CN210634193U - Plate piece - Google Patents

Abstract

An embodiment of the utility model provides a plate, this plate includes: a slurry layer, a first fiber layer, a first honeycomb structure, and a second fiber layer; two slurry layers are respectively paved on two sides of the first fiber layer; a first honeycomb structure is laid on any slurry layer; and slurry is filled in the preset honeycomb lattices of the first honeycomb structure, the preset honeycomb lattices are completely filled with the slurry, a second fiber layer is laid on the second surface of the first honeycomb structure, a slurry layer is laid on the second fiber layer, and the slurry in the slurry layer permeates the second fiber layer and is bonded with the second surface of the first honeycomb structure. The utility model discloses the plate can improve the suitability of plate.

Description

Plate piece

Technical Field

The utility model relates to a panel technical field especially relates to a plate.

Background

The conventional plate comprises a first substrate, a second substrate and an intermediate layer, wherein the first substrate is bonded with one surface of the intermediate layer through an adhesive, and the other surface of the intermediate layer is bonded with the second substrate through an adhesive.

It can be seen from the above that, although the structure of the conventional plate is simple, the first substrate and the second substrate of the plate are basically bonded with the middle layer through the adhesive, and because the existing adhesive generally contains substances harmful to human bodies, such as formaldehyde, the plate manufactured by the above method may threaten human health, and after being used for a period of time, the adhesive is often easily dropped or lost due to the influence of the use environment of the plate, so that the first substrate or the second substrate is separated from the middle layer, thereby causing the damage of the plate, and the applicability of the conventional plate is poor.

Disclosure of Invention

An object of the utility model is to provide a plate can improve the plate suitability. The specific technical scheme is as follows:

a panel, the panel comprising: a slurry layer, a first fiber layer, a first honeycomb structure, and a second fiber layer;

wherein, two layers of the sizing agent layers are respectively paved on two sides of the first fiber layer;

a first honeycomb structure is laid on any slurry layer;

slurry is filled in the preset honeycomb lattices of the first honeycomb structure, and the slurry is completely filled in the preset honeycomb lattices; a second fiber layer is laid on the second surface of the first honeycomb structure, the preset honeycomb grids are determined to be filled with slurry in the first honeycomb structure according to the bearing capacity to be borne by the plate to be generated; the second surface of the first honeycomb structure is: a face opposite the first surface of the first honeycomb structure, the first surface of the first honeycomb structure being: a face in the first honeycomb structure that is in contact with a slurry layer laid on the first fiber layer;

and a slurry layer is laid on the second fiber layer, and the slurry in the slurry layer permeates the second fiber layer and is bonded with the second surface of the first honeycomb structure.

Further, a penetration hole is provided at a predetermined position of the second fiber layer.

Further, the plate member further includes: the first fiber layer is provided with a positioning hole;

the positioning hole of the first fiber layer is sleeved on the positioning piece, and the positioning piece is arranged in the honeycomb lattices of the first honeycomb structure.

Further, the plate member further includes: the mounting piece is provided with a mounting hole;

the mounting holes of the first fiber layer are sleeved on the mounting pieces, and the mounting pieces are arranged in the honeycomb lattices of the first honeycomb structure.

Further, slurry is filled in the honeycomb lattices of the positioning piece;

further, the honeycomb lattices of the mounting piece are filled with slurry.

Further, the plate member further includes: a first set of cell structures;

the first cell structure group includes: a second honeycomb, a third fiber layer, and a slurry layer;

wherein the first surface of the second honeycomb structure is adapted to be laid on the slurry layer against the second fiber layer; a third fiber layer is laid on the second surface of the second honeycomb structure; the first surface of the second honeycomb structure is: a face of the second honeycomb structure that is in contact with a slurry layer laid on the second fiber layer; the second surface of the second honeycomb structure is: a face opposite the first surface of the second honeycomb:

and a slurry layer is paved on the third fiber layer, and the slurry of the slurry layer permeates the third fiber layer and is bonded with the second surface of the second honeycomb structure.

Further, the plate member further includes: a plurality of second cell structure groups, the second cell structure groups being cell structure groups having the same structure as the first cell structure groups;

and each second honeycomb structure group is sequentially overlaid and laid, and the first surface of the second honeycomb structure of each second honeycomb structure group is laid on the slurry layer of the upper honeycomb structure group.

Further, slurry is filled in preset honeycomb grids in the first honeycomb structure group, and the slurry completely fills the preset honeycomb grids.

Further, slurry is filled in preset honeycomb lattices in the second honeycomb structure group, and the slurry completely fills the preset honeycomb lattices.

Further, the slurry in the slurry layer includes: fire resistant coatings, freeze resistant coatings and water resistant coatings.

Further, the slurry layers comprise a first slurry layer and a second slurry layer; the first slurry layer is used for laying a fiber layer positioned at the outermost layer in the plate; the second slurry layer is used for laying a fiber layer positioned in the middle layer in the plate;

wherein the slurry in the first slurry layer comprises: fire-resistant coatings, anti-freezing coatings and waterproof coatings;

the slurry in the second slurry includes: and (5) insulating the slurry.

The embodiment of the utility model provides a pair of plate, this plate includes: a slurry layer, a first fiber layer, a first honeycomb structure, and a second fiber layer; two slurry layers are respectively paved on two sides of the first fiber layer; a first honeycomb structure is laid on any slurry layer; and slurry is filled in the preset honeycomb lattices of the first honeycomb structure, the preset honeycomb lattices are completely filled with the slurry, a slurry layer is laid on the second fiber layer, and the slurry in the slurry layer permeates the second fiber layer and is bonded with the second surface of the first honeycomb structure. Compared with the prior art, the utility model discloses the plate is integrated into one piece structure, and first honeycomb's first surface and second surface bond together through thick liquids and first fibrous layer and second fibrous layer respectively, and is visible, uses the utility model discloses the steadiness of the plate that the scheme that provides generated is higher, is difficult to receive plate service environment's influence, and nuisanceless coating can be chooseed for use to above-mentioned thick liquids in addition, consequently, uses the utility model discloses the suitability of plate can be improved to the scheme that provides. Of course, it is not necessary for any product or method of the invention to achieve all of the above-described advantages at the same time.

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.

Fig. 1 is a schematic cross-sectional structural view of a first plate according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional structural view of a second plate according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a third plate according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view illustrating a fourth plate according to an embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a fifth plate according to an embodiment of the present invention.

Wherein, 1-a slurry layer, 2-a first fiber layer, 3-a first honeycomb structure, 4-a second fiber layer, 5-a positioning piece, 6-a second honeycomb structure, 7-a third fiber layer and 8-a table top.

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.

In order to solve the prior art problem, the embodiment of the utility model provides an integration shaping generation method of plate.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a first plate according to an embodiment of the present invention, where the plate includes: a slurry layer 1, a first fiber layer 2, a first honeycomb structure 3 and a second fiber layer 4;

wherein, two slurry layers 1 are respectively paved on two sides of the first fiber layer 2;

a first honeycomb structure 3 is paved on any slurry layer 1;

the preset honeycomb lattices of the first honeycomb structure 3 are filled with slurry, and the preset honeycomb lattices are completely filled with the slurry; a second fiber layer 4 is laid on the second surface of the first honeycomb structure 3, the preset honeycomb grids are determined to be filled with slurry in the first honeycomb structure 3 according to the bearing capacity to be borne by the plate to be generated; the second surface of the first honeycomb structure 3 is: a first surface of the first honeycomb structure 3, which is opposite to the first surface of the first honeycomb structure 3, is: a surface of the first honeycomb structure 3 which is bonded to the slurry layer 1 laid on the first fiber layer 2;

and a slurry layer 1 is paved on the second fiber layer 4, and the slurry in the slurry layer 1 permeates the second fiber layer 4 and is bonded with the second surface of the first honeycomb structure 3.

Wherein, because the slurry layer 1, the first fiber layer 2, the first honeycomb structure 3 and the second fiber layer 4 can all be flexible structures, the plate can be produced by using a mold.

It can be seen that the shape of the panel is related to the shape of the inner surface of the mould in which it is formed, i.e. the shape of the inner surface of the mould determines the shape of the panel. When the inner surface of the mold is rectangular as shown in fig. 1, the resulting plate is a rectangular parallelepiped, and when the inner surface of the mold is conical as shown in fig. 2, the resulting plate is a shell having a conical section.

The inner surface of the mould can be provided with various patterns, and the mould can be used for carrying out pattern modeling on the slurry on the outermost layer of the plate.

The first honeycomb 3 may be a non-rigid structure such as a first honeycomb 3 made of a paper material, a honeycomb made of a fiberglass material.

The slurry in the upper slurry layer 1 penetrates the first fiber layer 2 and is bonded to the first surface of the first honeycomb structure 3, that is, part of the slurry in the slurry layer 1 can be bonded to the first surface of the first honeycomb structure 3 through the gaps provided in the first fiber layer 2 itself, so that the slurry bonds the first honeycomb structure 3 and the first fiber layer 2 together.

The selection of the material of the slurry in the slurry layer is related to the application scene of the generated plate, if the plate is used for a building wall, the slurry can be selected to meet the requirements specified by the building wall, and a coating with special functions can be added to form the plate with long service life, corrosion resistance and oxidation resistance.

For example: the slurry may be inorganic composite (FLC) having characteristics of long life, corrosion resistance, oxidation resistance, etc., gypsum, concrete, cement, etc. It can be seen that these slurries 1 are all non-hazardous materials and do not pose a threat to the environment or human health over extended periods of use.

The first fiber layer 2 may be a flexible body made of carbon fiber, glass fiber, nylon fiber, or the like. How the material of the first fibre layer 2 is chosen in the resulting panel is relevant for the actual way of the panel. If the panel is used as a building wall, the slurry 1 may be selected from cement, and if the panel is used as a floor, the slurry 1 may be selected from glass fiber.

The first fiber layer 2 and the second fiber layer 4 may be fiber layers made of the same material, or may not be fiber layers made of the same material, and the embodiment of the present invention is not limited thereto.

The second surface of the first honeycomb structure 3 is a surface of the first honeycomb structure 3 which is in contact with the second fiber layer 4.

According to the practical application scene of the plate to be generated, the bearing capacity which the plate is likely to bear is determined, and the pressure of the plate in unit area is determined, so that the position of the supporting force formed by filling the honeycomb lattices with the slurry in the first honeycomb structure is determined, and the pressure caused by the outside is overcome.

The slurry should be filled with the predetermined honeycomb cells so that the solidified slurry can have a supporting function.

Since the first fiber layer 2, the second fiber layer 4, the pulp 1 and the first honeycomb structure 3 are flexible objects and have strong plasticity, the plate can be formed into plates with various shapes through a mold.

The method for generating the first plate by adopting the die comprises the following steps:

selecting a mould for generating a plate, and coating a layer of slurry on the inner surface of the mould;

secondly, a first fiber layer, a layer of slurry and a first honeycomb structure are sequentially paved to be tightly attached to the slurry on the inner surface of the mold;

thirdly, laying a second fiber layer 4 on the second surface of the first honeycomb structure 3, and smearing a layer of slurry 1 on the laid second fiber layer 4, wherein the slurry 1 can penetrate through the second fiber layer 4 and is bonded with the second surface of the first honeycomb structure 3;

and step four, after the preset time, separating the formed plate from the die.

Therefore, the embodiment of the present invention provides a plate, which includes: a slurry layer 1, a first fiber layer 2, a first honeycomb structure 3 and a second fiber layer 4; two slurry layers 1 are respectively paved on two sides of the first fiber layer 2; a first honeycomb structure 3 is paved on any slurry layer 1; the slurry is filled in the preset honeycomb lattices of the first honeycomb structure, the preset honeycomb lattices are completely filled with the slurry, the second fiber layer 4 is laid on the second surface of the first honeycomb structure 3, the slurry layer 1 is laid on the second fiber layer 4, and the slurry in the slurry layer 1 permeates the second fiber layer 4 and is bonded with the second surface of the first honeycomb structure 3. Compared with the prior art, the utility model discloses the plate is integrated into one piece structure, and first honeycomb's first surface and second surface bond together through thick liquids and first fibrous layer and second fibrous layer respectively, and is visible, uses the utility model discloses the steadiness of the plate that the scheme that provides generated is higher, is difficult to receive plate service environment's influence, and nuisanceless coating can be chooseed for use to above-mentioned thick liquids in addition, consequently, uses the utility model discloses the suitability of plate can be improved to the scheme that provides.

In order to avoid the phenomenon that the first fiber layer 2 with higher density may have poor effect of penetrating the slurry 1, which may cause the phenomenon that the second fiber layer 2 has poor adhesion with the second surface of the first honeycomb structure 3, in an embodiment of the present invention, a penetration hole may be disposed at a predetermined position of the second fiber layer 4;

the preset position of the second fiber layer 4 can reserve the penetration holes on the first fiber layer in advance according to the area of the plate and the application of the plate, if the plate is large in area and used for building a wall body, the density of the penetration holes can be larger on the first fiber layer, and if the plate is small in area and only used for the bottom frame as a photo, the density of the penetration holes can be smaller on the second fiber layer 4.

It can be seen that the embodiment of the present invention provides a penetration hole, which helps to increase the adhesion between the second fiber layer 4 and the first honeycomb structure 3.

In an embodiment of the present invention, the plate further includes: the positioning piece 5 is provided with a positioning hole on the first fiber layer 2;

the positioning holes of the first fiber layer 2 are sleeved on the positioning pieces 5, and the positioning pieces 5 are arranged in the honeycomb lattices of the first honeycomb structure 3;

the positioning member 5 is used for positioning a plate to be produced on a mounting surface to be mounted.

Taking an example: as shown in fig. 3, in actual life, often see because the desktop 8 of a desk is bad, in order to make the desk not influence use and pleasing to the eye, may lead to the phenomenon that whole desk is just abandoned, has just so caused the extravagant problem of resource and cost, utilizes the utility model discloses above-mentioned problem can be solved to the plate that generates, at first need reserve on the desktop and have locating hole or mounting hole, through the locating hole of desktop 8 and the cooperation of the setting element 5 of plate, then can install plate and desktop 8 and form new desk on desktop 8. If the plate is damaged, only the plate surface is replaced without purchasing the whole table again, so that the cost is saved, and the resources are also saved.

As can be seen, the positioning hole of the first fiber layer 2 according to the embodiment of the present invention is sleeved on the positioning element 5, and the positioning element 5 is disposed in the honeycomb lattice of the first honeycomb structure 3; the installation of plate can be convenient for, installation time is saved.

In an embodiment of the present invention, the honeycomb lattices of the positioning member 5 are filled with slurry;

wherein the honeycomb lattice refers to the honeycomb lattice of the first honeycomb structure 3 in which the positioning member 5 is placed,

the slurry may be partially filled or may be completely filled in the honeycomb cell in which the positioning member 5 is placed, as long as the positioning member 5 can be firmly held in the honeycomb cell.

It can be seen that the embodiment of the utility model provides a be filled with thick liquids in the honeycomb check of setting element 5, can improve setting element 5's fastness, reinforcing setting element 5's bearing capacity.

In an embodiment of the present invention, the plate further includes: the mounting piece is provided with a mounting hole;

the mounting holes of the first fiber layer are sleeved on the mounting pieces, and the mounting pieces are arranged in the honeycomb lattices of the first honeycomb structure.

The mounting pieces are respectively used for mounting the plate to be generated on the mounting surface to be mounted.

Based on the above example: the plate member can be mounted on the table top 8 by the fitting of the mounting member of the plate member with the mounting hole of the table top 8. If the plate is damaged, only the plate surface is replaced without purchasing the whole table again, so that the cost is saved, and the resources are also saved.

It is visible, the utility model provides an installation hole cover of first fibrous layer is established on the installed part, and the installed part is arranged in first honeycomb's honeycomb check, can be convenient for the installation of the generated plate.

In one embodiment of the present invention, the honeycomb cells of the mounting member are filled with slurry;

wherein the above-mentioned honeycomb lattice means a honeycomb lattice in which the mounting pieces are placed in the first honeycomb structure 3,

the slurry may be partially filled or may be completely filled in the cell in which the mounting member is placed, as long as the mounting member can be made to be firmly held in the cell.

Therefore, the embodiment of the utility model has the advantages that the honeycomb lattices of the mounting part are filled with the slurry; the fastness of installed part can be improved, the bearing capacity of installed part is strengthened.

When the plate is used for building the wall, and the plate service environment is cold very much, and for the house is cold-proof, then the building wall that makes with the plate is also usually thicker, on this basis, as shown in fig. 4, the utility model provides an embodiment specifically is: the plate further includes: a first set of cell structures;

the first cell structure group includes: a second honeycomb 6, a third fiber layer 7 and a slurry layer 1;

wherein the first surface of the second honeycomb structure 6 is used to lay on the pulp layer next to the second fibre layer; a third fiber layer 7 is laid on the second surface of the second honeycomb structure 6; the first surface of the second honeycomb structure 6 is: a face in the second honeycomb structure 6 which is bonded to the slurry layer laid on the second fiber layer; the second surface of the second honeycomb structure 6 is: the face opposite to the first surface of the second honeycomb structure 6:

and a slurry layer is paved on the third fiber layer, and the slurry of the slurry layer permeates the third fiber layer 7 and is bonded with the second surface of the second honeycomb structure 6.

Wherein, the material of any two fibrous layer in first fibrous layer 2, second fibrous layer 4, and third fibrous layer 7 can be the same, also can be different, the embodiment of the utility model discloses the embodiment is not restricted to this.

It can be seen that the first honeycomb structure group of the embodiment of the present invention includes: a second honeycomb 6, a third fiber layer 7 and a slurry layer 1; the first surface of the second honeycomb structure is used for being laid on the slurry layer which is tightly attached to the second fiber layer; a third fiber layer is laid on the second surface of the second honeycomb structure, a slurry layer is laid on the third fiber layer, and slurry of the slurry layer permeates the third fiber layer and is bonded with the second surface of the second honeycomb structure; the stress strength and the stability of the plate can be enhanced.

When the plate still need continue to strengthen thickness cold-proof, in order to satisfy this demand, as shown in fig. 5, the utility model provides an embodiment specifically is: the plate further includes: a plurality of second cell structure groups, the second cell structure groups being cell structure groups having the same structure as the first cell structure groups;

and each second honeycomb structure group is sequentially overlaid and laid, and the second honeycomb structures of the second honeycomb structure groups are laid on the slurry layer of the upper honeycomb structure group.

The number of the second honeycomb structure groups is greater than or equal to 1,

since the second cell structure group is a cell structure group having the same structure as the first cell structure group, the second cell structure group includes: a second honeycomb 6, a third fiber layer 7 and a slurry layer 1;

for clarity of description, the second honeycomb 6 is referred to as the current second honeycomb, the third fiber layer 7 of the currently described second honeycomb group is referred to as the current third fiber layer, and the slurry layer 1 is referred to as the current slurry layer.

Wherein the first surface of the current second honeycomb structure is laid on the slurry layer 1 of the last honeycomb structure group, and the second surface of the current second honeycomb structure is laid with the current third fiber layer;

a current slurry layer is laid on the current third fiber layer, and slurry of the current slurry layer permeates the current third fiber layer and is bonded with the second surface of the current second honeycomb structure;

the second honeycomb structure 6 of the next honeycomb structure group is laid on the current slurry layer, and the rest is done in sequence, so that a plate provided with a plurality of second honeycomb structure groups can be formed.

The embodiment of the present invention provides a plurality of second honeycomb groups, which are formed into a plate according to the structure described in the above-mentioned current second honeycomb group.

It can be seen that the plate of the embodiment of the utility model provides a still include: a plurality of second cell structure groups, the second cell structure groups being cell structure groups having the same structure as the first cell structure groups; each second honeycomb group superposes in proper order and lays, and each the second honeycomb of second honeycomb group is laid on the thick liquids layer of last honeycomb group, and the thickness that has not only further thickened the plate has played cold-proof effect, can also improve the syllable-dividing and the sound absorption effect of plate through increasing second honeycomb group, has further improved the suitability of plate.

In an embodiment of the present invention, the predetermined honeycomb lattice in the first honeycomb structure group is filled with the slurry, and the slurry completely fills the predetermined honeycomb lattice.

It can be seen that, the embodiment of the utility model provides an in the preset honeycomb check in the first honeycomb structure group fill with the thick liquids, can further strengthen the receiving strength of plate, increase the incorruptibility of plate, and then improve the suitability of plate.

In an embodiment of the present invention, the predetermined honeycomb lattice in the second honeycomb structure group is filled with the slurry, and the slurry completely fills the predetermined honeycomb lattice.

It can be seen that the embodiment of the utility model provides an in the second honeycomb structure group predetermine the honeycomb check and fill in having the thick liquids, can further strengthen the atress intensity of plate, increase the incorruptibility of plate, and then improve the suitability of plate.

In an embodiment of the present invention, the slurry includes: fire-resistant coatings, antifreeze coatings and waterproof coatings.

The fire-resistant coating, the antifreezing coating and the waterproof coating can be mixed in a preset proportion to form the slurry with the functions of fire prevention, cold prevention and water prevention.

It can be seen that the slurry 1 provided by the embodiment of the present invention includes fire-resistant paint, anti-freezing paint and waterproof paint, so that the produced plate has the functions of fire prevention, cold prevention and water prevention.

In an embodiment of the present invention, the slurry layer 1 includes a first slurry layer and a second slurry layer; the first slurry layer is used for laying a fiber layer positioned at the outermost layer in the plate; the second slurry layer is used for laying a fiber layer positioned in the middle layer in the plate;

wherein the slurry in the first slurry layer comprises: fire-resistant coatings, anti-freezing coatings and waterproof coatings;

the slurry in the second slurry includes: and (5) insulating the slurry.

The second slurry layer may be a slurry layer used after the first slurry layer is removed from the slurry layers used for the panel.

The embodiment of the utility model provides an in first thick liquids layer and the thick liquids in the second thick liquids layer can select the thick liquids that use nuisanceless material.

It can be seen that the plate that first thick liquids layer and second thick liquids layer of the utility model embodiment generated can have heat preservation, winter protection, fire prevention and waterproof function.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A panel, the panel comprising: a pulp layer (1), a first fiber layer (2), a first honeycomb structure (3) and a second fiber layer (4);

wherein two slurry layers (1) are respectively paved on two sides of the first fiber layer (2);

a first honeycomb structure (3) is paved on any slurry layer (1);

slurry is filled in the preset honeycomb lattices of the first honeycomb structure (3), and the slurry is completely filled in the preset honeycomb lattices; a second fiber layer (4) is laid on the second surface of the first honeycomb structure (3); the second surface of the first honeycomb structure (3) is: a first surface of the first honeycomb structure (3) opposite to the first surface, the first surface of the first honeycomb structure (3) being: a surface in the first honeycomb structure (3) which is in contact with the slurry layer (1) laid on the first fiber layer (2);

and a slurry layer (1) is paved on the second fiber layer (4), and the slurry in the slurry layer (1) permeates the second fiber layer (4) and is bonded with the second surface of the first honeycomb structure (3).

2. The plate according to claim 1, characterized in that penetration holes are provided at predetermined positions of said second fibrous layer (4).

3. The plate of claim 1, wherein the plate further comprises: the positioning piece (5), the first fiber layer (2) is provided with a positioning hole;

the positioning hole of the first fiber layer (2) is sleeved on the positioning piece (5), and the positioning piece (5) is arranged in the honeycomb lattices of the first honeycomb structure (3).

4. The plate of claim 1, wherein the plate further comprises: the mounting piece is provided with a mounting hole on the first fiber layer (2);

the mounting holes of the first fiber layer (2) are sleeved on the mounting pieces, and the mounting pieces are arranged in the honeycomb lattices of the first honeycomb structure (3).

5. A plate according to claim 3, characterized in that the honeycomb cells of the spacer (5) are filled with a slurry.

6. The panel of claim 4, wherein the honeycomb cells of the mounting member are filled with a slurry.

7. The panel as claimed in any one of claims 1 to 6, further comprising: a first set of cell structures;

the first cell structure group includes: a second honeycomb structure (6), a third fiber layer (7) and a slurry layer (1);

wherein a first surface of the second honeycomb structure (6) is intended to be laid on the pulp layer (1) next to the second fibre layer (4); a third fiber layer (7) is paved on the second surface of the second honeycomb structure (6); the first surface of the second honeycomb structure (6) is: a surface in the second honeycomb structure (6) which is in contact with the slurry layer (1) laid on the second fiber layer (4); the second surface of the second honeycomb structure (6) is: a face opposite to the first face of the second honeycomb structure (6):

and a slurry layer (1) is paved on the third fiber layer (7), and the slurry of the slurry layer (1) permeates the third fiber layer (7) and is bonded with the second surface of the second honeycomb structure (6).

8. The plate of claim 7 wherein the plate further comprises: a plurality of second cell structure groups, the second cell structure groups being cell structure groups having the same structure as the first cell structure groups;

and each second honeycomb structure group is sequentially overlaid and laid, and the second honeycomb structure (6) of each second honeycomb structure group is laid on the slurry layer (1) of the last honeycomb structure group.

9. The panel according to claim 7, wherein a predetermined honeycomb cell in the first honeycomb structure group is filled with a slurry, and the slurry completely fills the predetermined honeycomb cell.

10. The panel according to claim 8, wherein a predetermined honeycomb cell in the second honeycomb structure group is filled with a slurry, and the slurry completely fills the predetermined honeycomb cell.

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