KR20110092847A - Method and device for cutting off standby power - Google Patents

Abstract

PURPOSE: A device and method for cutting off standby power are provided to block standby power through a power blocking unit in a standby state by determining the active state or standby state of an electric device based on an initial standby power value. CONSTITUTION: A power input terminal(110) is connected to an AC source. A power output terminal(112) is connected to a power plug of an electric device to receive AC. A power supply unit(120) supplies AC to each device as a first operation power source. The power supply unit supplies the AC power source to each apparatus to the first operating voltage. A battery unit(130) supplies the second operation power when AC is not supplied. A power blocking unit(140) prevents AC from being supplied through a power output terminal.

Description

Standby power cutoff device and method {Method and device for cutting off standby power}

In general, even if the home appliance is not in use, a certain amount of standby power is consumed when the plug is plugged into a wall outlet or a power strip and the power is connected. Thus, there is a waste of power and a risk of fire. At this time, the standby power means the power of the home appliance, but the power that constantly leaks even when not in operation.

However, this standby power has been recognized as a major culprit of power wastage two or three years ago, and in advanced countries, the importance of energy and the environment has emerged, and thus standby power has to be actively eradicated.

VCRs, TVs, microwave ovens, dishwashers, and cell phone chargers are more power-hungry when they are connected to a power source but do not perform their functions, rather than the time they are supposed to perform.

According to the International Energy Agency (IEA), 10% to 15% of the average power consumption of OECO member countries is consumed by standby power, and in Japan, 12% of annual power consumption is consumed by standby power. There is data.

Therefore, in recent years, in a power strip having a plurality of outlets, a switch corresponding to each of the power strips or each outlet is provided to separate home appliances that are not used from the power source. However, these multi-taps are often invisible to people, such as the back of furniture and under desks. Therefore, in order to operate the power cutoff switch, the user has to enter the desk or put his hand into the back of the furniture to operate the operation, which is very inconvenient.

In order to solve this problem, a standby power blocking multi-tap that detects a standby state of a standby home appliance that does not perform its original function and cuts off the standby power by shorting the power is widely developed. However, the conventional standby power cut-off power strip uses a method of shutting off power by comparing the standby power value with a preset current value in the microcomputer inside the power strip. However, when using this method, the power consumption and standby power values of all products are different, and thus the standby power of the product having the standby power value higher than the current value set in the microcomputer cannot be blocked and the micro current is difficult to block. There is this. In addition, in the case of electronic devices with low power consumption, there is a problem that the product cannot be used when the standby power is set high. In addition, in order to solve such a problem, even if it is possible to adjust according to the product using the setting value of the microcomputer, there is a need to change the setting value of the microcomputer according to the product used every time.

An object of the present invention for solving the above-mentioned problems, is connected to the electrical and electronic devices, the standby power is automatically measured at the initial time when commercial AC power is applied and automatically stored as an initial standby power value, and then stored initial standby Standby power, which determines the active or standby state of the electric and electronic devices based on the power value and completely cuts off standby power consumed when the electric and electronic devices are in the standby state, so that no power is consumed in the standby state. A blocking device and method are provided.

Standby power cut-off device according to the present invention for achieving the above object, the power input terminal is connected to the AC power; A power output terminal connected to a power plug of an electric and electronic device to receive the AC power; A power supply unit electrically connected to the power input terminal and supplying the AC power to each device as a first operating power source; A battery unit which supplies a second operating power when the supply of the AC power is cut off; A power cut-off unit connected to the power output terminal and blocking the AC power from being supplied through the power output terminal; Connected to the power output terminal and detecting an initial standby power value when the AC power is initially applied to the electric or electronic device, or always detecting a power value when the AC power is applied to the electronic device Current sensing unit for; Store the initial standby power value through the current sensing unit, and then compare the power value detected through the current sensing unit with the initial standby power value as the AC power is applied, and the power value is equal to the initial standby power value. A control unit which controls to cut off the supply of the AC power through the power cut-off unit when the same or smaller; And a signal transceiver for transmitting and receiving external input signals for operating the electrical and electronic devices.

In addition, the battery unit charges a specific power when the first operating power is supplied to the electronic device from the power supply unit, but the electric and electronic devices are charged when the electric and electronic devices are in a standby state due to the interruption of the supply of the first operating power. Specific power is supplied to the control unit and the signal transceiver to the second operating power.

The apparatus may further include a leakage detector connected between the power input terminal and the power output terminal to detect a leakage current.

In addition, the power cut-off unit cuts off the power supply even when overcurrent and leakage current occur when the AC power is supplied to the first operating power.

The external input signal may be one of a remote control signal, an infrared signal, and a radio frequency (RF) signal.

The current sensing unit may also detect an overcurrent resulting from being applied to the electric and electronic devices as the first operating power through the power supply unit.

On the other hand, the electrical and electronic device according to the present invention for achieving the above object, the power input terminal is connected to an AC power source through a power plug; A power output terminal configured to receive the AC power through the power input terminal and deliver the AC power to an electrical and electronic device; A device controller for controlling intrinsic functions of the electric and electronic devices; A power supply unit receiving the AC power and supplying the AC power to a first operating power source for executing unique functions of the electric and electronic devices; A signal transceiver for transmitting and receiving signals for operation and control of the unique function; A battery unit which supplies a second operating power when the supply of the first operating power is cut off from the power supply; A power cut-off unit connected to the power output terminal and blocking the AC power from being supplied to the power supply unit; Is connected to the power output terminal and detects an initial standby power value when the first operating power is initially applied to the electric and electronic device from the power supply unit, or the first operating power is connected to the electric and electronic device A current sensing unit for sensing a power value when applied; And store the initial standby power value through the current sensing unit, and then compare the power value sensed through the current sensing unit with the initial standby power value as the first operating power is applied from the power supply unit, and compare the result with the initial standby power value. The control unit may include a control unit configured to supply or cut off the first operating power through the power cutoff unit.

The controller may compare the power value detected through the current sensing unit with the initial standby power value for a predetermined time and determine that the power value is a standby state when the power value is less than or equal to the initial standby power value. The first operating power is controlled to be cut off through the power cutoff unit, and the second operating power is supplied from the battery unit.

The controller may be configured to supply the AC power to the power supply unit through the power cutoff unit when an external input signal is received through the signal transmission / reception unit while the second operating power is supplied from the battery unit. The first operating power is supplied from the power supply to the electrical and electronic equipment.

The controller may compare the power value detected by the current sensing unit with the initial standby power value, and determine that the power value is active when the power value is larger than the initial standby power value. The first operating power is controlled to be continuously supplied.

In addition, the battery unit charges a specific power when the first operating power is supplied from the power supply unit, and when the electrical and electronic devices are in a standby state due to the interruption of the supply of the first operating power, the charged specific power is charged. The control unit and the signal transmitting and receiving unit are supplied to the second operating power.

The controller may block the supply of the first operating power through the power interrupting unit even when an overcurrent and a leakage current occur when the first operating power is supplied from the power supply.

On the other hand, the standby power cut-off method according to the present invention for achieving the above object, a standby power cut-off method of a device including a power supply unit, a power cut off unit, a current sensing unit, a battery unit, a signal transceiver and a control unit, (a) storing the first operating power initially supplied as an initial standby power value when the power supply unit receives AC power and initially supplies the first operating power; (b) detecting a power value by the first operating power through the current sensing unit; (c) comparing the sensed power value with the initial standby power value; And (d) supplying or interrupting the first operating power through the power interrupting unit according to the comparison result.

In addition, in the step (d), when the power value is less than or equal to the initial standby power value, it is determined that the standby state, the supply of the first operating power through the power cut-off unit, and the battery unit Through the second operating power supply.

In the step (d), when the second operating power is supplied through the battery unit, when the external input signal is received through the signal transceiver, the first operating power is supplied from the power supply unit through the power cutoff unit. To be supplied.

The present invention automatically measures and stores the initial standby power value in the standby state of the electronic device, and determines the active state or the standby state of the electronic device on the basis of the stored initial standby power value. Power can be shut off completely.

Therefore, unlike the existing products, even when the device is in the standby state by the standby power cut-off device applied to home appliances or electronic devices, the power is completely cut off, so no power consumption by external AC power is generated.

In addition, even when a leakage current or an overcurrent occurs, the power supply is automatically shut off completely, thereby preventing a fire caused by a leakage current or an overcurrent, and blocking an overload to extend the life of electric and electronic devices.

In addition, by applying the standby power cut-off device according to the present invention in the interior of the electrical and electronic devices, there is no power consumption consumed by the built-in standby power cut-off device, as well as standby power consumption in the standby state of the electrical and electronic devices As a result, standby power can be reduced to the maximum.

In addition, the built-in type of the standby power cut-off device according to the present invention is mounted inside the electric and electronic devices, so that the power supply unit and the signal transmitting / receiving unit of the electric and electronic devices can be used to make it simpler and more compact. Universally applicable to equipment.

In addition, when the electric and electronic devices to which the present invention is applied are activated by receiving a remote control signal, an infrared signal, or an RF signal in a standby state in which standby power is not consumed, automatically operating by using a previously stored initial standby power value. Therefore, the user can use it easily.

1 is a configuration diagram schematically showing the configuration of a standby power cut-off device according to an embodiment of the present invention.
2 is a flowchart illustrating a standby power blocking method according to an embodiment of the present invention.
3 is a configuration diagram schematically showing the configuration of a standby power cut-off apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram schematically showing the configuration of a standby power cut-off device according to an embodiment of the present invention.

Standby power cut-off device according to an embodiment of the present invention is an external adapter type is an adapter type that is connected between the electrical outlet and the buried type outlet for supplying commercial AC power.

Referring to FIG. 1, the standby power cutoff device 100 according to the present invention includes a power input terminal 110, a power output terminal 112, a power supply unit 120, a battery unit 130, and a power cutoff unit 140. ), A leakage detector 150, an amplifier 1 152, a current detector 160, an amplifier 2 162, a controller 170, and a signal transceiver 180.

The power input terminal 110 is connected to a buried outlet for supplying AC power and inputs AC power from the outlet. Thus, the power input terminal 110 may have a plug shape to be connected to the buried outlet.

The power output terminal 112 is connected to a power plug of an electric and electronic device to receive AC power. Therefore, the power output terminal 112 may have a form of an outlet to plug the power plug of the electrical and electronic devices.

The power supply unit 120 is electrically connected to the power input terminal 110 and supplies a first operating power for supplying each device in the external adapter type with respect to the AC power. At this time, the position of the power supply unit 120 is not limited to the electrical connection between the power input terminal 110 and the predetermined, the predetermined of the circuit pattern for electrically connecting between the power input terminal 110 and the power output terminal 112. Can be configured on location.

The battery unit 130 supplies the second operating power when the supply of AC power is cut off. That is, the battery unit 130 charges a specific power when the first operating power is supplied from the power supply unit 120 to the electronics, and then, when the electronic device is in the standby state due to the interruption of the supply of the first operating power, the battery 130 is charged. The specific power is supplied to the controller 170 and the signal transceiver 180 as the second operating power. Therefore, the battery unit 130 may be a rechargeable type, and may be a disposable or portable battery such as a dry cell.

The power cutoff unit 140 is connected to the power output terminal 112 and blocks AC power from being supplied to the electronic device through the power output terminal 112. That is, the power cut-off unit 140 performs a cut-off operation according to the cut-off control signal of the controller 170 and may be configured as one of a relay, a triac, or a switch.

In addition, the power cutoff unit 140 cuts off the power supply even when an overcurrent and a leakage current occur when AC power is supplied to the first operating power through the power supply unit 120.

In addition, the position of the power cut-off unit 140 is not limited to electrically connected to the power output terminal 112, but the circuit pattern of electrically connecting between the power input terminal 110 and the power output terminal 112. It can be configured at a predetermined position.

The leak detector 150 is connected between the power input terminal 110 and the power output terminal 112 to detect a leakage current. The amplifier 1 152 amplifies the detected leakage current so that the controller 170 can easily recognize it.

The current sensing unit 160 is connected to the power output terminal 112, and detects the initial standby power value when the AC power is initially applied to the electrical and electronic, and then the AC power to be applied to the electrical and electronic Detect the power value when The amplifier 2 162 amplifies the sensed current so that the controller 170 can easily recognize it.

In addition, the current sensing unit 160 may also detect an overcurrent as AC power is input through the power input terminal 110 and applied to an electric and electronic device.

Here, the positions of the leakage detector 150 and the current detector 160 are not limited to the electrical connection between the power input terminal 110 and the power input terminal 110, but between the power input terminal 110 and the power output terminal 112. It can be comprised in the predetermined position of the circuit pattern to electrically connect.

The controller 170 stores the initial standby power value initially detected by the current detector 160, and determines the active state or standby state of the electric and electronic devices based on the initial standby power value, and controls the control signal accordingly. Transfer to the power cutoff unit 140, the power is controlled to be supplied or cut through the power cutoff unit 140.

That is, the controller 170 compares the power value detected by the current sensing unit 160 with the initial standby power value when AC power is applied, and cuts off the power when the power value is equal to or smaller than the initial standby power value. The supply of AC power through the unit 140 is cut off, and the second operating voltage is supplied from the battery unit 130. At this time, the controller 170 has a memory function for storing the initial standby power value.

In addition, the controller 170 compares the power value sensed by the current detector 160 with the initial standby power value, and determines that the power value is greater than the initial standby power value, and determines that the power value is the active state. 120, the first operating power is continuously supplied. In this case, the controller 170 may be configured as one of an IC chip using a microprocessor or logic.

The signal transceiver 180 transmits and receives an external input signal for operating the electronic device. In this case, the external input signal may be one of a remote control signal, an infrared signal, and a radio frequency (RF) signal.

2 is a flowchart illustrating a standby power blocking method according to an embodiment of the present invention.

2, in the standby power cut-off device 100 according to the present invention, the power output terminal of the standby power cut-off device 100 according to the present invention to the power plug of the electrical and electronic devices that the power plug is not connected anywhere After connecting to the power supply terminal 110, the plug of the power input terminal 110 is connected to a buried outlet for supplying commercial AC power, the power supply unit 120 receives the AC power from the buried outlet to initially receive the first Supplying the operating power, the control unit 170 stores the initial first operating power detected through the current sensing unit 160 electrically connected to the power input terminal 110 as an initial standby power value (S210).

That is, the control unit 170 is electrically connected to the power input terminal 112, when the AC power is applied to the current detection unit 160 through the power input terminal 112 from the power plug (current sensing unit ( The initial first operating power detected through 160 is stored as an initial standby power value of the electric and electronic device. At this time, the controller 170 sets an error range of the stored initial standby power value.

Thereafter, the controller 170 always detects a power value according to the first operating power through the current detector 160 as AC power is supplied into the device through the power input terminal 112 from the power plug (S220). .

Subsequently, the controller 170 compares the detected power value with the initial standby power value (S230).

The controller 170 supplies or cuts off the first operating power through the power cutoff unit 140 according to the comparison result.

The controller 170 compares the power value detected through the current sensing unit 160 with the initial standby power value for a predetermined time, and when the detected power value is equal to or smaller than the initial standby power value (S240−). For example, if it is included in the error range of the set initial standby power value is recognized as a standby state, the supply of the first operating power through the power cut-off unit 140, the second operation through the battery unit 130 Power is supplied (S250).

Here, the first operating power and the second operating power may have the same voltage value, and the power supplied from the power supply unit 120 is referred to as the first operating power, and the power supplied from the battery unit 130 is referred to as the second operation power. Each of them was classified as a power source.

At this time, as the second operating power is supplied from the battery unit 130 to the electrical and electronic devices, the amount of power consumed by the electrical and electronic devices 310 is about 0.5 to 0.1 milliwatts (mm Watt).

That is, the user inserts and connects a power plug to the power output terminal 112 of the standby power cutoff device 100 according to the present invention, and uses a plug-type power input terminal 110 to use any electric and electronic device. The initial standby power values of the electric and electronic devices are automatically stored in the control unit 170 at the moment of being electrically connected by inserting them into the buried outlet, and at the same time, the power cut-off unit 140 operates to consume the standby power consumed by the electric and electronic devices. To be completely blocked.

Subsequently, in a state in which the second operating power is supplied through the battery unit 130, the controller 170 receives an external input signal such as a remote control signal, an infrared signal, or an RF signal through the signal transceiver 180 ( In operation S260, the first operation power is supplied from the power supply unit 120 through the power cutoff unit 140 (S262).

However, when the power value sensed by the current sensing unit 160 is greater than the initial standby power value (S240-no) in step S240, the controller 170 recognizes the active state and removes the power from the power supply unit 120. 1 control to continuously supply the operating power (S270).

In addition, in order for a user to use electrical and electronic devices connected to the power output terminal 112 of the standby power cutoff device 100 according to the present invention, the power input terminal 110 of the standby power cutoff device 100 is connected to a buried outlet. The moment the electrical connection is inserted, the controller 170 detects a current flowing into or leaked into the electrical and electronic devices through the leakage detector 150 and the current detector 160, when the overcurrent or leakage current is detected It is possible to block the power supply to the electrical and electronic through the blocking unit 140.

3 is a schematic diagram illustrating an internal configuration of an electric and electronic device having a standby power cut-off device according to another embodiment of the present invention.

Standby power cut-off device according to another embodiment of the present invention is a built-in type that is mounted inside the general electrical and electronic devices. At this time, the built-in type is a small module type, can be applied to all electrical and electronic devices and at the same time operates to completely cut off the standby power consumption.

Referring to FIG. 3, the electrical and electronic device 300 having the standby power cutoff device according to another embodiment of the present invention may include a standby power cutoff device 310, a power supply unit 320, a device controller 330, and a signal. The transceiver 340 includes a control unit 350 and a battery unit 360.

Here, the standby power cut-off device 310 is the power input terminal 110, the power output terminal 112, the power cut-off unit (excluding the power supply 120 and the signal transceiver 180 in the configuration of FIG. 1 described above) 140, a leakage detector 150, a current detector 160, a controller 350, and a battery 360.

At this time, the power supply unit and the signal transmitting and receiving unit excluded from the standby power cut-off device 310 is included in the internal configuration of the electrical and electronic device 300, and the power supply unit 320 for supplying power required to execute a specific function of the device and The signal transmission and reception unit 340 is configured to transmit and receive data or commands necessary to execute a specific function of the device.

In addition, the plug 312 is coupled to the power input terminal 110 to be connected to a buried type outlet for receiving commercial AC power. Accordingly, by inserting and connecting the plug 312 to the buried outlet, AC power is applied from the buried outlet to the inside of the device through the power input terminal 110 from the plug 312.

Here, the power supply unit 320 may receive an AC power, for example, a switching mode power supply (SMPS) for supplying the first operating power such as 6V, 9V, 12V, and the like.

In FIG. 3, the functions of the power input terminal 110, the power output terminal 112, the power cutoff unit 140, the leakage detector 150, and the current detector 160 that are the same as or similar to those of FIG. 1 described above. Since it has already been described in the configuration of Figure 1 will be omitted.

The device controller 330 controls the inside of the device to execute specific functions of the electric and electronic device 300, and the remote control signal for controlling the electric and electronic device 300 through the signal transceiver 340. When receiving one of the infrared signal and the RF signal, it controls to execute a specific function corresponding to the signal.

The signal transmitting and receiving unit 340 is included in the electric and electronic device 300, and receives one of a remote control signal, an infrared signal, or an RF signal from the outside and transmits the signal to the device controller 330 and the controller 350. do.

The controller 350 controls the operation of the standby power cutoff device 310 according to another embodiment of the present invention, and stores an initial standby power value through the current sensing unit 160 and then inputs power from an external embedded outlet. As the AC power is input to the power supply unit 320 through the terminal 110 and the first operating power is input into the device from the power supply unit 320, the power value detected through the current sensing unit 160 is initially initialized. In comparison with the value, the first operating power is supplied or cut off through the power cutoff unit 140 according to the comparison result.

At this time, the controller 350 compares the power value detected by the current sensing unit 160 with the initial standby power value, and recognizes the standby state when the power value is equal to or smaller than the initial standby power value, The first operation power is blocked from being supplied through the blocking unit 140, and the second operating power is supplied from the battery unit 360 to the inside of the device.

Therefore, by stopping the power supply through the power cut-off unit 140, since the AC power from the outside is completely applied to the inside of the device is completely blocked, the power by the external power when the electrical and electronic device 300 is in the standby state The power consumption does not occur at all, and only the minute power required for the signal transmission / reception unit 340 to receive one of the remote control signal, the infrared signal, or the RF signal from the outside by the second operating power source through the battery unit 360 is consumed. will be. At this time, a small amount of about 0.5 ~ 0.1 milliwatts (mm Watt).

In addition, a predetermined time for the controller 360 to compare the power value supplied from the power supply unit 320 and the initial standby power value may be arbitrarily changed by the user.

In addition, when the controller 350 receives an external input signal through the signal transceiver 340 in a state in which the second operating power is supplied from the battery 360, the AC power is supplied through the power cutoff unit 140. The first operating power is supplied from the power supply unit 320 to the inside of the device by being supplied to the power supply unit 320.

On the other hand, the control unit 350 compares the power value detected by the current sensing unit 160 with the initial standby power value, and recognizes the active state when the power value is larger than the initial standby power value, and the power supply unit ( The first operating power is continuously supplied from the 320.

In this case, the controller 350 may be configured as one of an IC chip using a microprocessor or logic.

When the control unit 350 is configured as a microprocessor, the standby power consumed by the electrical and electronic device 300 in the standby state is 0.5 to 1 milliwatts as the amount of power by the second operating power supplied from the battery unit 360. mm Watt), when the control unit 350 is configured as an IC chip using logic, the standby power consumed by the electric and electronic device 300 in the standby state is about 0.1 to 0.6 milliwatts (mm Watt).

In addition, when the electrical and electronic device 300 is in an active state, the battery unit 360 charges the first operating power supplied from the power supply unit 320 with a specific power, and the electrical and electronic device 300 is in a standby state. In this case, since the supply of the first operating power is stopped from the power supply unit 320 by the blocking operation of the power cutoff unit 140, the second predetermined operation is applied to the control unit 350 and the signal transmitting and receiving unit 340. Power is supplied.

Accordingly, the controller 350 operates with the first operating power when the electrical and electronic device 300 is in an active state, and is supplied from the battery unit 360 when the electrical and electronic device 300 is in the standby state. 2 operates by operating power, regardless of the standby state and the active state of the electrical and electronic device 300 is always powered to receive an external operating signal through the signal transmission and reception unit 340 to operate the electrical and electronic device 300 When switching to the active state or when the power value detected by the current sensing unit 160 is determined to be a standby state by comparing with the initial standby power value, the standby by the power supply from the outside through the power cut-off unit 140 accordingly Control shut-off so that power is not consumed.

In addition, the controller 350 may detect the overcurrent through the current detector 160 and the leakage current through the leakage detector 150 when the first operating power is supplied from the power supply 320. Through 140, the application of the AC power is blocked to block the first operating power from being supplied into the device.

On the other hand, according to another embodiment of the present invention, the standby power cutoff device 310 applied to the electrical and electronic device 300 operates in a similar or identical process to the standby power cutoff device 100 described above.

First, the user inserts and connects the plug 312 of the electrical and electronic device 300 connected to the power input terminal 110 of the standby power cutoff device 310 according to another embodiment of the present invention to a buried outlet. The power supply 320 is applied to the power supply unit 320 from the plug 312 through the power input terminal 110 and the power output terminal 112. In this case, the controller 350 initializes the initial power value detected through the current sensing unit 160. Save as standby power value.

That is, at the moment when the plug 312 of the electrical and electronic device 300 is electrically connected to the buried outlet, the controller 350 automatically stores the initial standby power value of the electrical and electronic device 300.

Thereafter, the control unit 350 compares the power value detected by the current sensing unit 160 with the initial standby power value for a predetermined time as the AC power is applied, or the standby state of the electrical and electronic device 300 or Recognize the active state.

That is, when the detected power value is the same as or smaller than the initial standby power value, the controller 350 recognizes the standby state and supplies AC power to the power supply unit 320 through the power cutoff unit 140 so as to provide the first power. The operation power is blocked from being supplied to the inside of the device, and the second operation power is supplied from the battery unit 360 to the control unit 350 and the signal transmission / reception unit 340. Therefore, standby power of the electrical and electronic device 300 is completely cut off according to the application of power from the outside.

In addition, when the plug 312 of the electrical and electronic device 300 is electrically connected to the buried type outlet, the controller 350 detects an overcurrent and a leakage current through the leakage detector 150 and the current detector 160. When the overcurrent or leakage current flowing into the electrical and electronic device 300 is detected, the power cutoff unit 140 is blocked and controlled to block the first operating power from being supplied into the device from the power supply unit 320. do.

In addition, when any electric and electronic device 300 is in an active state (power on state), that is, the electric and electronic device 300 is a signal transmission and reception unit (external input signal such as a remote control signal, infrared signal or RF signal) ( When received through the 340 and the active state, the control unit 350 determines the external input signal and transmits the active control signal to the power cut-off unit 140, the power cut-off unit 140 is AC power supply unit 320 The first operating power is supplied from the power supply unit 320 to the inside of the device.

On the other hand, when any electrical and electronic device 300 is changed from the active state (power on state) to the standby state (power off state), that is, the electrical and electronic device 300 is a remote control signal, infrared signal or RF signal and When the standby state is caused by the same external input signal, the controller 350 repeatedly performs an operation of comparing the power value by the voltage from the current sensing unit 160 with the initial standby power value for a predetermined time.

Subsequently, the control unit 350 compares the power value with the initial standby power value, and if it is equal to or less than the power value, the power cutoff unit 140 operates by transmitting the cutoff control signal to the power cutoff unit 140. And the standby power value consumed by the electronic device 300 is completely blocked.

At this time, the predetermined time comparing the power value of the power supply unit 320 and the initial standby power value inside the electrical and electronic device 300 may be changed according to the user's convenience.

When the electrical and electronic device 300 is in an active state, the present invention operates by being supplied with power by the power supply unit 320 mounted inside the electrical and electronic device 300, and the electrical and electronic device 300. When the is in the standby state, it is operated by the battery unit 360 mounted inside the standby power cutoff device 310 of the present invention.

In this case, when the electrical and electronic device 300 is in the standby state, since the built-in standby power cut-off device 310 according to the present invention does not consume the amount of standby power consumption of the electrical and electronic device 300 in the standby state. There is also an effect that does not exist.

Particularly, since the built-in type of the present invention completely cuts off standby power in the standby state, the standby power of the electrical and electronic device 300 becomes 0 watt, thereby completely improving standby power consumed in the standby state. It works.

As described above, according to the present invention, the standby power is automatically measured at the initial time when the commercial AC power is connected to the electrical and electronic devices and automatically stored as an initial standby power value, and then stored based on the stored initial standby power value. By determining the active state or standby state of the electrical and electronic devices, by shutting off the standby power consumed when the electrical and electronic devices in the standby state, so that no power is consumed in the standby state, standby power blocking device and method Can be realized.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above are intended to be illustrative in all respects and should not be considered as limiting. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

The present invention can be applied to a power supply device that receives AC or DC power from the outside and supplies it as an operating power for executing a specific function.

In addition, the present invention is applicable to electrical and electronic devices having an active state in which power is applied to execute a specific function and a standby state in which no function is executed.

In addition, as power consumption is generated in the standby state, the present invention may be applied to electrical and electronic devices that need to completely block the consumption of standby power due to power supply from the outside.

100: standby power cutoff device 110: power input terminal
112: power output terminal 120: power supply
130: battery 140: power cut off
150: leak detector 152: amplifier 1
160: current sensing unit 162: amplifying unit 2
170: control unit 180: signal transmission and reception unit
300: electrical and electronic equipment 310: standby power blocking device
320: power supply unit 330: device control unit
340: signal transmission and reception unit 350: control unit
360: battery unit

Claims (15)

A power input terminal connected to an AC power source;
A power output terminal connected to a power plug of an electric and electronic device to receive the AC power;
A power supply unit electrically connected to the power input terminal and supplying the AC power to each device as a first operating power source;
A battery unit which supplies a second operating power when the supply of the AC power is cut off; A power cut-off unit connected to the power output terminal and blocking the AC power from being supplied through the power output terminal;
Connected to the power output terminal and detecting an initial standby power value when the AC power is initially applied to the electric or electronic device, or always detecting a power value when the AC power is applied to the electronic device Current sensing unit for;
Store the initial standby power value through the current sensing unit, and then compare the power value detected through the current sensing unit with the initial standby power value as the AC power is applied, and the power value is equal to the initial standby power value. A control unit which controls to cut off the supply of the AC power through the power cut-off unit when the same or smaller; And
A signal transceiver for transmitting and receiving external input signals for operating the electrical and electronic devices;
Standby power off device comprising a.
The method of claim 1,
The battery unit charges specific power when the first operating power is supplied from the power supply unit to the electronic device, and then, when the electricity and the electronic device are in a standby state due to the interruption of the supply of the first operating power, the charged specific power source. The standby power cutoff device, characterized in that for supplying to the control unit and the signal transmission and reception unit to the second operating power.
The method of claim 1,
A leakage detector connected between the power input terminal and the power output terminal to detect a leakage current;
Standby power cutoff device characterized in that it further comprises.
The method of claim 1,
And the power cut-off unit cuts off power supply even when overcurrent and leakage current occur when the AC power is supplied to the first operating power.
The method of claim 1,
And the external input signal is one of a remote control signal, an infrared signal, and a radio frequency (RF) signal.
The method of claim 1,
The current sensing unit is a standby power cut-off device, characterized in that for detecting the over-current as the AC power is applied to the electrical and electronic devices to the first operating power through the power supply.
A power input terminal connected to an AC power source through a power plug;
A power output terminal configured to receive the AC power through the power input terminal and deliver the AC power to an electrical and electronic device;
A device controller for controlling intrinsic functions of the electric and electronic devices;
A power supply unit receiving the AC power and supplying the AC power to a first operating power source for executing unique functions of the electric and electronic devices;
A signal transceiver for transmitting and receiving signals for operation and control of the unique function; A battery unit which supplies a second operating power when the supply of the first operating power is cut off from the power supply;
A power cut-off unit connected to the power output terminal and blocking the AC power from being supplied to the power supply unit;
Is connected to the power output terminal and detects an initial standby power value when the first operating power is initially applied to the electric and electronic device from the power supply unit, or the first operating power is connected to the electric and electronic device A current sensing unit for sensing a power value when applied; And
Store the initial standby power value through the current sensing unit, and then compare the power value sensed through the current sensing unit with the initial standby power value as the first operating power is applied from the power supply unit, according to the comparison result. A control unit which supplies or cuts off the first operating power through the power cutoff unit;
Electrical and electronic devices comprising a.
The method of claim 7, wherein
The controller may compare the power value detected through the current sensing unit with the initial standby power value, and determine the standby state when the power value is equal to or smaller than the initial standby power value, and through the power cut-off unit. And controlling the supply of the first operating power to be cut off and operating by receiving the second operating power from the battery unit.
The method of claim 8,
The control unit, when the second operating power is supplied from the battery unit, when receiving an external input signal through the signal transmission and reception unit, the AC power is supplied to the power supply unit through the power cut-off unit so that the power supply unit And the first operating power is supplied from within the electrical and electronic device.
The method of claim 7, wherein
The controller compares the power value detected through the current sensing unit with the initial standby power value, and determines that the power value is the active state when the power value is larger than the initial standby power value. Electrical and electronic equipment characterized in that the operating power is continuously supplied.
The method of claim 7, wherein
The battery unit may be configured to charge the specific power when the first operating power is supplied from the power supply unit, and to control the charged specific power when the electric and electronic devices are in a standby state due to the interruption of the supply of the first operating power. And the second transmitting power supply unit to the signal transmitting and receiving unit.
The method of claim 7, wherein
The control unit is characterized in that when the first operating power is supplied from the power supply unit, even when overcurrent and leakage current occurs, the power supply cut off the supply of the first operating power through the power cut-off unit.
A standby power blocking method of a device including a power supply unit, a power cutoff unit, a current sensing unit, a battery unit, a signal transmitting and receiving unit, and a control unit,
(a) storing the first operating power initially supplied as an initial standby power value when the power supply unit receives AC power and initially supplies the first operating power;
(b) detecting a power value by the first operating power through the current sensing unit;
(c) comparing the sensed power value with the initial standby power value; And
(d) supplying or interrupting the first operating power through the power interrupting unit according to the comparison result;
Standby power off method comprising a.
The method of claim 13,
In the step (d), when the power value is less than or equal to the initial standby power value, it is determined that the standby state, the supply of the first operating power through the power cut-off unit, and the battery unit through the Standby power cutoff method characterized in that to supply a second operating power.
The method of claim 14,
In the step (d), when receiving the external input signal through the signal transmission / reception unit while the second operating power is supplied through the battery unit, the first operating power is supplied from the power supply unit through the power cut-off unit. Standby power blocking method characterized in that.

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