CN215597892U

CN215597892U - Box body assembly and refrigerator

Info

Publication number: CN215597892U
Application number: CN202121607223.6U
Authority: CN
Inventors: 师光禄
Original assignee: Hubei Midea Refrigerator Co Ltd
Current assignee: Hubei Midea Refrigerator Co Ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2022-01-21
Anticipated expiration: 2031-07-15

Abstract

The embodiment of the utility model provides a box body assembly and a refrigerator. First pre-buried body is established on the case courage, and first pre-buried body is located and holds the intracavity. The luminous element is positioned in the accommodating cavity. The backstop sets up on first pre-buried body towards the illuminating part. At least one part of the first connecting piece is arranged at the first end of the luminous piece, and the first connecting piece is abutted between the box container and the retaining wall. According to the utility model, at least one part of the first connecting piece is abutted between the box container and the retaining piece, so that the pre-installation of the luminous piece and the first connecting piece is realized, the luminous piece and the first connecting piece are prevented from falling off from the box container, convenience is provided for the subsequent installation process, and the installation operability of the luminous piece is effectively improved.

Description

Box body assembly and refrigerator

Technical Field

The embodiment of the utility model relates to the technical field of household appliances, in particular to a box body assembly and a refrigerator.

Background

At present, the household electrical appliance is provided with an illumination assembly so as to facilitate normal operation of a user in a use environment with poor light. However, in order to avoid interfering with the normal use space of the household electrical appliance, the installation space of the lighting assembly is generally limited.

Therefore, in a limited space, how to improve the operability of the installation of the lighting assembly has become a problem to be solved.

SUMMERY OF THE UTILITY MODEL

Embodiments of the present invention are directed to solving at least one of the technical problems occurring in the prior art.

To this end, a first aspect of an embodiment of the utility model provides a tank assembly.

A second aspect of embodiments of the present invention provides a refrigerator.

In view of this, according to a first aspect of the embodiments of the present invention, there is provided a box body assembly, which includes a box liner, a first embedded body, a light emitting member, a retaining member, and a first connecting member, wherein the box liner includes an accommodating cavity. First pre-buried body is established on the case courage, and first pre-buried body is located and holds the intracavity. The luminous element is positioned in the accommodating cavity. The backstop sets up on first pre-buried body towards the illuminating part. At least one part of the first connecting piece is arranged at the first end of the luminous piece, and the first connecting piece is abutted between the box container and the retaining wall.

The box body assembly provided by the embodiment of the utility model comprises a box container, a first embedded body, a light-emitting piece, a retaining piece and a first connecting piece, wherein the box container comprises an accommodating cavity with an opening at one side, and the first embedded body, the light-emitting piece, the first connecting piece and the retaining piece are positioned in the accommodating cavity. The luminous element and the first connecting element are connected and integrated and can extend into the accommodating cavity from the opening to realize installation. Conceivably, the opening may be located on either side of the receiving cavity, such as front, rear, left, right. When the opening is located at the front side of the accommodating chamber, the opening faces the user side.

It should be noted that the light emitting element serves as a light source and illuminates the accommodating cavity. In order to avoid the arrangement of the luminous piece from influencing the normal use of the accommodating cavity, the luminous piece can be arranged in the accommodating cavity close to the box liner. For example, the light emitting member is disposed at the top of the accommodating chamber, so that the light condition of the bottom space of the accommodating chamber can be improved. Specifically, the light emitting member may be a surface light source. Further, the backstop piece is arranged on the first embedded body towards the luminous piece.

For example, when the light-emitting piece is close to the top of the accommodating cavity, the retaining piece and the first embedded body are located between the light-emitting piece and the top wall of the box liner. At the moment, the box liner, the first embedded body, the retaining piece and the light-emitting piece are sequentially arranged in the direction from top to bottom. When the luminous piece is established and is held the position that the intracavity leaned on the back, then stopping piece and first pre-buried body all are located between the back wall of luminous piece and case courage. When the luminous piece was established and is holding the chamber bottom, then stopping piece and first pre-buried body all are located between the diapire of luminous piece and case courage. According to the difference of the position of the luminous piece in the containing cavity, the stopping piece and the first embedded body can be correspondingly arranged at the corresponding position of the box liner.

Wherein, luminous piece is including the first end and the second end that carry on the back mutually, and the first end department of luminous piece is equipped with first connecting piece, and at least some butt of first connecting piece is between case courage and stopping piece, that is to say, luminous piece is as the light source, and its self structure does not receive the influence of installation demand, need not to do any change to the structure of light source promptly, only can realize being connected with the case courage through making the adaptability to the structure of first connecting piece and improving. The illuminating part with the illuminating function does not need to consider the installation requirement.

According to the utility model, at least one part of the first connecting piece is abutted between the box container and the retaining piece, so that the pre-installation of the light-emitting piece and the first connecting piece is realized, the light-emitting piece and the first connecting piece are prevented from falling off from the box container and the first embedded piece, the convenience is provided for the subsequent installation process, and the installation operability of the light-emitting piece is effectively improved.

For example, the first end of the light-emitting piece is the front end, and the retaining piece and the first embedded body are arranged on the top wall of the box container, at least one part of the first connecting piece abuts between the box container and the retaining piece, so that the limiting effect in the front-back direction can be realized. The first end of the light-emitting piece is the right end, the retaining piece and the first embedded body are arranged on the top wall of the box container, at least one part of the first connecting piece abuts between the box container and the retaining piece, and therefore limiting effect in the left-right direction can be achieved.

In addition, the box body assembly provided by the technical scheme of the utility model also has the following additional technical characteristics:

in a possible design, further, the container bladder further includes an opening communicating with the accommodating chamber, and the retaining member includes a retaining wall facing the opening.

In this design, the tank bladder further includes an opening communicating with the accommodating chamber, and when the opening is located at the front side of the accommodating chamber, the opening faces the user side. Stopping piece and first pre-buried body are established on the roof of case courage, and stopping piece is including towards open-ended stopping wall, and stopping piece includes the stopping wall to the front side promptly. At least one part of the first connecting piece is abutted between the retaining wall and the inner wall of the box container, the retaining wall limits the first connecting piece to move backwards, the inner wall of the box container limits the first connecting piece to move forwards, and at the moment, at least one part of the first connecting piece is abutted between the retaining wall and the box container, so that the limiting effect on the first connecting piece and the light-emitting piece in the front-back direction is realized.

Further, the box body assembly further comprises a bearing piece, the bearing piece is arranged on the first embedded body and located on one side, facing the stopping piece, of the luminous piece, the bearing piece comprises a bearing surface deviating from the luminous piece, and a part of the first connecting piece is lapped on the bearing surface.

In this design, the box subassembly still includes the receiving piece, and the receiving piece is connected on first pre-buried body, and the receiving piece is located the one side of illuminating part orientation stopping piece, that is to say, receiving piece and stopping piece are located the same one side of illuminating part. Under the condition that stopping piece and first pre-buried body are located the roof of case courage, then the accepting is located the top of luminous piece. The receiving part comprises a receiving surface which is far away from the luminous part, namely the receiving surface is the upper surface of the receiving part. The first connecting piece is partially lapped on the bearing surface, the bearing piece can provide limiting action in the vertical direction for the first connecting piece, and the light-emitting piece and the first connecting piece are further ensured not to fall off from the box container and the first embedded body.

It should be noted that, for the first connecting member, the stopping member and the tank liner can form a front-back limit, and the receiving member can provide a vertical limit, so that the position of the light emitting member and the first connecting member can be stabilized under the pre-installation condition.

In a possible design, further, the first connecting member includes a mounting portion, a first abutting portion and a second abutting portion, the mounting portion includes a mounting groove, and a portion of the light emitting member is disposed in the mounting groove. The first abutting portion is arranged on the mounting portion, extends along a first direction departing from the light-emitting piece and abuts against the retaining wall. The second abutting portion is arranged on the mounting portion, the second abutting portion extends away from the second direction of the light-emitting piece, and the first direction is different from the second direction.

In this design, first connecting piece includes installation department, first butt portion and second butt portion, and the installation department includes the mounting groove, and partly locating of luminous piece is in the mounting groove to realize the fixed connection between luminous piece and the first connecting piece. The first abutting portion is arranged on the mounting portion, extends along a first direction departing from the light-emitting piece and abuts against the retaining wall. The second butt joint portion is arranged on the installation portion, extends in a second direction away from the light-emitting piece and is in butt joint with the inner wall of the box container, and the first direction is different from the second direction. First butt portion and second butt portion extend along the direction of difference to on the inner wall of difference butt in thrust wall and case courage, the inner wall restriction second butt portion of case courage moves forward, and the first butt portion of backstop wall restriction moves backward, thereby realizes spacing in the fore-and-aft direction.

In one possible design, further, the light emitting member includes a light emitting panel, the first direction includes a thickness direction of the light emitting panel, and the second direction includes a direction parallel to the light emitting panel.

In this design, the light emitting member comprises a light emitting plate, i.e. the light emitting plate is a surface light source. First butt portion extends along the thickness direction of luminescent plate, and vertical ascending direction extends promptly, and the stopping wall includes the wall along vertical direction downwardly extending, butt contact between first butt portion and the stopping wall, face and face contact, area of contact is big to can guarantee stopping wall to the limiting displacement and the spacing reliability of first butt portion. The second butt portion extends along the direction that is on a parallel with the luminescent plate, and the second butt portion extends forward along the horizontal direction promptly, that is to say, the second butt portion extends along the horizontal direction and is close to the open-ended direction, and the extending direction adaptation of second butt portion is in the direction of effort among the installation to can reduce among the installation because the effort direction does not match, the fracture of second butt portion is impaired etc..

In one possible design, the first connecting piece further comprises a lap joint part and a slot, the lap joint part is connected to the first abutting part, and the lap joint part is overlapped on the bearing surface. The slot is located between overlap joint portion, first butt joint portion and installation department, and a part of accepting the piece is located the slot.

In this design, the first connecting piece further includes a lap joint portion and a slot, the lap joint portion is connected to the first abutting portion, and the lap joint portion can lap joint on the bearing surface. The light-emitting piece and the first connecting piece are integrally installed in the accommodating cavity, the free end of the overlapping part can move forwards along the bearing surface of the bearing piece, and meanwhile, the bearing piece extends into the slot. In the moving process, the overlapping part and the bearing part are contacted with each other, so that the installation process of the luminous part and the first connecting part is more stable, and the stability and the accuracy of the assembling process are improved.

The socket is located between the overlapping portion, the first abutting portion and the mounting portion, the socket has a notch facing the receiving member, and the free end of the receiving member extends into the socket through the notch.

In one possible design, the receiving surface further comprises a guide ramp.

In this design, the receiving surface comprises a guide slope along which the lap joint can move forward. The distance between the bearing surface and the light-emitting plate is gradually increased from back to front. That is, the guide slope extends obliquely upward in the direction from the rear to the front.

In one possible design, further, the backstop comprises a resilient member.

In the design, the stopping piece comprises an elastic piece, in the synchronous movement process of the first connecting piece and the luminous piece, the elastic piece is extruded by the first abutting part in the first connecting piece to deform, at the moment, the lap joint part in the first connecting piece is contacted with the bearing surface of the bearing piece, the deformation of the elastic piece reaches the maximum along with the forward movement of the first connecting piece, the lap joint part moves forward along the bearing surface, the second abutting part moves forward to be contacted with the inner wall of the box container, then, the first abutting part moves to one side of the elastic piece close to the opening, the first abutting part does not extrude the elastic piece any more, at the moment, the elastic piece is not extruded and recovers to the original shape, the first abutting part abuts against the abutting wall of the elastic piece, which faces the opening side, the bearing piece extends into the slot, the lap joint part is contacted with the bearing surface, the second abutting against the inner wall of the box container, at the moment, the first connecting piece and the luminous piece are taken as a whole, compare in the position stability of case courage, be difficult to drop.

In a possible design, further, the retaining member is movably disposed on the first embedded body.

In this design, the stopping piece activity sets up on first pre-buried body, and the stopping piece can compare in the motion of first pre-buried body under the stress promptly. Specifically, in the process of synchronous movement of the first connecting piece and the luminous piece, the backstop piece is extruded by the first abutting part in the first connecting piece and moves relatively to the first embedded body, so as to realize avoidance and avoid interfering with the normal movement of the first abutting part, meanwhile, the lap joint part in the first connecting piece is contacted with the bearing surface of the bearing piece, as the first connecting piece continues to move forwards, the backstop piece completely leaves the movement path of the first abutting part, the lap joint part moves forwards along the bearing surface, the second abutting part moves forwards to be in contact with the inner wall of the box container, then, the first abutting part moves to one side of the backstop piece close to the opening, the first abutting part does not extrude the backstop piece any more, at the moment, the backstop piece is not restored by the acting force of the first abutting part, namely, the backstop piece is reset, and then the first abutting part abuts against the abutting wall of the backstop piece, which faces the opening, the bearing piece extends into the slot, the lap joint part is contacted with the bearing surface, the second butt joint part is abutted against the inner wall of the box container, and at the moment, the first connecting piece and the luminous piece are taken as a whole, are stable in position compared with the box container and are not easy to fall off.

In a possible design, further, first pre-buried body is located on the case courage, and backstop spare and accepting are located on the first pre-buried body. The box container and the first embedded body are independently processed, so that the processing difficulty is reduced. The stopping piece, the bearing piece and the first embedded body form a whole to be processed, and then the first embedded piece formed by the stopping piece, the bearing piece and the first embedded body is assembled with the box liner. Specifically, the first embedded part is detachably connected with the box liner through a fastener. Specifically, the fastener is a knob, and conceivably, in order to realize detachable connection, corresponding screwing interfaces are respectively arranged on the first embedded part and the box container corresponding to the knob, and the knob penetrates through the screwing interfaces to enable the first embedded part and the box container to be connected in a fastening mode. Specifically, the knob is a plastic part, so that the cost is low, the weight is light, and the market competitiveness of the product can be further improved. Conceivably, because the stopping piece and the bearing piece are used for being matched with the first connecting piece, the rotary joint can avoid the stopping piece and the bearing piece and is arranged on the first embedded body.

In a possible design, further, the first embedded body, the retaining member and the receiving member are of an integrated structure.

In this design, first pre-buried body, stopping piece and the concrete formula structure as an organic whole of accepting, because the mechanical properties of integral type structure is good, therefore can improve the joint strength between first pre-buried body, stopping piece and the accepting, in addition, can make first pre-buried body, stopping piece and accepting an organic whole, batch production to improve the machining efficiency of product, reduce the processing cost of product. And, through designing first pre-buried body, stopping piece and accepting the piece as integrated into one piece's integral type structure, improved the wholeness of first pre-buried piece, reduced spare part quantity, reduced the installation procedure, improved the installation effectiveness, make the installation of first pre-buried piece on the case courage more convenient and reliable.

In a possible design, the box assembly further includes a second connecting member disposed at a second end of the light emitting member opposite to the first end.

In this design, the box assembly further comprises a second connecting piece, the second connecting piece is arranged at a second end of the light-emitting piece, which is opposite to the first end, namely the first connecting piece is arranged at the front end of the light-emitting piece, the second connecting piece is arranged at the rear end of the light-emitting piece, and the light-emitting piece is arranged on the corresponding first embedded piece and the second embedded piece through the first connecting piece and the second connecting piece respectively. That is to say, the light-emitting component is as the light source, and its self structure does not receive the influence of installation demand, need not to make any change to the structure of light source promptly, only makes the adaptability improvement through making to the structure of first connecting piece, second connecting piece and can realize being connected with corresponding first built-in fitting and the pre-buried body of second. The illuminating part with the illuminating function does not need to consider the installation requirement.

It should be noted that, first connecting piece and second connecting piece are the metalwork, and the metalwork can fasten, stereotype the outside border of luminescent plate, prevents that luminescent plate itself from taking place deformation, also can strengthen luminescent plate self assembly structure's intensity simultaneously, strengthens the holistic structural strength of light-emitting component, guarantees that light-emitting component self can not take place crooked deformation, has solved because the light source warp the luminous inhomogeneous problem that leads to. Further, the metal piece is an aluminum alloy piece.

In a possible design, further, the box body assembly further comprises a second embedded body, the second embedded body is arranged on the box liner, the second embedded body is far away from the opening and is arranged compared with the first embedded body, and the second embedded body is connected with the second connecting piece.

In this design, the box subassembly still includes the pre-buried body of second, and on the case courage was located to the pre-buried body of second, the opening setting was kept away from in first pre-buried body to the pre-buried body of second relatively, and first pre-buried body is established in the front side of case courage, and the rear side at the case courage is established to the pre-buried body of second. The case courage is used for forming the outline, and first pre-buried body and the pre-buried body of second are as the mounting structure of installation light-emitting component, first connecting piece and second connecting piece respectively, process case courage, first pre-buried body and the pre-buried body of second respectively, reduce the processing degree of difficulty, only need to independently process the case courage after, the pre-buried body of first pre-buried body and the pre-buried body equipment of second can.

In a possible design, further, a part of the second embedded body extends toward the inside of the tank liner to form a fixing part. The second connecting piece is provided with an avoiding opening, and the fixing part penetrates through the avoiding opening and is located on one side, facing the opening, of the second connecting piece.

In this design, be equipped with the installing port on the case courage, the partly outside that is located the case courage of the pre-buried body of second, inside the partly pre-buried body of second passed the installing port and stretched into the case courage, the pre-buried body of part second that is located the case courage inside was the fixed part.

Particularly, to the light emitting component that first connecting piece, light emitting component and second connecting piece constitute, the one end that light emitting component is close to the opening is first connecting piece promptly, and light emitting component deviates from the open-ended one end and is the second connecting piece promptly, and in the installation, first connecting piece at first with stopping on the first pre-buried body, accept piece interact, prevents that light emitting component from droing from case courage, first pre-buried body. Then, lift up light emitting component's rear end upwards, at this moment, owing to be provided with on the second connecting piece and dodge the mouth, then lie in at least partly of the fixed part on the pre-buried body of second on the case courage, can pass along with light emitting component's motion and dodge the mouth, at this moment, at least partly of fixed part can be located the second connecting piece towards open-ended one side, that is to say, at least partly of fixed part is located the place ahead of second connecting piece.

In order to ensure that the fixing part is reliably connected with the second connecting piece, because the position of the fixing part relative to the box container is fixed, at the moment, the second connecting piece can only move forwards to realize the contact connection with the fixing part, namely, the second connecting piece, the light-emitting piece and the first connecting piece move towards one side of the opening synchronously, so that a gap between the first connecting piece and the inner container can be eliminated, the gap between the light-emitting component and the box container is smaller, and the aesthetic feeling is improved.

In one possible design, the second connecting member further includes a fitting portion and a connecting portion, the fitting portion includes a fitting groove, and a portion of the light emitting member is located in the fitting groove. The connecting portion is connected with the assembling portion and extends towards the inside of the containing cavity in a zigzag mode, and the avoiding opening is located on the connecting portion.

In this design, the second connecting member includes an assembling portion and a connecting portion, the assembling portion includes an assembling groove, and a portion of the light emitting member is located in the assembling groove, thereby achieving a fixed connection between the light emitting member and the second connecting member. Connecting portion link to each other with assembly portion, and connecting portion orientation holds the inside tortuous extension in chamber, dodges the mouth and is located connecting portion. The second connecting piece is divided into two parts, one part is used for being matched with the luminous piece, the other part is used for being matched with the second embedded piece, the two parts do not interfere with each other, and meanwhile, the structural layout of the box body assembly can be made to be more compact.

Further, connecting portion extend towards the inside tortuous that holds the chamber, and connecting portion extend towards the direction tortuous that deviates from the pre-buried body of second promptly, and connecting portion deviate from the open-ended wall and can form the direction curved surface, when light emitting component's second end (second connecting piece) by lower up movement, can conveniently with fixed part relative motion.

In a possible design, further, the box body assembly further comprises a connecting hole, a mounting hole and a fastener, the connecting hole is formed in the connecting portion, and the connecting hole is not communicated with the avoiding hole. The mounting hole is provided on the fixing portion. The fastener passes through the connecting hole and the mounting hole so that the second connecting piece drives the luminous piece and the first connecting piece to move towards the opening.

In this design, the box subassembly still includes connecting hole, mounting hole and fastener, and the connecting hole is established on connecting portion, and the connecting hole with dodge the hole and not communicate, dodge the hole and realize the effect of dodging of fixed part, the connecting hole realize with the effect of fixed part intercommunication, the two mutual noninterference also can not cause the influence to the overall structure intensity of second connecting piece simultaneously. The mounting hole is provided on the fixing portion. Specifically, the mounting hole is provided on the fixing portion corresponding to the connection hole. The mounting hole corresponds the setting with the connecting hole in the front and back direction promptly, thereby realize that the fastener passes connecting hole and mounting hole so that the second connecting piece links to each other with the fixed part, because the fixed part is fixed for the position of case courage, at the in-process that the fastener was screwed, the second connecting piece can move forward, in order to contact with the fixed part, at this moment, the second connecting piece can drive luminous piece and first connecting piece and together move towards the opening, and then can eliminate the gap between first connecting piece and the inner bag, make the gap between luminous component and the case courage littleer, promote aesthetic feeling.

Furthermore, the fastener is the screw, all is equipped with the screw hole in connecting hole and the mounting hole, and the in-process that the screw was screwed relies on the locking force of screw, can make light-emitting component move forward, and then eliminates the gap between light-emitting component and the case courage, promotes the pleasing to the eye degree of box subassembly.

In a possible design, further, the quantity of the second embedded bodies is a plurality of, and a plurality of second embedded bodies are arranged on the box liner at intervals.

In this design, the quantity of the pre-buried body of second is a plurality of, and the pre-buried body interval of a plurality of second is established on the case courage, and the cooperation of the pre-buried body of a plurality of second and first pre-buried body is in order to realize reliably fixing light emitting component.

According to a second aspect of the present invention, there is provided a refrigerator comprising the cabinet assembly provided in any one of the above technical aspects. Therefore, the box body assembly has all the beneficial effects of the box body assembly, and the description is omitted.

Additional aspects and advantages in accordance with the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates a schematic structural view of a case assembly according to one embodiment of the present invention;

FIG. 2 illustrates one of the partial structural assembly process diagrams of the case assembly according to one embodiment of the present invention;

FIG. 3 illustrates a second schematic view of a partial structural assembly process of the housing assembly according to one embodiment of the present invention;

FIG. 4 illustrates a front view of a portion of the structure of a housing assembly according to one embodiment of the utility model;

FIG. 5 illustrates a structural longitudinal cut through the case assembly during assembly according to one embodiment of the present invention;

FIG. 6 shows an enlarged view of the layout of the case assembly at A of FIG. 5 according to one embodiment of the present invention;

FIG. 7 shows an enlarged view of the layout of the bin assembly at B of FIG. 5 according to one embodiment of the utility model;

FIG. 8 shows a longitudinal cut of the assembled cabinet assembly according to one embodiment of the present invention;

FIG. 9 shows an enlarged view of the layout of the bin assembly of FIG. 8 at C according to one embodiment of the utility model;

FIG. 10 shows an enlarged view of the layout of the bin assembly of FIG. 8 at D according to one embodiment of the utility model;

FIG. 11 illustrates a partial structural schematic view of a case assembly according to one embodiment of the present invention;

fig. 12 is an enlarged view showing a part of the structure of a case assembly according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 12 is:

100 of the components of the box body are combined,

110a, 110b open,

111 a first pre-buried body, 1111 a retaining member, 1112 a retaining wall, 1113 a receiving member,

112 second pre-buried body, 1121 fixing portion, 1122 mounting hole,

113 the inner container of the box is filled with a material,

120 of a light-emitting member,

130 a first connecting member to be connected to the first terminal,

131 of a first abutment portion of the first arm,

132 a second abutment portion which is arranged to abut,

133 the mounting portion of the device, and,

134 of the first and second connecting portions, 134,

135 of the insertion grooves are formed in the base plate,

140 of the second connecting part, and a second connecting part,

141 of the assembly part of the frame, 141,

142 of the connecting part of the base plate,

143 to avoid the mouth of the patient from being opened,

144 are connected to the holes of the base plate,

150 fastener.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

A cabinet assembly 100 and a refrigerator provided according to some embodiments of the present invention will be described below with reference to fig. 1 to 12.

According to a first aspect of the embodiment of the present invention, as shown in fig. 1, 3, 5, 6, 8 and 9, there is provided a box body assembly 100 comprising a box liner 113, a first pre-buried body 111, a luminous member 120, a retaining member 1111 and a first connecting member 130, wherein the box liner 113 comprises a receiving cavity 110 a. The first embedded body 111 is arranged on the container 113, and the first embedded body 111 is located in the accommodating cavity 110 a. The light emitting member 120 is positioned in the receiving cavity 110 a. The retaining member 1111 is provided on the tank 113 toward the luminous member 120. At least a portion of the first connecting member 130 is disposed at the first end of the light emitting member 120, and the first connecting member 130 abuts between the container 113 and the retaining wall 1112.

The box body assembly 100 provided by the embodiment of the utility model comprises a box container 113, a first embedded body 111, a light-emitting piece 120, a retaining piece 1111 and a first connecting piece 130, wherein the box container 113 comprises an accommodating cavity 110a with an opening 110b at one side, and the first embedded body 111, the light-emitting piece 120, the first connecting piece 130 and the retaining piece 1111 are positioned in the accommodating cavity 110 a. The light emitting member 120 and the first connecting member 130 are connected and integrated to be able to protrude from the opening 110b into the receiving cavity 110a for installation. Conceivably, the opening 110b may be located on any side of the receiving cavity 110a, such as front, rear, left, right. When the opening 110b is located at the front side of the receiving cavity 110a, the opening 110b faces the user side.

It should be noted that the light emitting member 120 serves as a light source to illuminate the accommodating chamber 110 a. In order to avoid the arrangement of the light emitting member 120 affecting the normal use of the accommodating cavity 110a, the light emitting member 120 is arranged in the accommodating cavity 110a close to the tank container 113. For example, the light emitting member 120 is disposed at the top of the accommodating chamber 110a, so that the light irradiation condition of the bottom space of the accommodating chamber 110a can be improved. Specifically, the light emitting member 120 may be a surface light source. Further, the retaining member 1111 is disposed on the first pre-buried body 111 toward the light emitting member 120.

For example, when the light emitting element 120 is disposed near the top of the accommodating cavity 110a, the retaining member 1111 and the first embedded body 111 are located between the light emitting element 120 and the top wall of the trunk 113. At this time, the container 113, the first embedded body 111, the retaining member 1111 and the light emitting member 120 are sequentially arranged in a top-down direction.

When the light emitting element 120 is disposed at a position close to the rear of the accommodating cavity 110a, the retaining element 1111 and the first embedded body 111 are located between the light emitting element 120 and the rear wall of the container 113.

When the light emitting element 120 is disposed at the bottom of the accommodating cavity 110a, the retaining element 1111 and the first embedded body 111 are located between the light emitting element 120 and the bottom wall of the container 113.

That is, according to the different positions of the light emitting element 120 in the accommodating cavity 110a, the retaining element 1111 and the first embedded body 111 are correspondingly disposed at the corresponding positions of the container 113.

The light emitting element 120 includes a first end and a second end opposite to each other, the first end of the light emitting element 120 is provided with a first connecting element 130, at least a portion of the first connecting element 130 abuts between the tank liner 113 and the retaining element 1111, that is, the light emitting element 120 serves as a light source, the structure of the light emitting element is not affected by installation requirements, that is, the structure of the light source does not need to be changed, and the connection with the tank liner 113 can be realized only by adaptively improving the structure of the first connecting element 130. The illuminating member 120 is not required to be installed.

According to the utility model, at least one part of the first connecting piece 130 is abutted between the box container 113 and the retaining piece 1111, so that the pre-installation of the luminous piece 120 and the first connecting piece 130 is realized, the luminous piece 120 and the first connecting piece 130 are prevented from falling off from the box container 113 and the first embedded body 111, the convenience is provided for the subsequent installation process, and the installation operability of the luminous piece 120 is effectively improved.

For example, when the first end of the light emitting element 120 is the front end, and the retaining element 1111 and the first embedded body 111 are disposed on the top wall of the tank 113, at least a portion of the first connecting element 130 abuts between the tank 113 and the retaining element 1111, thereby achieving a limiting effect in the front-rear direction. Under the condition that the first end of the luminous element 120 is the right end and the retaining element 1111 and the first embedded body 111 are arranged on the top wall of the box liner 113, at least one part of the first connecting element 130 is abutted between the box liner 113 and the retaining element 1111, so that the limiting effect in the left-right direction can be realized.

Further, as shown in fig. 1, 2, 3, 4, 5, 7 and 11, the tank bladder 113 further includes an opening 110b communicating with the accommodating chamber 110a, and the retaining member 1111 includes a retaining wall 1112 facing the opening 110 b.

In this embodiment, the tank bladder 113 further includes an opening 110b communicating with the accommodating chamber 110a, and when the opening 110b is located at the front side of the accommodating chamber 110a, the opening 110b faces the user. The retaining member 1111 and the first embedded body 111 are disposed on the top wall of the tank 113, and the retaining member 1111 includes a retaining wall 1112 facing the opening 110b, that is, the retaining member 1111 includes a retaining wall 1112 facing the front side. At least one part of the first connecting piece 130 abuts between the retaining wall 1112 and the inner wall of the container 113, the retaining wall 1112 limits the backward movement of the first connecting piece 130, the inner wall of the container 113 limits the forward movement of the first connecting piece 130, and at this time, at least one part of the first connecting piece 130 abuts between the retaining wall 1112 and the container 113, so that the limiting effect on the front and back directions of the first connecting piece 130 and the luminous piece 120 is realized.

Further, as shown in fig. 6 and 9, the box assembly 100 further includes a receiving member 1113, the receiving member 1113 is disposed on the first pre-embedded body 111, the receiving member 1113 is located on a side of the light emitting member 120 facing the retaining member 1111, the receiving member 1113 includes a receiving surface facing away from the light emitting member 120, and a portion of the first connecting member 130 is overlapped on the receiving surface.

In this embodiment, the box assembly 100 further includes a receiving member 1113, the receiving member 1113 is connected to the first embedded body 111, the receiving member 1113 is located on a side of the light emitting member 120 facing the retaining member 1111, that is, the receiving member 1113 and the retaining member 1111 are located on the same side of the light emitting member 120. When the retaining member 1111 is located on the top wall of the container 113, the receiving member 1113 is located above the light emitting member 120. The receiving member 1113 includes a receiving surface facing away from the light emitting member 120, i.e., the receiving surface is the upper surface of the receiving member 1113. A part of the first connecting member 130 is overlapped on the bearing surface, and then the bearing member 1113 can provide a limiting effect in the vertical direction for the first connecting member 130, so as to further ensure that the light emitting member 120 and the first connecting member 130 cannot fall off from the tank container 113 and the first embedded body 111.

It should be noted that, for the first connecting member 130, the retaining member 1111 and the tank container 113 can form a front-back limit, and the receiving member 1113 can provide a vertical limit, so that the position of the light emitting member 120 and the first connecting member 130 can be stabilized in a pre-installation condition.

Further, as shown in fig. 6 and 9, the first connecting member 130 includes a mounting portion 133, a first abutting portion 131, and a second abutting portion 132, the mounting portion 133 includes a mounting groove, and a portion of the light emitting member 120 is disposed in the mounting groove. The first abutting portion 131 is disposed on the mounting portion 133, and the first abutting portion 131 extends in a first direction away from the light emitting element 120 and abuts against the retaining wall 1112. The second abutting portion 132 is disposed on the mounting portion 133, and the second abutting portion 132 extends away from the second direction of the light emitting element 120, wherein the first direction is different from the second direction.

In this embodiment, the first connecting member 130 includes a mounting portion 133, a first abutting portion 131 and a second abutting portion 132, the mounting portion 133 includes a mounting groove, and a portion of the light emitting member 120 is disposed in the mounting groove, so as to achieve a fixed connection between the light emitting member 120 and the first connecting member 130. The first abutting portion 131 is disposed on the mounting portion 133, and the first abutting portion 131 extends in a first direction away from the light emitting element 120 and abuts against the retaining wall 1112. The second abutting portion 132 is disposed on the mounting portion 133, and the second abutting portion 132 extends away from the second direction of the light emitting element 120 and abuts against the inner wall of the tank 113, wherein the first direction is different from the second direction. The first contact portion 131 and the second contact portion 132 extend in different directions to respectively contact the thrust wall and the inner wall of the tank 113, the inner wall of the tank 113 restricts the forward movement of the second contact portion 132, and the retaining wall 1112 restricts the backward movement of the first contact portion 131, thereby realizing the position limitation in the forward and backward directions.

Further, as shown in fig. 6 and 9, the light emitting member 120 includes a light emitting panel, the first direction includes a thickness direction of the light emitting panel, and the second direction includes a direction parallel to the light emitting panel.

In this embodiment, the light emitting member 120 includes a light emitting plate, i.e., the light emitting plate is a surface light source. The first abutting portion 131 extends in the thickness direction of the light emitting plate, that is, the vertical upward direction extends, the retaining wall 1112 includes a wall surface extending downward in the vertical direction, the first abutting portion 131 and the retaining wall 1112 are in abutting contact with each other, the surface is in contact with the surface, and the contact area is large, so that the limiting effect and the limiting reliability of the retaining wall 1112 on the first abutting portion 131 can be ensured. The second abutting portion 132 extends in a direction parallel to the light emitting panel, that is, the second abutting portion 132 extends forward in the horizontal direction, that is, the second abutting portion 132 extends in the horizontal direction and in a direction close to the opening 110b, and the extending direction of the second abutting portion 132 is adapted to the direction of the acting force in the installation process, so that the fracture and damage of the second abutting portion 132 due to the mismatching of the acting force direction in the installation process can be reduced.

Further, as shown in fig. 6 and 9, the first connecting member 130 further includes a bridging portion 134 and an inserting groove 135, the bridging portion 134 is connected to the first abutting portion 131, and the bridging portion 134 is bridged on the bearing surface. The insertion groove 135 is located between the bridging portion 134, the first abutting portion 131 and the mounting portion 133, and a part of the socket 1113 is located in the insertion groove 135.

In this embodiment, the first connecting member 130 further includes a bridging portion 134 and an insertion groove 135, the bridging portion 134 is connected to the first abutting portion 131, and the bridging portion 134 can bridge on the receiving surface. During the process of mounting the light emitting element 120 and the first connecting element 130 as a whole into the receiving cavity 110a, the free end of the bridging portion 134 moves forward along the receiving surface of the receiving member 1113, and at the same time, the receiving member 1113 extends into the slot 135. During the movement, the overlapping part 134 and the receiving part 1113 contact each other, so that the installation process of the luminous member 120 and the first connecting member 130 can be more stable, and the stability and accuracy of the assembling process can be improved.

The slot 135 is located between the bridging portion 134, the first abutting portion 131 and the mounting portion 133, the slot 135 has a notch facing the socket 1113, and the free end of the socket 1113 extends into the slot 135 through the notch.

Further, as shown in fig. 6 and 9, the receiving surface includes a guide slope.

In this embodiment, the receiving surface includes a guide slope along which the bridging portion 134 can move forward. The distance between the bearing surface and the light-emitting plate is gradually increased from back to front. That is, the guide slope extends obliquely upward in the direction from the rear to the front.

Further, the backstop 1111 includes an elastic member.

In this embodiment, the retaining member 1111 includes an elastic member, and during the synchronous movement of the first connecting member 130 and the light emitting member 120, the elastic member is pressed by the first abutting portion 131 of the first connecting member 130 to deform, at this time, the overlapping portion 134 of the first connecting member 130 contacts with the receiving surface of the receiving member 1113, as the first connecting member 130 continues to move forward, the deformation amount of the elastic member reaches the maximum, the overlapping portion 134 moves forward along the receiving surface, the second abutting portion 132 moves forward to be in contact with the inner wall of the tank 113, then, the first abutting portion 131 moves to the side of the elastic member close to the opening 110b, the first abutting portion 131 no longer presses the elastic member, at this time, the elastic member is not pressed and returns to the original state, then the first abutting portion 131 abuts against the abutting wall of the elastic member facing the opening 110b, the receiving member 1113 extends into the slot 135, and the overlapping portion 134 contacts with the receiving surface, the second abutting portion 132 abuts against the inner wall of the tank container 113, and in this case, the first connecting member 130 and the light emitting member 120 as a whole are more stable than the tank container 113 and are less likely to fall off.

Further, the retaining member 1111 is movably disposed on the first embedded body 111.

In this embodiment, the retaining member 1111 is movably disposed on the first embedded body 111, that is, the retaining member 1111 can move relative to the first embedded body 111 under a stress condition. Specifically, in the process of synchronous movement of the first connecting member 130 and the light emitting member 120, the retaining member 1111 is pressed by the first abutting portion 131 in the first connecting member 130 to move relatively to the first pre-buried body 111, so as to avoid the movement and avoid interfering with the normal movement of the first abutting portion 131, meanwhile, the overlapping portion 134 in the first connecting member 130 contacts with the receiving surface of the receiving member 1113, as the first connecting member 130 continues to move forward, the retaining member 1111 completely leaves the movement path of the first abutting portion 131, the overlapping portion 134 moves forward along the receiving surface, the second abutting portion 132 moves forward to contact with the inner wall of the tank 113, then the first abutting portion 131 moves to the side of the retaining member 1111 near the opening 110b, the first abutting portion 131 no longer presses the retaining member 1111, at this time, the retaining member 1111 is not restored to its original state by the acting force of the first abutting portion 131, that is, the retaining member 1111 is restored, the first abutting portion 131 abuts against the abutting wall of the retaining member 1111 facing the opening 110b, the receiving member 1113 extends into the insertion slot 135, the overlapping portion 134 contacts with the receiving surface, and the second abutting portion 132 abuts against the inner wall of the container 113, so that the first connecting member 130 and the light emitting member 120 as a whole are more stable than the container 113 and are less likely to fall off.

Further, as shown in fig. 3, 4, 5, and 6, the first insert body 111 is provided on the tank 113, and the retaining member 1111 and the receiving member 1113 are provided on the first insert body 111. The box liner 113 and the first embedded body 111 are independently processed and prepared, so that the processing difficulty is reduced. The retaining member 1111, the receiving member 1113 and the first embedded body 111 form a whole to be processed, and then the first embedded part formed by the retaining member 1111, the receiving member 1113 and the first embedded body 111 is assembled with the tank liner 113. Specifically, the first embedment is detachably connected to the tank liner 113 by fasteners 150. Specifically, the fastening members 150 are knobs, and it is conceivable that, in order to achieve detachable connection, corresponding screwing ports are respectively provided on the first embedded part and the tank liner 113 corresponding to the knobs, and the knobs penetrate through the screwing ports to fasten the first embedded part and the tank liner 113. Specifically, the knob is a plastic part, so that the cost is low, the weight is light, and the market competitiveness of the product can be further improved. Conceivably, since the retaining member 1111 and the receiving member 1113 are used for cooperating with the first connecting member 130, the rotary joint is disposed on the first embedded body 111 so as to avoid the retaining member 1111.

Further, the first pre-buried body 111, the retaining member 1111 and the receiving member 1113 are of an integrated structure.

In this embodiment, the first pre-buried body 111, the stopping piece 1111 and the receiving piece 1113 are specifically of an integral structure, and the mechanical property of the integral structure is good, so that the connection strength between the first pre-buried body 111, the stopping piece 1111 and the receiving piece 1113 can be improved, and in addition, the first pre-buried body 111, the stopping piece 1111 and the receiving piece 1113 can be integrally manufactured and produced in batch, so that the processing efficiency of products is improved, and the processing cost of the products is reduced. In addition, the first embedded part 111, the retaining part 1111 and the receiving part 1113 are designed into an integrated structure, the integrity of the first embedded part is improved, the number of parts is reduced, the installation procedures are reduced, the installation efficiency is improved, and the first embedded part is more convenient and reliable to install on the box liner 113.

Further, as shown in fig. 7 and 10, the box assembly 100 further includes a second connecting member 140, and the second connecting member 140 is disposed at a second end of the light emitting member 120 opposite to the first end.

In this embodiment, the box assembly 100 further includes a second connecting member 140, the second connecting member 140 is disposed at a second end of the light emitting member 120 opposite to the first end, that is, the first connecting member 130 is disposed at the front end of the light emitting member 120, the second connecting member 140 is disposed at the rear end of the light emitting member 120, and the light emitting member 120 is disposed on the corresponding first pre-embedded body 111 and the second pre-embedded body 112 through the first connecting member 130 and the second connecting member 140, respectively. That is to say, the light emitting element 120 is used as a light source, and the structure thereof is not affected by the installation requirement, that is, the structure of the light source does not need to be changed, and the connection with the corresponding first pre-buried body 111 and the second pre-buried body 112 can be realized only by making adaptive improvement on the structures of the first connecting element 130 and the second connecting element 140. The illuminating member 120 is not required to be installed.

It should be noted that, the first connecting member 130 and the second connecting member 140 are metal members, and the metal members can fasten and shape the outer edge of the light-emitting panel, so as to prevent the light-emitting panel from deforming, and meanwhile, the strength of the assembly structure of the light-emitting panel can be enhanced, so that the overall structural strength of the light-emitting assembly is enhanced, the light-emitting assembly is ensured not to deform due to bending, and the problem of uneven light emission caused by light source deformation is solved. Further, the metal piece is an aluminum alloy piece.

Further, as shown in fig. 5 and 8, the box assembly 100 further includes a second embedded body 112, the second embedded body 112 is disposed on the container liner 113, the second embedded body 112 is disposed far away from the opening 110b compared with the first embedded body 111, and the second embedded body 112 is connected to the second connecting member 140.

In this embodiment, the box assembly 100 further includes a second embedded body 112, the second embedded body 112 is disposed on the container 113, the second embedded body 112 is disposed far away from the opening 110b compared to the first embedded body 111, the first embedded body 111 is disposed at the front side of the container 113, and the second embedded body 112 is disposed at the rear side of the container 113. The box container 113 is used for forming an outer contour, the first embedded body 111 and the second embedded body 112 are respectively used as mounting structures for mounting the luminous part 120, the first connecting part 130 and the second connecting part 140, the box container 113, the first embedded body 111 and the second embedded body 112 are respectively processed, the processing difficulty is reduced, and only the box container 113, the first embedded body 111 and the second embedded body 112 after independent processing are required to be assembled.

Further, as shown in fig. 7 and 10, a part of the second embedded body 112 extends toward the inside of the tank 113 to form a fixing portion 1121. The second connecting member 140 is provided with an avoiding opening 143, and the fixing portion 1121 is located on one side of the second connecting member 140 facing the opening 110b through the avoiding opening 143.

In this embodiment, an installation opening is formed in the container 113, a part of the second embedded body 112 is located outside the container 113, a part of the second embedded body 112 passes through the installation opening and extends into the container 113, and a part of the second embedded body 112 located inside the container 113 is a fixing portion 1121.

Specifically, for the light emitting assembly composed of the first connecting member 130, the light emitting member 120 and the second connecting member 140, one end of the light emitting assembly close to the opening 110b is the first connecting member 130, and one end of the light emitting assembly away from the opening 110b is the second connecting member 140, and in the installation process, the first connecting member 130 firstly interacts with the retaining member 1111 and the receiving member 1113 on the first embedded body 111 to prevent the light emitting assembly from falling off from the container 113 and the first embedded body 111. Next, the rear end of the light emitting element is lifted up, at this time, since the second connecting element 140 is provided with the avoiding opening 143, at least a portion of the fixing portion 1121 on the second embedded body 112 on the container 113 passes through the avoiding opening 143 along with the movement of the light emitting element, at this time, at least a portion of the fixing portion 1121 is located on a side of the second connecting element 140 facing the opening 110b, that is, at least a portion of the fixing portion 1121 is located in front of the second connecting element 140.

In order to reliably connect the fixing portion 1121 with the second connecting member 140, since the position of the fixing portion 1121 relative to the container 113 is fixed, at this time, the second connecting member 140 can only move forward to realize the contact connection with the fixing portion 1121, that is, the second connecting member 140, the light emitting member 120 and the first connecting member 130 move toward the opening 110b side synchronously, so that the gap between the first connecting member 130 and the container can be eliminated, the gap between the light emitting assembly and the container 113 is smaller, and the aesthetic feeling is improved.

Further, as shown in fig. 7, 10 and 12, the second connector 140 includes a fitting portion 141 and a connecting portion 142, the fitting portion 141 includes a fitting groove, and a portion of the light emitting member 120 is located in the fitting groove. The connecting portion 142 is connected to the mounting portion 141 and meanders toward the inside of the accommodating chamber 110a, and the escape opening 143 is located on the connecting portion 142.

In this embodiment, the second connector 140 includes a fitting portion 141 and a connecting portion 142, the fitting portion 141 includes a fitting groove, and a portion of the light emitting member 120 is located in the fitting groove, thereby achieving a fixed connection between the light emitting member 120 and the second connector 140. The connecting portion 142 is connected to the mounting portion 141, the connecting portion 142 extends in a zigzag manner toward the inside of the accommodating chamber 110a, and the escape opening 143 is located on the connecting portion 142. By dividing the second connecting member 140 into two parts, one for cooperating with the illuminating member 120 and the other for cooperating with the second embedded member, the two parts do not interfere with each other, and the structural layout of the box assembly 100 can be made more compact.

Further, the connecting portion 142 extends toward the inside of the accommodating cavity 110a in a zigzag manner, that is, the connecting portion 142 extends toward the direction away from the second embedded body 112 in a zigzag manner, the wall surface of the connecting portion 142 away from the opening 110b can form a guiding curved surface, and when the second end (the second connecting member 140) of the light emitting assembly moves from bottom to top, the second end can conveniently move relative to the fixing portion 1121.

Further, as shown in fig. 7, 10 and 12, the box body assembly 100 further includes a connection hole 144, a mounting hole 1122 and a fastener 150, the connection hole 144 is disposed on the connection portion 142, and the connection hole 144 is not communicated with the avoiding hole. The mounting hole 1122 is provided in the fixing portion 1121. The fastening member 150 passes through the connection hole 144 and the mounting hole 1122 to make the second connecting member 140 move the light emitting member 120 and the first connecting member 130 toward the opening 110 b.

In this embodiment, the box assembly 100 further includes a connection hole 144, a mounting hole 1122 and a fastening member 150, the connection hole 144 is disposed on the connection portion 142, the connection hole 144 is not communicated with the avoiding hole, the avoiding hole realizes the avoiding function of the fixing portion 1121, the connection hole 144 realizes the communication function with the fixing portion 1121, the two are not interfered with each other, and meanwhile, the overall structural strength of the second connection member 140 is not affected. The mounting hole 1122 is provided in the fixing portion 1121. Specifically, the mounting hole 1122 is provided on the fixing portion 1121 corresponding to the connection hole 144. That is, the mounting hole 1122 and the connecting hole 144 are correspondingly arranged in the front-rear direction, so that the fastening member 150 passes through the connecting hole 144 and the mounting hole 1122 to connect the second connecting member 140 to the fixing portion 1121, and since the fixing portion 1121 is fixed with respect to the tank liner 113, in the process of screwing the fastening member 150, the second connecting member 140 can move forward to contact the fixing portion 1121, at this time, the second connecting member 140 can drive the light emitting member 120 and the first connecting member 130 to move together toward the opening 110b, so that a gap between the first connecting member 130 and the inner liner can be eliminated, the gap between the light emitting assembly and the tank liner is smaller, and the aesthetic feeling is improved.

Furthermore, the fastening member 150 is a screw, and threaded holes are formed in the connecting hole 144 and the mounting hole 1122, so that the light-emitting assembly can move forward by means of the locking force of the screw in the screwing process of the screw, a gap between the light-emitting assembly and the box liner 113 is eliminated, and the attractiveness of the box body assembly 100 is improved.

Further, as shown in fig. 2, the number of the second embedded bodies 112 is plural, and the plurality of second embedded bodies 112 are arranged on the container liner 113 at intervals.

In this embodiment, the number of the second embedded bodies 112 is plural, the plurality of second embedded bodies 112 are arranged on the trunk 113 at intervals, and the plurality of second embedded bodies 112 and the first embedded body 111 are matched to realize reliable fixation of the light emitting assembly.

According to a second aspect of the present invention, there is provided a refrigerator comprising the cabinet assembly 100 provided in any one of the above-mentioned aspects. Thus, the overall advantages of the case assembly 100 will not be described herein.

Specifically, the box assembly 100 includes a box liner 113, a first pre-buried body 111, a light emitting element 120, a retaining element 1111 and a first connecting element 130, the box liner 113 includes an accommodating cavity 110a with an opening 110b at one side, and the first pre-buried body 111, the light emitting element 120, the first connecting element 130 and the retaining element 1111 are located in the accommodating cavity 110 a. The light emitting member 120 and the first connecting member 130 are connected and integrated to be able to protrude from the opening 110b into the receiving cavity 110a for installation. Conceivably, the opening 110b may be located on any side of the receiving cavity 110a, such as front, rear, left, right. When the opening 110b is located at the front side of the receiving cavity 110a, the opening 110b faces the user side.

Further, the tank bladder 113 further includes an opening 110b communicating with the accommodating chamber 110a, and when the opening 110b is located at the front side of the accommodating chamber 110a, the opening 110b faces the user. The retaining member 1111 and the first embedded body 111 are disposed on the top wall of the tank 113, and the retaining member 1111 includes a retaining wall 1112 facing the opening 110b, that is, the retaining member 1111 includes a retaining wall 1112 facing the front side. At least one part of the first connecting piece 130 abuts between the retaining wall 1112 and the inner wall of the container 113, the retaining wall 1112 limits the backward movement of the first connecting piece 130, the inner wall of the container 113 limits the forward movement of the first connecting piece 130, and at this time, at least one part of the first connecting piece 130 abuts between the retaining wall 1112 and the container 113, so that the limiting effect on the front and back directions of the first connecting piece 130 and the luminous piece 120 is realized.

Further, the box assembly 100 further includes a receiving member 1113, the receiving member 1113 is connected to the first pre-buried body 111, the receiving member 1113 is located on a side of the light emitting member 120 facing the retaining member 1111, that is, the receiving member 1113 and the retaining member 1111 are located on the same side of the light emitting member 120. When the retaining member 1111 is located on the top wall of the container 113, the receiving member 1113 is located above the light emitting member 120. The receiving member 1113 includes a receiving surface facing away from the light emitting member 120, i.e., the receiving surface is the upper surface of the receiving member 1113. A part of the first connecting member 130 is overlapped on the bearing surface, and then the bearing member 1113 can provide a limiting effect in the vertical direction for the first connecting member 130, so as to further ensure that the light emitting member 120 and the first connecting member 130 cannot fall off from the tank container 113 and the first embedded body 111.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A case assembly, comprising:

the box container comprises an accommodating cavity;

the first embedded body is arranged on the box liner and is positioned in the accommodating cavity;

the luminous piece is positioned in the accommodating cavity;

the backstop piece is arranged on the first embedded body towards the luminous piece;

the first connecting piece is arranged at the first end of the luminous piece, and at least one part of the first connecting piece is abutted between the box container and the retaining piece.

2. The cabinet assembly as claimed in claim 1,

the box liner further comprises an opening communicated with the accommodating cavity, and the retaining piece comprises a retaining wall facing the opening;

the box assembly further comprises:

the bearing piece is arranged on the first embedded body and located on one side, facing the stopping piece, of the luminous piece, the bearing piece comprises a bearing surface deviating from the luminous piece, and a part of the first connecting piece is lapped on the bearing surface.

3. The cabinet assembly as claimed in claim 2, wherein the first connector includes:

the mounting part comprises a mounting groove, and a part of the luminous piece is arranged in the mounting groove;

the first abutting part is arranged on the mounting part, extends along a first direction departing from the light-emitting piece and abuts against the stopping wall;

the second abutting portion is arranged on the mounting portion and deviates from the second direction of the light-emitting piece in an extending mode, wherein the first direction is different from the second direction.

4. A cabinet assembly as claimed in claim 3,

the luminous member includes a luminous plate, the first direction includes a thickness direction of the luminous plate, and the second direction includes a direction parallel to the luminous plate.

5. The cabinet assembly as claimed in claim 3, wherein the first connector further comprises:

a lap joint part connected to the first abutting part, the lap joint part being lapped on the bearing surface;

the slot is positioned among the lap joint part, the first abutting part and the mounting part, and one part of the bearing piece is positioned in the slot.

6. The cabinet assembly as claimed in claim 5,

the bearing surface comprises a guide inclined surface.

7. The cabinet assembly as claimed in claim 2,

the backstop member comprises an elastic member; or the retaining piece is movably arranged on the first embedded body.

8. A cabinet assembly according to any one of claims 2 to 7,

the first embedded body, the stopping piece and the receiving piece are of an integrated structure.

9. A cabinet assembly, as claimed in any one of claims 2 to 7, further including:

the second connecting piece is arranged at a second end of the light-emitting piece, which is opposite to the first end;

the second embedded body is arranged on the box liner, the second embedded body is far away from the opening in comparison with the first embedded body, and the second embedded body is connected with the second connecting piece.

10. The cabinet assembly as claimed in claim 9,

a part of the second embedded body extends towards the inside of the box liner to form a fixing part;

be provided with on the second connecting piece and dodge the mouth, the fixed part passes dodge the mouth and is located the second connecting piece orientation open-ended one side.

11. A cabinet assembly as claimed in claim 10, wherein the second connector includes:

a fitting part including a fitting groove in which a portion of the luminous member is positioned;

and the connecting part is connected with the assembling part and extends towards the inside of the accommodating cavity in a zigzag manner, and the avoiding opening is positioned on the connecting part.

12. The cabinet assembly as claimed in claim 11, further comprising:

the connecting hole is arranged on the connecting part and is not communicated with the avoiding port;

a mounting hole provided on the fixing portion;

the fastener penetrates through the connecting hole and the mounting hole so that the second connecting piece drives the light-emitting piece and the first connecting piece to move towards the opening.

13. A refrigerator comprising a cabinet assembly as claimed in any one of claims 1 to 12.