KR200459184Y1 - Apparatus and method for cutting off standby power consumption - Google Patents

Abstract

The present invention is a standby power automatic switching method and apparatus having a circuit for detecting the standby power to cut off the power supply,
When the current for the predetermined power use is detected at the outlet side terminal 1 and the outlet member 1 forming the terminal hole 11, the switching is automatically performed to supply the power supply means and power supply for a predetermined time. Built-in the standby power automatic switching means (2) for automatically shutting off the supply power when there is no flow, and protrudes the fixed output terminal 31 in the front, the automatic switchgear enclosure formed the input terminal hole 32 in the rear Including (3), there is provided a standby power automatic switchgear for automatically shutting off the standby power of the outlet member (1).

Description

Standby Power Automatic Switching Device {APPARATUS AND METHOD FOR CUTTING OFF STANDBY POWER CONSUMPTION}

According to the present invention, as the installation structure of various conventional standby power cut-off devices and reduction devices is installed in the wall outlet, the multi-outlet, etc., the structure of the outlet becomes complicated, and the outlet production becomes difficult, and accordingly The present invention relates to an automatic standby power switch that improves the point that the price competitiveness of outlets has weakened.

In general, as a cut-off device of a plug outlet such as a power strip, the cut-off device is known to be cut off after a certain time through a timer, as in Registration Utility Model No. 20-0168410.

In addition, a power supply unit 20 is connected to the main power supply line 10 which is input from an external main power source such as an earth leakage breaker to the wall-type outlet to cut off standby power, and the power supplied from the power supply unit 20. Is provided with a power connection unit 30 for connecting the power plug of the electronic device, a power cut-off unit 40 for intermittent supply of power from the power supply unit 20 to the power connection unit 30 is formed, A current sensor unit 50 is provided to measure the intensity of the current flowing from the power supply unit 20 to the electronic device. The power cutoff unit 40 detects a change in the current measured by the current sensor unit 50. The control unit 60 for controlling the operation of the electronic device is formed, a pair of plug holes 71 through which the power plug of the electronic device is coupled, and the blocking unit hole so that the power cut-off unit 40 may protrude and be installed. (72) The outlet cover part 70 formed therethrough is provided, and the power supply unit 20, the power connection unit 30, the power cutoff unit 40, the current sensor unit 50, and the control unit 60 provide wall embedding. Is installed in the interior of the fixing bracket 80 is provided for, the outlet cover portion 70 is screwed with a fixing screw on the upper portion of the fixing bracket 80, the power cut-off portion 40 is the blocking portion hole 72 The wall-mounting outlet for cutting off standby power for protruding to the user so that the user can operate the power cut-off unit 40 is known as an attached drawing 10-2009-0121424 as shown in Figure 1a.

However, the structure is so complicated that its use is limited due to questionable stability at the implementation site.

Figure 1b of the accompanying drawings is a circuit of the known Patent No. 10-0929818 to cut off the supply power in the event of a fire by blocking the standby power by sensing the overcurrent flow as well as the heat detection in the prior art known fire.

The circuit includes a power supply terminal connected to an electric wire powered by a commercial power source and receiving AC electricity; A male terminal provided to be in contact with the plug terminal and supplying alternating current to the plug terminal being in contact; A power supply unit converting AC electricity inputted from the power supply terminal into DC electricity of a predetermined voltage; A switch unit including a standby current setting switch for selecting the standby current setting mode and a constant mode switch for switching to the constant mode when in the shut-off mode state; An output unit having a display unit, a lamp, and a buzzer; An opening and closing unit for selectively supplying AC power input from the power terminal (90A) to the water terminal by connecting an input terminal to the power terminal (90A) with a wire and connecting the output terminal to the water terminal; An overvoltage protection unit configured to absorb the supplied AC electricity when the voltage of the AC electricity input from the power terminal 90A exceeds a predetermined voltage; A first heat sensing unit sensing a temperature of a wire connected to an input terminal of the opening and closing unit 80; A second heat sensing unit sensing an outside temperature; A first current sensing unit configured to sense a current of an alternating current received through the power terminal and set the rated current value of the embedded outlet as a rated current value; A second current sensing unit 73 sensing a standby current flowing through the water terminal; The rated current value of the plug-in outlet, the overcurrent threshold value for judging overcurrent, the standby current threshold value for judging standby current, the leakage current threshold value for judging leakage, the wire for judging overheating And a memory for storing an overheating threshold value, an external overheating threshold value that serves as a criterion for overheating the external temperature, and a timer for obtaining an elapsed time; Outputting a current value detected by the first current sensing unit and a temperature value detected by the first heat sensing unit and the second heat sensing unit to the display unit; When the standby current setting mode is selected through the switch unit, storing the current value detected by the second current sensing unit as a standby current threshold value in a memory; In the normal mode, a condition in which the current value detected by the first current detector reaches the overcurrent threshold value, the current value detected by the second current detector is continuously smaller than the standby current threshold value for a predetermined elapsed time. Any one of a condition equal to, a condition in which the temperature value detected by the first heat sensing unit reaches the wire overheat threshold, and a condition in which a temperature value detected by the second heat sensing unit reaches the external overheat threshold. If the condition is made, the switch is switched to the shut-off mode by turning off; It consists of a control unit.

In particular, the first current sensing unit is configured to sense current flowing through each of the two wires, and differentially amplify the sensed currents to obtain a leakage current, thereby transmitting the detected current value and the leakage current value to the controller. The controller, when operating in the continuous mode, and if the leakage current obtained by the first current sensing unit is greater than or equal to the leakage current threshold value, by switching off the switching unit to switch to the blocking mode, the constant mode In the operation mode, if the current value detected by the first current detection unit is greater than the rated current value and lower than the overcurrent threshold value, the alarm sound is output to the buzzer for a preset time, and then the opening and closing unit is blocked to operate the blocking mode. Has the characteristic of switching to.

The power supply unit includes: a rectifying unit 51 for full-wave rectifying the input AC electric current to convert it into direct current electric current and supplying it through the positive line V + having a positive potential and the grounded ground line V0; A timer setting unit configured to acquire a power supply of a voltage level to be input to a timer T1 from the direct current electricity, and to set a pulse period and a pulse width of a switching signal to be output from the timer T1; A timer (T1) for receiving power of the voltage level obtained by the timer setting unit and outputting a switching signal at a set pulse period and pulse width; After being interrupted by the PNP type transistor Q4 via the reactance L1 to the direct current of the positive line V +, it is output through the collector of the transistor Q4, and the direct current of the positive line V + is applied to the base. The transistor Q3 is applied to the base of the transistor Q3 via the transistor Q2 which is turned on, and the transistor Q3 is turned on, and the base of the transistor Q4 is connected to the ground line through the transistor Q3 that is turned on. Configure a circuit to be connected to V0); The transistor Q1 is turned on by the positive pulse of the switching signal output from the timer T1 so that the base of the transistor Q2 is connected to the ground side so that the transistors Q2, Q3, and Q4 can be turned off. Circuit configuration; Switching unit 53 made; The voltage of electricity output through the collector of the transistor Q4 is divided into a plurality of resistors R10, R11, and VR4 to be applied to the base of the transistor Q6, and the plurality of resistors R10, R11, and VR4 are connected to the transistor Q4. An overvoltage blocking unit configured to select the transistor Q6 to be turned on when the collector voltage reaches a predetermined overvoltage, and to configure a base of the transistor Q3 to be connected to the ground line V0 by turning on the transistor Q6; And a smoothing part including a capacitor C3 connected between the collector of the transistor Q4 and the ground line V0. The transistor Q4 of the switching part 53 is parallel to the reactance L1. A variable resistor (VR3) connected to the for outputting the divided voltage signal through the variable resistance lead; A transistor Q5 having a base connected to the variable resistor lead of the variable resistor VR3, an emitter connected to a positive line (V +), and a collector connected to the base of the transistor Q4; It has been known that the overcurrent blocking unit is configured to include a.

In addition, Figure 1c of the accompanying drawings is applied to the standby power cut-off circuit of the conventional standby power-blocking outlet of Patent No. 10-0918794, the input terminal of the commercial power supply is connected to the two input terminals (101a, 101b), the output terminal It is connected to the output terminal contact parts 103a and 103b formed in the front surface, and an external electric device is connected to the output terminal contact parts 103a and 103b. The load breaker 105 is composed of a relay 403 and a relay driver 405 and is connected in series to an output terminal 103 for supplying power to a connected home appliance, and supplies or cuts off power. The current flowing in the power supply circuit is monitored through the load monitoring unit 107 connected in series with the power supply circuit. The load monitoring unit 105 continuously monitors the current flowing in the current power supply circuit. When the current sensed by the current sensor 407 of the load monitoring unit 107 reaches the set standby current value, the control unit 111 turns off the relay 403 of the load breaking unit 105 to cut off the power circuit. To be. In addition, when the detected current is more than a predetermined value, it is determined that the abnormal current, that is, the overcurrent, the relay 403 of the load breaker 105 is turned off to cut off the power supply circuit to the home appliance connected to the output terminal 103 Do not allow current to flow through the product. In addition, surge absorbers 401a and 401b are provided between the input terminals 101a and 101b and the ground wire to prevent a surge voltage such as a lightning strike from outside and causing a failure in the connected home appliance. . The load breaker 105 includes a relay 403 and a relay driver 405 and connects or cuts off a power supply circuit by a command of the controller 111. The load monitoring unit 107 monitors the current flowing through the power supply circuit, and the control unit 111 reads the current value detected by the load monitoring unit 107 to shut off the power supply circuit when the current value reaches the set standby current value. . In addition, when the detected current value is greater than or equal to a predetermined value, it is determined as an overcurrent to operate the relay 403 of the load breaker 105 to cut off the power circuit. The first mode switch 115 is set to a 'normal' mode and a 'sleep' mode. In order to set the power saving mode to cut off the standby current in order to save power, first set the first mode switch 115 to 'always' mode, and press the first mode button 113 once, the control unit ( In step 111, the current sensed current value is set as the standby current value and stored, and the red first LED 125 and the blue second LED 127 alternately flash three times to indicate that the standby current value is set. After flashing the first LED 125 and the second LED 127 three times alternately, when the first mode switch 115 is opened and set to the 'sleep' mode, the buzzer 123 connected to the alarm unit 121 is set. ) Beeps and rings once to inform that the device has entered the power saving mode. After that, when the current flowing in the power supply circuit reaches the set standby current value, the power supply circuit is blocked to save power.

This standby power cut-off outlet cuts off the standby current when not using electrical appliances or electronics, such as home appliances, and thus has the effect of saving power. Since the power supply circuit is automatically restored according to the detected remote control signal, there is no need to operate an outlet switch separately.

In addition, Figure 1d, 1e is an example of the standby power cut-off device of the Patent Publication No. 10-2006-0063731 is a time zone that does not use the electronic devices, that is, bedtime, or when people are absent or other situations where there is no use of home appliances using a remote control It is a power control device to save electric energy by cutting off standby power generated from AC power supply by recognizing the information.

The device is configured to cut off standby power while switching a power source of an electronic device, comprising: a microcomputer inputting an effective current value to control a power supply and a system; A contrast recognition unit comprising an optoelectronic device for acquiring contrast information for recognizing a working environment of a user, and a comparison unit for comparing the contrast information with a reference value; A human body sensing unit which controls a supply power by sending a signal related to the presence or absence of a person to the microcomputer using a human body sensing sensor so that power control based on the presence or absence of a person is combined with the above-described repeated standard power usage form; An infrared sensing unit for recognizing an infrared remote control signal and allowing the microcomputer to recognize the presence of a remote control signal to recognize whether the user uses the remote control device; A current measuring unit comprising a current sensor for measuring daily pattern information of power usage, a signal converting unit for converting the detected current signal from the AC sensor into an effective value, and an AC adapter; The light intensity recognition unit, the human body detection unit, the infrared detection unit, and the current measurement unit are respectively connected to the microcomputer, and particularly, a current sensor for measuring daily pattern information of power use, and a detected current signal from the AC sensor. A current measuring unit comprising a signal converting unit converting the value into an AC adapter and an AC adapter; Standby power cut-off device is configured to be coupled to the microcomputer, the current measuring unit.

 In particular, the current measuring unit 70 of the device is the AC adapter 71 is connected to the AC power, and the current sensor 72 for measuring, storing and managing the power consumed by the electronic devices plugged into the outlet in real time And a signal shaping bridge circuit 73 and a buffer 74. The power measuring unit 70 is a simple device and measures power only when the power supply / interception relay RLI is turned on. For reference, the current sensor 72 has an annular structure through which an electric wire passes, so when electricity flows through the electric wire, an electric field is formed around it by Lorentz's law and the intensity of the electric current generated according to the increase or decrease of the electric field is obtained. Compared with the reference current, when the current exceeds the reference value flows, the signal is turned on when the current exceeds the reference value. Recognize various kinds of information in the time when no electronic device is used, ie bedtime, when people are absent, or when there is no use of home appliances using remote control, and cut off standby power generated from AC power supply to save electric energy. Power control device (hereinafter referred to as "standby power automatic switching means").

In general, even if you do not use electronic products, the standby power output is more than 10% of the total electricity consumption, and when the home appliance is not operated, the plug is simply plugged into an outlet. In addition to over devices, it operates after waiting for 3 minutes (arbitrary set value) in less than 100mmA, or after 8A red LED warning signal, after 10A red LED and buzzer after 3 minutes warning, or after 12A, after red LED and buzzer 1 minute warning Blocking, preventing lightning and abnormal power supply, controlling with RF or Zigbee wireless data communication, RS-485 wired data communication, mode control such as going out and returning to home network system in conjunction with home network system In the interlocking scenario mode with gas leakage and electric fire, or mobile control is possible.

In addition, the electrical and electronic device using the remote control in general is in a standby state for receiving the transmission signal of the remote control even when the operation is stopped, so even if the operation stops consuming a certain power, and also the device using the remote control If not, no-load power loss occurs in the internally mounted transformer, and itself consumes power even in the standby state for re-response, so that the unplugged outlet to which such equipment is connected continues to flow unwanted currents of standby power, which can be blocked. The outlet is known as the method and apparatus described above.

The purchase outlet that can cut off standby power supplies separate power to the control means that cuts off standby power. The conventional outlet has a problem in that standby power is consumed even in such a power supply means. That is, undesired power loss occurred even in the configuration to cut off the standby power, and recently, the need for green growth and energy saving has been emphasized, and therefore, it is urgent to develop a power-saving buried outlet that can solve the above problems. However, the device and its structure were so complex that it could not be installed simply.

According to the present invention, the structure of the outlet becomes complicated and the outlet is difficult to manufacture as the installation structure of the various conventional standby power cut-off devices and the reduction devices is changed to the inside of the wall outlet and the multi-outlet. Therefore, in order to improve the point that the price competitiveness of the outlet has weakened, the rear end of the outlet is simply changed to form a terminal connection hole, and the output terminal of the standby power automatic opening and closing device is connected to the connection hole so that it is simply installed in the existing outlet. In addition, the purpose of the present invention is to provide a standby power automatic switching device in which the standby power is automatically opened and closed.

The present invention standby power automatic opening and closing device for achieving the above object,

An outlet member forming a terminal hole; In the standby power state, when the current for the predetermined power use is detected at the outlet side terminal, the switching is automatically performed, and the standby power switch automatically shuts off the supply power when there is no current flow for a predetermined time. It is achieved by a standby power automatic opening and closing device including a housing having a built-in means, an output terminal into which the output terminal is inserted into the terminal hole and an input terminal hole for connecting the input terminal to the rear side.

Shape of the housing of the present invention standby power automatic opening and closing device for achieving the above object can be implemented as a "T" type, a terminal structure that the output terminal is connected by a coated wire.

Complexity, fabrication, and price competitiveness of wall outlets, multi-outlets, outlet boxes, etc., which realize various conventional standby power cut-off devices and saving devices by simply plugging into various wall outlets, multi-outlets, and outlet boxes. It has the effect of providing a standby power opening and closing method and apparatus that can be easily detached to the rear of the outlet by improving the problems such as weakening.

Figure 1a is a standby power cut-off device of the wall-mounted outlet for cutting off the standby power known as the Patent Publication No. 10-2009-0121424,
Figure 1b is a circuit for blocking the supply power in the event of a fire by blocking the standby power by detecting the overcurrent flow as well as thermal detection in the prior art fire,
1c is a standby power cut-off circuit of a conventional standby power cut-off outlet of Patent No. 10-0918794,
Figure 1d, 1e shows a circuit example of the standby power cut-off device of Patent Publication No. 10-2006-0063731,
Figure 2 is a perspective view of a floor wiring outlet box in which the present invention standby power automatic switching device is implemented,
3 is a perspective view of an outlet in which the present invention standby power automatic switching device is implemented,
4A, 4B, 4C and 5 are perspective views illustrating various embodiments of the "standby power automatic switching means" of the standby power automatic switching device of the present invention,
6 is a schematic circuit diagram showing an example of "standby power automatic switching means" of the standby power automatic switching device of the present invention.

Figure 2 of the accompanying drawings is a perspective view of a floor wiring outlet box in which the present invention standby power automatic opening and closing device is implemented, Figure 3 is a perspective view of the outlet is implemented the standby power automatic switching device of the present invention, Figures 4a, 4b, 4c, Figure 5 is a perspective view showing various embodiments of the "standby power automatic switching means" of the standby power automatic switching device of the present invention, Figure 6 is a schematic circuit diagram showing an example of the "standby power automatic switching means" of the standby power automatic switching device of the present invention to be.

The standby power automatic switching method for detecting the standby power supply according to the drawings to cut off the power supply is made of the following steps (1), (2), (3).

(1) First, the terminal hole 11 is formed in the first pole power supply side on the power supply side in the outlet, wall-mounted outlet 1, and the like.

The formation of the terminal hole 11 is preferable to newly design the rear of the existing outlet, and to form two holes from the rear and cut off between one of the two connection terminals inside the outlet, so that the two terminal holes are formed. (11) They may be drawn out and connected to each other.

(2) The terminal hole 11 protrudes two output terminals 31 in the front, and the rear of the primary input power source is connected by connecting the housing 3 formed with the input terminal hole 32 for power supply. It is possible to open and close the power supply through a single polarity. Of course, the interior of the enclosure has a built-in "standby power automatic opening and closing means" to detect the flow of current in accordance with the opening and closing signals of the remote control, manual switch, wall switch, etc. to supply or cut off the power supply.

"Standby power automatic opening and closing means" is a conventionally known circuit is applied as described above, a detailed description thereof will be described with reference to the "standby power automatic opening and closing means" of FIG.

That is, the current measuring unit 70 of the "standby power automatic opening and closing means" measures and stores and manages in real time the power consumed by the AC adapter 71 and the electronic device plugged into an AC power source. And a current sensor 72, a signal shaping bridge circuit 73, and a buffer 74. The power measuring unit 70 is a simple device and measures power only when the power supply / blocking relay RLI is turned on. For reference, the current sensor 72 has a central wire passing through it. It has an annular structure, and when electricity flows through a wire, an electric field is formed around it by Lorentz's law, and when the current exceeds the reference value by comparing the intensity of the current generated by the increase or decrease of the electric field with the reference current, it is turned on. When it is below the reference value, the signal is turned OFF and the signal is transmitted to the relay RL1. It is a known device that can save electrical energy by cutting off the standby power generated from the power supply.

(3) The power supply is automatically opened and closed by connecting the output terminal 31 of the enclosure 3 having the "standby power automatic opening and closing means" 2 to the outlet terminal hole 11 in this way.

The advantage in this method is that the shape of the enclosure 3 having a built-in "standby power automatic opening and closing means", protruding the fixed output terminal 31 in the front, and the input terminal hole 32 for power connection in the rear. A wall outlet or multi-outlet or outlet box constructed of "T" shaped sideways, only a thin rectangle, or consisting of an output terminal 32 and a sheathed wire 33 through the housing 3. If the installation space is very narrow, it can be carried out by selecting the appropriate form.

The present invention standby power automatic opening and closing device according to such a method largely consists of the outlet member 1, "standby power automatic opening and closing means" (2), and the housing (3).

The outlet member 1 forms a terminal hole 11, and the formation of the terminal hole 11 is preferable to newly design the rear of the existing outlet, and to form two holes from the rear and connect two inside the outlet. It can be connected by drawing one out of two terminals and disconnecting them into each of the two terminal holes.

The "standby power automatic switching means" (2) selects and applies a circuit device of many known standby power interrupters, standby power reduction devices.

On the other hand, the housing 3 is built in the "standby power automatic opening and closing means" (2), protruding the fixed output terminal 31 in the front, and to form an input terminal hole 32 for connecting the input terminal in the rear. . That is, the output terminal 31 connected to the terminal hole 11 is formed, and the supply power input terminal 32 is formed in the rear side.

For reference, the present invention will be described with respect to the known "automatic standby power switching means" blocking circuit applied to the enclosure (3).

Through the conventional standby power cut-off circuit shown in Figure 6 of the accompanying drawings,

An apparatus for cutting off standby power while switching a power supply of an electronic device, comprising: a microcomputer inputting an effective current value to control a power supply and a system; A contrast recognition unit comprising an optoelectronic device for acquiring contrast information for recognizing a working environment of a user, and a comparison unit for comparing the contrast information with a reference value; A human body sensing unit which controls a supply power by sending a signal related to the presence or absence of a person to the microcomputer using a human body sensing sensor so that power control based on the presence or absence of a person is combined with the above-described repeated standard power usage form; An infrared sensing unit for recognizing an infrared remote control signal and allowing the microcomputer to recognize the presence of a remote control signal to recognize whether the user uses the remote control device; A current measuring unit comprising a current sensor for measuring daily pattern information of power usage, a signal converting unit for converting the detected current signal from the AC sensor into an effective value, and an AC adapter; The light intensity recognition unit, the human body detection unit, the infrared detection unit, and the current measurement unit are respectively connected to the microcomputer, and particularly, a current sensor for measuring daily pattern information of power use, and a detected current signal from the AC sensor. A current measuring unit comprising a signal converting unit converting the value into an AC adapter and an AC adapter; The current measuring unit is configured to be coupled to each microcomputer.

Detailed operation of the circuit will be described with reference to FIGS. 1A to 1E described above.

Or a switching circuit for detecting a current for power use from a plug inserted into the outlet member 1 side in a standby power state. Receives a signal from the control unit of the standby power automatic switching means "(2) and operates the first polarity side relay of the power supply means in comparison with the preset signal to conduct electricity, thereby automatically supplying power as a signal of the remote controller. It consists of a power supply means. In addition, when the user switches off the remote control, the switching signal changes the output time of the controller to turn off the relay again, or when the current does not flow for a certain time, it is also preferable to automatically cut off the power supply in consideration of the timer. Do.

In addition, the current sensor unit may be configured as a CT (Current Transformer) sensor, and the control unit, which is located in the middle of the outlet body unit and is composed of a PCB assembly, has a rectifier for converting to a direct current form since the signal from the current sensor unit appears in an alternating current form. And, the current converted into direct current is input to the induction current generating unit, the induction current is generated when the current intensity is changed in the induction current generating unit, the generated induction current is amplified through the current amplifying unit is energized to the electromagnet unit . The electromagnet portion formed by winding the coil around the iron core may be generated by generating an electromagnetic force externally when an induced current is input.

In addition, in Patent No. 929818, the first current detecting unit 72 is configured to detect a current flowing through each of the two wires, and differentially amplify the detected current to obtain a leakage current, thereby detecting the detected current value and the leakage current value. It characterized in that the transmission to the control unit 10. In addition, the controller 10 may block the opening / closing unit 80 when the leakage current obtained by the first current detecting unit 72 is greater than or equal to the leakage current threshold value when operating in the constant mode. When the current value detected by the first current sensing unit 72 is greater than the rated current value and lower than the overcurrent threshold value, the buzzer may be set for a preset time. 43) has a characteristic of switching to the blocking mode by blocking the opening and closing part 80 after outputting a warning sound.

In addition, in the case of Patent Application No. 10-2009-55274, the control switch 510 provided in the control unit 500 is operated. The relay 400 receiving the signal transmits the information to the relay 400 provided in the integrated wiring apparatus 300. The relay 400 receiving the signal cuts off the power supplied to the outlet 320 provided in the integrated wiring device 300. In the mall, the relay 400 may be installed at only one of the control switch or the integrated wiring apparatus.

In addition, in the case of Korean Patent Laid-Open Publication No. 10-2008-0012001, the sensor senses a current change of an input AC voltage and outputs a DC voltage corresponding to the detection result; And a controller for detecting a current change based on the digital voltage corresponding to the DC voltage, and determining an on / off state of the connected external device according to the detected result, wherein the AD converter converts the DC voltage into a digital voltage. It may further include, and the control unit, by detecting a current change based on the digital voltage received from the AD converter may determine the on / off state of the external device, the control unit, based on the digital voltage continuously received While detecting the change in current, it is possible to determine whether the change in current is greater than or equal to a predetermined reference change width, and if the change in current is greater than or equal to the reference change, it is possible to determine that the on / off state of the external device is changed. In addition, if it is determined that the on / off state of the external device is changed, the controller compares the DC voltage before the change with the DC voltage after the change, and if the DC voltage after the change is equal to or greater than the DC voltage before the change, the external device is turned on. If the DC voltage after the change is less than the DC voltage before the change, it may be determined that the external device is in the OFF state. Preferably, when it is determined that the on / off state of the external device is changed, the controller compares the DC voltage after the change with the preset reference voltage. If it is determined that the device is in the ON state and the DC voltage after the change is less than the reference voltage, it may be determined that the external device is in the OFF state. Preferably, when the external device is determined to be in an off state, the controller calculates an off time of the external device until the external device is in an on state, and when the off time exceeds a preset reference time, Can cut off AC voltage supplied to

When the housing 3 having such a known standby power automatic switching means is connected to the terminal hole 11 of the existing outlet 1 as the output terminal 31 as shown in FIG. The switching signal is transmitted to the controller by means of detecting a current flow of the controller, and the controller changes the preset output time to turn off the relay or automatically cuts off the power supply as a timer when there is no current flow for a predetermined time. Will be done.

Therefore, it is possible to simply attach and detach without having to configure the complicated standby power switch automatically as a conventional outlet.

1: outlet member, 11: terminal hole, 2: automatic opening and closing means, 3: enclosure, 31: output terminal,
32: input terminal

Claims (3)

In the standby power automatic switching device having a circuit for detecting the standby power to cut off the power supply,
An outlet member 1 having a terminal hole 11; And
In the standby power state, when the current for the predetermined power use is detected at the outlet-side terminal, the switching is automatically supplied to the power supply, or the standby power automatic switching means for automatically shutting off the supply power when there is no current flow for a predetermined time (2). ) Includes a housing (3) having a built-in, protruding output terminal 31 to be inserted and removed from the terminal hole (11), and formed an input terminal hole (32) at the rear,
Standby power automatic opening and closing device, characterized in that the housing 3 is detachable from the outlet member (1). 2. The standby power automatic switching device according to claim 1, wherein the enclosure (3) has a shape of "T". The standby power automatic switching device according to claim 1, wherein the enclosure (3) and the output terminal (31) are connected by a sheathed wire (33).

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