CN210292471U - Cold-stored intelligent locker - Google Patents

Abstract

The utility model relates to a refrigerated intelligent storage cabinet, which comprises a cabinet body, a refrigeration unit, a mounting bracket arranged on the front side of the cabinet body and a plurality of storage space box bodies; the front surface of the storage space box body is provided with an opening and an installation plate; the storage space box body is arranged on different positions of the mounting bracket through the matching of the mounting plate and the mounting bracket and extends into the cabinet body; the storage space boxes are not in contact with each other in the cabinet body and have set intervals, and each storage space box and the inner surface of the cabinet body are provided with set intervals; the cold air flow formed by the refrigerating unit flows through the plurality of storage space boxes and returns to the refrigerating unit through channels formed between the storage space boxes and the inner surface of the cabinet body. Implement the utility model discloses a cold-stored intelligent locker has following beneficial effect: the cost is lower, the heat dissipation is more uniform, and the temperature difference in the cabinet body is smaller.

Description

Cold-stored intelligent locker

Technical Field

The utility model relates to an intelligence locker, more specifically say, relate to a cold-stored intelligent locker.

Background

The intelligent storage cabinet is generally used for storing conveyed or express goods in a short time, and realizes the invisible goods transfer between a sender and a receiver. With the development of electronic commerce, fresh food is also appearing in express delivery. These foods have certain environmental requirements in order to achieve freshness preservation of the food or food material. To achieve this goal, intelligent lockers with refrigeration functionality have emerged. In the prior art, such a refrigerated intelligent cabinet is usually a combination of an intelligent cabinet and a fresh keeping cabinet, and usually has a special refrigeration unit and cooling channels, which need to surround or pass through each storage space to realize cooling of each storage space. Therefore, in the prior art, the refrigerated storage cabinet is not only expensive to manufacture, but also has difficulty in controlling the speed, efficiency and uniformity of temperature of the refrigerated storage cabinet (i.e. the temperature difference of each storage space is large).

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect that with high costs, refrigeration efficiency is low, the temperature difference is big of prior art, provide a cold-stored intelligent locker with low costs, refrigeration efficiency is high, the temperature difference is less.

The utility model provides a technical scheme that its technical problem adopted is: a refrigerated intelligent storage cabinet is constructed, and comprises a cabinet body, a refrigeration unit arranged at the top of the cabinet body, a mounting bracket arranged on the front surface of the cabinet body and a plurality of storage space box bodies; the storage space box body comprises six surfaces, an opening and an installation plate are arranged on the front surface of the storage space box body, and the other five surfaces are closed; the storage space box body is arranged on different positions of the mounting bracket through the matching of the mounting plate and the mounting bracket and extends into the cabinet body; the storage space boxes are not in contact with each other in the cabinet body and have set intervals, and each storage space box and the inner surface of the cabinet body are provided with set intervals; the cold air flow formed by the refrigerating unit flows through the plurality of storage space boxes and returns to the refrigerating unit through channels formed between the storage space boxes and the inner surface of the cabinet body.

Furthermore, the mounting plate is arranged at an opening of the storage space box body, surrounds the opening and extends for a set distance to four sides of the opening; the mounting plate is welded on the outer surface of the storage space box body or formed by bending four surfaces forming the storage space box body.

Furthermore, a plurality of mounting holes are formed in the mounting plate, and fixing screws penetrate through the mounting holes and are fastened to corresponding screw holes in the mounting bracket so as to fix the storage space box body on the mounting bracket.

Furthermore, the mounting bracket is fixed at the front opening position of the cabinet body.

Furthermore, the refrigerator also comprises a support piece of the storage space box body arranged on the inner surface of the back surface of the cabinet body, wherein the support piece protrudes towards the opening direction of the cabinet body and has a set width for contacting the bottom surface of the storage space box body and supporting the storage space box body when the storage space box body is fixed on the mounting bracket.

Furthermore, the storage space boxes are arranged in two rows in the cabinet body, each row comprises rows formed by a plurality of storage space boxes which are different in installation height and overlapped in vertical projection, the top surface and the bottom surface of each storage space in the adjacent row are separated by a first set distance, and the two rows are separated by a second set distance.

Further, the second set distance is greater than the first set distance.

Furthermore, the refrigeration unit further comprises a fan, the fan is arranged at the bottom of the refrigeration unit, and the fan forms air flow with the air in the refrigeration unit and vertically sends the air flow into the main channel formed by the existence of the second set distance from top to bottom.

Furthermore, the air-flow-increasing device further comprises a relay fan, wherein the relay fan is arranged in the main channel and is positioned in the middle position of the vertical height of the main channel, and the relay fan is fixed on the surfaces of a pair of storage space box bodies with the same height in the two rows of storage space box bodies through an auxiliary mounting structure and used for increasing the strength of air flow in the main channel.

Furthermore, the air flow output by the refrigeration unit reaches the bottom of the refrigerated intelligent storage cabinet from the top of the refrigerated intelligent storage cabinet through the main channel, and is diffused towards the two sides of the inner part of the cabinet body through the first space between the storage space boxes in different rows; the air flow reaching the bottom inside the cabinet body and the air flow diffused through the first space return to the top of the cabinet body through a gap between the storage space box body and the inner side wall of the cabinet body and enter the refrigeration unit.

Implement the utility model discloses a cold-stored intelligent locker has following beneficial effect: since the refrigerating space is arranged at the top, the generated cold air is convenient to diffuse from top to bottom; meanwhile, as the storage spaces are independently arranged on the mounting bracket, intervals exist between the storage space boxes and the cabinet wall, cold air can rapidly reach the bottom of the cabinet body through the intervals, and returns to the refrigerating unit along the intervals between the inner wall of the cabinet body and the storage space boxes under the action of airflow, and no additional air duct or airflow channel is needed, the cost is low, the heat dissipation is uniform, and the temperature difference among the cabinet bodies is small.

Drawings

Fig. 1 is a schematic side view of an embodiment of a refrigerated intelligent locker of the present invention;

FIG. 2 is a schematic diagram of the front structure of the intelligent refrigerated locker in the embodiment;

FIG. 3 is a schematic illustration of the positions of the storage space chest and the mounting bracket in the illustrated embodiment;

fig. 4 is a schematic flow diagram of the cold air stream in the embodiment.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1 and fig. 2, in an embodiment of the present invention, the refrigerated intelligent storage cabinet includes a cabinet body 2, a refrigeration unit 1 disposed on the top of the cabinet body 2, a mounting bracket 41 disposed on the front of the cabinet body 2, and a plurality of storage space boxes 3; the storage space box body 3 comprises six surfaces, the front surface of the storage space box body is provided with an opening 30 and a mounting plate 31, and the other five surfaces are closed (see figure 3); the storage space box body 3 is arranged on different positions of the mounting bracket through the matching of the mounting plate 31 and the mounting bracket 41 and extends into the cabinet body 2; the storage space boxes 3 are not in contact with each other in the cabinet body 2 and have set intervals (51, 52), and each storage space box 3 is spaced from the inner surface of the cabinet body 2 by the set interval; the cold air flow generated by the refrigeration unit 1 flows through the plurality of stowage space boxes 3 and returns to the refrigeration unit 1 through the passages formed between the aforementioned stowage space boxes 3 and the inner surface of the cabinet 2 (i.e. the aforementioned spaces 51, 52).

As shown in fig. 3, in the present embodiment, the mounting plate 31 is disposed at the opening 30 of the storage space box 3, surrounds the opening 30, and extends a set distance to four sides of the opening 30 (i.e., the mounting plate 31 has a certain width); the mounting plate 31 is welded to the outer surface of the storage space box 3 or formed by bending four surfaces (i.e., four upper, lower, left, and right surfaces) constituting the storage space box 3. Meanwhile, the mounting plate 30 is provided with a plurality of mounting holes 32, and fixing screws pass through the mounting holes 32 and are fastened to corresponding screw holes on the mounting bracket 41 to fix the storage space box 3 on the mounting bracket 41. And the mounting bracket 41 is fixed at the front opening position of the cabinet 2.

Specifically, in the present embodiment, from the structure, the refrigerated intelligent cabinet is provided with a refrigeration unit 1 above a cabinet 2, the refrigeration unit 1 cools air therein through a condenser, and outputs cold air to form cold air flow into the cabinet 2 below; in the cabinet 2 under the refrigeration unit 1, a mounting bracket 41 is provided at a position close to the front opening of the cabinet (the cabinet has only its front opening or is not closed), and the mounting bracket 41 is actually a frame constructed by a metal material; a plurality of independent storage space boxes 3 can be placed in one cabinet body, and the storage space boxes extend into the cabinet body 2 through the mounting bracket 41 and are mounted on the set position of the mounting bracket through the matching of the mounting plate 31 and the mounting bracket 41; the setting positions on the mounting bracket 41 are set in advance such that the storage-space boxes 3 mounted thereon are mounted in the above-mentioned cabinets in rows and columns, for example, the storage-space boxes 3 in one cabinet 2 are arranged in two columns and 6 rows in the cabinet, and so on. In this embodiment, the above-mentioned mounting brackets 41 are positioned such that there is a space between the storage space boxes 3 between each row, and also such that there is a space between the storage space boxes 3 between each column. In addition, a certain interval is also formed between the storage space box 3 and the inner wall of the cabinet 2. The air flow generated by the refrigeration unit 1 then moves in the above-mentioned space and finally returns to the refrigeration unit 1, see fig. 4, so as to cool each of the storage space compartments 3 in the cabinet 2.

In the present embodiment, in order to make the storage space box 3 more stable in the cabinet 2, the refrigerated intelligent locker further includes a support member 42 of the storage space box disposed on the inner surface of the rear of the cabinet 2, please refer to fig. 1. The support member 42 protrudes toward the opening of the cabinet 2, has a predetermined width, and is configured to contact the bottom surface of the storage compartment case 3 and support the storage compartment case 3 when the storage compartment case 3 is fixed to the mounting bracket 41. It should be noted that the supporting plate 42 does not penetrate the width direction of the storage space box 3, and basically, the supporting plate 42 is only disposed at two rear corners of the storage space box 3, and the middle position is free for the airflow flowing in the cabinet 2 to pass through. In this way, the rear position of the storage space box 3 (the front of the storage space box is fixed on the mounting bracket 41) and the support are realized, and the air flow in the cabinet 2 is not obstructed.

In the present embodiment, as shown in fig. 2, the storage compartment boxes 3 are arranged in two rows in the cabinet 2, each row includes a row formed by a plurality of storage compartment boxes 3 with different installation heights and overlapped vertical projections, the top and bottom surfaces of the storage compartment boxes 3 in the adjacent row are separated by a first set distance 52, and the two rows are separated by a second set distance 51. Wherein the second set distance 51 is greater than the first set distance 52. Such an arrangement enables the cold air flow output by the refrigeration unit 1 to be rapidly diffused in the aforesaid cabinet 2, facilitating a rapid and uniform drop in temperature inside said cabinet 2.

In the present embodiment, in order to further increase the flow speed of the cool air in the cabinet 2, the cooling temperature in the cabinet 2 is made more uniform. Improve the air cycle in the whole cabinet body (including refrigerating unit 1) simultaneously, refrigerating unit 1 still includes fan 61, fan 61 sets up the bottom central point of refrigerating unit 1 puts, will the air that has passed through the cooling in refrigerating unit 1 forms the air current and from top to bottom sends to perpendicularly in the main entrance that forms because second settlement distance 61 exists. In the present embodiment, the main channel is substantially constituted by the upper second set distance 61 and the panel arranged on the front face of the cabinet 2, which closes the connection with the external environment.

In addition, the intelligent refrigerated locker further comprises a relay fan 62, wherein the relay fan 62 is arranged in the main channel, is positioned in the middle position of the vertical height of the main channel, and is fixed on the surfaces of a pair of storage space boxes 3 with the same height in the two rows of storage space boxes 3 through an auxiliary mounting structure, so that the strength of the air flow in the main channel is increased.

As shown in fig. 4, in the present embodiment, the air flow outputted by the refrigeration unit 1 passes from the top to the bottom of the intelligent refrigerated locker through the main channel (the middle part of the two columns of locker boxes 3 in fig. 4), and spreads to the left and right sides of the inside of the cabinet through the first space 52 between the locker boxes in different rows; the air flow reaching the bottom inside the cabinet 2 and the air flow diffused through the first space 52 have an effect of extracting the air in the rest part of the cabinet 2 due to the existence of negative pressure formed by the output air flow in the refrigeration unit 1, so that the air flow returns to the top of the cabinet 2 through the gap between the storage space box 3 and the inner side wall of the cabinet 2 under the effect of the negative pressure and enters the refrigeration unit 1, thereby realizing the air circulation inside the cabinet 2; at the same time, in this cycle, the cold air flow exchanges heat with the surface of the storage compartment boxes 3 through which it passes, so that a cooling or cold storage function of the respective storage compartment boxes 3 is achieved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A refrigerated intelligent storage cabinet is characterized by comprising a cabinet body, a refrigeration unit arranged at the top of the cabinet body, a mounting bracket arranged on the front surface of the cabinet body and a plurality of storage space box bodies; the storage space box body comprises six surfaces, an opening and an installation plate are arranged on the front surface of the storage space box body, and the other five surfaces are closed; the storage space box body is arranged on different positions of the mounting bracket through the matching of the mounting plate and the mounting bracket and extends into the cabinet body; the storage space boxes are not in contact with each other in the cabinet body and have set intervals, and each storage space box and the inner surface of the cabinet body are provided with set intervals; the cold air flow formed by the refrigerating unit flows through the plurality of storage space boxes and returns to the refrigerating unit through channels formed between the storage space boxes and the inner surface of the cabinet body.

2. The refrigerated intelligent locker of claim 1 wherein the mounting plate is disposed at the opening of the locker room box, surrounds the opening and extends a set distance to four sides of the opening; the mounting plate is welded on the outer surface of the storage space box body or formed by bending four surfaces forming the storage space box body.

3. A refrigerated intelligent cabinet as claimed in claim 2 wherein the mounting plate is provided with a plurality of mounting holes and fixing screws pass through the mounting holes and fasten to corresponding screw holes on the mounting bracket to secure the storage compartment housing to the mounting bracket.

4. The refrigerated intelligent locker of claim 3 wherein the mounting bracket is fixed to the cabinet at an open front position.

5. The refrigerated intelligent locker of claim 4 further comprising a locker support member disposed on the inner surface of the rear of the cabinet, the locker support member protruding toward the opening of the cabinet and having a predetermined width for contacting the bottom surface of the locker and supporting the locker when the locker is secured to the mounting bracket.

6. A refrigerated intelligent locker of claim 5 wherein the locker compartments are arranged in two columns within the locker, each column comprising a row of overlapping locker compartments having different mounting heights, the vertical projections overlapping, the top and bottom surfaces of the locker compartments in adjacent rows being spaced apart by a first predetermined distance and the two columns being spaced apart by a second predetermined distance.

7. The refrigerated intelligent locker of claim 6 wherein the second set distance is greater than the first set distance.

8. The refrigerated intelligent locker of claim 7 wherein the refrigeration unit further comprises a fan disposed at the bottom of the refrigeration unit to blow air within the refrigeration unit into the main channel due to the second set distance from top to bottom.

9. A refrigerated intelligent locker of claim 8 further comprising a relay fan located in the main channel at a position intermediate the vertical height of the main channel and secured by an auxiliary mounting structure to a pair of equally high enclosure surfaces in the two columns of enclosures for increasing the strength of the airflow in the main channel.

10. The refrigerated smart locker of claim 8 wherein the airflow output by the refrigeration unit passes from the top of the refrigerated smart locker to the bottom thereof through the primary passageway while spreading to both sides of the interior of the cabinet through the first spacing between the different rows of locker boxes; the air flow reaching the bottom inside the cabinet body and the air flow diffused through the first space return to the top of the cabinet body through a gap between the storage space box body and the inner side wall of the cabinet body and enter the refrigeration unit.

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