CN116733144A - High-strength wall body of nonmetal module plate - Google Patents

Abstract

The invention discloses a high-strength wall body of a non-metal module plate, which comprises wall body units and non-metal module plates, wherein through holes are formed in the surfaces of the non-metal module plates, the number of the non-metal module plates is two or more, all the non-metal module plates are movably connected into a whole and fixed in the high-strength wall body, the wall body units are covered on the surfaces of the non-metal module plates, and the wall body units and the non-metal module plates are connected into a whole after the high-strength wall body is molded. The nonmetal module plates in the high-strength wall body are movably connected into a whole, so that the high-strength wall body is very convenient to install and detach during construction; compared with the screen plate made of metal materials, the non-metal module plate has low production energy consumption and light weight, and is particularly suitable for walls in acid-base environments; in addition, the inside of the high-strength wall body forms a hollow hole, the heat insulation performance of the wall body is good, and the wall body unit and the nonmetal module plate are connected into a whole, so that the whole stress performance is good.

Description

High-strength wall body of nonmetal module plate

Technical Field

The invention relates to the field of building walls, in particular to a high-strength wall of a nonmetal module board.

Background

The hollow internal mold metal net wall body or the hollow internal mold steel net structure wall body adopts traditional building materials, and changes the combination mode of the materials and the construction method, namely: the inside adopts two-layer metal mesh and fossil fragments that relatively fixed to form the skeleton, and cement mortar is smeared on the surface of wall body again, has construction speed fast, wall body light in weight, advantage that the wholeness is good. Because the metal net is adopted, the metal net has higher energy consumption in production, larger weight and inconvenient installation and disassembly (most of the metal net is connected by connecting pieces or binding wires); in addition, for special application scenarios, such as: in order to meet the current national 'double carbon' policy, the development of a new wall suitable for the acid-base environment is urgently needed.

Disclosure of Invention

In view of the defects of the existing wall, the high-strength wall provided by the invention has the advantages that the nonmetal module plates in the high-strength wall are movably connected into a whole, and the installation and the disassembly are very convenient during construction; compared with the screen plate made of metal materials, the non-metal module plate has low energy consumption and light weight in production, and is particularly suitable for walls in acid-base environments.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical scheme:

the utility model provides a high strength wall body of nonmetal module board, includes wall body unit, high strength wall body still includes the nonmetal module board that the surface was equipped with the through-hole, the quantity of nonmetal module board is two or more, and all nonmetal module boards all swing joint become an entity and fix in high strength wall body, wall body unit covers on the surface of nonmetal module board, after the high strength wall body shaping, wall body unit and nonmetal module board connect into an entity.

According to one aspect of the invention, the number of the nonmetallic module boards is two, and the nonmetallic module boards are relatively fixed in the high-strength wall body.

According to one aspect of the invention, the number of the nonmetallic module boards is three or more, and the nonmetallic module boards between adjacent nonmetallic module boards are oppositely or/and combined and fixed in the high-strength wall body.

According to one aspect of the invention, the high-strength wall further comprises module board units, the number of the nonmetallic module boards is even, the module board units are formed by relatively fixing two nonmetallic module boards, and the module board units are movably connected into a whole and are fixed in the high-strength wall side by side.

According to one aspect of the invention, the high-strength wall further comprises a module board unit and a single module board, wherein the number of the nonmetallic module boards is an odd number, the module board unit is formed by relatively fixing two nonmetallic module boards, the single module board is a nonmetallic module board, and the module board unit and the single module board are movably connected into a whole.

According to one aspect of the invention, the nonmetallic module plate comprises a plurality of reinforcing areas, a plurality of grooves and a plurality of convex reinforcing ribs, wherein adjacent grooves are connected into a whole through the convex reinforcing ribs, and the reinforcing areas are positioned on the convex reinforcing ribs; the direction of the grooves is inclined.

According to one aspect of the invention, the material of the nonmetallic module plate is a plastic or fiber material; the high strength wall further includes a plurality of stiffeners, all mounted in the grooves.

According to one aspect of the invention, the nonmetallic module plate is in a wave shape, the directions of the grooves are the same, and the reinforcing areas and the grooves are regularly arranged on the nonmetallic module plate; the high-strength wall body further comprises a clamping head and a clamping hole, wherein the clamping head and the clamping hole are both positioned on the reinforcing area, and after the nonmetallic module plates are movably connected, the clamping head is inserted into the clamping hole.

According to one aspect of the invention, the grooves on adjacent nonmetallic module boards are staggered in direction, the stiffeners are arranged in a crossed manner, and hollow holes are formed between the grooves or/and between the grooves and the wall units.

According to one aspect of the invention, the high-strength wall further comprises fixing pieces, beams or/and floor slabs positioned around the wall units, wherein two sides of the nonmetal module plates are arranged on the posts through the fixing pieces, and the upper ends and the lower ends of the nonmetal module plates are arranged on the beams or/and the floor slabs through the fixing pieces; the nonmetal module plate is assembled by a plurality of nonmetal assembly plates.

The implementation of the invention has the advantages that: the invention provides a high-strength wall body, which comprises a wall body unit and non-metal module plates, wherein the surfaces of the non-metal module plates are provided with through holes, the two sides of each non-metal module plate are generally arranged on a column through fixing pieces, the upper end and the lower end of each non-metal module plate are generally arranged on a beam or/and a floor slab through fixing pieces, and as the number of the non-metal module plates is two or more, all the non-metal module plates are movably connected into a whole and are fixed in the wall body unit; as the nonmetallic module plates in the high-strength wall body are all movably connected into a whole, the assembly and the disassembly are very convenient during construction; because the non-metal module plate (such as a plastic module plate) is adopted, compared with the screen plate made of metal materials, the non-metal module plate has low production energy consumption, light weight and low cost, and is particularly suitable for walls in acid-base environments; in addition, the nonmetal module plate comprises a plurality of reinforcing areas, a plurality of grooves and a plurality of convex reinforcing ribs, adjacent grooves are connected into a whole through the convex reinforcing ribs, and as hollow holes are formed between the grooves or/and between the grooves and the wall body units, the heat insulation performance of the wall body is good, and the weight is light.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a high strength wall of a non-metallic modular plate according to the present invention;

FIG. 2 is a schematic view of a module board unit in a nonmetallic module board according to the present invention;

FIG. 3 is a schematic view of a first embodiment of a single module board of a nonmetallic module board according to the present invention;

FIG. 4 is a schematic view of a second embodiment of a single module board in a non-metallic module board according to the present invention;

FIG. 5 is a schematic view of a third embodiment of a single module board in a nonmetallic module board according to the present invention;

FIG. 6 is a schematic plan view of a first embodiment of a combination and fixation of a group of module board units and a single module board when the nonmetallic module boards are three in number;

FIG. 7 is a schematic plan view of a second embodiment of a combination of a group of module board units and a single module board when the shape of the nonmetallic module board is wavy and the number of nonmetallic module boards is three;

FIG. 8 is a schematic plan view of a first embodiment of a combination and fixation of two sets of module board units when the shape of the nonmetallic module board is wavy and the number of nonmetallic module boards is four;

fig. 9 is a schematic plan view of a second embodiment of a combination and fixation of two groups of module board units when the shape of the nonmetal module board is wavy and the number of nonmetal module boards is four.

Detailed Description

The invention will be further described with reference to the drawings.

As shown in fig. 1 to 9, a high-strength wall body of a non-metal module board, the high-strength wall body comprises wall body units 4 and non-metal module boards 1 with through holes 7 on the surfaces, the number of the non-metal module boards 1 is two or more, all the non-metal module boards 1 are movably connected into a whole and fixed in the high-strength wall body, the wall body units 4 are covered on the surfaces of the non-metal module boards 1, and after the high-strength wall body is formed, the wall body units 4 and the non-metal module boards 1 are connected into a whole.

In practical applications, the wall unit 4 is generally one or more of cement mortar, fine stone concrete, gypsum and synthetic materials, after the thermal insulation wall is formed, the wall unit 4 can be directly covered on the surface of the non-metal module board 1, meanwhile, when the wall unit 4 is cement mortar or fine stone concrete, in order to enable the non-metal module board 1 to be firmly connected with the cement mortar or fine stone concrete into a whole, unless the surface of the metal module board 1 is provided with the through holes 7, a special adhesive can be selected for the high-strength wall, before the cement mortar or fine stone concrete is poured, the special adhesive is firstly painted on the whole surface of the non-metal module board 1, and after the cement mortar or fine stone concrete is poured, the non-metal module board 1 can be connected with the cement mortar or fine stone concrete into a whole through the adhesive, so that the bearing capacity of the high-strength wall is improved. The surface of the nonmetallic module board 1 is generally provided with through holes 7, and the through holes 7 are holes with regular shapes (such as square, diamond, triangle and round) or holes with irregular shapes. At present, the building is generally of a frame structure, in order to connect the high-strength wall body and the frame structure, the high-strength wall body further comprises fixing pieces (not shown in the figure) positioned around the wall body unit 4, beams or/and floors, the fixing pieces are preferably made of nonmetallic materials, if the fixing pieces are made of metallic materials, the fixing pieces generally need to be subjected to corrosion protection treatment, two sides of the nonmetallic module plate 1 are installed on the posts through the fixing pieces, and the upper end and the lower end of the nonmetallic module plate 1 are installed on the beams or/and floors through the fixing pieces.

In practical applications, there are also many materials for the non-metal module board 1, such as: the plastic or fiber material is in the protection scope of the invention, the nonmetal module board 1 is adopted in the invention, and compared with the screen board made of metal material, the nonmetal module board 1 has low production energy consumption, light weight and low cost, and is particularly suitable for the wall body in the acid-base environment. Also, the shape of the nonmetallic module board 1 is also numerous, such as: wavy, saw tooth-like, pulse patterns, etc., are all within the scope of the present invention. There are also many ways of flexibly connecting the nonmetallic module boards 1, such as: the fastening connection and the bolt connection are all within the protection scope of the invention. Finally, when the size of the high-strength wall is smaller, the nonmetal module plate 1 can be customized in a factory according to the size of the high-strength wall, or the nonmetal module plate 1 is transported to a construction site and cut according to the size of the heat-insulation wall; when the length or height dimension of the high-strength wall body is larger, the nonmetal module plates 1 can be assembled in the length or height direction, namely: the nonmetal module board 1 is assembled by a plurality of nonmetal assembly boards, the nonmetal assembly boards are generally customized to boards with standard sizes in factories (the structural design of the nonmetal assembly boards can refer to the structure of the nonmetal module board), for example, the length of the nonmetal assembly boards is 30cm by 60cm, 150cm by 60cm, 200cm by 60cm and the like, and the nonmetal assembly boards with standard sizes are transported from factories to construction sites for assembly, and many assembly modes exist, such as: the lap joint can also be connected at the joint of the standard-sized nonmetal assembly plates between adjacent plates through a buckle connection or through a connecting piece.

In practical application, the number and specific arrangement structure of the nonmetal module boards 1 are generally selected and designed according to the actual requirements of the site, and the invention is not described in detail, for example: when the number of the nonmetal module boards 1 is three or more, the nonmetal module boards 1 between adjacent nonmetal module boards 1 are relatively or/and combined and fixed in the high-strength wall body, when the number of the nonmetal module boards 1 is two, the nonmetal module boards 1 are relatively fixed in the high-strength wall body, wherein the nonmetal module boards 1 generally comprise a plurality of reinforcing areas 2, a plurality of grooves 3 and a plurality of convex reinforcing ribs 5, the adjacent grooves 3 are connected into a whole through the convex reinforcing ribs 5, the reinforcing areas 2 are positioned on the convex reinforcing ribs 5, the high-strength wall body is provided with clamping heads 21 (the clamping heads 21 are the reinforcing areas 2 of black solid round parts in the figure) and clamping holes 22 (the clamping holes 22 are the reinforcing areas 2 of circle parts in the figure), when the nonmetal module boards 1 are movably connected, the clamping heads 21 are inserted into the clamping holes 22, when the nonmetal module boards 1 need to be disassembled, the clamping heads 21 are pulled out from the clamping holes 22, and the construction is very convenient.

In practical applications, on a non-metal module board 1, the direction of the groove 3 is generally designed according to practical situations, for example: the first solution, the grooves 3 are all vertically arranged (the conventional metal net is vertically arranged, when the whole metal net bears load, no horizontal force is generated at the groove part, but the overall stress performance of the metal net is poor, such as bending resistance), the second solution, the grooves 3 are all inclined (the groove design in the invention preferably adopts the solution, when a non-metal module plate 1 bears load, horizontal force is generated at the groove 3 part, but the overall stress performance of the metal net is good, such as bending resistance), and the third solution, in particular cases (such as to meet the aesthetic effect or stress performance of the non-metal module plate 1), among the grooves 3, the directions of part of the grooves 3 are vertically arranged, and the directions of most of the grooves 3 are inclined. In addition, the directions of the grooves 3 on the adjacent nonmetallic module plates 1 are staggered, the reinforcing pieces 8 are arranged in a crossed mode, hollow holes 6 are formed between the grooves 3 or/and between the grooves 3 and the wall units 4, and the wall has good heat insulation performance and light weight, for example: when the number of the nonmetallic module boards 1 is two, as shown in fig. 1 (namely, an a nonmetallic module board and a B nonmetallic module board), after the two nonmetallic module boards 1 are relatively fixed, wall units 4 (such as cement mortar) are respectively covered on the outer surfaces of the a nonmetallic module board and the B nonmetallic module board, hollow holes 6 are formed between grooves 3 on the a nonmetallic module board and grooves 3 on the B nonmetallic module board, and if the a nonmetallic module board and the B nonmetallic module board are relatively installed, a heat insulation layer (not shown in the figure) is installed between the two nonmetallic module boards, the hollow holes 6 are formed between the grooves 3 and the wall units 4; when the number of the nonmetallic module boards 1 is three (namely, a nonmetallic module board A, a nonmetallic module board B and a nonmetallic module board C, more than three nonmetallic module boards 1 can be referred to), the nonmetallic module boards B are arranged in the middle when the nonmetallic module boards 1 are movably installed, the nonmetallic module boards A and the nonmetallic module boards C are respectively fixed on two sides of the nonmetallic module boards B, after all the nonmetallic module boards 1 are movably connected, wall units 4 (such as cement mortar) respectively cover the outer surfaces of the nonmetallic module boards A and the nonmetallic module boards C, and hollow holes 6 are formed between the grooves 3 on the nonmetallic module boards A and the grooves 3 on the nonmetallic module boards B, and hollow holes 6 are also formed between the nonmetallic module boards C1 and the grooves 3 on the nonmetallic module boards B. Also, the shape of the non-metal module board 1 is preferably wavy, and in one non-metal module board 1, the directions of the plurality of grooves 3 are the same, that is: all grooves 3 are oriented in the same direction, and the reinforcing areas and grooves 3 are regularly arranged on the non-metallic modular plate 1. In addition, in order to improve the strength of the wall, the high-strength wall is provided with reinforcing members 8, the reinforcing members 8 are generally installed at the grooves 3, and the number, shape or structure of the reinforcing members 8 are designed according to practical situations, such as: round, L-shaped, U-shaped, channel, angle, etc.; the stiffener 8 may be a full length stiffener, namely: the two ends of the reinforcement 8 are respectively fixed on the posts on the left side and the right side of the wall body or on the beams and the floor slabs on the upper end and the lower end of the wall body; the stiffener 8 may be a stiffener of short dimensions (length typically 30-150 cm), namely: one end of the reinforcement 8 is fixed on the column, the beam and the floor slab, and the other end extends into the wall unit 4; if the direction of the groove 3 is inclined, the installation direction of the reinforcing member 8 is also inclined, when two or more nonmetallic module boards 1 are relatively fixed, the reinforcing member 8 can form crossed arrangement, and the direction of the groove 3 is inclined, so that the stress performances of the wall body such as bending resistance, shearing resistance, torsion resistance and the like can be greatly improved, and the high strength requirement of the wall body can be further met. The structural design of a conventional nonmetallic modular panel 1 is described in detail below:

first general category: the number of the nonmetal module boards 1 is two (namely, the nonmetal module boards 1A and the nonmetal module boards 1B), the nonmetal module boards 1 are relatively fixed in a high-strength wall body, so that the installation is convenient, the direction of the grooves 3 on the nonmetal module boards 1A and the direction of the grooves 3 on the nonmetal module boards 1B can be designed to be the same, but in order to ensure that the overall strength, the bending resistance and the bending resistance of the nonmetal module boards 1 are good, the directions of the grooves 3 on the nonmetal module boards 1A and the directions of the grooves 3 on the nonmetal module boards 1B are different, for example: the directions of the grooves 3 on the A nonmetal module plate 1 and the B nonmetal module plate 1 are inclined, the A nonmetal module plate and the B nonmetal module plate are relatively fixed in the high-strength wall body, the directions of the grooves 3 on the adjacent nonmetal module plates 1 are staggered, and because the reinforcing pieces 8 are arranged at the grooves 3, the reinforcing pieces 8 are arranged in a crossed way, as shown in figure 1, when the wall body units 4 (such as cement mortar) are respectively covered on the outer surfaces of the A nonmetal module plate and the B nonmetal module plate, the whole wall body has high strength, bending resistance and bending resistance.

Second general class: the number of the nonmetal module boards 1 is three or more, and the nonmetal module boards 1 between adjacent nonmetal module boards are relatively or/and combined and fixed in the high-strength wall body, so that the overall strength and stability of the two nonmetal module boards 1 are high after all nonmetal module boards 1 are fixed in place in the construction process or after the wall body is molded. When the number of the nonmetallic modular plates 1 is even, the high-strength wall body is provided with modular plate units 9, and the modular plate units 9 are formed by relatively fixing two nonmetallic modular plates 1, for example: the number of the nonmetallic module boards 1 is four (namely, an A nonmetallic module board, a B nonmetallic module board, a C nonmetallic module board and a D nonmetallic module board), all the nonmetallic module boards 1 are divided into two groups of module board units 9, each group of module board units 9 is formed by relatively fixing two nonmetallic module boards 1 (the A nonmetallic module board and the B nonmetallic module board are assembled into a group of module board units 9, the C nonmetallic module board and the D nonmetallic module board are assembled into a group of module board units 9), after the two groups of module board units 9 are assembled, all the module board units 9 are movably connected into a whole and are fixed in a high-strength wall body side by side, wall body units 4 (such as cement mortar) are respectively covered on the outer surfaces of the two groups of module board units 9, wherein the directions of grooves 3 on one nonmetallic module board 1 are generally designed to be the same, such as: the directions of the grooves 3 on the four nonmetallic module plates 1 are 30 degrees or 60 degrees, the adjacent nonmetallic module plates 1 are relatively fixed in the wall unit 4, the directions of the grooves 3 on the adjacent nonmetallic module plates 1 are staggered, and because the reinforcing pieces 8 are arranged at the grooves 3, the reinforcing pieces 8 are arranged in a crossed mode, and under special conditions, the directions of the grooves 3 on one nonmetallic module plate 1 can be designed differently; in addition, due to design requirements or actual needs, the number of the grooves 3 on the non-metal module boards a and B in the four non-metal module boards 1 is 30 ° and two, the number of the grooves 3 on the non-metal module boards C and D in the direction of 60 ° is also two, and when the four non-metal module boards 1 are movably connected, the first mode is that: preferably, the a nonmetallic module board and the B nonmetallic module board with the directions of the grooves 3 being 30 degrees are relatively fixed into a group of module board units 9, the C nonmetallic module board and the D nonmetallic module board with the directions of the grooves 3 being 60 degrees are relatively fixed into another group of module board units 9, finally, the two groups of module board units 9 are movably connected into a whole and are fixed in a high-strength wall side by side, the wall units 4 (such as cement mortar) are respectively covered on the outer surfaces of the two groups of module board units 9, and the second mode is as follows: the non-metal module plates A with the direction of the groove 3 being 30 degrees and the non-metal module plates B with the direction of the groove 3 being 60 degrees are relatively fixed into a group of module plate units 9, the non-metal module plates B with the direction of the groove 3 being 30 degrees and the non-metal module plates D with the direction of the groove 3 being 60 degrees are relatively fixed into another group of module plate units 9, finally, the two groups of module plate units 9 are movably connected into a whole and are fixed in a high-strength wall body side by side, and the wall body units 4 (such as cement mortar) are respectively covered on the outer surfaces of the two groups of module plate units 9. If the shape of the non-metal module board 1 is wave-shaped, the direction of the grooves 3 on one non-metal module board 1 is generally designed to be the same, and the connection reinforcing areas and the grooves 3 are regularly arranged on the non-metal module board 1 (for example, the connection reinforcing areas and the grooves 3 are arranged on the non-metal module board 1 in parallel).

When the number of the nonmetallic module boards 1 is odd, the high-strength wall body is provided with a module board unit 9 and a single module board 10, the module board unit 9 is formed by relatively fixing two nonmetallic module boards 1, the single module board 10 is one nonmetallic module board 1, the module board unit 9 and the single module board 10 are movably connected into a whole, if the number of the nonmetallic module boards 1 is three (namely, an A nonmetallic module board, a B nonmetallic module board and a C nonmetallic module board), the directions of the grooves 3 on the adjacent nonmetallic module boards 1 are generally staggered, as the reinforcing pieces 8 are arranged at the grooves 3, the reinforcing pieces 8 form cross arrangement, hollow holes 6 are formed between the grooves 3 or/and between the grooves 3 and the wall body unit 4, and when the nonmetallic module boards 1 are selected, the directions of the grooves 3 on all nonmetallic module boards 1 are 30 DEG or 60 DEG, for example, the adjacent nonmetallic module boards 1 are relatively fixed in the wall body unit 4: the A nonmetal module plate and the B nonmetal module plate are relatively fixed to form a group of module plate units 9, the C nonmetal module plate is a single module plate 10, the directions of the grooves 3 on the adjacent nonmetal module plates 1 are staggered, and the wall units 4 (such as cement mortar) are respectively covered on the outer surfaces of the group of module plate units 9 and the single module plate 10; the directions of the grooves 3 on the non-metal module plate A and the non-metal module plate B are 30 degrees, the directions of the grooves 3 on the non-metal module plate C are 60 degrees, and when the non-metal module plate C is assembled, the non-metal module plate C is fixed in the middle, and the non-metal module plate A and the non-metal module plate B are respectively fixed on two sides of the non-metal module plate C relatively, namely: the A nonmetallic module board and the C nonmetallic module board are relatively fixed to form a group of module board units 9, the B nonmetallic module board is a single module board 10, and the wall body units 4 (such as cement mortar) are respectively covered on the outer surfaces of the group of module board units 9 and the single module board 10. If the number of the nonmetallic module boards 1 is five (namely, a nonmetallic module board B, a nonmetallic module board C, a nonmetallic module board D and a nonmetallic module board E), the directions of the grooves 3 on the adjacent nonmetallic module boards 1 are generally staggered, as the reinforcing pieces 8 are arranged at the grooves 3, the reinforcing pieces 8 are arranged in a crossed way, hollow holes 6 are formed between the grooves 3 or/and between the grooves 3 and the wall units 4, when the nonmetallic module boards 1 are selected, in a first mode, the directions of the grooves 3 on all nonmetallic module boards 1 are 30 degrees or 60 degrees, firstly, the nonmetallic module boards A and the nonmetallic module boards B are relatively fixed into a group of module board units 9,D, the nonmetallic module boards E are relatively fixed into another group of module board units 9, the nonmetallic module boards C are single module boards 10, finally, the two groups of module board units 9 and the single module boards 10 are movably connected into a whole, the directions of the grooves 3 on the adjacent nonmetallic module boards 1 are staggered, and if the single module boards 10 are positioned on the outer surfaces of the two groups of module units 9, such as the two groups of the two module units are respectively covered on the outer surfaces of the wall units 9; if two groups of module board units 9 are assembled first and then are movably connected with a single module board 10, the wall units 4 (such as cement mortar) are respectively covered on the outer surfaces of the group of module board units 9 and the single module board 10. In the second mode, the directions of the grooves 3 on the non-metal module plate A and the non-metal module plate B are 30 degrees, the directions of the grooves 3 on the non-metal module plate C, the non-metal module plate D and the non-metal module plate E are 60 degrees, when the non-metal module plate C, the non-metal module plate D, the non-metal module plate E and the non-metal module plate E are assembled, the non-metal module plate A and the non-metal module plate B are relatively fixed into one group of module plate units 9,D, the non-metal module plate E and the non-metal module plate E are relatively fixed into another group of module plate units 9, the non-metal module plate C and the non-metal module plate E are relatively fixed into another group of module plate units 9, the non-metal module plate B and the non-metal module plate E are respectively fixed into one group of module plate units 10, and finally, the two groups of module plate units 9 and the single module plate 10 are movably connected into a whole, so that the directions of the grooves 3 on the adjacent non-metal module plates 1 are mutually staggered, if the single module plate 10 is positioned in the middle of the two groups of module plate units 9, the cement mortar units 4 (such as the cement mortar covers the outer surfaces of the two groups of the module plate units 9 respectively); if two groups of module board units 9 are assembled first and then are movably connected with a single module board 10, the wall units 4 (such as cement mortar) are respectively covered on the outer surfaces of the group of module board units 9 and the single module board 10. And so on, in summary, there are many more ways of connection between adjacent non-metallic module plates 1, which are not illustrated.

The implementation of the invention has the advantages that: the high-strength wall body provided by the invention comprises a wall body unit 4 and nonmetal module boards 1, wherein through holes 7 are formed in the surface of the nonmetal module boards 1, the two sides of each nonmetal module board 1 are generally arranged on a column through fixing pieces, the upper end and the lower end of each nonmetal module board 1 are generally arranged on a beam or/and a floor slab through the fixing pieces, and as the number of the nonmetal module boards 1 is two or more, all nonmetal module boards 1 are movably connected into a whole and fixed in the wall body unit 4, the whole nonmetal module boards 1 have high overall strength and high stability no matter in the construction process or after the wall body is molded, and after the high-strength wall body is molded, the wall body unit 4 and the nonmetal module boards 1 are connected into a whole, so that the whole stress performance of the high-strength wall body is good; as the nonmetal module plates 1 in the high-strength wall body are all movably connected into a whole, the assembly and the disassembly are very convenient during construction; because the non-metal module board 1 (such as a plastic module board) is adopted, compared with the screen board made of metal materials, the non-metal module board 1 has low production energy consumption, light weight and low cost, and is particularly suitable for walls in acid-base environments; in addition, the nonmetallic module board 1 comprises a plurality of reinforcing areas 2, a plurality of grooves 3 and a plurality of convex reinforcing ribs 5, the adjacent grooves 3 are connected into a whole through the convex reinforcing ribs 5, because the directions of the grooves 3 are inclined, the reinforcing members 8 are arranged at the grooves 8, when two or more nonmetallic module boards 1 are relatively fixed, the reinforcing members 8 can form crossed arrangement, and the stress performances of the wall body such as bending resistance, shearing resistance, torsion resistance and the like can be greatly improved, so that the high-strength requirement of the wall body is further met, the bearing capacity of the nonmetallic module board 1 is very strong, the wall body unit 4 can also be a surface layer of the wall body directly, and the surface layer directly covers the surface of the nonmetallic module board 1; because the hollow holes 6 are formed among the grooves 3 or/and between the grooves 3 and the wall units 4, the wall has good heat insulation performance and light weight.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present invention should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a high strength wall body of nonmetal module board, includes wall body unit, its characterized in that, high strength wall body still includes the nonmetal module board that the surface was equipped with the through-hole, the quantity of nonmetal module board is two or more than two, and all nonmetal module boards all swing joint become an entity and fix in high strength wall body, wall body unit covers on the surface of nonmetal module board, after the high strength wall body shaping, wall body unit and nonmetal module board connect into an entity.

2. The high-strength wall body of non-metal module boards according to claim 1, wherein the number of the non-metal module boards is two, and the non-metal module boards are relatively fixed in the high-strength wall body.

3. The high-strength wall body of non-metal module boards according to claim 1, wherein the number of the non-metal module boards is three or more, and the non-metal module boards between adjacent non-metal module boards are fixed in the high-strength wall body in a relative or/and combined manner.

4. A high-strength wall body of a nonmetallic modular plate according to claim 3, wherein the high-strength wall body further comprises modular plate units, the number of nonmetallic modular plates is even, the modular plate units are formed by relatively fixing two nonmetallic modular plates, and the modular plate units are movably connected into a whole and are fixed in the high-strength wall body side by side.

5. A high-strength wall body of a nonmetallic modular panel according to claim 3, wherein the high-strength wall body further comprises modular panel units and a single modular panel, the number of nonmetallic modular panels is an odd number, the modular panel units are formed by relatively fixing two nonmetallic modular panels, the single modular panel is a nonmetallic modular panel, and the modular panel units and the single modular panel are movably connected into a whole.

6. The high-strength wall of a non-metal module board according to any one of claims 1 to 5, wherein the non-metal module board comprises a plurality of reinforcing areas, a plurality of grooves and a plurality of convex reinforcing ribs, adjacent grooves are connected into a whole through the convex reinforcing ribs, and the reinforcing areas are positioned on the convex reinforcing ribs; the direction of the grooves is inclined.

7. The high strength wall of non-metallic modular panels according to claim 6, wherein the material of said non-metallic modular panels is a plastic or fibrous material; the high strength wall further includes a plurality of stiffeners, all mounted in the grooves.

8. The high-strength wall of a non-metal module board according to claim 7, wherein the shape of the non-metal module board is wave-shaped, the directions of the plurality of grooves are the same, and the reinforcing areas and the grooves are regularly arranged on the non-metal module board; the high-strength wall body further comprises a clamping head and a clamping hole, wherein the clamping head and the clamping hole are both positioned on the reinforcing area, and after the nonmetallic module plates are movably connected, the clamping head is inserted into the clamping hole.

9. A high strength wall of non-metallic modular panels according to claim 7 or 8, wherein the grooves in adjacent non-metallic modular panels are staggered in direction from each other, the stiffeners are arranged in a cross arrangement, and hollow holes are formed between the grooves or/and between the grooves and the wall units.

10. The high-strength wall body of a non-metal module board according to claim 6, wherein the high-strength wall body further comprises fixing members, beams or/and floor slabs positioned around the wall body units, both sides of the non-metal module board are installed on the columns through the fixing members, and both upper and lower ends of the non-metal module board are installed on the beams or/and floor slabs through the fixing members; the nonmetal module plate is assembled by a plurality of nonmetal assembly plates.