KR20180023561A - Smart power device - Google Patents

Abstract

The present invention relates to a smart power device. According to an embodiment of the present invention, the smart power device comprises: an inlet socket body installed in a load, and including a power terminal for supplying an external power to the load; a mirroring part installed in the inlet socket body, and calculating a power value by using a consumption power amount and alternating current voltage of the load; a power control part installed in the inlet socket body, and outputting a signal controlling the load according to the power value calculated by the mirroring part to a load side; and a communication part installed in the inlet socket body, communicating with the power control part, and communicating with an external device to transmit the signal to the power control part. According to the present invention, the smart power device is installed in a household load in an inlet socket manner, so that the smart power device can be easily mounted on the household load since only the inlet socket can be replaced in a manufacturer of the household load.

Description

[0001] SMART POWER DEVICE [0002]

The present invention relates to a smart power supply, and more particularly, to a smart power supply installed in a household load.

The Smart Grid is a next-generation intelligent power grid that exchanges information in real time between power suppliers and consumers in order to optimize energy efficiency. A control device for power control used in a conventional home or the like is provided with a function of simply turning on and off a relay switch of a power source in accordance with the setting of the user's control renewable time like a smart plug.

However, the conventional smart plug has a problem in that it can not use the household appliances while the power is shut off because power consumption is reduced by controlling the power supply in the manner of shutting off the power supply for household appliances. In addition, since it is attached to the outside of the home appliance by a plug method, there is a problem that a separate purchase cost is required.

Korean Patent No. 10-1303066 (2013.08.28)

A problem to be solved by the present invention is to provide a smart power supply device that can be mounted as a component in a household load.

A smart power supply device according to an embodiment of the present invention includes an inlet socket body installed in a load and including a power terminal for supplying external power to the load; A mirroring unit installed in the inlet socket body and calculating a power value using a current consumption of the load and an AC voltage; A power supply control unit installed in the inlet socket body for outputting a signal for controlling the load according to a power value calculated by the mirroring unit to the load side; And a communication unit installed in the inlet socket body, communicating with the power control unit, and communicating with the external device to transmit a signal to the power control unit.

And an auxiliary power unit installed in the inlet socket body to supply power to the mirroring unit, the power control unit, and the communication unit.

The power supply terminal may further include a current sensor electrically connected to the power supply terminal to detect an amount of current flowing to the power supply terminal, and the mirroring unit may detect the amount of current from the current sensor.

At this time, the current sensor may include a shunt resistor or a current transformer CT.

The inlet socket body may further include a communication connector for communicating with a load controller that is electrically connected to the power source control unit and controls the load. The inlet connector is disposed outside the inlet socket body, And a display unit for displaying a communication state.

Here, the display unit can display a state of whether the load is normally controlled by the power supply control unit, and can display a different color according to the communication state of the communication unit.

The cover may further include a cover coupled to the inlet socket body to cover the mirroring unit, the power control unit, and the communication unit.

According to the present invention, since the smart power device is installed in the inlet load in the home load, only the inlet socket can be replaced from the maker of the household load, so that it is easy to install the smart power device in the household load.

1 is a schematic diagram illustrating a smart power supply according to an embodiment of the present invention.
FIG. 2 is a view illustrating a household power source used in a smart power supply according to an exemplary embodiment of the present invention. Referring to FIG.
3 is a perspective view illustrating an inlet socket type smart power supply according to an embodiment of the present invention.
4 is a rear perspective view illustrating an inlet socket type smart power supply device according to an embodiment of the present invention.
FIG. 5 is an internal perspective view illustrating the inside of an inlet socket type smart power source device according to an embodiment of the present invention.

Preferred embodiments of the present invention will be described more specifically with reference to the accompanying drawings.

FIG. 1 is a schematic view showing a smart power supply according to an embodiment of the present invention, and FIG. 2 is a view illustrating a household power supply used in a smart power supply according to an embodiment of the present invention.

The smart power supply 100 according to an exemplary embodiment of the present invention includes a mirroring unit 112, a power control unit 114, a communication unit 116, an auxiliary power unit 118, and a current sensor 120.

The mirroring unit 112 is electrically connected to the current sensor 120 and detects the amount of current consumed and the alternating voltage of the household load measured by the current sensor 120. Then, the power consumed in the household load is calculated using the detected current amount and the AC voltage.

The power control unit 114 may transmit information on the power consumption value and the measured current and voltage calculated by the mirroring unit 112 to the energy management system server 400 side. In addition, a control signal to be transmitted to the load controller 200 installed in the household load may be received from the energy management system server 400 to control the household load. For this, the power control unit 114 may perform a wireless communication protocol. In addition, the home load can be controlled and monitored through the serial communication with the load controller 200, and a specific operation can be performed.

The communication unit 116 transmits the information on the power value, the measured current, and the voltage calculated by the mirroring unit 112 to the external device (for example, the energy management system server 400) through the power control unit 114, When information including an instruction is received from an external device, the information is transmitted to the power control unit 114. For this, the communication unit 116 can perform wired / wireless communication, and in this embodiment, communication can be performed through wifi or zibee.

If necessary, the mirroring unit 112, the power control unit 114, and the communication unit 116 may be configured as one module or a SoC module. Alternatively, the communication unit 116 and the mirroring unit 112 may have the form of a single chip integrated into a single wafer.

The auxiliary power supply unit 118 independently supplies power to the mirroring unit 112, the power control unit 114, and the communication unit 116 irrespective of the operation of the household power supply unit 130 that supplies power to the household load. The auxiliary power supply unit 118 may be implemented in a fly-back circuit manner. The auxiliary power supply 118 has a rating of several watts and includes an intermittent PWM switching circuit with high efficiency in the light load section.

The current sensor 120 is provided for detecting the amount of current supplied through the power plug and consumed in the household load. This current sensor 120 may include a shunt resistor or a current transformer CT.

The household power supply unit 130 is provided for supplying power to the household load. As shown in FIG. 2, the household power supply unit 130 includes a rectifying unit for rectifying the AC power supplied from the system power supply, a power factor correction converter 12 for compensating the power factor of the AC current, and a DC And a converter 13 (DC-DC converter). The power factor compensation converter 12 controls the phases of the input current and the power source to improve the quality of power supplied to the household load. The DC converter 13 serves to constantly control various DC voltages required for a household load. As described above, the household power source unit 130 may be commonly configured as an air conditioner, a washing machine, a refrigerator, or the like.

FIG. 3 is a perspective view illustrating an inlet socket type smart power supply apparatus according to an embodiment of the present invention, and FIG. 4 is a rear perspective view illustrating an inlet socket type smart power supply apparatus according to an embodiment of the present invention. And FIG. 5 is an internal perspective view illustrating an interior of an inlet socket type smart power supply device according to an embodiment of the present invention.

In this embodiment, the smart power supply 100 may be implemented as an inlet socket. Accordingly, the Smart Power Supply 100 according to the present embodiment can be mounted on the household load by replacing the existing inlet socket without changing the design of the household power supply unit 130 included in the household load.

3 to 5, a smart power supply 100 according to an exemplary embodiment of the present invention includes a mirroring unit 112, a power control unit 114, a communication unit 116, an auxiliary power unit 118, A current sensor 120, an inlet socket body 150, a cover 151, a power supply terminal 153, a communication connector 155, a ground terminal 157 and a display unit 159.

The description of the mirroring unit 112, the power control unit 114, the communication unit 116, the auxiliary power unit 118 and the current sensor 120 is the same as described above, Only the location is explained further.

3, the inlet socket body 150 includes a mirroring part 112, a power control part 114, a communication part 116, an auxiliary power part 118, a current sensor 120, a power terminal 153, (155) and the ground terminal (157). For this purpose, the inlet socket may be formed with a groove into which a power plug is inserted. A pair of power supply terminals 153 and a ground terminal 157 are disposed in the grooves formed in the inlet socket body 150. In addition, a display unit 159 may be disposed below the groove of the inlet socket body 150 to confirm the communication state. A fixing hole h for fixing the inlet socket body 150 to the household load may be formed on the outside of the inlet socket body 150.

The cover 151 covers the mirroring part 112, the power supply control part 114, the communication part 116, the auxiliary power supply part 118 and the current sensor 120 installed in the inlet socket body 150 and protects it from the outside . 4, the power terminal 153, the communication connector 155, and the ground terminal 157 may be exposed to the rear surface of the cover 151. [ The power supply terminal 153, the communication connector 155 and the ground terminal exposed to the rear surface of the cover 151 can be electrically connected to the household load.

The pair of power terminals 153 are provided to supply power to an external power source to a household load. As shown in FIG. 5, one of the pair of power terminals 153 may be electrically connected to the current sensor 120. Although the pair of power terminals 153 are horizontally disposed on the front surface of the inlet socket body 150 and vertically arranged on the rear surface of the inlet socket body 150, The arrangement of the power supply terminal 153 may be changed as required.

The communication connector 155 is disposed in the rear surface direction of the inlet socket body 150 and may be electrically connected to the power source control unit 114. The communication connector 155 is an interface for electrically connecting the load control unit 200 and the power supply control unit 114 for home use so that they can communicate with each other. In the present embodiment, serial communication is performed between the load controller 200 and the power controller 114. Although the communication connector 155 is shown as an interface for serial communication, it may have different specifications depending on the communication system .

The grounding terminal 157 is disposed on the upper portion of the inlet socket body 150 and disposed in a rear direction in a groove formed in the front surface of the inlet socket body 150.

The mirroring part 112 is disposed at a lower portion of the inlet socket body 150 and is disposed at an adjacent position as being electrically connected to the current sensor 120.

The auxiliary power source unit 118 is electrically connected to the mirroring unit 112 and is disposed at a position adjacent to the mirroring unit 112.

The power supply control unit 114 is disposed at a position adjacent to the auxiliary power supply unit 118 and is electrically connected to the communication connector 155. The power control unit 114 can check the operating states of the mirroring unit 112 and the communication unit 116 and can control the display unit 159 according to the operation states of the mirroring unit 112 and the communication unit 116 .

The communication unit 116 is disposed on the front side of the inlet socket body 150 for communication with the energy management system server 400 disposed outside and is disposed adjacent to the power control unit 114 for communication with the power control unit 114 . The communication unit 116 may include a communication module for communication and an antenna. And may transmit a signal regarding the operation state of the communication unit 116 to the power control unit 114. [

As described above, since the antenna is incorporated in the communication unit 116, it is not necessary to use an external antenna.

The current sensor 120 is disposed at the rear end of the inlet socket body 150 and is electrically connected to one of the pair of power terminals 153 as described above. The current flowing through the power supply terminal 153 can be directly measured.

The display unit 159 is installed so that the user can check the communication state of the communication unit 116 provided in the inlet socket body 150 from the outside. The operation of the display unit 159 with respect to the communication state in the communication unit 116 can be defined as shown in Table 1 below.

Operation mode The state of the display unit 159 Explanation Communication normal Green flashing The communication state with the energy management system server 400 and the normal operation state of the control function of the smart power supply apparatus 100 Connecting to a communication Blinking orange The state of communication connection attempt with the energy management system server 400 Communication error Flashing red Communication with the energy management system server (400) is not possible
Or, the abnormalities of the smart power supply device 100

According to the state of the display unit 159, the user can check the status of the smart power supply 100. For example, when power is supplied to the household load through the smart power supply 100 of the inlet socket type according to the present embodiment, the display unit 159 is displayed in an amber blinking state. At this time, the communication unit 116 tries to communicate with the energy management system server 400. For reference, when the smart power supply 100 is first connected to the energy management system server 400, the user may go through a procedure of accessing the energy management apparatus through a communication enabled user terminal and registering the load for the home appliance .

When the smart power supply 100 and the energy management system server 400 are normally connected, the display unit 159 is displayed in a green flashing state. Then, the smart power supply 100 normally measures the power consumption, and the display unit 159 is continuously displayed in a green flashing state while the household load is normally controlled through the load control unit 200.

If an abnormality occurs in communication between the communication unit 116 and the energy management system server 400 or an error occurs in the smart power supply 100 during the operation, the display unit 159 is displayed in a red blinking state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It should be understood that the scope of the present invention is to be understood as the scope of the following claims and their equivalents.

100: Smart power supply
112: Mirroring unit 114: Power control unit
116: communication unit 118: auxiliary power unit
120: current sensor 130:
150: inlet socket body 151: cover
153: power terminal 155: communication connector
157: ground terminal 159:
h: Fixing hole
200: load control unit 400: energy management system server

Claims (9)

An inlet socket body provided at a load and including a power source terminal for supplying external power to the load;
A mirroring unit installed in the inlet socket body and calculating a power value using a current consumption of the load and an AC voltage;
A power supply control unit installed in the inlet socket body for outputting a signal for controlling the load according to a power value calculated by the mirroring unit to the load side;
And a communication unit installed in the inlet socket body and communicating with the power control unit and communicating with an external device to transmit a signal to the power control unit. The method according to claim 1,
And an auxiliary power unit installed in the inlet socket body to supply power to the mirroring unit, the power control unit, and the communication unit. The method according to claim 1,
And a current sensor electrically connected to the power terminal for detecting an amount of current flowing in the power terminal,
And the mirroring unit detects the amount of current from the current sensor. The method of claim 3,
Wherein the current sensor comprises a shunt resistor or a current transformer (CT). The method according to claim 1,
And a communication connector installed in the inlet socket body for communicating with a load control unit electrically connected to the power control unit to control the load. The method according to claim 1,
And a display unit disposed on the outside of the inlet socket body to display a communication state of the communication unit. The method of claim 6,
Wherein the display unit displays a state of whether the load is normally controlled by the power supply control unit. The method of claim 6,
Wherein the display unit displays different colors according to a communication state of the communication unit. The method according to claim 1,
And a cover coupled to the inlet socket body to cover the mirroring portion, the power control portion, and the communication portion.

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