MULTI-SHAPE COMBINED DETACHABLE SANDBOX

Abstract

Disclosed is a multi-shape combined detachable sandbox, including an upper shell and a lower shell. The detachable upper shell is arranged above the lower shell. A cavity is formed inside the lower shell. The lower shell is formed by splicing a plurality of connecting plate assemblies to form various combinations. The present disclosure has the following beneficial effects: a connector is connected to a first connecting plate, a second connecting plate, a third connecting plate, a fourth connecting plate, a fifth connecting plate and a sixth connecting plate, and a first upper shell connecting plate, a second upper shell connecting plate, a third upper shell connecting plate, and a fourth upper shell connecting plate to form various combinations of the upper shell and the lower shell. The present disclosure features simple structure, diverse changes, flexible combination and proper and simple use, and has better promotion and application.

Claims

1-17. (canceled)

18. A multi-shape combined detachable sandbox, comprising an upper shell and a lower shell, wherein the lower shell is provided a detachable upper shell; a cavity is formed inside the lower shell, and the lower shell is formed by splicing a plurality of connecting plate into various combinations; wherein the lower shell comprises a first connecting plate, a second connecting plate, a third connecting plate, a fourth connecting plate, a fifth connecting plate, a sixth connecting plate; a plurality of positioning columns are arranged on the edge of one side of the first connecting plate, and a plurality of through holes are formed on the edge of the other side of the first connecting plate; through holes matching the positioning columns on the edge of one side of the first connecting plate are formed on the edge of one side of the second connecting plate; the through holes on the edge of one side of the second connecting plate are embedded into the positioning columns on the edge of one side of the first connecting plate, and the second connecting plate is fixedly spliced to the first connecting plate; a plurality of positioning columns are arranged on the edge of the other side of the second connecting plate; through holes matching the positioning columns on the edge of the other side of the second connecting plate are formed on one edge of one side of the third connecting plate, wherein the through holes in the edge of one side of the third connecting plate are embedded into the positioning columns on the edge of the other side of the second connecting plate, and the third connecting plate is fixedly spliced to the second connecting plate; a plurality of positioning columns are arranged on the edge of the other side of the third connecting plate; through holes matching the positioning columns on the edge of the other side of the third connecting plate are formed on one edge of one side of the fourth connecting plate, wherein the through holes on the edge of one side of the fourth connecting plate are embedded into the positioning columns on the edge of the other side of the third connecting plate, and the fourth connecting plate is fixedly spliced to the third connecting plate; and the first, second, third and fourth connecting plate are spliced to form a circular configuration, and the center of the circle is connected to form an integrated lower shell through a connecting piece, the fifth connecting plate is arranged between the front ends of the first connecting plate and the fourth connecting plate, and the sixth connecting plate is arranged between rear ends of the second connecting plate and the third connecting plate; The multi-shape combined detachable sandbox according to claim 18, wherein the upper shell is formed by splicing a plurality of upper shell connecting plates into various combinations. wherein the upper shell comprises a first upper shell connecting plate, a second upper shell connecting plate, a third upper shell connecting plate, a fourth upper shell connecting plate; a plurality of upper shell latches are arranged on the inner edge of one side of the first upper shell connecting plate, through holes matching the upper shell latches on the inner edge of one side of the first upper shell connecting plate are formed on the inner edge of one side of the second upper shell connecting plate, wherein the upper shell latches on the inner edge of one side of the first upper shell connecting plate are embedded into the upper shell through holes on the inner edge of one side of the second upper shell connecting plate, and the first upper shell connecting plate is fixedly spliced to the second upper shell connecting plate; and a plurality of upper shell through holes are formed on the inner edge of the other side of the first upper shell connecting plate; a plurality of upper shell latches are arranged on the inner edge of the other side of the second upper shell connecting plate, upper shell through holes matching with the upper shell latches on the inner edge of one side of the second upper shell connecting plate are formed on the inner edge of one side of the third upper shell connecting plate, wherein the upper shell latches on the inner edge of the other side of the second upper shell connecting plate are embedded into the upper shell through holes on the inner edge of one side of the third upper shell connecting plate, and the second upper shell connecting plate is fixedly spliced on the third upper shell connecting plate; a plurality of upper shell latches are arranged on the inner edge of the other side of the third upper shell connecting plate, upper shell through holes matching the upper shell latches on the inner edge of one side of the third upper shell connecting plate are formed on the inner edge of one side of the fourth upper shell connecting plate, wherein the upper shell latches at the inner edge of the other side of the third upper shell connecting plate are embedded into the upper shell through holes on the inner edge of one side of the fourth upper shell connecting plate, and the third upper shell connecting plate is fixedly spliced to the fourth upper shell connecting plate; a plurality of upper shell latches are arranged on the inner edge of the other side of the fourth upper shell connecting plate, the upper shell latches on the inner edge of the other side of the fourth upper shell connecting plate are embedded into the upper shell through holes on the inner edge of the other side of the first upper shell connecting plate, and the fourth upper shell connecting plate is fixedly spliced to the first upper shell connecting plate; and a plurality of latch holes are formed inside the upper shell connecting plate connector, and the upper shell latches of the first shell connecting plate, the second shell connecting plate, the third shell connecting plate, and the fourth shell connecting plate are inserted into the latch holes inside the upper shell connecting plate connector to be spliced together, thereby forming an integral upper shell.

19. The multi-shape combined detachable sandbox according to claim 18, wherein a clamping strip is arranged at the rear end of the fifth connecting plate, bumps are arranged at the front ends of the first connecting plate and the fourth connecting plate, and the clamping strip at the rear end of the fifth connecting plate interlocks with the bumps at the front ends of the first connecting plate and the fourth connecting plate.

20. The multi-shape combined detachable sandbox according to claim 18, wherein a clamping strip is arranged at a front end of the sixth connecting plate, bumps are arranged at the back ends of the second connecting plate and the third connecting plate, and the clamping strip at the front end of the sixth connecting plate interlocks with the bumps at the rear ends of the second connecting plate and the third connecting plate.

21. The multi-shape combined detachable sandbox according to claim 18, wherein supporting foot pedestals are arranged on outer side walls of the first connecting plate, the second connecting plate, the third connecting plate, and the fourth connecting plate.

22. The multi-shape combined detachable sandbox according to claim 21, wherein the supporting foot pedestals comprise lower supporting foot pedestals, upper supporting foot pedestals, and locking columns, the upper supporting foot pedestals are arranged above the lower supporting foot pedestals, the upper supporting foot pedestals are respectively located on the outer side walls of the first connecting plate, the second connecting plate, the third connecting plate, and the fourth connecting plate, and the upper supporting foot pedestals are locked on the lower supporting foot pedestals through the locking columns. (Refer to FIGS. 5 and 6)

23. The multi-shape combined detachable sandbox according to claim 22, wherein the upper supporting foot pedestals are integrally formed with the first connecting plate, the second connecting plate, the third connecting plate, and the fourth connecting plate, respectively. (Refer to FIGS. 5 and 6)

Description

BRIEF DESCRIPTION OF FIGURES

[0024] FIG. 1 is a schematic structural diagram of a multi-shape combined detachable sandbox of the present disclosure;

[0025] FIG. 2 is an exploded schematic structural diagram of a multi-shape combined detachable sandbox of the present disclosure;

[0026] FIG. 3 is a schematic structural diagram of an upper shell of the present disclosure;

[0027] FIG. 4 is an exploded schematic diagram of an upper shell of the present disclosure;

[0028] FIG. 5 is a schematic structural diagram of a lower shell of the present disclosure; and

[0029] FIG. 6 is an exploded schematic diagram of a lower shell of the present disclosure.

[0030] Reference numerals: 1, upper shell; 101, first upper shell connecting plate; 102, second upper shell connecting plate; 103, third upper shell connecting plate; 104, fourth upper shell connecting plate; 105, upper shell connecting plate connector; 1050, latch holes; 106, upper shell latch; 107, upper shell through hole; 2, lower shell; 21, cavity; 22, connecting plate assembly; 220, first connecting plate; 221, second connecting plate; 222, third connecting plate; 223, fourth connecting plate; 224, fifth connecting plate; 225, sixth connecting plate; 226, connector; 227, positioning column; 228, through hole; 229, clamping strip; 230, bump; 231, supporting foot pedestal; 2310, upper supporting foot pedestal; 2311, lower supporting foot pedestal; and 2312, locking column.

DETAILED DESCRIPTION

[0031] Unless otherwise defined, all technical and scientific terms used herein are the same with meaning usually understood by persons skilled in the art of the present application. The terms used in the description of the present application are merely to describe specific embodiments rather than limiting the present application. The terms include and have and any transformation thereof in the description, claims, and drawings of the present application are intended to cover non-exclusive inclusion. The terms first, second and the like in the specification and claims or drawings of the present application are used to distinguish different objects, rather than describing a specific order.

[0032] The embodiments in the present application mean that specific features, structure or characteristics described in combination with the embodiments may be included in at least one embodiment of the present application. The phrase appearing at each position of the description does not necessarily indicate the same embodiment and it is not an exclusively independent or alternative embodiment of other embodiments. Persons skilled in the art explicitly and implicitly understand that the embodiments described herein may combine with other embodiments.

[0033] Referring to FIGS. 1-6, an embodiment of the present disclosure provides a multi-shape combined detachable sandbox, including an upper shell 1 and a lower shell 2, where the detachable upper shell 1 is arranged above the lower shell 2, a cavity 21 is formed inside the lower shell 2, and the lower shell 2 is formed by splicing a plurality of connecting plate assemblies 22 to form various combinations.

[0034] Preferably, each of the connecting plate assemblies 22 includes a first connecting plate 220, a second connecting plate 221, a third connecting plate 222, a fourth connecting plate 223, a fifth connecting plate 224, a sixth connecting plate 225, and a connector 226; [0035] a plurality of positioning columns 227 are arranged at an edge of one side of the first connecting plate 220, a plurality of through holes 228 are formed in an edge of the other side of the first connecting plate 220, through holes 228 matching with the positioning columns at the edge of one side of the first connecting plate 220 are formed in an edge of one side of the second connecting plate 221, the through holes 228 in the edge of one side of the second connecting plate 221 are embedded into the positioning columns 227 at the edge of one side of the first connecting plate 220, and the second connecting plate 221 is fixedly spliced to the first connecting plate 220 through a nut; [0036] a plurality of positioning columns 227 are arranged at an edge of the other side of the second connecting plate 221, through holes 228 matching with the positioning columns at the edge of the other side of the second connecting plate 221 are formed in an edge of one side of the third connecting plate 222, the through holes 228 in the edge of one side of the third connecting plate 222 are embedded into the positioning columns 227 at the edge of the other side of the second connecting plate 221, and the third connecting plate 222 is fixedly spliced to the second connecting plate 221 through a nut; [0037] a plurality of positioning columns 227 are arranged at an edge of the other side of the third connecting plate 222, through holes 228 matching with the positioning columns at the edge of the other side of the third connecting plate 222 are formed in an edge of one side of the fourth connecting plate 223, the through holes 228 in the edge of one side of the fourth connecting plate 223 are embedded into the positioning columns 227 at the edge of the other side of the third connecting plate 222, and the fourth connecting plate 223 is fixedly spliced to the third connecting plate 222 through a nut; and [0038] the first connecting plate 220, the second connecting plate 221, the third connecting plate 222, and the fourth connecting plate 223 are spliced and combined together through the connector 226 to form an integral lower shell 2, the fifth connecting plate 224 is arranged between front ends of the first connecting plate 220 and the fourth connecting plate 223, and the sixth connecting plate 225 is arranged between back ends of the second connecting plate 221 and the third connecting plate 222.

[0039] Preferably, a clamping strip 229 is arranged at a back end of the fifth connecting plate 224, bumps 230 are arranged at the front ends of the first connecting plate 220 and the fourth connecting plate 223, and the clamping strip 229 at the back end of the fifth connecting plate 224 clamps the bumps 230 at the front ends of the first connecting plate 220 and the fourth connecting plate 223 and buckles the bumps in a seamless splicing manner.

[0040] Preferably, a clamping strip 229 is arranged at a front end of the sixth connecting plate 225, bumps 230 are arranged at the back ends of the second connecting plate 221 and the third connecting plate 222, and the clamping strip 229 at the front end of the sixth connecting plate 225 clamps the bumps 230 at the back ends of the second connecting plate 221 and the third connecting plate 222 and buckles the bumps in a seamless splicing manner.

[0041] Preferably, supporting foot pedestals 231 are arranged on outer side walls of the first connecting plate 220, the second connecting plate 221, the third connecting plate 222, and the fourth connecting plate 223.

[0042] Preferably, the supporting foot pedestals 231 include lower supporting foot pedestals 2310, upper supporting foot pedestals 2311, and locking columns 2312, the upper supporting foot pedestals 2311 are arranged above the lower supporting foot pedestals 2310, the upper supporting foot pedestals 2311 are respectively located on the outer side walls of the first connecting plate 220, the second connecting plate 221, the third connecting plate 222, and the fourth connecting plate 223, and the upper supporting foot pedestals 2311 are locked on the lower supporting foot pedestals 2310 through the locking columns 2312.

[0043] Preferably, the upper supporting foot pedestals 2311 are integrally formed with the first connecting plate 220, the second connecting plate 221, the third connecting plate 222, and the fourth connecting plate 223, respectively.

[0044] Preferably, the upper shell 11 is formed by splicing a plurality of upper shell connecting plate assemblies to form various combinations.

[0045] Preferably, each of the upper shell connecting plate assemblies includes a first upper shell connecting plate 101, a second upper shell connecting plate 102, a third upper shell connecting plate 103, a fourth upper shell connecting plate 104, and an upper shell connecting plate connector 105; [0046] a plurality of upper shell latches 106 are arranged at an inner edge of one side of the first upper shell connecting plate 101, upper shell through holes 107 matching with the upper shell latches at the inner edge of one side of the first upper shell connecting plate 101 are formed in an inner edge of one side of the second upper shell connecting plate 102, the upper shell latches 106 at the inner edge of one side of the first upper shell connecting plate 101 are embedded into the upper shell through holes 107 in the inner edge of one side of the second upper shell connecting plate 102, and the first upper shell connecting plate 101 is fixedly spliced on the second upper shell connecting plate 102; and a plurality of upper shell through holes 107 are formed in an inner edge of the other side of the first upper shell connecting plate 101; [0047] a plurality of upper shell latches 106 are arranged at an inner edge of the other side of the second upper shell connecting plate 102, upper shell through holes 107 matching with the upper shell latches 106 at the inner edge of one side of the second upper shell connecting plate 102 are formed in an inner edge of one side of the third upper shell connecting plate 103, the upper shell latches 106 at the inner edge of the other side of the second upper shell connecting plate 102 are embedded into the upper shell through holes 107 in the inner edge of one side of the third upper shell connecting plate 103, and the second upper shell connecting plate 102 is fixedly spliced on the third upper shell connecting plate 103; [0048] a plurality of upper shell latches 106 are arranged at an inner edge of the other side of the third upper shell connecting plate 103, upper shell through holes 107 matching with the upper shell latches 106 at the inner edge of one side of the third upper shell connecting plate 103 are formed in an inner edge of one side of the fourth upper shell connecting plate 104, the upper shell latches 106 at the inner edge of the other side of the third upper shell connecting plate 103 are embedded into the upper shell through holes 107 in the inner edge of one side of the fourth upper shell connecting plate 104, and the third upper shell connecting plate 103 is fixedly spliced on the fourth upper shell connecting plate 104; [0049] a plurality of upper shell latches 106 are arranged at an inner edge of the other side of the fourth upper shell connecting plate 104, the upper shell latches 106 at the inner edge of the other side of the fourth upper shell connecting plate 104 are embedded into the upper shell through holes 107 in the inner edge of the other side of the first upper shell connecting plate 101, and the fourth upper shell connecting plate 104 is fixedly spliced on the first upper shell connecting plate 101; and [0050] a plurality of latch holes 1050 are formed inside the upper shell connecting plate connector 105, and the upper shell latches 106 of the first shell connecting plate 101, the second shell connecting plate 102, the third shell connecting plate 103, and the fourth shell connecting plate 104 are inserted into the latch holes 1050 inside the upper shell connecting plate connector 105 to be spliced and combined together so as to form an integral upper shell 1.

[0051] The technical principle of the present disclosure is described above in combination with specific embodiments, and what are described above are merely preferred implementations of the present disclosure. The scope of protection of the present disclosure is not limited to the above embodiments, and all technical solutions following the idea of the present disclosure fall within the scope of protection of the present disclosure. Persons skilled in the art may be associated with other specific implementations of the present disclosure without making creative efforts, and these implementations shall fall into the scope of protection of the present disclosure.