KR101066812B1 - Standby power cutoff apparatus for electronic appliances - Google Patents

Abstract

The present invention is a switch;

A first relay driven according to the operation of the switch;

An AC input terminal, an AC sub-output terminal, and an AC main output terminal for supplying AC to an electric or electronic product by driving the first relay;

A transformer for transforming an electrical signal received from the AC main output terminal;

A rectifier circuit unit for rectifying the electrical signal output from the transformer;

A second relay driving circuit unit generating a driving signal from the electrical signal from the rectifying circuit unit; And

A second relay driven by the second relay driving circuit unit to supply alternating current to the AC sub output terminal and to block the first relay;

It provides a standby power cutoff device of an electrical or electronic product including a.

Standby power, shut off

Description

Standby power cut-off device for electronic products {STANDBY POWER CUTOFF APPARATUS FOR ELECTRONIC APPLIANCES}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standby power cut-off device for electronic products. More particularly, the electronic products can be operated together by an operation of pushing a switch ON, and the plug is switched off when the system is turned off. The present invention relates to a standby power cut-off device of an electronic product that can completely cut off power consumed by standby power by giving the same effect as a pulled-out power.

All electronics in use today consume standby power if the system is unplugged even when the system is off. As such, many efforts have been made to reduce standby power required for electronic products, and products such as multi-chem for blocking standby power have appeared. However, even in the case of such multi-chems, after the multi-chem switch is turned on to turn on the electronics, the electronics must be switched on again, and standby power is turned off while the system of the electronics is turned off. In order to shut down, there has been a hassle of switching off the Multichem again.

Many users of electronic products do not know the existence of such standby power, or often do not unplug or switch off the Multi-Chem simply because it is bothersome and cumbersome. Is in a very serious situation.

Accordingly, the development of a new device that operates the electronic products by one operation while eliminating user's hassle, and gives the same effect as unplugging the plug even when the electronic products are switched off. This is required.

The present invention has been proposed to solve the problems of the prior art as described above,

Its purpose is to push the switch on to operate the electronics together and give the same effect as unplugged even when the system is off when the plug is not removed. An object of the present invention is to provide a standby power cut-off device for electronic products that can completely cut off power consumption.

The technical problem of the present invention as described above is achieved by the following means.

(1) a switch;

A first relay driven according to the operation of the switch;

An AC input terminal, an AC sub-output terminal, and an AC main output terminal for supplying AC to an electric or electronic product by driving the first relay;

A transformer for transforming an electrical signal received from the AC main output terminal;

A rectifier circuit unit for rectifying the electrical signal output from the transformer;

A second relay driving circuit unit generating a driving signal from the electrical signal from the rectifying circuit unit; And

A second relay driven by the second relay driving circuit unit to supply AC to the AC sub-output terminal and to block the first relay;

Standby power cut-off device for electrical or electronic products comprising a.

(2) The method of claim 1,

Stand-by power cut-off device for electrical or electronic products, characterized in that the LED is connected between the rectifier circuit portion and the second relay driving circuit portion.

(3) The method of paragraph 1,

The second relay driving circuit part includes a first transistor and a second transistor, a collector terminal of the first transistor is connected to a base terminal of the second transistor, and an emitter terminal of the second transistor is electrically connected to the switch part. Standby power cut-off device for electrical or electronic products, characterized in that connected to.

(4) The method of paragraph 1,

Rectifier circuit unit standby power cut-off device of an electrical or electronic product, characterized in that consisting of a bridge diode.

According to the present invention, an electronic product can be operated together by an operation of pushing the switch ON, and the same effect as that of the unplugged state can be applied even when the electronic product is not turned off when the system is turned off. The power consumed by the power can be completely cut off.

The present invention

switch;

A first relay driven according to the operation of the switch;

An AC sub output terminal and an AC main output terminal for supplying AC to an electric or electronic product by driving the first relay;

A transformer for transforming an AC voltage received from the AC main output terminal;

A rectifier circuit unit for rectifying an AC voltage output from the transformer;

A second relay driving circuit unit generating a driving signal from the electrical signal from the rectifying circuit unit;

A second relay driven by the second relay driving circuit unit to supply alternating current to the AC sub output terminal and to block the first relay;

It provides a standby power cutoff device of an electrical or electronic product including a.

Hereinafter, the content of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of a standby power cut-off device of an electronic product according to the present invention, the switch 10, the first relay 11, the AC main output terminal 12, the AC sub-output terminal 13, the AC input unit 14, the transformer 15, the rectifier circuit portion 16, the second relay drive circuit portion 17, and the second relay 18.

First, when the switch 10 constituting the blocking device of the present invention is turned on (ON), the first relay 11 is driven to flow the current through the AC main output terminal 12. At the same time, current flows through the transformer 15, and an induction current is formed in the secondary coil of the transformer and flows into the rectifier circuit unit 16. The current passing through the rectifying circuit portion 16 is input to the second relay driving circuit portion 17 to drive the second relay 18. At this time, the first relay 11 is blocked at the same time as the driving of the second relay 18. Thereafter, the second relay 18 connects the AC power and supplies AC power to all the electronic products connected to the AC main output terminal 12 and the AC sub output terminal 13.

When the user terminates the use of the electrical or electronic products connected to the AC main output terminal 22, the amount of current flowing through the electrical or electronic products is reduced, so that the current flowing through the transformer 25 is weakened, so that an induced current cannot be formed. As the induced current is blocked, the second relay 28 is blocked because a current is not input to the transistor 1 (TR1). Therefore, standby power of all products connected to the AC main output terminal 22 and the AC sub output terminal 23 is cut off.

2 is a circuit diagram illustrating an embodiment of a standby power cut-off device of an electronic product according to the present invention.

When the switch 20 is turned ON, a current flows from the AC input terminal 24 via a second relay 28 circuit to electrically connect a No (Normal open) contact of the first relay 21 to the first relay. 21 is driven. At this time, the first relay 21 is driven so that a current flows through the AC main output terminal 22. At the same time, a current flows in the transformer 25, and an induction current is formed in the secondary coil of the transformer and flows into the rectifying circuit unit 26 formed of the bridge rectifying circuit. The current passing through the rectifying circuit part 26 turns on the LED 29 and then bypasses the base of the transistor 1 (TR1) constituting the second relay driving circuit part 27 via the 4-pin terminal 30. As a result, a current is generated in the collector so that the current flows through the base of the transistor 2 (TR2). As such, a current flows through the base of the transistor 2 (TR2) to electrically connect the No contact constituting the second relay 28 to drive the second relay 28. As a result, the current flowing to the first relay 21 is cut off and the first relay 21 is cut off. After that, the second relay 28 connects the AC power and supplies AC power to all the electronic products connected to the AC main output terminal 22 and the AC sub output terminal 23.

When the user terminates the use of the electrical or electronic products connected to the AC main output terminal 22, the amount of current flowing through the electrical or electronic products is reduced, so that the current flowing through the transformer 25 is weakened, so that an induced current cannot be formed. As the induced current is blocked, the second relay 28 is blocked because a current is not input to the transistor 1 (TR1). Therefore, standby power of all products connected to the AC main output terminal 22 and the AC sub output terminal 23 is cut off.

By the above configuration, by detecting the current consumption of the electrical or electronic products connected to the AC main output terminal 22, the circuit breaker of the present invention ON or OFF, when the product connected to the AC main output terminal 22 is AC When the sub output terminal 23 is also turned on and the AC main output terminal 22 is turned off, the AC sub output terminal 23 is also turned off so that standby power of all electrical or electronic products connected to the breaker of the present invention is cut off. To be effective.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1 is a block diagram illustrating a standby power cut-off device of an electronic product according to the present invention.

2 is a circuit diagram illustrating an embodiment of a standby power cut-off device of an electronic product according to the present invention.

<Code Description of Main Parts>

10,20: switch

11,21: first relay

12,22: AC main output terminal

13,23: AC negative output terminal

14,24: AC input unit

15,25: transformer

16, 26: rectifier circuit section

17, 27: second relay drive circuit unit

18,28: relay 2

29: LED

30: 4-pin terminal

Claims (4)

switch; A first relay driven according to the operation of the switch; An AC input terminal, an AC sub-output terminal, and an AC main output terminal for supplying AC to an electric or electronic product by driving the first relay; A transformer for transforming an electrical signal received from the AC main output terminal; A rectifier circuit unit for rectifying the electrical signal output from the transformer; A second relay driving circuit unit generating a driving signal from the electrical signal from the rectifying circuit unit; And A second relay driven by the second relay driving circuit unit to supply alternating current to the AC sub output terminal and to block the first relay; Standby power cut-off device for electrical or electronic products comprising a. The method of claim 1, Stand-by power cut-off device for electrical or electronic products, characterized in that the LED is connected between the rectifier circuit portion and the second relay driving circuit portion. The method of claim 1, The second relay driving circuit part includes a first transistor and a second transistor, a collector terminal of the first transistor is connected to a base terminal of the second transistor, and an emitter terminal of the second transistor is electrically connected to the switch part. Standby power cut-off device for electrical or electronic products, characterized in that connected to. The method of claim 1, Rectifier circuit unit standby power cut-off device of an electrical or electronic product, characterized in that consisting of a bridge diode.

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