CN214792120U - Spliced refrigerator and refrigerator unit - Google Patents

Abstract

The utility model relates to the technical field of household appliances, and provides a splicing type refrigerator and a refrigerator unit, wherein the splicing type refrigerator comprises at least one longitudinal splicing module, the longitudinal splicing module comprises at least two refrigerator units which are sequentially spliced along the longitudinal direction, and each refrigerator unit comprises a refrigerator main body and a main body longitudinal splicing structure and/or a longitudinal splicing piece; the main body longitudinal splicing structure is formed at the top of the refrigerator main body, the longitudinal splicing pieces are detachably mounted at the top of the refrigerator main body, and two adjacent refrigerator main bodies in the longitudinal splicing module are connected through the main body longitudinal splicing structure and/or the longitudinal splicing pieces. Different refrigerator units can have different functions, and a user can carry out matching according to the self requirement to obtain a multifunctional longitudinal splicing module, so that the personalized customization requirement of the user is met. In addition, after the user purchases the spliced refrigerator, the functions of the spliced refrigerator can be expanded again to meet the use requirements of different life stages, and the probability of secondary consumption of the user is improved.

Description

Spliced refrigerator and refrigerator unit

Technical Field

The utility model relates to a household electrical appliances technical field specifically relates to a concatenation formula refrigerator and refrigerator unit.

Background

As a common household appliance, a consumer can select refrigerators with different configurations according to requirements, but the current refrigerator standard configuration mode limits the free selectivity of the functions of the refrigerator to a certain extent, cannot meet the individual requirements of some consumers, and secondly, the function of the refrigerator is difficult to expand again after the user purchases the refrigerator, and the secondary purchase probability is low.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned defect or not enough of prior art, the utility model provides a concatenation formula refrigerator and refrigerator unit can splice in order to obtain having multi-functional concatenation formula refrigerator between the different refrigerator units.

In order to achieve the above object, the present invention provides a splicing type refrigerator, which comprises at least one longitudinal splicing module, wherein the longitudinal splicing module comprises at least two refrigerator units spliced in sequence along a longitudinal direction, and each refrigerator unit comprises a refrigerator main body and a main body longitudinal splicing structure and/or a longitudinal splicing piece;

the refrigerator comprises a refrigerator main body, a main body longitudinal splicing structure, longitudinal splicing pieces and longitudinal splicing modules, wherein the main body longitudinal splicing structure is formed at the top of the refrigerator main body, the longitudinal splicing pieces are detachably mounted at the top of the refrigerator main body, and two adjacent refrigerator main bodies in the longitudinal splicing modules are connected through the main body longitudinal splicing structure and/or the longitudinal splicing pieces.

Optionally, the refrigerator unit comprises a main body longitudinal splicing structure and a longitudinal splicing piece, the main body longitudinal splicing structure comprises a plurality of main body clamping grooves formed in the top surface of the refrigerator main body, the longitudinal splicing piece comprises a substrate, a plurality of substrate buckles extending out of the bottom wall of the substrate and a substrate positioning groove formed in the upper plate surface of the substrate, and a main body supporting structure is arranged at the bottom of the refrigerator main body;

in vertical concatenation module, the base plate pad is established between two adjacent refrigerator main parts, and a plurality of base plate buckles and a plurality of main part draw-in grooves one-to-one joint in the refrigerator main part that is arranged in the below penetrate in the base plate constant head tank downwards to the main part bearing structure that is arranged in the refrigerator main part of top.

Optionally, the vertical splicing piece further comprises a splicing reinforcing plate connected to the outer peripheral wall of the substrate, the splicing reinforcing plate comprises an upper reinforcing plate portion and a lower reinforcing plate portion, the upper reinforcing plate portion and the lower reinforcing plate portion vertically extend out relative to the upper surface and the lower surface of the substrate, between two adjacent refrigerator bodies of the vertical splicing module, the upper reinforcing plate portion is in limit fixed abutting connection with the outer peripheral wall of the bottom of the refrigerator body located above, and the lower reinforcing plate portion is in limit fixed abutting connection with the outer peripheral wall of the top of the refrigerator body located below.

Optionally, the spliced refrigerator comprises a plurality of longitudinal splicing modules spliced in sequence in the transverse direction, the refrigerator unit further comprises a main body transverse splicing structure and/or a transverse splicing piece, the main body transverse splicing structure is formed on the transverse side portion of the refrigerator main body, and two adjacent longitudinal splicing modules are connected through the main body transverse splicing structure and/or the transverse splicing piece.

Optionally, the refrigerator unit comprises a longitudinal splice and a transverse splice, and between two adjacent longitudinal splice modules, two transversely adjacent longitudinal splices are detachably connected by the transverse splice.

The utility model discloses the second aspect provides a refrigerator unit, and this refrigerator unit includes:

a refrigerator main body; and

the refrigerator comprises a main body longitudinal splicing structure and/or a longitudinal splicing piece, wherein the main body longitudinal splicing structure is formed at the top of the refrigerator main body, and the longitudinal splicing piece is detachably arranged at the top of the refrigerator main body.

Optionally, the refrigerator unit includes a main body longitudinal splicing structure and a longitudinal splicing piece, the main body longitudinal splicing structure includes a plurality of main body slots formed on the top surface of the refrigerator main body, the longitudinal splicing piece includes a base plate, a plurality of base plate buckles extending from the bottom wall of the base plate and a base plate positioning slot formed on the upper plate surface of the base plate, and a main body supporting structure is arranged at the bottom of the refrigerator main body.

Optionally, the longitudinal splicing member further comprises a splicing reinforcing plate connected to the outer peripheral wall of the base plate, the splicing reinforcing plate comprises an upper reinforcing plate portion and a lower reinforcing plate portion, the upper reinforcing plate portion and the lower reinforcing plate portion vertically extend out of the upper surface and the lower surface of the base plate respectively, and the lower reinforcing plate portion and the outer peripheral wall of the top of the refrigerator main body form detachable limiting fixed abutting.

Optionally, the refrigerator unit further comprises a main body transverse splicing structure and/or a transverse splicing member, the main body transverse splicing structure is formed on a transverse side portion of the refrigerator main body, and the transverse splicing member is detachably connected with the refrigerator main body or the main body transverse splicing structure.

Optionally, the refrigerator unit comprises a longitudinal splice and a transverse splice capable of forming a detachable connection with the longitudinal splice.

The utility model discloses in, different refrigerator units can have different functions, vertically splice the formation through the vertical mosaic structure of main part and/or vertical splicer and have multi-functional vertical concatenation module, and the user can arrange according to self demand to satisfy user's individualized customization demand. In addition, after the user purchases the spliced refrigerator, the functions of the spliced refrigerator can be expanded again to meet the use requirements of different life stages, and the probability of secondary consumption of the user is improved.

Other features and advantages of the present invention will be described in detail in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is an exploded view of a longitudinal mosaic module according to an embodiment of the present invention;

fig. 2 is an exploded view of a refrigerator unit according to an embodiment of the present invention;

FIG. 3 is an exploded view of two of the longitudinal splice modules of FIG. 2 when spliced in a transverse direction;

fig. 4 is a front view of a longitudinal splicing module according to an embodiment of the present invention, spliced in a transverse direction;

fig. 5 is an enlarged view of a point a in fig. 1.

Description of reference numerals:

10. a refrigerator unit; 20. a longitudinal splicing module; 11. a refrigerator main body; 12. a longitudinal splice; 13. a transverse splice; 14. a cover plate; 111. a main body clamping groove; 121. a substrate; 122. substrate buckling; 123. a substrate positioning slot; 124. splicing the reinforcing plate; 131. an I-shaped bracket plate; 1241. the upper part of the reinforcing plate; 1242. lower part of the reinforcing plate

Detailed Description

The following describes in detail embodiments of the present invention with reference to the accompanying drawings. It is to be understood that the description herein is only intended to illustrate and explain embodiments of the present invention, and is not intended to limit embodiments of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the embodiments of the present invention, unless otherwise specified, the use of directional terms such as "upper, lower, top, bottom" and "upper" are generally used with respect to the orientation shown in the drawings or the positional relationship of the components with respect to each other in the vertical, vertical or gravitational direction.

The invention will be described in detail below with reference to the accompanying drawings in conjunction with exemplary embodiments.

As shown in fig. 1 to 5, a first exemplary embodiment of the present invention provides a splicing type refrigerator, which includes at least one longitudinal splicing module 20, the longitudinal splicing module 20 includes at least two refrigerator units 10 spliced in sequence along a longitudinal direction, the refrigerator units 10 include a refrigerator main body 11 and a main body longitudinal splicing structure and/or a longitudinal splicing member 12;

the main body longitudinal splicing structure is formed on the top of the refrigerator main body 11, the longitudinal splicers 12 are detachably mounted on the top of the refrigerator main body 11, and two adjacent refrigerator main bodies 11 in the longitudinal splicing module 20 are connected through the main body longitudinal splicing structure and/or the longitudinal splicers 12.

The utility model discloses an in the embodiment, different refrigerator unit 10 can have different functions, for example, can be for keeping fresh, refrigeration, cold-stored, storage etc. consequently, the vertical concatenation module 20 that the concatenation of different refrigerator unit 10 formed has multiple functions, and the user can arrange according to self demand to satisfy user's individualized customization demand. In addition, after the user purchases the spliced refrigerator, the functions of the spliced refrigerator can be expanded again to meet the use requirements of different life stages, and the probability of secondary consumption of the user is improved.

In one embodiment, the refrigerator unit 10 comprises a refrigerator body 11 and a longitudinal splice 12, and two adjacent refrigerator bodies 11 can be longitudinally spliced to form a longitudinal splice module 20 only by the longitudinal splice 12. For example, the longitudinal splicing member 12 may be a connecting flat plate, the connecting flat plate is provided with a screw hole and is located between two adjacent refrigerator main bodies 11, and the two adjacent refrigerator main bodies 11 are longitudinally and fixedly connected by the screw; or, the longitudinal splicing pieces 12 may be pins, pin holes are formed between two adjacent refrigerator main bodies 11 in an aligned manner, and the two adjacent refrigerator main bodies 11 are longitudinally spliced together through the pins. Of course, the longitudinal splicing element 12 can be other elements, which are not illustrated herein.

In another embodiment, the refrigerator unit 10 includes the refrigerator main bodies 11 and a main body longitudinal splicing structure, and two adjacent refrigerator main bodies 11 can be longitudinally spliced to form the longitudinal splicing module 20 only by the main body longitudinal splicing structure. For example, the longitudinal main body splicing structural member may be a buckle groove located at the top of the refrigerator main body 11, a buckle is provided at the bottom of the adjacent refrigerator main body 11 longitudinally spliced with the longitudinal main body splicing structural member in an aligned manner, and the two adjacent refrigerator main bodies 11 are longitudinally connected through the buckle; alternatively, the main body longitudinal splicing structural member may be a sliding groove located at the top of the refrigerator main body 11, and the bottom of the adjacent refrigerator main body 11 longitudinally spliced therewith can be embedded in the sliding groove. Of course, the longitudinal splicing structure of the main body can be other structures, which are not exemplified here.

As shown in fig. 1, in the illustrated embodiment, the refrigerator unit 10 includes a refrigerator main body 11, a main body longitudinal splicing structure and a longitudinal splicing member 12, and two adjacent refrigerator main bodies 11 in the longitudinal splicing module 20 are connected by the main body longitudinal splicing structure and the longitudinal splicing member 12. Specifically, the refrigerator unit 10 includes a main body longitudinal splicing structure and a longitudinal splicing member 12, the main body longitudinal splicing structure includes a plurality of main body slots 111 formed on the top surface of the refrigerator main body 11, the longitudinal splicing member 12 includes a substrate 121, a plurality of substrate fasteners 122 extending from the bottom wall of the substrate 121, and a substrate positioning slot 123 formed on the upper plate surface of the substrate 121, and a main body supporting structure is arranged at the bottom of the refrigerator main body 11;

in the longitudinal splicing module 20, the substrate 121 is padded between two adjacent refrigerator main bodies 11, the substrate fasteners 122 are fastened with the body fastening grooves 111 in the refrigerator main body 11 below in a one-to-one correspondence manner, and the main body supporting structure in the refrigerator main body 11 above penetrates into the substrate positioning groove 123 downwards.

As shown in fig. 1 and 5, the base plate 121 is located between the top surface and the bottom surface of two adjacent refrigerator main bodies 11, three rows and three columns of criss-cross main body slots 111 are formed on the top surface of the refrigerator main body 11, and an L-shaped base plate latch 122 that is engaged with the main body slots 111 is formed on the bottom wall of the base plate 121. When the longitudinal splices 12 are installed, the substrate buckles 122 are inserted into the main body clamping grooves 111 from the upper side, and then the substrate 121 is moved towards the front side of the refrigerator main body 11, so that the horizontal end portions of the L-shaped substrate buckles 122 are further embedded into the main body clamping grooves 111, the whole longitudinal splices 12 are fixed on the top surface of the refrigerator main body 11, then, another refrigerator main body 11 is placed on the longitudinal splices 12 from the top down, and of course, in the placing process, the main body supporting structures are guaranteed to be placed in the substrate positioning grooves 123 in a one-to-one correspondence mode. In this embodiment, the main body supporting structure may be a refrigerator bottom pulley, a refrigerator bottom positioning column, or the like.

Further, the longitudinal splicing member 12 further comprises a splicing reinforcing plate 124 connected to the outer peripheral wall of the substrate 121, the splicing reinforcing plate 124 comprises a reinforcing plate upper portion 1241 and a reinforcing plate lower portion 1242 which vertically extend relative to the upper and lower plate surfaces of the substrate 121, between two adjacent refrigerator main bodies 11 of the longitudinal splicing module 20, the reinforcing plate upper portion 1241 is in limit fixed abutting connection with the bottom outer peripheral wall of the refrigerator main body 11 located above, and the reinforcing plate lower portion 1242 is in limit fixed abutting connection with the top outer peripheral wall of the refrigerator main body 11 located below.

As shown in fig. 1, in the illustrated embodiment, the splicing reinforcing plate 124 is a flat plate and includes a reinforcing plate upper portion 1241 and a reinforcing plate lower portion 1242, the reinforcing plate upper portion 1241 and the reinforcing plate lower portion 1242 are respectively provided with a threaded hole, after the substrate buckle 122 is buckled with the body buckle groove 111 and the refrigerator body 11 is placed on the substrate 121, the splicing reinforcing plate 124 is located at the rear side of the refrigerator body 11, the reinforcing plate upper portion 1241 is close to the bottom of the rear side wall of the refrigerator body 11 located above, the reinforcing plate lower portion 1242 is close to the top of the rear side wall of the refrigerator body 11 located below, and the reinforcing plate upper portion 1241 and the reinforcing plate lower portion 1242 are respectively and fixedly connected with the refrigerator body 11 located above and the refrigerator body 11 located below by screws, so as to further firmly connect the two refrigerator bodies 11 above and below, thereby forming the stable and reliable longitudinal splicing module 20.

Further, the longitudinal split module 20 further includes a cover plate 14 detachably coupled to the top of the topmost refrigerator main body 11. As shown in fig. 1 and 2, in the illustrated embodiment, the cover plate 14 is a flat plate, and a short plate extends downward from the periphery to form a slot, so that the whole cover plate 14 can be sleeved on the top of the refrigerator main body 11 and then fixed by screws, thereby preventing dirt from falling into the main body slot 111 and facilitating the secondary splicing.

The utility model discloses an in the embodiment, the concatenation formula refrigerator can include along a plurality of vertical concatenation modules 20 of transversely splicing in proper order, and refrigerator unit 10 still includes the horizontal mosaic structure of main part and/or horizontal splice 13, and the horizontal mosaic structure of main part forms at the horizontal lateral part of refrigerator main part 11, connects through the horizontal mosaic structure of main part and/or horizontal splice 13 between two adjacent vertical concatenation modules 20.

Specifically, the longitudinal splicing modules 20 can be spliced in sequence along the transverse direction, so that the functions of the spliced refrigerator can be further expanded, and users can reasonably arrange the splicing directions of the refrigerator units 10 according to their own needs.

In one embodiment, the refrigerator unit 10 includes a main body transverse splicing structure, and after the refrigerator unit 10 is spliced in the longitudinal direction to form the longitudinal splicing modules 20, two adjacent longitudinal splicing modules 20 can be spliced in the transverse direction through the main body transverse splicing structure. For example, the main body transverse splicing structure may be a magnetic buckle formed on the transverse side portion of the refrigerator main body 11, another magnetic buckle matched with the transverse side portion of the adjacent refrigerator main body 11 transversely spliced with the main body transverse splicing structure is arranged in an aligned manner, and the two adjacent longitudinal splicing modules 20 are transversely connected through magnetic attraction; or, the main body transverse splicing structure may be an adhesive block located on the transverse side portion of the refrigerator main body 11, a paired adhesive block is provided in alignment with the transverse side portion of the adjacent refrigerator main body 11 transversely spliced with the main body transverse splicing structure, and the two adjacent longitudinal splicing modules 20 are transversely connected through adhesive. Of course, the main body transverse splicing structure can be other structures, which are not exemplified here.

In another embodiment, the refrigerator unit 10 comprises the transverse splicing pieces 13, and after the refrigerator unit 10 is spliced in the longitudinal direction to form the longitudinal splicing modules 20, two adjacent longitudinal splicing modules 20 can be spliced in the transverse direction through the transverse splicing pieces 13. For example, as shown in fig. 4, the transverse splicing member 13 may be an i-shaped support plate 131, the upper and lower ends of the i-shaped support plate 131 are both provided with screw holes and located between the transverse side portions of two adjacent longitudinal splicing modules 20, and the upper and lower ends of the i-shaped support plate 131 are respectively fixed at the top and the bottom of two adjacent longitudinal splicing modules 20 by screws, so that the two longitudinal splicing modules 20 are spliced transversely; or, the transverse splicing member 13 may be a connection flat plate, the connection flat plate is provided with a screw hole, and the connection flat plate is fixedly mounted on the rear side wall of the two adjacent longitudinal splicing modules 20 through a screw, so as to transversely splice the two longitudinal splicing modules 20 together. Of course, the transverse splicing elements 13 can be other elements, which are not illustrated here.

In another embodiment, the refrigerator unit 10 includes a main body transverse splicing structure and a transverse splicing member 13, and after the refrigerator unit 10 is spliced in the longitudinal direction to form the longitudinal splicing modules 20, two adjacent longitudinal splicing modules 20 can be spliced in the transverse direction through the transverse splicing member 13 and the main body transverse splicing structure. For example, the transverse splicing structure of the main body can be a magnetic buckle formed on the transverse side portion of the refrigerator main body 11, the transverse splicing pieces 13 can be connecting plates, two adjacent longitudinal splicing modules 20 can be connected through magnetic attraction to perform first transverse fixing splicing, and then the second transverse fixing splicing is performed through the connecting plates, so that the transverse connection of the two adjacent longitudinal splicing modules 20 is more stable.

Further, the refrigerator unit 10 comprises longitudinal splices 12 and transverse splices 13, between two adjacent longitudinal splice modules 20, two transversely adjacent longitudinal splices 12 are detachably connected by the transverse splices 13.

As shown in fig. 3, in the illustrated embodiment, the longitudinal splicer 12 is provided with screw holes, the longitudinal splicer 12 splices two refrigerator units 10 to form a longitudinal splice module 20, and the transverse splicer 13 is a connection plate and is provided with screw holes matching with the longitudinal splicer 12, and the longitudinal splicer 12 on the longitudinal splice module 20 is connected by screws, so as to fixedly connect the longitudinal splice module 20 in the transverse direction. In this embodiment, the longitudinal splices 12 comprise splice reinforcement plates 124, and the transverse splices 13 are fixedly mounted on the splice reinforcement plates 124 by screws.

The second exemplary embodiment of the present invention provides a refrigerator unit 10, the refrigerator unit 10 includes a refrigerator main body 11 and a main body longitudinal splicing structure and/or a longitudinal splicing member 12; the main body longitudinal splicing structure is formed on the top of the refrigerator main body 11, and the longitudinal splicing piece 12 is detachably arranged on the top of the refrigerator main body 11.

In one embodiment, the refrigerator unit 10 comprises a refrigerator body 11 and a longitudinal splice 12. For example, the longitudinal splicing member 12 can be a connecting plate, which is provided with screw holes and is fixedly mounted on the top of the refrigerator main body 11 by screws; alternatively, the longitudinal splicing member 12 may be a pin, and the top of the refrigerator main body 11 is provided with a pin hole. Of course, the longitudinal splicing element 12 can be other elements, which are not illustrated herein.

In another embodiment, the refrigerator unit 10 includes a refrigerator main body 11 and a main body longitudinal split structure. For example, the body longitudinal splicing structure may be a snap groove located at the top of the refrigerator body 11; alternatively, the main body longitudinal splicing structural member may be a sliding groove located at the top of the refrigerator main body 11. Of course, the longitudinal splicing structure of the main body can be other structures, which are not exemplified here.

In another embodiment, the refrigerator unit 10 includes a refrigerator body 11, a body longitudinal splice structure, and a longitudinal splice 12. Specifically, the longitudinal body splicing structure includes a plurality of body slots 111 formed in the top surface of the refrigerator body 11, the longitudinal splicer 12 includes a substrate 121, a plurality of substrate fasteners 122 extending from the bottom wall of the substrate 121 for setting, and a substrate positioning slot 123 formed in the upper plate surface of the substrate 121, and the bottom of the refrigerator body 11 is provided with a body supporting structure.

As shown in fig. 1 and 5, in the illustrated embodiment, three rows and three columns of criss-cross body slots 111 are formed in the top surface of the refrigerator body 11, and L-shaped substrate clips 122 aligned and engaged with the body slots 111 are formed in the bottom wall of the substrate 121. When the longitudinal splice 12 is installed, the substrate latch 122 is inserted into the body slot 111 from above, and then the substrate 121 is moved toward the front side of the refrigerator body 11, so that the horizontal end of the L-shaped substrate latch 122 is further inserted into the body slot 111, thereby fixing the entire longitudinal splice 12 on the top surface of the refrigerator body 11. In addition, 4 circular substrate positioning grooves 123 for placing the main body supporting structure are formed on the upper plate surface of the substrate 121. In this embodiment, the main body supporting structure may be a refrigerator bottom pulley, a refrigerator bottom positioning column, or the like.

Further, the longitudinal splicing member 12 further comprises a splicing reinforcing plate 124 connected to the outer peripheral wall of the base plate 121, the splicing reinforcing plate 124 comprises a reinforcing plate upper portion 1241 and a reinforcing plate lower portion 1242 which vertically extend relative to the upper and lower plate surfaces of the base plate 121, and the reinforcing plate lower portion 1242 forms a detachable limiting fixed abutment with the top outer peripheral wall of the refrigerator main body 11.

Specifically, the splicing reinforcing plate 124 is a flat plate and includes a reinforcing plate upper portion 1241 and a reinforcing plate lower portion 1242, both the reinforcing plate upper portion 1241 and the reinforcing plate lower portion 1242 are provided with threaded holes, and the reinforcing plate lower portion 1242 is connected with the top rear side wall of the refrigerator main body 11 through screws so as to further strengthen and fix the longitudinal splicing member 12 on the top of the refrigerator main body 11.

The utility model discloses an in the embodiment, refrigerator unit 10 still includes the horizontal mosaic structure of main part and/or horizontal splice 13, and the horizontal mosaic structure of main part forms at the horizontal lateral part of refrigerator main part 11, and horizontal splice 13 can be dismantled with refrigerator main part 11 or the horizontal mosaic structure of main part and be connected.

In one embodiment, the refrigerator unit 10 includes a main body lateral splicing structure, for example, the main body lateral splicing structure may be a magnetic catch formed at a lateral side of the refrigerator main body 11; alternatively, the main body lateral splicing structure may be an adhesive glue section located at a lateral side of the refrigerator main body 11. Of course, the main body transverse splicing structure can be other structures, which are not exemplified here.

In another embodiment, the refrigerator unit 10 includes the transverse splicing member 13, for example, the transverse splicing member 13 may be an i-shaped bracket plate 131, and the upper and lower ends of the i-shaped bracket plate 131 are both provided with screw holes and are fixedly connected with the top and the bottom of the refrigerator main body 11 through screws; or, the transverse splicing member 13 may be a connection flat plate, the connection flat plate is provided with a screw hole, and the connection flat plate is fixedly mounted on the rear side wall of the refrigerator main body 11 through a screw. Of course, the transverse splicing elements may be other elements, which are not illustrated herein.

In another embodiment, the refrigerator unit 10 includes a main body transverse splicing structure and a transverse splicing member 13. For example, the main body lateral splicing structure may be a magnetic catch formed on a lateral side of the refrigerator main body 11, and the lateral splicing member 13 may be a connection plate fixedly mounted on a rear side wall of the refrigerator main body 11 by screws.

In one embodiment, the refrigerator unit 10 comprises a longitudinal splice 12 and a transverse splice 13 that can form a detachable connection with the longitudinal splice 12.

As shown in fig. 1 and 3, in the illustrated embodiment, the longitudinal splicing member 12 is provided with a screw hole and fixed on the top of the refrigerator main body 11 by a screw, and the transverse splicing member 13 is a connecting flat plate and provided with a screw hole matching with the longitudinal splicing member 12 and fixed on the longitudinal splicing member 12 by a screw. In this embodiment, the longitudinal splices 12 comprise splice reinforcement plates 124, and the transverse splices 13 are fixedly mounted on the splice reinforcement plates 124 by screws.

The above describes in detail optional implementation manners of embodiments of the present invention with reference to the accompanying drawings, however, the embodiments of the present invention are not limited to the details in the above implementation manners, and in the technical concept scope of the embodiments of the present invention, it is possible to perform various simple modifications on the technical solutions of the embodiments of the present invention, and these simple modifications all belong to the protection scope of the embodiments of the present invention.

It should be noted that, in the above-mentioned embodiments, the various technical features described in the above-mentioned embodiments can be combined in any suitable way without contradiction, and in order to avoid unnecessary repetition, the embodiments of the present invention do not separately describe various possible combinations.

In addition, various different implementation manners of the embodiments of the present invention can be combined arbitrarily, and as long as it does not violate the idea of the embodiments of the present invention, it should be considered as the disclosure of the embodiments of the present invention.

Claims (10)

1. A spliced refrigerator, characterized in that the spliced refrigerator comprises at least one longitudinal splicing module (20), the longitudinal splicing module (20) comprises at least two refrigerator units (10) spliced in sequence in the longitudinal direction, and the refrigerator units (10) comprise a refrigerator main body (11) and a main body longitudinal splicing structure and/or a longitudinal splicing piece (12);

wherein the main body longitudinal splicing structure is formed at the top of the refrigerator main body (11), the longitudinal splicers (12) are detachably mounted at the top of the refrigerator main body (11), and two adjacent refrigerator main bodies (11) in the longitudinal splicing modules (20) are connected through the main body longitudinal splicing structure and/or the longitudinal splicers (12).

2. The tiled refrigerator according to claim 1, wherein the refrigerator unit (10) comprises the main body longitudinal tile structure and the longitudinal tile (12), the main body longitudinal tile structure comprises a plurality of main body slots (111) formed on the top surface of the refrigerator main body (11), the longitudinal tile (12) comprises a base plate (121), a plurality of base plate buckles (122) protruding from the bottom wall of the base plate (121) and a base plate positioning slot (123) formed on the upper plate surface of the base plate (121), the bottom of the refrigerator main body (11) is provided with a main body support structure;

in vertical concatenation module (20), base plate (121) pad is established adjacent two between refrigerator main part (11), it is a plurality of base plate buckle (122) and be located the below in refrigerator main part (11) a plurality of main part draw-in groove (111) one-to-one joint is located the top in refrigerator main part (11) the main part bearing structure downwardly penetrates in base plate constant head tank (123).

3. The spliced refrigerator of claim 2, wherein the longitudinal splices (12) further comprise splicing reinforcing plates (124) connected to the peripheral wall of the base plate (121), the splicing reinforcing plates (124) comprise upper reinforcing plate portions (1241) and lower reinforcing plate portions (1242) vertically protruding relative to the upper and lower plate surfaces of the base plate (121), respectively, between two adjacent refrigerator bodies (11) of the longitudinal splicing module (20), the upper reinforcing plate portions (1241) are in limit-fixed abutment with the bottom peripheral wall of the refrigerator body (11) located above, and the lower reinforcing plate portions (1242) are in limit-fixed abutment with the top peripheral wall of the refrigerator body (11) located below.

4. The tiled refrigerator according to any of the claims 1 to 3, wherein the tiled refrigerator comprises a plurality of said longitudinal tiled modules (20) tiled in sequence in the transverse direction, the refrigerator unit (10) further comprising a main body transverse tile structure formed at a transverse side of the refrigerator main body (11) and/or a transverse tile (13), two adjacent longitudinal tiled modules (20) being connected by the main body transverse tile structure and/or the transverse tile (13).

5. The tiled refrigerator according to claim 4, wherein the refrigerator unit (10) comprises a longitudinal tile (12) and a transverse tile (13), between two adjacent longitudinal tiles (20), two transversely adjacent longitudinal tiles (12) being detachably connected by the transverse tile (13).

6. A refrigerator unit, characterized in that the refrigerator unit (10) comprises:

a refrigerator main body (11); and

a main body longitudinal splicing structure and/or a longitudinal splicing piece (12), wherein the main body longitudinal splicing structure is formed at the top of the refrigerator main body (11), and the longitudinal splicing piece (12) is detachably arranged at the top of the refrigerator main body (11).

7. The refrigerator unit according to claim 6, wherein the refrigerator unit (10) comprises the main body longitudinal splicing structure and the longitudinal splicing member (12), the main body longitudinal splicing structure comprises a plurality of main body clamping grooves (111) formed on the top surface of the refrigerator main body (11), the longitudinal splicing member (12) comprises a base plate (121), a plurality of base plate buckles (122) arranged to extend from the bottom wall of the base plate (121), and a base plate positioning groove (123) formed on the upper plate surface of the base plate (121), and the bottom of the refrigerator main body (11) is provided with a main body supporting structure.

8. A refrigerator unit as claimed in claim 7, characterized in that the longitudinal splice (12) further comprises a splice reinforcement plate (124) attached to the peripheral wall of the base plate (121), the splice reinforcement plate (124) comprising an upper reinforcement plate portion (1241) and a lower reinforcement plate portion (1242) projecting vertically with respect to the upper and lower plate surfaces of the base plate (121), respectively, the lower reinforcement plate portion (1242) forming a detachable stop-fixed abutment with the top peripheral wall of the refrigerator body (11).

9. The refrigerator unit according to any of claims 6 to 8, characterized in that the refrigerator unit (10) further comprises a main body transverse splicing structure formed at a transverse side of the refrigerator main body (11) and/or a transverse splicing piece (13), the transverse splicing piece (13) being detachably connected to the refrigerator main body (11) or the main body transverse splicing structure.

10. The refrigerator unit according to claim 9, wherein the refrigerator unit (10) comprises a longitudinal splice (12) and a transverse splice (13) that can form a detachable connection with the longitudinal splice (12).

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