KR100536936B1 - A MAGNETIC COIL DRIVING CIRCUIT USING b CONTACT FOR ELECTRONIC MAGNETIC CONTACTOR - Google Patents

Abstract

The present invention relates to an excitation coil drive circuit for an electromagnetic magnetic contactor using a contact b, which is one of the auxiliary contacts, by controlling a current flowing in an excitation coil by using a 'b' contact of one of the auxiliary contacts of the electromagnetic contactor. The ability to simplify circuits and reduce component count can improve product reliability and extend product life.

The excitation coil drive circuit for an electromagnetic magnetic contactor using the contact b according to the present invention includes a power supply unit for supplying power, a full-wave rectifier circuit unit for full-wave rectifying power received from the power supply unit, the power supply unit and the A surge absorption section connected between the full wave rectifying circuit sections and absorbing surge power flowing therebetween; a noise filter circuit section connected between the surge absorption section and the full wave rectifying circuit section and removing noise flowing therebetween; An excitation coil drive circuit for an electromagnetic contactor having a discharge circuit portion connected to both ends of an excitation coil and discharging a current flowing in the excitation coil, wherein the excitation coil is connected between the full-wave rectifying circuit portion and the excitation coil. Supply current from the full-wave rectifying circuit section to the exciting coil until A contact point b of the exciting coil which is opened when the exciting coil is excited; And a resistor connected between an input terminal and an output terminal of the b contact portion of the exciting coil to maintain a current flow to the exciting coil when the b contact of the exciting coil is opened.

Description

Exciting coil driving circuit for electromagnetic contactor using non-contact {A MAGNETIC COIL DRIVING CIRCUIT USING b CONTACT FOR ELECTRONIC MAGNETIC CONTACTOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic magnetic contactor. In particular, the 'b' contact of one of the auxiliary contacts of the electromagnetic magnetic contactor is used to control the current flowing through the excitation coil, thereby simplifying a circuit and reducing the number of parts. An excitation coil driving circuit for an electromagnetic contactor.

In general, an electronic magnetic contactor is a device that forms a magnetic switch together with a thermal relay (thermal overload relay) to prevent a load side such as a motor from being burned out. And a contact portion and a frame for assembling it into one, and the load is opened and closed by opening and closing the contact by excitation of the coil of the electromagnet and element.

1 is a circuit diagram of an exciting coil driving circuit for an electromagnetic magnetic contactor according to the prior art.

As shown in FIG. 1, the excitation coil driving circuit for the electromagnetic magnetic contactor includes a power supply unit 10, a surge absorption unit 20, a noise filter circuit unit 30, a full-wave rectifier circuit unit 40, and a discharge. The circuit part 50, the excitation coil 60, the pulse width modulation circuit part 70, and the transistor drive circuit part 80 are comprised.

The transistor driving circuit section 80 is connected between a transistor TR driven by an output signal of the pulse width modulation circuit section 70 and a terminal connected to the gate of the transistor TR and a ground voltage Vss. It consists of a resistor (R).

The DC voltage generated by the power supply unit 10 is applied to the excitation coil 60 through the surge absorbing unit 20, the noise filter circuit unit 30, and the full wave rectifying circuit unit 40. The current of the exciting coil 60 is controlled by the transistor driving circuit 80 through the pulse width modulation circuit 70.

That is, the transistor TR of the transistor driving circuit unit 80 is turned on / off by the output of the pulse width modulation circuit unit 70. At this time, current flows in the exciting coil 60 in the ON state of the transistor TR, while current flow is blocked in the exciting coil 60 in the OFF state of the transistor TR. The current flowing in the exciting coil 60 is discharged through the discharge circuit unit 50.

The excitation coil drive circuit for the electromagnetic contactor may limit the current flowing in the excitation coil 60 according to the long and short of the output frequency of the pulse width modulation circuit unit 70 and the ON time of the transistor TR. do.

As shown in FIG. 1, the conventional excitation coil driving circuit for the electromagnetic electromagnetic contactor having the above-described configuration includes the pulse width modulation circuit part 70 and the transistor driving circuit part for controlling the current of the excitation coil 60. 80) and the discharge circuit part 50, the circuit is complicated and there is a problem that the number of parts increases.

In addition, the manufacturing cost is increased due to the increase in the number of parts, and there was a problem in terms of reliability of the product.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to simplify the circuit and control the number of parts by controlling the current flowing through the exciting coil by using the 'b' contact of one of the auxiliary contacts of the electromagnetic contactor. The present invention provides an excitation coil drive circuit for an electromagnetic contactor using a contact b with reduced voltage.

Exciting coil drive circuit for an electromagnetic magnetic contactor using a contact b according to the present invention for achieving the above object, the power supply unit for supplying power, the full-wave rectification circuit unit for full-wave rectifying the power received from the power supply unit, A noise absorber connected between a power supply unit and the full-wave rectifier circuit unit to absorb surge power flowing therebetween, and a noise connected between the surge absorber and the full-wave rectifier circuit unit to remove noise flowing therebetween An excitation coil drive circuit for an electromagnetic contactor having a filter circuit portion and a discharge circuit portion connected to both ends of an excitation coil for discharging a current flowing through the excitation coil, the excitation coil driving circuit for an electromagnetic contactor connected between the full wave rectifying circuit portion and the excitation coil, The current from the full-wave rectifying circuit section is reset until the exciting coil is excited. A b contact part of the exciting coil which is supplied to the child coil and is opened when the exciting coil is excited; And a resistor connected between an input terminal and an output terminal of the b contact portion of the exciting coil, and maintaining a current flow to the exciting coil when the b contact of the exciting coil is opened. The excitation coil drive circuit for an electromagnetic magnetic contactor using another b contact according to the present invention includes a power supply unit for supplying power, a full-wave rectifier circuit unit for full-wave rectifying power received from the power supply unit, the power supply unit and the radio wave A surge absorption section connected between the rectifier circuit sections and absorbing surge power flowing therebetween; a noise filter circuit section connected between the surge absorption section and the full-wave rectification circuit section and removing noise flowing therebetween; A discharge circuit portion connected to both ends of the coil and configured to discharge current flowing through the exciting coil; In the excitation coil drive circuit for a child magnetic contactor, it is connected between the full-wave rectifying circuit section and the exciting coil, and supplies current from the full-wave rectifying circuit section to the exciting coil until the exciting coil is excited, B contact portion of the exciting coil that is open when excited; And a resistor and a capacitor connected in series between the input terminal and the output terminal of the b contact portion of the excitation coil to maintain current flow to the excitation coil when the b contact of the excitation coil is opened. With reference to the drawings will be described in detail an embodiment of the present invention.

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2 is a circuit diagram of an excitation coil driving circuit for an electromagnetic magnetic contactor according to a first embodiment of the present invention.

As shown in FIG. 2, the excitation coil driving circuit for the electromagnetic magnetic contactor includes a power supply unit 10, a surge absorption unit 20, a noise filter circuit unit 30, a full-wave rectifier circuit unit 40, and a discharge. The circuit part 50, the excitation coil 60, and the b contact part 100 are comprised.

The surge absorption unit 20, the noise filter circuit unit 30, and the full wave rectifier circuit unit 40 are sequentially connected between the power supply unit 10 and the excitation coil 60, and the excitation coil 60 is connected to the power supply unit 10 and the excitation coil 60. The discharge circuit portion 50 is connected to both ends of the.

As shown in FIG. 2, the b contact part 100 is connected between the full-wave rectifying circuit part 40 and one terminal of the excitation coil 60 and is connected to both ends of the b contact and the b contact. It consists of a resistor R1.

In the configuration of FIG. 2, the surge absorption unit 20, the noise filter circuit unit 30, and the discharge circuit unit 50 may be omitted as necessary.

The DC voltage generated by the power supply unit 10 passes through the surge absorbing unit 20, the noise filter circuit unit 30, and the full wave rectifying circuit unit 40 through the b contact unit 100. Is applied to the excitation coil 60.

Then, after the magnetic contactor is sufficiently operated, the b contact part 100 is automatically switched to the open state. At this time, the b contact portion 100 is supplied with a holding current to the excitation coil 60 through the resistor (R1).

When the supply of power is cut off from the power supply unit 10, the discharge circuit unit 50 discharges current flowing through the excitation coil 60. If the discharge circuit unit 50 is omitted, the discharge circuit is configured through the diode of the full-wave rectifying circuit unit 40.

3 is a circuit configuration diagram of an excitation coil driving circuit for an electromagnetic magnetic contactor according to a second embodiment of the present invention.

As shown in FIG. 3, the excitation coil driving circuit for the electromagnetic magnetic contactor includes a power supply unit 10, a surge absorption unit 20, a noise filter circuit unit 30, a full-wave rectifier circuit unit 40, and a discharge. The circuit part 50, the excitation coil 60, and the b contact part 110 are comprised.

The surge absorption unit 20, the noise filter circuit unit 30, and the full wave rectifier circuit unit 40 are sequentially connected between the power supply unit 10 and the excitation coil 60, and the excitation coil 60 is connected to the power supply unit 10 and the excitation coil 60. The discharge circuit portion 50 is connected to both ends of the.

As shown in FIG. 3, the b contact part 110 is connected between the noise filter circuit part 30 and the full wave rectifying circuit part 40, and a resistor connected in series between both the b contact point and the b contact point. (R2) and a capacitor (C).

In the configuration of FIG. 3, the surge absorbing unit 20, the noise filter circuit unit 30, and the discharge circuit unit 50 may be omitted as necessary.

The DC voltage generated by the power supply unit 10 is excited through the surge absorbing unit 20, the noise filter circuit unit 30, the b contact unit 110, and the full wave rectifying circuit unit 40. Is applied to the coil 60.

Then, after the magnetic contactor is sufficiently operated, the b contact portion 110 is automatically switched to the open state. At this time, the b contact part 110 is supplied with a holding current to the exciting coil 60 through the resistor (R2) and the capacitor (C).

When the supply of power is cut off from the power supply unit 10, the discharge circuit unit 50 discharges current flowing through the excitation coil 60. If the discharge circuit unit 50 is omitted, the discharge circuit is configured through the diode of the full-wave rectifying circuit unit 40.

Preferred embodiments of the present invention as described above are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and changes belong to the following claims Should be seen.

As described above, according to the excitation coil driving circuit for an electromagnetic magnetic contactor using the b contact according to the present invention, the current flowing through the exciting coil is controlled by using the 'b' contact of one of the auxiliary contacts of the electromagnetic magnetic contactor. This simplifies the circuit and reduces the number of parts, thus improving product reliability and extending product life.

In addition, there is an effect that can operate stably without malfunction by simplifying the circuit and reducing the number of parts that the circuit malfunctions due to noise components generated due to the existing complex circuit configuration and driving.

1 is a circuit diagram of an excitation coil driving circuit for an electromagnetic magnetic contactor according to the prior art.

2 is a circuit diagram of an excitation coil driving circuit for an electromagnetic magnetic contactor according to a first embodiment of the present invention.

3 is a circuit configuration diagram of an excitation coil driving circuit for an electromagnetic magnetic contactor according to a second embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

10: power supply 20: surge absorber

30: noise filter circuit portion 40: radio wave current circuit portion

50: discharge circuit 60: excitation coil

70 pulse width modulation circuit section

80: transistor driving circuit section

100, 110: b contact

Claims (10)

Surge absorption absorbing surge power flowing between the power supply unit for supplying power, the full-wave rectifying circuit unit for full-wave rectifying the power received from the power supply unit, and the power supply unit and the full-wave rectifying circuit unit. And a noise filter circuit section connected between the surge absorption section and the full-wave rectifying circuit section to remove noise flowing therebetween, and a discharge circuit section connected to both ends of the exciting coil to discharge current flowing through the exciting coil. In the excitation coil drive circuit for an electromagnetic magnetic contactor, B of the exciting coil connected between the full-wave rectifying circuit portion and the exciting coil to supply current from the full-wave rectifying circuit portion to the exciting coil until the exciting coil is excited and to be open when the exciting coil is excited. Contact portion; And An electronic contact using a non-contact including a resistor connected between an input terminal and an output terminal of the b contact portion of the exciting coil to maintain a current flow through the exciting coil when the b contact of the exciting coil is opened. Female coil drive circuit. delete delete delete delete Surge absorption absorbing surge power flowing between the power supply unit for supplying power, the full-wave rectifying circuit unit for full-wave rectifying the power received from the power supply unit, and the power supply unit and the full-wave rectifying circuit unit. And a noise filter circuit section connected between the surge absorption section and the full-wave rectifying circuit section to remove noise flowing therebetween, and a discharge circuit section connected to both ends of the exciting coil to discharge current flowing through the exciting coil. In the excitation coil drive circuit for an electromagnetic magnetic contactor, B of the exciting coil connected between the full-wave rectifying circuit portion and the exciting coil to supply current from the full-wave rectifying circuit portion to the exciting coil until the exciting coil is excited and to be open when the exciting coil is excited. Contact portion; And A non-contact including a resistor and a capacitor connected in series between the input terminal and the output terminal of the contact point b of the excitation coil to maintain current flow to the excitation coil when the contact point b of the excitation coil is opened. Excitation coil drive circuit for electromagnetic contactor. delete delete delete delete