KR101156733B1 - System for managing products in refrigerator - Google Patents

Abstract

The present invention relates to a system for managing a refrigerator article, and transmits a response request signal to three or more location communication nodes through magnetic field communication, and receives a response signal for position measurement through the magnetic field communication from the three or more location communication nodes; And a storage container sensor node for calculating a horizontal position from the received position measurement response signal and measuring freshness information for the stored food, and installed on each shelf of the refrigerator, and receiving a response request signal through magnetic field communication from the storage container sensor node. Receives to generate the position measurement response signal, the three or more position communication node for transmitting the position measurement response signal through the magnetic field communication to the storage container sensor node, installed on the refrigerator and the storage container sensor node Send the response request signal through the magnetic field communication to the storage container sensor node Receive the position measurement response signal through magnetic field communication, calculate the vertical position of the storage sensor node from the received position measurement response signal, the horizontal position information and freshness of the stored food from the storage sensor node And a magnetic field and a short-range communication bridge for receiving the information and calculating a three-dimensional position of the storage sensor node based on the vertical position information and the horizontal position information.

Description

Refrigerator Goods Management System {SYSTEM FOR MANAGING PRODUCTS IN REFRIGERATOR}

The present invention relates to a refrigerator item management system, and more particularly, to a refrigerator item management system for checking the location of the storage containers located in the refrigerator and the freshness of the stored food contained in the storage containers at a glance.

In recent years, refrigerators are provided with a separate freshness maintaining room to be selectively used according to a user to maintain freshness of stored foods. Various kinds of foods are stored in these refrigerators.

However, since the user cannot remember the food stored in the refrigerator, the user must go through the effort of opening and closing the refrigerator door every time to check this, and in this process, the consumption of electric energy can be caused by opening and closing the refrigerator door.

In addition, the food stored deep in the refrigerator is inconvenient for the user to check the state. In addition, when the user forgets to put the stored food in the refrigerator, the storage period of the stored food is exceeded, and the stored food is decayed, causing waste of the stored food.

In order to solve this problem, there is a method of registering the stored food information on the RFID tag and displaying it on the user terminal, but this shows only the expiration date information of the stored food and does not inform the location of the stored food so that the user stores the food. It is impossible to solve the fundamental problem of electric energy consumption in the process of finding the problem, and if the temperature of the refrigerator and the proper temperature of the stored food are not appropriate, the stored food may be decayed within the expiration date. There is no number.

The present invention has been made to solve the above problems, including a magnetic field communication module capable of magnetic field communication in the storage container for storing food in the refrigerator and a sensor module for sensing the freshness of the stored food container using magnetic field communication It is to provide a refrigerator item management system that calculates the location of the, and by measuring the freshness of the stored food in the storage container, the user can determine the location of the storage container and the freshness of the stored food.

Here, the magnetic field communication technology refers to a wireless communication technology using the magnetic field region. The magnetic field region refers to the distance from the antenna to the electromagnetic wave after it is separated from the antenna and propagates into the space, and refers to the region from the antenna to lambda (wavelength) / 2π. In this region, the strength of the magnetic field is relatively strong compared to that of the electric field, so the strength of the electric field can be neglected, and this region has strong magnetic field characteristics.

That is, magnetic field communication refers to communication in a near field (magnetic field region) from the antenna to lambda (wavelength) / 2π.

The magnetic field communication technology, unlike the existing RFID technology and the USN (Ubiquitous Sensor Network) technology, enables wireless communication around water, soil, and metal by using magnetic fields, and can overcome the limitations of the existing wireless communication technology. Technology.

The refrigerator article management system of the present invention for achieving the above object transmits a response request signal to three or more location communication nodes through magnetic field communication, and receives a response signal for position measurement through the magnetic field communication from the three or more location communication nodes. And calculating a horizontal position from the received position measurement response signal and installing each storage container sensor node for measuring freshness information of the stored food and a refrigerator, and requesting a response through the magnetic field communication from the storage container sensor node. Receiving a signal to generate the position measurement response signal, the three or more position communication node for transmitting the position measurement response signal through the magnetic field communication to the storage container sensor node, is installed on the top of the refrigerator sensor node The storage container sensor is sent by sending a response request signal through magnetic field communication. Receive the position measurement response signal from the magnetic field through the communication, calculate the vertical position of the storage sensor node from the received position measurement response signal, the horizontal position information and freshness of the stored food from the storage sensor node And a magnetic field and a short-range communication bridge for receiving the information and calculating a three-dimensional position of the storage sensor node based on the vertical position information and the horizontal position information.

And a portable terminal for receiving and displaying three-dimensional position information of the storage container sensor node and freshness information of the stored food through short-range communication from the magnetic field and the short-range communication bridge, and storing the data from the magnetic field and the short-range communication bridge. The refrigerator further includes a refrigerator display unit attached to an outer surface of the refrigerator for receiving and displaying three-dimensional position information of the container sensor node and freshness information of the stored food through short-range communication.

The storage container sensor node transmits the response request signal to the three or more location communication nodes, receives the location measurement response signal from the three or more location communication nodes, and receives the response request signal from the magnetic field and the short-range communication bridge. A first magnetic field communication module for receiving the position measurement response signal to the magnetic field and the short-range communication bridge, and transmitting the horizontal position information to the magnetic field and the short-range communication bridge, and measuring freshness information for the stored food; A first control unit which controls the sensor module, the first magnetic field communication module and the sensor module, and calculates the horizontal position information by using the position measurement response signals received from the three or more position communication nodes; A first storage unit storing horizontal position information and freshness information of the stored food; .

The magnetic field and short-range communication bridge transmits the response request signal to the storage container sensor node, receives the position measurement response signal from the storage container sensor node, and receives the horizontal position information and the horizontal position information from the storage container sensor node. A second magnetic field communication module for receiving the freshness information of the stored food, the vertical position of the storage container sensor node is calculated using the received position measurement response signal, and the calculated vertical position information of the storage container sensor node and the A second control unit for calculating three-dimensional position information of the storage container sensor node using the received horizontal position information, three-dimensional position information of the storage container sensor node, and freshness information of the stored food; The first short-range communication module for transmitting to the refrigerator display unit attached to the outer surface, the three-dimensional of the storage container sensor node And a second storage unit for storing location information and freshness information of the stored food.

The portable terminal includes a second short-range communication module for receiving three-dimensional position information of the storage container sensor node and freshness information of the stored food from the magnetic field and the short-range communication bridge, and the three-dimensional position of the received storage container sensor node. A display unit displaying information and freshness information of the stored food, the second short-range communication module and the display unit to control the display unit to display three-dimensional position information of the storage sensor node and freshness information of the stored food; The controller includes a third storage unit configured to store three-dimensional position information of the received storage container sensor node and freshness information of the stored food.

The horizontal position is calculated using a triangulation method through the position measurement response signals received from the three or more position communication nodes, and the freshness information of the stored food indicates the corruption state of the stored food contained in the storage container sensor node. Information to indicate.

The present invention has the effect of determining the three-dimensional position of the storage container for storing food in the refrigerator by using the magnetic field communication, through which can accurately determine the location of the desired storage container among the many storage containers stored in the refrigerator It works.

In another aspect, the present invention by measuring the freshness of the stored food using a sensor module attached to the storage container, there is an effect that the user can check this and quickly process the stored food when the stored food is contaminated or corrupted.

In addition, the present invention can check the position and freshness information of the storage container through the LCD or the portable terminal attached to the outside of the refrigerator, there is an effect that can check the position and freshness information of the storage container without opening the refrigerator door.

1 is a block diagram of a refrigerator item management system according to an embodiment of the present invention;
2 is an internal configuration diagram of a storage container sensor node according to an embodiment of the present invention,
3 is an internal configuration diagram of a magnetic field and a short-range communication bridge according to an embodiment of the present invention;
4 is an internal configuration diagram of a mobile terminal according to an embodiment of the present invention;
5 is a flowchart illustrating a process of managing refrigerator items in a refrigerator item management system according to an exemplary embodiment of the present invention.

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.

1 is a block diagram of a refrigerator article management system according to an embodiment of the present invention.

First, the refrigerator article management system includes a storage container sensor node 200 attached to the storage container 201, a magnetic field attached to the upper end of the refrigerator, a short distance communication bridge 300, and a first to attach to a predetermined position of the shelf 700. The fourth location communication node 500 includes a refrigerator display unit 600 and a portable terminal 400 installed on the outside of the refrigerator.

The first to fourth position communication nodes 500 are installed at predetermined positions of the shelf 700 for placing the storage container 201 in the refrigerator 100, and are positioned by magnetic field communication from the storage container sensor node 200. When receiving a signal for requesting a response signal for measurement (hereinafter, referred to as a "response request signal"), the position measurement response signal for the received response request signal is transmitted using magnetic field communication.

The storage container sensor node 200 transmits a response request signal to the first to fourth location communication nodes 500 through magnetic field communication, and receives a response signal for position measurement from the first to fourth location communication nodes 500. do.

In addition, the storage container sensor node 200 is a horizontal position on the refrigerator shelf 700 of the storage container sensor node 200 by using the position measurement response signal received from the first to fourth position communication node 500. Calculate. In addition, the storage container sensor node 200 checks the freshness of the stored food and stores the freshness information.

The magnetic field and the short-range communication bridge 300 are installed on the top of the refrigerator 100, and receive and store the horizontal position information and the freshness information from the storage container sensor node 200 through the magnetic field communication.

In addition, the magnetic field and the short-range communication bridge 300 transmits a response request signal to the storage container sensor node 200 through magnetic field communication, and receives a response signal for position measurement from the storage container sensor node 200 to store the storage sensor node ( The vertical position of the second shelf of the refrigerator 100 is calculated.

The magnetic field and the short-range communication bridge 300 are stored using the horizontal position information of the storage container sensor node 200 received from the storage container sensor node 200 and the vertical position information of the storage container sensor node 200 calculated. The three-dimensional position information, that is, the three-dimensional position information on which position of the cell sensor node 200 is located in the refrigerator 100 is calculated.

At this time, the three-dimensional position calculates the horizontal position of the storage sensor node 200 by calculating the coordinates on the xy plane, and calculates the coordinates of the z-axis vertically intersecting the point where the xy axis intersects. The vertical position of 200 is calculated.

For example, the x-y axis may set any one side of the shelf on which the storage container sensor node 200 is placed on the x axis and the other side perpendicular to the side thereof as the y axis. The x-y axes intersect vertically with respect to the center point of the shelf and can be set to two axes that lie on the plane of the shelf.

The portable terminal 400 or the refrigerator display unit 600 receives and displays internal information of the refrigerator 100 through short-range communication from the magnetic field and the short-range communication bridge 300 according to a user's request.

Here, the internal information of the refrigerator may be the three-dimensional position of the storage container sensor node 200 and the freshness information of the food measured by the storage container sensor node 200.

On the other hand, the internal structure of the refrigerator 100 and the position of the storage container sensor node 200 is to be displayed in a three-dimensional image, so that the user can easily determine the position of the storage container sensor node 200.

2 is an internal configuration diagram of a storage container sensor node according to an embodiment of the present invention.

The storage container sensor node 200 includes a first control unit 210, a first magnetic field communication module 220, a sensor module 230, and a first storage unit 240.

The first magnetic field communication module 220 transmits a response request signal to the first to fourth location communication nodes 500 located at a predetermined position of the refrigerator shelf 700 and from the first to fourth location communication nodes 500. Receive each position response signal.

In addition, the first magnetic field communication module 220 transmits the horizontal position information of the storage container sensor node 200 and the freshness information of the stored food to the magnetic field and the short-range communication bridge 300 under the control of the first control unit 210.

The sensor module 230 measures the degree of decay of the stored food by detecting bacteria such as mold, Pseudomonas aeruginosa and Escherichia coli in the food stored in the storage container 201 to measure the freshness of the stored food.

The first control unit 210 controls the overall operation of the storage container sensor node 200, in particular, transmits a response request signal to the first to fourth location communication node 500, and the first to fourth location communication node ( The first magnetic field communication module 220 is controlled to receive a response signal for position measurement from 500.

In addition, the first controller 210 measures the strength of the position measurement response signal received from the first to fourth position communication nodes 500 through the first magnetic field communication module 220, and receives the position measurement response signal. The triangulation method is applied to calculate the horizontal position of the storage vessel sensor node 200 in the form of coordinates. The triangulation method using the strength of the communication signal used in the present invention is a well-known technique, so a detailed description thereof will be omitted.

The controller 210 controls the sensor module 230 to measure the freshness of the stored food, and transmits the horizontal position information of the storage container sensor node 200 and the freshness information of the stored food to the magnetic field and the short-range communication bridge 300. To control the first magnetic field communication module 220 to.

The first storage unit 240 stores horizontal position information of the storage container sensor node 200 calculated by the first control unit 210 and freshness information of the stored food detected by the sensor module 230.

3 is a diagram illustrating an internal configuration of a magnetic field and a short-range communication bridge according to an exemplary embodiment of the present invention.

The magnetic field and short-range communication bridge 300 includes a second control unit 310, a second magnetic field communication module 320, a first short-range communication module 330, and a second storage unit 340.

The second magnetic field communication module 320 performs magnetic field communication with the first magnetic field communication module 220 included in the storage container sensor node 200, and transmits a response request signal to the first magnetic field communication module 220. Receive the position measurement response signal from the first magnetic field communication module 220.

In addition, the second magnetic field communication module 320 receives horizontal position information of the storage container sensor node 200 and freshness information of the stored food from the first magnetic field communication module 220.

The second controller 310 controls the overall operation of the magnetic field and the short-range communication bridge 300. The second control unit 310 calculates a vertical position of the storage container sensor node 200 using the response signal for measuring the position of the storage container sensor node 200 received through the second magnetic field communication module 320. In this case, since the magnetic field signal has a large change in signal strength according to a change in distance, the vertical position of the storage vessel sensor node 200 can be calculated from the strength of the received position measurement response signal.

In addition, the second control unit 310 is stored using the horizontal position information of the storage container sensor node 200 received through the second magnetic field communication module 320 and the calculated vertical position information of the storage container sensor node 200. The three-dimensional position of the vessel sensor node 200 is calculated.

The second storage unit 340 stores the three-dimensional location information of the storage container sensor node 200 received from the storage container sensor node 200, and stores the freshness information of the stored food correspondingly.

When the first short-range communication module 330 receives an internal information request signal from the refrigerator display unit 600 and the mobile terminal 400 attached to the outside of the refrigerator, the first short-range communication module 330 stores the second information in the refrigerator display unit 600 and the mobile terminal 400. The three-dimensional position information of the storage container sensor node 200 and the freshness information of the food stored in the unit 340 are transmitted.

4 is an internal configuration diagram of a mobile terminal according to an embodiment of the present invention.

The mobile terminal 400 includes a third control unit 410, a second short range communication module 420, a third storage unit 430, a display unit 440, and a key input unit 450.

The second local area communication module 420 transmits and receives data, and in particular, the second local area communication module 420 transmits an internal information request signal to the first local area communication module 330 included in the magnetic field and the local area bridge 300. Receives the inside information of the refrigerator from the short range communication module 330.

When the display unit 440 receives the refrigerator internal information from the first short-range communication module 330, the display unit 440 may three-dimensionally display the internal structure of the refrigerator and the position information of the storage container sensor node 200 under the control of the third controller 410. Display. In addition, when the display unit 440 is implemented as a touch screen method, the display unit 440 may operate as a key input unit.

The key input unit 450 is a device for inputting a user's key, and a touch pad or a keyboard may be used. In addition, the key input unit 450 outputs a refrigerator internal information display request signal according to a user's key input to the third controller 410.

The third controller 410 controls the overall operation of the mobile terminal 400.

If there is a key input for requesting the display of the inside information of the refrigerator, the third controller 410 requests the inside information of the refrigerator to the magnetic field and the short-range communication bridge 300 through the second short-range communication module 420.

In addition, when the third control unit 410 receives the internal information of the refrigerator from the magnetic field and the short-range communication bridge 300, the third control unit 410 controls the display unit 440 to three-dimensionally display the internal structure of the refrigerator and the position information of the storage container sensor node 200. And display the freshness information of the stored food in correspondence with the position information of the storage container sensor node 200.

The third storage unit 430 stores the received inside information of the refrigerator, that is, the three-dimensional position of the storage container sensor node 200 located in the refrigerator and freshness information of the stored food.

5 is a flowchart illustrating a process of managing refrigerator items in a refrigerator item management system according to an exemplary embodiment of the present invention.

Referring to FIG. 5, when the storage container sensor node 200 transmits a signal for requesting a position measurement response signal to the first to fourth location communication nodes 500 in step S501, the first to fourth location communication nodes are provided. 500 transmits the position measurement response signal for the signal requesting the position measurement response signal received in step 502 to the storage container sensor node 200.

When the storage container sensor node 200 receives the position measurement response signal from the first to fourth position communication nodes 500 in step 502, the storage container sensor node 200 uses the position measurement response signal received in step 503. Calculate the horizontal position of the head 200).

In addition, the storage container sensor node 200 stores the horizontal position of the storage container sensor node 200 calculated in step 504 in the first storage unit 240 and transmits the same to the magnetic field and the short-range communication bridge 300.

After that, the magnetic field and the short-range communication bridge 300 transmits a signal for requesting a position measurement response signal to the storage container sensor node 200 in step 505, and proceeds to step 506 to measure the position from the magnetic field and the short-range communication bridge 300. Receive a response signal.

Then, the magnetic field and the short-range communication bridge 300 calculates the vertical position of the storage container sensor node 200 using the position measurement response signal received in step 507, and proceeds to step 508 to receive the storage container sensor node 200. Using the horizontal position and the vertical position of the storage container sensor node 200 calculated in step 507 to calculate a three-dimensional position of the storage container sensor node 200.

The storage container sensor node 200 measures the freshness of the stored food included in the storage container sensor node 200 through the sensor module 230 in step 509, and proceeds to step 510 to measure the freshness information of the stored food. And a short range communication bridge 300.

When the magnetic field and short-range communication bridge 300 receives the freshness information of the stored food from the storage container sensor node 200, the magnetic field and short-range communication bridge 300 matches and stores three-dimensional position information of the storage container sensor node 200.

After the magnetic field and the short-range communication bridge 300 detects a request for the internal information of the refrigerator from the mobile terminal 400 in step 511, and proceeds to step 512 the three-dimensional location information and stored food of the storage container sensor node 200 Freshness information is transmitted to the mobile terminal 400.

Afterwards, the mobile terminal 400 displays the inside of the refrigerator in three dimensions and at the same time the three-dimensional position information of the storage container sensor node 200 received from the magnetic field and the short-range communication bridge 300 and the freshness information of the stored food. According to which position of the refrigerator, the storage container sensor node 200 is displayed.

By doing so, the user can grasp the position of the storage container sensor nodes 200 contained in the refrigerator at a glance through the mobile terminal 400, and can easily grasp the freshness information to reduce the error that the stored food is corrupted.

In addition, in the detailed description of FIG. 5, the inside information of the refrigerator is displayed through the mobile terminal 400, but the inside of the refrigerator may be displayed in three dimensions through the refrigerator display unit 600 attached to the outside of the refrigerator. Accordingly, the position of the storage container sensor node 200 can also be displayed in three dimensions. In addition, when a user selects a specific storage container sensor node 200, the freshness information of the stored food contained in the selected storage container sensor node 200 is displayed so that the user does not have to open the refrigerator door, and thus the location and freshness of the food stored in the refrigerator. I can grasp the information.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be readily apparent that various substitutions, modifications, and alterations can be made herein.

100: refrigerator 200: storage container sensor node
201: storage container 210: first control unit
220: first magnetic field communication module 230: sensor module
240: first storage unit 300: magnetic field and short-range communication bridge
310: second control unit 320: second magnetic field communication module
330: first local area communication module 340: second storage unit
400: portable terminal 410: third controller
420: second short-range communication module 430: third storage unit
440: display unit 450: key input unit
500: first to fourth location communication nodes 600: refrigerator display unit
700: shelf

Claims (8)

Sends a response request signal to three or more position communication nodes through magnetic field communication, receives a position measurement response signal from the three or more position communication nodes through magnetic field communication, and sets a horizontal position from the received position measurement response signal. A storage container sensor node for calculating and measuring freshness information of the stored food;
It is installed on each shelf of the refrigerator and receives the response request signal from the storage container sensor node through the magnetic field communication to generate the position measurement response signal, and transmits the position measurement response signal through the magnetic field communication to the storage container sensor node. The three or more location communication nodes;
It is installed on the top of the refrigerator and sends a response request signal through the magnetic field communication to the storage container sensor node to receive the position measurement response signal through the magnetic field communication from the storage container sensor node, and from the received position measurement response signal Compute the vertical position of the storage container sensor node, and receives the horizontal position information and the freshness information of the stored food from the storage container sensor node, the 3 of the storage container sensor node through the vertical position information and the horizontal position information Refrigerator article management system comprising a magnetic field and a short-range communication bridge for calculating the dimensional position.
The method according to claim 1,
And a portable terminal configured to receive and display three-dimensional position information of the storage container sensor node and freshness information of the stored food from the magnetic field and the short-range communication bridge through short-range communication.
The method according to claim 1,
The refrigerator further comprises a refrigerator display unit attached to an outer surface of the refrigerator for receiving and displaying three-dimensional position information of the storage container sensor node and freshness information of the stored food from the magnetic field and the short-range communication bridge through short-range communication. Goods management system.
The storage container sensor node of claim 1,
Transmitting the response request signal to the three or more location communication nodes, receiving the location measurement response signal from the three or more location communication nodes, receiving the response request signal from the magnetic field and the short-range communication bridge, A first magnetic field communication module which transmits the position measurement response signal to a local area communication bridge and transmits the horizontal position information to the magnetic field and the local area communication bridge;
Sensor module for measuring the freshness information for the stored food;
A first control unit controlling the first magnetic field communication module and the sensor module and calculating the horizontal position information using the position measurement response signals received from the three or more position communication nodes;
And a first storage unit configured to store the calculated horizontal position information and freshness information of the stored food.
The method of claim 1, wherein the magnetic field and the short-range communication bridge,
The response request signal is transmitted to the container sensor node, the response signal for position measurement is received from the container sensor node, and the horizontal position information and the freshness information of the food are received from the container sensor node. A second magnetic field communication module;
The vertical position of the storage vessel sensor node is calculated using the received position measurement response signal, and the storage vessel sensor node is obtained by using the vertical position information of the storage vessel sensor node and the received horizontal position information. A second control unit for calculating the three-dimensional position information of the;
A first short-range communication module configured to transmit three-dimensional position information of the storage container sensor node and freshness information of the stored food to a refrigerator display unit attached to a mobile terminal or a refrigerator;
Refrigerator article management system comprising a second storage unit for storing the three-dimensional position information of the storage container sensor node and the freshness information of the stored food.
The mobile terminal of claim 2, wherein the mobile terminal comprises:
A second short-range communication module for receiving three-dimensional position information of the storage container sensor node and freshness information of the stored food from the magnetic field and the short-range communication bridge;
A display unit displaying three-dimensional position information of the received storage container sensor node and freshness information of the stored food;
A third controller controlling the second short-range communication module and the display unit to display three-dimensional position information of the storage container sensor node and freshness information of the stored food;
And a third storage unit configured to store three-dimensional position information of the received storage container sensor node and freshness information of the stored food.
The method of claim 1, wherein the horizontal position,
Refrigerator article management system, characterized in that calculated using the triangulation method through the position measurement response signals received from the three or more position communication nodes.
According to claim 1, Freshness information of the stored food,
Refrigerator article management system, characterized in that the information indicating the corruption state of the stored food contained in the storage container sensor node.

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