KR101617518B1 - Power saving distribution board - Google Patents

Abstract

The present invention relates to a power saving type power distribution panel, and more particularly, it relates to a power distribution type power distribution panel capable of preventing the generation of electromagnetic waves that may occur between a socket and a switch connected to a load and a distribution board, A plurality of auxiliary breakers installed in the distribution board and electrically connected to the parking terminal for supplying electric power to a plurality of loads; A switching unit provided between the load connected to the auxiliary circuit breaker and switching on / off power supplied thereto; A detector for detecting load power output to the load through the auxiliary circuit breaker; A reset switch installed in the vicinity of a socket or a switch to which the load is connected and outputting a control signal for switching on the switch unit; A control unit for comparing the load power of the load detected through the detection unit with a preset reference standby power to switch off the switch unit when the detected load power is equal to or lower than the reference standby power, And a control unit for switching on the switch unit when the switch unit is turned on.

Description

Power saving distribution board

The present invention relates to a power saving type power distribution panel, and more particularly, it relates to a power distribution type power distribution panel capable of preventing the generation of electromagnetic waves that may occur between a socket and a switch connected to a load and a distribution board, The present invention relates to a power-saving distribution board which is easy to use and can effectively block standby power.

Generally, standby power refers to electric power consumed by an electric device even when the power is not applied, and refers to electric energy consumed by the user without being aware of the operation of the electric device.
Such standby power may be generated when the power plug is inserted into the outlet in an unoperated state of the appliance or alternatively may be less than the standby power loss in the appliance even when the power plug is not connected to the outlet, Another loss of standby power may occur.
Sockets for blocking such standby power have been proposed in Patent Documents 1 to 5 and the like. The electrical outlets such as Patent Documents 1 to 5 are advantageous in that power consumption can be reduced by detecting the current of the load power source and judging whether or not the power supply is in standby state and shutting off the power supply when the power supply is in the standby power state. However, There is a problem that an electromagnetic wave is generated.
On the other hand, Patent Documents 6 to 9 propose a distribution board capable of performing standby power interruption control. However, in the case of Patent Document 6, it is necessary to control the return of the power interruption of the standby power interruption receptacle by the operation of the display or the remote control In the case of Patent Document 7, there is a problem in that the standby power cut-off switch is returned to the sleep time end time and the standby power is consumed after the end of the sleep time. Patent Document 8 discloses that there is a problem in that the power is supplied by the schedule function and the automatic pattern recognition function after the standby power is cut off so that the power is supplied even when the load is not used and standby power is consumed In the case of Patent Document 9, there is a problem that the standby power cutoff and return are remotely controlled, which limits the use.

1. Open Patent No. 2012-0055484 2. Open Patent No. 2011-0083932 3. Open Patent No. 2011-0071397 4. Patent Publication No. 2010-0067744 5. Patent Publication No. 2007-0082132 6. Open Patent No. 2012-0137125 7. Patent No. 1057982 8. Patent No. 1002396 9. Japanese Patent Laid-Open No. 2004-187424

In order to solve the above-described problems, it is an object of the present invention to provide an electronic apparatus that can prevent generation of electromagnetic waves that may occur between a socket and a switch connected to a load and a distribution board, The present invention is directed to a power-saving distribution board that is easy to use and can effectively block standby power.

According to an aspect of the present invention,
A plurality of auxiliary circuit breakers installed in the distribution board and electrically connected to the parking terminal to supply power to the plurality of loads;
A switching unit provided between the load connected to the auxiliary circuit breaker and switching on / off power supplied thereto;
A detector for detecting load power output to the load through the auxiliary circuit breaker;
A reset switch installed in the vicinity of a socket or a switch to which the load is connected and outputting a control signal for switching on the switch unit;
A control unit for comparing the load power of the load detected through the detection unit with a preset reference standby power to switch off the switch unit when the detected load power is equal to or lower than the reference standby power, And a control unit for switching on the switch unit when the switch unit is turned on.
The reset switch and the control unit may be electrically connected by wires or wirelessly.
In particular, when the reset switch and the control unit are connected wirelessly, the reset switch includes a transmitter for wirelessly transmitting the control signal, and the receiver for receiving the control signal from the transmitter of the reset switch and outputting the control signal to the control unit .
The power supply unit may further include a DC converting unit electrically connected to a socket or a switch connected to the load to convert the AC power into DC power, a power storage unit that charges the DC output by the DC converting unit, And a control unit for outputting the control signal to the transmitter when the control signal is inputted from the reset switch.

INDUSTRIAL APPLICABILITY The power saving type distribution board of the present invention can prevent the generation of electromagnetic waves that may occur between a socket and a switch connected to a load and a distribution board in advance and can be applied to a conventional distribution board, The standby power can be effectively blocked.

Fig. 1 is a block diagram schematically showing a configuration of a power-saving type distribution board of the present invention,
2 and 3 are views schematically showing a state where a control unit and a reset switch are connected wirelessly.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a power-saving power distribution board of the present invention will be described with reference to the drawings, and the scope of rights of the present invention is not limited to the following embodiments.
1 is a block diagram schematically showing a configuration of a power-saving type distribution board of the present invention.
The power saving type distribution board of the present invention includes a plurality of auxiliary circuit breakers 120, a switch unit 140, a detection unit 130, a reset switch 350 and a control unit 150 as shown in FIG.
The plurality of auxiliary circuit breakers 120 are installed in the distribution board and are electrically connected to the parking terminal unit 110 to supply power to a plurality of loads. In the case of the plurality of auxiliary circuit breakers 120, it is preferable that the auxiliary circuit breakers except for the auxiliary circuit breakers which need to be always supplied with power, such as a refrigerator.
The switch unit 140 is composed of an electronic switch or the like and is provided between the plurality of auxiliary breakers 120 and a plurality of loads connected to the plurality of auxiliary breakers 120, 120 to selectively supply power to the load.
The detection unit 130 detects the load power output to the load through the auxiliary circuit breaker 120 when the switch unit 140 is switched on. As the detector 130, a CT (Current Transformer) or the like may be used.
When the switch unit 140 is switched off by the control unit 150 and the electrical connection between the auxiliary circuit breaker 120 and the load is cut off, a control signal for switching on the switch unit 140 is outputted A reset switch 350 is provided. The reset switch 350 is installed around a socket 310 to which the load is connected or a switch 320 connected to a load such as a lamp.
The reset switch 350 is installed around the socket 310 or the switch 320 so that when the switch 140 is switched off the user can easily operate the reset switch 350 The switch unit 140 can be switched on.
The reset switch 350 may be provided separately from the socket 310 or the switch 320, or may be integrally formed.
The control unit 150 controls the switch unit 140 based on the load power of the load detected through the detection unit 130 and the control signal of the reset switch 350.
FIG. 2 is a flowchart schematically showing a flow in which the control unit 150 controls the switch unit 140. FIG.
Specifically, the detecting unit 130 detects the load power of the load, and outputs the load power information to the controller 150. The controller 150 compares the load power information input from the detector 130 with a preset reference standby power. If the control unit 150 determines that the load power information is larger than the reference standby power as a result of comparing the load power information with the reference standby power, the control unit 150 controls the switch unit 140 to maintain the switching on state, And controls the switch unit 140 so that the switch unit 140 is switched off when the reference standby power is lower than the reference standby power. When the control unit 150 switches off the switch unit 140, the power supply from the auxiliary circuit breaker 120 is cut off to the load, so that standby power can be effectively cut off. Further, the auxiliary circuit breaker 120 and the load It is possible to prevent the generation of electromagnetic waves due to the wirings connected between them.
3 is a flow chart schematically showing the flow in which the switch unit 140 is controlled in response to the operation of the reset switch 350. As shown in FIG.
When the user operates the reset switch 350 installed in the vicinity of the outlet or the switch connected to the load to output a reset control signal to the controller 150, the controller 150 controls the switch 150, Keep the on state. When the control unit 150 receives the reset control signal from the reset switch 350 and the switch unit 140 is switched off, the controller 150 controls the switch unit 140 to switch on And the switch unit 140 is switched on so that the power of the auxiliary circuit breaker 120 is supplied to the outlet or the like to which the load is connected.
4 and 5 are views schematically showing a state where the controller 150 and the reset switch 350 are connected wirelessly.
The reset switch 350 and the control unit 150 may be electrically connected by a wire or wirelessly. In the case of wiring work during building construction, the reset switch 350 and the control unit 150 can be electrically connected to each other by electric wires. However, in the case of a building in which wiring work has already been completed, It takes a lot of time and money to connect them with the electric wire, so it is preferable to wirelessly connect them as shown in Fig.
In particular, when the controller 150 and the reset switch 350 are connected wirelessly, the reset switch 350 is provided with a transmitter 354, and the controller 150 is provided with a reset And a reception unit 152 for receiving a control signal.
If the control unit 150 switches off the switch unit 140 so that the power of the auxiliary circuit breaker 120 can not be supplied to a socket or the like connected to the load, the reset switch 350 and / The power supply to the transmission unit 354 can not be performed.
Accordingly, the reset switch 350 and the transmission unit 354 can be driven by using a battery, but the replacement of the battery is troublesome. Therefore, it is preferable that the power storage unit 353 can be charged when the switch unit 140 is switched on and the power of the auxiliary circuit breaker 120 is supplied to a socket or the like connected to the load, as shown in FIG.
More specifically, as shown in FIG. 5, a DC converting unit 355 electrically connected to the console or the like and converting the AC power into DC power, a power storage unit 353 charging the DC outputted by the DC converting unit 355, And an auxiliary controller 352 that is electrically connected to the power storage unit 353 and outputs the control signal to the transmitter 354 when a control signal is input from the reset switch 350. [

110: parking short term,
120: auxiliary circuit breaker,
130:
140: switch part,
150:

Claims (5)

A plurality of auxiliary circuit breakers installed in the distribution board and electrically connected to the parking terminal to supply power to the plurality of loads;
A switching unit provided between the load connected to the auxiliary circuit breaker and switching on / off power supplied thereto;
A detector for detecting load power output to the load through the auxiliary circuit breaker;
A reset switch installed in the vicinity of the switch to which the load is connected to output a control signal for switching on the switch unit;
A control unit for comparing the load power of the load detected through the detection unit with a preset reference standby power to switch off the switch unit when the detected load power is equal to or lower than the reference standby power, And a control unit for switching on the switch unit and being connected to the reset switch wirelessly,
Wherein the reset switch is provided with a transmitter for wirelessly transmitting the control signal,
And a receiver for receiving the control signal from the transmitter of the reset switch and outputting the control signal to the controller,
A power storage unit that is electrically connected to the switch connected to the load and converts AC power to DC power, a power storage unit that charges the direct current output by the DC power conversion unit, And outputting the control signal to the transmission unit when the control signal is inputted from the auxiliary power supply unit. delete delete delete delete

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