CN210285314U - Horizontal isolation plate structure for cold storage intelligent storage cabinet - Google Patents

Abstract

The utility model relates to a horizontal isolation plate structure for a refrigerated intelligent storage cabinet, which comprises a horizontal isolation plate main body and a mounting bar; the mounting bars are respectively mounted on the inner walls of the left side surface and the right side surface of the accommodating space in the intelligent refrigerated storage cabinet in pairs; grooves matched with the protruding parts of the mounting bars in shape are respectively arranged on two sides of the horizontal isolation plate main body, and the grooves extend from one end of the side surface of the horizontal isolation plate main body to a set length on the side surface; the horizontal isolation plate main body is aligned to the mounting strips respectively and enters the grooves, and the horizontal isolation plate main body is made to slide in the accommodating space along the mounting body, so that the accommodating space is divided into independent storage spaces. Implement the utility model discloses a horizontal isolation plate structure for cold-stored intelligent locker has following beneficial effect: the heat transfer can not be carried out, and the independent control of the temperature of the storage space is facilitated.

Description

Horizontal isolation plate structure for cold storage intelligent storage cabinet

Technical Field

The utility model relates to an intelligence express delivery cabinet, more specifically say, relate to a horizontal isolation plate structure for cold-stored intelligent locker.

Background

An intelligent locker or an intelligent express cabinet is a device for storing articles for a short time, which can store and take out articles by the same or different persons to realize temporary storage or hand-over of the articles. Because its convenient, reliable characteristic, intelligence express delivery cabinet or locker obtain comparatively extensive application after appearing rapidly, especially in the handing-over of express delivery. Due to the development of online shopping, fresh food begins to appear in express delivery, and the characteristic of the fresh food requires a certain temperature environment during storage so as to ensure the freshness of the goods. So also require to be able to refrigerate intelligent locker or intelligent express delivery cabinet. The existing refrigerated intelligent storage cabinet or express cabinet is obtained by adding a refrigerating system and a heat insulation layer on the basis of the existing intelligent storage cabinet or express cabinet, and the cabinet body is usually transformed on the basis of the existing storage cabinet technology, and the heat insulation layer is added to realize the heat insulation effect. And to the horizontal separation board that becomes accommodation space with the space isolation in the cabinet body, because it does not contact with the external world, can not reform transform it usually, and because the structure of the refrigeration module of current cold-stored intelligent cabinet, its a plurality of storing space temperatures are not independent control, consequently use the horizontal separation board in current intelligent locker or express delivery cabinet usually, and current horizontal separation board can not keep apart the heat transfer, consequently current horizontal separation board that is used for on the freezer is not thermal-insulated, be not suitable for the independent control of storing space's temperature.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, can carry out the heat transfer to the aforesaid of prior art, be unfavorable for the independent control's of storing space temperature defect, provide one kind can not carry out the heat transfer, be favorable to storing space's independent control a horizontal spacer structure for cold-stored intelligent locker.

The utility model provides a technical scheme that its technical problem adopted is: constructing a horizontal isolation plate structure for a refrigerated intelligent storage cabinet, wherein the horizontal isolation plate structure comprises a horizontal isolation plate main body and a mounting strip for fixing the horizontal isolation plate main body on the inner wall of the refrigerated intelligent storage cabinet; the mounting bars are respectively mounted on the inner walls of the left side surface and the right side surface of the accommodating space in the intelligent refrigerated storage cabinet in pairs and respectively protrude towards the direction of the central line of the accommodating space; grooves matched with the protruding parts of the mounting bars in shape are respectively arranged on two sides of the horizontal isolation plate main body, and the grooves extend from one end of the side surface of the horizontal isolation plate main body to a set length on the side surface; the horizontal isolation plate main body is aligned to the mounting bars respectively and enters the grooves and enables the horizontal isolation plate main body to slide in the accommodating space along the mounting bars, and therefore the accommodating space is divided into independent storage spaces.

Still further, the horizontal barrier plate main body includes a case and an insulating layer provided in the case such that spaces above and below the horizontal barrier plate do not exchange heat.

Still further, the housing includes a thermal insulation layer accommodating part, a blocking plate, a thermal insulation part and a panel; the heat insulation layer accommodating component comprises a hollow plate-shaped frame body for accommodating the heat insulation layer, and the front end of the heat insulation layer accommodating component is provided with an opening; the blocking plate is used for blocking the opening; the heat insulation component is sleeved at one end, provided with the opening, of the heat insulation layer accommodating component, and the heat insulation layer accommodating component is isolated from heat exchange through the end; the panel is connected to one end of the heat insulation component far away from the heat insulation layer accommodating component.

Furthermore, one end of the heat insulation layer accommodating component, which is provided with the opening, is provided with a connecting edge matched with the shape of the heat insulation component.

Still further, the grooves are provided on both left and right side surfaces of the thermal insulation layer accommodating member.

Still further, the heat insulation part comprises a prefabricated member which is formed by injection molding of engineering plastics, has set strength and is provided with a mounting groove matched with the connecting edge.

Furthermore, a foam rubber injection hole is formed in the rear end of the thermal insulation layer accommodating component, and the thermal insulation layer is formed in a cavity of the thermal insulation layer accommodating component through injection after the shell is assembled and set to be dense.

Furthermore, the groove extends from the rear end of the thermal insulation layer accommodating component to the front end of the thermal insulation layer accommodating component, and the extending length of the groove is larger than the length of the protruding part of the mounting bar.

Furthermore, a screw hole for a fixing screw to pass through is formed in a set position of the mounting bar, a through hole is formed in the corresponding position of the upper edge or the lower edge of the groove, and the fixing screw passes through the through hole and fixes the horizontal isolation plate main body on the mounting bar.

Implement the utility model discloses a horizontal isolation plate structure for cold-stored intelligent locker has following beneficial effect: the horizontal insulation board main body can insulate heat exchange between spaces above and below the horizontal insulation board main body due to the insulation layer arranged on the horizontal insulation board main body; meanwhile, due to the existence of the mounting strips and the depressions in the horizontal partition plate main body, the horizontal partition plate main body can be conveniently mounted in the intelligent refrigerated cabinet, the mounting gap between the horizontal partition plate main body and the inner surface of the cabinet body when the horizontal partition plate is mounted inside the intelligent storage cabinet is small, and the possibility of heat exchange between the space above and below the horizontal transverse partition plate is further reduced. Therefore, it cannot transfer heat, facilitating individual control of the storage space.

Drawings

FIG. 1 is a schematic view of an installation of a horizontal isolation plate main body and an installation bar of an embodiment of a horizontal isolation plate structure for a refrigerated intelligent storage cabinet of the present invention;

FIG. 2 is a schematic view of the horizontal partition structure of the embodiment shown in the installed position;

FIG. 3 is a schematic structural view of a horizontal partitioning plate main body in the embodiment;

fig. 4 is a schematic structural view of the mounting bar 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 horizontal isolation plate structure for the intelligent refrigerated storage cabinet of the present invention, the horizontal isolation plate structure comprises a horizontal isolation plate main body 2 and a mounting bar 3 for fixing the horizontal isolation plate main body 2 on the inner wall of the intelligent refrigerated storage cabinet 1; the mounting bars 3 are respectively mounted in pairs on the inner walls of the left and right side surfaces of the storage space (i.e. the space for placing the articles in the refrigerated intelligent locker 1, and a plurality of overlapped storage spaces are formed under the division of the horizontal partition plate structure, see fig. 2) in the refrigerated intelligent locker 1, and respectively protrude towards the central line direction of the storage space, i.e. inwards in fig. 1; grooves 22 matched with the shapes of the protruding parts of the mounting strips 3 are respectively arranged on two sides of the horizontal isolation plate main body 2, and the grooves 22 extend from one end of the side surface of the horizontal isolation plate main body 2 to a set length on the side surface; the horizontal partition board main body 2 is made to be separated into independent storage spaces by aligning the mounting bars 3 with the grooves 22 and sliding the horizontal partition board main body 2 along the mounting bars 3 into the storage spaces (i.e. moving in the direction shown by the arrow in fig. 1). In the present embodiment, the horizontal barrier plate body 2 includes a casing and an insulating layer (not shown) provided in the casing so that spaces above and below the horizontal barrier plate body do not exchange heat.

Referring to fig. 3, fig. 3 shows a specific structure of the horizontal barrier main body. Wherein, the shell comprises a thermal insulation layer accommodating component 21, a blocking plate 24, a thermal insulation component 25 and a panel 26; the heat insulation layer accommodating component 21 comprises a hollow plate-shaped frame body for accommodating the heat insulation layer, and the front end of the frame body is provided with an opening; the blocking plate 24 is used for blocking the opening; the heat insulation component 25 is sleeved at one end of the heat insulation layer accommodating component 21 with the opening, and the heat insulation layer accommodating component 21 is isolated from heat exchange at the end; the panel 26 is connected to an end of the heat insulating member 25 remote from the heat insulating housing member 21. In order to facilitate the connection between the heat insulating member 25 and the heat insulating layer housing member 21, in the present embodiment, one end of the heat insulating housing member 21 having an opening is provided with a connecting edge 23 adapted to the shape of the heat insulating member 25. In this embodiment, the heat insulating member 25 is a prefabricated member made of engineering plastic by injection molding, and a mounting groove (not shown) having a shape corresponding to the connecting edge 23 is formed at one end of the heat insulating member 25 connected to the heat insulating housing member 21, and the heat insulating member 25 and the heat insulating housing member are connected to each other by inserting the connecting edge 23 into the mounting groove.

In the present embodiment, as shown in fig. 3, the grooves 22 are provided on both left and right side surfaces of the heat insulation accommodating member 21. More specifically, the groove 22 extends from the rear end (i.e., the right end in fig. 3 or the end provided with the foam injection hole 27) of the insulation-housing member 21 toward the front end of the insulation-housing member 21 over a length longer than the length of the protruding portion of the mounting bar 3. Generally, the groove 22 extends along a side of the insulation pack housing part 21 for an extent approximately equal to 2/3 to 3/4 of the length of the side of the insulation pack housing part 21.

In this embodiment, the rear end of the thermal insulation layer accommodating part 21 is provided with a foam injection hole 27, and the thermal insulation layer is a foam insulation layer formed in a cavity of the thermal insulation layer accommodating part 21 by injecting foam after the casing is put into a specific mold after being assembled.

Fig. 4 shows a specific structure of the mounting bar 3, wherein screw holes are respectively arranged at two ends of the mounting bar, so that the mounting bar 3 can fix the mounting bar 3 on the refrigerated intelligent express cabinet 1 through screws and mounting nuts which are arranged on the side inner surface of the refrigerated intelligent express cabinet 1 in advance; then, the groove 22 on the horizontal isolation plate main body is aligned with the corresponding mounting bar and the horizontal isolation plate main body 2 is pushed into the accommodating space along the arrow direction shown in fig. 1, so as to isolate the accommodating space into a storage space. In addition, a screw hole 31 for passing a fixing screw 32 is provided at a set position of the mounting bar 3 (usually at a position corresponding to a middle position of the groove 22 or a middle position thereof), a through hole is provided at a corresponding position of an upper or lower edge of the groove 22, the fixing screw 32 passes through the through hole and fixes the horizontal diaphragm main body 21 to the mounting bar 3, and thus the installation of the horizontal diaphragm or the horizontal diaphragm structure is completed, and a storage space is formed. As the surfaces (including the horizontal partition plate) forming the storage space do not exchange heat, the obtained storage space has better heat-insulating property and the temperature of the storage space can be controlled independently.

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 (9)

1. A horizontal isolation plate structure for a refrigerated intelligent storage cabinet is characterized by comprising a horizontal isolation plate main body and a mounting strip for fixing the horizontal isolation plate main body on the inner wall of the refrigerated intelligent storage cabinet; the mounting bars are respectively mounted on the inner walls of the left side surface and the right side surface of the accommodating space in the intelligent refrigerated storage cabinet in pairs and respectively protrude towards the direction of the central line of the accommodating space; grooves matched with the protruding parts of the mounting bars in shape are respectively arranged on two sides of the horizontal isolation plate main body, and the grooves extend from one end of the side surface of the horizontal isolation plate main body to a set length on the side surface; the horizontal isolation plate main body is aligned to the mounting bars respectively and enters the grooves and enables the horizontal isolation plate main body to slide in the accommodating space along the mounting bars, and therefore the accommodating space is divided into independent storage spaces.

2. The horizontal insulation board structure for the refrigerated intelligent cabinet as claimed in claim 1, wherein the horizontal insulation board main body comprises a housing and an insulation layer arranged in the housing so that the space above and below the horizontal insulation board is not subjected to heat exchange.

3. The horizontal insulation panel structure for the refrigerated intelligent locker of claim 2, wherein the housing comprises an insulation layer housing part, a barrier plate, an insulation part and a panel; the heat insulation layer accommodating component comprises a hollow plate-shaped frame body for accommodating the heat insulation layer, and the front end of the heat insulation layer accommodating component is provided with an opening; the blocking plate is used for blocking the opening; the heat insulation component is sleeved at one end, provided with the opening, of the heat insulation layer accommodating component, and the heat insulation layer accommodating component is isolated from heat exchange through the end; the panel is connected to one end of the heat insulation component far away from the heat insulation layer accommodating component.

4. The horizontal isolation plate structure for the intelligent refrigerated cabinet as claimed in claim 3, wherein the end of the thermal insulation layer accommodating component with the opening is provided with a connecting edge matched with the shape of the thermal insulation component.

5. The horizontal partition structure for the intelligent refrigerated locker of claim 4 wherein the grooves are provided on both the left and right sides of the insulation layer housing part.

6. The horizontal isolation plate structure for the intelligent refrigerated storage cabinet as claimed in claim 5, wherein the heat insulation component comprises a prefabricated member which is made of engineering plastics through injection molding and has set strength, and one end of the heat insulation component, which is connected with the heat insulation layer accommodating component, is provided with a mounting groove matched with the connecting edge.

7. The horizontal isolation plate structure for the intelligent refrigerated storage cabinet as claimed in claim 6, wherein a foam rubber injection hole is formed in the rear end of the thermal insulation layer accommodating component, and the thermal insulation layer is a foam rubber thermal insulation layer formed in a cavity inside the thermal insulation layer accommodating component through foam rubber injection after the shell is placed in a mold after being assembled.

8. The horizontal partition structure for the intelligent refrigerated locker of claim 7, wherein the groove extends from the rear end of the insulation receiving member to the front end of the insulation receiving member by a length greater than the length of the protruding portion of the mounting bar.

9. The horizontal isolation plate structure for the intelligent refrigerated storage cabinet as claimed in claim 8, wherein a set position of the mounting bar is provided with a screw hole for a fixing screw to pass through, a corresponding position of the upper or lower edge of the groove is provided with a through hole, and the fixing screw passes through the through hole and fixes the horizontal isolation plate main body on the mounting bar.

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