KR20110080618A - Stand-by power breaking receptacle - Google Patents

Abstract

PURPOSE: A standby power blocking outlet is provided for an outlet device to supply or block a commercial power source to the electronic appliance with a wireless signal received from a remote control signal receiver. CONSTITUTION: A remote control signal receiver(200) receives a remote control signal for turning on/off the power source of the electronic appliance by remote from a remote controller. The remote control signal receiver creates and transmits a wireless signal. An outlet device(100) receives the wireless signal from the remote control signal receiver and supplies or blocks a commercial power source to the electronic appliance.

Description

Stand-by Power Breaking Receptacle}

The present invention relates to a standby power cut-off outlet, and more particularly, to a standby power cut-off outlet having a separate remote control signal receiving device to perform remote communication by performing wireless communication during remote power control of an electric / electronic product by a remote controller.

In general, to use electrical and electronic products such as computers, printers, multifunction devices, TVs, VTRs, audio, microwave ovens, air conditioners, etc. in a place such as an office or a home, a plug connected to the electrical and electronic products is connected to a receptacle. By doing so, a commercial power supply (for example, 330V, 220V, etc.) is supplied through the outlet to the corresponding electric and electronic products so that the electric and electronic products can be used.

In this case, the outlet is a connector for supplying commercial power, and in addition to the outlet, a multi-tap, a plug socket, a wall socket, and a central plug are used. And the like.

In the case of power control for electrical and electronic products, the remote controller is mainly used for the purpose of convenience of the user, that is, the user uses the remote control at a distance away from the electrical and electronic products. To turn the power on or off.

At this time, in order to perform the remote power control operation of the electrical and electronic products by the remote control, it is necessary to always supply a constant power to the electrical and electronic products through the plug connected to the outlet.

In this way, since most of the electrical and electronic products are used to be connected to the outlet through a plug, the plug is connected to the outlet, which is in a stand-by state where constant commercial power is always supplied to the electronic product. In this case, the commercial power supplied to the electrical and electronic products in the standby state is called standby power.

In other words, most of the electrical and electronic products, even in the standby state, commercial power is continuously supplied to the electrical and electronic products through the plugs connected to the outlets, resulting in power loss. Even if the power switch configured in the electrical and electronic products is turned off, the electrical power is always connected to the electrical and electronic products through the plug connected to the outlet, and thus the commercial power is continuously supplied to the electrical and electronic products, and the power loss of the standby power is reduced. This has led to a shortened life span of electrical and electronic products.

Therefore, in order to cut off the above-mentioned standby power, standby which can perform the same role, such as disconnecting a plug to which an electrical and electronic product is connected from an outlet, or turning off and shutting off a switch to cut off power supplied to the electrical and electronic product side. It has led to the development of power cut-off outlets.

When the standby power cut-off outlet remotely controls the electric and electronic products using a remote control, the outlets connected through the plug of the electric and electronic products are also remotely controlled.

In other words, the standby power cut-off outlet according to the prior art includes a remote control signal receiver, and when the user remotely turns on the power of the electrical / electronic product using the remote controller, the remote controller signal received from the remote controller is first received. After receiving through the remotely turned on the outlet connected to the electrical and electronic products, through the outlet to supply power to the electrical and electronic products to turn on the electrical and electronic products. On the other hand, when the user remotely turns off the power of the electrical and electronic products using the remote control, by receiving a remote control signal transmitted from the remote control through the remote control signal receiver to turn off the outlet connected to the electrical and electronic products remotely, Even in the standby state of electronic products, the power supply that is supplied is completely shut off to remove standby power generated from the electrical and electronic products.

However, the standby power cut-off outlet of the prior art is often installed on the wall of the room, there is a problem that often does not receive the remote control signal transmitted from the remote control is hidden behind the electrical and electronic products. Therefore, the remote control receiver is separately configured to be connected to an outlet and wired, and then attached to the front of the electrical and electronic product. However, this is often caused by a problem in the installation of the wire and a short circuit of the wire. There is another problem that occurs and that looks aesthetically bad.

When an abnormality occurs in a circuit such as a remote control signal receiver provided in the standby power cut-off outlet according to the prior art, and the power supply to the electrical / electronic product is cut off, the outlet itself is in an off state. Unless the error of the circuit is repaired, there is a problem that no power can be supplied to the electrical and electronic product.

The technical problem to be achieved by the present invention is to solve the problems as described above, by providing a separate remote control signal receiver to perform a remote control by performing a wireless communication when the remote power control of the electrical and electronic products by the remote control Provide a power disconnect outlet.

In addition, an object of the present invention is to provide a standby power cut-off outlet and its operation method by providing a separate switch to forcibly supply power to the electrical and electronic products even when an error in the internal circuit occurs.

In order to solve this problem, in the standby power cut-off outlet according to the present invention, to perform a wireless communication with a remote control signal receiving device provided separately, when the user remotely controls the power of electrical and electronic products using a remote control In addition, the separate remote control signal receiving device receives the remote control signal to remotely control the standby power cut-off outlet through wireless communication, thereby solving the problem of the existing wired installation and wired short-circuit and implements a good view.

In addition, in the standby power cut-off outlet according to the present invention, by providing a separate switch device that can be directly connected to the commercial power supply, even if the power supply to the electrical and electronic products is cut off due to an error in the internal circuit through the switch device Implement power to the electric and electronic product side by force.

According to one aspect of the invention, in the standby power cut-off outlet for supplying commercial power to the electrical and electronic products remotely controlled by the remote control, the remote control signal for remotely turning on / off the power of the electrical and electronic products Standby power cut-off outlet including a remote control signal receiving unit for receiving and receiving the wireless signal from the remote control signal receiving unit and receiving the wireless signal from the remote control signal receiving unit to supply or cut off commercial power to the electrical and electronic products To provide.

Here, the remote control signal receiving unit, the battery unit for supplying the power required for the remote control signal receiving unit, the wireless signal transmission unit for generating and transmitting the wireless signal to the outlet device unit, receiving the remote control signal transmitted from the remote control A remote controller signal receiver and a controller for checking whether the remote controller signal received from the remote controller signal receiver is a remote controller signal for remotely turning on / off the power of the electrical and electronic product, and controlling the operation of the wireless signal transmitter. It features.

Alternatively, the remote control signal receiving unit, a solar cell including a solar electronic panel for supplying power required for the remote control signal receiving unit, a wireless signal transmitter for generating the wireless signal and transmitting to the outlet device unit, and transmits from the remote control Controls the operation of the wireless signal transmitter by checking whether the remote controller signal receiver receives the remote controller signal, and whether the remote controller signal received from the remote controller signal receiver is a remote controller signal for remotely turning on / off the power of the electrical and electronic product. It characterized in that it comprises a control unit.

Preferably, the remote control signal receiving unit further includes a remote control signal transmitting unit for transmitting a remote control signal for remotely on / off the power of the electrical and electronic products to the electrical and electronic products, the control unit is the wireless signal transmission unit Drive to generate a wireless signal, and then transmit the remote control signal through the remote control signal transmitter after a predetermined time elapses.

Also preferably, the remote control signal receiving apparatus unit may further include a device unit displaying or outputting a remote control learning operation, a remote control signal reception, and a remote control signal transmission according to driving control of the controller.

Further, the remote control signal receiving unit further includes a running button unit for notifying the control unit when a user inputs a button in order to learn and register the remote control signal transmitted from the remote control unit in a memory. The controller may receive a button input from the running button unit and register the remote controller signal received by the remote controller signal receiver in the memory.

The outlet device unit may include: a power converter configured to convert the commercial power into DC power required by the outlet device, and supply the wireless power receiver; a wireless signal receiver configured to receive a radio signal transmitted from the remote controller signal receiver; The power switch unit for switching to the electrical and electronic products, or cut off the commercial power is switched to the electrical and electronic products, and when receiving a wireless signal from the wireless signal receiver to check the state of the power switch unit, according to the check result It characterized in that it comprises a micom for controlling the operation of the power switch unit.

According to another feature of the invention, in the standby power cut-off outlet for supplying commercial power to the electrical and electronic products remotely controlled by the remote control, a power converter for converting the commercial power supply to the DC power required for the system, the remote control According to the remote control signal received from the remote control signal receiving unit for receiving a remote control signal received from the remote control signal receiving unit, switching the commercial power to the electrical and electronic products, or cut off the commercial power switched to the electrical and electronic products, the remote control signal receiving unit The microcomputer for controlling the operation of the power switch unit, and one side is directly connected to the commercial power source and the other side is directly connected to the socket side to which the plug of the electrical and electronic products is plugged in, usually in the switch-off state, When forced to switch on Switch is turned on characterized in that it comprises force switch unit that was connected directly to a commercial power source to the socket side.

Thus, according to the present invention, by providing a remote control signal receiving device separately to perform wireless communication to remotely control when controlling the remote power supply of electrical and electronic products, solving the problem of the existing wired installation and wired short-circuit and aesthetic view It also has the effect of making it good. In addition, according to the present invention, by providing a separate switch device has the effect that can be forcibly supplied to the electrical and electronic product even when the power is cut off due to the error of the internal circuit.

1 is a block diagram illustrating a standby power cut-off outlet according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “… module” described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. Can be.

Now, a standby power cut-off outlet according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Standby power cut-off outlet according to an embodiment of the present invention is a connector that can receive a commercial power (for example, 330V, 220V, etc.) to supply to electrical and electronic products (for example, TV, etc.) -A tap, a plug socket, a wall socket, an outlet plug, or the like may be used. Alternatively, the plug may be provided in a plug of an electrical and electronic product (not shown in the drawing for convenience of description), and alternatively provided with a commercial power source. It should be understood that the wires (power supply lines for electrical and electronic products) may be provided.

1 is a block diagram illustrating a standby power cut-off outlet according to an embodiment of the present invention.

As shown in FIG. 1, the standby power cut-off outlet according to an exemplary embodiment of the present invention receives a wireless signal (ie, a wireless signal indicating that a remote controller signal has been received from a remote controller) and receives commercial power. Remote control signal receiving device for receiving a remote control signal (that is, a power control signal for remotely turning on / off the power of electrical and electronic products) from the remote control unit 100 for supplying or blocking the product and a remote control signal It consists of a portion (200).

The outlet device unit 100 receives a wireless signal transmitted from the remote control signal receiving device unit 200 through wireless communication, and supplies power to the electrical and electronic products according to the received wireless signal to turn on the electrical and electronic products. In addition, the standby power generated by the electrical and electronic products is removed by completely shutting off the power supply even in the standby state of the electrical and electronic products. Here, the wireless communication may use, for example, RF communication, Zigbee communication, Bluetooth communication, binary CDMA communication, and the like. However, it is to be understood that the present invention is not limited thereto, and that any wireless communication capable of informing that a remote control signal (ie, a power control signal) has been received from a remote control by a wireless signal is possible.

The outlet device unit 100 includes a wireless signal receiver 111, a power switch 112, a power converter 113, and a microcomputer 114.

The wireless signal receiver 111 uses, for example, an RF receiver device having a current consumption of about 10 to 100 (uA) in the standby state to minimize the current consumption in the standby state. It receives the power (for example, 5V) from the drive to maintain the driving state at all times, under the control of the microcomputer 114 receives a wireless signal transmitted from the remote control signal receiving apparatus 200 through wireless communication, The received wireless signal is input to the microcomputer 114.

The power switch 112 may use, for example, an AC triac (TRIAC), a device such as a relay (Slay), a silicon controlled rectifier (SCR), or the like. Switched on by on control to switch commercial power (i.e., AC power) to electrical and electronic products (e.g., TV, etc.), and switch off according to the switching-off control of the microcomputer 114 to switch to electrical and electronic products. Cut off commercial power source at source. For example, the triac turns on commercial power to the TV when the microcomputer 114 applies a voltage to the gate side (i.e., outputs 'high' to the gate side). When the microcomputer 114 does not apply a voltage (ie, outputs 'low' to the gate side), the commercial power to the TV is turned off.

The power converter 113 receives commercial power (ie, AC power) and receives the input commercial power for the outlet device unit 100 (that is, the wireless signal receiver 111, the microcomputer 114, etc.). (For example, DC 5V) and input the converted DC power to the wireless signal receiver 111 and the microcomputer 114. At this time, the power conversion unit 113, for example, a rectifier circuit unit for receiving commercial power (that is, AC power) using a bridge diode to rectify the input commercial power and output the corresponding rectified voltage (for convenience of description) For example, a voltage stabilizer for stabilizing the voltage rectified in the rectifying circuit part using a regulator to a voltage having a fixed magnitude (for example, 5V) (for convenience of description). It may include, but not shown in the drawings, for example, by using a diode connected to the rectifier circuit in parallel to the over-voltage blocking unit (blocked in the drawing for convenience of description to prevent excessive rectified voltage through the rectifier circuit) For example, a plurality of capacitors may be connected in parallel to the overvoltage Creating a voltage that is input through the voltage blocking smooth and may include a voltage smoothing circuit portion (not shown in the figure for convenience of description) to output to voltage stabilization. In the bridge diode, there is almost no current consumption, and in the case of the regulator, a power consumption of several to 10 (uA) in the standby state is used for low power.

Alternatively, the power conversion unit 113 may use an IC having an ultra-light weighted rectifier circuit that implements functions such as coils and transformers without using coils and transformers to minimize current consumption in a standby state. In this case, the supply current is only 1 to 2 (uA).

The microcomputer 114 uses, for example, a device having a current consumption of about 10 (uA) to 100 (uA) during a control operation in the standby state to minimize current consumption in the standby state. It is driven by receiving power (for example, 5V) from the power source to maintain the driving state at all times.If the control operation is not performed in the driving state in order to further reduce current consumption, it sleeps itself (ie, sleep mode). In this mode, only 0.1 ~ 1 (uA) is consumed when the system enters the sleep mode even in the standby state.

In addition, the microcomputer 114 receives a power source (for example, 5 V) from the power converter 113 and maintains a sleep mode in a driving state, and the waveform of the wireless signal is input from the wireless signal receiver 111. When the power switch unit 112 is switched off (that is, commercially available) after the waveform input of the wireless signal is recognized as an interrupt and wake-up in the sleep mode and the current state is confirmed. In the case where the power is not supplied to the electrical and electronic product side, after performing the switching-on control for turning on the power switch 112, the sleep mode state after a predetermined time (for example, 1 to 2 seconds) Switch back to to minimize standby current to maintain standby. In addition, the microcomputer 114 controls switching off to turn off the power switch 112 when the power switch 112 is switched on (that is, when commercial power is supplied to the electrical and electronic product side). After the operation, after a predetermined time (for example, 1 to 2 seconds), the process returns to the sleep mode to minimize the current consumption to maintain the standby state.

Here, the microcomputer 114 detects the magnitude of the current or voltage of the power supply line to the electrical and electronic product side to check whether the power flowing to the electrical and electronic product side has a magnitude of the current or voltage of a predetermined level or more, and thus the current electrical and electronic product It is determined whether or not it is being driven by receiving the commercial power. Then, when the current electrical and electronic products are being driven, the switching off control of the power switch unit 112 is performed to cut off the commercial power. When the product is not running, the switching on control of the power switch unit 112 is performed to supply commercial power.

Alternatively, the standby power cut-off outlet according to the embodiment of the present invention may further include a forced switch unit 115 inside or outside the outlet device unit 100.

The forced switch unit 115 is, for example, a button switch, one of which is directly connected to a commercial power supply, the other of which is directly connected to a socket side into which a plug of an electrical and electronic product is plugged, and in a normally switched off state. Then, an error occurs in the internal circuit (ie, the wireless signal receiver 111, the power switch 112, the power converter 113, the microcomputer 114, etc.), and thus, the commercial power is no longer switched to the electrical and electronic products. When it becomes impossible to do so, it is switched on when the user forcibly turns on the switch (for example, when a button is pressed) and connects the commercial power directly to the socket side. Power supply to electrical and electronic products can be forcibly supplied to the electrical and electronic products even in the state of being cut off.

The remote control signal receiving unit 200 is separately installed in front of the electric and electronic products, and when the user remotely turns on / off the power of the electric and electronic products by using the remote control, the remote control signal transmitted from the remote control (that is, the power control signal) ) And generates a wireless signal for informing that the remote controller signal has been received from the remote controller, and transmits the wireless signal to the outlet device unit 100 through wireless communication.

The remote control signal receiving apparatus 200 includes a wireless signal transmitter 211, a battery unit 212, a controller 213, and a remote controller signal receiver 214.

The wireless signal transmitter 211 is driven only by operation control of the controller 213 and uses, for example, an RF transmission element having an operating current of about 10 to 100 (uA) for the minimum current consumption. It drives only by the operation control of 213 to generate a radio signal, and transmits it to the outlet apparatus part 100 via radio communication.

The battery unit 212 supplies power (for example, 3V) required for each component of the remote controller signal receiver 200 (that is, the wireless signal transmitter 211, the controller 213, and the remote controller signal receiver 214). do. Here, the battery unit 212 may use, for example, a general battery, a mercury battery, a rechargeable battery, and the like. However, the present invention is not limited thereto, and it is to be understood that any battery capable of supplying power required for the remote control signal receiving apparatus 200, such as a solar cell including a solar electronic plate, is possible.

The controller 213 uses a device having a current consumption of about 10 (uA) to 100 (uA) in a standby control operation, for example, to minimize current consumption in the standby state. It operates by receiving power (for example, 3V) and keeps the driving state at all times.If the control operation is not performed in the driving state to further reduce the current consumption, it sleeps itself (ie, detects an interrupt). By switching to sleep mode, only 0.1 to 1 (uA) current is consumed when switching to sleep mode in standby mode.

In addition, the controller 213 receives the power (for example, 3V) from the battery unit 212 and maintains the sleep mode in the driving state, and when the remote control signal waveform is input from the remote control signal receiver 214, the corresponding remote control signal. It wakes up from sleep mode and recognizes as interrupt with only waveform input of, and includes power control signal (or all different power control signals of each manufacturer) registered in internal memory (for example, EEPROM). It may be determined that the remote control signal received from the remote control signal receiving unit 214 and the power control signal read from the internal memory are the same. Thus, if the received remote control signal and the corresponding power control signal are not the same, the controller 213 switches back to the sleep mode state after a predetermined time (for example, 1 to 2 seconds) to minimize the current consumption to stand by. Keep your status. On the other hand, if the received remote control signal and the read power control signal is the same, the controller 213 drives the radio signal transmitter 211 to generate a radio signal, and then a predetermined time (for example, After 1 ~ 2 seconds), it goes back to sleep mode to minimize the current consumption to maintain the standby state. Here, the internal memory is not shown in the drawings for convenience of description, and it should be well understood that a separate external memory may be used.

In addition, the control unit 213 determines whether the remote control signal received from the remote control signal receiving unit 214 is a power-on control signal for turning on the power of the electrical / electronic product or a power-off control signal for turning off the power of the electrical / electronic product. In addition, when the remote control signal received from the remote control signal receiver 214 is a power-off control signal, the wireless signal transmitter 211 is controlled to generate a wireless signal for cutting off commercial power. When the remote control signal received from the 111 is a power-on control signal, the wireless signal transmitter 211 is controlled to generate a wireless signal for switching commercial power.

The remote control signal receiver 214 uses an element such as an IR having a current consumption of about 10 to 100 (uA) in the standby state for the minimum current consumption in the standby state. Drives by receiving power (for example, 3V) and keeps the driving state at all times, and power for remotely turning on / off the power of remote control signals (ie, electric / electronic products) transmitted from the remote control under the control of the controller 213. Control signal), and inputs the received remote controller signal to the controller 213.

Alternatively, the remote control signal receiver 200 may further include a remote control signal transmitter 215. Here, the remote control signal transmitter 215 performs an immediate operation according to the driving control of the control unit 213 to transmit the power control signal received from the control unit 213 to the electric / electronic product as a remote control signal to supply power to the electric / electronic product. Warm it up. At this time, the controller 213 drives the radio signal transmitter 211 to generate a radio signal when the remote controller signal received from the remote controller signal receiver 214 and the power control signal read from the internal memory are the same. After a predetermined time (for example, 1 to 2 seconds), the power control signal read from the internal memory is transmitted through the remote control signal transmitter 215, and then after a predetermined time (for example, 1 to 2 seconds). It operates in the sleep mode to minimize the current consumption to maintain the standby state.

Alternatively, the remote control signal receiving apparatus 200 may further include a display unit 216. Here, the display unit 216 may use an LED, for example, according to the drive control of the control unit 213, display the wireless signal transmission, display the remote control learning operation, display the remote control signal reception, or transmit the remote control signal To perform operations such as displaying. Alternatively, it should be understood that the device portion for outputting voice or sound may be used instead of the display portion 216. At this time, the controller 213 controls the driving of the display unit 216.

In addition, the remote control signal receiving apparatus 200 may further include a running button unit 217. Here, the running button unit 217 is switched on when the user presses a button in order to learn the remote control signal (that is, the power control signal) transmitted from the remote control and register it in the internal memory of the controller 213. The controller 213 is notified of an input of a running button to perform a learning mode. At this time, the control unit 213 operates in the running mode of the remote control signal waveform when the running button unit 217 is switched on, and at this time, the remote control signal (that is, the power control signal) received from the remote control signal receiver 214 is stored in the internal memory. It can also be registered, and after a certain period of time (eg, 1 to 2 seconds), it will operate in a sleep mode to minimize standby current to maintain standby.

Hereinafter, the operation of the standby power cut-off outlet according to an embodiment of the present invention will be described in detail.

First, the operation of the remote control signal receiving device 200 installed separately in front of the electrical and electronic products will be described.

When the user remotely turns on / off the power of the electrical / electronic product using the remote control, the remote control signal receiving apparatus 200 receives the remote control signal (ie, the power control signal) transmitted from the remote control, from the remote control. It generates a wireless signal for informing that the remote control signal has been received and transmits it to the outlet device unit 100 through wireless communication.

First, the remote control signal receiving unit 214 and the control unit 213 receives power from the battery unit 212 (for example, 3V) to drive and maintains the driving state at all times. At this time, the remote control signal receiving unit 214 receives a remote control signal (that is, a power control signal for remotely turning on / off power of an electric / electronic product) received from the remote control under the control of the control unit 213, The remote control signal is input to the controller 213.

Meanwhile, all different remote control signals (that is, power control signals for remotely turning on / off power of the electric and electronic products) for each manufacturer manufacturing and producing a remote control for controlling the electric and electronic products remotely. For example, the database may be configured to register in the internal memory of the controller 213 or a separate memory.

Alternatively, in order to learn and register the remote control signal (power control signal) transmitted from the remote control to the memory, if the user presses the running button and then press the power button of the remote control to send the remote control signal from the remote control, the running button The unit 217 notifies the controller 213 of the input of the running button to be switched on to perform the running mode.

Accordingly, after detecting the input of the running button through the running button unit 217, the controller 213 switches to the running mode and receives a remote control signal (ie, a power control signal) from the remote control signal receiving unit 214. The received remote control signal is registered in the internal memory. In this case, the controller 213 controls the driving of the display unit 216 to display the remote control learning operation.

Thereafter, the control unit 213 switches itself to the sleep mode after a predetermined time (for example, 1 to 2 seconds) has elapsed in order to further reduce the current consumption. Allow only 0.1 to 1 (uA) of current consumption.

In addition, after the controller 213 does not detect the input of the running button or after the sleep mode switch operation described above, the user presses the power button of the remote control to remotely turn on / off the power of the electrical and electronic product. In the case of transmitting the remote control signal, the remote control signal receiving unit 214 receives power from the battery unit 212 and maintains the driving state at all times, and immediately after receiving the remote control signal transmitted from the remote control, the remote control signal is received from the remote control unit. Input the received remote control signal to the control unit 213.

Then, while maintaining the sleep mode described above, the controller 213 determines whether the remote control signal waveform is input from the remote control signal receiver 214.

At this time, when the remote control signal waveform is not input from the remote control signal receiving unit 214, the control unit 213 continues to maintain the above-described sleep mode state.

On the other hand, when the remote control signal waveform is input from the remote control signal receiving unit 214, the control unit 213 recognizes only the waveform input of the remote control signal as an interrupt and wakes up in the sleep mode, and thus internal memory (for example, For example, read the power control signal (or may include all different power control signals for each manufacturer) registered in the EEPROM. In this case, the controller 213 may control the driving of the display unit 216 to display the remote control signal reception.

The controller 213 determines whether the remote controller signal received from the remote controller signal receiver 214 and the power control signal read from the internal memory are the same. In other words, the controller 213 checks whether the remote controller signal received from the remote controller signal receiver 214 is a remote controller signal (ie, a power control signal) for remotely turning on / off a power of an electrical and electronic product.

Thus, when the remote control signal received from the remote control signal receiver 214 and the power control signal read from the internal memory are not the same, the controller 213 itself after a predetermined time (for example, 1 to 2 seconds) has elapsed. Switch back to sleep mode to minimize standby current to maintain standby.

On the other hand, if the remote control signal received from the remote control signal receiver 214 and the power control signal read from the internal memory are the same, the controller 213 drives the wireless signal transmitter 211 to generate a wireless signal. After a certain period of time (eg, 1 to 2 seconds), the device returns to the sleep mode to minimize the current consumption to maintain the standby state.

Accordingly, the wireless signal transmitter 211 is driven by the operation control of the controller 213 to generate a wireless signal indicating that the remote control signal has been received from the remote controller, and transmits the wireless signal to the outlet apparatus unit 100 via wireless communication. .

Alternatively, the controller 213 drives the radio signal transmitter 211 to generate a radio signal, and then remotely stores the power control signal read from the internal memory after a predetermined time (for example, 1 to 2 seconds). The signal transmitter 215 transmits the signal through the signal transmitter 215, and then operates in the sleep mode after a predetermined time (for example, 1 to 2 seconds) to minimize the current consumption to maintain the standby state.

At this time, the remote control signal transmitter 215 performs an immediate operation according to the driving control of the control unit 213 to transmit the power control signal received from the control unit 213 to the electric and electronic products as a remote control signal to supply power to the electric and electronic products. Warm it up.

Second, the operation of the outlet device unit 100 will be described.

When receiving the wireless signal transmitted from the remote control signal receiving unit 200 through wireless communication, the outlet device unit 100 supplies power to the electrical and electronic products according to the received wireless signal to turn on the electrical and electronic products. Or, even when the standby state of the electrical and electronic products completely cut off the power supply to remove the standby power generated in the electrical and electronic products.

First, when commercial power (i.e., AC power) is input, the power converter 113 receives commercial power and transmits the input commercial power to the system (ie, the wireless signal receiver 111, the microcomputer 114, etc.). It converts the required DC power (for example, DC 5V) and inputs the converted DC power to the remote control signal receiver 214 and the microcomputer 114.

For example, a bridge diode receives commercial power (ie, AC power) and rectifies the received commercial power and outputs it to the regulator with the rectified voltage. In this case, a diode connected in parallel to the bridge diode passes through the bridge diode. In order to prevent the rectified voltage from coming in, a plurality of capacitors connected in parallel to the diode smooth the voltage input through the diode and output the voltage to the regulator. 5V) is stabilized and supplied to the wireless signal receiver 111 and the microcomputer 114.

At this time, the power conversion unit 113 also performs a sleep mode (i.e., operation periodically or intermittently or intermittently) by itself or under the control of the microcomputer 114 in order to further reduce the current consumed similarly to the microcomputer 114. Mode).

Accordingly, the wireless signal receiver 111 and the microcomputer 114 receive a power source (for example, 5V) from the power converter 113 and drive the same to maintain a driving state at all times. At this time, the wireless signal receiving unit 111 receives a wireless signal transmitted from the remote control signal receiving device unit 200 through wireless communication under the control of the microcomputer 114, and inputs the received wireless signal to the microcomputer 114. do.

Accordingly, when the microcomputer 114 receives the power (for example, 5V) from the power conversion unit 113 and maintains the sleep mode in the driving state, the waveform of the wireless signal is input from the wireless signal receiving unit 111. It recognizes only the waveform input of the wireless signal as an interrupt and wakes up in the sleep mode, and checks whether the current state, that is, the power switch 112 is switched off or switched on.

In other words, the microcomputer 114 checks the switching state of the commercial power, that is, whether the commercial power is being supplied to the electrical and electronic product side.

For example, the microcomputer 114 is a case in which the triac's gate side is 'high' and the commercial power to the TV is switched on or the triac's gate side is 'low'. It will check whether the commercial power going to the side is switching off.

At this time, the microcomputer 114 detects the magnitude of the current or voltage of the power supply line to the electrical and electronic product side, and checks whether the power flowing to the electrical and electronic product side has a magnitude of a current or voltage of a predetermined level or more, and the current electrical and electronic product It may be determined whether or not it is being driven by the commercial power supply. Alternatively, the microcomputer 114 may determine whether the remote control signal received from the remote control signal receiver 214 is a power on control signal for turning on the power of the electrical and electronic products or a power off control signal for turning off the power of the electrical and electronic products. You can also check.

If the power switch 112 is in a switched on state (i.e., when commercial power is supplied to the electrical and electronic product side), the microcomputer 114 switches off to turn off the power switch 112. Perform control to cut off commercial power. At this time, the power switch 112 is switched off in accordance with the switching-off control of the microcomputer 214 to cut off the commercial power source that is being switched to the electrical and electronic products.

At the same time, after the predetermined time (for example, 1 to 2 seconds) elapses, the microcomputer 114 switches itself back to the sleep mode to minimize the current consumption to maintain the standby state.

On the other hand, when the power switch 112 is switched off (that is, when commercial power is not being supplied to the electrical and electronic product side), the microcomputer 114 switches to turn on the power switch 112. The on control is performed to supply commercial power to the electrical and electronic products. At this time, the power switch 112 is switched on in accordance with the switching-on control of the microcomputer 214 to switch the commercial power to the electrical and electronic products.

The microcomputer 114 then switches back to the sleep mode after a certain time (eg, 1 to 2 seconds) to minimize the current consumption to maintain the standby state.

Meanwhile, an error occurs in the internal circuit (that is, the wireless signal receiver 111, the power switch 112, the power converter 113, the microcomputer 114, etc.), so that the commercial power source may no longer be switched to an electrical and electronic product. When the user cannot be forced, when the user forcibly turns on the forced switch unit 115 provided inside or outside the outlet device unit 100, the forced switch unit 115 is switched on to supply commercial power. By connecting directly to the socket to which the electrical and electronic products are plugged in, it is possible to forcibly supply power to the electrical and electronic products even when the power supply to the electrical and electronic products is cut off by the failed circuit.

As described above, the embodiment of the present invention is provided with a remote control signal receiving device separately to perform wireless communication to remotely control when controlling the remote power supply of electrical and electronic products, thereby solving the problems of the existing wired installation and wired short-circuit The stand-by power cut-off outlet has been described so that it can be easily seen, and a separate switch device is provided so that even if the power is cut off due to an error in an internal circuit, the power is forcibly supplied to the electrical and electronic product.

However, embodiments of the present invention are not implemented only through the above-described apparatus and / or method, but implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded, and the like. Such an implementation may be easily implemented by those skilled in the art to which the present disclosure pertains based on the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

100: outlet unit
111: wireless signal receiver
112: power switch
113: power conversion unit
114: Mycom
115: forced switch unit
200: remote control signal receiving unit
211: wireless signal transmitter
212: battery unit
213: control unit
214: remote control signal receiver
215: remote control signal transmission unit
216: display unit
217: Running button part

Claims (8)

In the standby power cut-off outlet for supplying commercial power to electrical and electronic products remotely controlled by a remote control,
A remote control signal receiving unit for receiving a remote control signal for remotely turning on / off the power of the electrical and electronic product from the remote control to generate and transmit a wireless signal; and
Outlet device unit for receiving or receiving a wireless signal from the remote control signal receiving unit to supply or cut off commercial power to the electrical and electronic products
Standby power off outlet comprising a. The method of claim 1,
The remote control signal receiving unit, the battery unit for supplying the power required for the remote control signal receiving unit,
A wireless signal transmitter for generating the wireless signal and transmitting the generated wireless signal to the outlet apparatus;
A remote control signal receiver for receiving a remote control signal transmitted from the remote controller, and
Control unit for controlling the operation of the wireless signal transmission unit by checking whether the remote control signal received from the remote control signal receiving unit is a remote control signal for remotely on / off the power of the electrical and electronic products
Standby power cut-off outlet comprising a. The method of claim 1,
The remote control signal receiving unit, a solar cell including a solar electronic panel for supplying power required for the remote control signal receiving unit;
A wireless signal transmitter for generating the wireless signal and transmitting the generated wireless signal to the outlet apparatus;
A remote control signal receiver for receiving a remote control signal transmitted from the remote controller, and
Control unit for controlling the operation of the wireless signal transmission unit by checking whether the remote control signal received from the remote control signal receiving unit is a remote control signal for remotely on / off the power of the electrical and electronic products
Standby power cut-off outlet comprising a. The method according to claim 2 or 3,
The remote control signal receiving unit further includes a remote control signal transmitting unit for transmitting a remote control signal for remotely on / off the power of the electrical and electronic products to the electrical and electronic products,
And the controller drives the wireless signal transmitter to generate a wireless signal, and then transmits the remote controller signal through the remote controller signal transmitter after a predetermined time elapses. The method according to claim 2 or 3,
The remote control signal receiving device unit, the standby power cut-off outlet further comprises a device unit for displaying or outputting the remote control learning operation, remote control signal reception and remote control signal transmission according to the driving control of the control unit. The method according to claim 2 or 3,
The remote control signal receiving apparatus further includes a running button unit for notifying the controller when a user inputs a button in order to learn and register a remote control signal transmitted from the remote controller in a memory.
The controller receives the button input from the running button unit registers the remote control signal received by the remote control signal receiving unit in the memory, characterized in that the standby power cut off. The method of claim 1,
The outlet device unit, a power conversion unit for converting the commercial power supply to the DC power required to supply the outlet device unit,
A wireless signal receiver for receiving a wireless signal transmitted from the remote controller signal receiver;
A power switch unit which switches the commercial power to the electrical and electronic products, or cuts off the commercial power switched to the electrical and electronic products, and
When receiving a wireless signal from the wireless signal receiving unit checks the state of the power switch unit, according to the result of the microcomputer to control the operation of the power switch unit
Standby power cut-off outlet comprising a. In the standby power cut-off outlet for supplying commercial power to electrical and electronic products remotely controlled by a remote control,
A power converter converting commercial power into DC power required for the system
A remote control signal receiving unit for receiving a remote control signal transmitted from the remote control unit;
A power switch unit which switches commercial power to the electrical and electronic products, or cuts off commercial power switched to the electrical and electronic products;
A microcomputer that controls the operation of the power switch unit according to the remote controller signal received from the remote controller signal receiver;
One side is directly connected to the commercial power supply and the other side is directly connected to the socket side where the plug of the electrical and electronic product is plugged in. Normally, it is switched off and then switched on when forcibly switched on by the user. Force switch unit directly connects the power supply to the socket
Standby power cut-off outlet comprising a.

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