KR101251129B1 - Electric outlet apparatus for intercepting standbypower and method of thereof - Google Patents

Abstract

PURPOSE: An automatic standby power disconnection apparatus and a method thereof are provided to prevent loss of standby power by automatically disconnecting power of an outlet by comparing power with standby power of an electronic instrument. CONSTITUTION: A switching panel(10) automatically cut off of standby power in a plurality of outlets(A1,A2) or on/off of an automatic outlet. An electric energy measurement unit stores initial standby power of the time connecting an electric instrument to an outlet. The electric energy measurement unit measures electric power when operating of an electric instrument or off after operating. A MiCOM stores the standby power of the electric instrument measured from the electric energy measurement unit. A first and a second relay(RL1,RL2) cut off standby power in an outlet according to a control signal output from the MiCOM. The outlet icon supplies power to the outlet. [Reference numerals] (201) Lamp 1; (202) Lamp 2; (A1) Outlet 1; (A2) Outlet 2; (AA) Automatic 1; (BB) Automatic 2;

Description

Electric outlet apparatus for intercepting standby power and method of

The present invention relates to a standby power cut-off technology, and more particularly, when the electrical appliance is used in a state in which power is consumed even when the electrical appliance is not used by connecting the electrical appliance to a power outlet, that is, standby power value is stored. When the power is supplied and the use of the electric appliance is completed, the power (W) is sensed, and it is determined whether the detected power value is equal to or less than the standby power value of the stored electric appliance, and the result of the determination is stored. If the standby power value is less than or equal to the detected power value, the standby power automatic shutoff device that can automatically shut off the outlet power after a predetermined time (for example, 25 seconds) to prevent the standby power loss effectively; and It is about the blocking method.

In general, a multi-tap or an outlet (hereinafter referred to as an outlet) is widely used for power supply to electric appliances in homes and offices.

On the other hand, even when the power switch of the electric appliance is turned off, when the power plug of the electric appliance is not disconnected from the outlet, the current applied to the socket of the electric outlet is transferred to the corresponding electric appliance through the plug of the electric appliance. It is known to be applied at about 5W per hour.

Therefore, when using electrical outlets, when the electrical appliance is not in use, the power plug must be completely disconnected from the outlet to reduce standby power loss.

As such, even when the electric appliance is in an off state, if the electric appliance is connected to an outlet, standby power loss occurs. Therefore, in order to prevent standby power loss, the power plug of the electric appliance must be completely unplugged from the outlet.

However, it is very cumbersome to unplug the power supply every time you stop using the appliance, so you should know that standby power is usually consumed in homes and offices. Only the power is off.

In order to solve this problem, outlets for blocking standby power to prevent standby power loss are being researched and developed in various places. However, the ones known to date are inadequate due to their complicated structure and increased cost and failure rate.

Accordingly, the present invention is to improve the above-mentioned conventional problems, and to supply power when the use of the electric appliance is made in the state of storing the power consumed even when the electric appliance is not used, that is, standby power value, After the use of the electric appliance is completed, the power (W) is detected and the detected power value is determined to be equal to or less than the standby power value of the stored electric appliance and configured to automatically shut off the outlet power. It is an object of the present invention to provide a standby power automatic shut-off device and a method of blocking the same, as well as preventing power loss.

The automatic standby power cut-off device of the present invention for achieving the above object, the operation mode to automatically cut off the standby power in each of the plurality of outlets or switching panel to turn on / off the automatic outlet collectively; An electric power measuring unit configured to store initial standby power when the electric appliance is connected to an outlet, and measure an electric power value when the electric appliance connected to the outlet is operated or when the electric appliance is turned off after the electric appliance is operated; The standby power value of the electrical appliance measured from the power measurement unit is stored while judging whether there is an overload in the state of supplying power through the AC 220 and the rectifier, and the standby power of the plurality of outlets according to the operation mode set from the switching panel. A microcomputer that compares the stored standby power value and the power value measured from the power amount measuring unit so as to independently output the control signals or to individually turn on / off the control signals; And first and second relays configured to perform an on / off relay operation according to a control signal output from the microcomputer to block standby power at an outlet. It is configured to include.

According to one aspect of the invention, the switching panel, a plurality of, the touch type outlet icon for power supply to the outlet is made; An automatic icon which is configured in plurality and sets an operation mode which can automatically shut off standby power at the outlet individually; A standby power batch blocking icon for collectively turning on / off standby power to a plurality of outlets; A lamp that is lit when the icons are touched; And a buzzer outputting a buzzer sound when the icons are touched. .

According to another aspect of the invention, the power amount measuring unit is a shunt (SHUNT) resistor which is a current sensing unit connected to the load side of the outlet; And a power amount measurement microcomputer for measuring a power value according to the current value detected from the shunt resistor. It will include.

In the standby power automatic blocking method implemented by the automatic standby power blocking device, it is determined whether the overload in the state of power supply is progressed through the AC 220 and the rectifier, and if the result is not overloaded, the standby power at the outlet by the automatic icon A first step of determining whether automatic shutoff is set; As a result of the determination of the first step, if automatic shut-off of the standby power is not set, power supply to the outlet is continuously performed. If automatic shut-off of the standby power is set, the initial standby power value of the electric appliance is set to the microcomputer. A second step of determining whether it is stored; If the initial standby power value is not stored in the microcomputer as a result of the determination of the second step, the third stage of determining whether the electric appliance is operated after connecting the electrical appliance to the outlet and storing the initial standby power value of the electrical appliance in the microcomputer. ; As a result of the determination of the third step, if there is no operation of the electric appliance, the standby power of the outlet is automatically cut off after a predetermined time, and when the electric appliance is operated, the power value is measured through a power amount measuring unit when the electric appliance is turned off after use. 4 steps; A fifth step of comparing the power value according to the off of the electric device measured from the fourth step with the initial standby power value stored in the microcomputer; A sixth step of automatically shutting off standby power supplied to the outlet after a predetermined time when the stored initial standby power value is equal to the measured power value when the electric appliance is turned off or the stored initial standby power value is greater than the comparison result of the fifth step; ; .

According to another aspect of the invention, the initial standby power value storage in the third step, the step of connecting an electrical appliance to the outlet; Allowing the microcomputer to turn on the lamp and output the buzzer sound when the outlet icon of the switching panel is touched for a predetermined time, and then apply power to the electric device; Measuring the initial standby power value of an electric appliance connected to an outlet through a power measurement unit while allowing the microcomputer to flash the lamp and output the buzzer sound when the automatic icon is touched for a predetermined time, and then store the same in the microcomputer; It includes.

According to yet another aspect of the present invention, the automatic standby power setting in the second step may include: connecting an electric appliance to an outlet; Allowing the microcomputer to turn on the lamp and output the buzzer sound when the outlet icon is touched, and then apply power to the electric appliance; Setting an automatic mode for shutting off standby power while allowing the microcomputer to turn on the lamp and output the buzzer sound when the automatic icon is touched; It includes.

According to another aspect of the invention, if the standby power automatic shutdown setting is not made, connecting an electric appliance to the outlet; When the outlet icon is touched for a predetermined time, the microcomputer turns on the lamp and outputs the buzzer sound of the buzzer and then supplies power to the electric appliance; Determining whether the automatic icon is off; When the electric appliance is turned off while the automatic icon is turned off, when the electrical icon is touched for a predetermined time, the microcomputer cuts off the power supply to the outlet together with a buzzer sound of the buzzer; It will include.

According to still another aspect of the present invention, when the outlet is configured in plural, a method for simultaneously blocking standby power to a plurality of outlets, the method comprising: touching a standby power block icon for a predetermined time; Determining whether the outlet icon and the automatic icon are lit together with the buzzer sound output of the buzzer when the standby power blocking icon is touched, and blocking standby power to a plurality of outlets collectively; It includes.

According to still another aspect of the present invention, when the outlet is configured in plural, a method of simultaneously supplying standby power to a plurality of outlets, the method comprising the steps of: touching a standby power block icon for a predetermined time; Applying power to the plurality of outlets while lighting the outlet icon together with the buzzer sound output of the buzzer when the standby power blocking icon is touched; It will include.

As described above, the present invention supplies the power when the use of the electric appliance is made in the state of storing the power consumed even when the electric appliance is not used, that is, the standby power value, and when the use of the electric appliance is completed, the power (W) is reduced. After detecting, it is configured to automatically cut off the outlet power by determining whether the detected power value is equal to or less than the standby power value of the stored electric appliance. It can be expected to effect the convenience.

1 is a configuration diagram for automatically blocking standby power in an embodiment of the present invention.
Figure 2 is a system overall view for automatic standby power off in an embodiment of the present invention.
3 is a configuration diagram of a switching panel in an embodiment of the present invention.
4 and 5 are flowcharts illustrating a method for automatically shutting off standby power according to an embodiment of the present invention.

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

The automatic standby power blocking method according to an embodiment of the present invention is implemented by the automatic standby power blocking device of Figures 1 to 3 attached to the outlet (A1, A2), Figure 1 is an embodiment of the present invention 2 is an overall circuit diagram for automatically shutting off standby power, FIG. 2 is a detailed circuit diagram for automatically shutting off standby power according to an embodiment of the present invention, and FIG. 3 is a block diagram of a switching panel according to an embodiment of the present invention.

As shown in FIG. 1, first and second relays RL1 and RL2 are respectively provided on a power supply side of a plurality of outlets A1 and A2 to implement a method for automatically shutting off standby power according to an embodiment of the present invention. And a light relay (RL3) RL4 for controlling power supply to the lights 201 and 202 on the load side of the outlets A1 and A2, and the first and second relays RL1. ) RL2 and light relays RL3 and RL4 are connected to the switching panel 10.

The switching panel 10 is connected to the automatic standby power cut-off circuit, the automatic standby power cut-off circuit, as shown in Figure 2, the AC power supply of the AC220V (1) for supplying power to the home outlet rectifier ( In the rectified state by 2), the lamp is supplied to the lamps 201 and 202 through the lamp relays RL3 and RL4, as well as the outlets A1 and A2 through the first and second relays RL1 and RL2. The first and second relays RL1 and RL2 as well as the lamp relays RL3 and RL4 are configured to perform an on / off relay switching operation under the control of the microcomputer 3.

A power amount measuring unit 4 is connected to the load side of the outlets A1 and A2, and the power amount measuring unit 4 is a current sensing unit SHUNT resistor 4a connected to the load side of the outlets A1 and A2. And a power amount measurement microcomputer 4b for measuring the power value according to the current value detected from the shunt resistor 4a and providing the same to the microcomputer 3.

The standby power automatic shut-off circuit has an RF receiving unit 7 which serves to supply or cut off power to the outlets A1 and A2 by controlling the first and second relays RL1 and RL2 with an RF dedicated remote controller. IR receiver 8, which controls the first and second relays RL1 and RL2 to supply or cut off power to the outlets A1 and A2 using the remote control of the home appliance, RS-232 or 485 communication, which plays a role of indicating whether the standby power state is visible, and a lamp (5) made of LED or LCD, and a buzzer (6) that easily displays the use of the product by sound. It is possible to interlock with the wall pad by using the control function of the first and second relays (RL1) (RL2) from the wall pad to cut off the power of the outlet (A1, A2) to play a role to completely block the standby power Communication unit 9 and each time the switch is pressed Automatic mode to control the first and second relays RL1 and RL2 to supply or cut off power to the outlets A1 and A2 as well as to automatically shut off standby power to a plurality of outlets A1 and A2. Or switching panel 10 for setting a mode for automatically shutting off the standby power to the outlets A1 and A2 collectively.

The switching panel 10 has an outlet icon B10 and a B20, as well as an automatic icon B11 and B21 for setting an automatic shut-off mode of standby power for the outlet A1 and A2, and the outlet A1 and A2. A standby power batch cutoff icon B30 and a light indication icon B41 and B42 which collectively control on / off for A2), and each of the icons B10 and B20 ( B11, B21, B30, B41, and B42 are configured such that the lamp 5, which is a display unit, can be turned on.

The automatic standby power blocking method according to an embodiment of the present invention can be automatically set from the touch operation of the icons configured in the switching panel 10 of FIG. 3, which will be described in more detail with reference to FIGS. 4 and 5. Let's take a look.

First, the AC 220 (1) and the rectifier (2) to determine whether the overload in the state of power supply is in progress, if the result of the overload stops the power supply, if not the automatic icon of the switching panel (10) It is determined by B11 and B21 whether the automatic shutdown of standby power at the outlets A1 and A2 is set.

If the automatic shutoff of standby power at the outlets A1 and A2 is not set as a result of the determination, the power supply to the outlets A1 and A2 is continuously performed, while the standby at the outlets A1 and A2 is standby. When the automatic power off is set, it is determined whether the initial standby power value of the electric appliance is stored in the microcomputer 3.

Automatic standby power setting by the automatic icons (B11) (B21) is connected to the electrical appliance to the outlet (A1, A2), and then touch the outlet icon (B10) (B20), the outlet icon (B10) ( From the touch of B20, the microcomputer 3 turns on the lamp 5 and outputs the buzzer sound of the buzzer 6 so that the power is applied to the electric appliance. From the touch, the microcomputer 3 can turn on the lamp 5 and output the buzzer sound of the buzzer 6 while the automatic mode of standby power cutoff can be set.

Next, when the initial standby power value is not stored in the microcomputer 1, first, the electrical appliance is connected to the outlets A1 and A2, and then the initial standby power value of the electrical appliance is stored in the microcomputer 3. After that, the operation of the electric appliance was determined.

In the initial standby power value storage, when the electrical appliance is connected to the outlet (A1, A2), the microcomputer (when touching the outlet icon (B10) (B20) of the switching panel 100 for a predetermined time (about 2 seconds) 3) After the lamp 5 is turned on and the buzzer 6 is outputted, power is applied to the electric appliance. At this time, the automatic icons B11 and B21 are held for a predetermined time (about 2 seconds). The initial standby power value of the electric appliance connected to the outlets A1 and A2 is made while the microcomputer 3 makes the flashing of the lamp 5 and the buzzer sound output of the buzzer 6 when the touch is performed. It is possible by measuring the power amount measuring unit 4 including the power amount measuring microcomputer 4b and storing it in the microcomputer 3.

Next, if the electric appliance is not in operation, the standby power of the outlets A1 and A2 is automatically cut off after a predetermined time (for example, after 25 seconds), but the electric appliance is used when the electric appliance is operated. Then, the power value is measured through the power measurement unit 4 at the time of off, and the power value according to the off of the measured electrical appliance is compared with the initial standby power value stored in the microcomputer 3.

As a result of the comparison, when the stored initial standby power value is the same as the measured electric power value when the electric appliance is turned off or the stored initial standby power value is large, the microcomputer 3 is outlet after a predetermined time (for example, after 25 seconds have elapsed). The control operation for automatically shutting off standby power supplied to A1 and A2 is performed.

Although the description has been made that the standby power automatic shut-off for the outlets A1 and A2 is performed separately by the auto icons B11 and B21, respectively, the standby power for the plurality of outlets A1 and A2 is automatically made. The blocking can be performed in a batch, which is achieved by touching the standby power blocking icon B30 configured in the switching panel 10. That is, to simultaneously interrupt standby power to a plurality of outlets A1 and A2, the standby power collective blocking icon B30 is first touched for a predetermined time (about 2 seconds).

Then, when the standby power blocking icon B30 is touched, the microcomputer 3 determines whether the outlet icons B10, B20 and the auto icons B11, B21 are lit together with the buzzer sound output of the buzzer 6. If the determination result is turned on, the control operation for collectively blocking standby power to the plurality of outlets A1 and A2 is performed.

To simultaneously supply standby power to a plurality of outlets A1 and A2, the standby power collective blocking icon B30 is first touched for a predetermined time (about 2 seconds).

Then, when the standby power blocking icon B30 is touched, the microcomputer 3 lights up the lamps 5 of the outlet icons B10 and B20 together with the buzzer sound output of the buzzer 6 and the plurality of outlets A1 and B1. This is enabled by applying power to A2).

On the other hand, if the automatic standby power off by the automatic icons (B11) (B21) is not set to turn off the standby power manually, which is first connected to the electrical appliance to the outlet (A1, A2), then the outlet icon When the microcomputer 3 touches B10 and B20 for a predetermined time (about 2 seconds), the microcomputer 3 turns on the lamp 5 and outputs the buzzer sound of the buzzer 6. In one state, it is determined whether the automatic icons B11 and B21 are turned off.

As a result of the determination, when the electric appliances are turned off while the automatic icons B11 and B21 are turned off, the microcomputer 3 touches the buzzer 6 when the outlet icons B10 and B20 are touched for a predetermined time (about 2 seconds). Power supply to the outlet (A1, A2) together with the buzzer sound of).

It will be readily understood by those skilled in the art that the present invention can be implemented in various ways without departing from the gist of the present invention in various ways. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

3; Microcomputer 4; Electric power measuring unit
4a; Shunt resistance 4b; Power Measurement Microcomputer
10; Switching panel

Claims (9)

An operation mode for automatically shutting off standby power in a plurality of outlets or a switching panel for turning on / off automatic outlets collectively;
An electric power measuring unit configured to store initial standby power when the electric appliance is connected to an outlet, and measure an electric power value when the electric appliance connected to the outlet is operated or when the electric appliance is turned off after the electric appliance is operated;
The standby power value of the electrical apparatus measured from the power measurement unit is stored while determining whether overload in the state of power supply through the AC 220 and the rectifier, and the standby power of the plurality of outlets according to the operation mode set from the switching panel. A microcomputer that compares the stored standby power value and the power value measured from the power amount measuring unit so as to independently output the control signals or to individually turn on / off the control signals; And
First and second relays configured to perform an on / off relay operation according to a control signal output from the microcomputer to block standby power at an outlet; Including;
The switching panel,
A plurality of touch type outlet icons, each of which is configured to be supplied with power to the outlet;
An automatic icon which is configured in plurality and sets an operation mode which can automatically shut off standby power at the outlet individually;
A standby power batch blocking icon for collectively turning on / off standby power to a plurality of outlets;
A lamp that is lit when the icons are touched; And
A buzzer outputting a buzzer sound when the icons are touched; Standby power automatic shutdown device characterized in that it comprises a. delete The method of claim 1, wherein the power amount measuring unit,
A shunt resistor, which is a current sensing part connected to the load side of the outlet; And a power amount measurement microcomputer for measuring a power value according to the current value detected from the shunt resistor. Standby power automatic cutoff device comprising a. A first step of determining whether an overload is performed in a state in which power supply is performed through the AC 220 and the rectifying unit, and determining whether automatic shutoff of the standby power at the outlet is set by an automatic icon if it is not overloaded;
As a result of the determination of the first step, if automatic shut-off of the standby power is not set, power supply to the outlet is continuously performed. If automatic shut-off of the standby power is set, the initial standby power value of the electric appliance is set to the microcomputer. A second step of determining whether it is stored;
If the initial standby power value is not stored in the microcomputer as a result of the determination of the second step, the third stage of determining whether the electric appliance is operated after connecting the electrical appliance to the outlet and storing the initial standby power value of the electrical appliance in the microcomputer. ;
As a result of the determination of the third step, if there is no operation of the electric appliance, the standby power of the outlet is automatically cut off after a predetermined time, and when the electric appliance is operated, the power value is measured through a power amount measuring unit when the electric appliance is turned off after use. 4 steps;
A fifth step of comparing the power value according to the off of the electric device measured from the fourth step with the initial standby power value stored in the microcomputer; And
A sixth step of automatically shutting off standby power supplied to the outlet after a predetermined time when the stored initial standby power value is equal to the measured power value when the electric appliance is turned off or the stored initial standby power value is greater than the comparison result of the fifth step; ; Standby power automatic blocking method characterized in that it proceeds, including. The method of claim 4, wherein
The initial standby power value storage in the third step,
Connecting an electrical appliance to the outlet;
Allowing the microcomputer to turn on the lamp and output the buzzer sound when the outlet icon of the switching panel is touched for a predetermined time, and then apply power to the electric device;
Measuring the initial standby power value of an electric appliance connected to an outlet through a power measurement unit while allowing the microcomputer to flash the lamp and output the buzzer sound when the automatic icon is touched for a predetermined time, and then store the same in the microcomputer; Standby power automatic blocking method characterized in that it proceeds, including. The method of claim 4, wherein
The standby power automatic shut-off setting in the second step,
Connecting an electrical appliance to the outlet;
Allowing the microcomputer to turn on the lamp and output the buzzer sound when the outlet icon is touched, and then apply power to the electric appliance; And
Setting an automatic mode for shutting off standby power while allowing the microcomputer to turn on the lamp and output the buzzer sound when the automatic icon is touched; Standby power automatic blocking method characterized in that it proceeds, including. The method of claim 4, wherein
If the standby power automatic cutoff setting is not made,
Connecting an electrical appliance to the outlet;
When the outlet icon is touched for a predetermined time, the microcomputer turns on the lamp and outputs the buzzer sound of the buzzer and then supplies power to the electric appliance; Determining whether the automatic icon is off;
When the electric appliance is turned off while the automatic icon is turned off, when the electrical icon is touched for a predetermined time, the microcomputer cuts off the power supply to the outlet together with a buzzer sound of the buzzer; Standby power automatic blocking method characterized in that it proceeds, including. The method of claim 4, wherein
When the outlet is configured in plural, at the same time blocking the standby power to a plurality of outlets,
Touching the standby power blocking icon for a predetermined time;
Determining whether the outlet icon and the automatic icon are lit together with the buzzer sound output of the buzzer when the standby power blocking icon is touched, and blocking standby power to a plurality of outlets collectively; Standby power automatic blocking method characterized in that it proceeds, including. The method of claim 4, wherein
When the outlet is configured in plural, supplying standby power to a plurality of outlets at the same time,
Touching the standby power blocking icon for a predetermined time;
Applying power to the plurality of outlets while lighting the outlet icon together with the buzzer sound output of the buzzer when the standby power blocking icon is touched; Standby power automatic blocking method characterized in that it proceeds, including.

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