CN210799611U - Edge connecting structure of filling board - Google Patents

Abstract

The utility model discloses an edge connection structure of infill panel. The structure comprises a first structure, a second structure, a third structure and a fourth structure; the first structure is detachably connected with the second structure and the fourth structure respectively; the second structure is detachably connected with the third structure; the third structure is detachably connected with the fourth structure; the first structure, the second structure, the third structure and the fourth structure are connected by end portions. The utility model discloses rational in infrastructure, energy saving and consumption reduction, environmental protection low carbon, the convenient advantage of volume production.

Description

Edge connecting structure of filling board

Technical Field

The utility model relates to an edge connection structure of infill panel.

Background

The plate-type base material is widely applied to the manufacture of furniture, buildings, light industry and the like, and because the solid core plate material generally has high material cost, the filling technology is increasingly emphasized by the processing and manufacturing industry under the trends of strong market competition and rising of various manufacturing costs. As long as the edge structure is reasonable in design, compared with a solid plate, the cost can be greatly reduced, the resources are saved, and the utilization rate of raw materials is greatly improved.

Therefore, there is a need to develop an edge connection structure of a filler board that has a reasonable structure, saves energy, reduces consumption, is environmentally friendly, has low carbon, and is convenient for mass production.

Disclosure of Invention

The utility model aims at providing a marginal connection structure of infill panel, rational in infrastructure, energy saving and consumption reduction, environmental protection low carbon, volume production are convenient.

In order to realize the purpose, the technical scheme of the utility model is that: the edge connection structure of infill panel, its characterized in that: comprises a first structure, a second structure, a third structure and a fourth structure;

the first structure is detachably connected with the second structure and the fourth structure respectively;

the second structure is detachably connected with the third structure;

the third structure is detachably connected with the fourth structure;

the first structure, the second structure, the third structure and the fourth structure are connected by end portions.

In the above technical solution, the first structure includes a first connection angle and a first connection rod; the first connecting angle is detachably connected with the first connecting rod;

the second structure comprises a second connecting angle and a second connecting rod; the second connecting angle is detachably connected with the second connecting rod;

the third structure comprises a third connecting angle and a third connecting rod; the third connecting angle is detachably connected with the third connecting rod;

the fourth structure comprises a fourth connecting angle and a fourth connecting rod; the fourth connecting angle is detachably connected with the fourth connecting rod;

the first connecting angle, the first connecting rod, the second connecting angle, the second connecting rod, the third connecting angle, the third connecting rod, the fourth connecting angle and the fourth connecting rod are connected to form a first square structure.

In the above technical solution, the first connection angle, the second connection angle, the third connection angle and the fourth connection angle are all triangular plate structures with connection angles of 90 degrees, and the connection surfaces are all step-shaped structures;

the first connecting rod, the second connecting rod, the third connecting rod and the fourth connecting rod are all of a columnar structure with a raised middle part, and the connecting surfaces are respectively matched with the connecting surfaces of the first connecting angle, the second connecting angle, the third connecting angle and the fourth connecting angle.

In the above technical solution, the first structure, the second structure, the third structure and the fourth structure are all connected through the end portion to form a second square structure.

In the above technical scheme, the first structure, the second structure, the third structure and the fourth structure are all cuboid structures.

In the above technical solution, the first structure, the second structure, the third structure and the fourth structure are all wood core boards, and are at least selected from fiber boards, multilayer boards, solid wood boards, and OSB (oriented strand board) boards.

The utility model has the advantages of as follows:

(1) the utility model has reasonable structure, energy saving, consumption reduction, environmental protection, low carbon and convenient mass production, and meets the social development requirement;

(2) the utility model has reasonable design of edge structure, and compared with solid plates, the edge structure can reduce the cost by 30-60%, save resources and greatly improve the utilization rate of raw materials;

(3) the utility model fixes the built-in filling plate through the shape connecting piece, and realizes the effective connection of the outside of the filling plate;

(4) when the composite board is processed and used, the utility model does not need an edge fixing structure, and overcomes the problems of deformation, distortion and edge damage of the board edge caused by uneven stress due to the edge fixing structure;

(5) a plurality of the utility model can be used in a superposition way, and is suitable for filling plates with different thicknesses;

(6) the utility model discloses forming the protection at the packing panel edge, compound in the outer fringe of panel with standard structure frame implanted, the plane compressive resistance that makes panel obtains promoting, and customization plane panel periphery can realize the combination of being connected with the adjacent panel of different faces simultaneously, makes three-dimensional structure physique, and the application is extensive, if: furniture shapes, exhibition and display, automobile or aviation parts and the like.

Drawings

Fig. 1 is a schematic view of the overlooking structure of the first square structure connected to the periphery of the square honeycomb corrugated board of the present invention.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a schematic view of the overlooking structure of the square honeycomb corrugated board of the present invention connected in the periphery of the second square structure.

Fig. 4 is an exploded view of fig. 3.

Fig. 5 is a schematic top view of the structure of the first square structure and the second square structure of the square honeycomb corrugated cardboard according to the present invention.

Fig. 6 is a schematic perspective view of the structure of the first square structure and the structure of the second square structure, which are connected in an overlapping manner, arranged on the periphery of the square honeycomb corrugated board of the present invention.

Fig. 7 is a schematic view of the connection structure at the periphery of the filling board according to embodiment 1 of the present invention.

Fig. 8 is a schematic view of a connection structure at the periphery of a filling plate according to embodiment 2 of the present invention.

In the figure, 1-a first structure, 1.1-a first connecting angle, 1.2-a first connecting rod, 2-a second structure, 2.1-a second connecting angle, 2.2-a second connecting rod, 3-a third structure, 3.1-a third connecting angle, 3.2-a third connecting rod, 4-a fourth structure, 4.1-a fourth connecting angle, 4.2-a fourth connecting rod, 5-a fifth structure, 6-a sixth structure, 7-a seventh structure, 8-an eighth structure, 9-a first square structure, 10-a second square structure, 11-a square honeycomb corrugated board and 12-a wood core board.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings, which are not intended to limit the present invention, but are merely exemplary. While the advantages of the invention will be clear and readily appreciated by the description.

With reference to the accompanying drawings: the edge connecting structure of the filling board comprises a first structure 1, a second structure 2, a third structure 3 and a fourth structure 4;

the first structure 1 is detachably connected with the second structure 2 and the fourth structure 4 respectively;

the second structure 2 is detachably connected with the third structure 3;

the third structure 3 is detachably connected with the fourth structure 4; the first structure 1, the second structure 2, the third structure 3 and the fourth structure 4 are detachably connected, so that the filling plate can be conveniently made into standard parts according to production requirements, and is suitable for edge processing of various filling plates;

the first structure 1, the second structure 2, the third structure 3 and the fourth structure 4 are connected through end parts; the structure is firm and not easy to be disassembled.

Further, the first structure 1 comprises a first connecting angle 1.1 and a first connecting rod 1.2; the first connecting angle 1.1 is detachably connected with the first connecting rod 1.2;

the second structure 2 comprises a second connecting angle 2.1 and a second connecting rod 2.2; the second connecting angle 2.1 is detachably connected with the second connecting rod 2.2;

the third structure 3 comprises a third connecting angle 3.1 and a third connecting rod 3.2; the third connecting angle 3.1 is detachably connected with the third connecting rod 3.2;

the fourth structure 4 comprises a fourth connecting angle 4.1 and a fourth connecting rod 4.2; the fourth connecting angle 4.1 is detachably connected with the fourth connecting rod 4.2;

the first connecting angle 1.1, the first connecting rod 1.2, the second connecting angle 2.1, the second connecting rod 2.2, the third connecting angle 3.1, the third connecting rod 3.2, the fourth connecting angle 4.1 and the fourth connecting rod 4.2 are connected to form a first square structure 9; first structure 1, second structure 2, third structure 3 and fourth structure 4 are can dismantle the connecting piece, have strengthened the utility model discloses a commonality.

Further, the first connecting angle 1.1, the second connecting angle 2.1, the third connecting angle 3.1 and the fourth connecting angle 4.1 are all triangular plate structures with connecting angles of 90 degrees, and the connecting surfaces are all in stepped structures;

the first connecting rod 1.2, the second connecting rod 2.2, the third connecting rod 3.2 and the fourth connecting rod 4.2 are all in a columnar structure with a convex middle part, and the connecting surfaces are respectively matched with the connecting surfaces of the first connecting angle 1.1, the second connecting angle 2.1, the third connecting angle 3.1 and the fourth connecting angle 4.1 (as shown in fig. 1 and fig. 2); that is, the connection surfaces of the first connection rod 1.2, the second connection rod 2.2, the third connection rod 3.2 and the fourth connection rod 4.2 are all in a step structure and are respectively connected with the first connection angle 1.1, the second connection angle 2.1, the third connection angle 3.1 and the fourth connection angle 4.1 in a matching manner.

Further, the first structure 1, the second structure 2, the third structure 3 and the fourth structure 4 are connected through the end portions to form a second square structure 10 (as shown in fig. 3 and 4); the utility model discloses can make the standard component of multiple shape according to the production demand, the suitability is strong.

According to the size requirement of the product, the second square structure 10 can be prevented from being overlapped with the first square structure 9 and fixedly connected with the first square structure 9 through rivets or adhesives (as shown in fig. 5 and 6); increase the utility model discloses a thickness improves the suitability.

Further, the first structure 1, the second structure 2, the third structure 3 and the fourth structure 4 are all rectangular parallelepiped structures (as shown in fig. 3 and fig. 4); other structures can be arranged according to production requirements.

Further, the first structure 1, the second structure 2, the third structure 3 and the fourth structure 4 are all wood core boards, and are at least selected from fiber boards, multilayer boards, solid wood boards and OSB boards.

Example 1

Taking a square honeycomb corrugated board 11 with the thickness of 1 centimeter, and sequentially surrounding a first connecting angle 1.1, a first connecting rod 1.2, a second connecting angle 2.1, a second connecting rod 2.2, a third connecting angle 3.1, a third connecting rod 3.2, a fourth connecting angle 4.1 and a fourth connecting rod 4.2 on the periphery of the square honeycomb corrugated board 11 to form a first square structure 9, wherein the first square structure 9 is fixedly connected with the periphery of the square honeycomb corrugated board 11 through rivets or adhesives;

fixing the wood core board on the upper and lower end faces of the square honeycomb corrugated board 11 and the first square structure 9 respectively through adhesives; a infill panel (as shown in figure 7) is produced.

The wood core board 12 is at least selected from the group consisting of fiberboard, solid wood board, OSB board.

The filling plate manufactured by the method has stable structure and higher compressive strength.

Example 2

Taking a square honeycomb corrugated board 11 with the thickness of 5 centimeters, and sequentially surrounding a first connecting angle 1.1, a first connecting rod 1.2, a second connecting angle 2.1, a second connecting rod 2.2, a third connecting angle 3.1, a third connecting rod 3.2, a fourth connecting angle 4.1 and a fourth connecting rod 4.2 on the periphery of the square honeycomb corrugated board 11 to form a first square structure 9, wherein the first square structure 9 is fixedly connected with the periphery of the square honeycomb corrugated board 11 through screws, rivets or adhesives;

sequentially surrounding a fifth structure 5, a sixth structure 6, a seventh structure 7 and an eighth structure 8 on the periphery of the square honeycomb corrugated board 11 to form a second square structure 10; the second square structure 10 is superposed on the upper end of the first square structure 9 and is fixedly connected by rivets or adhesives;

fixing the wood core board 12 on the upper and lower end faces of the square honeycomb corrugated board 11 and the first square structure 9 respectively through adhesives; a infill panel (as shown in figure 8) is produced.

The wood core board is at least one selected from a fiber board, a multilayer board, a solid wood board and an OSB board.

The filling plate manufactured by the method has stable structure and higher compressive strength.

Other parts not described belong to the prior art.

Claims (6)

1. The edge connection structure of infill panel, its characterized in that: comprises a first structure (1), a second structure (2), a third structure (3) and a fourth structure (4);

the first structure (1) is detachably connected with the second structure (2) and the fourth structure (4) respectively;

the second structure (2) is detachably connected with the third structure (3);

the third structure (3) is detachably connected with the fourth structure (4);

the first structure (1), the second structure (2), the third structure (3) and the fourth structure (4) are connected through end portions.

2. The edge connecting structure of a infill panel of claim 1, wherein: the first structure (1) comprises a first connecting angle (1.1) and a first connecting rod (1.2); the first connecting angle (1.1) is detachably connected with the first connecting rod (1.2);

the second structure (2) comprises a second connecting angle (2.1) and a second connecting rod (2.2); the second connecting angle (2.1) is detachably connected with the second connecting rod (2.2);

the third structure (3) comprises a third connecting angle (3.1) and a third connecting rod (3.2); the third connecting angle (3.1) is detachably connected with the third connecting rod (3.2);

the fourth structure (4) comprises a fourth connecting angle (4.1) and a fourth connecting rod (4.2); the fourth connecting angle (4.1) is detachably connected with the fourth connecting rod (4.2);

the first connecting angle (1.1), the first connecting rod (1.2), the second connecting angle (2.1), the second connecting rod (2.2), the third connecting angle (3.1), the third connecting rod (3.2), the fourth connecting angle (4.1) and the fourth connecting rod (4.2) are connected to form a first square structure (9).

3. The edge connecting structure of a infill panel of claim 2, wherein: the first connecting angle (1.1), the second connecting angle (2.1), the third connecting angle (3.1) and the fourth connecting angle (4.1) are all triangular plate structures with connecting angles of 90 degrees, and the connecting surfaces are all in stepped structures;

the first connecting rod (1.2), the second connecting rod (2.2), the third connecting rod (3.2) and the fourth connecting rod (4.2) are all of a columnar structure with a convex middle part, and the connecting surfaces are respectively matched with the connecting surfaces of the first connecting angle (1.1), the second connecting angle (2.1), the third connecting angle (3.1) and the fourth connecting angle (4.1).

4. The edge connecting structure of a infill panel of claim 1, wherein: the first structure (1), the second structure (2), the third structure (3) and the fourth structure (4) are all connected through end parts to form a second square structure (10).

5. The edge connecting structure of a infill panel of claim 4, wherein: the first structure (1), the second structure (2), the third structure (3) and the fourth structure (4) are all cuboid structures.

6. The edge connecting structure of a infill panel of any one of claims 1 to 5, wherein: the first structure (1), the second structure (2), the third structure (3) and the fourth structure (4) are all wood core boards and are at least selected from fiber boards, multilayer boards, solid wood boards and OSB boards.

Images