CN215638290U - Box device and refrigerator - Google Patents

Abstract

The embodiment of the utility model provides a box body device and a refrigerator. The elastic piece is directly or indirectly arranged on the box liner and is positioned in the accommodating cavity. The luminous component is detachably arranged in the accommodating cavity and comprises a first end and a second end which are opposite to each other, and the second end of the luminous component can be abutted to the box container. The first end of light emitting component is located to the locating hole, and the elastic component can be located the locating hole. According to the utility model, the elastic piece is arranged on the box container, the elastic piece removes acting force along with the movement of the light-emitting component and then is embedded into the positioning opening, so that the light-emitting component is limited to move relative to the box container, and the elastic piece can be separated from the positioning opening again after being pressed so as to realize the disassembly of the light-emitting component.

Description

Box device and refrigerator

Technical Field

The embodiment of the utility model relates to the technical field of household appliances, in particular to a box body device 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 becomes 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 present invention provides a tank apparatus.

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

In view of this, according to a first aspect of embodiments of the present invention, there is provided a tank device including a tank container, an elastic member, a light emitting assembly, and a positioning port, the tank container including an accommodating chamber. The elastic piece is directly or indirectly arranged on the box liner and is positioned in the accommodating cavity. The luminous component is detachably arranged in the accommodating cavity and comprises a first end and a second end which are opposite to each other, and the second end of the luminous component can be abutted to the box container. The first end of light emitting component is located to the locating hole, and the elastic component can be located the locating hole.

The box body device provided by the embodiment of the utility model comprises a box liner, an elastic piece, a light-emitting component and a positioning opening. The case courage is including holding the chamber, and the elastic component can directly be established on the case courage, and the elastic component also can be through other part settings on the case courage, and it needs to explain that the elastic component can be in the pressurized state under receiving the effort, and the elastic component can reset to natural state after relieving the effort. The light-emitting component can be rapidly disassembled relative to the box container. In the process that the light-emitting component is assembled in the box container, the elastic piece is pressed by the light-emitting component and is in a compressed state at first, and the elastic piece is clamped between the box container and the first end of the light-emitting component. After light emitting component installed in place, at this moment, butt between light emitting component's the second end and the case courage, the position department that the locating hole on light emitting component's the second end can move corresponding elastic component, and at this moment, the elastic component no longer receives light emitting component's suppression, and at the in-process of relieving pressure and recovering self elasticity, the elastic component can imbed in the locating hole to realize light emitting component's installation. When the light-emitting component needs to be detached from the box liner, a user can pull out the elastic piece from the positioning hole after the elastic piece is pressed, at the moment, the two ends of the light-emitting component do not receive interaction force any more, and the light-emitting component can be smoothly detached from the box body.

The first end and the second end of the light emitting assembly may be both ends in the left-right direction or both ends in the front-back direction, and the positioning opening may be provided at any one of the left end, the right end, the front end, and the back end. Specifically, if the positioning opening is provided at the rear end, the light emitting assembly should be installed from the rear to the front, and the elastic member is transformed from the pressed state to the natural state in the process of having the rear to the front. That is to say, when light emitting component was located the left side, the elastic component was in between light emitting component's first end and the case courage, the elastic component was the pressurized state this moment, and in the assembling process, the light emitting component atress can be by the backward forward motion, the locating hole that light emitting component first was served and is set up also can move forward along with this, when light emitting component's second end butt was on the case courage, this moment, the locating hole moved to elastic component department, the elastic component removes the effort and resumes natural state, inlay the dress in the locating hole promptly, realize spacing on the fore-and-aft direction.

Specifically, if the positioning opening is formed at the left end, the installation direction of the light emitting assembly is from left to right, and at this time, the right end of the light emitting assembly abuts against the tank container.

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

in a possible design, further, the container includes an opening, the opening communicates with the accommodating cavity, and the second end of the light emitting component is disposed closer to the opening than the first end.

In this design, the case courage includes the opening, the opening with hold the chamber intercommunication, light emitting component can pass the opening and stretch into and hold intracavity portion, make things convenient for light emitting component's assembly. Conceivably, the opening may be located on either side of the receiving cavity, such as front, rear, left, right.

Further, the second end of the light emitting component is arranged close to the opening compared with the first end, and when the opening is located on the front side of the accommodating cavity, the opening faces to one side of a user. The second end of the light emitting component and the first end of the light emitting component are located at two ends in the front-back direction, so that the light emitting component is convenient to install, and operability is improved.

Specifically, the box container can limit the second end of the light-emitting assembly to move forwards, the elastic piece is embedded in the positioning opening and can limit the first end of the light-emitting assembly to move backwards, and at the moment, under the combined action of the box container and the elastic piece, the front end and the rear end of the light-emitting assembly are clamped tightly, so that the position stability is good.

In a possible design, further, the box body device further comprises an avoiding opening, a first embedded part and a mounting opening, wherein the avoiding opening is formed in the box liner and communicated with the accommodating cavity. On the case courage was located to first built-in fitting, on the first built-in fitting was located to the elastic component, first built-in fitting included spacing portion, and the elastic component passes with spacing portion and dodges the mouth and stretch into and hold the intracavity, and spacing portion dodges the overlap joint wall of mouth including the orientation. The first end of light emitting component is located to the installing port, and in the installing port was worn to locate by spacing portion, spacing portion orientation was dodged the wall of mouth and is contacted with light emitting component's first end.

In this design, the box device still includes dodges mouth and first built-in fitting, dodges the mouth and establishes on the case courage, dodges the mouth and holds the chamber intercommunication. The first embedded part is arranged on the box liner, and the elastic part is arranged on the first embedded part, namely, the elastic part is indirectly arranged on the box liner through the first embedded part. The first embedded part and the elastic part can be processed as an integral part, namely the box liner, the first embedded part and the elastic part can be processed independently in the processing process, so that the processing difficulty is reduced. And then, assembling the box liner, the first embedded part and the elastic part. Further, first built-in fitting includes spacing portion, and elastic component and spacing portion pass respectively and dodge the mouth and stretch into and hold the intracavity. It should be noted that, the limiting portion and the elastic member are arranged at intervals, and the limiting portion and the elastic member are respectively matched with different parts on the light emitting assembly. Wherein, spacing portion is including the overlap joint wall of dodging the mouth towards, that is to say, the overlap joint wall is the wall that sets up.

Particularly, light emitting component's first end is equipped with the installing port, installs the in-process in the case courage at light emitting component, and light emitting component establishes in spacing portion through the installing port cover, then lifts light emitting component's second end again, and at this moment, light emitting component's first end can be set up on the overlap joint wall of spacing portion, that is to say, spacing portion can provide the spacing of up-down direction for light emitting component. Then, the whole light-emitting component moves forwards relative to the box container, in the process of moving forwards, the elastic piece in the compressed state can be embedded into the positioning hole, and the second end of the light-emitting component can be abutted against the box container, so that the limiting in the front-back direction is realized.

In other words, in the process of installing the light-emitting component in the box liner, the light-emitting component is firstly sleeved on the limiting part in a vertical state, then the second end of the light-emitting component is lifted, and then the light-emitting component moves forwards, so that the matching between the elastic part and the positioning opening is realized.

In a possible design, further, first built-in fitting includes first pre-buried body and spacing portion, and first pre-buried body sets up on the outer wall of case courage, and spacing portion links to each other with first pre-buried body, and spacing portion includes connecting portion and first overlap joint portion, and connecting portion extend along the direction that deviates from first pre-buried body. The first lap joint portion is connected with the connecting portion, extends towards the direction that deviates from the opening, and first lap joint portion and light emitting component contact.

In this design, first built-in fitting includes first pre-buried body and spacing portion, and first pre-buried body setting is on the outer wall of case courage, and spacing portion links to each other with first pre-buried body, and spacing portion passes dodges the mouth and stretches into and hold intracavity portion. First pre-buried body is installed on the outer wall of case courage, and the case courage can provide reliable support for first pre-buried body and spacing portion, and then can provide reliable installation for light emitting component.

Further, spacing portion includes connecting portion and first overlap joint portion, and connecting portion extend along the direction that deviates from first pre-buried body, and connecting portion extend down promptly. It is conceivable that the connecting portion may extend in a vertically downward direction, and may also extend in an obliquely downward direction.

Further, first overlap joint portion links to each other with connecting portion, and first overlap joint portion extends towards the orientation that deviates from the opening, and first overlap joint portion extends towards the back promptly, and first overlap joint portion includes the overlap joint wall of dodging the mouth towards. The light-emitting component is sleeved on the first overlapping portion through the mounting opening of the light-emitting component, then the light-emitting component moves towards the connecting portion through the first overlapping portion, then, one part of the light-emitting component can be overlapped on the first overlapping portion, so that the position stability of the light-emitting component in the up-down direction is realized, in the moving process, the elastic piece is not located in the positioning opening, when the light-emitting component moves forwards, the positioning opening moves forwards, and at the moment, the elastic piece removes acting force and then stretches into the positioning opening.

In one possible design, the first embedded part further comprises a guide part, and the guide part is arranged at the free end of the first bridging part.

In this design, first built-in fitting still includes the guide part, and the guide part is established at the free end of first overlap joint portion, and the guide part can make things convenient for light-emitting component cover to establish on first overlap joint portion. The guide part comprises a guide inclined plane, a guide arc surface and the like, and the guide part comprises a guide surface, and the distance between the guide surface and the top wall of the box container is gradually increased from front to back.

In a possible design, further, the first embedded part further comprises an avoiding opening, and the avoiding opening is arranged on the first embedded body. The elastic piece comprises a cantilever and a clamping portion, and the first end of the cantilever is arranged on the first embedded body. The clamping portion is arranged at the second end of the cantilever and located on one side of the avoidance opening close to the light emitting assembly.

In this design, first built-in fitting still includes dodges the opening, dodges the opening and establishes on first pre-buried body, dodges the opening and is used for providing dodging the space for the elastic component is in under the compression state. Specifically, when light emitting component pressed and established on the elastic component, the elastic component can receive ascending effort, and at this moment, the elastic component has the trend of upward movement, and dodges the opening and just in time can provide for the elastic component and dodge the space, avoids because interfering, can't provide suitable dodge the space for the elastic component, and leads to the unable smooth and easy assembly of light emitting component.

Further, the elastic component includes cantilever and joint portion, and the cantilever includes the both ends that deviate from mutually, and the first end fixed connection of cantilever is on first pre-buried body, and the unsettled setting of second end of cantilever is dodging open-ended one side, specifically, the unsettled below of dodging the open-ended of establishing of second end of cantilever. The joint portion is established at the second end of cantilever and is set up towards light emitting component, and when light emitting component moved forward the back that targets in place, joint portion can imbed in the locating hole to realize light emitting component spacing in the front and back direction.

In a possible design, further, the elastic member further includes a clamping groove, the clamping groove is located between the clamping portion and the cantilever, and a part of the light emitting assembly can be located in the clamping groove.

In this design, form the joint groove between joint portion and the cantilever, the notch in joint groove sets up towards the opening, after light emitting component moved forward and targets in place, light emitting component's partly can imbed the joint inslot, and the tank bottom in joint groove can provide spacing on the fore-and-aft direction for light emitting component, and the groove lateral wall in joint groove and the partly of cantilever can also provide spacing in the upper and lower direction for light emitting component to further guarantee light emitting component's installation reliability.

In a possible design, further, dodge mouthful including the first mouth and the second of dodging that the interval set up and dodge the mouth, the elastic component passes first mouthful of dodging and stretches into and hold the chamber, and spacing portion passes the second and dodges the mouth and stretch into and hold the chamber.

In this design, dodge mouthful including the first mouth and the second of dodging that the interval set up and dodge the mouth, the elastic component passes first dodge the mouth and stretches into and hold the chamber, spacing portion passes the second and dodges the mouth and stretch into and hold the chamber, and the first mouth and the second of dodging that the interval set up dodge the mouth, can ensure the position accuracy of first built-in fitting installation on the case courage on the one hand, reduces the installation degree of difficulty, reduces the product defective rate that the assembly deviation leads to. On the other hand, the structural strength of the box container can be ensured as much as possible, the requirement of avoiding is prevented, and the whole structural strength of the product is influenced due to the fact that the box container is provided with the opening with a large area.

In a possible design, further, the light emitting assembly includes a light emitting plate and a first connecting member, the first connecting member is disposed at one end of the light emitting plate, and the first connecting member is provided with a positioning opening.

In this design, light emitting component includes luminescent plate and first connecting piece, and first connecting piece sets up in the one end of luminescent plate, is provided with the locating hole on the first connecting piece. The light-emitting plate is used as a light source, namely, the light-emitting plate is a surface light source. The structure of the light source is not affected by installation requirements, namely, the structure of the light source is not required to be changed, and the connection with the box body can be realized only by adaptively improving the structure of the first connecting piece. The luminous plate with the illumination function does not need to consider the installation requirement.

In one possible design, the first connecting member further includes a first mounting portion including a first mounting groove, and a portion of the light emitting plate is disposed in the first mounting groove. The assembly portion is connected with the first installation portion and extends at least in the direction deviating from the light emitting plate, and the positioning opening is formed in the assembly portion.

In this design, first connecting piece includes first installation department, and first installation department includes first mounting groove, and the partly of luminescent plate is located in the first mounting groove to realize the fixed connection between luminescent plate and the first connecting piece. The assembly portion links to each other with first installation department to at least, extend along the direction that deviates from the luminescent plate, the location mouth is established in the assembly portion, and first installation department can ensure the reliable connection between first connecting piece and the luminescent plate, and the assembly portion can satisfy the structure assembly demand, has promptly realized and spacing portion, the cooperation between the elastic component, and the assembly portion can zigzag extension setting, and the flexibility ratio is higher.

In one possible design, the mounting portion further includes a first mounting section and a second mounting section, and the first mounting section extends along the thickness direction of the light emitting plate and near the avoidance opening. The second assembly section extends along the direction of deviating from the luminescent plate, and the locating hole and the mounting hole are arranged on the second assembly section at intervals.

In this design, the fitting portion includes a first fitting section and a second fitting section, and the first fitting section extends in the thickness direction of the light emitting panel and near the escape opening. Specifically, the first fitting section extends in a vertically upward direction. The second assembly section extends along the direction of deviating from the luminescent plate, and the locating hole and the mounting hole are arranged on the second assembly section at intervals. Specifically, the second fitting section extends in a horizontal rearward direction. That is, the longitudinal section of the fitting portion is L-shaped. The positioning opening and the mounting opening are arranged at intervals, so that the overall structural strength of the second assembly section is effectively ensured, and the elastic part and the limiting part can be prevented from interfering with each other in the mounting process.

In a possible design, further, the box body device further comprises a second embedded part, the second embedded part is arranged on the box liner, and the second embedded part is located in the accommodating cavity. The light-emitting component further comprises a second connecting piece, the second connecting piece is arranged at the other end of the light-emitting plate, and the second connecting piece is abutted to the box container and the second embedded part.

In the design, the box body device further comprises a second embedded part, the second embedded part is arranged on the box liner, and the second embedded part is located in the containing cavity. Specifically, the second embedment is disposed closer to the opening than the first embedment. That is, the first embedment is a rear embedment, and the second embedment is a front embedment. The light-emitting component further comprises a second connecting piece, the second connecting piece is arranged at the other end of the light-emitting plate, and the second connecting piece is abutted to the box container and the second embedded part. In light-emitting component's installation, first connecting piece earlier with spacing portion in the first built-in fitting realize the overlap joint, then upwards lift up the second connecting piece again, when light-emitting component is roughly horizontal, then wholly promote light-emitting component forward again, and finally, the second connecting piece can support and lean on case courage and second built-in fitting, in the elastic component also can imbed the locating hole on the first connecting piece, at this moment, to light-emitting component, it possesses fore-and-aft direction, the ascending limiting displacement of upper and lower side.

In one possible design, further, the second connector includes a second mounting portion, the second mounting portion includes a second mounting groove, and a portion of the light emitting plate is disposed in the second mounting groove. The butt joint portion sets up on the second installation department, and the butt joint portion deviates from the luminescent plate and extends, and the butt joint portion butt is on the case courage. The second lap joint portion is arranged on the second installation portion, the second lap joint portion is bent and extended compared with the second installation portion, and the second lap joint portion is lapped on the second embedded part.

In this design, the second connecting piece includes the second installation department, and the second installation department includes the second mounting groove, and in the second mounting groove was located to some of luminescent plate, to the front and back end of luminescent plate, inlay respectively in the second mounting groove on the first mounting groove of dress on the first connecting piece, the second connecting piece, the area of contact between luminescent plate and first connecting piece and the second connecting piece is great, and the positional stability of luminescent plate is better. The butt set is on the second installation department, and the butt deviates from the luminescent plate and extends, and the butt is on the case courage, and specifically, the butt extends forward along the horizontal direction, that is to say, the butt just is close to open-ended direction extension along the horizontal direction, and the extending direction adaptation of butt is in the direction of effort in the installation to can reduce in the installation because the effort direction does not match, butt fracture impaired etc..

Further, the second connecting piece still includes second overlap joint portion, and second overlap joint portion sets up on the second installation department, and second overlap joint portion is compared in the second installation department and bends and extend, and second overlap joint portion overlap joint is on the second built-in fitting.

In this design, the second connecting piece still includes second overlap joint portion, and second overlap joint portion sets up on the second installation department, and second overlap joint portion is compared in the second installation department and is bent the extension, and second overlap joint portion overlap joint is on the second built-in fitting to can realize the ascending limiting displacement in upper and lower direction, further provide position stability for light emitting component's front end.

In one possible design, further, the second bridging portion includes a connecting section, and the connecting section is disposed on the second mounting portion and extends in a direction of a thickness of the light emitting plate and in a direction close to the first embedded part. The lap joint section is arranged on the connecting section and extends obliquely compared with the second mounting part.

In this design, the second bridging portion includes the linkage segment, and the linkage segment sets up on the second installation department to along the thickness direction of luminescent plate and the direction that is close to first built-in fitting extend, the linkage segment extends towards vertical ascending direction promptly. The overlap joint section sets up on the linkage segment, and the slope of second installation department is compared to the overlap joint section and extends, specifically, and the overlap joint section extends towards the ascending direction in slant to be connected with the second built-in fitting, realize spacing of direction from top to bottom.

In one possible design, further, a portion of the second embedded part extends toward the inside of the receiving cavity to form a receiving part, the receiving part includes a receiving surface facing away from the light emitting panel, and a portion of the second overlapping part overlaps on the receiving surface.

In this design, a part of the second embedded part extends towards the inside of the accommodating cavity to form a receiving part, the receiving part comprises a receiving surface which is far away from the light-emitting panel, the receiving surface is an upward wall surface, a part of the second lap joint part is lapped on the receiving surface, and then a position limit in the vertical direction is formed between the second lap joint part and the receiving part.

In one possible design, further, the first connecting member is of a one-piece construction. The second connecting piece is of an integrated structure.

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

According to a second aspect of the present invention, there is provided a refrigerator including the box device according to any one of the above technical solutions, so as to have all the beneficial effects of the box device, which will not be described herein again.

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 shows a box apparatus according to one embodiment of the present invention in one of the schematic structural views;

FIG. 2 shows an enlarged partial view at A of the case assembly of FIG. 1 according to one embodiment of the present invention;

FIG. 3 shows an enlarged partial view at B of the case assembly of FIG. 1 according to one embodiment of the present invention;

FIG. 4 shows a second schematic structural view of a housing assembly according to an embodiment of the utility model;

FIG. 5 shows an enlarged partial view at C of the case assembly of FIG. 4 according to one embodiment of the present invention;

FIG. 6 shows an enlarged partial view at D of the case assembly of FIG. 4 according to one embodiment of the present invention;

FIG. 7 is an exploded view showing the structure of a light emitting module in a case device according to an embodiment of the present invention;

FIG. 8 is an exploded view showing the structure of a case device according to an embodiment of the present invention;

FIG. 9 illustrates a bottom view of the housing apparatus in accordance with one embodiment of the present invention;

FIG. 10 shows an enlarged partial view of the housing assembly of FIG. 9 at E in accordance with one embodiment of the present invention;

FIG. 11 is a schematic diagram illustrating the configuration of a first embedment in the case assembly in accordance with an embodiment of the present invention;

FIG. 12 shows an enlarged view of a portion of the housing assembly of FIG. 11 at F in accordance with one embodiment of the present invention.

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

100 of a box body device, wherein,

110 tank, 111 containing cavity, 112 opening, 113 avoiding opening,

120 elastic piece, 121 cantilever, 122 clamping part, 123 clamping groove,

130 of the light-emitting panel(s),

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

141 to locate the position of the opening,

142 are arranged at the side of the mounting opening,

143 a first mounting portion for the first part of the housing,

144, 1441 first fitting section, 1442 second fitting section,

150 of the second connecting member, and a second connecting member,

151 of the second mounting portion,

152 of the plurality of rollers in the first direction,

153 first lap, 1531 connecting segment, 1532 lap,

160 first embedded parts, 161 first embedded bodies, 162 connecting parts, 163 second overlapping parts, 164 guiding parts and 165 avoiding openings,

170 second embedment, 171 socket.

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 case apparatus 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, fig. 2, fig. 5, fig. 7, fig. 8, fig. 9 and fig. 10, there is provided a tank device 100 including a tank 110, an elastic member 120, a light emitting assembly and a positioning port 141, the tank 110 including a receiving cavity 111. The elastic member 120 is directly or indirectly disposed on the tank 110, and the elastic member 120 is located in the accommodating cavity 111. The light emitting component is detachably arranged in the accommodating cavity 111 and comprises a first end and a second end which are opposite to each other, and the second end of the light emitting component can abut against the box container 110. The positioning opening 141 is disposed at the first end of the light emitting assembly, and the elastic member 120 can be located in the positioning opening 141.

The container device 100 according to the embodiment of the present invention includes a container 110, an elastic member 120, a light emitting element, and a positioning opening 141. The tank container 110 includes an accommodating cavity 111, the elastic member 120 may be directly disposed on the tank container 110, or the elastic member 120 may be disposed on the tank container 110 through another member, and it should be noted that the elastic member 120 may be in a compressed state under an applied force, and the elastic member 120 may be reset to a natural state after the applied force is released. The light emitting assembly can be quickly disassembled with respect to the cabinet 110. In the process of assembling the light emitting device to the container 110, the elastic member 120 is pressed by the light emitting device and is in a compressed state, and at this time, the elastic member 120 is sandwiched between the container 110 and the first end of the light emitting device. After the light emitting assembly is installed in place, at the moment, the second end of the light emitting assembly is abutted against the tank container 110, the positioning port 141 on the second end of the light emitting assembly moves to a position corresponding to the elastic member 120, at the moment, the elastic member 120 is not pressed by the light emitting assembly, and the elastic member 120 is embedded into the positioning port 141 in the process of relieving the pressure to restore the elasticity of the elastic member, so that the light emitting assembly is installed. When the light emitting module needs to be detached from the container 110, the user presses the elastic member 120, and the elastic member 120 can be disengaged from the positioning opening 141 after being pressed, at this time, the two ends of the light emitting module are no longer subjected to the interaction force, and at this time, the light emitting module can be smoothly disengaged from the box body.

The first end and the second end of the light emitting element may be left and right ends or front and back ends, and the positioning opening 141 may be any one of left, right, front and back ends. Specifically, if the positioning hole 141 is provided at the rear end, the light emitting assembly should be installed from the rear to the front, and the elastic member 120 is transformed from the compressed state to the natural state in the process of having the rear to the front. That is to say, when the light emitting component is located on the left side, the elastic component 120 is located between the first end of the light emitting component and the container 110, at this time, the elastic component 120 is in a pressed state, and in the assembling process, the light emitting component is forced to move from back to front, the positioning opening 141 arranged on the first end of the light emitting component also moves forward, when the second end of the light emitting component abuts against the container 110, at this time, the positioning opening 141 moves to the elastic component 120, and the elastic component 120 releases the acting force to recover the natural state, that is, embedded in the positioning opening 141, so as to realize the limit in the front-back direction.

Specifically, if the positioning hole 141 is disposed at the left end, the light emitting element is installed from left to right, and the right end of the light emitting element abuts against the tank container 110.

Further, as shown in fig. 1, 4 and 8, the tank container 110 includes an opening 112, the opening 112 is communicated with the accommodating cavity 111, and a second end of the light emitting assembly is disposed closer to the opening 112 than the first end.

In this embodiment, the container 110 includes an opening 112, the opening 112 is communicated with the accommodating cavity 111, and the light emitting assembly can penetrate through the opening 112 and extend into the accommodating cavity 111, so as to facilitate the assembly of the light emitting assembly. Conceivably, the opening 112 may be located on either side of the receiving cavity 111, such as front, rear, left, right.

Further, the second end of the light emitting element is disposed closer to the opening 112 than the first end, and when the opening 112 is located at the front side of the accommodating cavity 111, the opening 112 faces the user. The second end of the light emitting component and the first end of the light emitting component are located at two ends in the front-back direction, so that the light emitting component is convenient to install, and operability is improved.

Specifically, the tank container 110 can limit the second end of the light emitting assembly to move forward, the elastic member 120 is embedded in the positioning opening 141, the elastic member 120 can limit the first end of the light emitting assembly to move backward, and at this time, under the combined action of the tank container 110 and the elastic member 120, the front end and the rear end of the light emitting assembly are clamped, so that the position stability is good.

Further, as shown in fig. 8, the box device 100 further includes an avoidance port 113, a first embedded part 160, and a mounting port 142, the avoidance port 113 is disposed on the tank liner 110, and the avoidance port 113 is communicated with the accommodating cavity 111. The first embedded part 160 is arranged on the tank liner 110, the elastic part 120 is arranged on the first embedded part 160, the first embedded part 160 comprises a limiting part, the elastic part 120 and the limiting part penetrate through the avoiding opening 113 and extend into the accommodating cavity 111, and the limiting part comprises a lapping wall facing the avoiding opening 113. The mounting hole 142 is arranged at the first end of the light emitting component, the limiting part penetrates through the mounting hole 142, and the wall surface of the limiting part facing the avoiding hole 113 is contacted with the first end of the light emitting component.

In this embodiment, the box device 100 further includes an avoiding opening 113 and a first embedded part 160, the avoiding opening 113 is disposed on the tank liner 110, and the avoiding opening 113 is communicated with the accommodating cavity 111. The first embedded part 160 is disposed on the tank liner 110, and the elastic part 120 is disposed on the first embedded part 160, that is, the elastic part 120 is indirectly disposed on the tank liner 110 through the first embedded part 160. The first embedded part 160 and the elastic part 120 can be processed as an integral part, that is, in the processing process, the tank liner 110, the first embedded part 160 and the elastic part 120 can be processed separately, so that the processing difficulty is reduced. And then the tank liner 110, the first embedded part 160 and the elastic part 120 are assembled. Further, the first embedded part 160 includes a limiting portion, and the elastic part 120 and the limiting portion respectively penetrate through the avoiding opening 113 and extend into the accommodating cavity 111. It should be noted that the limiting portion and the elastic member 120 are arranged at intervals, and the limiting portion and the elastic member 120 are respectively matched with different portions of the light emitting assembly. Wherein, spacing portion includes the overlap joint wall towards dodging mouth 113, that is to say, the overlap joint wall is the wall surface that sets up upwards.

Specifically, the first end of the light emitting element is provided with the mounting opening 142, and in the process of mounting the light emitting element on the tank liner 110, the light emitting element is sleeved on the limiting portion through the mounting opening 142, and then the second end of the light emitting element is lifted, and at this time, the first end of the light emitting element is erected on the overlapping wall of the limiting portion, that is, the limiting portion can provide up-down limiting for the light emitting element. Then, the light emitting assembly is moved forward relative to the tank container 110, in the process of moving forward, the elastic member 120 in the compressed state is embedded into the positioning opening 141, and the second end of the light emitting assembly abuts against the tank container 110, so that the limit in the front-back direction is realized.

In other words, in the process of installing the light emitting element in the container 110, the light emitting element is first sleeved on the limiting portion in a vertical state, then the second end of the light emitting element is lifted, and then the light emitting element is moved forward, so as to realize the matching between the elastic element 120 and the positioning opening 141.

Further, as shown in fig. 1, 2, 5 and 8, the first embedded part 160 includes a first embedded body 161 and a limiting portion, the first embedded body 161 is disposed on the outer wall of the tank liner 110, the limiting portion is connected to the first embedded body 161, the limiting portion includes a connecting portion 162 and a first overlapping portion 153, and the connecting portion 162 extends along a direction departing from the first embedded body 161. The first bridging portion 153 is connected to the connecting portion 162, the first bridging portion 153 extends in a direction away from the opening 112, and the first bridging portion 153 contacts the light emitting assembly.

In this embodiment, the first embedded part 160 includes a first embedded body 161 and a limiting portion, the first embedded body 161 is disposed on the outer wall of the tank liner 110, the limiting portion is connected to the first embedded body 161, and the limiting portion passes through the avoiding opening 113 and extends into the accommodating cavity 111. First pre-buried body 161 is installed on the outer wall of case courage 110, and case courage 110 can provide reliable support for first pre-buried body 161 and spacing portion, and then can provide reliable installation for light emitting component.

Further, the limiting portion includes a connecting portion 162 and a first overlapping portion 153, and the connecting portion 162 extends in a direction away from the first embedded body 161, that is, the connecting portion 162 extends downward. It is conceivable that the connecting portion 162 may extend in a vertically downward direction, and may also extend in an obliquely downward direction.

Further, the first overlapping portion 153 is connected to the connecting portion 162, the first overlapping portion 153 extends in a direction away from the opening 112, that is, the first overlapping portion 153 extends rearward, and the first overlapping portion 153 includes an overlapping wall facing the avoidance port 113. The light emitting assembly is sleeved on the first overlapping portion 153 through the mounting opening 142 of the light emitting assembly, and then moves towards the connecting portion 162 through the first overlapping portion 153, and then, a part of the light emitting assembly can be overlapped on the first overlapping portion 153, so that the position stability of the light emitting assembly in the up-down direction is realized.

Further, as shown in fig. 2 and 5, the first embedment 160 further includes a guide portion 164, and the guide portion 164 is provided at the free end of the first bridging portion 153.

In this embodiment, the first embedded part 160 further includes a guiding portion 164, the guiding portion 164 is disposed at the free end of the first bridging portion 153, and the guiding portion 164 can facilitate the light emitting assembly to be sleeved on the first bridging portion 153. The guide portion 164 includes a guide slope, a guide arc surface, etc., and the guide portion 164 includes a guide surface, and a distance between the guide surface and the top wall of the tank 110 gradually increases from the front to the rear.

In one embodiment, the specific structure of the elastic member 120 is described, as shown in fig. 11 and 12, the first embedded member 160 further includes an escape opening 165, and the escape opening 165 is provided on the first embedded body 161. The elastic member 120 includes a cantilever 121 and a clamping portion 122, and a first end of the cantilever 121 is disposed on the first embedded body 161. The clamping portion 122 is disposed at the second end of the cantilever 121, and the clamping portion 122 is located at a side of the avoiding opening 165 close to the light emitting component.

In this embodiment, the first embedded part 160 further includes an avoiding opening 165, the avoiding opening 165 is provided on the first embedded body 161, and the avoiding opening 165 is used for providing an avoiding space for the elastic part 120 in a compressed state. Specifically, when the light emitting module is pressed on the elastic member 120, the elastic member 120 may receive an upward acting force, and at this time, the elastic member 120 has a tendency of moving upward, and the avoidance opening 165 may just provide an avoidance space for the elastic member 120, so as to avoid that the light emitting module cannot be smoothly assembled due to interference, which may result in failure to provide a suitable avoidance space for the elastic member 120.

Further, elastic component 120 includes cantilever 121 and joint portion 122, and cantilever 121 includes the both ends that deviate from mutually, and cantilever 121's first end fixed connection is on first pre-buried body 161, and cantilever 121's the unsettled setting of second end is in the one side of dodging opening 165, specifically, cantilever 121's the unsettled below of dodging opening 165 of second end is established. The clamping portion 122 is arranged at the second end of the cantilever 121 and faces the light emitting assembly, and when the light emitting assembly moves forward to a proper position, the clamping portion 122 can be embedded into the positioning hole, so that the light emitting assembly is limited in the front-rear direction.

Further, the elastic member 120 further includes a clamping groove 123, the clamping groove 123 is located between the clamping portion 122 and the cantilever 121, and a portion of the light emitting assembly can be located in the clamping groove 123.

In this embodiment, a clamping groove 123 is formed between the clamping portion 122 and the cantilever 121, the notch of the clamping groove 123 is disposed toward the opening, when the light emitting assembly moves forward to a proper position, a part of the light emitting assembly can be embedded into the clamping groove 123, the groove bottom of the clamping groove 123 can provide a front-back direction limit for the light emitting assembly, the groove side wall of the clamping groove 123 and a part of the cantilever 121 can also provide a vertical direction limit for the light emitting assembly, and therefore the installation reliability of the light emitting assembly is further ensured.

Further, dodge mouthful 113 and dodge mouthful including the first mouth and the second of dodging that the interval set up, elastic component 120 passes first dodging mouthful and stretches into and hold chamber 111, and spacing portion passes the second and dodges mouthful and stretch into and hold chamber 111.

In this embodiment, dodge mouthful 113 and include the first mouth and the second mouth of dodging that dodge that the interval set up, elastic component 120 passes first mouthful of dodging and stretches into and hold chamber 111, and spacing portion passes the second and dodges the mouth and stretch into and hold chamber 111, and the first mouth and the second mouth of dodging that dodge that the interval set up can ensure the position accuracy of first built-in fitting 160 installation on case courage 110 on the one hand, reduces the installation degree of difficulty, reduces the product defective rate that the assembly deviation leads to. On the other hand, the structural strength of the tank 110 can be ensured as much as possible, and the large-area opening 112 provided in the tank 110 to prevent the need for escape from affecting the overall structural strength of the product.

Further, as shown in fig. 7 and 8, the light emitting assembly includes a light emitting plate 130 and a first connector 140, the first connector 140 is disposed at one end of the light emitting plate, and the first connector 140 is provided with a positioning hole 141.

In this embodiment, the light emitting assembly includes a light emitting plate 130 and a first connector 140, the first connector 140 is disposed at one end of the light emitting plate, and the first connector 140 is disposed with a positioning hole 141. The light emitting plate 130 serves as a light source, i.e., the light emitting plate 130 is a surface light source. The structure of the light source is not affected by installation requirements, namely, the structure of the light source is not required to be changed, and the connection with the box body can be realized only by adaptively improving the structure of the first connecting piece 140. The luminous plate with the illumination function does not need to consider the installation requirement.

Further, as shown in fig. 2 and 5, the first connector 140 includes a first mounting portion 143, the first mounting portion 143 includes a first mounting groove, and a portion of the light emitting panel 130 is disposed in the first mounting groove. The fitting portion 144 is connected to the first mounting portion 143 and extends at least in a direction away from the light emitting panel 130, and the positioning hole 141 is provided on the fitting portion 144.

In this embodiment, the first connector 140 includes a first mounting portion 143, the first mounting portion 143 includes a first mounting groove, and a portion of the light emitting plate 130 is disposed in the first mounting groove, thereby achieving a fixed connection between the light emitting plate 130 and the first connector 140. The assembly portion 144 links to each other with first installation department 143 to at least, extend along the direction that deviates from luminescent plate 130, the locating port 141 is established on the assembly portion 144, first installation department 143 can ensure the reliable connection between first connecting piece 140 and the luminescent plate 130, the assembly portion 144 can satisfy the structure assembly demand, for the cooperation between realization and spacing portion, elastic component 120, the assembly portion 144 can zigzag extend the setting, the flexibility ratio is higher.

Further, as shown in fig. 2 and 5, the fitting part 144 includes a first fitting section 1441 and a second fitting section 1442, and the first fitting section 1441 extends in the thickness direction of the light emitting plate 130 and near the avoidance port 113. The second assembling section 1442 extends in a direction away from the light emitting plate 130, and the positioning opening 141 and the mounting opening 142 are spaced apart from each other on the second assembling section 1442.

In this embodiment, the fitting portion 144 includes a first fitting section 1441 and a second fitting section 1442, and the first fitting section 1441 extends in the thickness direction of the light emitting plate 130 and near the avoiding opening 113. Specifically, the first fitting section 1441 extends in a vertically upward direction. The second assembling section 1442 extends in a direction away from the light emitting plate 130, and the positioning opening 141 and the mounting opening 142 are spaced apart from each other on the second assembling section 1442. Specifically, the second fitting section 1442 extends in a horizontal rearward direction. That is, the longitudinal section of the fitting portion 144 has an L-shape. The positioning opening 141 and the mounting opening 142 are arranged at intervals, so that the overall structural strength of the second assembling section 1442 is effectively ensured, and the elastic part 120 and the limiting part can be prevented from interfering with each other in the mounting process.

Further, as shown in fig. 3, 6 and 8, the box body apparatus 100 further includes a second embedded part 170, the second embedded part 170 is disposed on the tank liner 110, and the second embedded part 170 is located in the accommodating cavity 111. The light emitting assembly further comprises a second connecting member 150, the second connecting member 150 is disposed at the other end of the light emitting plate, and the second connecting member 150 abuts against the tank liner 110 and the second embedded member 170.

In this embodiment, the box body apparatus 100 further includes a second embedded part 170, the second embedded part 170 is disposed on the tank liner 110, and the second embedded part 170 is located in the accommodating cavity 111. Specifically, the second embedment 170 is disposed closer to the opening 112 than the first embedment 160. That is, the first embedment 160 is a rear embedment, and the second embedment 170 is a front embedment. The light emitting assembly further comprises a second connecting member 150, the second connecting member 150 is disposed at the other end of the light emitting plate, and the second connecting member 150 abuts against the tank liner 110 and the second embedded member 170. In the installation process of the light emitting assembly, the first connecting piece 140 is firstly in lap joint with the limiting part in the first embedded part 160, then the second connecting piece 150 is lifted upwards, when the light emitting assembly is approximately horizontal, then the whole light emitting assembly is pushed forwards, finally, the second connecting piece 150 can be abutted against the box liner 110 and the second embedded part 170, the elastic piece 120 can be embedded into the positioning opening 141 in the first connecting piece 140, and at the moment, for the light emitting assembly, the light emitting assembly has the limiting effect in the front-back direction and the up-down direction.

Further, as shown in fig. 3 and 6, the second connector 150 includes a second mounting part 151, the second mounting part 151 includes a second mounting groove, and a portion of the light emitting plate 130 is disposed in the second mounting groove. The abutting portion 152 is provided on the second mounting portion 151, the abutting portion 152 extends away from the light emitting plate 130, and the abutting portion 152 abuts on the tank 110. And a second bridging portion 163 disposed on the second mounting portion 151, wherein the second bridging portion 163 is bent and extended relative to the second mounting portion 151, and the second bridging portion 163 is bridged on the second embedded part 170.

In this embodiment, the second connector 150 includes the second mounting portion 151, the second mounting portion 151 includes the second mounting groove, a portion of the light emitting panel 130 is disposed in the second mounting groove, and for the front and rear ends of the light emitting panel 130, the light emitting panel 130 is respectively embedded in the first mounting groove of the first connector 140 and the second mounting groove of the second connector 150, so that the contact area between the light emitting panel 130 and the first connector 140 and the second connector 150 is large, and the positional stability of the light emitting panel 130 is good. The abutting portion 152 is disposed on the second mounting portion 151, the abutting portion 152 extends away from the light-emitting panel 130, the abutting portion 152 abuts on the tank 110, specifically, the abutting portion 152 extends forward along the horizontal direction, that is, the abutting portion 152 extends along the horizontal direction and the direction close to the opening 112, the extending direction of the abutting portion 152 is adapted to the direction of the acting force in the mounting process, so that the damage of the abutting portion 152 due to the mismatching of the acting force direction in the mounting process can be reduced.

Further, as shown in fig. 3 and 6, the second connecting member 150 further includes a second bridging portion 163, the second bridging portion 163 is disposed on the second mounting portion 151, the second bridging portion 163 is bent and extended compared to the second mounting portion 151, and the second bridging portion 163 is bridged on the second embedded part 170.

In this embodiment, the second connecting member 150 further includes a second overlapping portion 163, the second overlapping portion 163 is disposed on the second mounting portion 151, the second overlapping portion 163 is bent and extended compared with the second mounting portion 151, and the second overlapping portion 163 is overlapped on the second embedded part 170, so that the limiting effect in the up-down direction can be realized, and further, the position stability is provided for the front end of the light emitting component.

Further, as shown in fig. 3 and 6, the second bridging portion 163 includes a connection segment 1531, and the connection segment 1531 is disposed on the second mounting portion 151 and extends in the thickness direction of the light emitting plate 130 and in the direction close to the first embedded part 160. An engagement portion 1532, and an engagement portion 1532 disposed on the connection portion 1531, the engagement portion 1532 extending obliquely to the second mounting portion 151.

In this embodiment, the second bridging portion 163 includes a connecting section 1531, and the connecting section 1531 is disposed on the second mounting portion 151 and extends in the thickness direction of the light emitting panel 130 and in a direction close to the first embedded part 160, that is, the connecting section 1531 extends in a vertically upward direction. The overlap portion 1532 is disposed on the connection portion 1531, and the overlap portion 1532 extends obliquely with respect to the second mounting portion 151, and specifically, the overlap portion 1532 extends in an oblique upward direction, so as to be connected to the second embedded part 170, thereby achieving the limitation in the vertical direction.

Further, as shown in fig. 3 and 6, a portion of the second embedded part 170 extends toward the inside of the receiving cavity 111 to form a receiving part 171, the receiving part includes a receiving surface facing away from the light emitting panel 130, and a portion of the second overlapping part 163 overlaps on the receiving surface.

In this embodiment, a portion of the second embedded part 170 extends toward the inside of the receiving cavity 111 to form a receiving part 171, the receiving part includes a receiving surface facing away from the light emitting panel 130, the receiving surface is an upward wall surface, a portion of the second overlapping part 163 overlaps the receiving surface, and a position limit in the up-down direction is formed between the second overlapping part 163 and the receiving part 171.

Further, the first connector 140 is a one-piece structure. The second connector 150 is a unitary structure.

In this embodiment, the first connecting member 140 and the second connecting member 150 are integrated, and the mechanical property of the integrated structure is good, so that the connection strength of the first connecting member 140 and the second connecting member 150 can be improved, and in addition, the first connecting member 140 and the second connecting member 150 can be integrally manufactured and mass-produced, so that the processing efficiency of the product is improved, and the processing cost of the product is reduced. In addition, the first connecting piece 140 and the second connecting piece 150 are designed to be an integrated structure, so that the integrity of the light emitting assembly is improved, the number of parts is reduced, the installation procedures are reduced, the installation efficiency is improved, and the light emitting assembly is more conveniently and reliably installed on the tank liner 110.

In a specific embodiment, specifically, the container body device 100 includes a container liner 110, an elastic member 120, a light emitting assembly and a positioning port 141, and the container liner 110 includes a receiving cavity 111. The elastic member 120 is directly or indirectly disposed on the tank 110, and the elastic member 120 is located in the accommodating cavity 111. The light emitting component is detachably arranged in the accommodating cavity 111 and comprises a first end and a second end which are opposite to each other, and the second end of the light emitting component can abut against the box container 110. The positioning opening 141 is disposed at the first end of the light emitting assembly, and the elastic member 120 can be located in the positioning opening 141.

The container device 100 according to the embodiment of the present invention includes a container 110, an elastic member 120, a light emitting element, and a positioning opening 141. The tank container 110 includes an accommodating cavity 111, the elastic member 120 may be directly disposed on the tank container 110, or the elastic member 120 may be disposed on the tank container 110 through another member, and it should be noted that the elastic member 120 may be in a compressed state under an applied force, and the elastic member 120 may be reset to a natural state after the applied force is released. The light emitting assembly can be quickly disassembled with respect to the cabinet 110. In the process of assembling the light emitting device to the container 110, the elastic member 120 is pressed by the light emitting device and is in a compressed state, and at this time, the elastic member 120 is sandwiched between the container 110 and the first end of the light emitting device. After the light emitting assembly is installed in place, at the moment, the second end of the light emitting assembly is abutted against the tank container 110, the positioning port 141 on the second end of the light emitting assembly moves to a position corresponding to the elastic member 120, at the moment, the elastic member 120 is not pressed by the light emitting assembly, and the elastic member 120 is embedded into the positioning port 141 in the process of relieving the pressure to restore the elasticity of the elastic member, so that the light emitting assembly is installed. When the light emitting module needs to be detached from the container 110, the user presses the elastic member 120, and the elastic member 120 can be disengaged from the positioning opening 141 after being pressed, at this time, the two ends of the light emitting module are no longer subjected to the interaction force, and at this time, the light emitting module can be smoothly disengaged from the box body.

The first end and the second end of the light emitting element may be left and right ends or front and back ends, and the positioning opening 141 may be any one of left, right, front and back ends. Specifically, if the positioning hole 141 is provided at the rear end, the light emitting assembly should be installed from the rear to the front, and the elastic member 120 is transformed from the compressed state to the natural state in the process of having the rear to the front. That is to say, when the light emitting component is located on the left side, the elastic component 120 is located between the first end of the light emitting component and the container 110, at this time, the elastic component 120 is in a pressed state, and in the assembling process, the light emitting component is forced to move from back to front, the positioning opening 141 arranged on the first end of the light emitting component also moves forward, when the second end of the light emitting component abuts against the container 110, at this time, the positioning opening 141 moves to the elastic component 120, and the elastic component 120 releases the acting force to recover the natural state, that is, embedded in the positioning opening 141, so as to realize the limit in the front-back direction. Specifically, if the positioning hole 141 is disposed at the left end, the light emitting element is installed from left to right, and the right end of the light emitting element abuts against the tank container 110.

Further, the container 110 includes an opening 112, the opening 112 is communicated with the accommodating cavity 111, and the light emitting assembly can penetrate through the opening 112 and extend into the accommodating cavity 111, so as to facilitate the assembly of the light emitting assembly. Conceivably, the opening 112 may be located on either side of the receiving cavity 111, such as front, rear, left, right.

Further, the box device 100 further comprises an avoiding opening 113 and a first embedded part 160, the avoiding opening 113 is arranged on the box liner 110, and the avoiding opening 113 is communicated with the accommodating cavity 111. The first embedded part 160 is disposed on the tank liner 110, and the elastic part 120 is disposed on the first embedded part 160, that is, the elastic part 120 is indirectly disposed on the tank liner 110 through the first embedded part 160. The first embedded part 160 and the elastic part 120 can be processed as an integral part, that is, in the processing process, the tank liner 110, the first embedded part 160 and the elastic part 120 can be processed separately, so that the processing difficulty is reduced. And then the tank liner 110, the first embedded part 160 and the elastic part 120 are assembled. Further, the first embedded part 160 includes a limiting portion, and the elastic part 120 and the limiting portion respectively penetrate through the avoiding opening 113 and extend into the accommodating cavity 111. It should be noted that the limiting portion and the elastic member 120 are arranged at intervals, and the limiting portion and the elastic member 120 are respectively matched with different portions of the light emitting assembly. Wherein, spacing portion includes the overlap joint wall towards dodging mouth 113, that is to say, the overlap joint wall is the wall surface that sets up upwards.

Specifically, the first end of the light emitting element is provided with the mounting opening 142, and in the process of mounting the light emitting element on the tank liner 110, the light emitting element is sleeved on the limiting portion through the mounting opening 142, and then the second end of the light emitting element is lifted, and at this time, the first end of the light emitting element is erected on the overlapping wall of the limiting portion, that is, the limiting portion can provide up-down limiting for the light emitting element. Then, the light emitting assembly is moved forward relative to the tank container 110, in the process of moving forward, the elastic member 120 in the compressed state is embedded into the positioning opening 141, and the second end of the light emitting assembly abuts against the tank container 110, so that the limit in the front-back direction is realized.

In other words, in the process of installing the light emitting element in the container 110, the light emitting element is first sleeved on the limiting portion in a vertical state, then the second end of the light emitting element is lifted, and then the light emitting element is moved forward, so as to realize the matching between the elastic element 120 and the positioning opening 141.

Further, first built-in fitting 160 includes first built-in body 161 and spacing portion, and first built-in body 161 sets up on the outer wall of case courage 110, and spacing portion links to each other with first built-in body 161, and spacing portion passes and dodges mouth 113 and stretch into and hold the intracavity portion 111 inside. First pre-buried body 161 is installed on the outer wall of case courage 110, and case courage 110 can provide reliable support for first pre-buried body 161 and spacing portion, and then can provide reliable installation for light emitting component.

Further, the first embedded part 160 further includes a guiding portion 164, the guiding portion 164 is disposed at a free end of the first bridging portion 153, and the guiding portion 164 can facilitate the light emitting assembly to be sleeved on the first bridging portion 153. The guide portion 164 includes a guide slope, a guide arc surface, etc., and the guide portion 164 includes a guide surface, and a distance between the guide surface and the top wall of the tank 110 gradually increases from the front to the rear.

Further, dodge mouthful 113 and include that the interval sets up first dodge mouthful and the second dodge the mouth, and elastic component 120 passes first dodge the mouth and stretches into and hold chamber 111, and spacing portion passes the second dodge the mouth and stretches into and hold chamber 111, and the interval sets up first dodge mouthful and the second dodge the mouth, can ensure the position accuracy of first built-in fitting 160 installation on case courage 110 on the one hand, reduces the installation degree of difficulty, reduces the product defective rate that the assembly deviation leads to. On the other hand, the structural strength of the tank 110 can be ensured as much as possible, and the large-area opening 112 provided in the tank 110 to prevent the need for escape from affecting the overall structural strength of the product.

Further, the light emitting assembly includes a light emitting plate 130 and a first connecting member 140, the first connecting member 140 is disposed at one end of the light emitting plate, and the first connecting member 140 is disposed with a positioning hole 141. The light emitting plate 130 serves as a light source, i.e., the light emitting plate 130 is a surface light source. The structure of the light source is not affected by installation requirements, namely, the structure of the light source is not required to be changed, and the connection with the box body can be realized only by adaptively improving the structure of the first connecting piece 140. The luminous plate with the illumination function does not need to consider the installation requirement.

Further, as shown in fig. 2 and 5, the first connecting member 140 includes a first mounting portion 143, the first mounting portion 143 includes a first mounting groove, and a portion of the light emitting plate 130 is disposed in the first mounting groove, so that the light emitting plate 130 and the first connecting member 140 are fixedly connected. The assembly portion 144 links to each other with first installation department 143 to at least, extend along the direction that deviates from luminescent plate 130, the locating port 141 is established on the assembly portion 144, first installation department 143 can ensure the reliable connection between first connecting piece 140 and the luminescent plate 130, the assembly portion 144 can satisfy the structure assembly demand, for the cooperation between realization and spacing portion, elastic component 120, the assembly portion 144 can zigzag extend the setting, the flexibility ratio is higher.

Further, the fitting portion 144 includes a first fitting section 1441 and a second fitting section 1442, and the first fitting section 1441 extends in the thickness direction of the light emitting plate 130 and near the avoiding opening 113. The second assembling section 1442 extends in a direction away from the light emitting plate 130, and the positioning opening 141 and the mounting opening 142 are spaced apart from each other on the second assembling section 1442.

Further, the box body device 100 further includes a second embedded part 170, the second embedded part 170 is disposed on the tank liner 110, and the second embedded part 170 is located in the accommodating cavity 111. The light emitting assembly further comprises a second connecting member 150, the second connecting member 150 is disposed at the other end of the light emitting plate, and the second connecting member 150 abuts against the tank liner 110 and the second embedded member 170.

Further, the second connector 150 includes a second mounting part 151, the second mounting part 151 includes a second mounting groove, and a portion of the light emitting plate 130 is disposed in the second mounting groove. The abutting portion 152 is provided on the second mounting portion 151, the abutting portion 152 extends away from the light emitting plate 130, and the abutting portion 152 abuts on the tank 110. And a second bridging portion 163 disposed on the second mounting portion 151, wherein the second bridging portion 163 is bent and extended relative to the second mounting portion 151, and the second bridging portion 163 is bridged on the second embedded part 170.

Further, the second bridging portion 163 includes a connection section 1531, and the connection section 1531 is disposed on the second mounting portion 151 and extends in the thickness direction of the light emitting panel 130 and in the direction close to the first embedded part 160. An engagement portion 1532, and an engagement portion 1532 disposed on the connection portion 1531, the engagement portion 1532 extending obliquely to the second mounting portion 151.

Further, a portion of the second embedded part 170 extends toward the inside of the receiving cavity 111 to form a receiving part 171, the receiving part includes a receiving surface facing away from the light emitting panel 130, and a portion of the second overlapping part 163 overlaps on the receiving surface.

Further, the first connector 140 is a one-piece structure. The second connector 150 is a unitary structure.

According to a second aspect of the present invention, there is provided a refrigerator including the box apparatus 100 according to any of the above-mentioned technical solutions, so as to have all the beneficial effects of the box apparatus 100, which will not be described herein again.

Specifically, the container device 100 includes a container 110, an elastic member 120, a light emitting assembly, and a positioning opening 141, and the container 110 includes an accommodating cavity 111. The elastic member 120 is directly or indirectly disposed on the tank 110, and the elastic member 120 is located in the accommodating cavity 111. The light emitting component is detachably arranged in the accommodating cavity 111 and comprises a first end and a second end which are opposite to each other, and the second end of the light emitting component can abut against the box container 110. The positioning opening 141 is disposed at the first end of the light emitting assembly, and the elastic member 120 can be located in the positioning opening 141.

The container device 100 according to the embodiment of the present invention includes a container 110, an elastic member 120, a light emitting element, and a positioning opening 141. The tank container 110 includes an accommodating cavity 111, the elastic member 120 may be directly disposed on the tank container 110, or the elastic member 120 may be disposed on the tank container 110 through another member, and it should be noted that the elastic member 120 may be in a compressed state under an applied force, and the elastic member 120 may be reset to a natural state after the applied force is released. The light emitting assembly can be quickly disassembled with respect to the cabinet 110. In the process of assembling the light emitting device to the container 110, the elastic member 120 is pressed by the light emitting device and is in a compressed state, and at this time, the elastic member 120 is sandwiched between the container 110 and the first end of the light emitting device. After the light emitting assembly is installed in place, at the moment, the second end of the light emitting assembly is abutted against the tank container 110, the positioning port 141 on the second end of the light emitting assembly moves to a position corresponding to the elastic member 120, at the moment, the elastic member 120 is not pressed by the light emitting assembly, and the elastic member 120 is embedded into the positioning port 141 in the process of relieving the pressure to restore the elasticity of the elastic member, so that the light emitting assembly is installed. When the light emitting module needs to be detached from the container 110, the user presses the elastic member 120, and the elastic member 120 can be disengaged from the positioning opening 141 after being pressed, at this time, the two ends of the light emitting module are no longer subjected to the interaction force, and at this time, the light emitting module can be smoothly disengaged from the box body.

The first end and the second end of the light emitting element may be left and right ends or front and back ends, and the positioning opening 141 may be any one of left, right, front and back ends. Specifically, if the positioning hole 141 is provided at the rear end, the light emitting assembly should be installed from the rear to the front, and the elastic member 120 is transformed from the compressed state to the natural state in the process of having the rear to the front. That is to say, when the light emitting component is located on the left side, the elastic component 120 is located between the first end of the light emitting component and the container 110, at this time, the elastic component 120 is in a pressed state, and in the assembling process, the light emitting component is forced to move from back to front, the positioning opening 141 arranged on the first end of the light emitting component also moves forward, when the second end of the light emitting component abuts against the container 110, at this time, the positioning opening 141 moves to the elastic component 120, and the elastic component 120 releases the acting force to recover the natural state, that is, embedded in the positioning opening 141, so as to realize the limit in the front-back direction. Specifically, if the positioning hole 141 is disposed at the left end, the light emitting element is installed from left to right, and the right end of the light emitting element abuts against the tank container 110.

The tank container 110 includes an opening 112, the opening 112 is communicated with the accommodating cavity 111, and the light emitting assembly can penetrate through the opening 112 and extend into the accommodating cavity 111, so as to facilitate the assembly of the light emitting assembly. Conceivably, the opening 112 may be located on either side of the receiving cavity 111, such as front, rear, left, right.

Further, the second end of the light emitting element is disposed closer to the opening 112 than the first end, and when the opening 112 is located at the front side of the accommodating cavity 111, the opening 112 faces the user. The second end of the light emitting component and the first end of the light emitting component are located at two ends in the front-back direction, so that the light emitting component is convenient to install, and operability is improved.

Specifically, the tank container 110 can limit the second end of the light emitting assembly to move forward, the elastic member 120 is embedded in the positioning opening 141, the elastic member 120 can limit the first end of the light emitting assembly to move backward, and at this time, under the combined action of the tank container 110 and the elastic member 120, the front end and the rear end of the light emitting assembly are clamped, so that the position stability is good.

It should be noted that the box body device 100 further includes an avoidance port 113 and a first embedded part 160, the avoidance port 113 is disposed on the box liner 110, and the avoidance port 113 is communicated with the accommodating cavity 111. The first embedded part 160 is disposed on the tank liner 110, and the elastic part 120 is disposed on the first embedded part 160, that is, the elastic part 120 is indirectly disposed on the tank liner 110 through the first embedded part 160. The first embedded part 160 and the elastic part 120 can be processed as an integral part, that is, in the processing process, the tank liner 110, the first embedded part 160 and the elastic part 120 can be processed separately, so that the processing difficulty is reduced. And then the tank liner 110, the first embedded part 160 and the elastic part 120 are assembled. Further, the first embedded part 160 includes a limiting portion, and the elastic part 120 and the limiting portion respectively penetrate through the avoiding opening 113 and extend into the accommodating cavity 111. It should be noted that the limiting portion and the elastic member 120 are arranged at intervals, and the limiting portion and the elastic member 120 are respectively matched with different portions of the light emitting assembly. Wherein, spacing portion includes the overlap joint wall towards dodging mouth 113, that is to say, the overlap joint wall is the wall surface that sets up upwards.

Specifically, the first end of the light emitting element is provided with the mounting opening 142, and in the process of mounting the light emitting element on the tank liner 110, the light emitting element is sleeved on the limiting portion through the mounting opening 142, and then the second end of the light emitting element is lifted, and at this time, the first end of the light emitting element is erected on the overlapping wall of the limiting portion, that is, the limiting portion can provide up-down limiting for the light emitting element. Then, the light emitting assembly is moved forward relative to the tank container 110, in the process of moving forward, the elastic member 120 in the compressed state is embedded into the positioning opening 141, and the second end of the light emitting assembly abuts against the tank container 110, so that the limit in the front-back direction is realized.

In other words, in the process of installing the light emitting element in the container 110, the light emitting element is first sleeved on the limiting portion in a vertical state, then the second end of the light emitting element is lifted, and then the light emitting element is moved forward, so as to realize the matching between the elastic element 120 and the positioning opening 141.

Wherein, first built-in fitting 160 includes first pre-buried body 161 and spacing portion, and first pre-buried body 161 sets up on the outer wall of case courage 110, and spacing portion links to each other with first pre-buried body 161, and spacing portion passes and dodges mouthful 113 and stretch into and hold the chamber 111 inside. First pre-buried body 161 is installed on the outer wall of case courage 110, and case courage 110 can provide reliable support for first pre-buried body 161 and spacing portion, and then can provide reliable installation for light emitting component.

Specifically, the first overlapping portion 153 is connected to the connecting portion 162, the first overlapping portion 153 extends in a direction away from the opening 112, that is, the first overlapping portion 153 extends rearward, and the first overlapping portion 153 includes an overlapping wall facing the avoidance port 113. The light emitting assembly is sleeved on the first overlapping portion 153 through the mounting opening 142 of the light emitting assembly, and then moves towards the connecting portion 162 through the first overlapping portion 153, and then, a part of the light emitting assembly can be overlapped on the first overlapping portion 153, so that the position stability of the light emitting assembly in the up-down direction is realized. The first embedded part 160 further comprises a guide portion 164, the guide portion 164 is disposed at a free end of the first bridging portion 153, and the guide portion 164 can facilitate the light emitting assembly to be sleeved on the first bridging portion 153. The guide portion 164 includes a guide slope, a guide arc surface, etc., and the guide portion 164 includes a guide surface, and a distance between the guide surface and the top wall of the tank 110 gradually increases from the front to the rear.

Specifically, dodge mouthful 113 and dodge mouthful including the first mouth and the second of dodging that the interval set up, elastic component 120 passes first dodging the mouth and stretches into and hold chamber 111, and spacing portion passes the second and dodges the mouth and stretch into and hold chamber 111, and the first mouth and the second of dodging that the interval set up dodge mouthful, can ensure the position accuracy of first built-in fitting 160 installation on case courage 110 on the one hand, reduces the installation degree of difficulty, reduces the product defective rate that the assembly deviation leads to. On the other hand, the structural strength of the tank 110 can be ensured as much as possible, and the large-area opening 112 provided in the tank 110 to prevent the need for escape from affecting the overall structural strength of the product.

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 (17)

1. A case apparatus, comprising:

the box container comprises an accommodating cavity;

the elastic piece is directly or indirectly arranged on the box liner and is positioned in the accommodating cavity;

the light-emitting component is detachably arranged in the accommodating cavity and comprises a first end and a second end which are opposite, and the second end of the light-emitting component can abut against the box liner;

the locating hole is formed in the first end of the light emitting assembly, and the elastic piece can be located in the locating hole.

2. Case apparatus according to claim 1,

the box container comprises an opening, the opening is communicated with the containing cavity, and the second end of the light-emitting component is close to the opening compared with the first end.

3. The case apparatus of claim 2, further comprising:

the avoidance port is arranged on the box liner and communicated with the accommodating cavity;

the first embedded part is arranged on the box liner, the elastic part is arranged on the first embedded part, the first embedded part comprises a limiting part, and the elastic part and the limiting part penetrate through the avoiding opening and extend into the accommodating cavity;

the mounting hole is located light emitting component's first end, spacing portion wears to locate in the mounting hole, spacing portion orientation the wall of dodging the mouth with light emitting component's first end contact.

4. The case apparatus of claim 3, wherein the first embedment includes:

first pre-buried body sets up on the outer wall of case courage, spacing portion with first pre-buried body links to each other, spacing portion includes:

the connecting part extends along the direction departing from the first embedded body;

the first lap joint part is connected with the connecting part, extends towards the direction deviating from the opening, and is in contact with the light-emitting component.

5. The case apparatus of claim 4, wherein the first embedment further includes:

and the guide part is arranged at the free end of the first lap joint part.

6. Case apparatus according to claim 4,

the first embedment further includes:

the avoiding opening is arranged on the first embedded body;

the elastic member includes:

the first end of the cantilever is arranged on the first embedded body;

the clamping portion is arranged at the second end of the cantilever and located on one side, close to the light emitting assembly, of the avoidance opening.

7. The cabinet apparatus as claimed in claim 6, wherein the elastic member further includes:

the joint groove is located the joint portion with between the cantilever, a part of light emitting component can be located the joint inslot.

8. Case apparatus according to claim 3,

dodge the mouth and dodge the mouth including the first mouth and the second of dodging that the interval set up, the elastic component passes first dodging the mouth and stretching into hold the chamber, spacing portion passes the second dodges the mouth and stretches into hold the chamber.

9. The box apparatus according to any one of claims 3 to 8, wherein the light emitting assembly includes:

a light emitting panel;

the first connecting piece is arranged at one end of the light-emitting plate, and the positioning port is arranged on the first connecting piece.

10. A housing apparatus as claimed in claim 9, wherein the first connector includes:

the first mounting part comprises a first mounting groove, and a part of the light-emitting plate is arranged in the first mounting groove;

the assembly portion, with first installation department links to each other to at least along deviating from the direction of luminescent plate extends, the location mouth is established on the assembly portion.

11. A box assembly according to claim 10, wherein the fitting portion includes:

the first assembling section extends along the thickness direction of the light-emitting plate and close to the avoiding opening;

the second assembly section, with first assembly section links to each other, and follows and deviates from the direction of luminescent plate extends, the location mouth with the installing port interval is established on the second assembly section.

12. Case apparatus according to claim 9,

the box device further comprises:

the second embedded part is arranged on the box liner and is positioned in the accommodating cavity;

the light emitting assembly further includes:

and the second connecting piece is arranged at the other end of the light-emitting plate and is abutted against the box liner and the second embedded part.

13. A cabinet apparatus as claimed in claim 12, wherein the second connector includes:

the second mounting part comprises a second mounting groove, and one part of the light-emitting plate is arranged in the second mounting groove;

the abutting part is arranged on the second mounting part, extends away from the light-emitting plate and abuts against the box liner;

and the second lap joint part is arranged on the second installation part and is compared with the second installation part, bent, extended and lapped on the second embedded part.

14. A cabinet apparatus as claimed in claim 13, wherein the second strap includes:

the connecting section is arranged on the second mounting part and extends along the thickness direction of the light-emitting plate and the direction close to the first embedded part;

and the lap joint section is arranged on the connecting section and obliquely extends relative to the second mounting part.

15. Case apparatus according to claim 13,

and a part of the second embedded part extends towards the inside of the accommodating cavity to form a bearing part, the bearing part comprises a bearing surface deviating from the light-emitting plate, and a part of the second lap joint part is lapped on the bearing surface.

16. Case apparatus according to any one of claims 12 to 15,

the first connecting piece is of an integrated structure, and the second connecting piece is of an integrated structure.

17. A refrigerator comprising the body apparatus of any one of claims 1 to 16.

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