WO2015064831A1 - Electric socket and method for supplying power through electric socket - Google Patents

Abstract

An electric socket, according to one embodiment of the present invention, provided, comprises: a power connection pin having a structure into which an electric plug of an electronic device can be inserted and capable of supplying power to the electronic device; a relay switch for connecting a power supply source and the power connection pin and controlling power to be supplied from the power supply source to the power connection pin; a storage unit for storing a unique identification code; a communication unit for transmitting the stored unique identification code to an external device in response to a power supply request from the external device, receiving a power supply approval code from the external device which has received the unique identification code, and communicating with the external device; a current supply control port for controlling the opening/closing and an opening/closing time of the relay switch according to the received power supply approval code; and a microprocessor for controlling the storage unit, the communication unit and the supply control port.

Description

Power supply method through electric socket and electric socket

The present invention relates to an electric socket and a power supply method through the electric socket, and more particularly to an electric socket and the electric power supply method of the unmanned management structure that can supply power only when the power supply approval. .

Electronic devices are very diverse, and these electronic devices are a necessity of modern people. Power supply is essential for using electronic devices. Even if the battery inside the electronic device is used, power supply is inevitable because of the limited amount of storage. Electricity, on the other hand, is an intangible asset and is not easy to manage. In the case of using electricity, despite the charge, it is difficult to manage the electricity and check whether the electricity is used, so that the electricity can be frequently used without paying the use fee. However, since electricity is a costly private property, only a user authorized by the owner of the electricity can use the electricity. In particular, in the modern society where electronic devices using electricity are continuously expanding, this necessity is increased.

The present invention can provide an electric socket and a power supply method through the electric socket that can be used only by the user authorized to use the electricity.

The present invention can provide an electric socket which is easy to use and manage electricity and a power supply method through the electric socket.

According to an embodiment of the present invention, the electrical plug of the electronic device has a structure that can be inserted, the power connection pin for supplying power to the electronic device; A relay switch connecting a power supply to the power connection pin and controlling power supplied from the power supply to the power connection pin; A storage unit for storing a unique identification code; In response to a power supply request of an external device, the stored unique identification code is transmitted to the external device, and a power supply approval code is received from an external device that has received the unique identification code. Communication unit for performing communication; A current supply control port controlling whether the relay switch is opened or closed and opening / closing time according to the received power supply approval code; And a microprocessor controlling the storage unit, the communication unit, and the supply control port.

In the electric socket according to the present invention, the current supply control port may control the relay switch so that power is supplied from the power supply to the power connection pin if the power supply approval code is permitted.

In the electric socket according to the present invention, the power supply approval code includes an amount of power or a power supply time supplied through the power connection pin, and the current supply control port depends on the amount of power or a power supply time. It is possible to control whether the relay switch is opened or closed and opening / closing time.

In the electrical socket according to the present invention, the power supply approval code further includes a user identifier of the electronic device, the communication unit receives a user identifier of the electronic device from the electronic device, and the microprocessor supplies the power. It is determined whether the user identifier of the electronic device included in the approval code matches the user identifier received from the electronic device. If the determination result is matched, the current supply control port is configured to supply the power according to a control signal received from the microprocessor. The relay switch may be controlled to supply power to the electronic device from a source.

In the electric socket according to the present invention, when electric power is supplied to the electronic device from the power supply source, it may further include a current sensor for measuring the amount of power or the power supply time supplied from the power supply to the electronic device. .

In the electric socket according to the present invention, the microprocessor compares the amount or power supply time of the power supplied to the electronic device through the current sensor with the amount or power supply time included in the current supply approval code. According to the comparison result, it is possible to control whether the relay switch is open or closed and the open / close time.

In the electric socket according to the present invention, the communication unit may transmit the amount of power or the power supply time measured by the current sensor to the external device.

The electric socket according to the present invention may further include a malfunction detection sensor which blocks an electric current flowing from the power supply to the electronic device when sensing an overcurrent flowing from the power supply to the power connection pin.

The electric socket according to the present invention may further include a display unit displaying an amount of power supplied to the electronic device or a power supply time.

In the electric socket according to the invention, it may further include an opening and closing cover to cover the power connection pin.

In the electric socket according to the present invention, the communication unit may include a wired communication module for performing wired communication with the external device and a wireless communication module for performing wireless communication with the external device.

In the electric socket according to the present invention, the battery may further include a battery for storing power supplied from the power supply source, and may use the power stored in the battery.

The electric socket according to the present invention may further include an AC-DC converter for converting and supplying an AC current supplied from the power supply source into a DC current.

According to another embodiment of the invention, the step of receiving a power supply request from an external device; Transmitting a unique identification code of the electric socket to the external device in response to the power supply request; And receiving a power supply approval code from the external device. If the received power supply approval code is an allowed approval code, it may provide a power supply method through an electric socket, including controlling a relay switch to supply power to an electronic device through a power connection pin from a power supply source. .

In the power supply method through the electric socket according to the present invention, the power supply approval code includes the amount of power or the power supply time supplied through the power connection pin, and the step of controlling the relay switch is the The relay switch may be controlled according to the amount or power supply time.

In the power supply method through the electric socket according to the invention, the power supply approval code further comprises a user identifier of the electronic device, further comprising the step of receiving a user identifier of the electronic device from the electronic device, In the controlling of the relay switch, when the user identifier of the electronic device included in the power supply approval code and the user identifier received from the electronic device match, power is transferred from the power supply source to the electronic device through the power connection pin. The relay switch can be controlled to be supplied.

In the power supply method through the electric socket according to the present invention, the method may further comprise the step of measuring the amount of power or the power supply time from the power supply to the electronic device.

In the power supply method through the electric socket according to the present invention, the method may further include displaying the measured amount of power or the power supply time.

In the power supply method through the electric socket according to the present invention, the amount of power or the power supply time and the amount of power included in the power supply approval code or power supply time is compared, and the relay according to the comparison result The switch can be controlled.

In the power supply method through the electric socket according to the present invention, if the over-current flowing to the electronic device from the power supply through the power connection pin, further comprising the step of blocking the current flowing from the power supply to the electronic device It may include.

According to the present invention, only electronic devices that are permitted to use electricity can use electricity.

According to the present invention, the owner of electricity can easily manage and sell the electricity.

1A and 1B are views illustrating an electric socket according to an embodiment of the present invention.

Figure 2 is a block diagram showing the internal structure of the electric socket according to an embodiment of the present invention.

3 is a view showing a system of a structure in which an electric socket is used according to an embodiment of the present invention.

4 is a flowchart illustrating a power supply method through an electric socket according to an embodiment of the present invention.

Terms used herein will be briefly described and the present invention will be described in detail.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the functions in the present invention, but this may vary according to the intention or precedent of the person skilled in the art, the emergence of new technologies and the like.

In addition, in certain cases, there is also a term arbitrarily selected by the applicant, in which case the meaning will be described in detail in the description of the invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents throughout the present invention, rather than the names of the simple terms.

When any part of the specification is to "include" any component, this means that it may further include other components, except to exclude other components unless otherwise stated. In addition, the terms "... unit", "module", etc. described in the specification mean a unit for processing at least one function or operation, which may be implemented in hardware or software or a combination of hardware and software. .

The electric socket according to the present invention refers to an intermediary device capable of supplying electric power to an electric device from an externally installed power source. The power supply may be such as a power plant or a charging station, but is not necessarily limited thereto. The electrical socket may have any structure that enables the power supply to be powered by the electrical device. Thus, the electrical socket may include any device capable of powering or charging the electrical device through the connection of the power source and the electrical device.

DETAILED DESCRIPTION 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.

1A and 1B are views showing an electric socket according to an embodiment of the present invention, Figure 2 is a block diagram showing the internal structure of the electric socket according to an embodiment of the present invention, Figure 3 is a view of the present invention Figure is a system showing a structure in which the electric socket according to the embodiment is used.

Hereinafter, the structure and operation of an electric socket according to an embodiment of the present invention will be described with reference to FIGS. 1A and 1B, 2, and 3.

Electric socket 100 according to an embodiment of the present invention is a power connection pin 105, opening and closing cover 110, relay switch 115, current sensor 120, malfunction detection sensor 125, storage unit 130 ), Communication unit 135, current supply control port 140, microprocessor 145, battery 150, AC-DC converter 155, display unit 160, operation supply indicator 165 and power supply indication And the like 170.

The electric socket 100 according to the present invention may be installed at any place capable of supplying power. For example, it may be installed in an empty space formed in a general building, a parking lot, an electric charging station, a gas station, or a vehicle road. And, the electric socket 100 may be installed integrally coupled to such a place, it may be connected to be installed through the wire. In other words, the installation here means not to be physically necessarily coupled, but to electrically coupled.

The power connection pin 105 has a structure in which the electric plug of the electronic device can be inserted, and can supply power to the electronic device. The power connection pin 105 may be connected to the power supply S to receive power from the power supply S, and supply the same to the electronic device. Here, any electronic device may be used as long as the electronic device has an electric plug that can be inserted into the power connection pin 105. For example, devices that require a large amount of electricity, such as electric vehicles, may be used as electronic devices, as well as general household appliances such as portable electronic devices, washing machines, refrigerators, and PCs operated by supplying electricity. The electronic device may also include a user identifier (ID). The user identifier (ID) of the electronic device can distinguish the user of the electronic device from the user of the other electronic device and obtain information about the user of the electronic device. In addition, the electronic device may include a unique identification code of the electronic device. And, through the unique identification code of the electronic device, it is possible to distinguish the electronic device from other electronic devices, and obtain information about the electronic device. That is, the electronic device or the user of the electronic device to perform the power supply may be determined through an identification code unique to the electronic device or a user identifier of the electronic device.

The power connection pin 105 may be formed according to a single phase or three phase power supply or rated capacity. For example, the power connection pin 105 may have a different structure or shape depending on the country, the structure or shape is not particularly limited.

The opening and closing cover 110 has a structure that can cover the power connection pin 105, it can be opened or closed automatically or manually. The opening and closing cover 110 may cover the power connection pin 105 to prevent foreign substances from being inserted into the power connection pin 105 or to deform the shape of the power connection pin 105. That is, by using the opening and closing cover 110, it is possible to protect the power connection pin 105. Figure 1a is a view showing the electric socket 100 in the open and closed cover 110, Figure 1b is a view showing the electric socket 100 in a state in which the power connection pin 105 is closed with the opening and closing cover 110. to be. As shown in FIG. 1A, when the opening and closing cover 110 is opened, the power connection pin 105 is exposed to the outside, and when the power connection pin 105 is closed by the opening and closing cover 110, the power connection pin 105 is opened. Is not exposed to the outside. The opening and closing cover 110 may include a plastic material and may be an insulating material.

The relay switch 115 connects the power supply S and the power connection pin 105, and controls the power supplied from the power supply S to the power connection pin 105. That is, when the relay switch 115 is turned ON, power is supplied from the power supply source S to the power connection pin 105, and when the relay switch 115 is turned OFF, the relay switch 115 is turned off from the power supply source S. Power is not supplied to the power connection pin 105. As such, as the relay switch 115 is turned on / off, whether or not power is supplied from the power supply source S to the power connection pin 105 may be different. It is possible to control the power supplied to the power connection pin 105 from (S). As the relay switch 115, a relay switch such as a contact relay or a semiconductor relay may be used, and the type thereof is not particularly limited.

When power is supplied to the electronic device from the power supply S, the current sensor 120 may measure an amount of power or a power supply time supplied from the power supply S to the electronic device. When the relay switch 115 is ON, power is supplied from the power supply source S to the electronic device through the power connection pin 105. At this time, the current sensor 120 may measure the amount of actual power or the actual power supply time supplied to the electronic device from the power supply (S).

When the malfunction detection sensor 125 detects an overcurrent flowing from the power supply source S to the power connection pin 105, the malfunction detection sensor 125 cuts off the current flowing from the power supply source S to the power connection pin 105. When the relay switch 115 is turned ON and an electronic device is connected to the power connection pin 105, current flows from the power supply S to the electronic device. However, an electronic device may be incorrectly connected and an overcurrent may flow, or a short circuit may occur due to an installation error of the electric socket 100. The malfunction detection sensor 125 detects such a malfunction, and when such a malfunction is detected, the electronic device and the electric socket 100 are damaged by blocking a current flowing from the power supply source S to the power connection pin 105. Can be prevented. If the current sensor 120 and the malfunction detection sensor 125 can perform the above-described function, the shape and structure thereof are not particularly limited.

The storage unit 130 may store a unique identification code of the electric socket 100. In addition, the storage unit 130 may store a basic program for the operation of the electric socket 100, data generated during such an operation process, a processing result supplied through the power connection pin 105, and the like. Through the unique identification code of the electric socket 100 stored in the storage unit 130, it is possible to check the unique information about the electric socket 100.

The communication unit 135 communicates with an external device. The communication unit 135 may include a wired communication module 135a for performing wired communication with an external device and a wireless communication module 135b for performing wireless communication with an external device. Here, any device that can perform wired or wireless communication with the communication unit 135 may be used as an external device. For example, a mobile device including a communication module, a server connected to a network, a PC, and the like may be used. In addition, an external device that performs communication with the communication unit 135 of the electric socket 100 may execute an application or a program for performing power supply through the electric socket 100 according to an embodiment of the present invention.

The wired communication module 135a may communicate with the electronic device through the communication port 175. More specifically, the communication port 175 has a structure in which the electronic device can be electrically connected, when the electronic device is connected to the power connection pin 105, it may be connected to the communication port 175. The external device may be implemented as an electronic device and one device. That is, the external gyre may be modularized and positioned inside the electronic device. At this time, the electronic device may communicate with the electric socket 100 through the communication port 175.

As the wireless communication module 135b, various communication modules for performing wireless communication such as a Wi-Fi module, a Bluetooth module, and a Zigbee module may be used. As such, the communication unit 135 may transmit and receive data or information with an external device through the wired communication module 135a and the wireless communication module 135b.

The communicator 135 may transmit a unique identification code of the electric socket 100 stored in the storage 130 to an external device. The external device that receives the unique identification code of the electric socket 100 inquires the unique identification code of the electric socket 100, the information about the electric socket 100 and the power supplied through the electric socket 100 Obtain information about. For example, the external device may query the unique identification code of the electric socket 100 to obtain the validity and location of the electric socket 100, an electric charge, a discount, a special sale information, and the like. The user of the external device that has obtained such information checks the power supply time, power supply amount and cost, etc., if the power is supplied through the electric socket 100 and if the power is supplied through the electric socket 100. Can be. In addition, the user may pay a fee for power to be supplied through the electric socket 100 through an external device. When a fee for power to be supplied is paid through an external device, the external device may transmit a power supply approval code to the communication unit 135 of the electric socket 100.

The current supply control port 140 controls whether the relay switch 115 is opened or closed according to the power supply approval code input through the communication unit 135. The current supply control port 140 receives a control signal from the microprocessor 145 and controls whether the relay switch 115 is opened or closed according to the input control signal. The electric socket 100 according to the embodiment of the present invention receives data or information from an external device through the communication unit 135, receives a power supply approval code from an external device, and receives the received power supply approval code. Opening and closing of the relay switch 115, the opening and closing time of the relay switch 115 can be adjusted according to the included content.

The power supply approval code means a code for requesting permission of power supply. When a payment is made for power to be supplied through the electric socket 100 through an external device, the external device may transmit the power supply approval code to the electric socket 100. The electric socket 100 determines whether the power supply approval code is a power supply approval code. If the power supply approval code is a power supply approval code, power is supplied from the power supply source S to the power supply pin 105. The relay switch 115 may be controlled to be supplied.

The power supply approval code may include an amount of power or a power supply time supplied through the power connection pin 105. If the power supply approval code is an allowed approval code, the current supply control port 140 may be configured according to a control signal output from the microprocessor 145, depending on the amount of power included in the power supply approval code or the power supply time. 115 can be opened or closed and the opening and closing time can be controlled.

Then, the microprocessor 145 compares the amount and power supply time of the power actually included in the electronic device through the current sensor 120 and the power supply time and the power supply time included in the power supply approval code, and controls the current supply. The port 140 may receive a control signal according to a comparison result from the microprocessor 145, and thus control whether the relay switch 115 is opened or closed and opening / closing time.

That is, whether or not to continuously open and close the relay switch 115 according to the amount of power supplied or the power supply time may be determined, and the relay switch 115 may be controlled accordingly. For example, if the amount of power actually supplied and the supply time are insufficient compared to the amount of power included in the power supply approval code, the power will be continuously supplied.

In addition, the microprocessor 145 operates the internal timer at the start of power supply, and when the power supply time included in the current supply approval code elapses, the microprocessor 145 cuts off the relay switch 115 through the current supply control port. Supply can also be completed.

The communication unit 135 transmits the result of comparing the amount of power actually supplied to the electronic device or the power supply time with the amount of power included in the power supply approval code or the power supply time through the current sensor 120 to an external device. Can be. According to this result, an external device may pay an additional fee if an additional fee is incurred, and receive a return fee if a return fee is incurred.

The electronic device powered through the electric socket 100 according to an embodiment of the present invention may include a user identifier (ID). The communicator 135 may receive a user identifier from the electronic device. Receiving a user identifier from the electronic device, the electronic device is located within a predetermined radius of the electrical socket 100 according to an embodiment of the present invention, when the user requests the power supply, the electronic device may transmit the user identifier . In particular, when the electronic device is connected to the power connection pin 105 of the electric socket 100, the electronic device may automatically transmit a user identifier.

Or, if the electronic device transmits a user identifier request, the electronic device may transmit the user identifier to the electric socket 100 according to an embodiment of the present invention. The request of the user identifier transmission to the electronic device may be performed through the electric socket 100 according to an embodiment of the present invention, or the user identifier transmission request may be input to the electronic device itself. The request for transmission of the user identifier to the electronic device may be automatically performed when the electronic device is located within a predetermined radius of the electric socket 100 according to the embodiment of the present invention. In particular, when the electronic device is connected to the power connection pin 105 of the electrical socket 100 can be performed automatically.

In addition, the power supply approval code may further include a user identifier of the electronic device capable of supplying power through the electric socket 100. As such, when the power supply approval code further includes a user identifier of an electronic device capable of supplying power through the electric socket 100, the current supply control port 140 may be a user of the electronic device included in the power supply approval code. The relay switch 115 may be controlled to compare the identifier with the user identifier received from the electronic device and to supply power to the electronic device from the power supply S if the comparison result is matched.

The microprocessor 145 may control the components constituting the electric socket 100 to operate the electric socket 100. The microprocessor 145 is a control module that controls the overall operation of the electric socket 100, and may control the storage unit 130, the communication unit 135, and the current supply control port 140 to perform their respective functions. . In addition, the microprocessor 145 may perform both calculation and data processing procedures such as comparing and determining input data values.

The AC-DC converter 155 converts the electric power supplied from the power supply source S into direct current and supplies it to the internal circuit of the electric socket 100. Through the AC-DC converter 155, the electric socket 100 may be operated using the converted direct current.

The battery 150 may store the DC power converted through the AC-DC converter 155. That is, the battery 150 has a charging function, and even if power is not supplied from the power supply S, the electric socket 100 according to an embodiment of the present invention may be operated using the charged power.

The display unit 160 is located on one surface of the outside of the electric socket 100, and displays the amount of power supplied and the power supply time.

The operation supply indicator 165 indicates whether power can be supplied to the electronic device. For example, when the actuation supply indicator turns on, it can be recognized that power can be supplied to the electronics.

The power supply indicator 170 indicates whether electric power is being supplied to the electronic device. For example, when the power supply indicator 170 is turned on, it may be recognized that power is supplied to the electronic device.

Referring to Figure 3, looks at the structure in which the electric socket 100 according to an embodiment of the present invention is used.

The external device 200 in which the application or program for executing the electric power supply through the electric socket 100 according to an embodiment of the present invention is executed is wired or wirelessly communicated to the electric socket 100. You can request a power supply. In response to the request, the electric socket 100 may transmit the unique identification code of the electric socket 100 stored in the storage 130 to the external device 200 that has requested the power supply. The external device 200 having received the unique identification code of the electric socket 100 transmits it to the dedicated service server 400 to query the information about the electric socket 100. Through this, the external device 200 may obtain information about the electric socket 100 and information about the power supplied through the electric socket 100. For example, the validity and location of the electric socket 100, an electric charge, a discount, and sale information can be obtained. The external device 200 having obtained such information requests the user to make a payment to the dedicated service server 400. That is, the external device 200 receives the power supply amount and the payment means, transmits the input power supply amount and the payment means and the unique identification code of the electric socket 100 to the dedicated service server 400, and requests a payment. do.

The dedicated service server 400 transmits the payment approval request to the payment institution server 500 corresponding to the payment means to process the payment. In addition, when the dedicated service server 400 transmits the payment processing result to the external device 200, the dedicated service server 400 also transmits a power supply approval code. The external device 200 transmits the power supply approval code to the electric socket 100, and the electric socket 100 receiving the power supply source is the power supply approval code if the received power supply approval code is the power supply approval code. Power is supplied to the electric socket 100 from (S). When power is supplied to the electric socket 100 from the power supply S, the electronic device 300 may be connected to the electric socket 100 to supply power. At this time, the dedicated service server 400 and the electric socket 100 has the same encryption system, and the power supply approval code may be encrypted and transmitted.

4 is a flowchart illustrating a power supply method through an electric socket according to an embodiment of the present invention. 1 to 4, look at the power supply method through the electric socket according to an embodiment of the present invention.

In operation 400, the electric socket 100 receives a power supply request from an external device 200. Here, the external device 200 may be a device in which an application or a program for executing power supply through the electric socket 100 according to an embodiment of the present invention is executed.

In operation 410, the electric socket 100 transmits a unique identification code of the electric socket 100 to the external device 200 in response to the power supply request. The unique identification code of the electric socket 100 refers to a code that distinguishes the electric socket 100 from other electric sockets 100, and there may be one identification code for each electric socket 100. The external device 200 may query the unique identification code of the electric socket 100 to obtain information about the electric socket 100 and information about the power supplied through the electric socket 100.

In step 420, the electric socket 100 receives the power supply approval code from the external device 200 that received the unique identification code. The power supply approval code may include an amount of power or a power supply time supplied through the power connection pin 105 of the electric socket 100. In addition, the electronic socket 100 may further include a user identifier (ID) of the electronic device 300 that can receive power.

In step 430, the electric socket 100 controls the relay switch 115 to supply power to the electronic device 300 according to the received power supply approval code. The electric socket 100 inquires whether the received power supply approval code is an approved approval code, and if the approved approval code is supplied, power is supplied to the electronic device 300 through the power connection pin 105 from the power supply source S. The relay switch 115 is controlled so as to. In the case of controlling the relay switch 115, the electric socket 100 adjusts whether the relay switch 115 is opened or closed according to the amount of power included in the power supply approval code or the power supply time. In addition, the electric socket 100 measures the amount of power or power supply time actually supplied to the electronic device 300, the amount of power or the amount of power included in the power supply time and power supply time or power supply After comparing the time, the relay switch 115 can be controlled according to the difference. At this time, the measured amount of power or power supply time may be transmitted to the external device 200 or displayed on the electric socket 100.

In addition, when the user identifier of the electronic device 300 is received from the electronic device 300 and the user identifier of the electronic device 300 included in the power supply approval code matches, the relay is supplied to supply power to the electronic device 300. The switch 115 may be controlled.

When the electrical socket 100 senses an overcurrent flowing from the power supply S to the electronic device 100 through the power connection pin 105, the electric socket 100 blocks the current flowing from the power supply S to the electronic device 100. Can be.

As such, according to the power supply method through the electric socket according to an embodiment of the present invention, only the user who is allowed to use the electricity can use the electricity, and the owner of the electricity can easily manage and sell the electricity.

Method according to an embodiment of the present invention can be implemented in the form of program instructions that can be executed by various computer means may be recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.

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.

Claims (20)

A power connection pin having a structure in which an electric plug of an electronic device can be inserted and capable of supplying power to the electronic device; A relay switch connecting a power supply to the power connection pin and controlling power supplied from the power supply to the power connection pin; A storage unit for storing a unique identification code; In response to a power supply request of an external device, the stored unique identification code is transmitted to the external device, and a power supply approval code is received from an external device that has received the unique identification code. Communication unit for performing communication; A current supply control port controlling whether the relay switch is opened or closed and opening / closing time according to the received power supply approval code; And And a microprocessor for controlling the storage unit, the communication unit, and the supply control port. The method of claim 1, wherein the current supply control port And if the power supply approval code is a permitted approval code, controlling the relay switch to supply power to the power connection pin from the power supply source. According to claim 1, wherein the power supply approval code is An amount of power supplied through the power connection pin or a power supply time; The current supply control port is an electric socket for controlling the opening and closing time and opening and closing time of the relay switch in accordance with the amount of power or the power supply time. The power supply approval code of claim 3, wherein Further comprising a user identifier of the electronic device, The communication unit receives a user identifier of the electronic device from the electronic device, The microprocessor determines whether the user identifier of the electronic device included in the power supply approval code matches the user identifier received from the electronic device, And the current supply control port controls the relay switch to supply power to the electronic device from the power supply in response to a control signal received from the microprocessor. The method of claim 3, wherein And a current sensor for measuring an amount of power or a power supply time of the electric power supplied from the electric power supply to the electronic device when the electric power is supplied from the electric power supply source. The method of claim 5, wherein the microprocessor Comparing the amount or power supply time of the power supplied to the electronic device with the current sensor with the amount or power supply time included in the current supply approval code, And the current supply control port controls whether the relay switch is opened or closed and opening / closing time according to a control signal received from the microprocessor based on the comparison result. The method of claim 5, wherein the communication unit An electric socket for transmitting the amount of power or the power supply time measured by the current sensor to the external device. The method of claim 1, And a malfunction detection sensor for blocking an electric current flowing from the power supply to the electronic device when sensing an overcurrent flowing from the power supply to the power connection pin. The method of claim 1, And a display unit for displaying the amount of power supplied to the electronic device or the power supply time. The method of claim 1, And an opening and closing cover which can cover the power connection pin. The method of claim 1, The communication unit comprises a wired communication module for performing wired communication with the external device and a wireless communication module for performing a wireless communication with the external device. The method of claim 1, And a battery for storing power supplied from the power supply, wherein the electrical socket uses the power stored in the battery. The method of claim 1, And an AC-DC converter for converting and supplying an AC current supplied from the power supply to a DC current. In the power supply method through the electric socket, Receiving a power supply request from an external device; Transmitting a unique identification code of the electric socket to the external device in response to the power supply request; Receiving a power supply approval code from the external device; And And controlling the relay switch to supply power to the electronic device through a power connection pin from a power supply source, if the received power supply approval code is a permitted approval code. The method of claim 14, The power supply approval code includes the amount of power or the power supply time supplied through the power connection pin, The controlling of the relay switch may include: supplying power through an electric socket to control the relay switch according to the amount of power or a power supply time. The method of claim 14, The power supply approval code further includes a user identifier of the electronic device, Receiving a user identifier of the electronic device from the electronic device, The controlling of the relay switch may include: when the unique identification code of the electronic device included in the power supply approval code and the unique identification code received from the electronic device match, the electronic switch through the power connection pin from the power supply source. And a power socket for controlling the relay switch to supply power to the device. The method of claim 15, And measuring a power supply time or an amount of power supplied to the electronic device from the power supply source. The method of claim 17, And displaying the measured amount or power supply time of the electric power. The method of claim 17, And comparing the measured amount or power supply time with the amount or power supply time included in the power supply approval code, and controlling the relay switch according to a comparison result. The method of claim 14, And detecting an overcurrent flowing from the power supply to the electronic device through the power connection pin, and cutting off the current flowing from the power supply to the electronic device.

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