RU2047264C1 - A c drive - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: a.c. drive has induction motor 1, starting and running capacitors 2 and 3, magnetic starter 4 with make contact groups 5,6,7, START buttons with contact groups 8 and 9, and STOP button with contact group 10. Pushing START button makes magnetic starter 4 operate, and supply voltage is applied to motor 1. While START button is ON, starting capacitor 2 is energized. START button is released after motor 1 gains rated speed. This de-energized starting capacitor 2. Electric motor runs with running capacitor 3 energized. ON-state of magnetic starter 4 is attained due to self-holding of starter coil by make contact 5. For stopping motor 1 STOP button 10 should be pushed. EFFECT: improved performance characteristics due to improved reliability as result of reduced quality of contact members passing starting current; improved efficiency due to reduced number of contact resistors inserted during starting movement. 1 dwg

Description

 The present invention relates to electrical engineering and can be used to control asynchronous motors when powered from a single-phase network.

 A device for starting a single-phase asynchronous squirrel-cage motor, comprising a series-connected electrolytic capacitor, a bypass contact, connected to an auxiliary winding, shifted in space relative to the main winding, while the contact is shunted by a half-wave rectifier.

 The disadvantage of this device is the complexity of operation, since before starting the electric motor, a preliminary charge of the capacitor is required, and there is no zero protection, which leads to the possibility of self-starting.

 Known AC electric drive containing an asynchronous motor, starting and working capacitors, some of which are combined and connected to the first phase of the stator winding of the electric motor, the other output of the working capacitor is connected to the output of the second stator winding of the electric motor, a relay with a coil and three make contacts, the Start button "and" Stop "and a three-phase diode bridge.

 The disadvantage of this device is its complexity, due to the presence of a three-phase network, creating a non-standard voltage to power the relay. The presence of two types of AC and DC voltages complicates the maintenance of the device due to the need for an additional DC power source during repair work.

 The closest in technical essence to the proposed one is an AC electric drive containing an induction motor with starting and working capacitors, a starter with an alternating current coil and with three make contacts, the Start and Stop buttons.

 Low performance is a disadvantage of this device.

 The aim of the invention is to improve operational characteristics by increasing reliability by reducing the number of contact elements through which the inrush current passes, as well as increasing efficiency by reducing the number of transient contact resistances at the time of starting.

 This goal is achieved by the fact that the AC drive contains an induction motor with starting and working capacitors, some of which are combined and connected to the output of the first phase of the stator winding, another output of the working capacitor is connected to the output of the second phase of the stator winding, a starter with an alternating current coil and with three make contacts, some conclusions of the first and second make contacts are connected respectively to conclusions of the second and third phases of the stator winding, other conclusions of the first and the second closing contacts of the starter are connected to the clamps for connecting to one and the other phases of the power source, the first terminal of the coil of the magnetic starter is connected to the first phase of the power source, the Stop button, made in the form of an opening contact group, the Start button, made in the form two closing contact groups, the second output of the magnetic starter coil through the stop button disconnecting contact group connected in series, the first and second starting contact groups of the start button is connected to the first phase Power supply, the second terminal of the starting capacitor is connected to a junction point series-connected groups of make contact button "Start", which is shunted by a third make contact magnetic switch.

 The drawing shows a schematic diagram of an AC electric drive.

 The AC electric drive contains an asynchronous electric motor 1 with starting 2 and working 3 capacitors, some of which are combined and connected to the output of the first phase of the stator winding, another output of the working capacitor 3 is connected to the output of the second phase of the stator winding, starter 4 with an alternating current coil and s three make contacts 5, 6 and 7, some conclusions of make contacts 6 and 7 are connected respectively to the conclusions of the second and third phases of the stator winding, the other conclusions of contacts 6 and 7 of the magnetic starter 4 are connected to presses to connect to one and the other phases of the power source, the first output of the coil of the magnetic starter 4 is connected to the first phase of the power source, the Start button, made in the form of two make contacts 8 and 9, the Stop button, made in the form of open contact 10 , the second terminal of the coil of the magnetic starter through the series-connected contacts 10 of the Stop button, the contacts 8 and 9 of the Start button are connected to the second phase of the power source, the second terminal of the starting capacitor is connected to the connection point of the series-connected abutting contact groups 8 and 9, the "Start" button, which make contact 5 shunted magnetic switch 5.

 Electric AC operates as follows.

 When you press the "Start" button, its contacts 9 and 8 are closed and an alternating voltage is applied to the coil of the magnetic starter 4. The starter 4 closes its contacts 5, 6 and 7, supplying the mains voltage to the electric motor 1. At the same time, during the closed state of the "Start" button, the starting capacitor 2 is turned on via the making contact 9, as well as the contacts 8 and 5 connected in parallel to it. The Start button released after acceleration of the motor 1 to the rated speed. In this case, the starting capacitor 2 is turned off.

 The electric motor 1 works with the connected working capacitor 3. The on state of the starter 4 is achieved due to the self-holding of the starter coil by the make contact 5.

 To stop the motor 1, press the "Stop" button 10. The starter coil 4 is turned off, and the motor 1 by the make contacts 6 and 7 is disconnected from the network.

 When the mains voltage disappears, the starter coil 4 is de-energized, contacts 5-7 open and the motor 1 is also disconnected from the network.

 In this device, reliability is improved by reducing the number of contacts through which the inrush current passes, and also efficiency is improved by reducing the number of contact transients, which is an advantage of the proposed technical solution compared to the prototype.

Claims (1)

 An AC electric drive containing an asynchronous electric motor with starting and working capacitors, some of which are combined and connected to the output of the first phase of the stator winding, another output of the working capacitor is connected to the output of the second phase of the stator winding, a starter with an alternating current coil and with three make contacts, some conclusions of the first and second make contacts are connected respectively to the conclusions of the second and third phases of the stator winding, other conclusions of the first and second make contacts The device is connected with clamps for connecting to one and the other phases of the power source, the first terminal of the magnetic starter coil is connected with a clamp for connecting to the other phase of the power source, the Stop button, the Start button, made in the form of two interlocked make contacts, characterized the fact that the second terminal of the magnetic starter coil is connected through a series of disconnecting "Stop" button, the first and second closing contacts of the "Start" button are connected to a clamp for connecting to one phase of the power supply, second The output terminal of the starting capacitor is connected to a common point of connection of the start-up make-up contacts of the start button, which are shunted by the third make-contact of the magnetic starter.