KR20160001407U - A socket for cutting off standby power - Google Patents

Abstract

The present invention relates to a switch that is configured to output or interrupt an input AC power, a power circuit for generating a DC power to be used in a microcomputer from an AC power source from a switch, and an AC power supply for receiving a DC power generated from the power supply circuit The present invention relates to a socket for a standby power cut-off including a microcomputer for monitoring a standby power.
By using the present invention, it is possible to effectively eliminate the power consumed in the outlet for the standby power interruption.

Description

{A SOCKET FOR CUTTING OFF STANDBY POWER}

The present invention relates to a socket for a standby power interruption, and more particularly, to a socket for a standby power interruption in which power consumption in a standby power interruption socket is eliminated in connection with a slide switch.

In general, the home and office use a variety of electronic products such as computers, laptops, TVs, DVD players, refrigerators, and washing machines.

A user using such an electronic product connects to an outlet to supply power to the electronic product. Even if the user habitually does not use the electronic product, the electronic product is kept connected to the outlet. In order to prepare for receiving the instruction from the user even though the electronic product is not in operation, Which are continuously consuming power. This consumed power is generally referred to as standby power.

Standby power is wasteful in that it consumes unnecessary power, and energy saving can be achieved by dramatically reducing standby power.

Various types of receptacles have been developed to reduce standby power. A receptacle for reducing standby power includes a microcomputer for measuring the amount of power consumed in the receptacle and controlling the power of the outlet power source of the receptacle. The microcomputer of the outlet for the standby power cutoff is configured to monitor the amount of power continuously consumed and to compare the monitored power amount with the threshold value to shut off the output power of the specific outlet.

Accordingly, there is a problem that the micom itself of the outlet continuously consumes electric power for interrupting the standby power, and considering that many electric outlets are used in a general household, the electric outlet consumes power that can not be ignored for standby power interruption It is true. Therefore, if monitoring of standby power interruption is not necessary, the power consumed by the microcomputer of the outlet also needs to be shut off.

Also, not all outlets need to shut off standby power. Therefore, there is a need for a method for allowing a receptacle for standby power cutoff to stop monitoring for simple standby power cutoff according to user input setting, and to eliminate the power consumed in the outlet.

Therefore, there is a need for a stand-by power cut-off receptacle to address these problems and to meet the needs.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a stand-by power cut-off receptacle capable of eliminating power consumed in a standby power cut-off receptacle.

It is also an object of the present invention to provide a stand-by power cut-off receptacle for eliminating the power consumed in the receptacle for interrupting the standby power in conjunction with the user setting so that the input alternating-current power can be outputted.

Another object of the present invention is to provide a stand-by power cut-off receptacle that allows the stand-by mode to be interlocked with the operation of the microcomputer in the microcomputer of the stand-by power cut-off receptacle.

The technical problems to be solved by the present invention are not limited to the technical problems mentioned above, and other technical problems which are not mentioned can be clearly understood by those skilled in the art from the following description. It will be possible.

To achieve the above object, a standby power cut-off receptacle includes a switch configured to output or shut off an input AC power source, a power source circuit for generating a DC power source to be used in a microcomputer from an AC power source from a switch, And a microcomputer for monitoring the power of the AC power supplied from the power supply.

In order to achieve the above-mentioned object, the switch of the stand-by power cut-off receptacle is a slide switch capable of setting two modes. In the first mode of the two modes, the slide switch interrupts the supply of the AC power to the power supply circuit , The microcomputer suspends operation for power monitoring.

According to another aspect of the present invention, there is provided a light emitting diode (LED) lighting apparatus including a light emitting diode (LED) Drive the LED to indicate it.

In order to achieve the above object, a standby power cut-off receptacle further includes a relay for controlling the output or interruption of the input AC power by the mode setting of the slide switch or the control of the microcomputer, And controls the output or cutoff of the AC power according to the control signal output from the microcomputer in the second mode set by the slide switch.

The standby power cut-off receptacle according to the present invention has the effect of eliminating the power consumed in the outlet for shutting off the standby power.

In addition, the standby power cut-off receptacle according to the present invention has the effect of eliminating the power consumed in the standby power cut-off receptacle and outputting the inputted AC power in connection with the user setting.

In addition, the above-described stand-off power outlet according to the present invention has an effect of enabling a shut-off mode in the microcomputer of the stand-by power interruption socket to be intuitive in connection with the driving of the microcomputer.

The effects obtainable from the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art to which the present invention belongs There will be.

1 is a view showing an exemplary appearance of a socket according to the present invention.
2 is a diagram showing an exemplary block diagram of a socket according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that there is no intention to limit the invention to the embodiments shown in the drawings, and that those skilled in the art, upon reading the present disclosure, But it is also within the scope of the idea of this invention.

1 is a view showing an exemplary appearance of a socket 100 according to the present invention.

1, the receptacle 100 according to the present invention includes a switch 110, one or more LEDs 160 (Light Emitting Diodes), and one or more power sources 170. As shown in FIG. The outlet 100 can cut off the AC power of the power source 170 when the power source connected to the power source 170 through the plug is in a mode consuming standby power (hereinafter also referred to as a 'standby power mode') . As described above, the receptacle 100 according to the present invention is an outlet that can be used for interrupting standby power.

The receptacle 100 includes a switch 110, which is a switch 110 for changing modes, for example, a slide switch. The slide switch 110 is configured to be settable by a user of the receptacle 100, for example, to set a standby mode for interrupting the standby power and an always-on mode for always supplying the alternating power. In the standby mode, DC power is supplied to a circuit, a chipset, or the like in the outlet 100 to monitor whether the power device connected through the plug is in the standby power mode and to cut off the AC power supplied through the power source 170 have. In the normal mode, the DC power supplied to the circuit or chipset in the socket 100 is cut off and the AC power is always output through the power supply 170. [

As described above, the receptacle 100 according to the present invention can have at least two modes, one mode is hereinafter referred to as 'standby mode' and the other mode is hereinafter referred to as 'always mode'. The standby mode is a state in which the AC power can be shut off according to the monitoring of the power consumption (current) through the power source 170 and the monitoring thereof. That is, at least the power supply circuit 120 in the socket 100 and the microcomputer (190) is being driven. The normal mode is a state in which the monitoring and blocking function of the power consumption (current) is not performed, and as shown below, at least the power supply circuit 120 and the microcomputer 190 in the socket 100 are not driven. Such normal mode and idle mode may be referred to by other terms.

The slide switch 110 is a switch 110 operated by a user without supplying DC power. For example, when the slide is located on the left side, the slide switch 110 operates as a standby mode. When the slide is located on the right side, do. In the normal mode, the receptacle 100 according to the present invention is configured to at least eliminate the power consumed internally (such as the microcomputer 190).

The receptacle 100 also includes one or more LEDs 160 that are used to indicate whether the current set mode of the receptacle 100 is a standby mode or an always mode. For example, when the LED 160 is emitting light, the outlet 100 indicates a standby mode, and when the LED 160 is not emitting light, the current setting mode of the outlet 100 indicates a normal mode.

The receptacle 100 may also include an input interface 180 for various settings in the standby mode. For example, the receptacle 100 includes a remote control interface 180 capable of receiving a remote control signal. Upon receipt of the remote control signal through the remote controller interface 180, the outlet 100 can perform various settings for shutting off the standby power in the standby mode. The receptacle 100 may also receive various inputs via the phone jack interface 180. [ The phone jack interface 180 receives various settings for standby power cutoff from an input module connected via, for example, a phone jack, and accordingly, the outlet 100 can perform the setting.

The socket 100 may further include a reset terminal. By the input of the reset terminal, the outlet 100 can be initialized.

More details regarding the receptacle 100 will be described with reference to FIG.

2 is a block diagram illustrating an exemplary socket 100 according to the present invention.

2, the receptacle 100 includes a switch 110, a power supply circuit 120, a power measurement sensor 130, an amplifier 140, a relay 150, one or more LEDs 160, A remote controller / phone jack interface 180, and a microcomputer 190. The remote controller / The block diagram according to Fig. 2 preferably shows a hardware block diagram. Some of the blocks in Fig. 2 may be omitted in accordance with the design change, and other blocks may be added.

The receptacle 100 according to the present invention is configured to cut off the standby power consumed through the power source 170. The receptacle 100 may be, for example, a flush-type receptacle embedded in a wall surface or a portable receptacle connected to a power source of the flush-type receptacle. The receptacle 100 may have, for example, one power supply port 170 or two or more power supply ports 170. At least one power source port 170 is configured to be capable of shutting off standby power.

Referring to each of the blocks, the switch 110 is configured to output or cut off 110 V or 220 V AC power input thereto. The switch 110 is a switch capable of setting at least two modes. The switch 110 may be a toggle switch or a slide switch. The switch 110 is preferably a slide switch. The slide switch 110 can be fixed to the designated position on the left or right side according to the user's setting (input setting). The standby mode in which a specific one of the fixed positions is set to operate the interruption of the standby power is set, and the other fixed position is set to the normal mode in which the interruption of the standby power is not operated.

When the slide switch 110 is set to the normal mode, the slide switch 110 is configured to cut off the input AC power and cut off the power supply to the power supply circuit 120 connected to the slide switch 110. When the slide switch 110 is set to the standby mode, the slide switch 110 outputs the input AC power to supply power to the power supply circuit 120 connected to the switch 110.

The power supply circuit 120 converts the AC power supplied from the switch 110 into one or more DC power. For example, the power supply circuit 120 uses a bridge diode and a smoothing circuit to convert a 220 V AC power source into a 5 V DC power source to be used in the microcomputer 190 and a 12 V DC power source to be used in the relay 150.

If the AC power is not supplied from the switch 110, the power supply circuit 120 does not operate, and the DC power used for the microcomputer 190 and the relay 150 can not be generated. Accordingly, in the normal mode, the power consumed by the microcomputer 190 and the relay 150 can be 0W.

The power measurement sensor 130 measures power consumption based on the current consumed by the one or the plurality of power sources 170 or the consumed current. The power measurement sensor 130 may be configured by, for example, a CT (Current Transform) method or a SHUNT method.

The amplifier 140 amplifies the measurement signal output from the power measurement sensor 130. The amplifier 140 may compare and amplify the power value and output the amplified measurement signal to the microcomputer 190, for example.

The relay 150 is configured to output or shut off the AC power supplied through the wall surface or the AC power input through the power source of the wall-outlet, according to the control signal. The relay 150 is configured to shut off the AC power input according to the setting mode of the switch 110 (for example, a slide switch).

For example, when the switch 110 is set to the normal mode, the relay 150 is controlled so that the AC power input at the default setting is output to the power source 170. Specifically, the relay 150 is controlled so that the relay 150 is driven by the control signal in response to the reception of the control signal so as to output or cut off the AC power. In the normal mode, Therefore, it is configured to output the AC power inputted by the default setting. The relay 150 generally has a well-known default setting used when there is no control signal for driving the relay 150 in general. By utilizing this default setting, AC power can be always output when there is no control signal by the microcomputer 190. [

Of course, when the switch 110 is set to the standby mode, the switch 110 is controlled by the microcomputer 190. Accordingly, the relay 150 is controlled to output or shut off the input AC power according to the control signal according to the cutoff decision by the microcomputer 190.

One or more LEDs 160 are connected to the microcomputer 190 to emit light of a specified color according to a driving signal from the microcomputer 190. A particular LED 160 is used to indicate a steady mode or a standby mode set by the switch 110. The LED 160 is driven by the microcomputer 190 and is used to indicate a standby mode when light is emitted and an always mode when light is not emitted. The other LED 160 may be used to indicate user input or to indicate various mode changes, setting changes, etc. in the standby mode.

The at least one power source 170 outputs AC power to a power source device or a mobile socket. A specific power supply 170 may be connected to at least the relay 150 to be disconnected from the power supply. The other power source port 170 may be directly connected to the AC power input to the outlet 100, and may output the AC power without shutting off the power.

The remote controller / phone jack interface 180 receives a remote control signal or a signal from the (high) phone jack. The remote controller / phone jack interface 180 is used for, for example, changing settings in the standby mode.

The microcomputer 190 controls the respective blocks of the socket-outlet 100. The microcomputer 190 includes a nonvolatile memory and an execution unit for executing the program code, and controls each block using program codes included in the nonvolatile memory. The microcomputer 190 is configured to receive the DC power from the power supply circuit 120 and to monitor the power of the AC power outputted through at least the power source 170 by loading the program code after the start of the supply of the DC power. The microcomputer 190 may be an 8-bit, 16-bit microcomputer, and the microcomputer 190 may be referred to as another processor, a CPU, an MPU, or the like.

The microcomputer 190 is also stopped when the supply of DC power is interrupted. Accordingly, when the mode is set to the normal mode by the switch 110, the power supply circuit 120 fails to receive the AC power from the switch 110, ), DC power is not supplied and the operation for power monitoring is stopped.

When the switch 110 is set to the standby mode, the power supply circuit 120 receives AC power from the switch 110 and generates DC power. The generated DC power source causes the microcomputer 190 to start the operation for monitoring the power by loading the program code into the execution unit. The microcomputer 190 also controls the LED 160 to emit light when the DC power is supplied thereto. Accordingly, the microcomputer 190 can inform the user of the outlet 100 that the microcomputer 190 operates in response to the driving of the specific LED 160, thereby allowing the standby mode to be interrupted.

In the standby mode, the microcomputer 190 receives the user input through the remote controller / phone jack interface 180. The microcomputer 190 can set the constant power supply mode or the standby power cutoff mode in the standby mode according to the received user input. The microcomputer 190 may drive the LED 160 to indicate reception of user input. For example, the microcomputer 190 may turn on / off the LED 160 at a predetermined time interval to indicate reception of a user input. Also, the microcomputer 190 may receive the setting of the threshold value for interrupting the standby power in the standby mode through the remote controller / phone jack interface 180. [

The microcomputer 190 receives the consumption current or power consumption consumed in the specific power source 170 through the power measurement sensor 130 at a predetermined cycle or determines do. The microcomputer 190 determines whether the received current or power consumption is equal to or less than a predetermined threshold value. If the current or power consumption is below the predetermined threshold value, the microcomputer 190 determines that the power source device connected to the power source 170, But can be determined to be in a standby power mode (state) capable of receiving an input. Accordingly, the microcomputer 190 controls the relay 150 to shut off the AC power to be output through the power source 170. [

The receptacle 100 may further include a reset terminal. Upon receipt of the input of the reset terminal, the microcomputer 190 is initialized to re-execute the program code of the nonvolatile memory. Accordingly, when an operation error occurs in the outlet 100 itself, the operation error can be corrected easily.

The receptacle 100 may further include an input interface for directly receiving other user inputs. For example, the socket 100 may include a touch button, and the microcomputer 190 may perform the same function as the user input through the remote controller / phone jack interface 180 as a user input through the touch button.

The receptacle 100 for blocking the standby power according to FIGS. 1 and 2 can eliminate the power consumption by the blocks in the receptacle in the normal mode by the switch 100 and the standby power of the specific power source 170 in the standby mode So that it can be blocked. In addition, the simple slide switch 100 can be used to shut off the standby power, and the microcomputer 190 and the LED 160 can be interlocked to enable the user to intuitively know whether the apparatus is in the standby mode or the normal mode.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept as defined by the appended claims. The present invention is not limited to the drawings.

100: Outlet
110: switch 120: power supply circuit
130: Power measurement sensor 140: Amplifier
150: Relay 160: LED
170: Power source 180: Remote control / phone jack interface
190: Microcomputer

Claims (4)

A switch configured to output or interrupt the input AC power;
A power supply circuit for generating a DC power source to be used in the microcomputer from AC power from the switch; And
And a microcomputer for monitoring the power of the AC power supplied from the DC power supply generated from the power supply circuit,
Standby power outlet. The method according to claim 1,
The switch is a slide switch capable of setting two modes,
Wherein in the first mode of the two modes, the slide switch interrupts the supply of AC power to the power supply circuit, and the microcomputer suspends operation for power monitoring,
Standby power outlet. 3. The method of claim 2,
And an LED connected to the microcomputer,
Wherein the microcomputer drives the LED to indicate a second mode when receiving DC power from the power supply circuit according to the setting of the slide switch in the second mode,
Standby power outlet. 3. The method of claim 2,
Further comprising: a relay for controlling output or interruption of the input AC power by the mode setting of the slide switch or the control of the microcomputer,
Wherein the relay outputs AC power inputted in a first mode set by the slide switch and controls output or cutoff of an AC power according to a control signal outputted by the microcomputer in a second mode set by the slide switch,
Standby power outlet.

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