KR100554701B1 - Power switch block of master load control type - Google Patents

Abstract

The present invention provides a master load control type power switch block capable of controlling power supply or interruption to other peripheral equipment or related equipment according to power supply or interruption to a master load.

The present invention provides a master load control type power switch block in which one master power socket and one or more slab power sockets are installed in a main body, the main power supply line supplying input power to the master power socket. One line of the power supply circuit is connected to the excite coil (Excite Coil); And a sub power line for supplying the input power to each of the slab power sockets, an excitation coil, and a switch contact for switching the sub power line by an electric force by the excitation coil. And a switch control circuit comprising a first relay for controlling the transmission of input power to each slab power socket.

Master, slab, socket, power, switch block

Description

Power switch block for master load control {POWER SWITCH BLOCK OF MASTER LOAD CONTROL TYPE}

1 is an external perspective view of a master load control type power switch block according to the present invention;

2 is a circuit diagram of a master load control type power switch block according to the present invention;

3 is a diagram illustrating one use state of a conventional switch block.

4 is another explanatory view of a conventional switch block.

Explanation of symbols on the main parts of the drawings

10: main body 11: master power socket

12: slab power socket 20: switch control circuit

21: transformer (step-down circuit) 22: rectifier filter circuit

23: first relay (electronic relay) 24: switching circuit

25 transistor 26 second relay

30: power circuit 80: switch block

The present invention relates to a master load control type power switch block, and more particularly, to a power switch block of a multicap socket having a master / slab control function.

In general, electric power is one of the indispensable energy in life, and the supply of such electric power enables human beings to develop various electronic facilities and enjoy great convenience in daily life. For example, according to the current power supply method, computers and various home appliances transmit high voltage electricity to substations in each region through the power transportation system at the power plant, lower the voltage at the substation, and then transfer them to each home through the power transportation system in the city. Supplied. Accordingly, each household is provided with a considerable number of power sockets to connect various electric equipment and receive power.

On the other hand, no matter how many power sockets are installed on the wall of the building, it is impossible to keep up with the increasing speed of the electric equipment. In the past, no single television was common in a home, but now more and more homes are equipped with a complete home theater or other various electrical appliances.

In line with this trend, all electrical appliances require a power socket for supplying electricity, which leads to a shortage of power sockets. Due to the lack of power sockets, power supplies with multiple power sockets are assumed to be safe in most homes. I am using a location block.

This conventional power switch block will be described with reference to FIGS. 3 and 4.

3 is a diagram illustrating one use state of a conventional switch block, and FIG. 4 is a diagram illustrating another use state of a conventional switch block.

3 and 4, the conventional power switch block 80 connects a plurality of expansion sockets in parallel to one power socket (not shown). In a typical home, a computer main body and a peripheral device or a related electric device such as a television, a VTR, and a speaker are connected to the switch block 80. That is, electrical appliances associated with the computer are connected through the power switch block 80 shown in FIG. Electrical appliances related to the home theater are connected through the power switch block 80 shown in FIG.

By the way, as shown in Figures 3 and 4, the conventional power switch block 80 solves the problem of lack of power sockets, but there are some problems as follows in practicality.

In use, because there is a relationship between the equipment connected to the same switch block 80, for example, it is necessary to turn on the computer so that other peripherals can work, and once the computer is turned off, You need to make it impossible to work.

That is, when the master load (eg, computer body, television) on one power socket of the switch block 80 is cut off, it is preferable that the related equipment of the other power socket is also cut off at the same time.

In order to solve the above problems, an object of the present invention is to control the power supply or disconnection to other peripheral or related equipment according to the power supply or interruption to the master load, the structure is simple and high practicality In addition, the present invention provides a master load control type power switch block that can effectively reduce costs.

In order to achieve the above object of the present invention, the master load control type power switch block of the present invention is a master load control type power switch block in which one master power socket and one or more slab power sockets are installed in a main body. A power supply circuit including a main power supply line supplied to the master power socket, wherein one line of the main power supply lines is connected to an excite coil; And a sub power line for supplying the input power to each of the slab power sockets, an excitation coil, and a switch contact for switching the sub power line by an electric force by the excitation coil. And a switch control circuit comprising a first relay for controlling the transmission of input power to each slab power socket.

The switch control circuit includes a transformer connected to an input power source; A rectifier filter circuit having an input connected to an output side of the transformer and an output connected to one side contact of a switch contact of the first relay; And one switching circuit for switching the power line of the slab power socket according to the voltage through the switch contact of the first relay.

The switching circuit includes a transistor having a base connected to the other side contact of the first relay; And a second relay having an excitation coil connected to the collector of the transistor, and a switch contact having one side contact connected to the input power supply and the other side contact connected to the master power socket.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

1 is an external perspective view of a master load control type power switch block according to the present invention.

Referring to FIG. 1, the master load control power switch block according to the present invention includes one master power socket 11 and one or more slab power sockets 12 installed in a main body.

That is, the main body 10 of the power switch block of the present invention shown in Figure 1 has a plurality of expansion sockets. When the first socket is designated as the master power socket 11 in the main body 10, all remaining sockets become the slab power sockets 12, and the master and slab power sockets 11 and 12 provide master / slab control. The control circuit as shown in FIG. 2 is provided in the main body 10 so as to implement the same.

2 is a circuit diagram of a master load control type power switch block according to the present invention.

Referring to FIG. 2, the master load control type power switch block according to the present invention includes a power supply circuit 30 and a switch control circuit 20.

The power supply circuit 30 includes a main power supply line for supplying an input power supply (AC 110V or 220V) to the master power socket 11, and one of the main power supply lines is connected to an excite coil. Connected.

The switch control circuit 20 is connected to a sub power line for supplying the input power (AC 110V or 220V) to each of the slab power sockets 12, the excitation coil, and the excitation coil. And a first relay 23 having a switch contact for switching the sub power line by electric force, and controlling the transmission of the input power to each slab power socket 12.

Accordingly, each of the slab power sockets 12 may be connected to each other in a parallel connection method, and is connected to the input power through the switch control circuit 20. The master power socket 11 is connected to the input power via the power circuit 30.

In addition, the switch control circuit 20, one transformer 21 is connected to the input power source, the input is connected to the output side of the transformer 21 and output to one side contact of the switch contact of the first relay 23 One connected rectifier filter circuit 22 and one switching circuit 24 for switching the power line of the slab power socket 12 according to the voltage through the switch contact of the first relay 23. .

The switching circuit 24 includes a transistor 25 having a base connected to the other contact of the first relay 23, an excitation coil connected to the collector of the transistor 25, and one contact connected to the input power source. And a second relay 26 having a switch contact to which the other side contact is connected to the master power socket 11.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, when the power switch power block of the present invention is used, a master load (eg, a computer main body, a television) is mainly connected to the master power socket 11, and other peripheral or related equipment is connected to the remaining slab. To the power socket (12).

After connecting in this way, when power is supplied to the master load of the master power socket 11, a current flows in the power supply circuit 30, and the switch control circuit 20 of the present invention is in series with the power supply circuit 30. Excitation coils of the first relay 23 connected to each other are also excited to connect the switch contacts of the first relay 23.

In this case, as the switch contact of the first relay 23 is connected, the input power source sequentially switches the transformer 21, the rectifier filter circuit 22, and the first relay 23 of the switch control circuit 20. After passing through, it is supplied to the switching circuit 24. Through this process, the input power is transmitted to the base of the transistor 25 of the switching circuit 24, so that the transistor 25 is turned on so that a current flows, and accordingly, a second connected to the collector of the transistor 25. The relay 26 is also excited and the current flows.

Through this process, the input power is transmitted to each slab power socket 12 through the switch contact of the second relay 26 to supply power to other loads of each slab power socket 12.

On the contrary, when the master load of the master power socket 11 is cut off, no current flows through the power supply circuit 30, and thus, the excitation coil of the first relay 23 is not excited any more and is cut off. The switch contact of the first relay 23 is in an open state, and the switch contact of the second relay 26 is in an open state as the transistor 25 of the switching circuit 24 is cut off. In this open state, the power of the slab power socket 12 is also cut off at the same time.

As described above, when power is supplied to the master load, power is supplied to other peripheral equipment or related equipment. When the master load is cut off, power is supplied to the master load by automatically shutting off power while cutting off power of other peripheral equipment or related equipment. The object of the present invention to control the can be achieved.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may be substituted, modified, and modified in various ways without departing from the spirit of the present invention. It is apparent to those skilled in the art that modifications are possible.

According to the present invention as described above, it is possible to realize the purpose of the master / slab power switch control through a simple line, the cost is relatively low, the use of electricity is safe, convenient and energy-saving effect.

Claims (3)

In the master load control type power switch block in which one master power socket and one or more slab power sockets are installed in a main body, A main power line for supplying input power to the master power socket, wherein one of the main power lines includes a power circuit connected to an excite coil; And A sub power line for supplying the input power to each slab power socket, an excitation coil, and a switch contact for switching the sub power line by an electric force by the excitation coil; Switch control circuit including a first relay to control the transfer of power to each slab power socket Master load control type power switch block comprising the. The method of claim 1, wherein the switch control circuit A transformer connected to the input power; A rectifier filter circuit having an input connected to an output side of the transformer and an output connected to one side contact of a switch contact of the first relay; And One switching circuit for switching the power line of the slab power socket according to the voltage through the switch contact of the first relay Master load control type power switch block comprising a. The method of claim 2, wherein the switching circuit, A transistor having a base connected to the other side contact of the first relay; And A second relay having an excitation coil connected to the collector of the transistor, and a switch contact having one contact connected to the input power and the other contact connected to the master power socket. Master load control type power switch block comprising a.

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