KR101325133B1 - System for recognizing electric apparatus using usage pattern of electric power and device thereof - Google Patents

Abstract

Disclosed are a monitoring system for recognizing an electronic device using a power usage pattern and a device thereof. The system for monitoring the power usage of electronic devices comprises a smart socket which supplies power to a connected electronic device and generates power usage pattern information including sensing information about at least two among the standby current, the maximum current, the minimum current, and the number of vibrations of the electronic device; and a monitoring device which analyzes the power usage pattern information received from the socket through a network and identifies the type of the electronic device. The monitoring system by the present invention monitors the power usage by electronic device by analyzing a pattern for the power usage of the electronic device connected to the socket and automatically recognizing the type or model of the corresponding electronic device. [Reference numerals] (40) Network;(50) Monitoring device

Description

System for recognizing electric apparatus using usage pattern of electric power and device

The present invention relates to electronic device recognition, and more particularly, to a monitoring system and an apparatus therefor for recognizing a type of a device by analyzing a power usage pattern of an electronic device using power.

Currently, various types of electronic devices such as TVs, refrigerators, computers, water purifiers, and lamps are generally used in each home or office. Recently, research and development on a smart home system connected to a network in various electromagnetic periods have been actively carried out. Home networking is a network between various electronic devices in the home. In the home, electronic devices such as a refrigerator, a smart TV, a television, a personal terminal (for example, a smart phone, a tablet PC, This means establishing an environment that enables mutual communication through the network and interconnection via the Internet from the outside.

One of the important issues in these smart home systems is to enable the efficient use of electronic devices. For example, most users use a variety of electronic devices connected to an outlet, and there is a problem in that the standby power is consumed because a large amount of electricity is consumed even when the electronic device is not in use. It will save a lot of energy every year.

To this end, there is a need for a system for monitoring the power usage of various electronic devices. In particular, for accurate monitoring, it is necessary to monitor not only the total power usage of all electronic devices, but also the power usage and usage patterns of each of the electronic devices.

In order to monitor the power consumption of each of these electronic devices, the monitoring system must know what kind (or type) of electronic devices connected to each outlet. In the related art, a manager who builds a home system directly inputs information on electronic devices connected to each outlet as a monitoring system. According to this, as well as inconvenience caused by the administrator's input of the electronic device information, when the user connects the power cord of the electronic device to another outlet, it becomes difficult to accurately monitor.

Accordingly, the present invention has been made to solve the above-described problems, in order to monitor the power usage for each electronic device, by analyzing the pattern of the power usage of the electronic device connected to the outlet to recognize the type or model of the electronic device To provide a monitoring system and apparatus therefor.

Other objects of the present invention will become more apparent through the following preferred embodiments.

According to an aspect of the invention, in the system for monitoring the power usage of the electronic devices, the power supply to the connected electronics, and sensing at least two or more of the standby current, the maximum current, the minimum current and the frequency of the electronic device A smart outlet for generating power usage pattern information including information; And a monitoring device for analyzing the power usage pattern information received through the network from the smart outlet to identify the type of the electronic device.

Here, the smart outlet may generate the power usage pattern information when the electronic device is connected and starts to supply power, and the monitoring device uses a standby current to supply power to the electronic device. The power saving corresponding to can be calculated.

In addition, the monitoring device may identify the type and model of the electronic device by searching for a database connected through a network and obtaining information on a device having a pattern most similar to the power usage pattern information.

According to another aspect of the invention, in the monitoring device for monitoring the power use of the electronic devices, the power supply to the connected electronics, at least two or more of the standby current, the maximum current, the minimum current and the frequency of the electronic device A communication module for receiving the power usage pattern information from an outlet device generating power usage pattern information including sensing information; And a control module for analyzing the power usage pattern information to identify the type of the electronic device.

Here, the control module may calculate the saving power corresponding to the period when the power is not supplied to the electronic device by using the standby current.

And, an outlet device for supplying power to the electronic device, comprising: a power supply for supplying power to the connected electronic device; A sensing unit configured to sense at least two or more of standby current, maximum current, minimum current, and frequency of the electronic device when power is supplied to the electronic device through the power supply unit; And a communication unit which transmits the sensing information sensed by the sensing unit to a monitoring device connected through a network so that the monitoring device analyzes the sensing information to identify the type of the electronic device.

According to the monitoring system according to the present invention, by analyzing the pattern of the power usage of the electronic device connected to the outlet to automatically recognize the type or model of the electronic device, it is possible to monitor the power usage for each electronic device.

In addition, according to the present invention, when power is supplied to the electronic device, by providing information on the power saved by shutting off the standby power to the user, draw attention to the energy saving of the user of the power by the standby power Waste can be prevented.

1 is a configuration diagram schematically showing a monitoring system for monitoring the power usage of the electronic device according to an embodiment of the present invention.
Figure 2 is a functional block diagram showing the configuration of the outlet device according to an embodiment of the present invention.
3 is a graph illustrating the amount of current used by the electronic device according to an embodiment of the present invention.
4 is a functional block diagram illustrating a configuration of a monitoring apparatus according to an embodiment of the present invention.
Figure 5 is a block diagram illustrating the monitoring information of the electronic device according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout the specification and claims. The description will be omitted.

1 is a block diagram schematically illustrating a monitoring system for monitoring power use of an electronic device according to an embodiment of the present invention.

Referring to FIG. 1, the premise system according to the present embodiment includes electronic devices 10-1, 10-2,..., 10-n, hereafter referred to as 10, an outlet device 30, and a monitoring device 50. ).

The electronic device 10 may be any device that uses electric power such as a refrigerator, a TV, a computer, and the like as illustrated in the drawing. When the electronic device 10 is connected to the outlet device 30, the electric power is supplied, and the power used may be classified into standby power and driving power. For example, in the case of a TV, when the power cord is connected to the outlet device 30, the standby power is used until the power is turned on, and when the power is turned on by the user, the power is used to drive the actual TV function. Standby power refers to the electrical energy consumed by the user in the absence of consciousness regardless of the operation of the device. Standby power consumption is also increasing with the increase in the number of electronic products equipped with a display device that operates with a remote control and indicates the operation status. For example, a copying machine or a video recorder is estimated to have a standby power of 80% of the total power consumed, and the standby power consumption of computers, monitors, printers, facsimiles, washing machines, air conditioners, televisions, DVD players, microwave ovens, many.

The monitoring device 50 thus monitors the power usage of the electronic device 10 that is powered from the outlet device 30. That is, the outlet device 30 is a cord connected to deliver information about the power used by the electronic device 10 that supplies power to the monitoring device 50 through the network, the monitoring device 50 is so Based on the collected information, the standby power consumption, driving power usage, and total power usage of each electronic device 10 are monitored.

In the present embodiment, it is assumed that a plurality of electronic devices are connected to one outlet device 30 such as a multi-tap outlet. However, the present invention is not limited thereto, and power may be supplied to the electronic devices by the plurality of outlet devices 30. It will be apparent to those skilled in the art.

In particular, the monitoring system according to the present embodiment automatically recognizes the type of the electronic device 10 connected to the outlet device 30 to receive power. In other words, when the power cord of the refrigerator is connected to the outlet device 30, the monitoring device 50 recognizes that the electronic device 10 is a refrigerator. To briefly explain the method, the outlet device 30 provides the monitoring device 50 with information on power usage (hereinafter, referred to as power usage pattern information) used by the connected electronic device 10, and the monitoring device. Reference numeral 50 denotes the type and / or model of the electronic device 10 by analyzing the usage pattern for the power used by the electronic device 10 based on the corresponding power usage pattern information. The recognition method will be described later in detail.

In addition, although not shown in the drawings, output means (for example, display means, etc.) for outputting monitoring information on power usage of each electronic device 10 monitored and analyzed by the monitoring device 50 may be further included. have. For example, the output means may be implemented as a display device such as an LCD and included in the monitoring device 50, or may be implemented as a communication means for outputting monitoring information to a user's terminal (for example, a smartphone). It may be.

The network 40 may be implemented as a wired network, or may be implemented as a wireless communication network due to a wireless communication technology such as Zigbee. At present, various wired and wireless network systems are constructed in a specific area (home, company, etc.) such as a home network system, so that a detailed description of the network will be omitted. Of course, according to another example, it will be apparent to those skilled in the art that the outlet device 30 and the monitoring device 50 may transmit and receive data through a short range wireless communication technology (eg, Zigbee or Bluetooth) without a separate network 40.

Hereinafter, the configuration of the outlet device 30 and the monitoring device 50 will be described in detail.

2 is a functional block diagram showing the configuration of the outlet device 30 according to an embodiment of the present invention, Figure 3 is a graph illustrating the amount of current used in the electronic device according to an embodiment of the present invention.

Referring to FIG. 2, the outlet device 30 includes a power supply unit 32, a sensing unit 34, and a communication unit 36.

The power supply unit 32 performs a power supply function to the connected electronic device, which is a function of a basic outlet. When power is supplied to the electronic device through the power supply unit 32, the sensing unit 34 senses a standby current, a maximum current, a minimum current, and a frequency used by the electronic device. The standby current, the highest current, the minimum current, and the frequency sensed by the sensing unit 34 are transmitted by the communication unit 36 to the monitoring device 50. The sensing information will be referred to as power usage pattern information hereinafter. .

Referring to FIG. 3, which graphs the amount of current used by the electronic device to explain the power usage pattern information, when the electronic device receives power from the outlet and uses standby power, the standby current I1 is measured. When the power is turned on, the highest current I3 and the lowest current I2 are measured at a constant period L by the use of an AC voltage. The period may be calculated as a frequency according to a predetermined time.

Accordingly, the sensing unit 34 of the outlet device 30 senses at least two or more of the standby current, the highest current, the lowest current, and the frequency according to the use current amount, and the sensing values sensed by the sensing unit 34 are used for power. The pattern information is transmitted by the communication unit 36 to the monitoring device 50.

Since the amount of current used for each electronic device may be different from each other, the monitoring device 50 may recognize not only the type but also the type of the corresponding electronic device by using the standby current, the highest current, the lowest current, and the frequency.

4 is a functional block diagram showing the configuration of the monitoring device 50 according to an embodiment of the present invention, Figure 5 is a block diagram illustrating the monitoring information of the electronic device according to an embodiment of the present invention.

Referring to FIG. 4, the monitoring device 50 according to the present embodiment includes a communication module 410, a memory 430, and a control module 450, wherein the control module 450 includes a device identification unit 452 and The power saving unit 454 may be included.

The communication module 410 is a communication means for receiving power usage pattern information on the standby current, the maximum current, the minimum current and the frequency of the electronic device from the outlet device 30 connected through the network 40.

The memory 430 stores monitoring information of managing electronic devices. Referring to FIG. 5, which illustrates monitoring information, the monitoring information may include a cumulative power consumption for each electronic device, a status (510, for example, whether it is being driven, standby power is used, or the power supply is cut off). Information on power savings 520 may be stored. In addition, as shown in the figure, model information may be further managed as detailed information of the corresponding electronic device. As described above, the model may be recognized using a power usage pattern of the electronic device.

The control module 450 is based on the information stored in the memory 430, the electronic device according to the power usage pattern information received from the outlet device 30 through the communication module 410 (that is, the electronic device of the Type and / or model). The memory 430 stores information on power usage patterns of various electronic devices. As a result, the control module 450 may use the type of electronic devices that are supplied with power from the outlet device 30, and even what type of electronic devices are used. I can recognize it.

The device identification unit 452 of the control module 450 functions to identify the type of electronic device as described above. According to an example, the device identification unit 452 accesses an external database through the communication module 410 in addition to the information stored in the memory 430, and has an electronic pattern having a pattern most similar to the power usage pattern of the electronic device to be identified. Information about the device can also be obtained. For example, various databases (eg, Google's database, etc.) are searched through the internet network, so that not only kinds of electronic devices (eg, TVs, refrigerators, computers, etc.) but also models (TVs) can be found. For example, even Samsung TV, LG TV, etc. may be identified.

The power saving unit 454 of the control module 450 uses the information on the standby current of the electronic device according to the power usage pattern information to save the standby power according to the period when the power is not supplied to the electronic device. Calculate the power. In other words, since the electrical cord of the electronic device is not connected to the outlet device 30, the amount of standby power not used by the electronic device is measured. As an easy example, the saving power calculation unit 454 uses the information on when the power supply to the electronic device is stopped, and thus the standby current measured according to the time that has flowed up to the present and the standby power use of the electronic device. The power saving can be calculated using. The control module 450 may output through the output means (not shown, for example, a display or a speaker, or a user's smartphone, etc.) so that the user can recognize the calculated power saving information.

According to an example different from the method of calculating the saving strategy at the time of power connection as described above, the power saving by the electronic device in the disconnected state is frequently updated as the monitoring information about the electronic devices to be monitored is maintained. And may be managed as shown in FIG. 5. According to this, when power is again supplied to the electronic device (for example, an air conditioner), the information about the pre-counted power saving can be used as it is.

According to the present embodiments, by providing the user with information on the power saved by shutting off the standby power at the time of connecting the power cord of the electronic device, draw attention to the energy saving of the user to the power of the standby power Waste can be prevented.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

10-1, 10-2, ..., 10-n:
30: outlet device
40: Network
50: monitoring device

Claims (7)

In a system for monitoring the power usage of electronic devices,
A smart outlet configured to generate power usage pattern information including sensing information on at least two of standby current, maximum current, minimum current, and frequency of the electronic device when the electronic device is connected and starts to supply power; And
Analyzing the power usage pattern information received through the network from the smart outlet to identify the type of the electronic device, and using the standby current to calculate the saving power corresponding to the period when the power was not supplied to the electronic device Monitoring system comprising a monitoring device.
delete delete delete A monitoring device for monitoring power usage of electronic devices,
The power usage pattern information is supplied from an outlet device that supplies power to a connected electronic device and generates power usage pattern information including sensing information on at least two or more of standby current, maximum current, minimum current, and frequency of the electronic device. A communication module for receiving; And
And a control module which analyzes the power usage pattern information to identify the type of the electronic device and calculates the saving power corresponding to a period when power is not supplied to the electronic device using the standby current.
delete An outlet device for supplying power to an electronic device,
A power supply for supplying power to the connected electronic device;
A sensing unit configured to sense at least two or more of standby current, maximum current, minimum current, and frequency of the electronic device when power is supplied to the electronic device through the power supply unit; And
The sensing information sensed by the sensing unit is transmitted to a monitoring device connected through a network, and the monitoring device analyzes the sensing information to identify the type of the electronic device, and power is transferred to the electronic device using the standby current. Outlet device including a communication unit for calculating the saving power corresponding to the period that was not supplied.

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