CN218776792U - Bamboo strip composite floor - Google Patents

Abstract

The utility model provides a bamboo strip composite floor, which comprises a core layer and a bottom layer which are integrated by hot-pressing glue; the core layer comprises at least one layer of bamboo strip layer which is hot-pressed and glued, the bamboo strip layer is formed by hot-pressing and gluing a plurality of bamboo strips, and bamboo joints, bamboo green and bamboo yellow of the bamboo strips are removed; the bottom layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat. The utility model adopts bamboo strips as the core layer, the production efficiency of the bamboo strips is high, the number of layers is small when the plywood is assembled manually, the production is simple and rapid, the efficiency is high, the labor cost is reduced, the strength of the bamboo is kept to the maximum extent, and the strength is high; in addition, the bamboo strips do not need to be treated by gum dipping, a small amount of glue is used, the glue cost is reduced, and the efficiency is high; the width of the bamboo strip can be infinitely widened by the mode of tenoning, and the requirements of containers with different sizes and bottom plates for carriages such as automobile carriages and truck carriages can be met.

Description

Bamboo strip composite floor

Technical Field

The utility model relates to a floor technical field, in particular to bamboo strip laminate flooring.

Background

The current bottom plates for containers, carriages such as automobile carriages and truck carriages mostly adopt bamboo-wood composite bottom plates, the bamboo curtains are mostly adopted as main bamboo materials, the bamboo curtains are complex in production process, time and labor are wasted, the quality stability is poor, and the like. In addition, in order to meet the strength requirement of the container bottom plate and the carriage bottom plate, the number of layers to be used is large, a plurality of layers of plate arrangement and assembly are required to be carried out by workers, the paving efficiency is low, and the labor cost is high. It is necessary to design a new composite floor to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bamboo strip laminate flooring has solved the bamboo matter material of the bottom plate for carriages such as current container bottom plate and car carriage and truck carriage and has adopted the bamboo curtain more, and bamboo curtain production process is loaded down with trivial details, wastes time and energy, and quality stability is poor to for the intensity requirement, need multilayer bamboo curtain gang board group blank, mat formation inefficiency, the problem that the recruitment is with high costs.

The technical scheme of the utility model is realized like this:

a bamboo strip composite floor comprises a core layer and a bottom layer which are integrated by hot-press gluing; the core layer comprises at least one layer of bamboo strip layer which is hot-pressed and glued, the bamboo strip layer is formed by hot-pressing and gluing a plurality of bamboo strips, and bamboo joints, bamboo green and bamboo yellow of the bamboo strips are removed; the bottom layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

As a further technical scheme, the composite material further comprises a surface layer, wherein the surface layer, the core layer and the bottom layer are integrated through hot-press gluing, the surface layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

According to a further technical scheme, a film-coated paper layer is attached to the upper surface of the surface layer and/or the lower surface of the bottom layer.

As a further technical scheme, the strip bamboos in the strip bamboo layer are connected in the width direction through the tenon-and-mortise structure.

As a further technical scheme, the total thickness of the bamboo strip composite floor is more than 4mm.

The utility model has the advantages that: the strip bamboo composite floor adopts strip bamboo as the core layer, the production efficiency of the bamboo strips is high, the number of layers is small when the manual gang board is assembled, the production is simple and quick, the efficiency is high, the labor cost is reduced, the strength of the bamboo wood is kept to the maximum extent, and the strength is high; bamboo strips can be processed without gum dipping, a small amount of glue is used during splicing, the glue cost is reduced, and the efficiency is high; the core layer of the strip bamboo composite floor board of the utility model is matched with the bottom layer and the surface layer, and the bottom layer and the surface layer use at least one layer of continuous fiber reinforced composite material, wood veneer and bamboo mat, thus having high compression strength and bending strength; the width of the bamboo strip can be infinitely widened by the tenon opening, so that the requirements of bottom plates for carriages such as containers, automobile carriages and truck carriages with different sizes can be met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the structure of embodiment 1;

FIG. 2 is a schematic structural view of example 2;

FIG. 3 is a schematic structural view of embodiment 3;

FIG. 4 is a schematic structural view of example 4;

FIG. 5 is a schematic structural view of example 5;

FIG. 6 is a schematic structural view of example 6;

FIG. 7 is a schematic structural view of example 7;

FIG. 8 is a schematic view of the structure of embodiment 8;

FIG. 9 is a schematic view of the structure of embodiment 9;

FIG. 10 is a schematic structural view of example 10;

FIG. 11 is a schematic view of the structure of example 11;

FIG. 12 is a schematic structural view of example 12;

FIG. 13 is a schematic structural view of example 13;

FIG. 14 is a schematic structural view of example 14;

FIG. 15 is a schematic structural view of example 15.

In the figure: 1-surface layer, 2-core layer, 21-bamboo strip and 3-bottom layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A bamboo strip composite floor comprises a core layer and a bottom layer which are integrated by hot-press gluing; the core layer comprises at least one layer of bamboo strip layer which is hot-pressed and glued, the bamboo strip layer is formed by hot-pressing and gluing a plurality of bamboo strips, and bamboo joints, bamboo green and bamboo yellow of the bamboo strips are removed; the bottom layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

As a further technical scheme, the bamboo mat further comprises a surface layer, wherein the surface layer, the core layer and the bottom layer are integrated through hot-pressing glue, the surface layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

According to a further technical scheme, a film-coated paper layer is attached to the upper surface of the surface layer and/or the lower surface of the bottom layer.

As a further technical scheme, the strip bamboos in the strip bamboo layer are connected in the width direction through the tenon-and-mortise structure.

As a further technical scheme, the total thickness of the strip bamboo composite floor is more than 4mm.

Example 1

Referring to fig. 1, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the transverse length of the cross section of each strip bamboo 21 is greater than the longitudinal height, and the strip bamboos 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 2

Referring to fig. 2, the strip bamboo composite floor comprises a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the transverse length of the cross section of each strip bamboo 21 is greater than the longitudinal height, and the strip bamboos 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 3

Referring to fig. 3, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the transverse length of the cross section of each strip bamboo 21 is smaller than the longitudinal height, and the strip bamboos 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 4

Referring to fig. 4, the strip bamboo composite floor comprises a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-press gluing of a plurality of strip bamboos 21, the transverse length of the section of each strip bamboo 21 is smaller than the longitudinal height, and the strip bamboos 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 5

Referring to fig. 5, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the strip bamboo layer is formed by transversely splicing the strip bamboos 21 through a tenon-and-mortise structure, the strip bamboos 21 are T-shaped, and the strip bamboos 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 6

Referring to fig. 6, the strip bamboo composite floor comprises a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the strip bamboo layer is formed by transversely splicing the strip bamboos 21 through a tenon-and-mortise structure, the strip bamboos 21 are Z-shaped, and the strip bamboos 21 are used for removing bamboo joints, green bamboos and yellow bamboos; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 7

Referring to fig. 7, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 comprises a strip bamboo layer, the strip bamboo layer is formed by hot-pressing and gluing a plurality of strip bamboos 21, the strip bamboo layer is formed by transversely splicing the strip bamboos 21 through a tenon-and-mortise structure, the splicing position is in a lightning shape, and the strip bamboos 21 are used for removing bamboo joints, green bamboos and yellow bamboos; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 8

Referring to fig. 8, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 is formed by hot-press gluing of two bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, each two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with cross sections, the transverse lengths of the cross sections of the bamboo strips are smaller than the longitudinal heights of the cross sections, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 9

Referring to fig. 9, the strip bamboo composite floor comprises a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 is formed by hot-press gluing of two bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, each two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with cross sections, the transverse lengths of the cross sections of the bamboo strips are smaller than the longitudinal heights of the cross sections, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 10

Referring to fig. 10, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 is formed by hot-press gluing of two bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height, the other bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height, and the bamboo strips 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 11

Referring to fig. 11, a bamboo strip composite floor includes a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-pressing; the core layer 2 is formed by hot-press gluing of two bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height, the other bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height, and the bamboo strips 21 are subjected to bamboo joint removal, bamboo green removal and bamboo yellow removal; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 12

Referring to fig. 12, a bamboo strip composite floor includes a core layer 2 and a bottom layer 3 which are integrated by hot-pressing; the core layer 2 is formed by hot-press gluing of three bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height and is a middle layer, the other two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 13

Referring to fig. 13, a bamboo strip composite floor includes a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-pressing; the core layer 2 is formed by hot-press gluing of three bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height and is a middle layer, the other two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 14

Referring to fig. 14, the strip bamboo composite floor comprises a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 is formed by hot-press gluing of three bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height and is a middle layer, the other two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Example 15

Referring to fig. 15, the strip bamboo composite floor comprises a surface layer 1, a core layer 2 and a bottom layer 3 which are integrated by hot-press gluing; the core layer 2 is formed by hot-press gluing of three bamboo strip layers, each bamboo strip layer is formed by hot-press gluing of a plurality of bamboo strips 21, one bamboo strip layer is formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections smaller than the longitudinal height and is a middle layer, the other two bamboo strip layers are formed by transversely arranging a plurality of bamboo strips 21 with the cross sections of the cross sections larger than the longitudinal height, and the bamboo strips 21 are used for removing bamboo joints, bamboo green and bamboo yellow; the bottom layer 3 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth; the surface layer 1 comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

Claims (5)

1. A bamboo strip composite floor is characterized in that:

comprises a core layer and a bottom layer which are integrated by hot-pressing glue;

the core layer comprises at least one layer of bamboo strip layer which is hot-pressed and glued, the bamboo strip layer comprises a plurality of bamboo strips which are hot-pressed and glued, and the bamboo strips are used for removing bamboo joints, bamboo green and bamboo yellow;

the bottom layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

2. A bamboo strip composite floor as claimed in claim 1, wherein: the composite bamboo mat is characterized by further comprising a surface layer, wherein the surface layer, the core layer and the bottom layer are integrated through hot-press gluing, the surface layer comprises at least one of a continuous fiber reinforced composite material layer, a wood veneer and a bamboo mat, and the continuous fiber reinforced composite material layer at least comprises one of glass fiber cloth, basalt fiber cloth, carbon fiber cloth and aramid fiber cloth.

3. A bamboo strip composite floor as claimed in claim 2, wherein: and a film-coated paper layer is adhered to the upper surface of the surface layer and/or the lower surface of the bottom layer.

4. A bamboo strip composite floor as claimed in any one of claims 1 to 3, wherein: the bamboo strips in the bamboo strip layer are connected in the width direction through the tenon-and-mortise structure.

5. A bamboo strip composite floor as claimed in any one of claims 1 to 3, wherein: the total thickness of the bamboo strip composite floor is more than 4mm.

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