CN113400421A - Hexagonal splice plate and processing method thereof - Google Patents

Abstract

The invention discloses a hexagonal splice plate and a processing method thereof, belonging to the technical field of plate processing, the hexagonal splice plate comprises a fixing plate and a core plate layer, the fixing plate is arranged at the outer side of the core plate layer, the core plate layer comprises hexagonal prism battens and semi-hexagonal prism battens, the hexagonal prism battens and the semi-hexagonal prism battens are provided with a fixture block and a reserved groove, the length of the hexagonal prism battens is equal to the width of the splice plate, the cross section of the hexagonal prism battens is a hexagon with opposite sides parallel to each other, the angle of a smaller inner angle of the hexagon is 60-120 degrees, the invention is different from a vertical cutting mode in the prior art, the invention adopts the steps of firstly cutting a template into hexagonal wood billets and then transversely cutting, the clamping blocks and the grooves are machined on the cut wood blanks, the hexagonal prism wood strips and the semi-hexagonal prism wood strips are spliced through the clamping blocks and the grooves to form a complete core plate layer, and the finally formed hexagonal splicing plate has stronger deformation resistance and pressure bearing effects.

Description

Hexagonal splice plate and processing method thereof

Technical Field

The invention relates to the technical field of plate processing, in particular to a hexagonal splice plate.

Background

The board plays an important role in industries such as buildings, due to the growth form of wood fibers, the cutting mode used in the process of manufacturing the board at present is mainly vertical cutting, the vertical cutting mode utilizes the length advantage of wood, but the bearing capacity of the vertical cutting board is very limited, the problem of bending deformation of the vertical cutting board is very easy to occur in the using process, the service life of the board is greatly reduced, and good using experience cannot be brought to users, the prior art (CN202022294802.1) discloses a honeycomb-shaped waterproof and anti-corrosion type PET board, which comprises a PET board body, a frame is wrapped on the side edge of the PET board body, adjusting screws with opposite thread directions on two sides are horizontally arranged on one sides of two adjacent groups of side edges of the frame far away from the PET board body, a connecting plate is horizontally arranged on one side of the adjusting screws far away from the frame, and two ends of the adjusting screws are rotatably installed on the frame through a fixing plate, and the two sides of the adjusting screw are sleeved with sliding blocks in a threaded manner, one end surface of each sliding block, which is far away from the frame, is rotatably connected with a connecting rod, one end of the connecting rod, which is far away from the sliding block, is rotationally connected with the connecting plate, two sides of one end surface of the connecting plate, which is far away from the adjusting screw rod, are vertically fixed with first connecting joints, one end surface of two groups of the first connecting joints, which is opposite, is provided with a groove, and the honeycomb-shaped waterproof and anti-corrosion PET plate is made of a honeycomb-shaped waterproof and anti-corrosion PET plate, the honeycomb waterproof and anticorrosive PET board adopted by the prior art is arranged by combining a plurality of honeycomb units, the length of the honeycomb units is the same as the thickness of the board, the hexagonal splicing plate has the advantages that the length of the hexagonal prism wood strips is used as the width of the wood plate, the hexagonal prism wood strips and the semi-hexagonal prism wood strips are spliced to form the core plate layer, and the core plate layer has good deformation resistance and good bearing effect.

Disclosure of Invention

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides a hexagonal splice plate, includes fixed plate, core layer, the fixed plate fix the both sides on the core layer through compaction or adhesive mode, the core layer include hexagonal prism stuff, half hexagonal prism wood, the length of core layer isometric with hexagonal splice plate's width, be provided with bellied fixture block and recessed preformed groove on the hypotenuse of hexagonal prism stuff and half hexagonal prism stuff in turn, the fixture block is the same with the shape of preformed groove, fixture block and preformed groove mutually support, form complete core layer.

Further, the cross section of the hexagonal prism wood strip is a hexagon with parallel opposite sides, the angle of a smaller inner angle in the hexagon is 60-120 degrees, preferably 120 degrees, and the cross section of the hexagonal prism wood strip is a regular hexagon.

Furthermore, the adhesive used when the fixing plate is adhered and installed is environment-friendly glue.

Furthermore, the fixed plate, the hexagonal prism-shaped battens and the semi-hexagonal prism-shaped battens are all made of solid wood, and the compression strength of the board can be further guaranteed through solid wood.

Furthermore, the semi-hexagonal prism wood strips are completely matched with the straight edge parts of the hexagonal prism wood strips, so that a strict cuboid core plate layer is formed.

Further, according to the thickness demand of using, set up at least one core plate layer between two fixed plates in the outside, separate by the fixed plate between two adjacent core plate layers, the fixed plate also provides adhesive basis when providing the support for whole splice plate.

A processing method of a hexagonal splicing plate comprises the following steps:

the method comprises the following steps: cutting and processing a solid wood board into the shapes of a plurality of hexagonal prisms and semi-hexagonal prisms;

step two: alternately cutting a fixture block and a reserved groove on the bevel edge of the hexagonal prism and the bevel edge of the semi-hexagonal prism;

step three: matching the fixture blocks and the reserved grooves of the processed hexagonal prism battens and the semi-hexagonal prism battens together, and splicing into a complete core plate layer according to the required size;

step four: bonding or laminating the plurality of core plates and the fixing plate together according to a desired thickness;

step five: and (5) bonding or laminating the two sides of the plate obtained in the last step by using glue to form an upper fixing plate.

Compared with the prior art, the invention has the beneficial effects that: (1) the structure of the core plate layer is formed by splicing the hexagonal prisms, so that the structure is firm and the bearing performance is good; (2) the invention adopts a transverse sawing mode, thereby greatly increasing the deformability of the plate; (3) the length of the hexagonal prism is taken as the width of the core plate layer, so that the stability is better, and the bearing capacity is higher; (4) the hexagonal splicing plates adopt a multi-layer bonding mode, and can meet the use requirements of different sizes.

Drawings

FIG. 1 is a schematic view of the overall structure of the hexagonal splice plate of the present invention;

FIG. 2 is a schematic view of a partial structure of a hexagonal splice plate according to the present invention;

FIG. 3 is a schematic cross-sectional view of a hexagonal prism wood strip of the present invention;

fig. 4 is a schematic cross-sectional view of a semi-hexagonal prism wood strip according to the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, a hexagonal splicing plate includes a fixing plate 101 and a core plate layer 102, the fixing plate 101 is laminated on both sides of the core plate layer 102 by an adhesive or by pressing, the adhesive used in this embodiment is an environment-friendly glue, the core plate layer 102 includes hexagonal prism wood strips 103 and semi-hexagonal prism wood strips 104, the fixing plate 101, the hexagonal prism wood strips 103 and the semi-hexagonal prism wood strips 104 are all made of solid wood plates, the length of the core plate layer 102 is equal to the width of the splicing plate, convex blocks and concave reserved grooves are alternately arranged on the inclined surfaces of the semi-hexagonal prism wood strips 104 and the hexagonal prism wood strips 103, the semi-hexagonal prism wood strips 104 and the hexagonal prism wood strips 103 are completely fitted, the hexagonal prism wood strips 103 and the semi-hexagonal prism wood strips 104 are spliced together to form a cuboid core plate layer 102, the cross section of the hexagonal prism wood strips 103 is a hexagon with parallel opposite sides, the cross section of the hexagonal prism wood strips 103 adopted in this embodiment is a regular hexagon, at least one core plate layer 102 is arranged between the two outermost fixing plates 101 according to the thickness requirement, and the two adjacent core plates 102 are separated by the fixing plates 101, wherein a structure of one core plate layer 102 is adopted in the embodiment.

A processing method of a hexagonal splicing plate comprises the following steps:

the method comprises the following steps: cutting and processing a solid wood board into the shapes of a plurality of hexagonal prisms and semi-hexagonal prisms;

step two: alternately cutting a fixture block and a reserved groove on the bevel edge of the hexagonal prism and the bevel edge of the semi-hexagonal prism;

step three: matching the fixture blocks and the reserved grooves of the processed hexagonal prism battens 103 and the semi-hexagonal prism battens 104 together, and splicing into a complete core plate layer 102 according to the required size;

step four: bonding or laminating the plurality of core layers 102 and the fixing plate 101 together according to a desired thickness;

step five: and adhering or laminating the two sides of the plate obtained in the last step by using glue to form an upper fixing plate 101.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (7)

1. The utility model provides a hexagonal splice plate, includes fixed plate, core plate layer, its characterized in that: the fixing plates are fixed on two sides of the core plate layer in a compaction or bonding mode, the core plate layer () comprises hexagonal prism battens and semi-hexagonal prism battens, the length of the core plate layer is equal to the width of the hexagonal splicing plate, convex clamping blocks and concave reserved grooves are alternately arranged on the inclined edges of the hexagonal prism battens and the semi-hexagonal prism battens, the clamping blocks and the reserved grooves are identical in shape, and the clamping blocks and the reserved grooves are matched with each other to form a complete core plate layer.

2. The hexagonal splicing plate of claim 1, wherein: the cross section of the hexagonal prism wood strip is a hexagon with parallel opposite sides, and the angle of a smaller internal angle in the hexagon is 60-120 degrees.

3. The hexagonal splicing plate of claim 1, wherein: the adhesive used when the fixing plate is adhered and installed is environment-friendly glue.

4. The hexagonal splicing plate of claim 1, wherein: the fixing plate, the hexagonal prism wood strips and the semi-hexagonal prism wood strips are all made of solid wood boards.

5. The hexagonal splicing plate of claim 1, wherein: the half hexagonal prism wood strips are completely matched with the straight edge parts of the hexagonal prism wood strips.

6. The hexagonal splicing plate of claim 1, wherein: according to the thickness requirement of use, set up at least one core plate layer between two dead plates in the outermost side, be separated by the dead plate between two adjacent core plate layers.

7. The processing method of the hexagonal splicing plate is characterized by comprising the following steps:

the method comprises the following steps: cutting and processing a solid wood board into the shapes of a plurality of hexagonal prisms and semi-hexagonal prisms;

step two: alternately cutting a fixture block and a reserved groove on the bevel edge of the hexagonal prism and the bevel edge of the semi-hexagonal prism;

step three: matching the fixture blocks and the reserved grooves of the processed hexagonal prism battens and the semi-hexagonal prism battens together, and splicing into a complete core plate layer according to the required size;

step four: bonding or laminating the plurality of core plates and the fixing plate together according to a desired thickness;

step five: and (5) bonding or laminating the two sides of the plate obtained in the last step by using glue to form an upper fixing plate.

Images