JP2019095191A - refrigerator - Google Patents

Abstract

To provide a refrigerator which enables a user to grasp a storage state without opening a storage room.SOLUTION: A refrigerator according to an embodiment includes: a body; a drawer type storage room formed in the body; a door which opens or closes the storage room; lighting means which lights an interior of the storage room; imaging means which images the interior of the storage room; and a control part which controls the imaging means. The imaging means is disposed in a ceiling portion of the storage room.SELECTED DRAWING: Figure 2

Description

  Embodiments of the present invention relate to a refrigerator.

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

JP, 2012-251722, A

  However, the closed storage room could not be imaged and the storage state was not grasped. In addition, when the storage room is opened, the environment in the storage room may be changed to affect the food.

  Problem to be solved by the invention is providing the refrigerator which can grasp a storage state, without opening a storage room.

  In the refrigerator according to the embodiment, the refrigerator according to the embodiment includes a main body, a drawer-type storage room formed in the main body, a door for opening and closing the storage room, illumination means for illuminating the storage room, and imaging means for imaging the storage room And a control unit that controls the imaging unit, and the imaging unit is disposed at a ceiling portion of the storage room.

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 typically the structure of the refrigerator of one Embodiment The figure which shows typically the electric constitution of the refrigerator of one Embodiment The figure which shows typically the airtight container of one Embodiment 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, one 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 the portable terminal 4 through the access point 3 and the external server 6 through the external network 5 It is possible to 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, and in the present embodiment, it can be attached to and removed from the top of the refrigerator 1 as shown in FIG. Provided in). The communication adapter 2 may be built in the refrigerator 1. The mobile terminal 4 assumes a so-called smart phone (high-performance mobile phone), a tablet PC, etc., and can communicate with the refrigerator 1 or the server 6 from inside or outside the house as shown in FIG. . The portable terminal 4 can communicate with the refrigerator 1 by wide area communication via the external network 5 even in a house, or communicate with the refrigerator 1 by short distance communication via the access point 3 Is also possible. The refrigerator 1 and the access point 3 may be connected not only by the wireless communication method but also by the wired communication method.

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

Next, the configuration of the refrigerator 1 will be described.
As the refrigerator 1 is shown in FIG. 2, the refrigerator compartment 11, the vegetable compartment 12, the icemaker 13, and the freezer compartment 14 are provided in the main body 10 sequentially from the top. The cold storage room 11 and the vegetable room 12 and the ice making room 13 are separated by an insulating partition wall. The refrigerator compartment 11 is opened and closed by a door 11a, and the vegetable compartment 12, the icemaker 13 and the freezer compartment 14 are opened and closed by a drawer type door 12a, a door 13a and a door 14a, respectively. In addition, each door is provided with an open sensor 37 (see FIG. 3) for detecting the open / close state thereof. In addition, the structure of the refrigerator 1 shown in FIG. 2 is an example, and the arrangement | positioning order of each storage chamber may differ, etc. may be sufficient as it.

  Behind the refrigerator compartment 11, a refrigerator cooler 15 for the refrigerator compartment 11 and the vegetable compartment 12 and a refrigerator fan 16 for circulating the air cooled by the refrigerator refrigerator 15 are provided. Further, 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 constitute a well-known refrigeration cycle together with the compressor 19. The operation state of the refrigeration cycle is controlled in accordance with the internal temperature detected by the temperature sensor 36.

  Moreover, although the details will be described later, a sealed container 20 is installed at the bottom of the refrigerator compartment 11. A sealed space 20 b is formed inside the sealed container 20, and the freshness of the food is maintained by storing the food in a low oxygen state in the sealed space 20 b. In the enclosed space 20b, the oxygen concentration is reduced by the oxygen reducing device 21 attached to the enclosed container 20.

  The refrigerator 1 of such a structure is controlled by the control part 30, as shown in FIG. The control unit 30 is configured by a computer having a CPU 31, a ROM 32, a RAM 33, a timer 34, and the like, and controls the entire refrigerator 1 according to a computer program stored in the ROM 32, for example. More specifically, control unit 30 responds to the operating state set from the operation panel, the temperature of each storage chamber detected by temperature sensor 36, and the open / close state of the door detected by opening sensor 37, etc. Control the operating state of the refrigeration cycle.

  The refrigerator compartment lighting 38 (lighting means, interior lighting) is provided on the ceiling of the refrigerator compartment 11 (see FIG. 2), and lights up when the door 11a of the refrigerator compartment 11 is opened to display the entire refrigerator compartment 11 It is designed to light up. In addition, a vegetable room light 39 (lighting means, lighting in the refrigerator) is provided in the vegetable room 12, and lights up when the door 12a of the vegetable room 12 is opened to illuminate the inside of the vegetable room 12. ing. Moreover, the shelf 11b (refer FIG. 2) provided in the refrigerator compartment 11 is formed by 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. As shown in FIG. That is, the shelf board 11b which is a structure which exists between the refrigerator compartment lighting 38 which is lighting means, and the airtight container 20 is formed of a translucent material.

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

Here, the details of the closed container 20 will be described with reference to FIG.
As shown in FIGS. 4 (A) and 4 (B), the closed container 20 has a substantially rectangular parallelepiped container body 20a which is slightly hollow on the rear side (oxygen reducing device 21 side), and the container An enclosed space 20b is formed in the main body 20a. The container main body 20a is formed of a heat insulating member, and the sealed state can be maintained by a sealing member (not shown) provided at an opening (not shown) for taking in and out the food. Moreover, as shown to FIG. 4 (B), the photocatalyst 20c is given to the inner surface side, and the airtight container 20 can decompose | disassemble the odor component in the airtight space 20b, and removal of a microbe.

  The oxygen concentration of the enclosed space 20 b formed by the enclosed container 20 is reduced by the oxygen reduction apparatus 21. The oxygen reducing device 21 reduces the oxygen concentration in the enclosed space 20 b by an electrochemical method using a polymer electrolyte membrane method. Specifically, although not shown, the oxygen reducing device 21 includes a polymer electrolyte membrane, a cathode and an anode provided with a current collector, an insulator, and a water repellent layer formed of polymer films sandwiching them. The water repellent layer on the cathode side of the oxygen reducing unit is installed in a state of being exposed to the closed space 20b by the vent hole 20d provided in the container body 20a. ing. Then, when the oxygen reducing device 21 is operated, water is supplied to the anode side (in the present embodiment, it is supplied by steam), and chemical reactions are respectively performed on the anode side and the cathode side as in the following reaction formula. It occurs.

· Anode side 2H ₂ O → O ₂ + 4H ⁺ + 4e ⁻
・ Cathode side O ₂ + 4H ⁺ + 4e ⁻ → 2H ₂ O
Explaining 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 etc. And react with oxygen on the cathode side to produce water. Thereby, the oxygen in the enclosed space 20b is consumed, and the oxygen concentration is reduced. That is, oxygen (O ₂ ) is removed from the air in the enclosed space 20b, and the oxygen concentration is reduced (oxygen reduction is performed). Note that the oxygen reduction device 21 may be operated periodically, or may be operated when an oxygen concentration sensor or the like is provided and it is detected that the oxygen concentration has reached a predetermined value. The storage condition of the food may be grasped on the basis of the image captured in step (d), and the oxygen reducing device 21 may be operated based on the storage condition.

  By the way, as shown in FIG. 4 (B), a storage chamber 40 is provided on the upper side of the container main body 20 a in the closed container 20. The storage chamber 40 is formed by making the inner surface side of the container main body 20a concave as shown in FIG. 4C, and the imaging camera 41 and the imaging lamp 42 are accommodated. In addition, a window member 43 is provided on the closed space 20b side of the storage room 40, and partitions the space between the storage room 40 and the closed space 20b. In the case of the present embodiment, since the oxygen reduction is performed electrochemically as described above, the pressure in the enclosed space 20b is normal pressure. Therefore, even if the container body 20a is formed in a concave shape to form the storage chamber 40 (that is, even if the thickness of the storage chamber 40 becomes thinner than other portions), the strength of the container body 20a is insufficient. Absent. In addition, since the storage chamber 40 is provided above the sealed space 20b, it is possible to put the entire area of the sealed space 20b into view even when food is stored. Although not shown in FIG. 4C, the imaging camera 41 and the imaging lamp 42 are mounted on a substrate and connected to the control unit 30. The field of view of the imaging camera 41 may be such that the end (the front, rear, left and right ends of the bottom) of the opposing wall of the imaging camera 41 (the bottom of the container body 20a) is included. Also, it is good to have four corners.

  The window member 43 of the storage chamber 40 corresponds to a structure located between the imaging camera 41 as an imaging means and the sealed space 20b, and is formed of a transparent material such as glass. Therefore, the field of view of the imaging camera 41 is not blocked by the window member 43. In addition, the light from the imaging lamp 42 is not blocked by the window member 43. In addition, the imaging camera 41 and the lens are not soiled. Therefore, in the present embodiment, the imaging lamp 42 capable of emitting light into the enclosed space 20b is used not only as a light source for imaging but also as a light source for exciting the photocatalyst 20c. Like the imaging camera 41, the imaging lamp 42 is installed so as to face the closed space 20b.

Next, the operation of the refrigerator 1 configured as described above will be described.
The control unit 30 of the refrigerator 1 executes the imaging process shown in FIG. 5 and determines whether the imaging timing has come (S1). In the present embodiment, the following timings are set as the imaging timings.

· When the user gives an imaging instruction from the remote instruction means such as the portable terminal 4 etc. · Before the control unit 30 operates the oxygen reduction device 21 Before that, the oxygen reduction device 21 is operated more strictly speaking , And immediately before operating the oxygen reduction device 21. This is because water is generated on the cathode side when oxygen reduction is performed as described above, so when the oxygen reduction device 21 is operated, the humidity in the enclosed space 20b becomes high, which may cause condensation on the window member 43. There is For this reason, by imaging immediately before operating the oxygen reduction device 21, a clear visual field can be secured. Further, it is considered that the operation of the oxygen reducing apparatus 21 is a state in which the oxygen concentration is increased. In other words, it is considered that the storage state of the food material is changed, for example, the closed space 20b is opened. Therefore, it becomes possible to image the latest storage state by imaging immediately before operating the oxygen reduction device 21.

  If the control unit 30 determines that one of the timings has come (S1: YES), the inside of the enclosed space 20b is imaged (S2), and the imaged image data is transmitted to the server 6 (S3). Thereby, the image data in the enclosed room is stored in the server 6, and the user can grasp the situation in the enclosed space 20b by accessing the server 6. In the present embodiment, the image data is basically stored in the server 6. However, when imaging is performed according to an instruction from the portable terminal 4, the image data is directly transmitted to the portable terminal 4 instead of the server 6. May be transmitted.

According to the present embodiment described above, the following effects can be obtained.
The refrigerator 1 is provided in the storage room such as the cold storage room 11 or the vegetable room 12 and includes the closed container 20 forming the closed space 20b and the imaging camera 41 as an imaging unit that images the closed space 20b. The storage state of the food or the like in the sealed space 20b can be grasped without opening the sealed container 20.

  Since the oxygen reducing device 21 for reducing the oxygen concentration in the sealed space 20b is provided, oxidation of the food can be suppressed by performing the oxygen reduction, and the food can be stored with keeping the freshness. And since it can image without changing the state to which oxygen reduction was performed (that is, without opening the airtight container 20), the preservation state of foodstuffs can be maintained favorably.

  Since the oxygen reducing device 21 electrochemically reduces the oxygen concentration in the sealed space 20b under normal pressure, the strength does not become insufficient even if the container body 20a is provided with a recess for forming the storage chamber 40. 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 located away from the wall surface, the food does not come in contact with the lens and does not become difficult to capture. In particular, when the drawer container is inside, the main objects such as the food easily come into contact with the ceiling, but similarly, it does not become difficult to be reflected. In addition, if the protection means for protecting the lens, which is a transparent member, is also recessed from the wall surface so as not to be flush with the wall surface, the transparent member is also not soiled, so the effect is further enhanced. In addition, by applying a transparent light atmosphere to the surface of the transparent member, it becomes easy to remove the dirt even if it gets dirty, and it is possible to reduce the difficulty of capturing.

  At this time, since the imaging camera 41 as the imaging means 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. Further, as in the embodiment, by providing the space above the sealed space 20b, it is possible to put the entire area within the sealed space 20b into view even in the state where the food is stored.

  Further, since the imaging camera 41 is provided in the enclosed space 20b, the inside of the enclosed space 20b can be included in the field of view even in the upper or side as in the embodiment, and the degree of freedom of the installation position is high. Further, since the degree of freedom of the installation position is high, the imaging lamp 42 can be disposed so as not to be backlit, and a clear image can be captured.

  In addition, since the imaging camera 41 is accommodated in the accommodation chamber 40 provided in the enclosed container 20, the accommodation partitioned by the window member 43 is performed even if the humidity of the enclosed space 20b is increased when the oxygen reduction is performed. In the chamber 40, the increase in humidity is mitigated, so that the possibility of dew condensation and fogging can be reduced.

Since the window member 43 which is a structure located between the imaging camera 41 and the enclosed space 20b is formed of a transparent material, it does not cause an obstacle when imaging the enclosed space 20b.
Since the imaging lamp 42, which is illumination means for illuminating the enclosed space 20b, is provided in the enclosed space 20b, the light from the imaging lamp 42 is not blocked. Therefore, the inside of the enclosed space 20b can be illuminated with a light amount sufficient for imaging.

  Further, since the imaging camera 41 is disposed so as not to face 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 in the same direction, back light does not occur. Therefore, the inside of the enclosed space 20b can be clearly imaged.

  Since the photocatalyst 20c is applied to the inside of the closed container 20, odor components and bacteria can be reduced. And in this embodiment, since the imaging lamp 42 installed in the enclosed space 20b can be utilized as an energy source which excites the photocatalyst 20c, the number of parts can be reduced.

Since the imaging camera 41 images the closed space 20b at a timing before the oxygen concentration is reduced by the oxygen reduction device 21, that is, since imaging is performed before the humidity rises, a clear image without condensation or the like is imaged can do.
Further, as in the embodiment, since imaging is performed even when an imaging instruction is given from the portable terminal 4, the latest image data can be provided to the user at a desired timing.

  In addition, since the oxygen reducing apparatus 21 performs oxygen reduction electrically, the inside is normal pressure, and even if the imaging camera 41 is attached to the inside of the closed container 20, the pressure is constant and the pressure changes. It is possible to eliminate the failure caused by

(Other embodiments)
The present invention can be modified or expanded without being limited to those exemplified in the above-described embodiment.

  Although the example which provided the imaging camera 41 in the storage chamber in the airtight container 20 was shown in one embodiment, for example, as shown to FIG. 6 (A), the imaging camera 41 is outside the airtight container 20 (for example, It may be provided on the lower side). Even in such a configuration, the inside of the sealed space 20b can be imaged without opening the sealed container 20.

  Although the oxygen reducing device 21 is attached to the closed container 20 in one embodiment, the oxygen absorbing device 21 may not be provided. Moreover, as sealed space 20b, it may be a space sealed in the storage chamber, and may be, for example, a chilled chamber or an egg chamber.

  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 (a part on the upper side of the container body 20a in the case of FIG. 6A) May be adopted. Specifically, cold storage room lighting 38 which is interior lighting provided in the cold storage room 11 as a storage room can be adopted as a lighting means. Then, by forming the shelf board 11 b which is a structure located between the cold storage room illumination 38 provided on the upper part of the cold storage room 11 and the closed container 20 by a translucent material, the shelf board 11 b from the cold storage room illumination 38 Light can be introduced into the enclosed space 20b.

  When the imaging camera 41 is installed outside the closed container 20, it may be disposed in front of the closed container 20 as shown in FIG. 6 (B). In this case, by providing the window member 50 on the front side of the closed container 20, the closed space 20b can be imaged. At this time, the imaging lamp 42 may be provided in the sealed container 20 or may be provided adjacent to the imaging camera 41 so as not to face the light, or the light from the cold room lighting 38 or the like is taken from the window member 50 It may be

Further, as shown in FIG. 6C, the imaging camera 41 may be installed in the enclosed 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. 6 (A) to 6 (C), even if the closed container 20 is provided with the window member 50, if the oxygen reduction is performed by the electrochemical method as in the embodiment, the strength is a problem. Can be as low as possible.

  Although two imaging timings are illustrated in one embodiment, for example, the lid opening / closing sensor is provided in the closed container 20, and the timing when the lid is opened / closed (more precisely, after the lid is opened and closed) Imaging may be performed in advance), or imaging time may be registered in advance, and imaging may be performed at timing when the set imaging time is reached. Of course, these plural timings may be used in combination or only one of them may be adopted. Anyway, any timing may be set as long as it meets the user's request. In addition, if an image is taken at the timing when the door of the refrigerator 1 is opened and closed (at a timing when the storage state may have changed) using an existing sensor such as the opening sensor 37, a new sensor etc. is added The latest state can be imaged without providing a member.

  In one embodiment, the oxygen reduction was performed by the electrochemical method, but the oxygen reduction device 21 reduces the pressure of the enclosed space 20b to a pressure lower than the atmospheric pressure (that is, by reducing the pressure to a vacuum). The oxygen concentration may be reduced. Also in this case, the decrease in the oxygen concentration can maintain the freshness of the food.

  In this case, the timing at which the inside of the enclosed space 20b is imaged by the imaging camera 41 may be set after the process of reducing the oxygen concentration by the oxygen reduction apparatus 21 is started. This is because the deoxygenation device 21 operates to evacuate the enclosed space 20b when the enclosed space 20b is opened, that is, when the storage state of the food changes, so that the timing By imaging in the above, it is possible to obtain image data capable of grasping the latest storage state. In addition, since decompression is started at the timing when the lid is closed and sealed, it is preferable to perform imaging at that timing. In addition, since electrical noise and the like may occur during evacuation, noise can be reduced when imaging is performed after the operation of the oxygen reducing apparatus 21 is finished.

  In this case, since the vacuum pump is provided and the pressure in the container (the sealed container 20 etc.) is reduced, if the imaging camera 41 is directly provided in the container, there is a possibility of failure due to pressure fluctuation. It is desirable that the imaging camera 41 be located outside the container as in B). Alternatively, when the window member 43 shown in FIG. 4 is made of a transparent plate such as glass having strength, pressure does not apply to the imaging camera 41 (it is not affected by a change in pressure).

  Although the example which installed the airtight container 20 in the refrigerator compartment 11 was shown in one embodiment, you may be installed in the vegetable compartment 12. As shown in FIG. In this case, as in the embodiment, the imaging camera 41 and the imaging lamp 42 may be provided in the sealed container 20, or the vegetable room lighting 39 may be used as a lighting unit outside the sealed container 20.

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

  In the drawings, 1 is a refrigerator, 11 is a refrigerator (storage), 12 is a vegetable (storage), 14 is a freezer (storage), 20 is a sealed container, 20b is a sealed space, 20c is a photocatalyst, 21 is a photocatalyst Deoxygenation device 37: cold room lighting (lighting means) 38: vegetable room lighting (lighting means) 39: shelf board (structure) 41: camera device (imaging means) 42: closed room lighting (lighting means , 43, 50 indicate window members (structures).

Claims (4)

With the refrigerator body,
A drawer type storage room formed in the refrigerator body;
A door for opening and closing the storage room;
Illumination means for illuminating the storage room;
Imaging means for imaging the storage room;
A control unit that controls the imaging unit;
The imaging means is a refrigerator disposed in a ceiling portion of the storage room.   The refrigerator according to claim 1, wherein the illumination unit is disposed so as not to be a backlight of the imaging unit.   The refrigerator according to claim 1 or 2, wherein the illumination means is disposed above the imaging means in the storage room.   The refrigerator according to any one of claims 1 to 3, wherein the lighting means is accommodated in a recess formed in a ceiling portion of the storage room.

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