UA146671U - DEVICE FOR MAINTAINING THE WORK OF THREE-PHASE ASYNCHRONOUS ELECTRIC MOTORS IN THE BREAK OF THE POWER SOURCE PHASE - Google Patents

Abstract

The device for maintaining the operability of three-phase induction motors in the event of a power failure phase consists of a three-phase induction motor connected to a single-phase power supply network, a motor control unit consisting of a magnetic starter, a "start" and a "stop switch" relay. Additionally, a phase shift unit is introduced, which consists of three capacitors connected between the output terminals of the motor; the supply voltage measuring unit, which consists of three power resistors connected by a star and connected to the line wires that supply the motor; a switching unit consisting of three intermediate AC relays, the coils of which are connected in parallel to the power resistors, and the opening contacts are connected in series with the coils of single-pole contactors, of three single-pole AC contactors, the power contacts of which are connected in series with capacitors; the signaling unit consisting of three signal lamps which are connected in parallel to coils of unipolar contactors.

Description

A useful model belongs to the field of electrical engineering, namely relay protection, and can be used to maintain the operability of asynchronous electric motors in the event of a phase failure of the power source.

A well-known analogue is a device for controlling the operation of a three-phase asynchronous electric motor, which contains "Start" and "Stop" buttons, two magnetic starters, one of which is equipped with a thermal relay, an intermediate relay and capacitors connected according to the "delta" scheme and connected to the mains phases after the closing contacts of the magnetic starter with a thermal relay to its heating elements, a two-pole automatic switch with a tripping current of the thermal release below the rated current of the motor, a diode bridge, a circuit of a series-connected adjusting resistor and a capacitor, while the closing contacts of the intermediate relay and the second magnetic starter without a thermal relay are connected in parallel and connected at one end to the first clamp of the coil of this magnetic starter, and at the other end to one of the phases of the network to the thermal relay, and the power closing contact of the second starter is connected between the neutral point of the motor stator winding and the neutral wire of the network through the common connection point of the input of the diode bridge, d of the coil clamp of the second starter and one of the contacts of one of the poles of the two-pole automatic switch, the other contact of this pole is connected to the neutral wire of the network, and the other pole of the two-pole automatic switch is connected in series to the coil circuit of the magnetic starter with a thermal relay, while one of the outputs of the diode bridge is connected to the coil of the intermediate relay, shunted by a capacitor connected in series with the regulating resistor, which is connected to the other output of the diode bridge, in addition, a signal device is installed parallel to the coil of the magnetic starter without a thermal relay (RF Patent Mo 2406206 C1, МПК НО2/ H 7/09. Device for controlling the operation of a three-phase asynchronous electric motor, author: Feygin L.3., Kosoi

P.L., Klavsuts I.L., Seregina I.A., Feigin I.L.; published 10.12.2010).

The disadvantage of this device is that when the phase of the power source is interrupted and the electric motor is connected to the neutral conductor through the windings of the motor stator and the conductor that connects the neutral point of the motor with the neutral point of the network, third harmonic currents flow, which causes additional power losses in the electric motor and reduces its efficiency.

In addition, an electric current equal to the nominal current flows in the neutral conductor

From the current of the electric motor, leading to its significant overheating and the danger of its catching fire, because this conductor is not designed for the specified current.

The closest analog to the claimed useful model is a device for starting a three-phase asynchronous electric motor from a single-phase power supply network, which consists of a three-phase asynchronous electric motor connected to a single-phase power supply network, between the two output terminals of which a phase shift block consisting of a capacitor is included; the electric motor control unit, which consists of a magnetic starter, "Start" and "Stop" buttons; overload protection unit, consisting of a thermal relay I (Katsman

M.M. Directory of electric machines. - M.: Academy, 2005. - 480 p.|.

The disadvantage of the closest analogue is the lack of application of the proposed scheme for powering a three-phase asynchronous electric motor in automatic mode when one of the phases of the power source is interrupted.

The useful model is based on the task of improving the design of the device by introducing new elements to create a rotating magnetic field in the electric motor when one of the phases of the three-phase power source is interrupted and to automatically turn on the elements that create a rotating magnetic field in the electric motor when one of the phases of the three-phase power source is interrupted.

The task is solved by the fact that the device for starting a three-phase asynchronous electric motor from a single-phase power network, which consists of a three-phase asynchronous electric motor connected to a single-phase power network, an electric motor control unit, which consists of a magnetic starter, "Start" and "Stop" buttons, a protection unit against overloads, consisting of a thermal relay, according to the proposed useful model, a phase shift block is additionally introduced, which consists of three capacitors included between the output terminals of the electric motor; the unit for measuring the supply voltage, which consists of three power resistors connected in a star and connected to the linear wires that feed the electric motor; the switching unit, which consists of three intermediate alternating current relays, the coils of which are connected in parallel to the power resistors, and the opening contacts are connected in series with the coils of single-pole contactors, of three single-pole alternating current contactors, the power contacts of which are connected in series with the capacitors of the phase shift unit; signaling unit, which consists of three signal lamps, which are connected in parallel to the coils of 60 single-pole contactors.

The use of a phase shift unit in the device will allow creating a rotating magnetic field in the electric motor when any of the phases of the three-phase supply voltage source is interrupted, the supply voltage control unit will allow monitoring the presence of supply voltage in the phases of the three-phase asynchronous electric motor, the switching unit will allow turning on the necessary capacitor in the phase shift unit in the event of an interruption of a certain phase of the three-phase supply voltage source, which will allow the electric motor to work until the end of the technological operation, the alarm unit will allow the service personnel to determine which phase of the three-phase supply voltage source has broken.

Fig. 1 shows a block diagram of the device for maintaining the operability of three-phase asynchronous electric motors in the event of a phase failure of the power source, in Fig. 2 shows the basic electrical diagram of the device for maintaining the operability of three-phase asynchronous electric motors in the event of a phase failure of the power source.

The device consists of a supply voltage measurement unit 1, connected to the linear supply wires, a switching unit 2, connected to one of the linear supply wires and to the neutral conductor, a phase shift unit 3, connected to the linear supply wires, a signaling unit 4, connected to one of the linear supply wires and to the neutral conductor, the overload protection unit 5, included in the linear supply wires, the three-phase asynchronous electric motor 6, which receives power from the three-phase voltage source 8 through the control unit 7.

The unit for measuring the supply voltage 1 consists of three power resistors NI, H2, VZ, connected in a star, the output clamps of which are connected to the linear wires of the three-phase voltage source 8, which feed the electric motor 6.

Switching unit 2 consists of three intermediate alternating current relays, coils KM1, KM2,

CUZ of which are connected in parallel to power resistors NO, H2, VZ, and opening contacts KM1.1,

KM2.1, KM3.1 are connected in series with the coils KM2, KMZ, KM4 of single-pole contactors, the closing contacts of which are connected in series with the capacitors C1, C2, SZ of the phase shift block 3. The output clamps of the capacitors C1, C2, SSZ of the phase shift block Z are connected to linear wires three-phase voltage sources 8 powering the electric motor 6.

Alarm unit 4 consists of three signal lamps NO, NO2, NO, which are connected

Zo parallel to coils KM2, KMZ, KM4 of single-pole contactors of switching unit 2.

The overload protection unit 5 consists of a thermal relay KK, the heating element of which is included in the linear wires of the three-phase voltage source 8 that feed the electric motor 6, and the opening contact is connected in series to the coil KM' of the magnetic starter of the control unit 7.

The control unit 7 consists of a magnetic starter KM11, the power contacts of which are included in the linear wires of the three-phase voltage source 8, which feed the electric motor 6, one of the clamps of the coil of the magnetic starter KMI is connected through the buttons 5V 1.2 "Start" and ZV 1.1 "Stop" to one of linear wires of the three-phase voltage source 8, and the other clamp - through the opening contact KK1 of the thermal relay to the neutral wire of the three-phase voltage source 8. In parallel with the 5V 1.2 "Start" button, the blocking contact KM1.1 of the magnetic starter is turned on.

The device works as follows. To start the electric motor 6, the button 5V 1.2 is pressed, as a result of which the coil of the magnetic starter KMI receives power from the three-phase voltage source 8 and the magnetic starter is activated, closing the power contacts of the KMI in the circuit of the electric motor 6 and the blocking contact KM1.1. As a result, the electric motor 6 receives power from the three-phase voltage source 8 and starts working. To stop the electric motor 6, press the button 5V 1.1, as a result of which the coil of the KMI magnetic starter loses power and the magnetic starter is turned off. This leads to the fact that its power contacts KMI1 in the circuit of electric motor 6 open, it loses power and stops.

During the operation of the three-phase asynchronous electric motor 6, the preservation of its efficiency in case of interruption of one of the phases of the three-phase voltage source 8 is carried out as follows. If the phases of the three-phase voltage source 8 are complete (that is, do not have a break), then in the power resistors NI1,

Electric currents flow through B2, VZ, which are proportional to the currents of electric motor 6, and a certain voltage is established on the clamps of power resistors VI, H2, VZ, sufficient to activate the intermediate relays KM1, KM2, KMZ. As a result, the coils of these relays receive power and their opening contacts KM1.1, KM2.1, KM3.1 in the circles of coils KM2, KMZ, KM4 of single-pole contactors open. This leads to the fact that the closing contacts KM2.1, KM3.1, KMA4.1 of these contactors in the circuits of capacitors C1, C2, CZ3 open and the electric motor 6 works in normal mode without turning on the phase shifter unit 3.

When phase "A" of the three-phase voltage source 8 breaks, the electric current in the power resistor At disappears, the voltage on the terminals of this resistor also disappears, as a result of which the coil KM1 of the intermediate relay loses power. The opening contact KM1.1 of this relay closes, causing the coil KM2 of the single-pole contactor to receive power. The contactor activates and closes its closing contact KM2.1 in the circuit of the capacitor C1, which is connected between the terminals "a" and "p" of the electric motor 6. As a result, voltage begins to act on the terminals of the sequentially connected windings of the phases "a" and "p" of the electric motor 6, shifted in phase by 90" relative to the voltage on phase "c" of electric motor 6. This leads to the fact that the currents in these windings are also shifted in phase by 90" relative to each other, causing the creation of a rotating magnetic field in electric motor b, as a result of which it continues their work.

At the same time, the NO signal lamp lights up, notifying the service personnel of the interruption of phase "A" of the three-phase voltage source 8.

When the "B" phase of the three-phase voltage source is broken, the electric current in the power resistor is 8

B2 disappears, the voltage on the terminals of this resistor also disappears, as a result of which the coil KM2 of the intermediate relay loses power. The opening contact KM2.1 of this relay closes, causing the KMZ coil of the single-pole contactor to receive power. The contactor activates and closes its closing contact KM3.1 in the circuit of the capacitor C2, which is connected between the terminals "p" and "c" of the electric motor 6. As a result, voltage begins to act on the terminals of the sequentially connected windings of the phases "p" and "c" of the electric motor 6, shifted in phase by 90" relative to the voltage on phase "a" of electric motor 6. This leads to the fact that the currents in these windings are also shifted in phase by 90" relative to each other, causing the creation of a rotating magnetic field in electric motor b, as a result of which it continues their work.

At the same time, the signal lamp NO 2 lights up, notifying the service personnel about the interruption of phase "B" of the three-phase voltage source 8.

When phase "C" of the three-phase voltage source is interrupted, the electric current in the power resistor is 8

The VAZ disappears, the voltage on the terminals of this resistor also disappears, as a result of which the KUZ coil of the intermediate relay loses power. The opening contact KM3.1 of this relay is closed, causing the coil KM4 of the single-pole contactor to receive power. The contactor activates and closes its closing contact KM4.1 in the circuit of capacitor C3, which is connected between terminals "c" and "a" of electric motor 6. As a result, voltage begins to act on the terminals of the sequentially connected windings of phases "c" and "a" of electric motor 6, shifted behind

With a phase of 90" relative to the voltage on phase "p" of electric motor 6. This leads to the fact that the currents in these windings are also shifted out of phase by 90" relative to each other, causing the creation of a rotating magnetic field in the electric motor b, as a result of which it continues its work

At the same time, the NO signal lamp 3 lights up, notifying the service personnel about the interruption of phase "C" of the three-phase voltage source 8.

If any phase of the three-phase voltage source 8 is interrupted, the electric motor continues its operation, but at the nominal current consumption, its power on the shaft will be 75-80 95 of the nominal |Katsman M.M. Directory of electric machines. - M.: Academy, 2005. - 480 p). If the load on the shaft of the electric motor 6 when the source phase breaks is greater than 75-80 95 nominal, then it will be turned off by the CC thermal relay! with the passage of time.

Thus, the device allows you to maintain the performance of a three-phase asynchronous electric motor in the event of a phase interruption of a three-phase power source, which makes it possible to complete a certain technological operation and eliminate a phase interruption of the source during a technological pause.

Claims (1)

USEFUL MODEL FORMULA Device for maintaining the operability of three-phase asynchronous electric motors in the event of a power source phase failure, consisting of a three-phase asynchronous electric motor connected to a single-phase power supply network, an electric motor control unit consisting of a magnetic starter, "Start" and "Stop" buttons, an overload protection unit consisting of from a thermal relay, which differs in that a phase shift block is additionally introduced, which consists of three capacitors included between the output terminals of the electric motor; the unit for measuring the supply voltage, which consists of three power resistors connected in a star and connected to the linear wires that feed the electric motor; the switching unit, which consists of three intermediate alternating current relays, the coils of which are connected in parallel to the power resistors, and the opening contacts are connected in series with the coils of single-pole contactors, of three single-pole alternating current contactors, the power contacts of which are connected in series with the capacitors of the phase shift unit; signaling unit, which consists of three signal lamps that are connected in parallel to the coils of single-pole contactors.