RU2249296C2 - Electric motor switch-mode regulation - Google Patents

Abstract

FIELD: electrical engineering; controlling electric drives of material handling machines such as tower cranes.

SUBSTANCE: proposed device has resistors electrically connected to rotor circuit, switching unit connected to resistors, rectifier bridge built around diodes, and optical thyristor connected across two diagonally opposite terminals of rectifier bridge. The latter is connected to gate electrodes of switching unit. First outputs of triacs are interconnected at junction point. Second output of first triac is connected to first resistor lead, second output of second triac, to third resistor lead, and lead of second resistor is connected to electric junction point of triacs.

EFFECT: simplified design and reduced size of device.

1 cl, 1 dwg

Description

This technical solution relates to electrical engineering, in particular to electric motor control devices having means of pulse-key regulation.

The technical solution is intended for use mainly in electric drives of hoisting-and-transport machines, in particular electric drives of tower cranes, while it can be used in electric drives of other machines having asynchronous electric motors with a phase rotor.

The technical solution relates to devices for controlling the moment and frequency of rotation of the motor shaft, which are based on a comparison of the actual specified parameters with the specified parameters of the electric motor by periodically switching the rotor circuit.

A device for pulse-key regulation of an electric motor, including resistors, a switch, a rectifier bridge, an opto-thyristor, control electrodes and other interconnected controls, which together constitute a complex device [1].

A device for pulse-key regulation of the electric motor, including low-fan circuit, the power part of which is made on a single triac module, this technical solution solves the problem of reducing the size of the device [2].

The closest in essence and the achieved effect to the claimed technical solution is a device of pulse-key regulation of the electric motor, including the first, second and third resistors connected to the electric circuit of the electric motor rotor, the commutator connected to the resistors, the rectifier bridge on the diodes, the opto-thyristor, which is connected to the rectifier bridge, the control electrodes of the switch connected to the rectifier bridge [3].

The solved and achieved goal of this technical solution is to simplify the design of the pulse-key control device and reduce its dimensions. Another goal of the technical solution is to increase the reliability of the device.

These goals are achieved by the fact that in the device of pulse-key regulation of the electric motor, including the first, second and third resistors connected to the electric circuit of the electric motor rotor, a commutator connected to the resistors, a rectifier bridge on the diodes, an opto-thyristor that is connected to the rectifier bridge, the control electrodes of the switch connected to the rectifier bridge, the optothyristor is included in the diagonal of the rectifier bridge, while one of the triac outputs is interconnected by an electrical connection, w first swarm output triac is connected to a terminal of a first resistor, a second output of the second triac connected with a terminal of the third resistor and the terminal of the second resistor connected to the electrical connection between the first and second triacs.

The device of pulse-key regulation of the electric motor, shown in the diagram, includes ballasts 1, 2, 3 with terminals 4, 5, 6, triacs 7 and 8, two outputs of which are interconnected by an electric connection 9, and two other outputs are connected to the terminals of ballasts resistors 1 and 3. Pin 5 of the ballast resistor 2 is connected to an electrical connection 9 between the terminals of the triacs 7 and 8.

The device also includes control electrodes 10 and 11, which, together with triacs 7 and 8, are a switch 12 made on the basis of a semiconductor module and, in contrast to its known use for switching stator circuits of asynchronous motors, this switch is used in this device for switching a circuit electric motor rotor under certain conditions of its operation. Such conditions, in particular, include the fact that during operation of the device the stator circuit of an induction motor is not switched, while switching is carried out in the rotor circuit. An electric motor 13, an asynchronous with a phase rotor, a rectifier bridge 14 on diodes 15 is connected to the resistors 1-3, the opto-thyristor 16 is included in the diagonal of which for the purpose of switching the bipolar control voltage.

The device operates as follows. When the electric motor 13 is turned on and the device is in operation, a pulse-key regulation of the electric motor is carried out in order to stabilize the rotational moment on the electric motor shaft and rotational speed by changing the voltage of the electric rotor circuit by periodically turning the rotor circuit on and off.

When starting an asynchronous electric motor with a phase rotor, the EMF in the rotor has a nominal value. In this case, the threshold element (or key) of the control system (not shown) opens and opens the opto-thyristor 16, which connects the control electrodes of the switch 12. The latter opens and connects the ballast resistors 1-3 to the star.

After that, the electric motor develops a torque and starts to accelerate, while the rotor EMF decreases as the motor accelerates and the threshold (key) element closes at a certain EMF value. With a negative potential at the anode, the optothyristor 16 closes, after which the switch 12 closes.

At the same time, the star of the ballasting resistors 1-3 is open, the electric motor does not develop a moment and begins to brake under the influence of an external load on its shaft. The EMF of the electric motor increases, the threshold (key) element opens again and the process repeats.

A significant advantage over the closest known technical solution is that the device has a simple design, while the mechanical characteristics of the motor shaft in terms of their rigidity are acceptable for electric drives, for example, hoisting machines, in particular for electric drives of tower cranes.

Information sources.

1. A.G. Jure and E.M. Pevzner. Crane electric drive, reference book, M., “Energoatomizdat”, p.273-275, Fig. 8.24.

2. E.M. Pevzner and E.V. Popov. Current Trends and Prospects for the Development of AC Electric Crane Electric Drive, EPPT 01, Yekaterinburg, March 13-16, 2001, pp. 214-216.

3. RU 2101843 C1. 01/10/1998.

Claims (1)

A device for pulse-key regulation of the electric motor, including the first, second and third resistors connected to the electric circuit of the electric motor rotor, a switch connected to resistors, a rectifier bridge on diodes, an opto-thyristor that is connected to a rectifier bridge, the control electrodes of the switch connected to a rectifier bridge, characterized in that the opto-thyristor is included in the diagonal of the rectifier bridge, while one of the triac outputs is interconnected by an electrical connection, the second output is the first- triac is connected to the terminal of the first resistor, a second output of the second triac connected with a terminal of the third resistor and the terminal of the second resistor connected to the electrical connection between the first and second triacs.