CN218328826U - Splicing type refrigerator unit - Google Patents

Abstract

A tiled freezer unit, comprising: at least two freezer bodies, the freezer bodies being placed side by side; the connection module, it includes a plurality of connecting pieces, and is a plurality of the connecting piece is connected adjacently the freezer organism, be equipped with the involution on the connecting piece, the involution is used for the shutoff adjacent clearance between the freezer organism. The utility model provides a concatenation formula freezer unit splices a plurality of independent freezer organisms into one through connecting the module, and mosaic structure is simple, and freezer unit area occupied after the concatenation is little, and keeps independent work, each other not influencing between each freezer organism.

Description

Splicing type refrigerator unit

Technical Field

The utility model relates to a refrigeration plant technical field especially relates to a concatenation formula freezer unit.

Background

In recent years, with the increasing demand for cold drinks such as beverages, the refrigerator is increasingly placed in super-large and small convenience stores. In order to maximize the space utilization of the refrigerators which can be placed in the shop, it is a common way to splice the large-sized multi-door refrigerators and put them into the shop for use. However, most of the conventional splicing refrigerators are commercial split refrigerators, and a machine room is required to be arranged in a shop in an independent space, so that the requirement on the shop space is high; and split type concatenation freezer in case the system breaks down, can lead to whole set of freezer all can't use, causes the shop to lose easily.

Therefore, it is urgently needed to provide a spliced portable refrigerator unit, which can reduce the occupied area of the refrigerator and ensure that the refrigerator bodies are independently used and do not influence each other.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a concatenation formula freezer unit, mosaic structure is simple, and the concatenation is swift, and freezer unit area occupied after the concatenation is little, and independent work, each other do not influence between each freezer organism.

In order to solve the technical problem, an embodiment of the utility model provides a concatenation formula freezer unit, include: the refrigerator comprises at least two refrigerator bodies which are arranged side by side; the connection module, it includes a plurality of connecting pieces, and is a plurality of the connecting piece is connected adjacently the freezer organism, be equipped with the involution on the connecting piece, the involution is used for the shutoff adjacent clearance between the freezer organism.

Optionally, the connecting member includes: the top connecting piece is connected with the top of the adjacent refrigerator body; the rear connecting piece is connected with the rear part of the refrigerator body adjacent to the rear connecting piece, and comprises a first sealing piece which is used for sealing a rear gap of the refrigerator body adjacent to the rear connecting piece; the refrigerator body comprises a front connecting piece, wherein the front connecting piece comprises a second sealing piece, and the second sealing piece is used for sealing and blocking a front gap of the refrigerator body.

Optionally, the top connecting piece includes first connecting portion and second connecting portion, the width of second connecting portion is greater than the width of first connecting portion, first connecting portion with the second involution piece is connected, the second connecting portion are connected adjacently the top of freezer organism.

Optionally, the first connecting portion with the second connecting portion end to end, the second connecting portion with after the freezer organism is connected the first connecting portion with the end connection of second involution.

Optionally, the first connecting portion with the second connecting portion are connected perpendicularly, the second connecting portion with after the freezer organism is connected first connecting portion can inlay adjacently the freezer organism the front gap.

Optionally, the rear connecting piece still includes the back connecting plate, back connecting plate both sides are connected respectively the freezer organism, first involution sets up on the back connecting plate and to perpendicular one side arch of back connecting plate.

Optionally, the front connecting piece further comprises a movable connecting module, the movable connecting module comprises a front connecting plate and a fixed connecting plate, the fixed connecting plate is connected with the refrigerator body, and the front connecting plate is connected with the fixed connecting plate and the second sealing piece.

Optionally, the fixed connection board sets up respectively in adjacent the front side of freezer organism, the both sides of preceding connecting plate are connected respectively adjacently fixed connection board.

Optionally, the fixed connection plate is provided with a plurality of connection points of different heights along the longitudinal direction, and the front connection plate may be connected to the fixed connection plate through the connection points.

Optionally, freezer organism front portion has the recess, the connection module still includes end baffle, end baffle block in adjacent in the recess of freezer organism.

Compared with the prior art, the utility model discloses technical scheme has following beneficial effect:

this technical scheme provides a concatenation formula freezer unit, including two at least freezer organisms and connection module, the connection module includes a plurality of connecting pieces, the connecting piece is used for connecting adjacent freezer organism, and is provided with the involution piece that is used for the clearance between the adjacent freezer of shutoff on the connecting piece. The adjacent refrigerator bodies are spliced into a whole through the connecting module, the splicing structure is simple, the splicing mode is convenient and fast, the effect of the integrated multi-door refrigerator can be achieved in appearance, and the occupied area of the refrigerator can be saved; and adopt originally independent freezer organism concatenation to become the freezer unit, each freezer organism autonomous working even the refrigerating system of certain freezer organism breaks down, can not influence the normal use of other freezer organisms to be favorable to reducing the shop loss, reach the purpose of the low-cost low risk operation in shop.

Drawings

Fig. 1 is an exploded schematic view of a splicing type refrigerator unit according to an embodiment of the present invention;

FIG. 2 is a schematic view of the top connector of FIG. 1;

FIG. 3 is a schematic view of the rear attachment shown in FIG. 1;

fig. 4 is a schematic diagram of the second enclosure of fig. 1;

fig. 5 is a schematic view of a connection structure of the movable connection module and the refrigerator body;

fig. 6 is a schematic structural view of the bottom barrier coupler of fig. 1.

Wherein,

10. the refrigerator comprises a refrigerator unit 100, a refrigerator body 101 and a groove;

210. a top connection member 211, a first connection part 212, a second connection part 213, a first top mounting hole 214, a second top mounting hole;

220. a rear connector 221, a first closure 222, a rear connecting plate 223, a rear mounting hole;

231. a second sealing piece 232, a front connecting plate 233 and a fixed connecting plate;

240. a bottom flap 241, a front panel 242, side panels 243, a top panel;

250. bottom baffle connecting piece 251, plane portion 252, hook portion 253 and bottom baffle mounting hole.

Detailed Description

As described in the background art, the conventional splicing type refrigerator splices commercial split type refrigerators, and the commercial split type refrigerators need independent spaces for arranging machine rooms, so that the requirements on the use spaces of stores are high; and once the commercial split type freezer goes wrong with refrigerating system, the whole set of refrigeration equipment can not be used normally, thus easily causing merchant loss.

In order to solve the problem, the application provides a concatenation formula freezer unit, including two at least freezer organisms and connection module, connect the module and include a plurality of connecting pieces, and be provided with the involution that is used for the adjacent freezer organism clearance of involution on the connecting piece. The connecting piece connects the adjacent refrigerator bodies together, the sealing piece fills the gap between the adjacent refrigerator bodies, the connecting module has simple structure and convenient and quick splicing mode, the refrigerator bodies are spliced together to form the refrigerator unit, and the effect of the integrated multi-door refrigerator can be achieved in appearance; the refrigerator body is an integrated refrigerator body, and a machine room is not required to be arranged in an extra space, so that the occupied area of the refrigerator unit is reduced; in addition, mutual independence work between each freezer organism, even one of them freezer organism breaks down, can not influence other freezer organisms and normally use yet, has reduced the possibility that the merchant takes place the loss.

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Fig. 1 is an exploded schematic view of a splicing freezer unit according to an embodiment of the present invention; fig. 2 is a schematic structural view of a top connection member according to an embodiment of the present invention, and fig. 3 is a schematic structural view of a rear connection member according to an embodiment of the present invention; fig. 4 is a schematic structural diagram of a second sealing member according to an embodiment of the present invention.

Referring to fig. 1, the spliced freezer unit 10 includes: the refrigerator comprises at least two refrigerator bodies 100 and a connecting module, wherein the refrigerator bodies 100 are arranged side by side; the connection module includes a plurality of connecting pieces, and is a plurality of the connecting piece is connected adjacently freezer organism 100, be equipped with the involution on the connecting piece, the involution is used for the shutoff adjacent clearance between freezer organism 100.

Optionally, freezer body 100's quantity also can be greater than two, and a plurality of freezer bodies 100 set up side by side, links together adjacent freezer body 100 through connecting the module, reaches the effect of the many doors freezer of integral type in the appearance.

Further, the freezer body 100 is an all-in-one freezer, and a machine room does not need to be additionally arranged, so that the occupied area of the freezer unit formed by splicing can be reduced.

Further, the front surface of the refrigerator body 100 is provided with a cabinet door, and the refrigerator body 100 can be a single-door refrigerator or a double-door refrigerator.

With combined reference to fig. 1 to 4, the connector comprises: a top connector 210, a rear connector 220, and a front connector, the top connector 210 being used to connect the tops of adjacent freezer bodies 100; the rear connecting member 220 is used for connecting the rear parts of the adjacent refrigerator bodies 100, the rear connecting member 220 comprises a first sealing member 221, and the first sealing member 221 is used for sealing the rear gaps of the adjacent refrigerator bodies 100; the front connector includes a second enclosure 231, the second enclosure 231 for closing the front gap of adjacent freezer bodies 100.

In this embodiment, the front portion of the freezer body 100 faces the customer and is on the same side as the cabinet door, and the rear portion is on the other side opposite to the cabinet door.

In this embodiment, the first sealing member 221 and the second sealing member 231 are used to seal the gap between the front and the rear of the adjacent refrigerator bodies 100, so that the effect of the integrated multi-door refrigerator is achieved in appearance.

Referring to fig. 2, the top connection member 210 includes a first connection portion 211 and a second connection portion 212, the second connection portion 212 has a width greater than that of the first connection portion 211, the first connection portion 211 is connected to the second enclosure 231, and the second connection portion 212 connects top surfaces of adjacent refrigerator bodies 100.

In this embodiment, the width d1 of the first connecting portion 211 is smaller than the width d2 of the second connecting portion 212, because the first connecting portion 211 is connected to the second sealing member 231 engaged in the gap between the adjacent refrigerator bodies 100, and the second connecting portion 212 needs to connect the top of the adjacent refrigerator bodies 100, the width d1 of the first connecting portion 211 does not need to be too large, the width of the first connecting portion 211 is reduced, and materials can be saved.

In other embodiments, the width of the first connection portion may be greater than or equal to the width of the second connection portion.

In this embodiment, the first connecting portion 211 and the second connecting portion 212 are connected end to end, and the first connecting portion 211 is connected to an end of the second enclosure 231 after the second connecting portion 212 is connected to the refrigerator body 100.

In another embodiment of the present application, the first connection portion 211 and the second connection portion 212 may also be vertically connected, and after the second connection portion 212 is connected to the refrigerator body 100, the first connection portion 211 may be inserted into a front gap between adjacent refrigerator bodies 100 and connected to the second sealing member 231.

Further, a first top mounting hole 213 is formed on the first connection portion 211, and the first connection portion 211 is connected to the end of the second enclosure 231 through the first top mounting hole 213; second top mounting holes 214 are symmetrically formed in the second connecting portion 212 at two sides, and the second top mounting holes 214 at two sides are respectively connected with the tops of the adjacent refrigerator bodies 100.

Alternatively, the first connection portion 211 and the front fascia 240 are connected by a screw or a rivet; the second connection portion 212 is connected to the top of the refrigerator body 100 by screws or rivets.

Referring to fig. 3, the rear connector 220 further includes a rear connecting plate 222, two sides of the rear connecting plate 222 are respectively connected to adjacent refrigerator bodies 100, and the first sealing member 221 is disposed on the rear connecting plate 222 and protrudes to one side perpendicular to the rear connecting plate 221. Specifically, the first enclosure 221 is perpendicular to the plane of the rear connecting plate 222, and the protruding side of the first enclosure 221 is the side of the adjacent refrigerator body 100, so that after the rear connecting plate 222 is connected to the adjacent refrigerator body 100 from the rear, the first enclosure 221 can be embedded into the rear gap of the adjacent refrigerator body 100, and the rear gap is sealed.

This another embodiment of application, back connecting plate and first involution are integrated into one piece panel structure, and first involution is the form of bending of nearly font, in the rear portion clearance between the adjacent freezer organism of first involution embedding.

Further, rear mounting holes 223 are formed in both sides of the rear connecting plate 222, and the rear connecting plate 222 is connected to the refrigerator body 100 through the rear mounting holes 223.

Alternatively, the rear connection plate 222 and the refrigerator body 100 are connected by screws or rivets.

In this embodiment, the first sealing member 221 is embedded in the gap between the adjacent refrigerator bodies 100, the rear connecting plate 222 is respectively attached to the rear surfaces of the two adjacent refrigerator bodies 100, the rear connecting member 220 is connected to the adjacent refrigerator bodies 100 by screws or rivets, the rear connecting member 220 can fill the gap between the two adjacent refrigerator bodies 100, and the visual perception that the refrigerator bodies 100 are combined into a whole is achieved from the rear appearance.

Referring to fig. 4, in the embodiment, the second sealing member 231 has a rectangular parallelepiped structure, and the second sealing member 232 seals the front gap between the adjacent refrigerator bodies 100, so as to achieve the visual perception that the refrigerator bodies 100 are combined into a whole from the front appearance.

Fig. 5 is an installation diagram of the mobile connection module according to an embodiment of the present invention.

With reference to fig. 1 and 5, the front connector further includes a movable connecting module, the movable connecting module includes a front connecting plate 232 and a fixed connecting plate 233, the fixed connecting plate 233 is connected to the freezer body 100, and the front connecting plate 232 is connected to the fixed connecting plate 233 and the second sealing member 231.

Further, the fixing connection plates 233 are respectively disposed at front sides of the adjacent refrigerator bodies 100, and both sides of the front connection plate 232 are respectively connected to the adjacent fixing connection plates 233.

Further, the fixed connection plate 233 is provided with a plurality of connection points of different heights along the longitudinal Y direction, and the front connection plate 232 can be connected with the fixed connection plate 233 through the connection points.

Alternatively, the front connection plate 232 and the fixed connection plate 233 are connected by a screw or a rivet.

In this embodiment, the fixed connection plate 233 is connected to the lower side of the cabinet door.

In this embodiment, the top connecting member 210, the rear connecting member 220, and the front connecting member cooperate to integrally splice the front, rear, and top portions of the adjacent refrigerator bodies 100, and the front connecting member weakens the gap at the front portion between the adjacent refrigerator bodies 100, thereby achieving the effect of a multi-door refrigerator in appearance; the rear parts of the adjacent refrigerator bodies are connected together through the rear connecting piece 220, and the protruding part 221 of the rear connecting piece 220 fills the gap at the rear part between the refrigerator bodies 100, so that two or more independent refrigerator bodies 100 are spliced into an integrated multi-door refrigerator.

With continued reference to fig. 1, the connection module further comprises: and the bottom baffle 240 is clamped in the groove 101 of the adjacent refrigerator body 100.

In this embodiment, the groove 101 exposes parts such as a compressor in the refrigerator body 100, and the bottom baffle 240 is clamped in the groove 101, so that the parts such as the compressor can be shielded, and the attractiveness of the refrigerator unit is enhanced; in addition, the bottom baffle 240 is simple to disassemble, and the refrigerator body is convenient to overhaul.

In this embodiment, the bottom baffle 240 simultaneously covers the grooves 101 of the connected refrigerator bodies 100, the surface of the bottom baffle 240 is substantially flush with the surface of the cabinet door, and the adjacent refrigerator bodies 100 are visually combined into an integral multi-door refrigerator.

In this embodiment, the bottom barrier 240 includes a front panel 241, side panels 242 located at both sides of the front panel 241, and a top panel 243.

In this embodiment, the top plate 243 further has a plurality of notches, and the notches correspond to the positions of the components in the groove 101 so as not to interfere with the components in the groove 101.

Fig. 6 is a schematic structural diagram of a bottom baffle connector according to an embodiment of the present invention.

Referring to fig. 1 and 6, the connection module further includes: the bottom baffle connector 250, the bottom baffle connector 250 is used to fix the bottom baffle 240 and the refrigerator body 100.

In this embodiment, the bottom board connector 250 includes a planar portion 251 and a hook portion 252, an included angle is formed between the planar portion 251 and the hook portion 252, the planar portion 251 is connected to the bottom surface of the bottom board 240, the hook portion 252 faces the bottom of the groove 101, and the hook portion 252 is inserted into the hole at the bottom of the groove 101, so that the connection stability between the bottom board 240 and the groove 101 can be further enhanced, and the bottom board 240 is prevented from coming off from the groove 101.

In this embodiment, the flat portion 251 has a bottom plate mounting hole 253, and the flat portion 251 is attached to the bottom surface of the bottom plate 240 and then fixed to the bottom surface of the bottom plate 240 through the bottom plate mounting hole 253.

Alternatively, the flat portion 251 and the bottom surface of the bottom bezel 240 are coupled by screws or rivets.

In this embodiment, the bottom baffle connector 250 is connected to the bottom baffle 240, and then when the bottom baffle 240 is engaged with the groove 101, the hook portion 252 is inserted into the hole of the sheet metal part at the bottom of the groove 101, and then the top plate 243 of the bottom baffle 240 is fixed to the refrigerator body by screws, thereby further enhancing the connection between the bottom baffle 240 and the groove 101.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. A spliced freezer unit, comprising:

at least two freezer bodies, the freezer bodies being placed side by side;

the connection module, it includes a plurality of connecting pieces, and is a plurality of the connecting piece is connected adjacently the freezer organism, be equipped with the involution on the connecting piece, the involution is used for the shutoff adjacent clearance between the freezer organism.

2. The spliced freezer unit of claim 1, wherein the connector comprises: the top connecting piece is connected with the top of the adjacent refrigerator body;

the rear connecting piece is connected with the rear part of the refrigerator body adjacent to the rear connecting piece, and comprises a first sealing piece which is used for sealing a rear gap of the refrigerator body adjacent to the rear connecting piece;

the refrigerator body comprises a front connecting piece, wherein the front connecting piece comprises a second sealing piece, and the second sealing piece is used for sealing and blocking a front gap of the refrigerator body.

3. The spliced freezer unit of claim 2, wherein the top connection member comprises a first connection portion and a second connection portion, the width of the second connection portion is greater than the width of the first connection portion, the first connection portion is connected with the second enclosure, and the second connection portion is connected adjacent to the top of the freezer body.

4. The spliced freezer unit of claim 3, wherein the first connecting portion is connected end to end with the second connecting portion, and the second connecting portion is connected with the freezer body and then the first connecting portion is connected with the end of the second sealing member.

5. The spliced freezer unit of claim 3, wherein the first connecting portion is perpendicularly connected to the second connecting portion, and the second connecting portion is connected to the freezer body and then the first connecting portion can be inserted into the front gap of the freezer body.

6. The spliced freezer unit of claim 2, wherein the rear connector further comprises a rear connecting plate, wherein the two sides of the rear connecting plate are connected to the freezer body respectively, and the first sealing member is arranged on the rear connecting plate and is protruded towards one side of the rear connecting plate.

7. The spliced freezer unit of claim 3, wherein the front connector further comprises a mobile connection module, the mobile connection module comprises a front connection plate and a fixed connection plate, the fixed connection plate is connected to the freezer body, and the front connection plate is connected to the fixed connection plate and the second seal.

8. The spliced refrigerator unit of claim 7, wherein the fixed connection plates are respectively disposed adjacent to the front side of the refrigerator body, and the two sides of the front connection plate are respectively connected to the adjacent fixed connection plates.

9. The spliced freezer unit of claim 8, wherein the fixed connection panel is longitudinally provided with a plurality of connection points of different heights, and the front connection panel is connectable to the fixed connection panel through the connection points.

10. The spliced refrigerator unit of any one of claims 1-9, wherein a groove is formed in the front of the refrigerator body, the connection module further comprises a bottom baffle, and the bottom baffle is clamped in the groove of the adjacent refrigerator body.

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