KR200392807Y1 - Switch structure for breaking a electric power - Google Patents

Abstract

The present invention attaches the standby power disconnect switch electrically connected between the indoor wiring connected to the electrical outlet from the household electrical distribution panel to the wall, making it possible to easily cut off the standby power of household appliances by using a general light switch. In relation to the energy saving, which is an issue of energy consumption, it relates to a standby power cut-off switch structure for saving energy by cutting off electric heating circuits using a switch circuit in a home, and is provided between a home distribution panel and an outlet to supply electricity. In the wiring structure, the one side is connected to the distribution panel and the other side to cut off the standby power generated when the non-use of home appliances and lights related to the standby power cut-off switch structure further comprises a switch 110 connected to the outlet will be.

Description

Standby power disconnect switch structure {SWITCH STRUCTURE FOR BREAKING A ELECTRIC POWER}

The present invention relates to a standby power cut-off switch structure for electrically coupling a standby power cut-off switch between indoor wiring connected to a power outlet from a 220V generation electric distribution panel serving a commercial power supply in a residential building.

Electricity flows from the distribution panel attached to the upper right side of the entrance door of the household to the lighting, outlet, etc. mounted on the wall of each room along the interior wiring.

At this time, electricity flows into household electrical appliances such as refrigerators, fans, washing machines, and televisions through plugs that are plugged into outlets, and the plugs are operated even if the power switch of the electrical appliance is turned off unless the plug is disconnected from the outlet. The electric current of the socket causes the electric power to flow about 5W per hour through the plug.

Statistics show that hundreds of billions of dollars are lost annually due to the micro current consumed.

In addition, when the plug of the electric device is connected to the plug socket, electromagnetic waves harmful to the human body may be generated from the electric device. When the electric device is operated in a standby state, deterioration of related driving parts may occur. When a high-voltage current flows into an electric device, it may cause problems such as brain damage.

However, if the electricity is cut off by turning off the supply switch of the distribution panel to cut off such minute currents, even household appliances such as a refrigerator to be supplied with electricity will be stopped.

Therefore, when the electrical and electronic equipment is not used, the plug of the electrical and electronic equipment must be disconnected from the outlet socket, that is, the plug socket of the outlet.

Multi taps, which are commonly used outlet devices, that is, multi taps having a plurality of plug sockets extending from wall outlets, may be provided with on and off switches to cut off supply of current.

These functional additions are welcome in that they provide convenience for the user.

However, when a large number of electronic devices are connected to a single power strip, the wiring is often disturbed, which sometimes hurts aesthetics.

Also, in order not to harm the aesthetics, the user is rarely used since it is disposed at a rear end such as under a desk or under an electric device that does not reach the user's hand.

Therefore, an object of the present invention for solving the problems of the conventional multi-tap as described above, the standby power cut-off switch structure attached to the wall of the switch electrically coupled between the indoor wiring connected to the outlet from the household electrical distribution panel It is to provide.

In addition, another object of the present invention is to provide a standby power cut-off switch structure having a standby power measurement circuit on one side of the switch.

In addition, another object of the present invention is to provide a standby power cut-off switch structure having a display unit for displaying the consumption of the standby power sensed by the standby power measurement circuit provided in the switch.

As described above, in the indoor wiring structure provided between the home distribution board and the outlet for supplying electricity, the power supply panel receives power from the distribution board to cut off standby power generated when the home appliance and the lamp are not used. The other side is achieved by a standby power disconnect switch structure further comprising a switch connected to the outlet.

In addition, according to the present invention, it is preferable to further include a standby power measurement circuit connected in parallel between the switch and the wire connecting the outlet to measure the standby power value flowing into the home appliances through the outlet.

In addition, according to the present invention, the standby power measurement circuit further includes a display unit for outputting command data generated according to the power value measured in the standby power measurement circuit, there is no power value measured in the standby power measurement circuit When the power value measured in the standby power measurement circuit is less than the reference power value, the measured power value is output as a number, and the power value measured by the standby power measurement circuit is greater than or equal to the reference power value. When it is preferable to output the 'ON' signal.

In addition, according to the present invention, it is preferable that the switch is formed to protrude at a predetermined height of the wall surface of each room.

Hereinafter, preferred embodiments of the present invention will be described through the accompanying drawings.

1 is a circuit block diagram according to an embodiment of the standby power cutoff switch structure of the present invention, Figure 2 is a schematic diagram of the indoor wiring structure combined with the standby power cutoff switch structure of the present invention.

As shown in Figure 1, the switchgear 110 of the present invention is present between the indoor wiring provided inside the wall to connect the distribution panel 10 and the outlet 20.

The distribution panel 10 is a generation distribution panel for 220V that functions as a commercial power supply in a residential building as an electricity supply reference device in which a power meter, an earth leakage breaker, and a switch are connected together.

The outlet 20 may also be referred to as a plug socket of an electric device, and the voltage used is divided into 220V.

A plug is also an electric appliance that is attached to the end of a conductor to connect or disconnect an electric circuit so that electricity is supplied from the outlet 20 to various home appliances.

The switch 110 is one side is connected to the distribution panel 10 and the other side is connected to the outlet 20.

The switch 110 is a device that is supplied with power from the distribution panel 10, disconnected the electrical circuit supplied from the distribution panel 10 to the outlet 20, and is normally open and close the handle by flipping the handle up and down or left and right. It's a tumbler switch with one in and one in.

 The standby power measurement circuit 120 has one side connected in parallel between the electrical circuit that connects the switch 110 and the outlet 20.

The standby power measurement circuit 120 is a conventional circuit for measuring the amount of power flowing from the distribution panel 10 to the outlet 20.

The display unit 130 is an eight-segment LED display board connected to the other side of the standby power measurement circuit 120.

The standby power measurement circuit 120 displays ON / OFF or standby power amount according to the measured power value range.

As shown in FIG. 2, electricity flows into an outlet, a lamp (lighting fixture), etc. from the distribution panel 10 through the indoor wiring, and the switch 110 is connected to the electrical outlet 20 for each home appliance in a closed state. To allow electricity to be delivered.

Here, the outlets 40, 40 ′, 40 ″ and the lamps 30 are not connected to the switchgear 110, and in particular, the household appliances used in the outlets 40, 40 ′, 40 ″ are always electric such as refrigerators. Are home appliances that must be supplied.

When the home appliance is operated in the state where the plug of the power strip (21, A, B, C ...) is plugged into the power outlet 20, the home appliance is connected to the home appliance through the outlet 20. Electricity flows in.

At this time, the incoming electricity is measured by the amount of power in the standby power measurement circuit 120, it is determined that the home appliance is running out of electricity, the ON command data for outputting the ON signal to the display unit 130 is generated.

The command data transmitted to the display unit 130 is output as an 'ON' signal.

In addition, when the home appliance and the lamp are not used when the switch is closed, standby power flowing into the home appliance through the outlet 20 when the home appliance is not in use is measured by the standby power measurement circuit 120, and the measured standby power amount. Power amount command data to be output to the display unit 130 is generated in this numeric form.

The power amount command data transmitted to the display unit 130 is output as a number on the electronic display board and is confirmed as the standby power amount.

If the switch is in the open state, no more electricity will flow to the outlet and no standby power will be generated.

Thus, the standby power measurement circuit 120 does not measure the amount of power to be measured OFF command data to output the 'OFF' signal to the display 130 is generated, the OFF command data transmitted to the display 130 is OFF It is displayed as a signal and output.

As described in detail above, the standby power cut-off switch structure of the present invention attaches a standby power cut-off switch electrically coupled between the interior wiring connected to the electrical outlet from the household electrical distribution panel to the wall, so that the home appliance can be easily used using a general light switch. It is possible to cut off standby power and save energy by switching off electric heating circuit using a switch circuit in the home in relation to energy saving which is a social issue recently.

In addition, the standby power cutoff switch structure of the present invention includes a standby power measuring circuit in the standby power cutoff switch, and a display unit for displaying the consumption of standby power detected by the standby power measuring circuit. The user can be saved.

1 is a circuit block diagram according to an embodiment of a standby power cutoff switch structure of the present invention,

Figure 2 is a schematic diagram of the indoor wiring structure coupled to the standby power cutoff switch structure of the present invention.

* Description of the symbols for the main parts of the drawings *

10: distribution panel 20: outlet

30: light 40, 40 ', 40' ': outlet

110: switchgear 120: standby power measurement circuit

130: display unit

Claims (4)

In the indoor wiring structure provided between the home distribution panel and an outlet for supplying electricity drawn into the home, Receives power from the distribution panel, one side is connected to the distribution panel to cut off the standby power generated when not in use of home appliances and lights, the other side standby power cut off switch structure further includes a switch 110 connected to the outlet . The method of claim 1, Standby power cutoff characterized in that it further comprises a standby power measurement circuit 120 is connected in parallel between the switch 110 and the wire connecting the outlet to measure the standby power value flowing into the home appliances through the outlet Switch structure. The method of claim 2, The standby power measurement circuit 120 further includes a display unit 130 for outputting command data generated according to the power value measured by the standby power measurement circuit 120. When there is no power value measured by the standby power measurement circuit 120, an 'OFF' signal is output, and when the power value measured by the standby power measurement circuit 120 is equal to or less than a reference power value, the measured power value is a number. And outputs an 'ON' signal when the power value measured by the standby power measurement circuit 120 is equal to or greater than a reference power value. The method of claim 1, The switch 110 is a standby power cutoff switch structure, characterized in that formed to protrude at a predetermined height of the wall surface of each room.