KR20160020605A - Refrigerator having function of detecting radiation, method for detecting radiation, and radiation monitoring system using refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator having a function of detecting radiation, a method of detecting the radiation and a system for monitoring the radiation using the refrigerator. The refrigerator having a function of detecting the radiation comprises: a main body where a storage space is formed; a radiation sensor installed in the storage space and for sensing the radiation of the storage space; a radiation dose calculation unit for calculating a radiation dose on the basis of the sensing result of the radiation sensor; a food inflow sensing unit for sensing an inflow of food into the storage space; and a main controller which controls the radiation dose calculation unit to calculate first radiation dose corresponding to a radiation dose in the storage space before the inflow of the food, sensed by the food inflow sensing unit and a second radiation dose corresponding to the radiation dose in the storage space after the inflow of the food, sensed by the food inflow sensing unit, and measures a radiation dose of the food flowing into the storage space based on a difference between the first radiation dose and the second radiation dose. The method directly detects the radiation in the refrigerator at least one of which most households own and which refrigerates or freezes the food, or detects the radiation with the opening and closing of a door and the inflow of the food. Therefore, the method is capable of immediately confirming whether food newly flowing into the refrigerator is exposed to radiation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerator having a radiation detection function, a radiation detection method, and a radiation monitoring system using a refrigerator. BACKGROUND ART [0002] Reflectors,

The present invention relates to a refrigerator having a radiation detection function, a radiation detection method, and a radiation monitoring system using the refrigerator. More particularly, the present invention relates to a radiation monitoring system using a refrigerator, A refrigerator having a radiation detecting function, a radiation detecting method, and a radiation monitoring system using a refrigerator.

The atomic nucleus of an unstable element collapses and emits radiation from the inside. The intensity of this radiation is called radioactivity. An atomic nucleus of this nature is called a radionuclide (nuclear species), and a radionuclide is called a radioactive material. In the natural world, uranium, radium, and about 40 atomic nuclei, which are comparatively large in atomic number, belong to the atomic nucleus, and artificially radioactive by the nucleus reaction is the atomic number 1 hydrogen to the 104th element, There are about 1000 species of radionuclides.

These radionuclides spontaneously spontaneously emit radiation such as α rays, β rays, γ rays and collapse, and even if there is a trace amount of radiation, the radiation has a fatal effect on the human body. The effect of radiation on the human body depends on the duration of the human body exposed to radiation, the type of radiation, and the energy, but once it is absorbed by the human body, it accumulates without accumulating in the human body for a long time and causes various diseases and genetic diseases.

In recent years, interest in radioactive materials has been amplified by the Fukushima nuclear power plant accident caused by the earthquake in Japan. The Meteorological Agency of each country provides various information such as forecasting the degree of radioactive contamination in a specific area. However, this is only information predicted in consideration of the wind direction, and it is difficult to judge the degree of radioactive contamination in a specific region in real time .

In addition, although various portable radioactivity measuring devices have been developed to solve these problems, such a portable radioactivity measuring device has merely a radioactivity measuring function, so that only the radioactivity measuring device holder can use the radioactivity measuring information, There is a problem that people can not share the radioactive contamination information of each region.

On the other hand, the accident of nuclear power plant in Fukushima of Japan was not only the damage caused by the radiation emitted by the accident itself but also the damage caused by radiation contamination of food such as crops and fishes contaminated with radioactivity.

Examples of damages caused by food contaminated with radioactivity include internal exposure of human body to internal exposure of Chernobyl accidents to 80-90% of total exposure ("20 years after Chernobyl catastrophe Future outlook" , National Report of Ukraine, Kyiv, Atika, 2006).

Particularly, cesium (Cs-137), which has a great influence on the contamination of foods in radiation, is an isotope that occurs only at the time of nuclear fission, but has a half-life of 30 years and is soluble in water and is concentrated in muscles, When it is enriched in food such as agricultural products and it is eaten by a person, infertility, general paralysis, bone marrow cancer, lung cancer, thyroid cancer, breast cancer and the like can be adversely affected.

In the case of internal exposure of radiation through food such as this, as shown in the Fukushima accident, even if it is not directly influenced by the radiation emitted from Fukushima nuclear power plant located at a remote place from Fukushima, the possibility of being affected by the crops or fish in the area Is recognized as a big problem.

Particularly, in the case of fish, there is a problem that the fish harvested in the sea far from the accident nuclear power plant may be contaminated with radiation if the fish move along the ocean current, By blocking the circulation of agricultural and marine products in the area, it is impossible to completely block the radiation contamination.

In order to solve such a problem, Korean Patent Registration No. 10-1365019 discloses a "measuring device for a multifunctional mall" which can measure the radiation together with the function of an electronic balance to confirm the safety of a food to be purchased .

However, since the purchase of agricultural and marine products is not confined to marts, it has a disadvantage in that it can not check whether radioactive contamination of all agricultural and marine products purchased at home is contaminated. In addition, It is unclear whether it will be used until it notifies the consumer whether it is contaminated.

In particular, in the case of radiation, in some cases, it is detected in contaminated agricultural and marine products due to nuclear accident, but even in the case of agricultural and marine products which are hardly judged to be substantially contaminated with radiation due to the effect of living radiation, a certain portion is detected, It can cause misunderstandings, and it is inevitable that the installation is neglected.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a refrigerator having a radiation detection function capable of detecting whether radioactive contamination of foods is contaminated using a refrigerator having at least one refrigerator, The purpose is to provide.

It is another object of the present invention to provide a radiation monitoring system using a refrigerator which can analyze the propagation state of radiation in a specific area by using a refrigerator having a radiation detecting function.

According to an aspect of the present invention, there is provided a refrigerator having a radiation detection function, the refrigerator including: a body having a storage space therein; A radiation detection sensor installed in the storage space for sensing radiation in the storage space; A radiation dose calculation unit for calculating a radiation dose based on the detection result of the radiation detection sensor; A food inflow sensing unit for sensing inflow of food into the storage space; Calculating a first radiation dose for the amount of radiation in the storage space before the introduction of food and a second radiation dose for the amount of radiation in the storage space after the food has been introduced, And a main controller for controlling the amount of radiation of the food to be introduced into the storage space based on a deviation between the first radiation dose and the second radiation dose, .

Here, the radiation dose calculator may calculate the first radiation dose and the second radiation dose with a cumulative radiation dose for a predetermined time.

And a door for opening and closing the main body, wherein the food inflow sensing unit includes a door opening / closing sensing unit for sensing opening / closing of the door; When the door opening / closing detection unit detects opening / closing of the door, the main control unit may determine that the food is inflowed.

The door further includes a front display unit installed on a front surface of the door, The main control unit may display a warning message on the front display unit when the deviation between the first radiation dose and the second radiation dose exceeds a predetermined reference dose.

According to another aspect of the present invention, there is provided a radiation detection method using a radiation detection sensor installed in a refrigerator, comprising the steps of: (a) detecting whether food is introduced into a storage space of the refrigerator; (b) calculating a first radiation dose for the amount of radiation in the storage space before the inflow of food into the storage space of the refrigerator is sensed in the step (a); (c) calculating a second radiation dose with respect to a radiation dose in the storage space after the inflow of food into the storage space of the refrigerator is sensed in step (a); (d) measuring a radiation dose of the food introduced in the step (a) based on a deviation between the first radiation dose and the second radiation dose. Can also be achieved by a radiation detection method.

Here, in the steps (b) and (c), the cumulative radiation dose for a predetermined time may be calculated as the first radiation dose and the second radiation dose.

The step (a) includes the steps of (a1) detecting whether the door of the refrigerator is opened or closed, (a2) when it is determined that the door is opened or closed in the step (a1) . ≪ / RTI >

(E) when the deviation between the first radiation dose and the second radiation dose in the step (d) exceeds a predetermined reference dose, a warning message may be displayed.

It is still another object of the present invention to provide a refrigerator having a plurality of refrigerators installed in respective homes and having a network portion connected to a communication network and a radiation monitoring center connected to each of the refrigerators through the communication network, A radiation dose calculation unit for calculating a radiation dose based on a result of detection by the radiation detection sensor; a radiation dose calculation unit for calculating a radiation dose calculated by the radiation dose calculation unit, And a main control unit for transmitting to the center; And the radiation monitoring center analyzes the radiation propagation state of the corresponding area based on the radiation amount transmitted from each refrigerator.

According to the present invention, according to the present invention, there is provided a refrigerator having one or more housings in a home, detecting radiation directly in a refrigerator for refrigerating or freezing food, detecting radiation in conjunction with the inflow of food, There is provided a refrigerator having a radiation detection function and a radiation detection method capable of immediately confirming whether or not a newly introduced food is contaminated with radiation.

Alternatively, a refrigerator, which most households have, detects the radiation and transmits it to the radiation monitoring center through a communication network to easily check the contamination of the area, such as the propagation path of the radiation when a radiation accident such as a nuclear accident occurs A radiation monitoring system is provided.

1 is a perspective view of a refrigerator having a radiation detection function according to the present invention,
2 is a projection view of a refrigerator having a radiation detection function according to the present invention,
3 is a control block diagram of a refrigerator having a radiation detection function according to the present invention,
4 is a view for explaining a radiation detection method using a refrigerator according to the present invention,
FIG. 5 is a diagram showing a configuration of a radiation monitoring system according to the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a refrigerator 100 having a radiation detecting function according to the present invention, FIG. 2 is a projection view of a refrigerator 100 having a radiation detecting function according to the present invention, And a refrigerator (100) having a refrigerator (100).

1 to 3, a refrigerator 100 having a radiation detection function according to the present invention includes a main body 200, a radiation detection sensor 120, a radiation dose calculation unit, a food inflow detection unit, and a main control unit 110).

The main body 200 forms the entire outer surface of the refrigerator 100 according to the present invention, and a storage space for refrigerating or freezing the food is formed therein. As shown in FIGS. 1 and 2, the refrigerator has a freezing chamber on the left side and a refrigerating chamber on the right side. However, the freezing chamber is formed on the upper side and the refrigerating chamber is formed on the lower side The refrigerator 100, the kimchi refrigerator 100, and the refrigerator-freezer-integrated refrigerator 100 can be variously configured. Here, the storage space of the main body 200 is opened and closed by the door 210 in a state of being open toward the front.

As shown in FIG. 2, the radiation detection sensor 120 is installed inside the storage space of the main body 200 and senses the radiation of the storage space. In the present invention, as shown in FIG. 2, the refrigerating chamber and the freezing chamber may be installed inside the refrigerating chamber and the freezing chamber, respectively.

In addition, the radiation detection sensor 120 according to the present invention may be applied to a semiconductor-based sensor. Accordingly, it is possible to more accurately detect cesium, which is a major cause of food radiation contamination, while reducing the size of the radiation detection sensor 120.

The radiation dose calculation unit calculates the radiation dose based on the detection result of the radiation detection sensor (120). In the present invention, the radiation dose calculating section calculates the cumulative radiation dose over a predetermined period of time as a radiation dose, and a detailed description thereof will be given later.

The food inflow sensing unit senses the inflow of food into the storage space, i.e., the refrigerator compartment or the freezer compartment. In the present invention, as shown in FIG. 3, it is assumed that the food intake sensing unit includes a door opening / closing sensing unit 140.

More specifically, the door opening / closing detection unit 140 detects the opening / closing of the door 210 based on the point that the user opens the door 210 and closes the door 210 after inserting the food into the storage space, The main control unit 110 may determine that the door 210 is opened and closed by the main control unit 110. In this case,

In addition, when a bar code recognition unit for recognizing a bar code provided in a food is provided in the refrigerator 100, if a bar code for a new food is recognized by a bar code recognition unit, As shown in FIG. In addition, it is needless to say that the technical idea of the present invention is not limited to the embodiments illustrated in the present specification, as well as various techniques for detecting the introduction of new food into the refrigerator 100 according to the present invention.

The main control unit 110 measures the radiation dose of the food that is newly introduced based on the radiation dose calculated by the radiation dose calculation unit. More specifically, the main control unit 110 controls the radiation calculating unit 130 to calculate the first radiation dose with respect to the radiation dose in the storage space before the food is sensed by the food inflow sensing unit.

The main control unit 110 controls the radiation calculating unit 130 to calculate the second radiation dose with respect to the radiation dose in the storage space after the food is introduced by the food inflow detecting unit.

In this way, when the first radiation dose and the second radiation dose corresponding to the radiation dose before and after the introduction of the food are calculated, the main control unit 110 controls the amount of the radiation dose to the inside of the storage space based on the deviation between the first radiation dose and the second radiation dose The radiation dose of the incoming food is measured.

This can be expressed as follows.

[Equation 1]

&Quot; (2) "

&Quot; (3) "

D _bg is the first radiation dose, D _af is the second radiation dose, D (t) is the radiation dose sensed by the radiation sensor 120, and D (t) _Food is the radiation dose of the new incoming food. As shown in Equations (1) and (2), in the present invention, the first radiation dose and the second radiation dose are calculated as the radiation dose accumulated for a predetermined time.

Through the above process, the radiation detection sensor 120 is installed inside the refrigerator 100, and the radiation dose of the food or drink introduced into the refrigerator 100 is calculated by comparing the amount of radiation before and after the introduction of the food , It is possible to more easily confirm whether or not the foodstuff purchased with only the usual actions of storing the food purchased by the user in the refrigerator 100 is contaminated with radiation.

In addition, since the radiation detection sensor 120 is installed in the storage space of the refrigerator 100 and operates in a low temperature environment, the radiation detection sensor 120 is less affected by noise at a low temperature, Measurement becomes possible.

1 to 3, the refrigerator 100 having the radiation detecting function according to the present invention may include a front display unit 150 installed on the front surface of the door 210. [ The main control unit 110 may display the storage environment such as temperature and humidity inside the refrigerator 100 through the front display unit 150. [

In addition, the main control unit 110 according to the present invention displays a warning message on the front display unit 150 when the deviation between the first radiation dose and the second radiation dose, that is, the radiation dose of the newly introduced food exceeds the reference dose can do. Accordingly, when food exceeding the reference dose for determining contamination is introduced, the user is notified of this through the front display unit 150, so that the user can take subsequent actions accordingly.

3, reference numeral 160 denotes an input unit 160 through which a user can input a set temperature of a freezing room or a refrigerating room, and a reference dose can be adjusted. The input unit 160 may be provided in the form of a button on the front surface of the door 210 or may be provided in a touch manner integrally with the front display unit 150.

Hereinafter, a radiation detecting method using the refrigerator 100 according to the present invention will be described in detail with reference to FIG.

First, the main control unit 110 controls the radiation dose calculation unit to calculate the first radiation dose with respect to the radiation dose inside the storage space of the refrigerator 100 (S40). That is, the first radiation dose before the detection of the inflow of new food by the food inflow detection unit is calculated.

Then, when the door 210 is opened or closed (S41), calculation of the second radiation dose with respect to the radiation dose inside the storage space after the detection of food and drink inflow is calculated (S42). When the first radiation dose and the second radiation dose are calculated, the main control unit 110 detects the radiation dose of the newly introduced food using the deviation between the first radiation dose and the second radiation dose (S43).

At this time, the main control unit 110 displays a warning message through the front display unit 150 (S45) when the radiation dose (D _food ) of the _food exceeds the reference dose _Dth described above (S44) Thereby informing the user of radiation contamination of the food.

Hereinafter, a radiation monitoring system using the refrigerator 100 according to the present invention will be described with reference to FIG.

The radiation monitoring system according to the present invention includes a plurality of refrigerators 100 and a radiation monitoring center 300, as shown in FIG. Herein, the refrigerator 100 of the radiation monitoring system according to the present invention is an example of applying the refrigerator 100 having the above-described radiation detecting function. As shown in FIG. 3, the refrigerator 100 includes a network unit 170 ).

The refrigerator 100 is installed in each home and is connected to the communication network through the network unit 170 and communicates with the radiation monitoring center 300. Here, each refrigerator 100 may include a radiation detection sensor 120 and a radiation dose calculator.

The radiation detection sensor 120 may detect the radiation by using a radiation detection sensor 120 installed inside the storage space of the refrigerator 100 or separately installed outside the refrigerator 100 as described above Of course. Then, the radiation dose calculation unit calculates the radiation dose of the radiation sensed by the radiation detection sensor 120.

At this time, the main control unit 110 transmits the radiation dose calculated by the radiation dose calculation unit to the radiation monitoring center 300 through the network unit 170. The radiation monitoring center 300 analyzes the radiation propagation state of the corresponding area based on the radiation amount transmitted from each refrigerator 100.

For example, when a radiation leakage accident occurs such as a nuclear accident, the leaked radiation spreads from the accident occurrence area. At this time, the radiation detection sensor 120 of the refrigerator 100 provided in each home and the radiation amount The calculation unit senses and calculates the radiation dose and transmits the radiation rate to the radiation monitoring center 300, so that it is possible to more accurately grasp the radiation propagation state due to the radiation leakage accident in real time.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be exemplary and explanatory only and are not to be construed as limiting the scope of the inventive concept. And it is obvious that it is included in the technical idea of the present invention.

100: refrigerator 110: main control unit
120: radiation detection sensor 130: radiation calculation unit
140: Door opening / closing detection unit 150: Front display unit
160: input unit 170:
200: main body 210: door
300: Radiation Monitoring Center

Claims (9)

In a refrigerator having a radiation detection function,
A main body having a storage space therein;
A radiation detection sensor installed in the storage space for sensing radiation in the storage space;
A radiation dose calculation unit for calculating a radiation dose based on the detection result of the radiation detection sensor;
A food inflow sensing unit for sensing inflow of food into the storage space;
Calculating a first radiation dose for the amount of radiation in the storage space before the introduction of food and a second radiation dose for the amount of radiation in the storage space after the food has been introduced, And a main control unit for controlling the radiation amount of the food and the amount of radiation of the food introduced into the storage space based on the deviation of the first radiation amount and the second radiation amount.
The method according to claim 1,
The radiation dose calculation unit
And the first radiation dose and the second radiation dose are calculated with a cumulative radiation dose for a predetermined period of time.
The method according to claim 1,
Further comprising a door that opens and closes the main body,
Wherein the food inflow sensing unit includes a door opening / closing sensor for sensing opening / closing of the door;
Wherein the main control unit determines that food is introduced when the door opening / closing detection unit detects opening / closing of the door.
The method of claim 3,
And a front display unit installed on a front surface of the door;
The main control unit
Wherein a warning message is displayed on the front display unit when a deviation between the first radiation dose and the second radiation dose exceeds a predetermined reference dose.
A radiation detecting method using a radiation detecting sensor installed in a refrigerator,
(a) detecting whether food is introduced into the storage space of the refrigerator;
(b) calculating a first radiation dose for the amount of radiation in the storage space before the inflow of food into the storage space of the refrigerator is sensed in the step (a);
(c) calculating a second radiation dose with respect to a radiation dose in the storage space after the inflow of food into the storage space of the refrigerator is sensed in step (a);
(d) measuring a radiation dose of the food introduced in the step (a) based on a deviation between the first radiation dose and the second radiation dose. Radiation detection method.
6. The method of claim 5,
Wherein the cumulative radiation dose for a predetermined period of time is calculated as the first radiation dose and the second radiation dose in the steps (b) and (c). .
6. The method of claim 5,
The step (a)
(a1) detecting whether the door of the refrigerator is opened or closed,
(a2) when the door is opened or closed in the step (a1), determining that the food is inflowed into the refrigerator.
8. The method of claim 7,
(e) when the deviation between the first radiation dose and the second radiation dose in the step (d) exceeds a predetermined reference dose, a warning message is displayed. The radiation detection method used.
A plurality of refrigerators installed in respective homes and having a network section connected to a communication network,
And a radiation monitoring center connected to each of the refrigerators through the communication network,
Each of the refrigerator
A radiation detection sensor for detecting radiation,
A radiation dose calculation unit for calculating a radiation dose based on the detection result of the radiation detection sensor,
And a main control unit for transmitting the radiation dose calculated by the radiation dose calculation unit to the radiation monitoring center through the network unit;
Wherein the radiation monitoring center analyzes a radiation propagation state of a corresponding area based on a radiation dose transmitted from each of the refrigerators.

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