RU2268525C9 - Device for controlling three-phased asynchronous electric engine with short-circuited rotor - Google Patents

Abstract

FIELD: electric engineering, possible use for engineering and production of electric engines acting as parts of industrial machines.

SUBSTANCE: device for controlling three-phased asynchronous electric engine with short-circuited rotor has controlled phases of network with grounded zero bus, electric engine with stator windings, braking contactor with three closing contacts, capacitors, connected in accordance to triangular circuit, three primary diodes, three additional diodes, two auxiliary capacitors, three resistors, one of which is with middle point, and an executive organ. Working contactor is equipped with two additional disengaging contacts.

EFFECT: higher efficiency of braking and prevented loss of one or more phases.

1 dwg

Description

The invention relates to electrical engineering and can be used in electric drives of general industrial mechanisms.

A device for controlling a three-phase asynchronous squirrel-cage rotor motor, comprising controlled phases of a network with a grounded zero bus, an electric motor with three phase stator windings connected through the make contacts of the working contactor to the network, a brake contactor with three make contacts, capacitors connected according to the "triangle" "and connected in phase through the closing contacts of the brake contactor to the stator winding, to the common connection points of the capacitors, respectively the cathodes of the three main diodes are connected, the anodes of which are connected together, the resistors I I I.

The disadvantages of this device are low braking performance and low reliability, in particular there is no protection of the engine from the disappearance of one or more phases.

The purpose of the invention is to increase braking efficiency and reliability and to protect the engine from the disappearance of one or more phases. This goal is achieved by the fact that in a device for controlling a three-phase asynchronous squirrel-cage rotor motor containing controlled phases of a network with a grounded zero bus, an electric motor with three phase stator windings connected through the make contacts of the operating contactor to the network, a brake contactor with three make contacts, capacitors connected according to the "triangle" scheme and connected in phase through the make contacts of the brake contactor to the stator winding, to common connection points to respectively, the cathodes of the three main diodes, the anodes of which are connected together, are connected to the resistors, three additional disconnecting contacts of the working contactor, three diodes, two auxiliary capacitors, three resistors, one of which with an average terminal, and an actuator, the first conclusions of the three phase stator windings are introduced into the resistors connected to a star, the second terminals of these windings through the make contacts of the working contactor are connected in phase to the network and through the make contacts of the working contactor are respectively connected to to the capacitors and cathodes of the main diodes, the common connection point of the anodes of these diodes is connected to the cathode of the first additional diode and the first output of the first make contact of the brake contactor, the second output of which is connected to the cathode of the second additional diode, to the first output of the second make contact of the brake contactor and to the positive lining of the first auxiliary capacitor, the negative lining of which is connected to the anode of the first additional diode, with the star of the stator winding of the motor, with the third anode about the additional diode and the first output of the third make contact of the brake contactor, the second output of this contact is connected to the first output of the first resistor, and to the first output of the second resistor, and to the negative lining of the second auxiliary capacitor, the positive lining of which is connected to the cathode of the third additional diode and the second output the second make contact of the brake contactor, and the second terminal of the second resistor and the first terminal of the third resistor are connected to the anode of the second additional diode, the second whose output is coupled to a second terminal of the first resistor and connected to the neutral bus, a first terminal connected to the body reacts star stator motor winding and its second terminal is connected to the middle terminal of the second resistor.

The drawing shows a diagram of the device.

Devices for controlling a three-phase asynchronous squirrel-cage rotor motor contains controlled phases (A, B, C) of a network with a grounded neutral bus (N), an electric motor (1) with three phase windings (2, 3, 4), a working contactor with make contacts ( 5, 6, 7) and a brake contactor with make contacts (8, 9, 10), capacitors (11, 12, 13) connected in a “triangle” circuit, respectively, the cathodes of the three main diodes are connected to the common connection points of these capacitors (14 , 15, 16), in addition three disconnecting contacts (17, 18, 19) its contactor, three diodes (20, 21, 22), two auxiliary capacitors (23, 24), three resistors (25, 26, 27), the resistor 26 has a middle terminal, an actuator (28), the first conclusions of phase windings (2 , 3, 4) the stator (1) are connected to a star, the second outputs of these windings through the make contacts (5, 6, 7) of the working contactor are connected in phase to the network (2, 5, A), (3, 6, B), ( 4, 7, C) and through the opening contacts (17, 18, 19) of the working contactor, respectively (2, 17, 11, 12, 14) - (3, 18, 12, 13, 15) - (4, 19, 11 , 13, 16) are connected to capacitors (11, 12, 13) and to the cathodes of diodes (14, 15, 16), the common point of connection of the anodes of the diode in (14, 15, 16) is connected to the cathode of the first additional diode (20) and the first output of the first make contact (8) of the brake contactor, the second output of which is connected to the cathode of the second additional diode (21), to the first output of the second make contact (9 ) of the brake contactor and to the plus side of the first auxiliary capacitor (23), the negative side of which is connected to the anode of the first additional diode (20), with the star of the windings (2, 3, 4) of the motor (1), with the anode of the third additional diode (22) and the first conclusion of the third closing of its contact (10) of the brake contactor, the second output of which is connected to the first output of the first resistor (25), and to the first output of the second resistor (26), and to the minus plate of the second auxiliary capacitor (24), the plus plate of which is connected to the cathode of the diode ( 22) and the second terminal of the contact (9), and the second terminal of the resistor (26) and the first terminal of the third resistor (27) are connected to the anode (21), the second terminal of which is connected to the second terminal of the resistor (26) and is connected to the zero bus (N ), the first output of the reacting organ (28) is connected to the star of the windings (2, 3, 4) of the engine (1), and its second terminal is connected to the middle terminal of the resistor (26).

The device operates as follows.

Upon receipt of the working contactor, its contacts (5, 6, 7) connect the windings (2, 3, 4) of the motor (1) to the network (A, B, C), the contacts (17, 18, 19) open. A controlled three-phase voltage is applied to the terminals (A, B, C). In the presence of voltage of all phases, the voltage at the star’s zero point (2, 3, 4) is close to zero. If one or two phases disappears at the star’s zero point (2, 3, 4), an alternating voltage appears, which is rectified by the diode (21), and a capacitor (23) is charged through the resistors (25, 26, 27) and rectified by the diode (22) and a capacitor (24) is charged through resistors (25, 26, 27). Alternating voltage in turn leads to the actuation of the reacting organ (28). The reacting organ (28) disconnects the working contactor. When the working contactor is disconnected, its contacts (5, 6, 7) open, and the contacts (17, 18, 19) close. The engine (1) is disconnected from the mains. The process of its capacitor braking with the help of capacitors begins (11, 12, 13). Then the process of engine braking occurs, by closing the phase windings (2, 3, 4) of the stator (1) through diodes 14, 15, 16, 20, respectively (2-14-20), (3-15-20), (4-16 -twenty). Then the brake contactor is turned on and the contacts are closed (8, 9, 10). Charged capacitors (23, 24) through diodes (14, 15, 16) begin to discharge to the windings (2, 3, 4). The process of dynamic engine braking. After the engine stops, the brake contactor is switched off. At all stages of braking, the braking current of the same magnitude passes through the phase windings of the motor.

Thanks to the introduction of additional elements into the circuit, the energy of charged capacitors from the voltage appearing at the zero point of the star is used for braking.

Intensive and effective braking is provided.

The motor is protected from phase failure of the network.

Reduced engine heat, which increases reliability.

Claims (1)

A device for controlling a three-phase asynchronous squirrel-cage rotor motor, containing the controlled phases of the network with a grounded bus, an electric motor with three stator windings connected through the make contacts of the working contactor to the network, a brake contactor with three make contacts, capacitors connected according to the "triangle" circuit and connected phase-wise to the stator winding, to the common connection points of the capacitors respectively connected are the cathodes of the three main diodes, the anodes of which are connected together, the sources, additionally introduced three opening contacts of the working contactor, three diodes, two auxiliary capacitors, three resistors, one of which is with the middle terminal, and an actuator, the first conclusions of the three-phase stator windings are connected to a star, the second conclusions of these windings through the opening contacts of the working contactor, respectively connected to the capacitors and to the cathodes of the main diodes, the common point of connection of the anodes of these diodes is connected to the cathode of the first additional diode and the first output of the first closing circuit a brake contactor, the second terminal of which is connected to the cathode of the second additional diode, to the first terminal of the second make contact of the brake contactor and to the plus side of the first auxiliary capacitor, the negative side of which is connected to the anode of the first additional diode, from the stator stator winding of the electric motor, to the anode of the third additional diode and the first output of the third make contact of the brake contactor, the second output of this contact is connected to the first output of the first resistor , to the first terminal of the second resistor and to the negative side of the second auxiliary capacitor, the positive side of which is connected to the cathode of the third additional diode and the second terminal of the second make contact of the brake contactor, and the second terminal of the second resistor and the first terminal of the third resistor are connected to the anode of the second additional diode, the second the output of which is connected to the second output of the first resistor and is connected to the zero bus, the first output of the actuator is connected to the star of the stator winding of the electric vigatelya, while its second terminal is connected to the middle terminal of the second resistor.