KR20200116218A - Apparatus and method for managing electric machinery - Google Patents

Abstract

An electric equipment management device is connected, through a network, to measuring devices including a first measuring unit connected to power lines of each sample electric equipment and a second measuring unit connected to a light source attached to each of the sample electric equipment. The electric equipment management device comprises: a device information receiving unit which receives product information including product model names of each of the sample electric equipment from a user terminal used by a user of each of the sample electric equipment; a current consumption receiving unit which receives the current consumption of each of the sample electric equipment measured from the first measuring unit of each of the measuring devices in real time; and a light measurement value receiving unit which receives a measurement value of light output from the light source of each of the measurement devices measured from the second measurement unit of each of the measurement devices in real time. When an abnormality occurs in the current consumption and the measured value of the light, the device quickly informs the user of the electric equipment about the abnormality.

Description

Electric equipment management apparatus and method {APPARATUS AND METHOD FOR MANAGING ELECTRIC MACHINERY}

The present invention relates to an electric device management apparatus and method, and more particularly, by analyzing the current consumption of the electric device and the measured value of light output from the electric device, providing information on the corresponding electric device, and the current consumption and the measured value of light The present invention relates to an electric device management apparatus and method for promptly notifying a user of an electric device when an abnormality occurs.

Today, people use a large number of electrical devices either at home or at work. With the use of so many electrical devices, there is a high probability that the management of whether these electrical devices operate normally is naturally neglected. In particular, in the case of integrated management of electrical devices installed in a building, it is often difficult to immediately identify what kind of problems occur in each electrical device. Accordingly, in the present specification, an apparatus and a method capable of efficiently managing a plurality of electric devices by receiving and analyzing measured values of current consumption and light in real time are provided.

[Prior literature]

Unexamined Patent Publication 10-2017-0138172

The present invention relates to an electric device management apparatus and method, and more particularly, by analyzing the current consumption of the electric device and the measured value of light output from the electric device, providing information on the corresponding electric device, and the current consumption and the measured value of light The present invention relates to an electric device management apparatus and method for promptly notifying a user of an electric device when an abnormality occurs.

A first measurement unit connected to a power line of each of the sample electric devices according to an embodiment of the present invention, a second measurement unit connected to a light source attached to each of the sample electric devices, and the sample electric device. An electric device management device that is attached and connected to a network with measurement devices including a third measuring unit that senses the temperature of heat generated from the sample electric devices is provided with the sample electricity from a user terminal used by each user of the sample electric devices. A device information receiving unit that receives product information including product model names of each of the devices and identification codes of measurement devices connected to each of the sample electric devices, and the measured from the first measurement unit of each of the measurement devices A current consumption receiving unit that receives the current consumption of each of the sample electric devices in real time, and a measurement value of the light output from the light source of each of the sample electric devices measured from the second measuring unit of each of the measuring devices is received in real time. Based on the product information, the sample electrical devices are classified among products having the same product model name, and the identification codes of the measuring devices connected to each of the classified sample electrical devices are classified as the sample. A first group forming unit that matches and classifies electrical devices to form a first group, and a measured value of current consumption and light in the first group based on the current consumption of the sample electrical devices and the measured value of the light It includes a second group forming portion for forming a second group by classifying products included in the similar range.

In the electric device management apparatus according to an embodiment of the present invention, the current consumption receiving unit further receives the current consumption of the new electric device from a first measuring unit connected to a new electric device other than the sample electric devices, and the broader The measurement value receiving unit further receives a measurement value of light output from the light source of the new electric device from a second measurement unit connected to the new electric device, and the device information receiving unit receives the measurement value from the terminal of the user who uses the new electric device. Further comprising a first group extracting unit for further receiving the product model name of the new electric device and the identification code of the measuring device connected to the new electrical device, and extracting second groups including the measured values of current consumption and light of the new electric device And, the measured value of the light includes an output amount of light and the number of times of blinking according to the time of the light.

The electric device management apparatus according to an embodiment of the present invention includes a second group extracting unit for extracting a second group included in a first group in which the new electric device is included among the extracted second groups, and the second group. When there are a plurality of second groups extracted by the group extraction unit, information on the second groups extracted by the second group extraction unit is transmitted to the terminal of the user who uses the new electric device, and the second group When the second group extracted by the group extraction unit is singular, the second group information transmission for transmitting the information on the second group extracted by the second group extraction unit to the terminal of the user using the new electric device Includes more wealth.

In the case of a plurality of second groups extracted by the second group extracting unit, the electric device management apparatus according to an exemplary embodiment of the present invention is configured by the second group extracting unit from the terminal of the user who uses the new electric device. Further comprising a selection signal receiving unit for receiving a selection signal that is a signal for selecting a second group selected from among the extracted second groups, and when there are a plurality of second groups extracted by the second group extraction unit, the The second group forming unit classifies the new electronic devices into a second group corresponding to the selection signal to re-form the second group, and when the second group extracted by the second group extraction unit is a singular number, the second group The new electronic device is classified into a second group extracted by the tea group extraction unit, and a second group is re-formed.

In the electric device management apparatus according to an embodiment of the present invention, at least one of the current consumption and the measured value of light of the abnormal electric device, which is one of the sample electric devices, is a second electric device including the abnormal electric device. When it is out of the similar range corresponding to the group, an abnormal signal transmission unit for generating an abnormal signal and transmitting it to a terminal of a user using the abnormal electric device is further included.

The electric device management apparatus according to an embodiment of the present invention transmits an abnormal signal when the temperature of heat generated from an abnormal electric device, which is one of the sample electric devices, is outside the safe temperature range included in the product information. It further comprises an abnormal signal transmission unit for generating and transmitting to the terminal of the user using the abnormal electric device.

Measurement devices and network including a first measurement unit connected to a power line of each of the sample electric devices according to an embodiment of the present invention and a second measurement unit connected to a light source attached to each of the sample electric devices The electrical device management method that is linked to and manages the sample devices includes a product model name of each of the sample electrical devices and measurement devices connected to each of the sample electrical devices from a user terminal used by a user of each of the sample electrical devices. Receiving product information including information on an identification code, receiving in real time current consumption of each of the sample electric devices measured from the first measuring unit of each of the measuring devices, each of the measuring devices Receiving in real time a measurement value of light output from the light source of each of the sample electrical devices measured from the second measuring unit of, based on the product information, the sample electrical devices have the same product model name Classifying each other, matching identification codes of the measuring devices connected to each of the classified sample electrical devices with the classified sample electrical devices to form a first group, the current consumption of the sample electrical devices, and And forming a second group by classifying products in which the current consumption and the measured value of light are within a similar range within the first group based on the measured value of light.

In the electric device management method according to an embodiment of the present invention, in the step of receiving the current consumption of each of the sample electric devices in real time, the new electricity from a first measuring unit connected to a new electric device other than the sample electric devices In the step of further receiving the current consumption of the device and receiving the measured value of the light output from the light source of each of the measuring devices in real time, output from the light source of the new electrical device from the second measuring unit connected to the new electrical device In the step of further receiving the measured value of the light and receiving the product information, a product model name of the new electric device and an identification code of a measuring device connected to the new electric device are further received from a terminal of a user who uses the new electric device. And first extracting second groups including the current consumption of the new electric device and the measured value of light, wherein the measured value of light includes an output amount of light and a number of flickers according to time of the light.

The electric device management method according to an embodiment of the present invention comprises the steps of secondarily extracting a second group included in a first group in which the new electric device is included from among the first extracted second groups, and the second group When there are a plurality of second groups extracted in the extracting step, the information on the second groups extracted in the second extracting step is transmitted to the terminal of the user using the new electric device, and the second extracting is performed. If the second group extracted in the step is a singular number, transmitting the information on the second group extracted in the second extracting step to a terminal of a user using the new electric device.

In the electric device management method according to an embodiment of the present invention, when the second group extracted in the second extracting step is plural, the second group extracted in the second extracting step from the terminal of the user using the new electric device Receiving a selection signal that is a signal for selecting a second group selected from among the second groups, and when there are a plurality of second groups extracted in the second extraction step, a second group corresponding to the selection signal is Reforming a second group by classifying the new electronic device, and when the second group extracted in the second extracting step is a singular number, the new electrons are added to the second group extracted in the second extracting step. And re-forming the second group by classifying the devices.

Through the electric device management apparatus of the present invention, data of the current consumption and the measured value of light of each of the sample electric devices are collected and classified among devices within a similar range, and the data of the current consumption and the measured value of the light of the new electric device is received. Then, by re-forming the classified group, a group of electric devices having the same measured value is formed, and the operation of each of the plurality of electric devices is performed by checking the device operation (current consumption and light measured value) for each group. It is possible to efficiently manage whether it is working normally.

1 is a schematic diagram showing an electric device management system according to an embodiment of the present invention.
2 is a block diagram of a parking electric device management apparatus according to an embodiment of the present invention.
3A is a block diagram of a group forming unit according to an embodiment of the present invention.
3B is a block diagram of a group extracting unit according to an embodiment of the present invention.
4 is a flowchart of a method for managing an electric device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part is said to be "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element interposed therebetween. . In addition, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. Refer to the accompanying drawings. Hereinafter, the present invention will be described in detail.

1 is a schematic diagram illustrating an electric device management system 1000 according to an embodiment of the present invention.

Referring to FIG. 1, an electrical device management system 1000 according to an embodiment of the present invention includes an electrical device 310, a measuring device 200, a user terminal 300, a measuring device 200, and a user terminal 300. ) And the electric device management device 100 connected to the network 400.

The electric device 310 may be a device driven through electric power. For example, the electric device 310 may be a computer, a TV, or a refrigerator. However, the present invention is not limited thereto, and the electric device 310 may include various types of devices.

The user terminal 300 may be a terminal of a user who uses the electric device 310. The user terminal 300 may be a smartphone. However, the present invention is not limited thereto, and the user terminal 300 may include an electronic device such as a general desktop computer, a navigation system, a notebook computer, a digital broadcasting terminal, a personal digital assistant (PDA), a portable multimedia player (PMP), and a tablet PC. An electronic device may have one or more general or special purpose processors, memory, storage, and/or networking components (wired or wireless).

In the present invention, the measurement device 200 may be a device that measures a value output from the electric device 310. In more detail, the measuring device 200 includes a first measuring unit (not shown) connected to the power line of the electric device 310 by wire, and the light source attached to the electric device 310 by wire. A second measurement unit (not shown) and a third measurement unit (not shown) attached to the electric device 310 to detect a temperature of heat generated from the electric device may be included.

The first measurement unit may be connected to the power line of the electric device 310 to measure the current consumption of the electric device 310 in real time.

The second measurement unit may measure a measurement value of light output from the light source of the electric device 310 in real time. The measurement value of light may include an output amount of light and a number of times of blinking according to the time of the light.

Values measured by the first measurement unit, the second measurement unit, and the third measurement unit will be additionally described in FIG. 2.

The electric device management apparatus 100 may receive information from the measurement device 200 through the network 400 and may always transmit and receive information with the user terminal 300 based on the received information. For example, the electric device management apparatus 100 may be a server. The electric device management apparatus 100 receives data on the aforementioned measurement values from the measurement device 200 electrically connected to the electric device 310 of the user who uses the measurement device service, and receives information on the received data value. Various information may be generated and provided to the user terminal 300 as a basis.

The electric device management apparatus 100 will be described in more detail in FIG. 2.

The communication method of the network 400 is not limited, and examples of the communication network that the network 400 may include include not only a mobile communication network, a wired online, a wireless online, a communication method using a broadcasting network, but also short-range wireless communication between devices. Can be included. For example, the network 400 includes a personal area network (PAN), a local area network (LAN), a campus area network (CAN), a metropolitan area network (MAN), a wide area network (WAN), and a broadband network (BBN). , Online, and the like, any one or more of the networks 400.

2 is a block diagram of an electric device management apparatus 100 according to an embodiment of the present invention, FIG. 3A is a block diagram of a group forming unit 104 according to an embodiment of the present invention, and FIG. 3B is It is a block of the group extracting unit 105 according to an embodiment of, and FIG. 4 is a flow chart of a method for managing the electric device 310 according to an embodiment of the present invention.

2 to 4, the electric device management apparatus 100 includes a device information receiving unit 101, a current consumption receiving unit 102, a light measurement value receiving unit 103, a group forming unit 104, and a group extracting unit 105. ), a second group information transmission unit 106, a selection signal reception unit 107, and an abnormal signal transmission unit 108.

The device information receiving unit 101 includes a product model name (product name and product detail information) and electrical devices 310 of each of the electrical devices 310 from the user terminal 300 used by each user of the electrical devices 310. Product information including information on identification codes of each of the measuring devices 200 connected to each other may be received (S41).

The user may use the measurement device service for the electric device 310 used by the user, and when the measurement device service is used, the measurement device 200 may be connected to the electric device 310. At this time, the user has a product model name for the electric device 310 used by the user through an application installed in the user terminal 300 and an identification code of the measuring device 200 connected to the electric device 310 (e.g., product number ) May be input, and the input product information may be transmitted to the device information receiving unit 101.

The current consumption receiver 102 may receive in real time the current consumption of each of the electric devices 310 measured from the first measurement unit of the measurement device 200 mentioned in FIG. 1 (S42)

For example, since the current consumption receiving unit 102 receives the current consumption of the electric device 310 in real time, when the electric device 310 is in the standby mode, the user is actually using the electric device 310, etc. You can receive the current consumption according to the state of.

The light measurement value receiving unit 103 may receive in real time a measurement value of light of each of the electric devices 310 measured from the second measurement unit of the measurement device 200 mentioned in FIG. 1 (S43).

Since the light measurement value receiving unit 103 receives the measured value of light of the electric device 310 in real time, the electric device 310 is in the standby mode, the user is actually using the electric device 310, etc. It is possible to receive a measurement value of light according to the state (including the amount of light output, the number of times the light flickers, etc.).

The group forming part 104 may include a first group forming part 131 and a second group forming part 132.

The first group forming part 131 is Based on product information, electrical devices 310 are classified among products having the same product model name, and the identification codes of measurement devices 200 connected to each of the classified electrical devices 310 are classified as electrical devices. The first group may be formed by matching with 310 to form a first group. (S44) For example, the first group forming unit 131 classifies refrigerators among refrigerators and TVs among TVs, and classified electrical devices. (310) A first group may be formed by matching and classifying identification codes of measurement devices 200 connected to each of them.

The second group forming unit 132 classifies products in which the current consumption and the measured value of light are within a similar range within the first group based on the current consumption and the measured value of light of the electric devices 310, (S45) For example, in refrigerators formed as a refrigerator group (first group) by the first group forming unit 131, the current consumption and the measured value of light may be set in a similar range (arbitrarily). Refrigerators included in the range) may be classified to form a second group.

In order to form the first group and the second group, information on a certain number of sampled electric devices 310 must be collected. Accordingly, the process of forming the first group and the second group described so far may be based on the assumption that a certain number of samples of the electric devices 310 are secured. Therefore, as mentioned above, the electric device 310 that is a sample for forming the first group and the second group will be referred to as a sample electric device 310 below, and the description will be continued.

After the first group and the second group are formed, information on a new electric device (not shown) may be further received. This may be a case where a user using a new electric device uses the measurement device service. In this case, the current consumption receiving unit 102 further receives the current consumption of the new electric device from the first measuring unit connected to the new electric devices other than the sample electric devices 310, and the optical measurement value receiving unit 103 is A measurement value of light output from the light source of the new electric device is further received from a second measuring unit connected to the electric device, and the device information receiving unit 101 includes a product model name and a product model name of the new electric device from a terminal of a user who uses the new electric device. The identification code of the measuring device (not shown) connected to the new electric device may be further received.

The group extracting unit 105 may include a first group extracting unit 141 and a second group extracting unit 142.

The first group extracting unit 141 may extract second groups including the measured current consumption of the new electric device and the measured value of light (S46). The number of extracted groups may be singular or plural.

The second group extraction unit 142 may extract a second group included in the first group in which the new electric device is included (S47). For example, a new electric device is a refrigerator, and a new electric device is a first group. There are three second groups extracted by the primary group extraction unit 141, two of the three are a second group with a refrigerator as the first group, and one is 2 when the TV is the first group. The difference group extracting unit 142 may extract the remaining two TVs except for the second group in the first group.

When there are a plurality of second groups extracted by the second group extracting unit 142, the second group information transmitting unit 106 transmits information on the second groups extracted by the second group extracting unit 142. When the second group extracted by the secondary group extraction unit 142 is singular and transmitted to the terminal of the user who uses the new electric device, the second group extracted by the secondary group extraction unit 142 is Information can be transmitted to the user's terminal using the new electric device (S48).

As described above for example, when the new electric device is a refrigerator and there are two second groups extracted by the second group extraction unit 142, information on each of the extracted second groups (including the product model name) Detailed information) may be transmitted to the user terminal 300 of a user who uses a new electric device. In this case, the user may check information on the two second groups through the application of the user terminal 300 and select a second group that matches his or her new electric device. The selection signal receiver 107 may receive a selection signal generated by a user's selection.

Conversely, unlike previously described for example, if the new electric device is a refrigerator and the second group extracted by the second group extraction unit 142 is one, the information on the second group is a user who uses the new electric device. It can be transmitted to the terminal 300.

As a result of this process, a second group to be included in the new electric device may be determined. When there are a plurality of second groups extracted by the second group extracting unit 142, the second group forming unit 132 re-forms the second group by classifying the new electronic devices into the second group corresponding to the selection signal. And, when the second group extracted by the second group extraction unit 142 is singular, the second group is re-formed by classifying the new electronic devices into the second group extracted by the second group extraction unit 142 As a result, a new electric device may be newly included in the sample electric device 310 described above.

In this way, through the electric device management apparatus 100, data of the current consumption and the measured value of light of each of the sample electric devices 310 are collected and classified among devices within a similar range, and the current consumption and the measured value of the light of the new electric device By receiving data of and re-forming the classified group, a group of electric devices 310 having the same measured value is formed, and the operation of the device (current consumption and measured value of light) is checked for each group. It is possible to efficiently manage whether an operation is normally performed for each of the devices 310.

The abnormal signal transmission unit 108 generates an abnormal signal when any one of the sample electric devices 310 does not operate normally (such an electric device is referred to as an abnormal electric device hereinafter), and the user's terminal using the abnormal electric device. It can transmit abnormal signals.

More specifically, if at least one of the current consumption of the abnormal electric device and the measured value of light is out of a similar range corresponding to the second group in which the abnormal electric device is included, this means that the abnormal electric device is not operating properly. It can be seen that it is not in a state. For example, if the current consumption when the abnormal electric device is in the standby mode is out of the current consumption range corresponding to the second group in which the abnormal electric device is included, it indicates that the abnormal electric device is currently performing an incorrect operation. It can mean. In this case, the abnormal signal transmission unit 108 may generate an abnormal signal and transmit it to the terminal of the user using the abnormal device, and the user checks the abnormal signal through an application installed in the terminal, and takes appropriate measures for the abnormal electric device. You can take it.

In addition, the abnormal signal transmission unit 108 determines the safe temperature range in which the temperature of heat generated from the abnormal electric device, which is one of the sample electric devices 310 measured by the third measuring unit, is described in the product information. In case of deviation, an abnormal signal can be generated and transmitted to a terminal of a user who uses the abnormal electric device, and the user can check the abnormal signal through an application installed in the terminal to prevent a fire that may occur in the abnormal electric device.

The above-described embodiments are for illustrative purposes only, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You can understand. Therefore, it should be understood that the above-described embodiments are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims to be described later rather than the detailed description, and should be interpreted as including all changes or modified forms derived from the meaning and scope of the claims and the concept of equivalents thereof.

101: device information receiving unit 104: group forming unit
102: current consumption receiving unit 105: group extraction unit
103: light measurement value receiving unit 106: second group information transmitting unit

Claims (10)

A first measurement unit connected to a power line of each of the sample electric devices, a second measurement unit connected to a light source attached to each of the sample electric devices, and a sample electric device attached to the sample electric device. In the electrical device management device linked through a network with measuring devices including a third measuring unit for sensing the temperature of the heat generated,
Device information for receiving product information including information on product model names of each of the sample electrical devices and identification codes of measuring devices connected to each of the sample electrical devices from a user terminal used by a user of each of the sample electrical devices Receiver;
A current consumption receiver configured to receive the current consumption of each of the sample electric devices measured from the first measuring unit of each of the measuring devices in real time;
A light measurement value receiver configured to receive in real time a measurement value of light output from the light source of each of the sample electric devices measured from the second measurement unit of each of the measurement devices;
Based on the product information, the sample electrical devices are classified among products having the same product model name, and the identification codes of the measuring devices connected to each of the classified sample electrical devices are matched with the classified sample electrical devices. A first group forming unit for classifying and forming a first group; And
A second group forming unit for forming a second group by classifying products in which the current consumption and the measured value of light are within a similar range within the first group based on the current consumption and the measured value of the light of the sample electric devices Electrical appliance management device including. The method of claim 1,
The current consumption receiving unit further receives the current consumption of the new electric device from a first measuring unit connected to new electric devices other than the sample electric devices, and the light measurement value receiving unit is a second connected to the new electric device. A measurement value of light output from the light source of the new electric device is further received from the measurement unit, and the device information receiving unit is connected to the product model name of the new electric device and the new electric device from the terminal of the user who uses the new electric device. Further receive the identification code of the measuring device,
Further comprising a first group extracting unit for extracting second groups including the current consumption of the new electric device and the measured value of light,
The measured value of light includes an output amount of light and a number of times of blinking according to time of the light. The method of claim 2,
A second group extracting unit for extracting a second group included in a first group in which the new electric device is included from among the extracted second groups; And
When there are a plurality of second groups extracted by the secondary group extraction unit, information on the second groups extracted by the secondary group extraction unit is transmitted to a terminal of a user using the new electric device, When the second group extracted by the secondary group extracting unit is a singular number, a second transmitting information on the second group extracted by the secondary group extracting unit to the terminal of the user using the new electric device Electric device management apparatus further comprising a group information transmission unit. The method of claim 3,
When there are a plurality of second groups extracted by the secondary group extraction unit, one second group selected from the second groups extracted by the secondary group extraction unit from the terminal of the user using the new electric device Further comprising a selection signal receiving unit for receiving a selection signal that is a signal for selecting,
When there are a plurality of second groups extracted by the secondary group extracting unit, the second group forming unit classifies the new electronic devices into a second group corresponding to the selection signal to re-form a second group,
When the second group extracted by the secondary group extracting unit is a singular number, the new electronic device is classified into a second group extracted by the secondary group extracting unit, and a second group is re-formed. Electric appliance management device. The method of claim 1,
When at least one of the current consumption and the measured value of light of the abnormal electric device, which is any one of the sample electric devices, is out of a similar range corresponding to the second group in which the abnormal electric device is included, an abnormal signal is generated. Electric device management apparatus further comprising an abnormal signal transmission unit for generating and transmitting to the terminal of the user using the abnormal electric device. The method of claim 1,
When the temperature of the heat generated from the abnormal electric device, which is one of the sample electric devices, is outside the safe temperature range included in the product information, an abnormal signal is generated to the terminal of the user who uses the abnormal electric device. Electrical device management apparatus further comprising an abnormal signal transmission unit for transmitting. The sample electric devices are connected through a network with measurement devices including a first measurement unit connected to the power line of each of the sample electric devices and a second measurement unit connected to a light source attached to each of the sample electric devices. In the management method for managing electrical equipment,
Receiving product information including information on product model names of each of the sample electrical devices and identification codes of measuring devices connected to each of the sample electrical devices from a user terminal used by a user of each of the sample electrical devices;
Receiving the current consumption of each of the sample electric devices measured from the first measuring unit of each of the measuring devices in real time;
Receiving a measured value of light output from the light source of each of the sample electric devices measured by the second measuring unit of each of the measuring devices in real time;
Based on the product information, the sample electrical devices are classified among products having the same product model name, and the identification codes of the measuring devices connected to each of the classified sample electrical devices are matched with the classified sample electrical devices. Classifying to form a first group;
Electricity comprising the step of forming a second group by classifying products in which the current consumption and the measured value of light are within a similar range within the first group based on the current consumption and the measured value of the light of the sample electric devices How to manage your device. The method of claim 7,
In the step of receiving the current consumption of each of the sample electric devices in real time, further receiving the current consumption of the new electric device from a first measuring unit connected to a new electrical device other than the sample electrical devices, and the measuring devices In the step of receiving the measured value of the light output from each of the light sources in real time, the measured value of the light output from the light source of the new electric device is further received from a second measuring unit connected to the new electric device, and the product information In the receiving step, further receiving a product model name of the new electrical device and an identification code of a measuring device connected to the new electrical device from a terminal of a user who uses the new electrical device,
Further comprising the step of first extracting second groups including the current consumption of the new electric device and the measured value of light,
The measurement value of light includes an output amount of light and a number of times of blinking according to time of the light. The method of claim 8,
Secondly extracting a second group included in a first group in which the new electric device is included from among the first extracted second groups; And
When there are a plurality of second groups extracted in the second extracting step, information on the second groups extracted in the second extracting step is transmitted to the terminal of the user using the new electric device, and the second When the second group extracted in the step of extracting the difference is a singular number, the step of transmitting information on the second group extracted in the step of extracting the second step to a terminal of a user using the new electric device How to manage your device. The method of claim 9,
When there are a plurality of second groups extracted in the second extracting step, one second group selected from the second groups extracted in the second extracting step is selected from the terminal of the user using the new electric device Receiving a selection signal, which is a signal to perform;
When there are a plurality of second groups extracted in the second extracting step, re-forming a second group by classifying the new electronic device into a second group corresponding to the selection signal; And
When the second group extracted in the second extracting step is a singular number, the step of re-forming the second group by classifying the new electronic device into the second group extracted in the second extracting step How to manage your device.

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