KR20110087739A - System and method for cutting off and revocation standby power - Google Patents

Abstract

PURPOSE: A standby power disconnection/release system and method thereof are provided to reduce power consumption by blocking the standby power which is applied to a receptacle. CONSTITUTION: A cabinet panel(100) is installed in the wall of a building. A receptacle(300) is installed in the wall of a building. The receptacle is divided into stand-by electric power. The receptacle includes a plurality of receptacle insertion holes for supplying power through a plug. A control panel(200) releases the standby power.

Description

Standby power interruption and its unblocking system and method thereof {System and method for cutting off and revocation standby power}

The present invention relates to a standby power cut-off and its disconnection release system and a method thereof, and more particularly, to construct a control panel between indoor wiring connected to a power outlet from a generation electrical distribution panel used in a building and embedded in a control panel. The present invention relates to a standby power cut-off, a block releasing system, and a method for controlling a relay to cut off standby power, and to release the cut-off again.

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 power consumption products such as refrigerators, fans, washing machines, and televisions through plugs plugged into the outlets, and the power switch of the power consumption products is turned off unless the plug is disconnected from the outlet. Even if it is off, the electric current of the plug socket flows about 1 to 5 W per hour through the plug to the power consumption product.

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

In addition, when the plug of the power consumption product is connected to the plug socket, electromagnetic waves harmful to the human body may be generated from the power consumption product, and as the power consumption product operates in a standby state, deterioration of related driving parts may occur. In addition, when lightning strikes, a high-voltage current flows into a power consumption product, causing problems such as brain damage.

However, if the electricity is cut off by switching off the supply switch of the distribution panel to cut off the micro current, power consumption products such as a refrigerator, which should always be supplied and operated, are 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, connecting a large number of power-consumers to a single power strip often leads to cluttering the wiring and hurts aesthetics.

In addition, in order not to harm the aesthetics, since the user is disposed behind a desk such as under a desk or under a power consumption product that does not reach the user's hand, the user rarely uses it.

The present invention has been invented to solve the conventional problems as described above, the object of which is to construct a control panel between the interior wiring connected to the outlet from the household electrical distribution panel used in the building, the relay embedded in the control panel The present invention provides a standby power cut-off, a block releasing system, and a method for controlling the standby power to cut off the standby power.

In addition, the present invention is divided into a regular power supply outlet for the constant power supply and standby power cut-off outlet for the purpose of shutting off standby power, the standby power cut-off and disconnection only for the standby power cut-off outlet To be done.

In addition, the present invention is to release the standby power cutoff control unit by controlling the standby power outlet relay when the standby power release button pressing signal of the remote control through the signal or pressing the signal of the standby power off release button provided in the control panel It becomes possible.

In addition, the present invention detects whether standby power is being applied to the standby power cut-off outlet in the standby power detection unit or whether the regular power is being supplied, and the determination measures the amount of power applied to the standby power cut-off outlet. If the amount of power is below a certain level, it is determined that standby power is being applied to the standby power blocking outlet.

In order to achieve the above object, the present invention is installed on the wall surface of the building and the distribution board for supplying power to the outlet, and a plurality of plug insertion port is installed on the wall of the building, the power is supplied to the power consumption product through the inserted plug In the standby power cut-off and the block releasing system to cut off the standby power supplied from the distribution panel to the outlet, including the outlet is configured, the outlet is for the purpose of blocking the standby power and the standby power supply for the continuous power supply The control panel is divided into a standby power cut-off outlet, and the control panel cuts off or cancels the standby power entering the standby power cut-off outlet between the distribution panel and the outlet. Power supply for each component of the control panel, standby power cut-off outlet Standby power detection unit that detects whether standby power is being applied or constant power is being supplied to the power supply. Relay unit consisting of a constant power outlet relay for the power outlet, and a standby power outlet relay for the standby power cut-off outlet, an IR receiver for receiving a standby power release button press signal of the remote control to transmit to the control unit, and the If it is judged that standby power is being applied to the standby power blocking outlet by receiving the output signal of the standby power detection unit, the standby power is controlled by controlling the relay for standby power outlet, and pressing the standby power release button provided on the control panel. Standby when the standby power release button press signal of the remote controller is input through a signal or IR receiver And a controller including a function of releasing standby power to the standby power blocking outlet by controlling the power outlet relay.

In addition, the present invention is installed on the wall of the building and the distribution board for supplying power to the outlet, and the wall is installed on the wall of the building, the outlet is composed of a plurality of plug insertion openings to supply power to the power consumption products through the inserted plug Including, in the standby power cut-off and the method for releasing the cut-off of the standby power supplied to the outlet from the distribution panel, the control panel for blocking or canceling the standby power entering the standby power cut-off socket between the distribution panel and the outlet In the first step of detecting whether the standby power detection unit of the control panel is the standby power cut-off or standby power is supplied, standby power is applied to the standby power cut-off outlet Control unit controls the standby power outlet relay so that the standby power is shut off. After the standby power is cut off, the third step of checking whether the standby power release button push signal of the remote control unit provided by the control panel for releasing the blocking or the standby power release button press signal of the remote controller through the IR receiver is input , And when the push signal of the standby power release button provided in the control panel or the standby power release button press signal of the remote controller through the IR receiver is input, the controller controls the standby power outlet relay to release the standby power cutoff. And a fourth step.

The standby power detection unit detects whether standby power is being applied to the standby power cut-off outlet or whether constant power is being supplied, and the determination measures the amount of power applied to the standby power cut-off outlet, and the power amount is constant. It is characterized by determining that the standby power is applied to the standby power cut-off outlet.

The control panel further comprises an LED (LED) display unit indicating the panel operation and operation status.

The control panel may further include an LCD display unit configured to display a power consumption value, a value for converting the power consumption into currency units, and a value for converting the power consumption into carbon dioxide generation amounts.

As described above, the present invention can save unnecessary power by cutting off the standby power applied to the outlet from the household electrical distribution panel, as well as through the standby power off release button of the remote controller or the standby power off release button of the control panel. The effect is that the user's convenience is provided by releasing the standby power blocking.

1 is a schematic diagram showing a standby power cut-off and its block release system according to an embodiment of the present invention.
2 is a detailed block diagram of the control panel of FIG.
3 is a flowchart illustrating a standby power cut-off and its blocking method according to an embodiment of the present invention.

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

1 is a schematic diagram illustrating a standby power cut-off and its block release system according to an embodiment of the present invention, and FIG. 2 is a detailed block diagram of the control panel of FIG. 1.

Referring to the drawings, the standby power cut-off and the block-unblocking system of the present invention includes a distribution panel 100, a control panel 200 and an outlet 300.

The distribution panel 100 is installed on the wall of the building to supply power to the outlet.

The outlet 300 is installed on the wall of the building, and is an electrical and communication outlet for supplying power to the power consumption product through an inserted plug, and a plurality of plug insertion ports are configured.

According to the present invention, the outlet 300 is divided into a standby power supply outlet 310 in which constant power is supplied, and a standby power blocking outlet 320 for the purpose of blocking standby power.

The constant power supply outlet 310 refers to an outlet into which a power consumption product to which constant power is to be inserted is inserted. Here, the constant power means power that is continuously and continuously supplied.

An example of a power consumption product to which constant power is to be supplied is a refrigerator or the like.

Standby power blocking outlet 320 refers to an outlet into which a power consumption product such as a fan, an electric washing machine, and a television is inserted, and is an outlet for the purpose of blocking standby power.

As described above, the present invention constitutes a control panel 200 for blocking or releasing standby power entering the standby power blocking outlet 320 between the distribution panel 100 and the outlet 300.

The configuration of the control panel 200 will be described with reference to FIG. 2. The power supply unit 220, the standby power detection unit 260, the relay unit 230, the IR receiver 240, the control unit 210, and an LED ) Display portion 271, an LCD display unit 272, and a speaker 273.

The power supply unit 220 supplies the power supplied from the distribution panel 100 to each component of the control panel 200.

The standby power detector 260 detects whether standby power is being applied to the standby power blocking outlet 320 or whether constant power is being supplied.

The constant power being supplied means that the power is turned on while the power consumption product is plugged into the standby power cut-off outlet 320.

The standby power being applied means that the power is turned off while the power consumption product is plugged into the standby power cut-off outlet 320 so that approximately 1 to 5 W of minute power is applied.

Whether the standby power is applied to the standby power cut-off outlet 320 in the standby power detection unit 260 or whether the regular power is being supplied, and the determination is applied to the standby power cut-off outlet 320. It is possible by measuring the amount of power and determining that the standby power is being applied to the standby power cut-off outlet 320 when the amount of power is equal to or less than a predetermined level.

For example, if the integrated power applied to the first outlet 321 and the second outlet 322 of the standby power blocking outlet 320 is 15 W or less (eg, 10 W), the power is determined as standby power, and the integration If the power exceeds 15W, the power is determined to be constant power.

As described above, in measuring the amount of power applied to the standby power cut-off outlet 320, it is possible to measure the integrated power of the first outlet 321 and the second outlet 322 of the standby power cut-off outlet 320. You can also measure the power of each. In the latter case, the control by the standby power outlet relay 232 is performed by the first outlet 321 and the second outlet 322, respectively.

The relay unit 230 is to relay the change of the current by opening and closing the other circuit in accordance with the disconnection of the current or the direction inside, the constant power outlet relay 231 for the constant power supply outlet 310, It is composed of a standby power outlet relay 232 for the standby power blocking outlet 320.

The regular power outlet relay 231 is only concerned with controlling the power supply outlet 310 at all times, and the standby power outlet relay 232 is only concerned with controlling the standby power blocking outlet 320. will be.

The IR receiver 240 receives a standby power release button press signal of the remote controller and transmits the signal to the controller 210. That is, when the user presses the standby power release release button of the remote control, the push signal is transmitted to the control unit 210 through the IR receiver 240.

The controller 210 receives the output signal from the standby power detector 260 and determines whether standby power is applied to the standby power cut-off outlet 320 or whether continuous power is applied. As a result, when it is determined that standby power is applied to the standby power cut-off outlet 320, the controller 210 controls the standby power outlet relay 232 to shut off standby power.

In addition, the control unit 210 for standby power outlet when the signal for pressing the standby power release button of the remote control via the pressing signal of the standby power release button 250 provided in the control panel 200 or the IR receiver 240 is input. The relay 232 is controlled to release the standby power cutoff to the standby power cut-off outlet 320.

The LED display unit 271 displays a panel operation and operation state.

The LCD display unit 272 displays a power consumption value, a value for converting the power consumption into currency (eg, won, dollar, etc.), and a value for converting the power consumption into a carbon dioxide generation amount.

In the present invention, the operating state of the control panel 200 or the standby power cut-off and disconnection state are output through the speaker 273. For example, the standby power is blocked at the first outlet 321, and the standby power is blocked at the second outlet 322.

3 is a flowchart illustrating a standby power cut-off and a blocking method thereof according to an embodiment of the present invention.

1 to 3, the standby power blocking and the blocking method of the present invention will be described. The standby power detection unit 260 of the control panel 200 is supplied with standby power to the standby power blocking outlet 320. Whether or not the constant power is supplied (S11).

For example, when a predetermined power or more is applied to the standby power cut-off outlet 320, it means that the regular power is being supplied, and when less than a predetermined power is applied to the standby power cut-off outlet 320, the standby power is supplied. Means that.

The output signal of the standby power detector 260 is transmitted to the controller 210, and the controller 210 determines whether standby power is applied to the standby power cut-off outlet 320 or constant power. S12)

In operation 12 (S12), when the controller 210 determines that standby power is being applied to the standby power cut-off outlet 320 by receiving the output signal of the standby power detection unit 260, the standby power outlet relay 232 is determined. By controlling the standby power is cut off. (S13)

After the standby power is cut off, the control unit 210 cuts off the standby power of the remote control through the IR signal or the pressing signal of the standby power release button 250 provided in the control panel 200 for releasing the blocking. It is checked whether a release button press signal is input. (S14) (S15)

If the pressing signal of the standby power release button 250 provided in the control panel 200 or the standby power release button pressing signal of the remote controller through the IR receiver 240 is input, the control unit 210 uses the standby power outlet. The relay 232 is controlled to release the standby power cutoff. (S16)

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified the present invention without departing from the spirit and scope of the invention described in the claims below, It will be appreciated that substitutions and alterations can be made.

100: distribution panel 200: control panel
210: control unit 220: power supply unit
230: relay unit 231: relay for constant power
232: standby power outlet relay 240: IR receiver
250: standby power disconnection release button 260: standby power detection unit
271: LED display 272: LCD display unit
273: Speaker 300: Outlet
310: constant power supply outlet 320: standby power blocking outlet
321: first outlet 322: second outlet

Claims (6)

Outlet panel 100 is installed on the wall of the building to supply power to the outlet 300, and the outlet is composed of a plurality of plug inlet is installed on the wall of the building, the power is supplied to the power consumption product through the inserted plug In the standby power cut-off system including a 300, to cut off the standby power supplied to the outlet 300 from the distribution panel 100,
The outlet 300 is divided into a regular power supply outlet 310 is a constant power supply and standby power cut-off outlet 320 for the purpose of blocking standby power;
And a control panel 200 between the distribution panel 100 and the outlet 300 to block or release the standby power entering the standby power blocking outlet 320;
The control panel 200,
A power supply unit 220 supplying power supplied from the distribution panel 100 to each component of the control panel 200;
A standby power detection unit 260 for detecting whether standby power is applied to the standby power cut-off outlet 320 or whether constant power is being supplied;
By disconnecting the current and connecting the other circuit according to the direction or direction of the current to relay the change of the current, the constant power outlet relay 231 for the constant power supply outlet 310, and standby power blocking outlet ( A relay unit 230 configured as a standby power outlet relay 232 for 320;
An IR receiver 240 which receives a standby power release button press signal of the remote controller and transmits the signal to the controller 210; And
When receiving the output signal of the standby power detection unit 260, if it is determined that standby power is being applied to the standby power blocking outlet 320, the standby power outlet relay 232 is controlled so that the standby power is cut off, and the control panel When the standby power release button pressing signal of the remote control is input through the pressing signal of the standby power release release button 250 or the IR receiver 240 provided in the 200, the standby power outlet relay 232 is controlled to control standby power. And a control unit (210) including a function of releasing standby power cutoff for the blocking outlet (320). The method of claim 1,
Whether the standby power is applied to the standby power cut-off outlet 320 in the standby power detection unit 260 or whether the regular power is being supplied, and the determination is applied to the standby power cut-off outlet 320. Measuring the amount of power, if the amount is less than a predetermined standby power cut-off and disconnection system, characterized in that it is determined that the standby power is applied to the standby power cut-off outlet 320. The method of claim 1,
The control panel 200 further comprises an LED (LED) display unit (271) indicating a panel operation and operation state, standby power cut-off and its release release system. 4. The method according to any one of claims 1 to 3,
The control panel 200 further comprises an LCD display unit 272 configured to display a power consumption value, a value for converting the power consumption into currency units, and a value for converting the power consumption into a carbon dioxide generation amount. Power off and its unblocking system. Outlet panel 100 is installed on the wall of the building to supply power to the outlet 300, and the outlet is composed of a plurality of plug inlet is installed on the wall of the building, the power is supplied to the power consumption product through the inserted plug In the standby power blocking method for blocking the standby power supplied to the outlet 300 from the distribution panel 100, including (300),
Configuring a control panel 200 between the distribution panel 100 and the outlet 300 to block or release the blocking of standby power entering the standby power blocking outlet 320;
A first step of detecting, by the standby power detecting unit 260 of the control panel 200, whether standby power is applied to the standby power blocking outlet 320 or whether constant power is being supplied;
If standby power is applied to the standby power cut-off outlet 320, the controller 210 controls the standby power outlet relay 232 to shut off standby power;
After the standby power is cut off, the pressing signal of the standby power release button 250 provided in the control panel 200 for releasing the blocking or the standby power release button pressing signal of the remote controller through the IR receiver 240 Checking whether it is input; And
When the push signal of the standby power release button 250 provided in the control panel 200 or the standby power release button press signal of the remote controller through the IR receiver 240 is input, the controller 210 relays the standby power outlet. And a fourth step of controlling standby power to be turned off, thereby blocking standby power cut-off. The method of claim 5,
Whether the standby power is applied to the standby power cut-off outlet 320 in the standby power detection unit 260 or whether the regular power is being supplied, and the determination is applied to the standby power cut-off outlet 320. Measuring the amount of power, if the amount of power is less than a predetermined standby power cut-off, characterized in that it is determined that the standby power is being applied to the standby power blocking outlet 320 and the method for releasing the blocking.

Images