliary translation of the arrow and the block of commands for the translation of the arrow, the inus pole of the DC source is connected to the front contact of the switch-track relay and to the make contact of the auxiliary switch button, the common contact of which is connected to the common contact of the switch-track relay and to the front contact of the make-up relay, the common contact of which is connected to the common contact of the first contact group neutral start relay, and through the winding of the neutral start relay to the common contact of the first contact group of the polarized start relay, whose contact is translated connected to the anode of the first diode, the cathode of which is connected to the beginning of the first winding of the polarized start relay, and the normal contact of the first contact group of the polarized start relay to the anode of the second diode, whose cathode is connected to the beginning of the second winding of the polarized start relay, the end of which is connected to the end of the first winding polarized start relay and to the front contact of the first contact group of the neutral start relay, characterized in that the second, third and fourth position monitoring relays are introduced into it arrows, an additional neutral start relay and a time delay unit, the common contact of the first contact group of the neutral start relay connected to the first output of the time delay unit, the second output of which is connected to the rear contact of the second contact group of the neutral start relay, the front contact of which is connected to the common contact of the first the contact group of the polarized start relay, and the common contact is to the third output of the time delay unit, the fourth output of which is connected to the plus pole of the source A direct current contact, the translated contact of the first contact group of the polarized start relay is connected to the rear contact of the first contact group of the first arrow position control relay, the common contact of which is connected to the first output of the arrow transfer command block, the second output of which is connected to the common contact of the first contact group of the second control relay the position of the arrow, the rear contact of which is connected to the normal contact of the first contact group of the polarized start relay, the negative pole of the source The direct current through the winding of the additional neutral starting relay is connected to the front contact of the third contact group of the neutral starting relay, the rear contact of which is connected to the positive pole of the DC source, and the front contact is to the common contact of the second contact group of the polarized starting relay, whose normal contact is connected to the common the contact of the second contact group of the first relay for monitoring the position of the arrow, and the translated contact is to the common contact of the second contact group of the second relay f control the position of the arrow, the rear contact of which is connected to the rear contact of the second contact group of the first relay control the position of the arrow and to the plus pole of the DC source, the front contact of the second contact group of the first relay control the position of the arrow through the winding of the third relay to control the position of the arrow is connected to the negative pole of the source DC, front contact of the second contact group of the second relay for controlling the position of the arrow through the winding of the fourth relay for controlling the position of the arrow p connected to the negative pole of the DC source, the first phase of the three-phase AC source through the first fuse is connected to the front contact of the first contact group of the additional neutral starting relay, the second phase of the three-phase AC source through the second fuse is connected to the front contact of the second contact group of the additional neutral starting relay, the third phase of the three-phase AC source is connected to the front contact through the third fuse at the third contact group of the additional neutral start relay, the common contact of the first contact group of the additional neutral start relay is connected to the common contact of the third contact group of the polarized start relay, the normal contact of which is connected to the translated contact of the fourth contact group of the polarized start relay, and through the first line wire it is connected to the first winding of a three-phase electric motor, the common contact of the second contact group of the additional neutral starting p le connected to the common contact of the fourth contact group of the polarized start relay, the normal contact of which is connected to the translated contact of the third contact group of the polarized start relay, and through the second line wire to the second winding of the three-phase motor, the common contact of the third contact group of the additional neutral start relay through the third linear the wire is connected to the third winding of a three-phase electric motor, the voltage of a single-phase AC source through the fourth pre the fuse is connected to the primary winding of the transformer, the first output of the secondary winding of the transformer through the first resistor and capacitor connected in series is connected to the beginning of the first winding of the first relay for controlling the position of the arrow, and through the fourth line wire to the first output of the sensor of the position of the arrow, the second output of which is connected to the second output transformer and to the end of the first winding of the second relay control the position of the arrow, the beginning of which is connected to the end of the first winding of the first relay control the position of a Christmas tree, the beginning of the second winding of which is connected to the plus pole of the DC source, and the end to the negative pole of the same source and to the end of the second winding of the second relay for controlling the position of the arrow, the beginning of which is connected to the plus pole of the DC source, the third output of the sensor for monitoring the position of the arrow through the second resistor and the third diode connected in series, it is connected to the fourth output of the arrow position sensor. 2. The control device of the switch electric drive according to claim 1, characterized in that the sensor for monitoring the position of the arrow contains contacts of four contact groups, the first contact of the first contact group being connected to the first contact of the second contact group, the first contact of the third contact group being connected to the first contact of the fourth contact group, the second contact of the second contact group is connected to the second contact of the fourth contact group and the first output of the sensor for monitoring the position of the arrow, the second contact of the third contact the active group is connected to the second contact of the third contact group and to the second output of the arrow position sensor, the first contact of the third contact group is connected to the third, and the second contact of the second contact group is connected to the fourth output of the arrow position sensor. 3. The control device of the switch electric drive according to claim 1, characterized in that the third output of the sensor for controlling the position of the arrow is made in the form of a socket-plug connector, and the fourth in the form of a plug-socket.