CN216036027U - Shoe box assembly and shoe box thereof - Google Patents

Abstract

The utility model provides a shoe box assembly and a shoe box thereof. The shoe box includes: the shoe box comprises a shoe box body and a plurality of joints, wherein the joints are arranged at the corners of the shoe box body and are detachably connected with the shoe box body, and each joint is provided with a buckle structure. When the shoe box of this application piles up, be difficult to empty.

Description

Shoe box assembly and shoe box thereof

Technical Field

The utility model relates to the technical field of shoe boxes, in particular to a shoe box assembly and a shoe box thereof.

Background

Existing shoe boxes include both integrated shoe boxes and removable shoe boxes. Although the integral shoe box can bear large weight without toppling, the shoe box occupies large space and cannot be disassembled, so that space is wasted; although the detachable shoe box can be detached and saves space, the structure is not stable enough, and the shoe box is easy to topple over when stacked, thereby bringing potential safety hazards.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a shoe box assembly and a shoe box thereof, which aim to solve the technical problem that the shoe boxes are easy to topple when being stacked.

The present invention provides a shoe box comprising: the shoe box comprises a shoe box body and a plurality of joints, wherein the joints are arranged at the corners of the shoe box body and are detachably connected with the shoe box body, and each joint is provided with a buckle structure.

The shoe box body comprises four first connecting guide rails extending along a first direction, four second connecting guide rails extending along a second direction and four third connecting guide rails extending along a third direction, the four first connecting guide rails, the four second connecting guide rails and the four third connecting guide rails are overlapped through a plurality of joints to form a frame structure, and the joints are located at the corners of the frame structure; the shoe box body further comprises a bottom plate, a top plate, a left side plate, a right side plate and a rear plate, the rear plate is fixed to two second connecting guide rails and two third connecting guide rails are enclosed in a space, the left side plate and the right side plate are fixed to two first connecting guide rails and two third connecting guide rails are enclosed in the space, the bottom plate and the top plate are fixed to two first connecting guide rails and two second connecting guide rails are enclosed in the space.

Wherein, it is a plurality of the joint includes four first joints, and four first joints set up four corners of back plate, and every first joint all connects the tip of first connection guide rail, second connection guide rail, third connection guide rail.

The shoe box body further comprises a front plate, the joints are multiple and further comprise four second joints, the second joints are in one-to-one correspondence with the first joints, the second joints are corresponding to the first joints and located at two ends of the first connecting guide rail, each second joint faces the surface of the front plate, and the front plate is adsorbed on the surface of the second joints.

Wherein, the second connects the orientation be equipped with first magnetic part on the surface of front bezel, the front bezel orientation be equipped with second magnetic part on the surface that the second connects, first magnetic part with second magnetic part magnetic adsorption, so that the front bezel adsorbs on the surface that the second connects.

The diagonal line of the top plate comprises a first diagonal line, a first buckle structure is arranged on the top surface of the joint in the direction of the first diagonal line, the first buckle structure comprises a plurality of first protrusions arranged at intervals, and a first groove is formed between the first protrusions.

The diagonal line of the top plate further comprises a second diagonal line intersected with the first diagonal line, a second buckling structure is arranged on the top surface of the joint in the direction of the second diagonal line, the second buckling structure comprises a plurality of second protrusions arranged at intervals, and a second groove is formed between the second protrusions.

The second buckle structure further comprises a limiting protrusion, the limiting protrusion is arranged at the end part of the second protrusion, and the extending direction of the limiting protrusion is different from that of the second protrusion.

The first joint comprises three first sockets arranged along the first direction, the second direction and the third direction, and the first connecting guide rail, the second connecting guide rail and the third connecting guide rail are respectively inserted into the three first sockets; the second joint comprises three second sockets arranged along the first direction, the second direction and the third direction, and the first connecting guide rail, the second connecting guide rail and the third connecting guide rail are respectively inserted into the three second sockets; slots are formed in the first connecting guide rail, the second connecting guide rail and the third connecting guide rail, and the rear plate is inserted into the slots of the two second connecting guide rails and the two third connecting guide rails; the left side plate and the right side plate are inserted into the slots of the two first connecting guide rails and the two third connecting guide rails, and the bottom plate and the top plate are inserted into the slots of the two first connecting guide rails and the two second connecting guide rails.

The utility model provides a shoe box assembly which comprises a plurality of shoe boxes, wherein the shoe boxes are stacked, and the stacked shoe boxes are clamped through a clamping structure.

To sum up, this application sets up the buckle structure through set up the joint on the shoes box, when the shoes box piles up, the shoes box that piles up passes through buckle structure to be connected, and the shoes box that piles up can be connected more firmly and be difficult for empting, the potential safety hazard can not appear.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a shoe box provided by an embodiment of the utility model.

Fig. 2 is a first schematic structural diagram of the first joint.

Fig. 3 is a structural schematic diagram two of the first joint.

Fig. 4 is a first schematic structural diagram of the second joint.

Fig. 5 is a second structural schematic diagram of the second joint.

Fig. 6 is a structural schematic view of the first connecting rail.

Fig. 7-12 are assembly views of the shoe box.

Figure 13 is a schematic view of the construction of the shoe box assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a shoe box, including: the shoe box comprises a shoe box body 10 and a plurality of joints, wherein the joints are arranged at the corners of the shoe box body 10, the joints are detachably connected with the shoe box body 10, and each joint is provided with a buckle structure. It can be understood that the plurality of connectors of the present application are detachably connected to the shoe box body 10, and the shoe box is a detachable shoe box, which saves space.

In this application, through set up the joint on the shoes box, set up buckle structure on the joint, when the shoes box piles up, the shoes box that piles up passes through buckle structure to be connected, and the shoes box that piles up can be connected more firmly and be difficult for empting, the potential safety hazard can not appear.

In a specific embodiment, the shoe box body 10 includes four first connecting rails 40 extending along the first direction X, four second connecting rails 50 extending along the second direction Y, and four third connecting rails 60 extending along the third direction Z, and the four first connecting rails 40, the four second connecting rails 50, and the four third connecting rails 60 are overlapped by a plurality of joints to form a frame structure, and the plurality of joints are located at the corners of the frame structure.

The shoe box body 10 further comprises a bottom plate 70, a top plate 80, a left side plate 90, a right side plate 110 and a rear plate 120, wherein the rear plate 120 is fixed in a space enclosed by the two second connecting guide rails 50 and the two third connecting guide rails 60, the left side plate 90 and the right side plate 110 are both fixed in two spaces enclosed by the first connecting guide rails 40 and the two third connecting guide rails 60, and the bottom plate 70 and the top plate 80 are both fixed in a space enclosed by the two first connecting guide rails 40 and the two second connecting guide rails 50.

In this application, the frame structure of the shoe box is formed by overlapping the plurality of joints, the four first connecting rails 40, the four second connecting rails 50, and the four third connecting rails 60, and an accommodating space is defined by connecting the bottom plate 70, the top plate 80, the left side plate 90, the right side plate 110, and the rear plate 120 to the frame structure, and the accommodating space can accommodate shoes.

In a specific embodiment, the plurality of joints includes four first joints 20, the four first joints 20 are disposed at four corners of the rear plate 120, and each of the first joints 20 is connected to ends of the first connecting rail 40, the second connecting rail 50, and the third connecting rail 60.

In a specific embodiment, the shoe box body 10 further includes a front plate 130, the plurality of joints further includes four second joints 30, the four second joints 30 correspond to the four first joints 20 one by one, the second joints 30 and the corresponding first joints 20 are located at both ends of the first connecting rail 40, each second joint 30 includes a surface facing the front plate 130, and the front plate 130 is attached to the surface of the second joint 30.

In this application, through adsorbing front bezel 130 on the second connects 30 on the surface, realized that front bezel 130 and second connect 30 can dismantle and be connected, and then can install and dismantle front bezel 130 from the shoes box fast.

In a specific embodiment, a surface of the second joint 30 facing the front plate 130 is provided with a first magnetic member 160, a surface of the front plate 130 facing the second joint 30 is provided with a second magnetic member 170, and the first magnetic member 160 and the second magnetic member 170 are magnetically attracted, so that the front plate 130 is attracted to the surface of the second joint 30.

In this application, the front plate 130 is adsorbed on the second joint 30 by the magnetic adsorption of the first magnetic member 160 and the second magnetic member 170.

In one particular embodiment, the snap features on the top surface of the connector in the diagonal direction of the top plate 80 are identical.

Referring to fig. 2-5, in one embodiment, the diagonal line of the top plate 80 includes a first diagonal line, the first snap structure 140 is disposed on the top surface of the connector in the direction of the first diagonal line, the first snap structure 140 includes a plurality of first protrusions 1401 disposed at intervals, and a first recess 1402 is formed between adjacent first protrusions 1401. It is understood that the first protrusion 1401 and the first groove 1402 form a dovetail groove structure, and of course, the structure formed by the first protrusion 1401 and the first groove 1402 may also be a T-shaped groove, a V-shaped groove, or other shapes. The two joints on the first diagonal are the first joint 20 and the second joint 30, respectively.

In a specific embodiment, the diagonal line of the top plate 80 further includes a second diagonal line intersecting the first diagonal line, the joint top surface in the direction of the second diagonal line is provided with a second snap structure 150, the second snap structure 150 includes a plurality of second protrusions 1501 arranged at intervals, and second grooves 1502 are formed between adjacent second protrusions 1501. It is understood that the second protrusions 1501 and the second grooves 1502 form a dovetail groove structure, but the second protrusions 1501 and the second grooves 1502 can be T-shaped grooves, V-shaped grooves, and the like. The two joints on the second diagonal are the first joint 20 and the second joint 30, respectively.

It can be appreciated that when the shoe boxes are stacked, the first protrusion 1401 of the first snap structure 140 of the upper and lower shoe boxes snap into the second groove 1502 of the second snap structure 150, and the second protrusion 1501 of the second snap structure 150 snap into the first groove 1402 of the first snap structure 140.

In the present application, the first and second snap structures 140 and 150 are provided at the diagonal joint of the top plate 80, so as to facilitate the stacking and clamping of the shoe boxes.

In a specific embodiment, the second snap structure 150 further includes a limiting protrusion 1503, the limiting protrusion 1503 is disposed at an end of the second protrusion 1501, and the extending direction of the limiting protrusion 1503 is different from that of the second protrusion 1501. It is understood that the first and second snap structures 140 and 150 may be provided on both surfaces of the first connector 20 (fig. 2-3) and the first and second snap structures 140 and 150 may be provided on both surfaces of the second connector 30 (fig. 4-5).

In this application, limiting protrusion 1503 may limit the movement of first protrusion 1401 after first protrusion 1401 is snapped into second groove 1502, so that the position of each stacked shoe box will not be greatly deviated.

In a specific embodiment, the first joint 20 includes three first sockets 201 arranged along the first direction X, the second direction Y and the third direction Z, and the three first sockets 201 are respectively inserted with the first connecting rail 40, the second connecting rail 50 and the third connecting rail 60;

the second joint 30 includes three second sockets 301 arranged in the first direction X, the second direction Y, and the third direction Z, and the first connection rail 40, the second connection rail 50, and the third connection rail 60 are respectively inserted into the three second sockets 301.

In the present application, the three first sockets 201 of the first joint 20 and the three sockets of the second joint 30 realize the overlapping of the first connecting rail 40, the second connecting rail 50, and the third connecting rail 60 with the first joint 20 and the second joint 30.

In a specific embodiment, the first connecting rail 40, the second connecting rail 50 and the third connecting rail 60 are provided with slots 260, and the rear plate 120 is inserted into the slots 260 of the two second connecting rails 50 and the two third connecting rails 60; the left side plate 90 and the right side plate 110 are inserted into the slots 260 of the first connecting guide rails 40 and the two third connecting guide rails 60, and the bottom plate 70 and the top plate 80 are inserted into the slots 260 of the two first connecting guide rails 40 and the two second connecting guide rails 50. Fig. 6 shows the first connection rail 40 and the slot 260 on the first connection rail 40.

In this application, through set up slot 260 on first connection guide rail 40, second connection guide rail 50 and third connection guide rail 60, the dismantlement of back plate 120 and second connection guide rail 50 and third connection guide rail 60 is connected, left side plate 90 has been realized, the dismantlement of right side plate 110 and first connection guide rail 40 and third connection guide rail 60 is connected, bottom plate 70 has been realized, roof 80 is connected with the dismantlement of first connection guide rail 40 and second connection guide rail 50. Thus, the shoe box body 10 of the present application is a detachably connected structure.

The installation process of the shoe box will be described as follows.

During installation, the two first joints 20 are taken out, the first connecting rail 40 and the first second connecting rail 50 are respectively inserted into the first sockets 201 of the first joint 20 extending along the first direction X and the second direction Y (fig. 7), the other end of the first second connecting rail 50 is inserted into the first socket 201 of the second first joint 20 extending along the second direction Y, the second first connecting rail 40 is inserted into the first socket 201 of the second first joint 20 extending along the first direction X, and the top plate 80 is inserted along the slots 260 of the two first connecting rails 40 (fig. 8), so that the top plate 80 is inserted into the slots 260 of the second connecting rail 50; the two second connectors 30 are removed again, the second sockets 301 are inserted into the two first connecting rails 40, respectively, and then the second connecting rail 50 is inserted between the two second connectors 30 (fig. 9). The frame of the top plate 80 is thus assembled. Similarly, the chassis 70 frame can be assembled using the same method.

Then, the four third connecting rails 60 are taken out and inserted into the first inserting holes 201 of the two first connectors 20 extending along the third direction Z and the second inserting holes 301 of the two second connectors 30 extending along the third direction Z; inserting the left side plate 90, the right side plate 110 and the rear plate 120 into the slots 260 of the two corresponding third connecting rails 60 (fig. 10); the assembled chassis 70 frame is mounted on the four third connecting rails 60 by means of two first joints 20 and two second joints 30 on the chassis 70 frame (fig. 11).

The front plate 130 is removed, and the front plate 130 is magnetically attached to the second joint 30 (fig. 12). Thus, a completed shoe box assembly is completed.

Referring to fig. 13, when the shoe boxes are stacked, the first protrusion 1401 on the upper shoe box connector is engaged with the first groove 1402 on the lower shoe box connector, the first groove 1402 on the upper shoe box connector is engaged with the second protrusion 1501 on the lower shoe box connector, and the first protrusion 1401 is pushed to the position of the limiting protrusion 1503, thereby completing the stacking of the shoe boxes. Therefore, the upper and lower layers of shoe boxes are locked tightly, the shoe boxes are stacked stably, and the safety accident of collapse can not happen. Moreover, even if the multi-layer shoe boxes are stacked, the multi-layer shoe boxes can be stably stacked, and the safety accident of collapse cannot happen.

Referring to fig. 13, the present application further provides a shoe box assembly, which includes a plurality of the above shoe boxes, wherein the plurality of shoe boxes are stacked, and the stacked shoe boxes are clamped by a clamping structure.

It will be appreciated that first projection 1401 on the upper shoe box connector snaps into first recess 1402 on the lower shoe box connector, and first recess 1402 on the upper shoe box connector snaps into second projection 1501 on the lower shoe box connector. The shoes box of upper and lower floor passes through the mutual joint of buckle structure. The shoe box assembly is stable and firm in structure, easy to install, easy to detach and not prone to toppling.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. A shoe box, comprising: the shoe box comprises a shoe box body and a plurality of joints, wherein the joints are arranged at the corners of the shoe box body and are detachably connected with the shoe box body, and each joint is provided with a buckle structure.

2. The shoe box of claim 1 wherein said shoe box body includes four first connecting rails extending in a first direction, four second connecting rails extending in a second direction, and four third connecting rails extending in a third direction, said four first connecting rails, said four second connecting rails, and said four third connecting rails overlapping with a plurality of said joints to form a frame structure, said joints being located at corners of said frame structure;

the shoe box body further comprises a bottom plate, a top plate, a left side plate, a right side plate and a rear plate, the rear plate is fixed to two second connecting guide rails and two third connecting guide rails are enclosed in a space, the left side plate and the right side plate are fixed to two first connecting guide rails and two third connecting guide rails are enclosed in the space, the bottom plate and the top plate are fixed to two first connecting guide rails and two second connecting guide rails are enclosed in the space.

3. The shoe box of claim 2 wherein said plurality of joints includes four first joints, four of said first joints being disposed at four corners of said rear panel, and each of said first joints connecting ends of a first connecting rail, a second connecting rail, and a third connecting rail.

4. The shoe box of claim 3 wherein said shoe box body further comprises a front plate, said plurality of joints further comprises four second joints, four of said second joints corresponding one-to-one to four of said first joints, said second joints and corresponding said first joints being located at opposite ends of said first connecting rail, each of said second joints comprising a surface facing said front plate, said front plate being attached to a surface of said second joint.

5. The shoe box of claim 4, wherein a first magnetic member is disposed on a surface of the second joint facing the front plate, a second magnetic member is disposed on a surface of the front plate facing the second joint, and the first magnetic member and the second magnetic member are magnetically attracted to attract each other, so that the front plate is attracted to the surface of the second joint.

6. The shoe box of claim 2 wherein the diagonal of said top plate comprises a first diagonal, and wherein said first diagonal has a first snap feature on a top surface of said connector, said first snap feature comprising a plurality of first spaced protrusions, and wherein adjacent ones of said first protrusions define first recesses therebetween.

7. The shoe box of claim 6 wherein said diagonal of said top plate further comprises a second diagonal intersecting said first diagonal, said second diagonal having a second snap feature on a top surface of said connector, said second snap feature comprising a plurality of spaced second protrusions, adjacent ones of said second protrusions defining second recesses therebetween.

8. The shoe box of claim 7, wherein the second snap structure further comprises a limiting protrusion, the limiting protrusion is disposed at an end of the second protrusion, and the extending direction of the limiting protrusion is different from the extending direction of the second protrusion.

9. The shoe box of claim 4 wherein said first connector comprises three first sockets disposed along said first direction, said second direction and said third direction, said three first sockets having said first connecting rail, said second connecting rail and said third connecting rail inserted therein, respectively;

the second joint comprises three second sockets arranged along the first direction, the second direction and the third direction, and the first connecting guide rail, the second connecting guide rail and the third connecting guide rail are respectively inserted into the three second sockets;

slots are formed in the first connecting guide rail, the second connecting guide rail and the third connecting guide rail, and the rear plate is inserted into the slots of the two second connecting guide rails and the two third connecting guide rails; the left side plate and the right side plate are inserted into the slots of the two first connecting guide rails and the two third connecting guide rails, and the bottom plate and the top plate are inserted into the slots of the two first connecting guide rails and the two second connecting guide rails.

10. A shoe box assembly comprising a plurality of shoe boxes according to any of claims 1 to 9, a plurality of said shoe boxes being arranged in a stack, said shoe boxes in the stack being snap-fitted by said snap-fit arrangement.

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