CN214711709U

CN214711709U - Extensible concatenation combination show structure

Info

Publication number: CN214711709U
Application number: CN202120337144.1U
Authority: CN
Inventors: 俞健
Original assignee: Shanghai Hujian Creative Design Co ltd
Current assignee: Shanghai Hujian Creative Design Co ltd
Priority date: 2021-02-06
Filing date: 2021-02-06
Publication date: 2021-11-16
Anticipated expiration: 2031-02-06

Abstract

The utility model discloses an extensible splicing combination display structure, which comprises a plurality of rectangular splicing plates which can be spliced and connected with each other, wherein each splicing plate comprises a front surface, a back surface and a side surface, and the splicing plates are mutually matched and spliced through positioning columns and positioning holes which are arranged on the splicing plates; the splicing plates comprise an A plate, a B plate and a C plate, the A plate, the B plate and the C plate are arranged in pairs and are perpendicular to each other to form a splicing unit, and the splicing unit occupies three faces of a cuboid which are perpendicular to each other in pairs; a plurality of the splicing units can be correspondingly spliced and expanded along the direction perpendicular to the A plate or the C plate. The utility model discloses A board, B board and C board are two liang mutually perpendicular through reference column and locating hole and form a concatenation unit, splice the extension in side, top or below through the reference column and the locating hole that match between a plurality of concatenation units; realizing free expansion of the splicing units; the detachable design can be disassembled to be convenient for storage and transportation when not in use.

Description

Extensible concatenation combination show structure

Technical Field

The utility model relates to a show structure especially relates to an extensible concatenation combination show structure.

Background

With the improvement of physical level and mental level of people, most families only need one child, and parents are busy with work, so that the children play few companions, and generally take toys as companions, and the toys play more and more important roles in our lives.

At present, toys are generally displayed on a display stand or in a display cabinet; the display stand is placed on a display stand, and cannot be stacked in the vertical direction, so that space is wasted; the toy is placed in a display cabinet, the display cabinet is usually of a fixed structure and cannot be adjusted according to the number of the toys, so that the display effect of the toys is limited; particularly for display of sets of multiple-component toys. In addition, for occasions such as exhibitions, the fixed show shelf is inconvenient to transport due to the fact that the fixed show shelf needs to be stored and transported after being displayed. Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an extensible concatenation combination show structure is provided, can splice the show structure that the combination obtains the matching according to the demand, can dismantle when not using, conveniently accomodate and transport.

The utility model adopts the technical scheme of solving the technical problems that an extensible splicing combination display structure is provided, which comprises a plurality of rectangular splicing plates which can be spliced and connected mutually, each splicing plate comprises a front surface, a back surface and a side surface, and the splicing plates are mutually matched and spliced through positioning columns and positioning holes arranged on the splicing plates; the splicing plates comprise an A plate, a B plate and a C plate, the A plate, the B plate and the C plate are arranged in pairs and are perpendicular to each other to form a splicing unit, and the splicing unit occupies three faces of a cuboid which are perpendicular to each other in pairs; a plurality of the splicing units can be correspondingly spliced and expanded along the direction perpendicular to the A plate or the C plate.

Further, the side surfaces of the splice plates comprise a first side surface, a second side surface, a third side plate and a fourth side surface; at least two first positioning holes are formed in one side, close to the third side face of the plate A, of the front face of the plate A, at least two second positioning holes are formed in one side, close to the third side face of the plate A, of the back face of the plate A, and the first positioning holes and the second positioning holes are arranged in a staggered mode on a straight line.

Furthermore, a first positioning column matched with the first positioning hole is arranged on the first side face of the plate B; and a second positioning column matched with the second positioning hole is arranged on the third side surface of the plate B.

Furthermore, at least two third positioning holes are formed in one side, close to the second side face of the C plate, of the front face of the C plate, at least two fourth positioning holes are formed in one side, close to the second side face of the C plate, of the back face of the C plate, and the third positioning holes and the fourth positioning holes are arranged in a staggered mode on the same straight line.

Furthermore, a third positioning column matched with the third positioning hole is arranged on the fourth side face of the A plate; and a fourth positioning column matched with the fourth positioning hole is arranged on the second side surface of the A plate.

Furthermore, at least two fifth positioning holes are formed in one side, close to the third side face of the C plate, of the front face of the C plate, at least two sixth positioning holes are formed in one side, close to the third side face of the C plate, of the back face of the C plate, and the fifth positioning holes and the sixth positioning holes are arranged in a staggered mode on the same straight line.

Furthermore, a fifth positioning column matched with a fifth positioning hole is arranged on the fourth side face of the plate B; and a sixth positioning column matched with the sixth positioning hole is arranged on the second side surface of the plate B.

Furthermore, a seventh positioning hole is formed in the second side surface of the C plate, the seventh positioning hole is arranged in a staggered manner with the third positioning hole and the fourth positioning hole, and a seventh positioning column matched with the seventh positioning hole is arranged on the fourth side surface of the C plate.

Further, the locating hole is hexagonal hole, locating hole entrance is provided with oblique chamfer.

Furthermore, the positioning column is a circular column, and an oblique chamfer is arranged at the joint of the positioning column and the splicing plate; the side of the positioning column is provided with an opening, and the positioning column is of a hollow structure.

The utility model discloses contrast prior art has following beneficial effect: the utility model provides an extensible concatenation combination show structure, A board, B board and C board form a concatenation unit through reference column and locating hole two liang mutually perpendicular, splice the extension in side, top or below through the reference column and the locating hole that match between a plurality of concatenation units; the splicing units can be freely expanded, an integral display structure can be arranged as required, the layout is more reasonable, and the appearance is more attractive visually; the detachable design can be disassembled to be convenient for storage and transportation when not in use.

Drawings

Fig. 1 is a schematic diagram of splitting a splicing unit according to an embodiment of the present invention;

fig. 2 is a schematic view of another angle of the split joint unit according to the embodiment of the present invention;

fig. 3 is an expanded schematic view of the splicing unit of the embodiment of the present invention, which is perpendicular to the direction of the a plate;

fig. 4 is the extension schematic diagram of the splicing unit perpendicular to the C-plate direction in the embodiment of the present invention.

In the figure:

100. a, a plate; 101. the front surface of the plate A; 102. the back of the A plate; 103. a first side of the A plate; 104. a second side of the A plate; 105. a third side of the A plate; 106. a fourth side of the A plate; 107. a first positioning hole; 108. a second positioning hole; 109. a third positioning column; 110. a fourth positioning column;

200. b, plate; 201. the front surface of the board B; 202. the back of the board B; 203. a first side of the B plate; 204. a second side of the B plate; 205. a third side of the B plate; 206. a fourth side of the B plate; 207. a first positioning post; 208. a second positioning column; 209. a fifth positioning column; 210. a sixth positioning column;

300. c, plate; 301. the front surface of the plate C; 302. the back of the plate C; 303. a first side of the C plate; 304. a second side of the C plate; 305. a third side of the C plate; 306. a fourth side of the C plate; 307. a third positioning hole; 308. a fourth positioning hole; 309. a fifth positioning hole; 310. a sixth positioning hole; 311. a seventh positioning hole; 312. and a seventh positioning column.

Detailed Description

The invention is further described with reference to the following figures and examples.

Fig. 1 is a schematic diagram of splitting a splicing unit according to an embodiment of the present invention; fig. 2 is the embodiment of the present invention, which schematically illustrates the split of the splicing unit at another angle.

Referring to fig. 1 and 2, an extensible splicing combination display structure according to an embodiment of the present invention includes a plurality of rectangular splicing plates that are connected to each other in a splicing manner, each of the splicing plates includes a front surface, a back surface and a side surface, and the splicing plates are connected to each other in a matching manner through positioning columns and positioning holes provided on the splicing plates; the splicing plates comprise an A plate 100, a B plate 200 and a C plate 300, wherein the A plate 100, the B plate 200 and the C plate 300 are arranged in a pairwise and mutually perpendicular mode to form a splicing unit, and the splicing unit occupies three faces of a cuboid which are mutually perpendicular in a pairwise mode; a plurality of the splicing units can be correspondingly spliced and expanded along the direction perpendicular to the A plate 100 or the C plate 300. The expansion of two sides and up-and-down direction in the vertical plane is realized. The side surfaces of the splice plate include a first side surface, a second side surface, a third side plate and a fourth side surface.

Specifically, at least two first positioning holes 107 are disposed on the side of the a plate front 101 close to the a plate third side 105, at least two second positioning holes 108 are disposed on the side of the a plate back 102 close to the a plate third side 105, and the first positioning holes 107 and the second positioning holes 108 are staggered on a straight line. Because the thickness of the splicing plate is limited, the positioning holes positioned on the same side are arranged in a staggered manner, the depth of the positioning holes is ensured, and the splicing reliability is ensured. The first side 203 of the B plate is provided with a first positioning column 207 matched with the first positioning hole 107, and the first side 203 of the B plate can be connected to one side of the front 101 of the a plate close to the third side 105 of the a plate; the B plate third side 205 is provided with a second positioning column 208 matching the second positioning hole 108, and the B plate third side 205 can be connected to the side of the a plate back 102 close to the a plate third side 105. And splicing the plate A and the plate B. The first side 103 of the a plate is a smooth surface and the first side 103 of the a plate is a display surface.

Specifically, at least two third positioning holes 307 are disposed on a side of the C plate front surface 301 close to the C plate second side surface 304, at least two fourth positioning holes 308 are disposed on a side of the C plate back surface 302 close to the C plate second side surface 304, and the third positioning holes 307 and the fourth positioning holes 308 are staggered on a straight line. The fourth side 106 of the a plate is provided with a third positioning column 109 matched with the third positioning hole 307, and the fourth side 106 of the a plate can be connected to the side of the front 301 of the C plate close to the second side 304 of the C plate; the second side 104 of the a board is provided with a fourth positioning post 110 matching with the fourth positioning hole 308, and the second side 104 of the a board can be connected to the side of the back 302 of the C board close to the second side 304 of the C board. And splicing the plate A and the plate C. The first side 303 of the C plate is a smooth surface and the first side 303 of the C plate is a display surface.

Specifically, at least two fifth positioning holes 309 are disposed on a side of the C-plate front surface 301 close to the C-plate third side surface 305, at least two sixth positioning holes 310 are disposed on a side of the C-plate back surface 302 close to the C-plate third side surface 305, and the fifth positioning holes 309 and the sixth positioning holes 310 are arranged in a staggered manner in a straight line. The fourth side 206 of the B plate is provided with a fifth positioning post 209 matched with the fifth positioning hole 309, and the fourth side 206 of the B plate can be connected to one side of the front 301 of the C plate close to the third side 305 of the C plate; the B plate second side 204 is provided with a sixth positioning post 210 matching with the sixth positioning hole 310, and the B plate second side 204 can be connected to the side of the C plate back 302 close to the C plate third side 305. And splicing the plate B and the plate C. The front side 201 of the B plate and the back side 202 of the B plate are smooth and flat.

Specifically, the C plate second side 304 is provided with a seventh positioning hole 311, the seventh positioning hole 311 is disposed in a staggered manner with respect to the third positioning hole 307 and the fourth positioning hole 308, the C plate fourth side 306 is provided with a seventh positioning post 312 matched with the seventh positioning hole 311, and the C plate second side 304 can be connected to the C plate fourth side 306 of the adjacent C plate 300. And splicing the C plate and the C plate.

Please refer to fig. 3 and fig. 4 simultaneously, the embodiment of the present invention provides an extensible splicing combination display structure, which is formed by splicing and extending a plurality of splicing units at the side, above or below. Meanwhile, the splicing unit seals the opposite side of the original A plate 100 of the splicing unit by inserting one A plate 100, and the splicing unit seals the opposite side of the original C plate 300 of the splicing unit by inserting one C plate 300.

Preferably, the positioning hole is a hexagonal hole, the positioning column is a circular column, and after the positioning column is inserted into the positioning hole, only the centers of six sides of the positioning hole are in contact with the positioning column, but not in surface-to-surface contact, so that the problem that the positioning hole is too tight to assemble and is difficult to disassemble is prevented; the locating hole entrance is provided with oblique chamfer, and the oblique chamfer of entrance makes things convenient for the reference column to insert to the effect of a direction of reference column.

Preferably, an oblique chamfer is arranged at the joint of the positioning column and the splicing plate, so that the strength of the positioning column is enhanced; the side face of the positioning column is provided with an opening, the positioning column is of a hollow structure, and the surface of the positioning column is prevented from shrinking while the positioning column is conveniently demoulded.

To sum up, in the expandable splicing combined display structure of the embodiment of the present invention, the a plate 100, the B plate 200, and the C plate 300 are mutually perpendicular to each other two by two through the positioning columns and the positioning holes to form a splicing unit, and the multiple splicing units are spliced and expanded at the side, above, or below through the matched positioning columns and positioning holes; the splicing units can be freely expanded, an integral display structure can be arranged as required, the layout is more reasonable, and the appearance is more attractive visually; the detachable design can be disassembled to be convenient for storage and transportation when not in use.

Although the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An extensible splicing combination display structure is characterized by comprising a plurality of rectangular splicing plates which can be spliced and connected with each other, wherein each splicing plate comprises a front surface, a back surface and a side surface, and the splicing plates are mutually matched and spliced through positioning columns and positioning holes which are arranged on the splicing plates; the splicing plates comprise an A plate (100), a B plate (200) and a C plate (300), wherein every two of the A plate (100), the B plate (200) and the C plate (300) are mutually perpendicular to form a splicing unit, and the splicing unit occupies three mutually perpendicular faces of a cuboid; a plurality of splicing units can be correspondingly spliced and expanded along the direction perpendicular to the A plate (100) or the C plate (300).

2. The scalable, tiled, modular display structure of claim 1, wherein the sides of the tiles comprise a first side, a second side, a third side, and a fourth side; the side, close to the third side face (105) of the A plate, of the front face (101) of the A plate is provided with at least two first positioning holes (107), the side, close to the third side face (105) of the A plate, of the back face (102) of the A plate is provided with at least two second positioning holes (108), and the first positioning holes (107) and the second positioning holes (108) are arranged in a staggered mode on the same straight line.

3. The expandable tiled modular display structure according to claim 2, wherein the B-plate first side (203) is provided with a first positioning post (207) matching the first positioning hole (107); and a second positioning column (208) matched with the second positioning hole (108) is arranged on the third side surface (205) of the B plate.

4. The expandable splicing display structure of claim 2, wherein the side of the front surface (301) of the C-plate adjacent to the second side surface (304) of the C-plate is provided with at least two third positioning holes (307), the side of the back surface (302) of the C-plate adjacent to the second side surface (304) of the C-plate is provided with at least two fourth positioning holes (308), and the third positioning holes (307) and the fourth positioning holes (308) are arranged in a staggered manner in a straight line.

5. The expandable assembled display structure of claim 4, wherein the fourth side (106) of the A plate is provided with a third positioning column (109) matching with the third positioning hole (307); and a fourth positioning column (110) matched with the fourth positioning hole (308) is arranged on the second side surface (104) of the A plate.

6. The expandable spliced combined display structure of claim 2, wherein the side of the front surface (301) of the C plate close to the third side surface (305) of the C plate is provided with at least two fifth positioning holes (309), the side of the back surface (302) of the C plate close to the third side surface (305) of the C plate is provided with at least two sixth positioning holes (310), and the fifth positioning holes (309) and the sixth positioning holes (310) are arranged in a staggered manner on a straight line.

7. The expandable splicing combined display structure of claim 6, wherein the fourth side (206) of the B plate is provided with a fifth positioning column (209) matched with a fifth positioning hole (309); and a sixth positioning column (210) matched with the sixth positioning hole (310) is arranged on the second side surface (204) of the B plate.

8. The expandable splicing combined display structure of claim 2, wherein the second side (304) of the C plate is provided with a seventh positioning hole (311), the seventh positioning hole (311) is arranged to be staggered with respect to the third positioning hole (307) and the fourth positioning hole (308), and the fourth side (306) of the C plate is provided with a seventh positioning column (312) matched with the seventh positioning hole (311).

9. The expandable, tiled modular display structure of claim 1, wherein the locating holes are hexagonal holes with a chamfered corner at the entrance to the locating holes.

10. The expandable assembled display structure of claim 1, wherein the positioning posts are circular posts, and the connecting positions of the positioning posts and the splicing plates are provided with oblique chamfers; the side of the positioning column is provided with an opening, and the positioning column is of a hollow structure.