RU123747U1 - CONTROL DEVICE FOR THE ARROW ELECTRIC DRIVE AND CONTROL DEVICE FOR THE TWIN ARROW ELECTRIC DRIVES - Google Patents

Abstract

1. A control device for a turnout electric drive, containing three linear wires, an electric drive with a three-phase electric motor and a circuit breaker with control and working contacts, a polarized start relay and a neutral start relay with a holding winding and an excitation winding connected at one end to one pole of the DC power source, and the other end to the other pole of this power source through the contacts of the polarized start relay and the relay contacts of the plus and minus position arrows, one and others one unipolar relay control switches with working windings and polarizing windings, phase monitoring unit with leads for connecting one, another and third phases of three-phase alternating current with one, another and third leads for connecting a three-phase load and leads for connecting a relay, control computer complex (UVK) microprocessor centralization system with test terminals for making and breaking contacts and terminals for entering information about the plus, minus arrow positions, interconnected contacts mi polarized start relay and the contacts of one and the other unipolar relay control arrows, relay switch unit arrows in the positive, negative position, transformers, diodes, capacitors, resistors, sources of constant, alternating and three-phase alternating currents, characterized in that one output of the windings of a three-phase electric motor connected to one terminal of the capacitor through one closed working contact of the switch, in parallel with which one open working contact of the switch connected to

Description

The utility model relates to the field of electrical engineering and can be used in signaling, centralization and blocking devices (SSC) in railway transport.

A control device for a turnout electric drive is known, comprising three linear wires, an electric drive with a three-phase electric motor and an auto switch with control and working contacts, a polarized start relay and a neutral start relay with a holding winding and an excitation winding connected at one end to one pole of a DC power source, and the other end to the other pole of this power source through the contacts of the polarized start relay and the relay contacts of the plus and minus position of the arrow, o bottom and other unipolar control relays arrows with working windings and polarizing windings connected in parallel, phase monitoring unit with leads for connecting one, another and third phases of three-phase alternating current, with one, other and third leads for connecting three-phase load and leads for connecting relays, control computer complex (UVK) of a microprocessor centralization system with test terminals for make and break contacts and terminals for entering information about plus and minus arrow and, interconnected by the contacts of the polarized start relay and the contacts of one and the other unipolar control relay of the arrow, the relay relay switch to the positive, negative position, transformers, diodes, capacitors, resistors, sources of direct, alternating and three-phase alternating currents (see one).

This device is adopted as a prototype, as the closest to the proposed in its technical essence.

The disadvantage of the opposed device is the low reliability of the translation of the wit of the arrow, taking into account possible variations of the resistance forces to this translation due to the capacitors turned on in the winding circuit of the electric motor windings and the high power consumption from the control transformer in the arrow position control mode due to the shunting action of the electric motor windings, connected in parallel to the circuit of the control diode, which requires more power and voltage coming from this control transform torus, which also acts on the motor, causing the device reliability is a small value.

The task to which the present utility model is directed is to eliminate the indicated disadvantages of the opposed device.

The solution to these problems is achieved by the fact that one output of the windings of a three-phase electric motor is connected to one output of the capacitor through one closed working contact of the auto switch, in parallel with which one open working contact of the auto switch is connected, connected to another output of the capacitor, to which one linear wire is connected through another closed working contact of the auto switch, in parallel with which another open working contact of the auto switch connected to one output capacitor is connected in this case, one line wire is connected to the parallel open and closed control contacts of the auto switch and connected in series with one make contact of the neutral start relay, one output of the phase monitoring unit for connecting the three-phase load, one output of the phase monitoring unit for connecting the phase of the three-phase alternating current and connected to one phase of the source of three-phase alternating current, and the second output of the windings of a three-phase electric motor, connected in series with the second a linear wire, a second closing contact of a neutral starting relay, one closed contact of a polarized starting relay, a second terminal of a phase monitoring unit for connecting a three-phase load, a second terminal of a phase monitoring unit for connecting a phase of a three-phase alternating current, connected to the second phase of a three-phase alternating current source, and a third terminal of three-phase windings an electric motor connected in series with a third line wire, a third make contact of a neutral start relay, another a closing contact of a polarized starting relay, a third terminal of a phase monitoring unit for connecting a three-phase load, a third terminal of a phase monitoring unit for connecting a phase of a three-phase alternating current, connected to a third phase of a three-phase alternating current source,

In the proposed device, an increase in the reliability of the translation of the wit of the arrow is achieved, taking into account possible variations in the resistance of this translation due to the exclusion of capacitors in this mode from the circuit of the motor windings, a decrease in power consumption and voltage of the control transformer in the control mode of the arrow position due to the fact that the shunt the action of the windings of the electric motor and capacitor, the magnitude of the electrical resistance of which to alternating current can be taken large due to the fact that about on it does not flow the operating current electric motor in the process of translation wits arrows.

The proposed technical solution is new, because three wire devices for controlling an alternating current electric drive are not known from the prior art, in which one terminal of the windings of a three-phase electric motor is connected to one terminal of the capacitor through one closed working contact of the auto switch, in parallel with which is one open working contact of the auto switch connected to the other terminal of the capacitor, to which one line wire is connected through another closed working contact of the auto switch, in parallel to which it is connected another time the bent working contact of the auto switch connected to one terminal of the capacitor, while one line wire is connected to the parallel open and closed control contacts of the auto switch and connected in series with one make contact of the neutral start relay, one output of the phase monitoring unit for connecting a three-phase load, one output phase monitoring unit for connecting the phase of a three-phase alternating current and is connected to one phase of a source of three-phase alternating current, and the the output terminal of the windings of a three-phase electric motor connected in series with the second line wire, the second make contact of the neutral start relay, one closed contact of the start polarized relay, the second output of the phase monitoring unit for connecting the three-phase load, the second output of the phase monitoring unit for connecting the phase of the three-phase alternating current is connected to the second phase a three-phase alternating current source, and a third terminal of a three-phase electric motor windings connected in series with a third ineynym wire third make contact neutral start relay, the other make contact polarized starter relay fazokontrolnogo third terminal block for connecting the three-phase load, fazokontrolnogo third terminal block for connecting the three-phase alternating current phases connected to the third phase of the three-phase alternating current source.

The proposed technical solution is industrially applicable, because when it is used, it is possible to obtain a technical result in the form of an increase in the reliability of the translation of the wits of the arrow, taking into account possible variations in the resistance forces to this translation and a decrease in the power consumption and voltage of the control transformer in the control mode of the arrow.

From the above it follows that the proposed technical solution meets the requirements for a utility model.

An example of the implementation of the proposed three-wire control device arrow AC electric drive is shown in figure 1.

The diagram of a three-wire device for controlling an alternating current electric drive (see Fig. 1) contains a control computer complex (UVK) 1 of a microprocessor centralization system with test terminals for make contacts 1.1 and test for open contacts 1.2, input terminals for information on plus 1.3 and minus 1.4 arrow positions , a relay block 2, containing a relay to switch the arrow to the plus position 2.1 and its contacts 2.1.1, 2.1.2, 2.1.3 and a relay to switch the arrow to the negative position 2.2 and its contacts 2.2.1, 2.2.2, 2.2.3 ( Fig. 1 diagram of the inclusion of the coil current of these relays is not shown), two polarized winding start relay 3 and its contacts 3.1, 3.2, 3.3, 3.4, neutral start relay 4 with field winding 4.1 and holding winding 4.2 and its contacts 4.3, 4.4, 4.5, 4.6, one unipolar relay control arrows 5 with working 5.1 and polarizing 5.2 windings and its contacts 5.3, 5.4 and other unipolar relay control arrows 6 with working 6.1 and polarizing 6.2 windings and its contacts 6.3, 6.4, 6.5, transformer 7 with secondary 7.1, 7.2 windings and rectifier 7.3 , phase control unit 8 transformers 8.1, 8.2, 8.3 and conclusions 8.1.1, 8.2.1, 8.3.1 For connecting one, another and third phases of a three-phase alternating current source, terminals 8.1.2, 8.2.2, 8.3.2 for connecting a three-phase load, rectifier 8.4 and terminals 8.4.1, 8.4.2 for connecting a relay, electric drive 9 with control 9.1 and working 9.2 contacts of the auto switch and three-phase electric motor 9.3, line wires 10, 11, 12, diodes 13, 14, 15, capacitors 17, 18, 19, resistors 20, 21, 22, 23, 24, 25, 26, source relay power supply “+ PB”, “-MB”, three-phase alternating current source 27, alternating current source 28. Polarizing windings 5.2 and 6.2 are connected s parallel.

The control device for paired turnout electric drives is similar to that shown in figure 1, but contains an additional paired drive 1-9 with control 1-9.1 and working 1-9.2 contacts of the auto switch and electric motor 1-9.3, and each of the paired arrows contains a chain of control diodes, which in the drive 9 contains resistors 25, 26 and a diode 15, and in the drive 1-9, the control diode circuit contains resistors 1-25, 1-26 and the diode 1-15, while the polarity of the diodes in the drive 9 and the drive 1-9 are opposite .

An example of connecting paired electric drives 9 and 1-9 to line wires 10, 11,12 is shown in figure 2. In this example, the circuit of the control diodes of one and the other paired arrows are connected to one and the other linear wires through sequentially connected open and closed pairs of control contacts of the auto switches of one and the other paired arrows.

The device of Fig. 1 is shown in the normal state of control of the positive position of the arrow, while from winding 7.1 of transformer 7 to winding 5.1 through resistor 21, opening contacts 4.5, 4.6 to line wires 10, 12 and connected to them through normally closed control contacts of the auto switch 9.1, the diode 15 and the resistor 26 receives an AC voltage from the source of this current 28, which under the influence of the diode 15 is rectified and has one polarity, and the polarity of this rectified voltage coincides with the voltage polarity connected through a normally closed contact 3.4 from the rectifier 7.3 to the winding 5.2, why the relay 5 is energized, from the winding 7.1 of the transformer 7 through the resistor 21 to the winding 6.1 through the disconnecting contacts 4.4, 4.5 to the linear wires 10, 11 and connected to them through normally closed control the contacts of the auto switch 9.1, the diode 15 and the resistor 25 receives an AC voltage from the source of this current 28, which is rectified by the action of the diode 15 and the polarity of this rectified voltage coincides with the polarity of the voltage supplied through A normally closed contact 3.4 from the rectifier 7.3 to the winding 6.2, which makes relay 6 energized.

From terminal 1.1 of the UVK via a normally closed contact 3.1 of the polarized start relay and closed contacts 5.3, 6.3 of the arrow monitoring relay, a terminal contact test is sent to terminal 1.3 of the UVK, which fixes the positive position of the arrow.

To transfer the arrow from the positive to the minus position from the output device of the UVK, the relay switches the arrow to the minus position 2.2, which closes the contacts 2.2.1, 2.2.2 and opens the contact 2.2.3, from which the relay 4 is energized by the rectifier “+” circuit: 7.3, normally closed contact 3.4, closed contacts 2.1.2, 2.2.2, relay coil 4.1, “-” rectifier 7.3. Relay 4 by make contacts 4.5 through a linear wire 10 and closed working contacts of auto switch 9.2 and capacitor 19 will connect one output of electric motor 9.3 to AC source 27, with make contacts 4.4 through line wire 11 will connect the second output of electric motor 9.3, make contact 4.6 through line wire 12 will connect the third output of the electric motor 9.3 to an alternating current source 27 with an unchanged sequence of phase rotation, why the switch will not occur.

The opening of the normally open contact 4.6 will stop the power supply to the winding 5.1 from the diode 15, from which the relay 5 will release its armature and by the open making contact 5.3 it will stop feeding to the terminal 1.3 the test of the making contact, and by the closed making contact 5.3 it will send the test of the making contact from the terminal 1.2 to this terminal, which is why the control of the positive position of the arrow stops. The closed NC contact 5.4 will connect the NC test from terminal 1.2 to terminal 1.4, which will exclude the possibility of obtaining false control of the negative position of the arrow during this period of operation of the circuit.

Closed make contact 4.3 will create a relay 3 response circuit: “+ ПБ”, closed contact 2.2.1, relay winding 3, diode 13, closed contact 4.3, “-MB”.

Relay 3 with the switched contact 3.4 will connect through the resistor 22 the reverse polarity power of the windings 5.2, 6.2 from the rectifier 7.3.

The switched contacts 3.2, 3.3 will change the sequence of phase rotation from the source of three-phase alternating current 27 in the linear wires 11, 12, which is why the three-phase electric motor 9.3 will begin to move the arrow to the negative position.

At the beginning of the switch, normally open working contacts 9.2 of the auto switch are closed, which will shunt the capacitor 19, which will ensure the normal power supply of the motor windings 9.3 for the entire time the switch is turned on, and the control contacts 9.1 will open and disconnect the diode 15, 10, 11, 12 from the line wires why the DC 6.1 winding power supply will stop, and relay 6 will also release its armature, open the make contacts 6.3, 6.4 and close the make contact 6.5, and thereby create a circuit to hold the armature of relay 4 by the 4.2 winding from the rectifier switch 8.4 under the influence of the operating current of the electric motor 9.3 flowing through the primary windings of transformers 8.1, 8.2, 8.3, which is why relay 4 holds the armature in the pulled position during the whole time the arrow is turned over.

After the translation is complete, the arrows in the negative position will open and the shunt will be removed from the capacitor 19 normally closed working contacts 9.2 of the auto switch, which will make the capacitor 19 turned on in series with the winding of the electric motor 9.3 for the entire period of monitoring the position of the arrow, as well as the normally open control contacts of the auto switch 9.1, which will change the polarity of the connection of the diode 15 to the linear wires 10, 11, 12.

Because the polarity of the connection of the diode 15 to the linear wires 10, 11 corresponds to the polarity of the power supply to the winding 6.2, then the relay 6 is excited under the influence of the voltage of the source 27 rectified by the diode 15 through the resistors 23, 24 and the disconnect terminal 6.5 will turn off the power supply circuit of the relay coil 4.2 why this relay will release its anchor and open the closing contacts 4.4, 4.5, 4.6, disconnect the power of the electric motor 9.3 from the source 27, and the closed opening contacts 4.4, 4.5 will shunt the resistors 23, 24 and provide power to winding 5.1, 6.1 and diode 15 from the winding 7.1 of the transformer 7.

Relay 5 is energized because will receive power from the rectifier 15 through a closed opening contact 4.6, the polarity of which coincides with the polarity of the power received by the winding 5.2 from the rectifier 7.3.

Relay 6, which was previously excited under the influence of voltage source 27, after releasing the armature, relay 4 will continue to hold its armature in the pulled position under the influence of rectifier 15 connected to winding 6.1 and the voltage from winding 7.1, as well as under the influence of rectifier 7.3 connected to winding 6.2, due to the coincidence of the polarity of these voltages on the windings 6.1 and 6.2. After the relay 5 is activated, terminal 1.4 will receive a test of the make contact from terminal 1.1 through the switched contact 3.1 and closed make contacts 5.4, 6.4, which fixes the negative position of the arrow.

The arrow returns to the positive position in the same way when the relay switches the arrow to the positive position 2.1.

The translation of the paired arrows of FIG. 2 from the positive to the minus position is also carried out similarly to that described for FIG. 1 with the difference that after the relay 3 is activated, the voltage from the source 27 with a changed phase sequence similarly comes from the linear wires 10, 11, 12 to a three-phase electric motor 9.3, why the electric drive 9 will put one paired arrow 9 in the negative position, while the control of the positive position of the arrow will stop at the beginning of its translation due to the opening of the control contacts 9.1. After completing the transition to the negative position of the arrow 9 through the switched contacts of the auto switch 9.1 and 9.2, the power from the source 27 will be supplied through the closed working contacts 1-9.2 to the electric motor 1-9.3 of the other twin arrows, which will cause the electric drive 1-9 to put the other twin arrow in the negative position.

After completing the translation of both paired arrows through the series-connected switched control contacts of both paired arrows, a chain of resistors 25, 26 and diode 15 will be connected to the linear wires 11,12 due to the polarity of the connection of the diode 15 to the linear wires 11, 12 opposite the polarity connecting the diode 1-15, the relay 5 and 6 will trip and fix the negative position of the paired arrows and the power source 27 will disconnect from the line wires 10, 11, 12 and the capacitor 19 will be connected as described for the device of Fig. 1.

The paired arrows return to the positive position in the same way, with the electric drive 1-9 being transferred first, and then the electric drive 9 will be transferred.

To connect the twin arrows blowing, free control contacts of auto switches can be used.

Variants of the proposed device with power supply to the windings 5.2, 6.2 and 4.1 are possible not from a separate winding of the transformer 7 and rectifier 7.3, but from the power supply of the relay “+ ПБ”, “-МБ”, and it is also possible to connect windings 5.2, 6.2 in series instead of parallel in figure 1.

In the case of a voltage value of a three-phase alternating current source 27 that is acceptable for the working winding of 6.1 relay 6, a variant of the device of Fig. 1 is possible without resistors 23, 24, but in this case one and the other conclusions of winding 6.1 are connected to the linear wires 10, 11 not through the disconnecting contacts 4.4, 4.5, and directly to the linear wires 10, 11.

A variant of the proposed device is possible, in which the wires connected to the terminals 1.3, 1.4, instead of connecting to the UVK, are connected respectively to one end of the windings of the positive (PC) and negative (MK) control switches of the arrows, the other ends of which are connected to one pole of the constant source current, and wire 1.1, instead of connecting to the UVK, is connected to the other pole of this power source. In this case, the contacts of the relay control the plus and minus position of the arrows are used to enter information about the position of the arrows in the UVK in a known manner.

A variant of the proposed device in which a non-contact auto switch is used, while instead of the working and control contacts of the auto switches in figure 1 and figure 2, the corresponding relay contacts are included, which are followers of the control contacts of the sensors of the plus and minus arrow positions.

The economic effect of the proposed three-wire control device arrow AC electric drive can be characterized by the following indicators:

- an increase in reliability due to the exclusion of capacitors from the windings of the electric motor in the mode of translation of witty arrows;

- an increase in reliability due to a decrease in the voltage of the control circuit supplied to the windings of the electric motor in the control mode of the arrow position;

- reducing power consumption by the control circuit.

Literature:

1 Russian Patent RU 105874 U1 IPC B61L 7/00 published June 27, 2011 Bull. Number 18.

Claims (2)

1. A control device for a turnout electric drive, containing three linear wires, an electric drive with a three-phase electric motor and a circuit breaker with control and working contacts, a polarized start relay and a neutral start relay with a holding winding and an excitation winding connected at one end to one pole of the DC power source, and the other end to the other pole of this power source through the contacts of the polarized start relay and the relay contacts of the plus and minus position arrows, one and others one unipolar relay control switches with working windings and polarizing windings, phase monitoring unit with leads for connecting one, another and third phases of three-phase alternating current with one, another and third leads for connecting a three-phase load and leads for connecting a relay, control computer complex (UVK) microprocessor centralization system with test terminals for making and breaking contacts and terminals for entering information about the plus, minus arrow positions, interconnected contacts mi polarized start relay and the contacts of one and the other unipolar relay control arrows, relay switch block arrows in the positive, negative position, transformers, diodes, capacitors, resistors, sources of direct, alternating and three-phase alternating currents, characterized in that one terminal of the windings of a three-phase electric motor connected to one terminal of the capacitor through one closed working contact of the switch, in parallel with which is connected one open working contact of the switch connected to another capacitor terminal, to which one line wire is connected through another closed working contact of the circuit breaker, in parallel with which another open working contact of the circuit breaker is connected, connected to one terminal of the capacitor, while one linear wire is connected to parallel open and closed control contacts of the circuit breaker, and is connected in series with one NO contact of the neutral start relay, one output of the phase monitoring unit for connecting a three-phase heat load, one terminal of the phase monitoring unit for connecting the phase of the three-phase alternating current, and is connected to one phase of the source of the three-phase alternating current, and the second terminal of the windings of the three-phase electric motor, connected in series with the second linear wire, the second closing contact of the neutral starting relay, one closed contact of the polarized starting a relay, a second terminal of a phase monitoring unit for connecting a three-phase load, a second terminal of a phase monitoring unit for connecting a phase of a three-phase about alternating current is connected to the second phase of the source of three-phase alternating current, and the third output of the windings of the three-phase electric motor, connected in series with the third line wire, the third making contact of the neutral starting relay, the other making contact of the starting polarized relay, the third output of the phase monitoring unit for connecting the three-phase load, the third the output of the phase monitoring unit for connecting the phase of the three-phase alternating current is connected to the third phase of the source of the three-phase alternating current current. 2. A control device for paired turnout electric drives, containing three linear wires, one and the other paired electric drives with three-phase electric motors and circuit breakers with control and working contacts, a polarized start relay and a neutral start relay with a holding winding and an excitation winding connected at one end to one pole of the source DC power, and the other end to the other pole of this power source through the contacts of the polarized start relay and the contacts of the positive relay and minus arrow position, one and the other unipolar relay control relays arrows with working windings and polarizing windings, phase monitoring unit with leads for connecting one, another and third phases of three-phase alternating current, with one, other and third terminals for connecting a three-phase load and terminals for connecting relay controlling the computer complex (UVK) of the microprocessor centralization system with test terminals for the make and break contacts and terminals for entering information about the plus and minus positions arrows, interconnected by the contacts of a polarized start relay and the contacts of one and the other unipolar relay control arrows, relay switch to switch the arrows in the positive, negative position, transformers, diodes, capacitors, resistors, sources of constant, alternating and three-phase alternating currents, characterized in that one line wire is connected to one terminal of the capacitor through a closed working contact of a circuit breaker of one paired arrow, in parallel to which an open working contact is connected a top-switch of one paired arrow connected to another terminal of the capacitor, which is connected to one parallel-connected terminals of the windings of the electric motors of both paired arrows through a closed working contact of the switch of another paired arrow, parallel to which an open working contact of the switch of the other paired arrow connected to one terminal of the capacitor is connected, at this connection point between each other in series connected two resistors of the same paired arrows is connected through one diode connected in series and an open control contact of the auto switch of the other paired arrow to one line wire, and the connection point of two resistors of the other paired arrow connected to each other in series through the other diode and the closed control contact of the auto switch of one paired arrow to one linear wire, this polarity connecting one and the other diodes to the connection points of two resistors on one and the other paired arrows opposite.

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