CN211695545U - Intelligent refrigerator - Google Patents

Abstract

The intelligent refrigerator is provided with a refrigerating chamber and a camera, wherein the camera is used for shooting objects in the refrigerating chamber, the refrigerating chamber is provided with a transparent outer wall, and the camera is arranged outside the refrigerating chamber and shoots through the transparent outer wall. After the software engineer programmed the camera, the camera can realize shooting the article inside the refrigerating chamber through the transparent outer wall of the refrigerating chamber, and because the camera is arranged outside the refrigerating chamber, the camera cannot be influenced by the temperature and the humidity inside the refrigerating chamber, so that the camera is not easy to break down.

Description

Intelligent refrigerator

Technical Field

The utility model relates to a refrigerator, especially inside intelligent refrigerator that is equipped with the camera.

Background

At present, there is a refrigerator in the prior art, in which a camera is provided in a refrigerating chamber, and the camera is used for shooting an image of food in the refrigerator, identifying the type of food material, and feeding back the type of food material to a user. The defects of the prior art are as follows: the components of the camera work in a low-temperature and relatively humid environment for a long time, and are easy to break down.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model discloses aim at providing the intelligent refrigerator that a camera is difficult to break down for software engineer to software engineer programs so that the camera can shoot the inside article of walk-in of intelligent refrigerator to the treater in this hardware architecture.

The intelligent refrigerator is provided with a refrigerating chamber and a camera, wherein the camera is used for shooting objects in the refrigerating chamber, the refrigerating chamber is provided with a transparent outer wall, and the camera is arranged outside the refrigerating chamber and shoots through the transparent outer wall.

Furthermore, a processor connected with the camera and a display module connected with the processor are provided.

And furthermore, a timer connected with the processor is further arranged, after the processor identifies that a new article is put in according to the data information shot by the camera, the processor enables the timer to record the time length information of the newly put article stored in the intelligent refrigerator, and then the time length information is transmitted to the display module so as to be displayed to a user.

Further, the refrigerating chamber is formed by a storage box in the refrigerator shell, and the camera is also in the refrigerator shell.

Furthermore, a temperature sensor is further arranged and senses the temperature in the storage box.

Further, a semiconductor refrigeration module is included for providing refrigeration to the refrigerated compartment.

Furthermore, the semiconductor refrigeration module also comprises a standard plug-in type electricity-taking interface which is used for being electrically connected with an external power supply so as to supply power to the semiconductor refrigeration module.

Furthermore, the outer wall of the intelligent refrigerator is provided with a surface contact type but not a plug-in type power taking contact, and the power taking contact supplies power to the semiconductor refrigeration module when contacting a power supply contact plate of an external power supply.

Has the advantages that: after the software engineer programmed the camera, the camera can realize shooting the article inside the refrigerating chamber through the transparent outer wall of the refrigerating chamber, and because the camera is arranged outside the refrigerating chamber, the camera cannot be influenced by the temperature and the humidity inside the refrigerating chamber, so that the camera is not easy to break down.

Drawings

FIG. 1 is a schematic view of the internal structure of a header;

FIG. 2 is a schematic view of a small sub-refrigerator;

FIG. 3 is a schematic view of the internal structure of the small-sized sub-refrigerator;

FIG. 4 is a rear view of the large sub-refrigerator;

FIG. 5 is a front view of a large sub-refrigerator (push-pull box omitted);

fig. 6 is a schematic sectional view of the large-sized sub-refrigerator after opening the door.

In the figure: 10. a small-sized sub-refrigerator; 100. a cover body; 1000. an outer top wall; 101. a heat dissipation port; 102. taking a power contact; 103. a plug-in type electricity-taking interface; 104. buckling; 105. a handle; 106. a semiconductor refrigeration module; 107. a storage box; 108. a camera; 109. a temperature sensor; 20. a large-scale sub-refrigerator; 201. a hand-held portion; 202. a sub-refrigerator door; 204. a side plate; 206. a lamp; 209. pushing and pulling the box; 212. a small hole; 30. a mother box body; 301. a power supply touch panel; 302. an air suction opening; 303. a separator.

Detailed Description

The combined refrigerator includes six small-sized sub-refrigerators 10, three large-sized sub-refrigerators 20, and a main body 30 for accommodating the small-sized sub-refrigerators 10 and the large-sized sub-refrigerators 20. The main box 30 is provided with a door and six elongated cavities (the door is omitted in the figure) as shown in fig. 1, wherein the middle parts of the three elongated cavities are respectively provided with a partition plate 303 so as to divide the three elongated cavities into six square cavities, the six square cavities are respectively used for installing six small-sized sub-refrigerators 10 as shown in fig. 2, the three elongated cavities at the lower parts are respectively used for installing three large-sized sub-refrigerators 20 as shown in fig. 4, in this embodiment, each elongated cavity and each square cavity as an accommodating cavity are respectively provided with an air suction opening 302 and a power supply contact plate 301, and the air suction opening 302 is provided with an air suction fan for sucking and radiating air for the elongated cavity and the square cavity. A conversion module is arranged in the main box 30, and the conversion module converts ac power into dc power after taking ac power from the utility power, and then transmits the dc power to the power supply touch panel 301 serving as a power supply module in this embodiment.

As shown in fig. 2, the small-sized sub-refrigerator 10 has a heat sink 101, a surface-contact type but not plug-in type power-taking contact 102, and a standard plug-in type power-taking interface 103 on a rear wall surface thereof, and a display panel on a front wall thereof. The top of the small-sized sub-refrigerator 10 is provided with a cover body 100 flush with the outer top wall 1000, the cover body 100 is mounted on the small-sized sub-refrigerator 10 through a buckle 104, the cover body 100 is provided with a groove and hinged with a handle 105 capable of being received in the groove. The small-sized sub-refrigerator 10 can be embedded into the square cavity, and the position of the heat dissipation opening 101 of the small-sized sub-refrigerator 10 corresponds to the position of the suction opening 302 of the square cavity after being embedded (namely, the heat dissipation opening 101 for heat dissipation of the electric component of the small-sized sub-refrigerator is communicated with the suction opening 302, so that heat energy discharged from the heat dissipation opening 101 is drawn away by an exhaust fan matched with the suction opening 302 through the suction opening 302), the power taking contact 102 of the small-sized sub-refrigerator 10 abuts against the power supply contact plate 301 of the square cavity to realize electric connection, and the power supply contact plate 301 outputs direct current to the power taking contact 102, so that power is supplied to the refrigeration module of the small-sized sub-refrigerator. The plug-in type power-taking interface 103 may be a vehicle-mounted interface or a USB interface used in a vehicle, and is configured to connect an external power source (such as a vehicle-mounted power source) to supply power to a refrigeration module (in this embodiment, the refrigeration module is a semiconductor refrigeration module 106) that supplies power to the small-sized sub-refrigerator 10 when the small-sized sub-refrigerator 10 is detached from the mother box 30 for independent use, as shown in fig. 3, a temperature sensor 109, a camera 108, and a transparent storage box 107 are fixedly disposed inside the small-sized sub-refrigerator 10, and the positions of the four are fixed. The semiconductor refrigeration module 106 can control the temperature in the storage box 107, the storage box 107 is provided with a small hole 212, the temperature sensor 109 detects the temperature in the storage box 107 through the small hole 212, since the storage box 107 is transparent, the camera 108 can photograph the articles in the storage box 107 through the transparent outer wall of the storage box outside the storage box 107, the camera 108 then transmits the captured data information to a processor connected to the camera 108, which processes the data information and identifies whether the item is meat, beverage, fish, eggs, cans, vegetables, or the like, then, the shot image and the recognized article type information are transmitted to a display panel arranged on a door of the small-sized sub-refrigerator 10, and a user can know what articles are stored in the storage box 107 through the display panel only by opening the door of the main box body 30 without pulling the small-sized sub-refrigerator 10 out of the square cavity; the processor is also connected to a temperature sensor 109 and a semiconductor refrigeration module. The camera 108 is further provided with a timer, and after the processor recognizes that a new article is placed in the small-sized sub-refrigerator 10, the processor enables the timer to record the time length information of the new article and transmits the time length information to the display panel, and the display panel serving as the display module in the embodiment displays the time length information, the image and the article type information to a user; the processor sends the article type information, the duration information and the image to a mobile phone of a user through the wireless communication module, and a screen of the mobile phone is used as the display module.

As shown in fig. 4, the large-scale sub-refrigerator 20 is provided with a power-taking contact 102, a heat dissipation opening 101, and a plug-in power-taking interface 103 on a rear sidewall, a sub-refrigerator door 202 which can be opened and closed by rotating is provided on a front sidewall, a display panel is provided on the sub-refrigerator door 202, and a hand-held portion 201 is provided on a side plate 204. The large-scale sub-refrigerator 20 can be embedded into the long cavity of the main box body 30, the position of the heat dissipation port 101 of the large-scale sub-refrigerator 20 corresponds to the position of the air suction port 302 of the long cavity after the embedding, the power taking contact 102 of the large-scale sub-refrigerator 20 abuts against the power supply contact plate 301 of the long cavity, and the plug-in power taking interface 103 can be a vehicle-mounted interface or a USB interface used on a vehicle and used for connecting an external power supply (such as a vehicle-mounted power supply) to supply power to the large-scale sub-refrigerator 20 when the large-scale sub-refrigerator 20 is detached. Similarly to the small-sized sub-refrigerator 10, the large-sized sub-refrigerator 20 is also provided with a semiconductor refrigeration module 106, a temperature sensor 109, a camera 108, a processor, a timer; as shown in fig. 5 to 6, the large-sized sub-refrigerator 20 is provided with a transparent push-pull box 209, and after the sub-refrigerator door 202 is opened, the push-pull box 209 can be pushed into the large-sized sub-refrigerator 20 or the push-pull box 209 can be pulled out of the large-sized sub-refrigerator 20; the inner top wall of the large-sized sub-refrigerator 20 is provided with a lamp 206, so that the brightness of the light in the large-sized sub-refrigerator 20 is increased, the camera 108 can shoot the articles in the push-pull box 209 and transmit the shot images and the recognized article type information to the processor, and the shot images and the recognized article type information are transmitted to the display panel.

It should be noted that both the large sub-refrigerator 20 and the small sub-refrigerator 10 can be used and sold separately as portable sub-refrigerators. The storage box 107 and the camera 108 of the intelligent refrigerator are both arranged in the refrigerator shell, the refrigerating chamber of the intelligent refrigerator is formed by the transparent storage box 107, and the camera 108 can shoot articles in the storage box 107 through the storage box 107; the outer wall of the intelligent refrigerator is also provided with a surface contact type but not plug-in type power taking contact 102, and the power taking contact 102 supplies power to the semiconductor refrigeration module when contacting a power supply contact plate of an external power supply.

Claims (8)

1. Intelligence refrigerator is equipped with walk-in and camera (108), and the camera is used for shooing the inside article of walk-in, its characterized in that: the refrigerating chamber is provided with a transparent outer wall, and the camera is arranged outside the refrigerating chamber and shoots through the transparent outer wall.

2. The intelligent refrigerator of claim 1, wherein: the display device is provided with a processor connected with the camera and a display module connected with the processor.

3. The intelligent refrigerator of claim 2, wherein: the intelligent refrigerator is characterized by further comprising a timer connected with the processor, after the processor identifies that a new article is placed into the intelligent refrigerator according to data information shot by the camera, the processor enables the timer to record time length information stored in the intelligent refrigerator by the newly placed article, and then the time length information is transmitted to the display module to be displayed to a user.

4. The intelligent refrigerator of claim 1, wherein: the refrigerated compartment is formed by a storage compartment (107) within the refrigerator housing, and the camera is also within the refrigerator housing.

5. The intelligent refrigerator of claim 4, wherein: and a temperature sensor (109) is also arranged and senses the temperature in the storage box.

6. The intelligent refrigerator of claim 1, wherein: including a semiconductor refrigeration module that provides cooling to a refrigerated compartment.

7. The intelligent refrigerator of claim 6, wherein: the semiconductor refrigeration module is characterized by further comprising a standard plug-in type electricity-taking interface (103), wherein the plug-in type electricity-taking interface (103) is used for being electrically connected with an external power supply so as to supply power to the semiconductor refrigeration module.

8. The intelligent refrigerator of claim 6, wherein: the surface contact type non-plug-in type power taking contact (102) is arranged on the outer wall of the intelligent refrigerator, and the power taking contact (102) supplies power to the semiconductor refrigeration module when contacting a power supply contact plate of an external power supply.

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