CN216405828U - Assembled basalt fiber partition plate - Google Patents

Abstract

The utility model discloses an assembled basalt fiber partition board which is provided with two groups of flange plates, wherein the two groups of flange plates can be clamped with each other, splicing blocks are convenient to transport and simple to construct, the two groups of flange plates are spliced with each other, the problem of large splicing gaps is effectively solved, and the design of the flange plates is more beneficial to splicing and forming of the plates. The assembled basalt fiber partition board is also internally provided with a cavity, so that pipelines can be embedded in the wall body, and the problem that the traditional solid partition board or small round hole hollow partition board is difficult to embed the pipelines and needs to be cut on site is solved; in addition, the stiffening ribs are arranged in the cavity, so that the weight of the wallboard is reduced on the premise of not reducing the strength; the middle cavity of the assembled basalt fiber partition wall board is filled with a heat insulation material, so that the heat insulation and sound insulation performance of the wall board can be further improved; meanwhile, light concrete can be prefabricated and filled according to the requirement, or building slag, soil and other counterweight materials can be filled on site, and the production and the construction are simple and convenient.

Description

Assembled basalt fiber partition plate

Technical Field

The utility model relates to the field of house construction and structural engineering, in particular to an assembled basalt fiber partition board.

Background

In recent years, the assembled partition industry in China is rapidly developed, the types of products are more than 10, most of the products are mainly made of lightweight concrete materials, different products have the problems of low strength, easy zero-missing corner drop or local crushing, obvious drying shrinkage effect and temperature shrinkage effect, poor crack resistance, easy cracking of a board surface, poor moisture resistance, easy moisture deformation of the wallboard, rotten root and the like, poor out-of-plane bending resistance and incapability of meeting the requirement of earthquake resistance safety, and therefore the basalt fiber partition board is adopted, and the wallboard made of the material has the advantages of light dead weight, excellent mechanical property, good moisture resistance and waterproof property, good crack resistance, good corrosion resistance and good fireproof performance, but has the problems of inconvenient construction and transportation and large splicing gaps.

Disclosure of Invention

The utility model provides an assembled basalt fiber partition board, which is used for solving the problems of inconvenient construction and transportation and large splicing gap.

The utility model is realized by the following technical scheme:

the utility model provides an assembled basalt fiber partition plate, includes basalt fiber composite sheet and connection flange board, and the connection flange board has two sets ofly, includes first connection flange plate group and second connection flange plate group, and first connection flange plate group and second connection flange plate group set up on two relative sides of basalt fiber composite sheet, and the first connection flange plate group of one of them basalt fiber composite sheet of two basalt fiber composite sheets and the second connection flange plate group of another basalt fiber composite sheet can splice the assembly each other.

Preferably, the basalt fiber composite board is a rectangular board, weight-reducing holes or weight-reducing grooves are formed in the basalt fiber composite board, the weight-reducing holes or the weight-reducing grooves penetrate through two opposite side edges which are not provided with the connecting flange boards, and the weight-reducing holes or the weight-reducing grooves form weight-reducing cavities.

Preferably, stiffening ribs are arranged in the weight reducing cavity, and the stiffening ribs are connected with two surfaces of the basalt fiber composite board and are uniformly distributed in the whole weight reducing cavity.

Preferably, the thickness of the side wall of the weight reducing cavity is more than or equal to 10mm, the thickness of the side wall of the weight reducing cavity is not more than that of the basalt fiber partition wall, the stiffening ribs are arranged at intervals of 200-300 mm, and the thickness of the stiffening ribs is more than or equal to 10mm and not more than the side length of the basalt fiber composite plate.

Preferably, the weight-reducing cavity may be filled with one or more of the following layers of material: rock wool layer, stereoplasm foaming polyurethane layer, light insulation concrete layer.

Preferably, the first connecting flange plate and the second connecting flange plate are rectangular parallelepiped plates, the first connecting flange plate and the second connecting flange plate are connected to two opposite long sides of the basalt fiber composite plate, and the lengths of the longest sides of the first connecting flange plate and the second connecting flange plate are equal to the length of the longest side of the basalt fiber composite plate.

Preferably, the first connecting flange plate group comprises at least two first connecting flange plates, the two first connecting flange plates in the first connecting flange plate group are arranged in parallel and level with the surface of the basalt fiber composite plate, and the two ends of the two first connecting flange plates in the first connecting flange plate group are in parallel and level with the same end of the basalt fiber composite plate; the second connecting flange plate in the second connecting flange plate group is arranged on the other side edge opposite to the connecting side edge of the first connecting flange plate group, and is flush with one side of the first connecting flange plate, which is far away from the basalt fiber composite plate surface, and the two ends of the second connecting flange plate are flush with the same end of the basalt fiber composite plate; a groove which can be matched with the second connecting flange plate is formed between the two first connecting flange plates of the first connecting flange plate group.

Preferably, the thickness of the first connecting flange plate and the thickness of the second connecting flange plate are equal to the thickness of the side wall of the weight-reducing cavity, and the distance between the first connecting flange plate and the basalt fiber composite plate and the distance between the second connecting flange plate and the same side of the basalt fiber composite plate are both 20mm-30 mm.

Preferably, an integrated composite layer can be arranged on the basalt fiber composite board.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

1. the assembled basalt fiber partition board is provided with the two groups of flange plates, the two groups of flange plates can be clamped with each other, the splicing blocks are convenient to transport and simple to construct, the two groups of flange plates are spliced with each other, the problem of large splicing gaps is effectively solved, and the design of the flange plates is more beneficial to splicing and forming of the plates.

2. The assembled basalt fiber partition board is provided with the cavity, so that pipelines can be embedded in the wall body, and the problem that the traditional solid partition board or small round hole hollow partition board is difficult to embed the pipelines and needs to be cut on site is solved; in addition, the stiffening ribs are arranged in the cavity, so that the weight of the wallboard is reduced on the premise of not reducing the strength;

3. the middle cavity of the assembled basalt fiber partition wall board is filled with a heat insulation material, so that the heat insulation and sound insulation performance of the wall board can be further improved; meanwhile, light concrete can be prefabricated and filled according to the requirement, or building slag, soil and other counterweight materials can be filled on site, so that the production and construction are simple and convenient;

4. the basalt fiber composite panel has the outstanding advantages of light weight, high strength, corrosion resistance, good fireproof performance, good moisture-proof and waterproof performance, low heat conductivity coefficient and the like which are incomparable with concrete and steel, so that the problems of easy cracking, poor waterproof and mildew-proof performance and easy damage of the traditional assembled partition board can be effectively avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the principles of the utility model.

In the drawings:

FIG. 1 is a schematic structural diagram provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a splicing structure provided in an embodiment of the present invention;

fig. 3 is a schematic view of a word splicing structure according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an "L" type splicing structure provided in an embodiment of the present invention;

fig. 5 is a schematic diagram of a "T" type splicing structure provided in the embodiment of the present invention.

Reference numbers and corresponding part names in the drawings:

the basalt fiber composite board comprises a basalt fiber composite board body, a first connecting flange plate group 2, a first connecting flange plate 201, a second connecting flange plate group 3, a second connecting flange plate 301, a stiffening rib 4, a weight reducing cavity 5 and a lengthening connecting flange plate 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Examples

As shown in fig. 1 and 2, an assembled basalt fiber partition board includes two basalt fiber composite boards 1 and two connection flange boards, each of the connection flange boards includes a first connection flange board group 2 and a second connection flange board group 3, the first connection flange board group 2 and the second connection flange board group 3 are disposed on two opposite sides of the basalt fiber composite board 1, and the first connection flange board group 2 of one of the two basalt fiber composite boards 1 and the second connection flange board group 3 of the other basalt fiber composite board 1 can be assembled by being spliced with each other.

The smaller peripheral surface of the basalt fiber composite board 1 is called an edge, namely the thickness surface is called an edge, the larger peripheral surface is called a surface, the mentioned side edges refer to the peripheral side edges with smaller area, and the surface refers to the upper surface and the lower surface with larger area. The width of the basalt fiber composite board 1 is 600mm, the thickness is between 100mm and 200mm, the height of the wall board is different according to the different thickness of the basalt fiber composite board 1, and specifically, the installation height of the partition wall board with the thickness of 100mm is not more than 3000 mm; the mounting height of the partition board with the thickness of 120mm is not more than 3900 mm; the installation height of the partition board with the thickness of 140mm and 150mm is not more than 4500 mm; the installation height of the partition boards with the thickness of 180mm, 200mm and 210mm is not more than 4800 mm. The partition board adopts the basalt fiber composite board 1, has outstanding advantages that the concrete and steel are incomparable, such as light weight, high strength (the density can reach 1/4 of steel, and the bending strength and the tensile strength can reach 1-3 times of common carbon steel), corrosion resistance, good fire resistance, good moisture resistance and water resistance, low heat conductivity coefficient and the like, thereby effectively avoiding the problems that the traditional assembled partition board is easy to crack, poor in water resistance and mildew resistance and easy to damage; the two side edges of the basalt fiber partition board are provided with the connecting flange plate groups, the connecting flange plate groups comprise a first connecting flange plate group 2 and a second connecting flange plate group 3, the connecting flange plate groups can be arranged into shapes which are easy to clamp, the connecting flange plate groups are of a better structure, the connecting flange plate groups can be arranged into a structure similar to the structure shown in the figure 3, and the purpose is to ensure that the splicing is stable during assembly.

The basalt fiber composite panel 1 is formed by compounding flame-retardant resin and basalt fiber according to a certain proportion, wherein the basalt fiber can be one or more of the following: chopped basalt fibers, unidirectional continuous basalt fibers, basalt fiber grids and basalt fiber cloth; the basalt fiber composite panel 1 can also be formed by compounding basalt fibers and concrete or cement according to a certain proportion, wherein the basalt fibers can be one or more of the following: chopped basalt fibers, unidirectional continuous basalt fibers, basalt fiber grids and basalt fiber cloth.

In order to ensure that the basalt fiber partition board ensures light weight and the pipeline is embedded conveniently, the basalt fiber composite board 1 is a cuboid board, lightening holes or lightening grooves are formed in the basalt fiber composite board 1 and penetrate through two opposite side edges which are not provided with connecting flange boards, and the lightening holes or the lightening grooves form lightening cavities 5. The weight reduction cavity 5 is arranged to reduce the overall weight, the large weight reduction cavity 5 is arranged, pipelines can be embedded in the wall body in a pre-buried mode, the problem that the traditional solid partition board or small round hole hollow partition board is difficult to embed the pipelines and the wall board needs to be cut on site is solved.

In order to meet the requirement that the strength is high enough, the strength is not affected under the condition of reducing the weight, stiffening ribs 4 are arranged in the weight reducing cavity 5, and the stiffening ribs 4 are connected with two surfaces of the basalt fiber composite board 1 and are uniformly distributed in the whole weight reducing cavity 5. The thickness of the side wall of the weight reducing cavity 5 is more than or equal to 10mm, the thickness of the side wall of the weight reducing cavity 5 is not more than that of the basalt fiber partition board 1, the transverse stiffening ribs 4 are arranged at a distance of 200-300 mm, and the thickness of the stiffening ribs 4 is more than or equal to 10mm and not more than the side length of the basalt fiber composite board 1. The stiffening ribs 4 arranged in the weight reducing cavity 5 can be rod-shaped or plate-shaped, and are specifically designed according to requirements, the stiffening ribs 4 are connected with two surfaces of the basalt fiber composite board 1, and play a main supporting role when the assembly is completed, so that the strength of the partition board is ensured.

In order to meet the requirements of specific conditions, such as heat preservation and the like, the weight-reducing cavity 5 can be filled with one or more of the following material layers: rock wool layer, stereoplasm foaming polyurethane layer, light insulation concrete layer. The heat insulation material is filled in the middle weight-reducing cavity 5 of the assembled basalt fiber partition wall board, so that the heat insulation and sound insulation performance of the wall board can be further improved; meanwhile, the light concrete can be prefabricated and filled according to the requirement, or the counterweight materials such as construction slag, soil and the like can be filled on site, the production and the construction are simple and convenient, local materials can be conveniently used when the light concrete is applied in the countryside, and the environment is really protected.

For making the concatenation convenient, first connection flange board 201 and second connection flange board 301 are the cuboid board, and first connection flange board 201 and second connection flange board 301 are connected in two relative long limits of basalt fiber composite sheet 1, and the longest limit length of first connection flange board 201 and second connection flange board 301 equals the length with the longest limit of basalt fiber composite sheet 1. The first connecting flange plate group 2 and the second connecting flange plate group 3 are preferably rectangular solids, but may be irregular shapes that can be stably spliced. The longest edge of the connection is stable enough when the connection is ensured, the connection area is large, the length of the longest edge of the first connection flange plate group 2 and the second connection flange plate group 3 is equal to the length of the longest edge of the basalt fiber composite board 1, the connection can be ensured to be covered comprehensively, and the stability when the connection is also enhanced.

In order to ensure the splicing of the two basalt fiber partition boards, the first connecting flange plate group 2 comprises at least two first connecting flange plates 201, the two first connecting flange plates 201 in the first connecting flange plate group 2 are arranged in parallel and level with the surface of the basalt fiber composite board 1, one side of the basalt fiber composite board 1 of the first connecting flange plates 201 is tightly attached, and the other side of the basalt fiber composite board 1 is in parallel and level with the other side of the basalt fiber composite board 1; two ends of two first connecting flange plates 201 in the first connecting flange plate group 2 are flush with the same end of the basalt fiber composite plate 1, and the two ends are flush, so that after the installation is finished, the assembled structure is still in a regular plate shape, in addition, the first connecting flange plates 201 can be arranged at two or more than two, but two first connecting flange plates 201 are required to be respectively flush with two sides of the basalt fiber composite plate 1 and tightly attached to the side edge of the basalt fiber composite plate 1, if a third connecting flange plate or a fourth connecting flange plate is arranged between the two first connecting flange plates 201 which are respectively flush with the same side and are respectively flush with grooves formed by the basalt fiber composite plate 1, and the first connecting flange plates can be matched with the second connecting flange plate group 3; the second connecting flange plate 301 in the second connecting flange plate group 3 is arranged at the other side edge opposite to the connecting side edge of the first connecting flange plate group 2, if the second connecting flange plate group 3 only has one second connecting flange plate 301, the two side edges of one second connecting flange plate 301 are respectively flush with one side of the two first connecting flange plates 201 away from the basalt fiber composite board 1 surface, if the second connecting flange plate group 3 has two second connecting flange plates 301, the two second connecting flange plates 301 are respectively flush with one side of the two first connecting flange plates 201 away from the basalt fiber composite board 1 surface, and the two ends of the two second connecting flange plates 301 are flush with the same end of the basalt fiber composite board 1, the second connecting flange plates 301 can also be provided with two or more than two, as long as the second connecting flange plates can be matched with the first connecting flange plate group 2; a groove adapted to the second connecting flange plate 301 is formed between the two first connecting flange plates 201 of the first connecting flange plate group 2. Wherein two first connection flange boards 201 of first connection flange board group 2 must with 1 surperficial parallel and level of basalt fiber composite sheet, it does not have the space to guarantee the junction between two first connection flange boards 201 and the basalt fiber composite sheet 1 after the installation, can guarantee that water is difficult to permeate, thereby reach damp-proofing effect, second connection flange board 301 of second connection flange board group 3 sets up will with first connection flange board group 1 phase-match, be convenient for overlap each other, guarantee that the concatenation is stable.

The strength after connection is ensured, the thickness of the first connecting flange plate 201 and the thickness of the second connecting flange plate 301 are equal to the thickness of the side wall of the weight-reducing cavity 5, and the distances between the first connecting flange plate 201 and the basalt fiber composite plate 1 and the distances between the second connecting flange plate 301 and the same side of the basalt fiber composite plate 1 are both 20mm-30 mm. The lengths of the side edges of the first connecting flange plate 201 and the second connecting flange plate 301 cannot be too short, and if the lengths are too short, the connection is unstable and the connection is easy to drop; if length overlength, the centre can be formed with the cavity but the unsupported state after connecting, then the intensity of connecting portion can be not enough, leads to holistic intensity not enough, can have the potential safety hazard.

In order to complete the decoration integration, an integrated composite layer can be arranged on the basalt fiber partition board 1. The basalt fiber partition board 1 can resist high temperature, and a layer of wood grain imitation, stone prevention, ceramic tile prevention and other materials can be compounded on the surface layer at high temperature, so that decoration integration is achieved, construction procedures are reduced, cost is saved, wall thickness is reduced, and effective use area of a building is increased.

The basalt fiber partition board is specifically realized in such a way that a first connecting flange plate group 2 and a second connecting flange plate group 3 which are used for splicing are arranged on the side edge of the basalt fiber partition board 1, the first connecting flange plate group 2 and the second connecting flange plate group 3 can be in various shapes, but two requirements are met, firstly, the first connecting flange plate group 2 and the second connecting flange plate group 3 can be ensured to be just spliced with each other, secondly, after splicing is ensured, the spliced part is in a flat plate shape, and the regular shape of the flat plate is not influenced by bulges or depressions; a weight reducing cavity 5 is arranged in the middle of the basalt fiber partition board, and a stiffening rib 4 is arranged on the weight reducing cavity 5 to ensure that the weight is reduced and the strength is ensured; and the heat-insulating material and the like are arranged in the weight-reducing cavity 5, so that other requirements are met, and finally the plurality of basalt fiber partition boards 1 are spliced to form the basalt fiber partition board.

Example 2

As shown in fig. 3, set up extension flange plate 6, at wallboard concatenation in-process, one section distance of every interval can need to set up and pour the reinforced concrete earth pillar, intensity and shock resistance etc. with the assurance wall, when using ordinary partition plate, need plus the template, form and pour the space, but because the both sides of basalt fiber partition plate are provided with extension flange plate 6, two sets of extension flange plate 6 splice each other, can form and pour the space, the work of form removal has been removed from, and can guarantee that the concatenation of partition plate and the reinforced concrete earth pillar of pouring connect more firmly.

Example 3

As shown in fig. 3 and 4, the connecting flange plates are set to be in a proper shape, a pouring space is formed at the corners, two basalt fiber partition boards are spliced at the corners of the L shape to form the L-shaped corner, the connecting flange plates are set to be longer on one side and shorter on the other side, so that two longer connecting flange plates can be connected to form a vertical outer corner, and two shorter plates are connected to form a vertical inner corner, so that a reinforced concrete column pouring space is formed. At a T-shaped corner, three basalt fiber partition boards are spliced to form the prefabricated reinforced concrete column, wherein connecting flange plates of two basalt fiber partition boards are arranged to be longer on one side and shorter on the other side, the longer connecting flange plates are spliced to form a plane, the two shorter connecting flange plates of the two basalt fiber partition boards and the connecting flange plates of the third basalt fiber partition board are spliced to form a right-angle inner corner, so that a pouring space is formed, the work of disassembling a mold is omitted, the splicing of the partition boards and the connection of the poured reinforced concrete column can be ensured to be firmer, and the splicing method comprises but is not limited to series products of I-shaped, L-shaped, T-shaped and cross-shaped connection.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The assembled basalt fiber partition board is characterized by comprising two groups of basalt fiber composite boards and connecting flange boards, wherein the connecting flange boards comprise a first connecting flange board group and a second connecting flange board group, the first connecting flange board group and the second connecting flange board group are arranged on two opposite side edges of the basalt fiber composite boards, and the first connecting flange board group of one of the two basalt fiber composite boards and the second connecting flange board group of the other basalt fiber composite board can be spliced and assembled with each other.

2. The assembled basalt fiber partition board according to claim 1, wherein the basalt fiber composite board is a rectangular parallelepiped board, weight reducing holes or weight reducing grooves are formed in the basalt fiber composite board, the weight reducing holes or weight reducing grooves penetrate through two opposite sides of the flange board without connecting, and the weight reducing holes or weight reducing grooves form weight reducing cavities.

3. The assembled basalt fiber partition wall board according to claim 2, wherein stiffening ribs are arranged in the weight reducing cavity, and the stiffening ribs are connected with two surfaces of the basalt fiber composite board and are uniformly distributed in the whole weight reducing cavity.

4. The assembled basalt fiber partition board according to claim 2, wherein the thickness of the side wall of the weight reducing cavity is not less than 10mm, the thickness of the side wall of the weight reducing cavity is not more than that of the basalt fiber partition board, the stiffening ribs are arranged at intervals of 200 mm-300 mm, and the thickness of the stiffening ribs is not less than 10mm and not more than the side length of the basalt fiber composite board.

5. The prefabricated basalt fiber partition board according to claim 2, wherein the weight-reducing cavity is filled with one or more of the following material layers: rock wool layer, stereoplasm foaming polyurethane layer, light insulation concrete layer.

6. The assembled basalt fiber partition wall board according to claim 1, wherein the first and second connecting flange plates are rectangular parallelepiped plates, the first and second connecting flange plates are connected to two opposite long sides of the basalt fiber composite plate, and the lengths of the longest sides of the first and second connecting flange plates are equal to the length of the longest side of the basalt fiber composite plate.

7. The assembled basalt fiber partition wall board according to claim 6, wherein the first connecting flange plate group comprises at least two first connecting flange plates, wherein the two first connecting flange plates in the first connecting flange plate group are arranged flush with the surface of the basalt fiber composite board, and both ends of the two first connecting flange plates in the first connecting flange plate group are flush with the same end of the basalt fiber composite board; a second connecting flange plate in a second connecting flange plate group is arranged on the other side edge opposite to the connecting side edge of the first connecting flange plate group, and is flush with one side of the first connecting flange plate, which is far away from the basalt fiber composite plate surface, and the two ends of the second connecting flange plate are flush with the same end of the basalt fiber composite plate; a groove which can be matched with the second connecting flange plate is formed between the two first connecting flange plates of the first connecting flange plate group.

8. The assembled basalt fiber partition board according to claim 7, wherein the first connecting flange plate and the second connecting flange plate have the same thickness as the weight-reducing cavity side wall, and the distance between the first connecting flange plate and the basalt fiber composite plate and the same side of the basalt fiber composite plate is 20mm to 30 mm.

9. The prefabricated basalt fiber partition wall board according to claim 1, wherein an integrated composite layer can be arranged on the basalt fiber composite board.

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