RU127704U1 - ELECTRIC DRIVE CONTROL DEVICE - Google Patents

Abstract

A switchgear control device containing three line wires, a three-phase electric motor drive 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 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 the other th unipolar relay control switches with operating 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-based centralization system with test terminals for closing and opening contacts and terminals for entering information about the plus, minus arrow positions, interconnected contact and a polarized start relay and the contacts of one and the other unipolar relay control arrows, the relay relay switch arrows in the positive, negative position, transformers, diodes, capacitors, resistors, sources of direct, alternating and three-phase alternating currents, characterized in that in one of the unipolar relays arrow control, an additional working winding is applied, while this additional working winding is connected in series to the circuit connecting one of the linear wires to a three-phase AC source

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 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, other and third terminals for connecting a three-phase load and terminals for connecting relays, control computer complex (UVK) microprocessor-based centralization system with test terminals for make, open contacts and terminals for entering information about the plus, minus positions of the arrow interconnected the contacts of the polarized start relay and the contacts of one and the other unipolar relay of control of the arrow, the relay relay switch block in 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 contact switching of the arrow of the arrow of the electric motor of the electric drive after switching the arrow due to the bypassing of the control diode by the three-phase alternating current source, which prevents the relay from operating from the operating voltage rectified by this diode.

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

The solution to this problem is achieved by the fact that in one of the unipolar relay control switches used an additional working winding, while this additional working winding is connected in series in the circuit connecting one of the linear wires to a three-phase AC source,

In the proposed device, ensuring reliable shutdown of the electric motor of the electric drive by the contact of the control relay arrows, because The electric motor current rectified by the control diode running in series with the additional working winding of this relay connected in series with the linear wire ensures the reliable operation of the arrow control relay after the arrow is completed and the control diode is connected to the linear wires with the control contacts of the auto switch.

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 an additional working winding is used in one of the unipolar arrow control relays, while this additional working winding is connected in series to the circuit connecting one of the linear wires to a three-phase alternating current source.

The proposed technical solution is industrially applicable, because when using it, a technical result is obtained in the form of ensuring reliable shutdown of the electric motor of the electric drive by the contact of the arrow monitoring relay after the arrow is completed.

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, additional working winding 6.2 and polarizing 6.3 windings and its contacts 6.4, 6.5, 6.6, transformer 7 with secondary 7.1, 7.2 windings and rectifier 7.3, phase control unit 8 transformer orams 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, phase-shifting resistor 24, relay power supply “+ PB”, “-MB”, three-phase alternating current source 25, sources AC operating winding 26. Additional 6.2 is connected in series into the circuit connecting line 10 to the phase wires 1F-voltage source 25.

Polarizing windings 5.2 and 6.3 are connected in parallel.

The device of Fig.1 is shown in the normal state of controlling the positive position of the arrow, while from winding 7.1 of the transformer 7 to the working winding 5.1 through the disconnecting contacts 4.5, 4.6 to the linear wires 10, 12 and connected to them through normally closed control contacts of the auto switch 9.1, the diode 15 and the resistor 23 receives an AC voltage from the source of this current 26, 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 supplied through the normally closed contact 3.4 from the rectifier 7.3 to the polarizing winding 5.2, why the relay 5 is energized, from the winding 7.1 of the transformer 7 to the working 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 contacts auto switch 9.1, diode 15 and resistor 22 receives an alternating current voltage from the source of this current 26, which is rectified by the diode 15 and the polarity of this rectified voltage coincides with the polarity of the voltage supplied through ormalno closed contact from the rectifier 3.4 7.3 6.3 in the polarizing coil, causing the relay 6 opened.

From terminal 1.1 of the UVC through a normally closed contact 3.1 of the polarized start relay and closed contacts 5.3, 6.6 of the relay for monitoring the arrow, a terminal contact test is sent to terminal 1.3 of the UVC, 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 with make contacts 4.5 through a linear wire 10 and closed working contacts of auto switch 9.2 and capacitor 19 and phase shifting resistor 24 will connect one output of electric motor 9.3 to AC source 25, with make contacts 4.4 through line wire 11 it will connect the second output of electric motor 9.3 with make contacts 4.6 through a linear wire 12 will connect the third terminal of the electric motor 9.3 to an AC source 25 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 a switched contact 3.4 will connect through a resistor 21 a reverse polarity power supply of polarizing windings 5.2, 6.3 from a 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 25 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 translation of the arrow, the normally open working contacts 9.2 of the auto switch are closed, which shunts the capacitor 19 and the phase-shifting resistor 24, which will ensure the normal power supply of the motor windings 9.3 for the entire duration of the switch wit arrows, and the control contacts 9.1 will open and disconnect from the line wires 10, 11, 12 diode 15, why the DC power supply to the working winding 6.1 will stop, and relay 6 will also release its armature, open the make contacts 6.4, 6.6 and close the make contact 6.5 and thereby create The circuit for holding the armature of relay 4 by winding 4.2 from the rectifier 8.4 under the influence of the working current of the electric motor 9.3 flowing through the primary windings of the transformers 8.1, 8.2, 8.3, which makes relay 4 hold the armature in the pulled position for the entire time the arrow is turned.

After the translation of the arrow into the negative position is completed, the shunt from the capacitor 19 and the phase-shifting resistor 24 will be opened and the normally closed working contacts 9.2 of the auto switch will be turned off, which is why the capacitor 19 and the phase-shifting resistor 24 will be turned on in series with the motor winding 9.3 for the entire period of the arrow position control, and also closed 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 polarizing winding 6.3, then the relay 6 is excited by the source 25, which is rectified by the diode 15 and the operating current 25 is rectified by the diode 15 and by the disconnecting contact 6.5, it will turn off the power supply circuit of the relay coil 4.2, why does this relay release its anchor and open the closing contacts 4.4, 4.5, 4.6, turn off the power of the electric motor 9.3 from the source 25, and use the closed breaking contacts 4.4, 4.5, 4.6 to provide the worker their windings 5.1, 6.1 from the winding 7.1 of the transformer 7 and the diode 15.

Relay 5 is energized because the working winding 5.1 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 polarizing winding 5.2 from the rectifier 7.3. Relay 6, which was previously excited by the additional working winding 6.2 under the influence of the current source 25, after releasing the armature, relay 4 will continue to hold its armature in the pulled position under the action of the rectifier 15 connected to the working winding 6.1, and the voltage from winding 7.1, as well as under the action of the rectifier 7.3 connected to the winding 6.3, due to the coincidence of the polarity of these voltages on the windings 6.1 and 6.3

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.

A variant of the proposed device, in which instead of a phase-shifting resistor 24, a phase-shifting choke with a magnetic core is used.

A variant of the proposed device, in which to reduce voltage ripple on the winding 6.2 in parallel with this winding, a capacitor is connected.

Variants of the proposed device with power supply to the windings 5.2, 6.3 and 4.1 are not from a separate winding of the transformer 7 and rectifier 7.3, but from the power supply of the relay "+ PB", "- MB", and also a variant with a serial connection of windings 5.2, 6.3 instead of parallel in figure 1.

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, the corresponding relay contacts are included, which are followers of the control contacts of the sensors of the plus and minus arrow positions.

The proposed device for controlling a turnout electric drive can be used to control twin arrows, while the operation of the device is similar to that described for Figure 1, and the electrical diagrams of the connections in electric drives, between electric drives and connecting them to linear wires, as well as the order of transfer of arrows and getting control provisions similar to those described in the opposed device.

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

- Reducing train delays due to the elimination of failures of the control device of the turnout electric drive due to not shutting down the electric drive motor after the end of the turnout switch due to shunting of the control diode of the electric drive by a three-phase AC source.

Literature:

1 Application for utility model No. 2012135925/11 (058124). Decision of Rospatent No. 2012135925/11 (058124) of October 24, 2012 on the grant of a patent for a utility model.

Claims (1)

A switchgear control device containing three line wires, a three-phase electric motor drive 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 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 the other th unipolar relay control switches with operating 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-based centralization system with test terminals for closing and opening contacts and terminals for entering information about the plus, minus arrow positions, interconnected contact and a polarized start relay and the contacts of one and the other unipolar relay control arrows, the relay relay switch arrows in the positive, negative position, transformers, diodes, capacitors, resistors, sources of direct, alternating and three-phase alternating currents, characterized in that in one of the unipolar relays arrow control, an additional working winding is applied, while this additional working winding is connected in series to the circuit connecting one of the linear wires to a three-phase AC source current.

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