KR101241432B1 - Multi concent for cutting standby power - Google Patents

Abstract

PURPOSE: A smart standby power cut-off multi-receptacle is provided to reduce a unit cost of a product by detecting a current of an input power in a CT(Current Transformer) mode. CONSTITUTION: A standby power cut-off unit(240) selectively supplies AC power to a power supply unit(220) according to a comparison result between the current of AC power detected in a current detection unit(230) and a stored standby current threshold. An overload prevention unit(250) outputs a control signal for preventing overload according to the comparison result between the detected current and the stored overload threshold. A communication unit(260) controls operation of a receptacle(200) in connection with the application of a smart phone through a wireless communication module. [Reference numerals] (210) Power supply terminal; (220) Power supply unit; (230) Current detection unit; (240) Standby power cut-off unit; (250) Overload prevention unit; (260) Communication unit; (270) Warning unit; (272) Buzzer; (280) Reset; (290) Socket control unit

Description

MULTI CONCENT FOR CUTTING STANDBY POWER}

Embodiments of the present invention relate to an outlet, and more particularly, to a multi-outlet for blocking standby power.

In general, an outlet refers to a device that connects a wire to insert a plug to connect a cord used for indoor use in an indoor wiring of electricity, which is generally rated at 100 volts (V) and 220 volts (V). And, the rated current is set to a value of 10 to 50 amperes (A), and is used as an intermediary means for supplying electric power flowing from the outside (power source) to various home appliances.

Such outlets are largely divided into two types: embedded and exposed. Among them, the recessed outlet includes a protective cover as an exterior configuration for accommodating a terminal plate to which an external power line is connected and a plug guide plate attached to the front surface of the terminal plate.

However, such a conventional recessed outlet is a form attached to the interior wall, the current flows in order to supply the power necessary for the use of home appliances, the use of home appliances by the power supply by inserting a plug therein After completion, care must be taken to disconnect the plug from the outlet. If not, however, unnecessary energy loss may occur, such as waste of energy due to power leakage caused by an inserted plug. In addition, there is a problem that the home appliance is broken or a fire may be caused by an overcurrent or a lightning strike.

On the other hand, the related prior art is Korean Patent Publication No. 2002-0016271.

One embodiment of the present invention by detecting the current value of the input power source using a CT (Current Transformer) method, it is possible to reduce the unit cost of the product and provides a standby power cut-off multi-outlet that can detect the current stably.

One embodiment of the present invention by using a latch element when the standby power is cut can reduce the power consumption compared to the existing technology, prevent the generation of heat and noise due to the short operating time, the durability is strong compared to the conventional defect rate Provides multi-outlet with standby power cut-off that can be minimized.

One embodiment of the present invention provides a standby power cut-off multi-outlet that can control and manage the operation of the outlet in conjunction with the application of the smartphone.

The problem to be solved by the present invention is not limited to the problem (s) mentioned above, and other object (s) not mentioned will be clearly understood by those skilled in the art from the following description.

Standby power cut-off multi-outlet according to an embodiment of the present invention is a power terminal connected to a wire that is energized by commercial power source to receive AC power; A power supply unit converting an AC power input through the power terminal into a DC power of a predetermined voltage; A current sensing unit sensing a current of the AC power input through the power terminal and detecting a current value thereof; A memory for storing a predetermined standby current threshold as a comparison reference for shutting off standby power; And a standby power cutoff unit comparing the current value detected by the current sensing unit with a standby current threshold stored in the memory, and selectively supplying AC power input through the power terminal to the power supply unit according to the comparison result. do.

When the detected current value exceeds the standby current threshold as a result of the comparison, the standby power blocking unit may block supply of AC power input through the power terminal to the power supply unit.

The standby power cut-off unit may include a latch element that operates in a latch manner, and may reduce power consumption by using the latch element.

The current sensing unit may detect a current value of an AC power input through the power terminal using a CT (Current Transformer) method.

Standby power cut-off multi-outlet according to an embodiment of the present invention is provided with a wireless communication module for wireless communication with the smartphone, and controls the operation of the outlet in conjunction with the application installed on the smartphone through the wireless communication module and The communication unit may further include a management unit.

The memory stores a preset overload threshold as a comparison reference for preventing overload, and the standby power cut-off multi-outlet compares the current value detected by the current sensing unit with the overload threshold stored in the memory, and compares the result with the result of the comparison. Accordingly, the electronic device may further include an overload prevention unit for outputting a control signal for preventing overload.

The standby power cutoff multi-outlet according to an embodiment of the present invention may further include an alarm unit that generates an alarm signal visually or acoustically when the standby power-off multi-outlet is in a standby power state or an overloaded state.

Specific details of other embodiments are included in the detailed description and the accompanying drawings.

Advantages and / or features of the present invention and methods for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

According to an embodiment of the present invention, by detecting the current value of the input power source using the CT (Current Transformer) method, it is possible to reduce the unit cost of the product and to stably detect the current.

According to one embodiment of the present invention, when the standby power is cut off, the power consumption can be reduced by using the latch element, and the short operation time prevents the generation of heat and noise, and the durability is strong so that the failure rate can be minimized compared to the conventional. Can be.

According to an embodiment of the present invention, the operation of the outlet can be controlled and managed in conjunction with the application of the smartphone.

1 is an external configuration diagram illustrating a standby power cut-off multi outlet according to an embodiment of the present invention.
2 is a detailed block diagram illustrating an internal configuration of a standby power cut-off multi-outlet according to an exemplary embodiment of the present invention.
3 is a diagram illustrating an example of controlling and managing an operation of an outlet in connection with an application of a smartphone according to an embodiment of the present invention.

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

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

As shown in FIG. 1, the standby power cut-off multi outlet 100 according to an embodiment of the present invention includes an AC plug insertion port 110, a communication port insertion port 120, a reset button 130, and a mode setting switch 140. ), The buzzer 150, the rotary switch 160, and the cover 170 may be included as external components.

The AC plug insertion hole 110 is a place where the AC plug is inserted, and may supply power to an external device through the AC plug.

The communication port insertion hole (wired or wireless communication unit) 120 is a place where the communication port is inserted, and may communicate with an external device via wire or wirelessly through the communication port. In addition, the communication port insertion port 120 is to enable the bi-directional communication between the outlet and the smart phone, through which the control and management of the standby power cut-off outlet 100 using a smart phone application.

The reset button 130 may correspond to the reset switch 280 of FIG. 2 and may initialize the standby power cutoff multi-outlet 100.

The mode setting switch 140 is a switch for setting (changing) a mode. Here, the mode may be divided into a power saving mode and a continuous mode.

The normal mode is a mode that does not detect standby power in the same way as a general outlet, and functions as a normal outlet, and the power saving mode refers to a mode that cuts off the standby current according to a timer setting value when a standby current is detected.

When the standby current is detected and shut off in the power saving mode, it is possible to recover through manual recovery at the outlet and application control of the smartphone.

The buzzer 150 may output a warning sound when the current value detected in the normal mode exceeds an overload threshold. In this case, the standby power cut-off multi-outlet 100 may light an alarm lamp through a lamp (not shown) together with the warning sound.

The rotary switch 160 is a control current selection mode unit and is used when one of several signals is selected by a rotary switch.

The rotary switch 160 may set the standby current value differently according to the standby power of the home appliance. That is, since the standby power of the home appliance is different, the user may set the standby current value according to the standby power of the corresponding device by operating the rotary switch 160.

The cover 170 serves to protect the standby power blocking multi outlet 100.

2 is a detailed block diagram illustrating an internal configuration of a standby power cut-off multi-outlet according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the standby power cut-off multi outlet 200 according to an embodiment of the present invention includes a power supply terminal 210, a power supply unit 220, a current sensing unit 230, a standby power blocking unit 240, and an overload. The prevention unit 250, the communication unit 260, the alarm unit 270, the reset switch 280, and the outlet control unit 290 may be included as internal components.

The power terminal 210 is connected to a wire that is energized by commercial power to receive AC power (AC 220V).

The power supply unit 220 converts an AC power input through the power terminal 210 into a DC power of a predetermined voltage. To this end, the power supply unit 220 may include a circuit device for converting AC power into DC power, that is, a rectifying circuit and a smoothing circuit. In addition, the power supply unit 220 may include a constant voltage circuit, a constant current circuit, etc. to output irregular input voltage / current at a constant voltage / current.

The power supply unit 220 may have an output side thereof connected to the outlet control unit 290 through the reset switch 280. Therefore, when the reset switch 280 is pressed, the power supply unit 220 may partially initialize the standby power cut-off power outlet 200 according to an embodiment of the present invention.

The current detector 230 detects the current of the AC power input through the power terminal 210 and detects the current value. To this end, the current sensing unit 230 may output a current induced in proportion to the current value of the AC power input through the power terminal 210.

In this case, the current detector 230 may detect the current value of the AC power input through the power terminal 210 using a CT (Current Transformer) method. For reference, conventionally, a current detection IC has been used to detect current. Therefore, conventionally, there is a disadvantage in that the unit price is high and the error due to the change in semiconductor characteristics increases over time. However, in one embodiment of the present invention, since the CT method is used for current detection, the unit cost can be reduced and the current can be stably detected.

Here, the CT (current transformer) is defined as a device that converts the current (small) proportional to an arbitrary current (large), the operation principle is as follows. When the first large current flows, a magnetic field is generated by Ampere's right-hand rule. The magnetic flux generated at this time is moved through the iron core. The electromotive force E is induced while the magnetic flux moved to the coil wound on the secondary side is bridged. The magnitude is based on Faraday's law of induction, and the direction is determined by Lenz's law. That is, the magnetic flux and the electromotive force are generated in a direction to cancel the change of the magnetic flux and the secondary current flows accordingly. Since the magnetic flux generated by the primary current and the magnetic flux generated by the secondary current are different from each other, they are canceled and only the magnetic flux for the excitation current flows through the iron core during operation.

In summary, the current transformer converts the current of the primary side into a current that is easy to measure on the secondary side by using the above principle. Accordingly, the current detector 230 may detect the current value of the AC power input through the power terminal 210 by using the principle of the current transformer CT.

The standby power blocking unit 240 compares the current value detected by the current sensing unit 230 with a standby current threshold. The standby current blocking unit 240 selectively supplies the AC power input through the power terminal 210 to the power supply unit 220 according to the comparison result.

That is, when the detected current value exceeds the standby current threshold, the standby power cutoff unit 240 of the AC power input to the power supply unit 220 through the power supply terminal 210 as a result of the comparison. Supply can be cut off. In contrast, when the detected current value is less than or equal to the standby current threshold, the standby power blocking unit 240 supplies the AC power input to the power supply unit 220 through the power supply terminal 210. You can continue.

Here, the standby current threshold may be preset and stored in a memory (not shown) as a comparison criterion for blocking standby power. The standby power blocking unit 240 may selectively supply AC power to the power supply unit 220 with reference to the memory.

The standby power blocking unit 240 may include a latch device operating in a latching manner. The standby power blocking unit 240 may reduce power consumption by using the latch element.

For reference, in the past, noise was generated using a general relay, driving, and current consumption continued, resulting in high power consumption. However, in one embodiment of the present invention, by using a latch element to give a signal once, the on state may be continuously maintained until the next signal is given. Therefore, according to one embodiment of the present invention, since the operation time is short compared to the existing technology, it is possible to reduce the heat and noise, and the durability is strong, the defect rate is significantly reduced compared to the existing is advantageous in maintenance. In addition, unlike conventional methods in which current is continuously consumed, current consumption is not continuously performed, thereby reducing power consumption.

The overload protection unit 250 compares the current value detected by the current detection unit 240 with the overload threshold, and outputs a control signal for preventing overload according to the comparison result.

That is, as a result of the comparison, when the detected current value exceeds the overload threshold, the overload prevention unit 250 may output a control signal for preventing overload and transmit the control signal to the outlet control unit 290. Accordingly, the outlet control unit 290 may temporarily cut off the power supply of the power supply unit 220 by receiving the control signal.

In contrast, when the detected current value is less than the overload threshold, the overload prevention unit 250 may continuously compare the detected current value with the overload threshold.

Here, the overload threshold may be preset and stored in the memory as a comparison criterion for preventing overload. The overload protection unit 250 may determine whether to output a control signal for preventing overload with reference to the memory.

The communication unit 260 includes a wireless communication module (not shown) for wireless communication with a smartphone. The communication unit 260 may control and manage an operation of an outlet by interworking with an application installed in the smartphone through the wireless communication module.

That is, as shown in FIG. 3, the user 330 may operate an application installed in the smartphone 320 to control or manage the operation of the outlet 310. According to the operation of the application, the smartphone 320 is bi-directional communication with the outlet 310 through a wireless communication module, through which the operation control and management of the outlet 310 can be performed.

For example, the smartphone 320 may output a control signal for blocking standby power of the outlet 310 and transmit the control signal to the outlet 310 through wireless communication. The outlet 310 may receive the control signal from the smartphone 320 and transmit the control signal to a standby power cutoff unit (see “240” in FIG. 2) through an outlet control unit (see “290” in FIG. 2). The standby power blocking unit may receive and drive the control signal to block standby power while minimizing power consumption of the outlet 310.

In addition, the smart phone 320 may output a status check signal for management of the outlet 310 according to the operation of the application and transmit it to the outlet 310 through wireless communication. The outlet 310 may receive the status confirmation signal from the smartphone 320 to generate status information regarding power usage and transmit the status information to the smartphone 320. Accordingly, the user 330 may check the power usage state of the outlet 310 through the smart phone 320. Here, the state information on the power usage is a current value detected by the current sensing unit (see "230" in FIG. 2), a comparison result of the current value and the standby current threshold value, and the comparison of the current value and the overload threshold value Can be generated based on the results.

For reference, FIG. 3 is a diagram illustrating an example of controlling and managing an operation of an outlet in conjunction with an application of a smartphone according to an embodiment of the present invention.

Referring back to FIG. 2, the alarm unit 270 may generate an alarm signal visually or acoustically when the standby power cut-off power outlet 200 is in a standby power state or an overloaded state.

That is, the alarm unit 270 may transmit an alarm signal to the buzzer 272 to output an alarm sound, and transmit an alarm signal to the lamp 274 to output an alarm lamp. As a result, the user may recognize that the standby power cut-off power outlet 200 is in a standby power state or an overloaded state.

The reset switch 280 has a function of partially initializing the standby power blocking multi-outlet.

The outlet control unit 290 is a standby power blocking multi-outlet 200 according to an embodiment of the present invention, that is, the power terminal 210, the power supply unit 220, the current sensing unit 230, the standby power blocking The operation of the unit 240, the overload prevention unit 250, the communication unit 260, the alarm unit 270, and the reset switch 280 may be controlled overall.

As such, in one embodiment of the present invention, by detecting the current value of the input power source using a CT (Current Transformer) method, it is possible to reduce the unit cost of the product and to stably detect the current. In addition, by using a latch element when the standby power is cut off, power consumption can be reduced, and a short operation time reduces generation of heat and noise compared to the existing technology, and durability is strong, thereby minimizing the defective rate compared to the conventional.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below, but also by the equivalents of the claims.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

210: power supply terminal
220: power supply
230: current sensing unit
240: standby power cut-off unit
250: overload protection
260: communication unit
270: alarm unit
280: reset switch
290: outlet control unit

Claims (7)

In the standby power cut-out multi outlet,
A power terminal connected to an electric wire powered by commercial power and receiving AC power;
A power supply unit converting an AC power input through the power terminal into a DC power of a predetermined voltage;
A current sensing unit sensing a current of the AC power input through the power terminal and detecting a current value thereof;
A memory for storing a predetermined standby current threshold as a comparison reference for blocking standby power, and storing a preset overload threshold as a comparison reference for preventing overload;
A standby power blocking unit comparing the current value detected by the current sensing unit with a standby current threshold stored in the memory and selectively supplying AC power input through the power terminal to the power unit according to the comparison result;
An overload prevention unit comparing the current value detected by the current detection unit with an overload threshold stored in the memory and outputting a control signal for preventing overload according to the comparison result;
A communication unit including a wireless communication module for wireless communication with a smartphone, and controlling and managing an operation of an outlet by interworking with an application installed in the smartphone through the wireless communication module; And
Communication port is inserted into the communication port through the communication port to the outlet and the communication port to allow the communication between the smartphone is made
Including,
The smartphone is
Generating a status check signal for management of the outlet based on a current value detected by the current sensing unit, a comparison result of the current value and the standby current threshold value, and a comparison result of the current value and the overload threshold value; A smart standby power cut-off multi-outlet, which transmits to the outlet through a wireless communication module and receives status information on power usage of the outlet as a response signal from the outlet.
The method of claim 1,
The standby power blocking unit
When the detected current value exceeds the standby current threshold value, the smart standby power cut-off multi-outlet, characterized in that to cut off the supply of AC power input through the power terminal to the power supply unit.
The method of claim 1,
The standby power blocking unit
And a latch element operating in a latching manner, wherein the power consumption is reduced by using the latch element.
The method of claim 1,
The current sensing unit
Smart standby power off multi-outlet, characterized in that for detecting the current value of the AC power input through the power terminal using a CT (Current Transformer) method.
delete delete The method of claim 1,
Alarm unit for generating an alarm signal visually or audio when the standby power blocking multi-outlet is in a standby power state or an overloaded state
Standby power blocking multi-outlet further comprising a.

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