CN213291622U - Dehumidification resistance to compression plank - Google Patents

Abstract

The utility model relates to a dehumidification resistance to compression plank, including plank surface course (1), be stainless steel sheet layer (2) below the plank surface course, be plank bottom (3) below the stainless steel sheet layer, the perforating hole of regular spread on plank surface course and the plank bottom, the diatomaceous earth post is filled to the perforating hole, bonds through chlorinated rubber layer (4) between plank surface course, stainless steel sheet layer and the plank bottom. The utility model discloses a plank can effectively resist the pressure of heavy object in the wardrobe, is difficult for taking place crooked phenomenon, prevents to wet, ponding, go mildy, breed the problem of bacterium with steam discharge wardrobe simultaneously.

Description

Dehumidification resistance to compression plank

The technical field is as follows:

the utility model belongs to the field of furniture manufacture, concretely relates to dehumidification resistance to compression plank.

Background art:

the wardrobe is the necessary furniture facility of people's daily life, and the wardrobe is generally used for accomodating cotton-silk fabrics such as clothes, bed clothes, cap and socks, and the wardrobe enables the family furnishings and the cotton-silk fabrics of accomodating to put more regularly, clean, sanitation and hygiene. The wardrobe is a relatively closed space, has special requirements on humidity, and if the humidity of the wardrobe is too high, the cotton and silk fabrics are easy to generate phenomena of mildew, worm generation, color change and the like due to dampness. In addition, the wardrobe is often placed with heavier objects such as cotton quilts, which requires that the wood board at the bottom of the wardrobe is resistant to pressure and is not easy to bend and deform under heavy pressure, otherwise the overall structure of the wardrobe is seriously damaged. The traditional wardrobe is mainly made of solid wood, however, the use of a large amount of wood in the past centuries causes forest resources to become rare and precious, and at present, the solid wood floor is rarely used for making furniture, but is mostly made of artificial composite boards.

The artificial composite board is produced by compounding plant fiber powder such as wood powder or straw powder with chemical adhesive and mechanically pressing, and the surface and the side edges of the artificial composite board are generally decorated by adhering thin wood laths, even leathers with imitated wood grains. The wardrobe made of the artificial composite board has the problems of moisture regain, water accumulation, mildew and the like because the content of the adhesive in the artificial composite board is high, the adhesive used by the artificial composite board is generally a hydrophobic organic compound, in order to bond the dispersed plant fiber powder together, the adhesive needs to completely fill the gaps of the plant fiber powder in the composite board, and the plant fiber powder is wrapped by the hydrophobic adhesive, so that the hygroscopicity of the artificial composite board is poor, even in wet and cold seasons in winter in some south areas, condensation water beads appear on the inner wall of the wardrobe made of the artificial composite board, and the phenomenon that the cotton fabric is mildewed and generates bacterial plaques under the humid environment is easily generated. In addition, although the artificial composite board is formed by bonding particles such as wood powder and the like into a whole by using the adhesive, the adhesive is an organic high molecular compound, the organic high molecular compound is easy to age, and the adhesive property of the adhesive is reduced after a period of time, so that the composite board at the bottom of the wardrobe is easy to bend and deform under heavy pressure, and the service life of the wardrobe is greatly shortened.

The utility model has the following contents:

an object of the utility model is to provide a dehumidification resistance to compression plank to solve the problem that proposes in the above-mentioned background art, the utility model discloses a heavy object pressure in the wardrobe can effectively be resisted to the plank, and the difficult crooked phenomenon that takes place prevents that the wardrobe from appearing weing, ponding, going mildy, multiplying the problem of bacterium.

In order to achieve the above object, the utility model provides a following technical scheme: a dehumidification compression-resistant wood board comprises a wood board surface layer (1), and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatom earth pillars (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatom earth pillars (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, diatom earth pillars (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on the chlorinated rubber layers, the through holes, the surface layer through holes, on a straight line.

The thickness of the wood board surface layer (1) is 1-5 cm.

The thickness of the stainless steel plate layer (2) is 0.2-1 cm.

The thickness of the wood board bottom layer (3) is 1-5 cm.

The thickness of the chlorinated rubber layer (4) is 0.2-1 cm.

The hole diameters of the surface layer through hole (11), the steel plate layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) are 1-10 cm.

Compared with the prior art, the beneficial effects of the utility model are that: a dehumidification compression-resistant wood board is characterized in that a stainless steel plate layer (2) is clamped between a wood board surface layer (1) and a wood board bottom layer (3), the stainless steel plate is alloy steel which is not easy to rust, the surface of the stainless steel plate is smooth, the stainless steel plate can resist corrosion of acid, alkaline gas, solution and other media, and the stainless steel plate has high plasticity, toughness and mechanical strength. Consequently, adopt the utility model discloses the wardrobe of preparation, the wardrobe bottom has very high resistance to pressure, and the stainless steel has very strong corrosion resistance moreover, is difficult for losing its mechanical properties because of getting rusty in the overcast and cool humid environment, and the plank surface course above the support corrosion resistant plate layer that can be powerful does not take place the bending, alleviates the effort of heavy object in the wardrobe to the plank bottom simultaneously for the crooked phenomenon also is difficult for taking place for the plank bottom.

A dehumidifying and pressure-resistant wood board is characterized in that diatomite columns (12) are filled in a surface layer through hole (11), a steel plate layer through hole (21) and a bottom layer through hole (31). The diatomaceous earth column is the material of processing diatomaceous earth into the cylindricality body, and diatomaceous earth is the siliceous rock mineral who forms through the evolution of earth ten thousand years, uses opal as the main material, and its texture is slim and graceful soft, has stronger physical adsorption and ion exchange performance, reaches the quick, powerful characteristics of absorbing to steam, and it can slowly sustained release negative oxygen ion, can effectively decompose harmful substances such as formaldehyde, benzene, radon that easily cause human allergy, consequently the utility model discloses a diatomaceous earth column can effectively absorb the steam in the wardrobe, then steam passes through surface course perforating hole, steel deck perforating hole, and chlorinated rubber layer perforating hole and bottom perforating hole passageway discharge steam out the wardrobe, has solved traditional problems such as the easy moisture, ponding, the mildy, breed bacterium that appear of wardrobe.

A dehumidification compression-resistant wood board is characterized in that a wood board surface layer and a stainless steel plate layer are bonded through a chlorinated rubber layer (4), and the stainless steel plate layer and a wood board bottom layer are also bonded through the chlorinated rubber layer (4). Chlorinated rubber is a chlorinated derivative made of natural rubber, and has excellent wear resistance, corrosion resistance, quick drying property, adhesive force, impermeability and flame retardance. It has proved that chlorinated rubber all has high adhesive force simultaneously to steel and wood, therefore chlorinated rubber layer can effectively become a whole with plank surface course, corrosion resistant plate layer and plank bottom adhesion, can effectively shift the effort that the wardrobe heavy object was applyed to the plank surface course to the corrosion resistant plate layer that mechanical strength is high, prevents that the plank surface course from taking place bending deformation, has strengthened the utility model discloses a compressive property. In addition, chlorinated rubber layer is the coating that the structure is very fine and close, and vapor and oxygen are extremely low to chlorinated rubber layer lacquer membrane permeability, make the corrosion resistant plate layer isolated with the steam in the environment well, and this makes the corrosion resistant plate layer more difficult rusty, has strengthened the utility model discloses a life.

The utility model provides a transmission path that dehumidification resistance to compression plank, four hole centers of surface course perforating hole, steel deck perforating hole, chlorinated rubber layer perforating hole and bottom perforating hole all are relative each other, on a straight line, this guaranteed that diatom earth pillar in surface course perforating hole and the bottom perforating hole absorbs and discharges steam is unobstructed. The utility model discloses a dehumidification principle is, when the moisture concentration of accumulation is greater than the steam concentration in the external environment in the wardrobe airtight environment, the moisture can be absorbed by the diatomaceous earth post in the plank surface course in the wardrobe, gets rid of outside the wardrobe through respectively lining up the pore on a straight line to reach the effect of wardrobe dehumidification.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural view of a dehumidifying pressure-resistant wood board.

FIG. 2 is a schematic diagram of a surface layer structure of a wood board.

Fig. 3 is a schematic view of a stainless steel plate layer structure.

FIG. 4 is a schematic view of the bottom layer structure of a wood board.

FIG. 5 is a schematic view of the structure of a chlorinated rubber layer.

Figure 6 is a schematic representation of a diatomaceous earth column structure.

Reference numbers in the figures: the wood floor comprises a wood floor surface layer (1), a surface layer through hole (11), a diatomite column (12), a stainless steel plate layer (2), a steel plate layer through hole (21), a wood floor layer (3), a floor layer through hole (31), a chlorinated rubber layer (4) and a chlorinated rubber layer through hole (41).

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the scope of the present invention.

Example 1

Referring to the attached drawings, a dehumidification compression-resistant wood board comprises a wood board surface layer (1) and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatomite columns (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatomite columns (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, the diatomite columns (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are also bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on the, The centers of the through holes of the chlorinated rubber layer and the bottom layer are opposite to each other and are on a straight line. The thickness of the wood board surface layer (1) is 1 cm. The thickness of the stainless steel plate layer (2) is 1 cm. The thickness of the wood board bottom layer (3) is 1 cm. The thickness of the chlorinated rubber layer (4) is 0.2 cm. The aperture of the surface layer through hole (11), the steel plate layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) is 1 cm.

Example 2

Referring to the attached drawings, a dehumidification compression-resistant wood board comprises a wood board surface layer (1) and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatomite columns (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatomite columns (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, the diatomite columns (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are also bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on the, The centers of the through holes of the chlorinated rubber layer and the bottom layer are opposite to each other and are on a straight line. The thickness of the wood board surface layer (1) is 2 cm. The thickness of the stainless steel plate layer (2) is 0.8 cm. The thickness of the wood board bottom layer (3) is 2 cm. The thickness of the chlorinated rubber layer (4) is 0.5 cm. The aperture of the surface layer through hole (11), the steel plate layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) is 4 cm.

Example 3

Referring to the attached drawings, a dehumidification compression-resistant wood board comprises a wood board surface layer (1) and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatomite columns (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatomite columns (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, the diatomite columns (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are also bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on the, The centers of the through holes of the chlorinated rubber layer and the bottom layer are opposite to each other and are on a straight line. The thickness of the wood board surface layer (1) is 4 cm. The thickness of the stainless steel plate layer (2) is 0.5 cm. The thickness of the wood board bottom layer (3) is 3 cm. The thickness of the chlorinated rubber layer (4) is 0.8 cm. The hole diameters of the surface layer through hole (11), the steel plate layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) are 7 cm.

Example 4

Referring to the attached drawings, a dehumidification compression-resistant wood board comprises a wood board surface layer (1) and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatomite columns (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatomite columns (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, the diatomite columns (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are also bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on the, The centers of the through holes of the chlorinated rubber layer and the bottom layer are opposite to each other and are on a straight line. The thickness of the wood board surface layer (1) is 5 cm. The thickness of the stainless steel plate layer (2) is 0.2 cm. The thickness of the wood board bottom layer (3) is 5 cm. The thickness of the chlorinated rubber layer (4) is 1 cm. The aperture of the surface layer through hole (11), the steel plate layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) is 10 cm.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims (6)

1. The dehumidifying compression-resistant wood board comprises a wood board surface layer (1), and is characterized in that surface layer through holes (11) are regularly arranged on the wood board surface layer, diatom earth pillars (12) are filled in the surface layer through holes, a stainless steel plate layer (2) is arranged below the wood board surface layer, steel plate layer through holes (21) are regularly arranged on the stainless steel plate layer, diatom earth pillars (12) are filled in the steel plate layer through holes, a wood board bottom layer (3) is arranged below the stainless steel plate layer, bottom layer through holes (31) are regularly arranged on the wood board bottom layer, diatom earth pillars (12) are filled in the bottom layer through holes, the wood board surface layer and the stainless steel plate layer are bonded through chlorinated rubber layers (4), the stainless steel plate layer and the wood board bottom layer are bonded through chlorinated rubber layers (4), chlorinated rubber layer through holes (41) are regularly arranged on, The centers of the through holes of the chlorinated rubber layer and the bottom layer are opposite to each other and are on a straight line.

2. The dehumidification and compression-resistant wood board as claimed in claim 1, wherein the thickness of the wood board surface layer (1) is 1-5 cm.

3. The board according to claim 1, wherein the thickness of the stainless steel layer (2) is 0.2-1 cm.

4. The dehumidification compression-resistant wood board as claimed in claim 1, wherein the thickness of the wood board bottom layer (3) is 1-5 cm.

5. The board as claimed in claim 1, wherein the chlorinated rubber layer (4) has a thickness of 0.2-1 cm.

6. The board according to claim 1, wherein the diameters of the surface layer through hole (11), the steel layer through hole (21), the bottom layer through hole (31) and the chlorinated rubber layer through hole (41) are 1-10 cm.

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