CN212409165U - Intelligent storage cabinet - Google Patents

Abstract

The utility model relates to an intelligent storage cabinet is equipped with a plurality of storage check and with a plurality of warning lights of storage check one-to-one, every warning light is located the portion of exposing of the storage check that corresponds, is equipped with reflective object, and it reflects the light that the warning light sent to user visual area. This intelligence cabinet is equipped with the reflection of light thing, reflects the user visual zone to the light that the warning light sent for the user can conveniently confirm the storage grid position of bright lamp when getting put article.

Description

Intelligent storage cabinet

Technical Field

The utility model relates to a storage device especially relates to an intelligent cabinet with a plurality of storage check.

Background

In order to store a plurality of foods in different categories, some intelligent freezers are provided with a plurality of storage compartments with unique numbers, and different foods can be placed in the storage compartments. These intelligent freezers can automatically record the item name, bin number, and bin time for the user to find the food. However, when a user needs to take out a certain food, the user may forget the position of the storage grid corresponding to the number, and if the number of the storage grids is large, the user needs to spend time looking up the number value of each storage grid, so as to find out the storage grid corresponding to the number.

In some cabinets, in order to facilitate a user to find the storage grid positions, prompt lamps in one-to-one correspondence with the storage grids are arranged, and when the user takes and places an article, the corresponding prompt lamps of the respective storage grids can be lightened, so that the user can conveniently take and place the article. However, if the storage grid with the light being turned on is far away from the user, the user is not easy to see, and especially if the storage grid is provided with a handle and other parts, the handle of the storage grid above can block the light emitted by the prompt lamp of the storage grid below, so that the user cannot see the light, and the user can only blindly view the position of the light being turned on everywhere, which takes time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an intelligence cabinet is provided for the user can conveniently confirm the storage grid position of bright lamp when getting put article.

In order to solve the technical problem, the utility model discloses an intelligent storage cabinet is equipped with a plurality of storage check and with a plurality of warning lights of storage check one-to-one, every warning light is located the portion of exposing of the storage check that corresponds, is equipped with the reflector, and it reflects the light that the warning light sent to the user visual area.

Furthermore, there are a plurality of light-reflecting objects, which correspond to the indicator lights one by one.

Furthermore, the prompting lamp is positioned above the grid of the corresponding storage grid and irradiates towards the oblique front lower part.

Furthermore, each storage grid is provided with a cover plate for closing the grid opening, the outer side wall of the cover plate extends outwards to form a handle, and each light reflecting object is arranged on the corresponding handle.

Further, each storage cell is provided with a drawer, and the front side wall of the drawer is used as the cover plate.

Further, the upper portion of the handle is extended obliquely upward and the lower portion is extended obliquely downward, and the reflector is provided on the upper surface of the upper portion of the handle.

Furthermore, the reflecting object is arranged on the upper surface of the upper part of the handle in a coating mode.

Further, this intelligent cabinet is the intelligent refrigerator-freezer of storage food.

This intelligence cabinet is equipped with the reflection of light thing, reflects the user visual zone to the light that the warning light sent for the user can conveniently confirm the storage grid position of bright lamp when getting put article.

Drawings

FIG. 1 is a schematic view of the structure of a first embodiment of a smart ice bin;

FIG. 2 is a schematic structural view of the food plate storage module of FIG. 1 with the trays in the two storage compartments above the first row hidden;

FIG. 3 is a schematic structural view of the handleless cup storage module of FIG. 1 with handleless cups hidden from view in the rightmost handleless cup storage location of the first row;

FIG. 4 is a schematic side front view of the food plate storage module of the second embodiment of the intelligent ice chest;

FIG. 5 is a side rear view of the food plate storage module of FIG. 4;

FIG. 6 is a side rear perspective view of the food plate storage module of FIG. 4 with the locking mechanism, inner housing and tray concealed;

FIG. 7 is a schematic structural view of the inner case in the food plate storage module of FIG. 4 in a state of being set right;

FIG. 8 is a schematic structural view of the inner case of FIG. 7 in an inverted state;

FIG. 9 is a schematic structural view of the locking mechanism of FIG. 5;

FIG. 10 is an enlarged view at A in FIG. 9, showing the construction of the retainer;

FIG. 11 is a schematic structural view of the tray of FIG. 2 or FIG. 4;

FIG. 12 is a schematic view of a stand-up smart cooler.

Reference numerals: 100. a cabinet body; 10. a food plate storage module; 11. a storage case; 12. a holding tray; 121. a tray body; 122. a handle; 1221. an upper plate; 1222. a lower plate; 123. a light-reflecting coating; 124. a sealing strip; 13. a storage cell; 131. a through hole; 14. an LED lamp; 15. a pressure sensor; 16. an inner shell; 161. concave holes; 162. clamping a positioning piece; 17. a locking mechanism; 171. a vertical rod; 172. a cam mechanism; 173. a bottom spring; 174. a fixed block; 175. a retainer; 1751. a shaft sleeve; 1752. a carry spring; 1753. a bottom block; 1754. buckling; 20. a stewing cup storage module; 21. a storage case; 22. stewing a handleless cup; 23. storing the stewing cup; 24. an annular LED lamp; 25. a pressure sensor; 30. a refrigerator.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description, wherein the protection of the invention is mainly related to fig. 4 and 11 of the second embodiment.

First embodiment

The intelligent ice chest of the first embodiment is shown in fig. 1, and comprises a cabinet 100, wherein a food plate storage module 10, a stewing cup storage module 20, a refrigerator 30 and a controller for controlling the operation of related electronic devices in each module are arranged in the cabinet 100. The controller activates chiller 30 to provide cooling to storage modules 10, 20. There are a plurality of the food plate storage module 10 and the stewpot storage module 20. The inner wall of the cabinet 100 is provided with slide rails (not shown) corresponding to the food plate storage modules 10 and the handleless cup storage modules 20 one by one, the outer side walls of the food plate storage modules 10 and the handleless cup storage modules 20 are provided with corresponding slide blocks (not shown), and the slide blocks are clamped into the corresponding slide rails to form a moving mechanism, so that the food plate storage modules 10 and the handleless cup storage modules 20 can be moved out of the cabinet 100 along the slide rails in a sliding manner, as shown in fig. 1, one food plate storage module 10 and one handleless cup storage module 20 are in a moving-out state.

As shown in fig. 2, the food plate storage module 10 includes a storage case 11, a plurality of storage compartments 13 are defined on the storage case 11, the storage compartments 13 are arranged in a plurality of rows, and each storage compartment 13 is provided with a drawer-type tray 12. Each storage grid 13 has a unique number, the storage shell 11 is provided with LED lamps 14 corresponding to the storage grids 13 one by one, and the LED lamps 14 surround the exposed grid opening edge of the corresponding storage grid 13 and are electrically connected with the controller. The bottom of the storage grid 13 is provided with a pressure sensor 15 corresponding to the number of the storage grid, and the pressure sensor 15 is electrically connected with the controller. If food needs to be stored, the food plate storage module 10 is pulled out of the cabinet body 100, then the empty storage tray 12 is pulled out of the storage grid 13, so that the food is placed in the storage tray 12, then the storage tray 12 filled with the food is placed in the storage grid 13, at the moment, the pressure sensor 15 at the bottom of the storage grid 13 stored with the food sends a corresponding pressure detection signal to the controller, and the controller can determine which storage grid 13 stores the food according to the pressure value of the received pressure detection signal, so that the name of the food and the number of the corresponding storage grid 13 are recorded. The food name is obtained by inputting by a user using an additionally provided input device (for example, a touch screen provided on the cabinet 100 and communicatively connected to the controller, or a user terminal capable of communicating with the controller), or by scanning a two-dimensional code or a bar code on the food package by using an additionally provided scanning device. When a user needs to take out food, the controller determines the number of the storage grid 13 corresponding to the user according to the name of the food to be taken by the user, so that the LED lamp 14 of the storage grid 13 corresponding to the number is controlled to be turned on, and thus, after the user pulls the plate storage module 10 out of the cabinet body 100, the position of the storage grid 13 where the food to be taken is located can be quickly determined according to the turned-on LED lamp 14.

The stewing cup storage module 20 comprises a storage shell 21, wherein a plurality of stewing cup storage positions 23 which are horizontally arranged in a plurality of rows are arranged on the storage shell 21, and the stewing cup storage positions 23 are recessed relative to the periphery so as to be used for placing stewing cups 22 and prevent the stewing cups 22 from sliding, as shown in fig. 3. Each stewing cup storage bit 23 has a unique number, an annular LED lamp 24 which corresponds to the stewing cup storage bits 23 one by one is arranged on the storage shell 21, and the annular LED lamp 24 surrounds the exposed peripheral edge of the corresponding stewing cup storage bit 23 and is electrically connected with the controller. The bottom of the stewing cup storage bit 23 is provided with a pressure sensor 25 corresponding to the number of the stewing cup storage bit, and the pressure sensor 25 is electrically connected with the controller. If food needs to be stored, the stewing cup storage module 20 is pulled out of the cabinet body 100, then the stewing cup 22 filled with food is placed in the stewing cup storage position 23, the pressure sensor 25 sends a pressure detection signal to the controller, and the controller can determine which stewing cup storage position 23 stores food according to the pressure value of the received pressure detection signal, so that the name of the food and the number of the corresponding stewing cup storage position 23 are recorded. If the user needs to take out food, the controller determines the number of the corresponding stewing cup storage bit 23 according to the name of the food to be taken by the user, so that the annular LED lamp 24 of the stewing cup storage bit 23 corresponding to the number is controlled to be turned on, and therefore after the user pulls out the stewing cup storage module 20 from the cabinet body 100, the position of the stewing cup storage bit 23 where the food to be taken is located can be rapidly determined according to the turned-on annular LED lamp 24.

The tray 12, as shown in fig. 11, includes a tray body 121 for holding food, and a handle 122 is extended from the front side of the tray body 121. The upper plate 1221 of the handle 122 extends obliquely upward and the lower plate 1222 extends obliquely downward to form a shape similar to an open bird mouth, so that a good support point can be provided for a user when the user holds the tray 12 with the hand, and the user can apply force to hold the tray 12 stably.

Second embodiment

Compared with the first embodiment, the intelligent ice chest of the second embodiment is different from the intelligent ice chest of the first embodiment only in the structure of the tray 12 in the food plate storage module 10 and the assembly manner between the tray 12 and the storage grid 13, so the following description is only directed to the structure of the tray 12 and the assembly structure between the tray 12 and the storage grid 13, and other structures are the same as the first embodiment and are not repeated.

The food plate storage module 10 of the intelligent ice chest of the second embodiment is shown in fig. 4, each storage compartment 13 is provided with an inner shell 16 as shown in fig. 7, and the inner shells 16 in each storage compartment 13 of each column are detachably mounted in the corresponding storage compartment 13 by a locking mechanism 17 as shown in fig. 9. As shown in fig. 5, the locking mechanism 17 is installed at the rear side of the storage compartment 13, and the locking mechanism 17 includes a vertical rod 171, a cam mechanism 172 and a bottom spring 173, wherein the cam mechanism 172 and the bottom spring 173 form a vertical control assembly. The cam mechanism 172 is hinged on the top end of the vertical rod 171 and is located above the top wall of the topmost storage cell, the fixing block 174 at the bottom end of the vertical rod 171 fixes the bottom spring 173, and the bottom spring 173 is sleeved on the bottom end of the vertical rod 171 and compressed between the fixing block 174 and the bottom wall of the first storage cell 13 below so that the cam mechanism 172 abuts against the upper surface of the top wall of the topmost storage cell. The vertical bar 171 is provided with a retainer 175 at a position corresponding to the bottom wall of each cell 13, and a through hole 131 is opened at the rear of each cell 13 in a row, as shown in fig. 6, and the vertical bar 171 passes through the through hole of each cell. The retainer 175 is shown in fig. 10 and includes a sleeve 1751, a carry spring 1752 for applying a carry force to the sleeve 1751, and a bottom block 1753 fixed to the vertical rod 171. Shaft sleeve 1751 and carry spring 1752 all overlap on montant 171, carry spring 1752 is located between shaft sleeve 1751 and bottom block 1753, shaft sleeve 1751 bottom leaves the space that supplies carry spring 1752 to get into (for showing the structure of chucking spare 175 more clearly in fig. 10, show shaft sleeve 1751 and carry spring 1752 separation, under actual assembled state, carry spring 1752 upper portion is located the space of shaft sleeve 1751 bottom and is sheltered from), shaft sleeve 1751 lateral wall stretches out outwards and forms buckle 1754, the buckle 1754 front end is equipped with guide inclined plane 1755. Correspondingly, as shown in fig. 8, the inner housing 16 has a concave hole 161 at the rear end of the bottom wall as a latch, which corresponds to the latch 1754.

Before the inner housing 16 is mounted, the cam mechanism 172 is pulled perpendicular to the vertical rods 171 to slightly raise the vertical rods 171, during which the retaining blocks 174 press the bottom springs 173 upward to further compress them between the retaining blocks 174 and the bottom wall of the underlying first storage compartment 13, as shown in fig. 5. Then, the inner case 16 is pushed into the storage cell 13, and in the process, under the guiding action of the guiding inclined plane 1755, the buckle 1754 drives the shaft sleeve 1751 to downwards extrude the carry spring 1752 due to the pushing of the bottom wall of the inner case 16, so that the carry force of the carry spring 1752 is overcome to downwards move, and then the carrying force of the carry spring 1752 returns to the original position to be clamped into the concave hole 161. If the inner shell 16 needs to be disassembled, the cam mechanism 172 needs to be pulled until the cam mechanism 172 and the vertical rod 171 are located on the same axis, so that the vertical rod 171 moves down to the original position, and thus the buckle 1754 on the vertical rod 171 moves down to be separated from the concave hole 161, and the inner shell 16 can be pulled out of the storage compartment 13. As shown in fig. 7 or 8, the front end of the bottom wall of the inner housing 16 extends downward and then rearward out of the holding fixture 162, a gap 163 is left between the holding fixture 162 and the bottom wall of the inner housing 16, and when the inner housing 16 is pushed into the storage compartment 13, the bottom wall of the storage compartment 13 is clamped by being clamped in the gap 163, so that the inner housing 16 is stably positioned in the storage compartment 13.

As shown in fig. 11, the upper surface of the upper plate 1221 is coated with the reflective coating 123 as a reflective object, when the LED lamp 14 located above the lattice of the storage cell 13 emits light obliquely forward and downward, the reflective coating 123 of the upper plate 1221 reflects the light emitted from the LED lamp 14, so that the reflective coating 123 lights up, and the user can determine the location of the storage cell 13 where the light is lit up by seeing the light reflected from the reflective coating 123 of the upper plate 1221, thereby avoiding the situation that the user cannot conveniently see the location of the storage cell where the light is lit up because the handle 122 blocks the storage cell where the user is located. The edge of the front side wall of the tray body 121 is surrounded by a sealing strip 124, when the tray 12 is installed in the inner shell 16, the sealing strip 124 is clamped between the front side of the tray body 121 and the opening of the inner shell 16, and a sealing space is formed between the tray 12 and the inner shell 16 to prevent the food in the tray 12 from contacting with the outside air. Therefore, the shelf life of the food can be prolonged, and the food in different holding trays 12 can be prevented from being tainted with the smell.

In FIG. 1, the food plate storage module 10, the stewpot storage module 20 and the freezer 30 are arranged transversely. Other embodiments could be modified to a vertical intelligent ice chest, as shown in fig. 12, with the food plate storage module 10 and the stewpot storage module 20 in an upright arrangement, with the food plate storage module 10 located above the stewpot storage module 20 and the freezer located on the back side of the bottom of the vertical intelligent ice chest, not shown.

Claims (8)

1. The utility model provides an intelligent storage cabinet, is equipped with a plurality of storage check and with a plurality of warning lights of storage check one-to-one, every warning light is located the portion of exposing of the storage check that corresponds, its characterized in that is equipped with reflective object, and it reflects the light that the warning light sent to the user visual area.

2. The intelligent storage cabinet as claimed in claim 1, wherein the number of the light-reflecting objects is plural, and the light-reflecting objects are respectively in one-to-one correspondence with the indicator lights.

3. The intelligent storage cabinet as claimed in claim 1, wherein the indicator light is positioned above the corresponding cell and illuminates obliquely front and lower directions.

4. The intelligent storage cabinet as claimed in claim 3, wherein each storage compartment is provided with a cover plate for closing the compartment opening, the outer side wall of the cover plate is provided with a handle extending outwards, and each of the reflectors is provided on the corresponding handle.

5. The intelligent storage cabinet of claim 4, wherein each storage compartment houses a drawer, the front side wall of the drawer serving as the cover.

6. The intelligent storage cabinet of claim 4, wherein the handle upper portion extends obliquely upward and the lower portion extends obliquely downward, and the light reflector is provided on an upper surface of the handle upper portion.

7. The intelligent storage cabinet of claim 6, wherein the light reflector is coated on the upper surface of the upper portion of the handle.

8. The intelligent storage cabinet of any one of claims 1-7, wherein the intelligent storage cabinet is an intelligent freezer for storing food.

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