RU2210150C2 - Nonreversible contactor - Google Patents

Abstract

FIELD: frequent-switching apparatuses for power circuits including motor control devices. SUBSTANCE: nonreversible contactor designed for operations at high peak distortions of control signal has groups of power input and output terminals, first (minus) and second (plus) control signal terminals, two resistors, diode, control relay, and two closing relays. EFFECT: enhanced reliability. 3 cl, 1 dwg

Description

 The invention relates to electrical engineering and can be used to create equipment for frequent switching of power electrical circuits, in particular when controlling heat when controlling electric motors.

 A device containing a magnetic starter, made in the form of a contactor and two built-in thermal protection relay [1].

 The disadvantage of this device is the relatively narrow functionality.

 Closest to the proposed device is a device containing the first and second groups of power input-output terminals, the first and second control signal terminals, control relays, windings, a diode and a resistor connected in series, an opening relay contact, a first and second relay, a group of make contacts the first switching relay, the inputs / outputs of which are connected to the group of inputs and outputs of the first group of terminals of the power inputs / outputs, the first and second closing contacts of the second switching relay, the input terminals of the cat They are connected to the second group of power input-output terminals, and the output are connected to the first terminal of the control relay and the first terminal of the NC contact of the second switching relay, respectively, while the NC contact of the control relay is connected in series to the second switching relay, the second terminal of the NC contact of which is connected to the input contact resistor [2].

 The disadvantage of the closest technical solution is the relatively low reliability due to the fact that, when using the device in conditions of high peak distortion of the control voltage, it can fail.

 The aim of the invention is to increase the reliability of the device.

 The required technical result is to increase the reliability of the device.

 The required technical result is achieved in that in a device containing the first and second switching relays, each of which contains a group of contacts, the first and second terminals for connecting a control signal, the first and second groups of terminals, each of which contains terminals for connecting power inputs and terminals for connecting power outputs, a circuit from a series-connected diode and a first resistor, a control relay containing an NC contact, while the terminals of the first and second groups for connecting power inputs are connected with the corresponding terminals for connecting the power outputs through the corresponding contacts of the first and second switching relays, respectively, the second switching relay contains an additional closing contact, a second resistor is introduced, and the control relay contains a closing contact, while the winding of the first switching relay, the winding of the second switching relay and an additional the closing contact of the second switching relay is connected in series, the extreme terminals of the series circuit formed in this case are connected to the corresponding terminals for connecting the control signal, to which the corresponding extreme terminals of the circuit formed by the control relay winding and the control relay opening contact are connected in series, a circuit from the second resistor and the control relay making contact connected in series parallel to the relay winding is connected in parallel to the auxiliary closing contact of the second relay control circuit is connected from a series-connected diode and a first resistor, the diode of which is included in riam direction with respect to the polarity control signal.

 In addition, the required technical result is achieved by the fact that each of the contact groups of the first and second switching relays contains opening and closing contacts.

 In addition, the required technical result is achieved by the fact that the control signal is a control unipolar voltage or unipolar control current.

 The drawing shows an electrical block diagram of one of the possible embodiments of the invention.

 The non-reversing contactor contains the first 1-1 and second 1-2 groups of terminals of the power inputs and power outputs, the first 2-1 (minus) and the second 2-2 (plus) terminals of the control signal, the second resistor 3, the diode 4 and the resistor 5 connected in series , winding 6 of the control relay, in parallel with which are connected in series diode 4 and resistor 5, opening contact 7 of the control relay, making contact 8 of the control relay, serially connected winding 9 of the first switching relay, the first terminal of which is connected to the second terminal 2-2 of the control the signal, and the winding 10 of the second switching relay, the second terminal of which is connected through a communication resistor 3 to the terminal of the make contact 8 of the control relay, the other terminal of which is connected to the second terminal of the make contact 7 of the control relay, and to the first terminal 2-1 of the control signal, group 11-1 contacts of the first switching relay and a group of 11-2 contacts of the second switching relay, making contact 12 of the second switching relay 9 connected between the second terminal of the winding 10 of the second switching relay and the first terminal 2-1 of the control signal a, the group of inputs and outputs of the group of 11-1 contacts of the first switching relay and the group of 11-2 contacts of the second switching relay connected to the first 1-1 and second 1-2 groups of terminals of the power inputs / outputs. The cathode of the diode 4 is connected to the second terminal of the winding 6 and the first terminal of the NC contact 7 of the control relay, and the first terminal of the winding 6 is connected to the second terminal 2-2 of the control signal.

 Non-reversing contactor operates as follows.

 When a control signal is supplied to the first 2-1 (minus) and second 2-2 (plus) terminals of the control signal, it passes through the opening contact 7 and the control relay 6, as well as through a chain of diode 4 and resistor 5 connected in series, which are connected in parallel control relay 6 in such a way that the direction of switching on of diode 4 coincides with the polarity of the control signal, and perform functions to reduce the influence of peak current surges on control relay 6 at the moment of switching on the contactor. This leads to the closure of the make contact 8 and the opening of the make contact 7. As a result, the control signal passes through the communication resistor 3 and the coil 9 of the first switching relay and the winding 10 of the second switching relay, which leads to the operation of the contacts of group 11-1 of the contacts of the first switching relay and groups 11-2 of the contacts of the second switching relay controlling the motor circuits, as well as to the closure of the make contact 12. As a result, the communication resistor 3 is short-circuited, which ceases to perform short-term functions lazhivaniya emission peak current flowing through the windings 9 and 10 including the relay at the time of switching device. This leads to increased reliability of the non-reversing contactor during its operation.

Sources of information
1. V.V. Moskalenko, Electric Drive., M., Higher School, 2000, p. 269, fig. 10.31.

 2. V.V. Moskalenko, Electric Drive, M., Mastery, Higher School, 2000, p. 277, fig. 10.38, a.

Claims (3)

 A non-reversible contactor containing the first and second switching relays, each of which contains a group of contacts, the first and second terminals for connecting a control signal, the first and second groups of terminals, each of which contains terminals for connecting power inputs and terminals for connecting power outputs, a circuit from connected in series with a diode and a first resistor, a control relay containing an NC contact, while the terminals of the first and second groups for connecting the power inputs are connected to the corresponding terminals for connecting In order to open the power outputs through the corresponding contacts of the first and second switching relays, respectively, the second switching relay contains an additional closing contact, characterized in that a second resistor is introduced, and the control relay contains a closing contact, while the winding of the first switching relay, the winding of the second switching relay and an additional closing the contact of the second switching relay is connected in series, the extreme terminals of the serial circuit formed in this case are connected to the corresponding terminals for connecting the value of the control signal, to which the corresponding extreme terminals of the circuit formed by the control relay coil and the control relay opening contact are connected in series, a circuit from the second resistor and the control relay making contact connected in series is connected in parallel with the additional second contact of the control relay, and the control relay winding is connected in parallel a circuit of a series-connected diode and a first resistor, the diode of which is turned on in the forward direction o regarding the polarity of the control signal.  2. The device according to p. 1, characterized in that each of the contact groups of the first and second switching relays contains opening and closing contacts.  3. The device according to p. 1 or 2, characterized in that the control signal is a control unipolar voltage or unipolar control current.