JP2015042926A - Refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a refrigerator that allows a user to grasp a storage condition in a closed container provided in a storage chamber of the refrigerator without opening the closed container.SOLUTION: A refrigerator 1 according to an embodiment comprises: a closed container 20 that is provided in a refrigerating chamber 11 serving as a storage chamber and forms a closed space 20b; and an imaging camera serving as imaging means that images the closed space 20b. Because an image is affected if an oxygen reducing device for adjusting an oxygen concentration in the closed space is operated, imaging is performed in conjunction with the timing of its operation.

Description

  Embodiments of the present invention relate to a refrigerator.

  Conventionally, a refrigerator provided with a camera (imaging means) that images a storage room has been proposed (see, for example, Patent Document 1).

JP 2012-251722 A

However, when a sealed container that forms a sealed space is installed in the storage room, the inside of the sealed container cannot be imaged and the storage state cannot be grasped. Moreover, if the sealed container is opened, the environment in the sealed space may change and affect the food.
The problem to be solved by the present invention is to provide a refrigerator capable of grasping the storage state without opening the sealed container.

  The refrigerator according to the embodiment includes a sealed container that is provided in a storage chamber and forms a sealed space, and an imaging unit that images the sealed space.

The figure which shows typically the structure of the household appliance network to which the refrigerator of one Embodiment is applied. The figure which shows the structure of the refrigerator of one Embodiment typically. The figure which shows typically the electric constitution of the refrigerator of one Embodiment. The figure which shows the airtight container of one Embodiment typically The figure which shows the flow of the imaging process in the refrigerator of one Embodiment The figure which shows typically the structure of the airtight container of other embodiment, and the arrangement | positioning aspect of an imaging camera

Hereinafter, an embodiment will be described with reference to FIGS. 1 to 5.
As shown in FIG. 1, the refrigerator 1 of the present embodiment is provided with a communication adapter 2 as a communication means, and is connected to a portable terminal 4 via an access point 3 or an external server 6 via an external network 5. Can communicate with each other. The communication adapter 2 performs short-distance wireless communication with the access point 3 and the portable terminal 4 in the room. In this embodiment, the communication adapter 2 can be attached to and detached from the top of the refrigerator 1 as shown in FIG. ). The communication adapter 2 may be built in the refrigerator 1. The portable terminal 4 assumes what is called a smart phone (high-function mobile phone), a tablet PC, and the like, and can communicate with the refrigerator 1 and the server 6 from inside or outside the house as shown in FIG. . This portable terminal 4 can communicate with the refrigerator 1 by wide-area communication via the external network 5 even in the house, and communicate with the refrigerator 1 by short-range communication via the access point 3. Is also possible. In addition, you may connect between the refrigerator 1 and the access point 3 not only with a wireless communication system but with a wired communication system.

  The server 6 is configured by a known computer system, stores information (for example, an IP address) for accessing the refrigerator 1, and takes an image with an imaging camera 41 (see FIG. 3) as will be described later. The image information in the sealed space 20b (see FIG. 2) is stored. Here, the image information is information (data) indicating an image in the cabinet, and for example, image data (including still images and moving images) in a known format such as a bitmap format, JPEG format, or MPEG format, and the image Information in any format can be used as long as it can be transmitted via communication means and can finally display an image, such as data converted by compression, encryption, or image processing. May be.

Next, the configuration of the refrigerator 1 will be described.
As shown in FIG. 2, the refrigerator 1 is provided with a refrigerator room 11, a vegetable room 12, an ice making room 13, and a freezing room 14 in order from the top in the main body 10. The refrigerator compartment 11 and the vegetable compartment 12 and the ice making compartment 13 are partitioned by a heat insulating partition wall. The refrigerator compartment 11 is opened and closed by a door 11a, and the vegetable compartment 12, the ice making compartment 13 and the freezer compartment 14 are opened and closed by a pull-out door 12a, door 13a and door 14a, respectively. Each door is provided with an opening sensor 37 (see FIG. 3) for detecting the open / closed state. In addition, the structure of the refrigerator 1 shown in FIG. 2 is an example, and the structure where the arrangement | positioning order of each store room differs may be sufficient.

  Behind the refrigerating room 11, a refrigerating cooler 15 for the refrigerating room 11 and the vegetable room 12 and a refrigerating fan 16 for circulating the air cooled by the refrigerating cooler 15 are provided. Behind the ice making chamber 13, a freezing cooler 17 for the ice making chamber 13 and the freezing chamber 14 and a freezing fan 18 for circulating the air cooled by the freezing cooler 17 are provided. The refrigeration cooler 15 and the refrigeration cooler 17 are driven by a compressor 19 disposed behind the freezer compartment 14, and together with the compressor 19 constitute a known refrigeration cycle. The operation state of the refrigeration cycle is controlled according to the internal temperature detected by the temperature sensor 36.

Although details will be described later, a sealed container 20 is installed at the bottom of the vegetable compartment 12. A sealed space 20b is formed inside the sealed container 20, and the freshness of the food is maintained by storing the food in the sealed space 20b in a low oxygen state. In the sealed space 20b, the oxygen concentration is lowered by the oxygen reduction device 21 attached to the sealed container 20.
The refrigerator 1 having such a configuration is controlled by a control unit 30 as shown in FIG. The control part 30 is comprised by the computer which has CPU31, ROM32, RAM33, timer 34, etc., for example, controls the whole refrigerator 1 according to the computer program memorize | stored in ROM32 etc., for example. More specifically, the control unit 30 determines the operation state set from the operation panel, the temperature of each storage room detected by the temperature sensor 36, the door open / close state detected by the door opening sensor 37, and the like. Control the operating state of the refrigeration cycle.

  The refrigerator compartment lighting 38 (illumination means, interior lighting) is provided on the ceiling of the refrigerator compartment 11 (see FIG. 2), and is turned on when the door 11a of the refrigerator compartment 11 is opened, and the whole refrigerator compartment 11 is illuminated. It comes to light up. The vegetable room lighting 39 (illuminating means, interior lighting) is provided in the vegetable room 12, and lights when the door 12a of the vegetable room 12 is opened to illuminate the inside of the vegetable room 12. ing. Moreover, the shelf board 11b (refer FIG. 2) provided in the refrigerator compartment 11 is formed with the transparent glass material in this embodiment, and permeate | transmits the light of the refrigerator compartment illumination 38 to the lower part of the refrigerator compartment 11. FIG. That is, the shelf board 11b which is a structure existing between the vegetable room illumination 39 as the illumination means and the sealed container 20 is formed of a translucent material.

  The imaging camera 41 (imaging means) has an imaging element such as a CCD sensor or a CMOS sensor, and images the inside of the sealed container 20, that is, the sealed space 20b. In this embodiment, the imaging camera 41 is assumed to be capable of capturing a color image, but may be a monochrome image or a moving image. The imaging camera 41 has a wide-angle lens attached, and can capture an image with a large angle of view even when the object is present at a relatively short distance. The imaging lamp 42 is configured by a light emitting diode (LED) in the present embodiment, and functions as an illuminating means for illuminating the sealed space 20b by being lit when the imaging camera 41 takes an image.

Here, the detail of the airtight container 20 is demonstrated, referring FIG.
As shown in FIGS. 4 (A) and 4 (B), the sealed container 20 has a substantially rectangular parallelepiped container body 20a which is hollow and slightly narrowed on the rear side (oxygen reduction device 21 side). A sealed space 20b is formed in the main body 20a. The container body 20a is formed of a heat insulating member, and can be kept in a sealed state by a seal member (not shown) provided in an opening (not shown) through which food is taken in and out. In addition, as shown in FIG. 4B, the sealed container 20 is provided with a photocatalyst 20c on the inner surface side, so that the odor components in the sealed space 20b can be decomposed and bacteria can be removed.

  The oxygen concentration of the sealed space 20 b formed by such a sealed container 20 is lowered by the oxygen reduction device 21. The oxygen reduction device 21 reduces the oxygen concentration in the sealed space 20b by an electrochemical method using a polymer electrolyte membrane method. Specifically, the oxygen reduction device 21 is not shown, but a polymer electrolyte membrane, a cathode and an anode provided with a current collector, an insulator, a water repellent layer formed of a polymer film sandwiching them, and the like The water-repellent layer on the cathode side of the oxygen reduction unit is installed so as to be exposed to the sealed space 20b through the vent hole 20d provided in the container body 20a. ing. When the oxygen reduction device 21 is operated, water is supplied to the anode side (in this embodiment, it is supplied with water vapor), and chemical reactions occur on the anode side and the cathode side as shown in the following reaction formulas. Arise.

・ Anode side 2H ₂ O → O ₂ + 4H ⁺ + 4e ⁻
・ Cathode side O ₂ + 4H ⁺ + 4e ⁻ → 2H ₂ O
To explain this reaction formula, water (H ₂ O) supplied on the anode side is electrolyzed to form hydrogen ions (H ⁺ ), and the hydrogen ions move to the cathode side through the polymer electrolyte membrane and the like. Reacts with oxygen on the cathode side to produce water. Thereby, oxygen in the sealed space 20b is consumed, and the oxygen concentration decreases. That is, oxygen (O ₂ ) is removed from the air in the sealed space 20b, and the oxygen concentration is reduced (oxygen reduction is performed). The oxygen reduction device 21 may be operated periodically, or may be operated when an oxygen concentration sensor or the like is provided to detect that the oxygen concentration has reached a predetermined value. The storage state of the foodstuff may be grasped on the basis of the image picked up in (5), and the oxygen reduction device 21 may be operated based on the storage state.

  Now, as shown in FIG. 4B, the sealed container 20 is provided with a storage chamber 40 on the upper side of the container body 20a. As shown in FIG. 4C, the storage chamber 40 is formed by making the inner surface side of the container body 20a concave, and the imaging camera 41 and the imaging lamp 42 are accommodated therein. Moreover, the window member 43 is provided in the sealed space 20b side of the storage chamber 40, and partitions between the storage chamber 40 and the sealed space 20b. In the case of this embodiment, since oxygen is reduced electrochemically as described above, the inside of the sealed space 20b is at normal pressure. Therefore, even if the container main body 20a is concaved to form the storage chamber 40 (that is, even if the thickness of the storage chamber 40 is thinner than other portions), the container main body 20a will not have sufficient strength. Absent. In addition, since the storage chamber 40 is provided above the sealed space 20b, it is possible to view almost the entire area in the sealed space 20b even when food is stored. Although not shown in FIG. 4C, the imaging camera 41 and the imaging lamp 42 are mounted on the substrate and connected to the control unit 30. The field-of-view range of the imaging camera 41 may be such that the ends (front and rear, left and right ends of the bottom) of the opposing wall of the imaging camera 41 (the bottom of the container body 20a) enter. Also, it is recommended that the four corners enter.

  The window member 43 of the storage chamber 40 corresponds to a structure positioned between the imaging camera 41 as the imaging means and the sealed space 20b, and is formed of a transparent material such as glass. For this reason, the visual field of the imaging camera 41 is not prevented by the window member 43. Further, the light from the imaging lamp 42 is not blocked by the window member 43. Further, the imaging camera 41 and the lens are not soiled. Therefore, in the present embodiment, the imaging lamp 42 that can irradiate light in the sealed space 20b is used not only as an imaging light source but also as a light source for exciting the photocatalyst 20c. The imaging lamp 42 is installed so as to face the sealed space 20b side, like the imaging camera 41.

Next, the effect | action of the refrigerator 1 of an above-described structure is demonstrated.
The control part 30 of the refrigerator 1 is performing the imaging process shown in FIG. 5, and determines whether it became the imaging timing (S1). In the present embodiment, the following timing is set as the imaging timing.
-When a user gives an imaging instruction from a remote instruction means such as the portable terminal 4-Before the control unit 30 operates the oxygen reduction device 21 Of these, before operating the oxygen reduction device 21, more strictly speaking Immediately before the oxygen reduction device 21 is operated. This is because, as described above, when oxygen is reduced, water is generated on the cathode side. Therefore, when the oxygen reduction device 21 is operated, the humidity in the sealed space 20b increases, and condensation may occur in the window member 43. Because there is. For this reason, a clear visual field can be ensured by imaging immediately before operating the oxygen reduction device 21. Further, it is considered that the oxygen reduction device 21 is operated in a state where the oxygen concentration is increased. In other words, it is considered that the storage state of the food has changed, such as the sealed space 20b being opened. Therefore, the latest storage state can be imaged by imaging at a timing immediately before the oxygen reduction device 21 is operated.

  When it is determined that any timing has come (S1: YES), the control unit 30 images the inside of the sealed space 20b (S2) and transmits the captured image data to the server 6 (S3). Thereby, the image data in the sealed room is stored in the server 6, and the user can grasp the situation in the sealed space 20 b by accessing the server 6. In the present embodiment, the image data is basically stored in the server 6, but when imaged according to an instruction from the mobile terminal 4, the image data is directly stored in the mobile terminal 4 instead of the server 6. It is good also as a structure which transmits.

According to this embodiment described above, the following effects can be obtained.
The refrigerator 1 is provided in a storage room such as the vegetable compartment 12, and includes a sealed container 20 that forms a sealed space 20b and an imaging camera 41 as an imaging unit that images the sealed space 20b. The storage state of foods and the like in the sealed space 20b can be grasped without making the open state.
Since the oxygen reduction device 21 for reducing the oxygen concentration in the sealed space 20b is provided, the oxidation of the food can be suppressed by reducing the oxygen, and the food can be stored while maintaining the freshness. And since it can image, without changing the state in which oxygen reduction was performed (that is, without opening the airtight container 20), the preservation | save state of a foodstuff can be kept favorable.

Since the oxygen reduction device 21 electrochemically reduces the oxygen concentration in the sealed space 20b under normal pressure, even if the container body 20a is provided with a recess for forming the storage chamber 40, the strength does not become insufficient. Therefore, the storage chamber 40 can be provided in the sealed container 20.
In addition, since the imaging camera 41 is installed in the recess and the lens is positioned away from the wall surface, the food does not contact the lens and is not easily captured. In particular, when the drawer container is inside, it becomes easy for main items such as foods to hit the ceiling, but similarly, it is not difficult to project. Further, if the protective means for protecting the lens, which is a transparent member, from being soiled is also configured so as not to be indented from the wall surface, the transparent member will not be soiled, so that the effect is further enhanced. Further, by applying a transparent light workplace soot on the surface of the transparent member, even if it is soiled, it becomes easy to remove the soil, and it is possible to reduce the difficulty of being captured.

At this time, since the imaging camera 41 as an imaging unit is installed in the sealed container 20, the inside of the sealed space 20b can be directly imaged, and the storage state and freshness of the food can be accurately grasped. it can. Moreover, even if it is the state which stored the foodstuff by providing above the sealed space 20b like embodiment, it can put the substantially whole area in the sealed space 20b in view.
Moreover, since the imaging camera 41 is provided in the sealed space 20b, the inside of the sealed space 20b can be accommodated in the visual field even in the upper side or the side as in the embodiment, and the degree of freedom of the installation position is high. In addition, since the degree of freedom of the installation position is high, it is possible to take an arrangement so that the imaging lamp 42 is not backlit, and a clear image can be taken.

Further, since the imaging camera 41 is accommodated in the accommodating chamber 40 provided in the sealed container 20, even if the humidity of the sealed space 20b increases when oxygen is reduced, the accommodation partitioned by the window member 43 is accommodated. Since the increase in humidity is mitigated in the chamber 40, the risk of condensation or cloudiness can be reduced.
Since the window member 43, which is a structure located between the imaging camera 41 and the sealed space 20b, is formed of a transparent material, there is no obstacle when imaging the sealed space 20b.
Since the imaging lamp 42 which is an illumination means for illuminating the sealed space 20b is provided in the sealed space 20b, the light from the imaging lamp 42 is not blocked. Therefore, the inside of the sealed space 20b can be illuminated with a sufficient amount of light for imaging.

Further, since the imaging camera 41 is installed at a position not facing the imaging lamp 42, that is, the field of view of the imaging camera 41 and the irradiation direction of the imaging lamp 42 are the same direction, there is no backlight. Therefore, the inside of the sealed space 20b can be clearly imaged.
Since the photocatalyst 20c is applied to the inside of the sealed container 20, odor components and germs can be reduced. And in this embodiment, since the imaging lamp 42 installed in the sealed space 20b can be used as an energy source for exciting the photocatalyst 20c, the number of parts can be reduced.
Since the imaging camera 41 captures the sealed space 20b at a timing before the oxygen concentration is lowered by the oxygen reduction device 21, that is, the imaging is performed before the humidity rises, so that a clear image with no condensation is captured. can do.
Moreover, since imaging is performed when an imaging instruction is given from the mobile terminal 4 as in the embodiment, the latest image data can be provided to the user at a desired timing.
In addition, since the oxygen reduction device 21 performs the oxygen reduction scientifically, the inside is normal pressure, and even if the imaging camera 41 is attached to the inside of the sealed container 20, the pressure is constant and the pressure changes. It is possible to eliminate the failure caused by.

(Other embodiments)
The present invention is not limited to those exemplified in the above-described embodiment, and can be modified or expanded.
In the embodiment, an example in which the imaging camera 41 is provided in the end chamber in the sealed container 20 is shown. However, as shown in FIG. 6A, for example, the imaging camera 41 is outside the sealed container 20 (for example, in the vegetable chamber 12). It may be provided on the lower side. Even with such a configuration, the inside of the sealed space 20b can be imaged without opening the sealed container 20.
In one embodiment, the oxygen reduction device 21 is attached to the sealed container 20, but the oxygen reduction device 21 may not be provided. Further, the sealed space 20b may be any space that is sealed in the storage room, and may be, for example, a chilled room or an egg room.

  In that case, for example, a window member 50 formed of a transparent material is provided on at least a part of the sealed container 20 (in the case of FIG. 6A, a part on the upper side of the container body 20a), and light from the outside of the sealed container 20 is provided. It is good also as a structure which takes in. Specifically, the refrigerator compartment illumination 38 which is the interior illumination provided in the refrigerator compartment 11 as a storage compartment can be employ | adopted as an illumination means. And the shelf board 11b which is a structure located between the refrigerator compartment illumination 38 provided in the upper part of the refrigerator compartment 11 and the airtight container 20 is formed with a translucent material, From the refrigerator compartment illumination 38 Light can be taken into the sealed space 20b.

When the imaging camera 41 is installed outside the sealed container 20, it may be arranged in front of the sealed container 20 as shown in FIG. In this case, the sealed space 20b can be imaged by providing the window member 50 on the front side of the sealed container 20. At this time, the imaging lamp 42 may be provided in the sealed container 20, provided in a state where it is not adjacent to the imaging camera 41, or the light from the refrigerator compartment lighting 38 is taken in from the window member 50. It is good.
Further, as shown in FIG. 6C, the imaging camera 41 may be installed in the sealed space 20b, and light from, for example, the refrigerator compartment illumination 38 may be taken in from the window member 50.
In the case of FIGS. 6A to 6C, if the oxygen reduction is performed by an electrochemical method as in the embodiment, the strength is a problem even if the window member 50 is provided in the sealed container 20. The risk of becoming a limit can be reduced as much as possible.

  In the embodiment, two imaging timings are illustrated. For example, a lid opening / closing sensor is provided in the sealed container 20, and the lid opening / closing timing (more strictly, after the lid is opened and closed). The timing may be taken at a later timing), or the imaging time may be registered in advance, and the imaging may be performed at the timing when the set imaging time is reached. Of course, these multiple timings may be used together, or only one of them may be adopted. In any case, any timing may be set as long as it meets the user's wishes. In addition, if an existing sensor such as the door opening sensor 36 is used to capture an image when the door of the refrigerator 1 is opened and closed (a timing at which the storage state may change), a new sensor or the like is added. The latest state can be imaged without providing a member.

  In one embodiment, oxygen is reduced by an electrochemical method. However, the oxygen reduction device 21 reduces the pressure of the sealed space 20b to a pressure lower than the atmospheric pressure (that is, by making a vacuum state by evacuation). It is good also as a structure which reduces oxygen concentration. Also in this case, the freshness of the food can be maintained by reducing the oxygen concentration.

  In this case, you may set the timing which images the inside of the sealed space 20b with the imaging camera 41, after the process in which the oxygen reduction apparatus 21 reduces oxygen concentration is started. This is because the oxygen reduction device 21 is operated to make the inside of the sealed space 20b in a vacuum state when the sealed space 20b is opened, that is, when the storage state of the food is changed. By capturing an image, it is possible to obtain image data from which the latest storage state can be grasped. In addition, since the pressure reduction is started at the timing when the lid is closed and the airtight state is reached, it is preferable to take an image at that timing. In addition, since electric noise or the like may be generated during evacuation, noise can be reduced by taking an image after the operation of the oxygen reduction device 21 is completed.

In this case, since a vacuum pump is provided and the inside of the container (sealed container 20 or the like) is depressurized, if the imaging camera 41 is provided directly in the container, there is a possibility of failure due to pressure fluctuation. As in B), it is desirable that the camera device 41 be outside the container. Alternatively, by making the window member 43 shown in FIG. 4 a transparent plate such as glass having strength, the imaging camera 41 can be prevented from being subjected to pressure (is not affected by the change in pressure).
In one embodiment, an example in which the sealed container 20 is installed in the refrigerator compartment 11 has been shown, but it may be installed in the vegetable compartment 12. In this case, the imaging camera 41 and the imaging lamp 42 may be provided in the sealed container 20 as in the embodiment, or the vegetable room illumination 39 may be used as illumination means outside the sealed container 20.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  In the drawings, 1 is a refrigerator, 11 is a refrigerator room (storage room), 12 is a vegetable room (storage room), 14 is a freezing room (storage room), 20 is a sealed container, 20b is a sealed space, 20c is a photocatalyst, 21 is Oxygen reduction device, 37 is cold room illumination (illumination means), 38 is vegetable room illumination (illumination means), 39 is a shelf (structure), 41 is a camera device (imaging means), and 42 is closed room illumination (illumination means). ), 43 and 50 denote window members (structures).

Claims (15)

A sealed container provided in the storage chamber and forming a sealed space;
Imaging means for imaging the sealed space;
A refrigerator comprising:   The refrigerator according to claim 1, further comprising an oxygen reduction device that reduces an oxygen concentration in the sealed space.   The refrigerator according to claim 2, wherein the oxygen reduction device electrochemically reduces the oxygen concentration in the sealed space under normal pressure.   The refrigerator according to claim 3, wherein the imaging unit images the sealed space at a timing before the oxygen reduction device reduces the oxygen concentration.   The refrigerator according to claim 2, wherein the oxygen reduction device reduces the oxygen concentration in the sealed space by reducing the pressure in the sealed container to a pressure lower than atmospheric pressure.   The refrigerator according to claim 5, wherein the imaging unit images the sealed space when the oxygen reduction device reduces the oxygen concentration.   The refrigerator according to any one of claims 1 to 6, wherein the imaging means is installed in the sealed container.   The refrigerator according to claim 7, wherein the imaging unit is housed in a housing chamber provided in the sealed container.   The refrigerator according to any one of claims 1 to 6, wherein the imaging unit is installed outside the sealed container.   The refrigerator according to any one of claims 1 to 9, wherein a structure positioned between the imaging unit and the sealed space is formed of a transparent material.   The refrigerator according to any one of claims 1 to 10, wherein illumination means for illuminating the sealed space is provided in the sealed space.   The interior lighting provided in the said storage room is used as an illuminating means which forms at least one part of the said airtight container with a translucent material, and illuminates the said airtight space, The any one of Claim 1 to 10 characterized by the above-mentioned. A refrigerator according to claim 1. The interior lighting is provided in the upper part of the storage room,
The sealed container is formed of at least a part of its upper part with a translucent material,
13. The refrigerator according to claim 12, wherein the structure located between the interior lighting and the sealed container is formed of a translucent material.   The refrigerator according to any one of claims 11 to 13, wherein the imaging unit is installed at a position not facing the illumination unit.   The refrigerator according to any one of claims 1 to 14, wherein the sealed container is provided with a photocatalyst.

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