CN215442665U - High-strength wallboard and wall system thereof - Google Patents

Abstract

The utility model discloses a high-strength wallboard and a wallboard system thereof, wherein the wallboard comprises at least two cover plates, a plurality of plastic steel reinforcing ribs and pouring pieces, and two adjacent cover plates are oppositely arranged at intervals; the plastic steel reinforced ribs are arranged between two adjacent cover plates at intervals, the plastic steel reinforced ribs are fixedly connected with the cover plates on two sides, and the plastic steel reinforced ribs at least comprise two layers of plastic steel; the pouring piece is poured between every two adjacent plastic steel reinforcing ribs and is integrally formed with the cover plates on the two sides, the horizontal pressure resistance of the wallboard is enhanced by arranging the plastic steel reinforcing ribs with high hardness and good toughness, and the plastic steel reinforcing ribs at least comprise two layers of plastic steel, so that the wallboard has enough wind pressure resistance, the technical problem that the wind pressure resistance of the wallboard is insufficient due to the fact that the reinforcing piece inside the wallboard for the prefabricated building is formed by pouring in the wallboard, and the wallboard is strong in toughness and wind pressure resistance is achieved.

Description

High-strength wallboard and wall system thereof

Technical Field

The utility model relates to the field of buildings, in particular to a high-strength wallboard and a wall system thereof.

Background

The prefabricated building is a house built by building a house in an industrialized production mode, prefabricating part or all components of the house in a factory, transporting the prefabricated house to a construction site, and assembling the components in a reliable connection mode.

Compared with the traditional construction mode, the assembly type building is produced in a factory scale, the quality and the precision are controllable, and the material loss can be reduced to the maximum extent; meanwhile, the assembly type building industrialization greatly improves the labor productivity and the progress is controllable. Compared with the traditional building mode, the assembly type building only needs 1/3 periods, reduces field operation, and has no dust, noise and sewage pollution, and no large amount of building garbage pollution caused by secondary decoration, so the assembly type house has obvious advantages compared with the existing house.

The prefabricated wall panel is used for the fabricated building to construct a wall body system, the wall panel for the fabricated building is of a hollow structure for meeting the requirements of light weight and heat preservation, is easy to deform, and causes the defects of insufficient self strength and insufficient bearing capacity, and can influence the building quality.

Therefore, the above-mentioned techniques have at least the following technical problems: the reinforcing member inside the wallboard for the prefabricated building is formed by pouring in the wallboard, and the toughness is not enough, so that the wind pressure resistance of the wallboard is not enough.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a high strength wallboard and wall system thereof, has solved the inside reinforcement of wallboard for the assembly type structure and has formed through watering in the wallboard, and toughness is not enough to thereby lead to wallboard wind-resistant ability technical problem that is not enough to lead to wallboard wind-resistant ability inadequately, realized that the whole wind-resistant ability of wallboard is strong, intensity is high, bearing capacity is strong, stability is high, weight is lighter, the thin beneficial effect of thickness.

In order to solve the above technical problem, in a first aspect, an embodiment of the present application provides a high strength wallboard, including:

the two adjacent cover plates are oppositely arranged at intervals;

the plastic steel reinforced ribs are arranged between two adjacent cover plates at intervals, the plastic steel reinforced ribs are fixedly connected with the cover plates on two sides, and the plastic steel reinforced ribs at least comprise two layers of plastic steel;

and the pouring piece is poured between the two adjacent plastic steel reinforced ridges and is integrally formed with the cover plates on the two sides.

Furthermore, the plastic steel reinforced edge extends along the height direction of the cover plate, and the plastic steel reinforced edge extends from one end of the cover plate to the other end of the cover plate.

Furthermore, the pouring piece and the cover plate are made of the same material, and the pouring piece is embedded with the plastic steel reinforcing ribs at the two ends.

Furthermore, claw hands extending into the pouring piece are arranged on the plastic steel reinforcing ribs and embedded into the pouring piece.

Furthermore, at least one side of two sides of the wallboard is provided with a male tongue-and-groove or a female tongue-and-groove, the male tongue-and-groove or the female tongue-and-groove is integrally formed on the plastic steel reinforced rib at the outermost side, and the male tongue-and-groove is in snap fit with the female tongue-and-groove.

Furthermore, the plastic steel reinforced edge protruding out of one side of the cover plate is provided with an inserting strip extending outwards to form a male tongue-and-groove; and the plastic steel reinforcing ribs on the other side of the cover plate are provided with slots which are sunken inwards to form female tongues and grooves, and the inserting strips are in snap fit with the slots.

Furthermore, an outer chamfer convenient to insert into the slot is arranged at the front end of the cutting, and an inner chamfer matched with the outer chamfer is arranged in the slot; the outer side face of the inserting strip is provided with a clamping strip, the inner side face of the slot is provided with a clamping groove, and the clamping strip is matched with the clamping groove in a buckling mode.

Further, the clamping groove is a circular groove, so that the clamping strip can be clamped into the clamping groove conveniently.

In a second aspect, embodiments of the present application further provide a high-strength wall system, where the wall system includes:

a framework;

the wall boards are laid on the framework, and the male and female tongue-and-groove of two adjacent wall boards are in snap fit;

the inner end of the fixing piece penetrates through the cover plate on the wallboard and the corresponding plastic steel reinforcing rib and/or the pouring piece and extends into the framework so as to fix the wallboard on the framework.

Further, the fixing piece is a screw.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) the embodiment of this application strengthens stupefied strengthening through the plastic steel that sets up hardness height, toughness are good the horizontal compressive capacity of wallboard, just the plastic steel strengthen stupefied including two-layer plastic steel at least, thickness increases, has further improved the horizontal compressive capacity of wallboard makes the wallboard has sufficient anti-wind pressure ability, has effectively solved the inside reinforcement of wallboard for the prefabricated building and has formed through watering in the wallboard, and toughness is not enough to lead to the technical problem that wallboard anti-wind pressure ability is not enough, realized the whole strong, the strong beneficial effect of anti-wind pressure ability of toughness of wallboard.

(2) According to the embodiment of the application, the plastic steel reinforcing ribs and the pouring pieces are arranged between the cover plates, so that the effect of reinforcing the cover plates on two sides of the connection is achieved, the stability of the wallboard is improved, the strength of the wallboard is enhanced, the plastic steel reinforcing ribs and the pouring pieces can bear the weight together with the external wallboard, and the effect of reinforcing the weight bearing capacity of the wallboard is achieved; in addition, the plastic steel reinforced ribs and the pouring piece are sequentially arranged between the two cover plates to play a role in dispersing load, so that the whole wallboard is uniformly stressed and is not easy to deform, and the wallboard has good stability, and has the beneficial effects of high strength, strong bearing capacity and high stability.

(3) Because this application embodiment strengthen the stupefied holistic high strength ability and bearing capacity of wallboard for under same high strength ability and bearing capacity, the wallboard can be done thinner, simultaneously, because the inside hollow of plastic steel can alleviate the dead weight, thereby makes holistic weight of wallboard is lighter, thickness is thinner.

(4) The stupefied with the watering spare is strengthened to plastic steel extend along the direction of height of apron, extend along the direction of load promptly, make the stupefied is strengthened to plastic steel with the watering spare constitutes the reinforced column, has better bearing effect, the stupefied with the watering spare certainly one end of apron extends to the other end of apron, can be fine with load downwardly conducting, thereby strengthen the bearing capacity of wallboard.

(5) This application embodiment the pouring piece with the material of apron is the same, makes pour the formation the pouring piece can with both sides the better connection of apron to make joint strength between the two higher, connect more stably.

(6) The stupefied gomphosis each other is strengthened to the plastic steel of watering spare and both ends, can improve the watering spare with stupefied joint strength is strengthened to the plastic steel, thereby improve holistic bearing capacity and compressive capacity of wallboard.

(7) The cover plate is a fireproof plate, and therefore building safety can be improved.

(8) According to the embodiment of the application, the two sides of each wallboard are respectively provided with the male tongue-and-groove and the female tongue-and-groove, and the two adjacent wallboards are connected through the snap fit of the male tongue-and-groove and the female tongue-and-groove, so that the adjacent wallboards are simply and quickly connected, and have a positioning effect.

(9) In the embodiment of the application, the two sides of the male tongue-and-groove are provided with the clamping strips, the inner side wall of the female tongue-and-groove is provided with the clamping groove, and the clamping strips and the clamping groove are in clamping fit when the male tongue-and-groove is inserted into the female tongue-and-groove to prevent the male tongue-and-groove from slipping, so that the connection strength between the male tongue-and-groove and the female tongue-and-groove is improved, and the connection part is high in connection strength and good in stability.

(10) The front end of the male rabbet is provided with an outer chamfer convenient to insert into the female rabbet, and an inner chamfer matched with the outer chamfer is arranged in the female rabbet so as to facilitate the male rabbet to be inserted into the female rabbet; and the clamping groove is a circular groove, so that the clamping strip is clamped into the clamping groove, and therefore the connection of two adjacent wallboards is quick and convenient, and the installation efficiency is improved.

(11) In the embodiment of the application, the plastic steel reinforcing ribs are provided with the integrated male and female tongues, compared with the wallboard in the prior art, the wallboard is additionally provided with the male and female tongues, so that the wallboard is convenient and quick to produce, the production efficiency can be improved, and meanwhile, the integrated male and female tongues are not easy to deform; compared with an integrated male and female tongue-and-groove formed by easy-to-break pouring, the strength is higher, so that the connection strength of the male and female tongue-and-groove and the wallboard is higher, and the connection strength between two adjacent wallboards is improved.

(12) The plastic steel reinforced edges at least comprise two layers of plastic steel, and have enough space for arranging thicker male and female tongues so as to improve the strength of the male and female tongues, thereby improving the connection strength between adjacent wall boards, and ensuring that the connection strength of the connection part is high and the stability is good. Meanwhile, the male and female tongue-and-groove can be made thicker, so that the buckle construction is facilitated, the connection is convenient and quick, and the installation efficiency is further improved.

(13) An assembly type structure shaped steel wall system construct through adopting that high strength ability is strong, bearing capacity is strong, intensity is high, stability is high, light in weight, thickness are thin good the wallboard founds for institute's wall system anti-wind pressure ability is strong, the bearing is effectual, the quality is reliable, long service life, environmental protection and energy saving, simultaneously, factory scale production is taken to the wallboard, quality, precision are controllable, still can improve productivity greatly, construction is convenient fast.

(14) An assembly type structure shaped steel wall system use the mounting will the wallboard is fixed when steel skeleton is last, the mounting runs through side fascia and correspondence stupefied and/or watering spare are strengthened to the plastic steel, make the mounting has still played fixedly stupefied and/or watering spare are strengthened to the plastic steel with the effect of side fascia has strengthened the side fascia with stupefied connecting action is strengthened to the plastic steel, has further strengthened the wallboard with joint strength between the wall system.

Drawings

FIG. 1 is a schematic structural view of a high strength wall panel according to an embodiment of the present application;

FIG. 2 is a perspective view of a high strength wall panel provided by an embodiment of the present application;

FIG. 3 is an exploded view of a high strength wall panel according to an embodiment of the present application;

FIG. 4 is a front view of a high strength wall panel provided by an embodiment of the present application;

FIG. 5 is a top view of a high strength wall panel provided by an embodiment of the present application;

FIG. 6 is an enlarged view of the structure at A in FIG. 5;

FIG. 7 is an enlarged view of the structure at B in FIG. 5;

FIG. 8 is a schematic view of a high strength wall panel and an adjacent wall panel according to an embodiment of the present disclosure;

fig. 9 is a schematic structural diagram of a high-strength wall system according to an embodiment of the present application.

Detailed Description

The embodiment of the application is through providing a high strength wallboard and wall system thereof, has solved the inside reinforcement of wallboard for the assembly type structure and has formed through watering in the wallboard, and toughness is not enough to lead to the not enough technical problem of wallboard anti-wind pressure ability.

In order to solve the technical problems, the technical scheme provided by the application has the following general idea:

at first, strengthen through setting up the plastic steel that hardness is high, toughness is good and stupefied the horizontal compressive capacity of wallboard, just the plastic steel strengthen stupefied including two-layer plastic steel at least, thickness increases, has further improved the horizontal compressive capacity of wallboard makes the wallboard has sufficient anti-wind pressure ability, has effectively solved the inside reinforcement of wallboard for the prefabricated building and has formed through watering in the wallboard, toughness is not enough to lead to the technical problem that wallboard anti-wind pressure ability is not enough, realized the whole strong, the powerful beneficial effect of anti-wind pressure ability of wallboard of toughness.

In addition, the plastic steel reinforcing ribs and the pouring pieces are arranged between the cover plates, so that the effect of reinforcing the cover plates on two sides of the connection is achieved, the stability of the wallboard is improved, the strength of the wallboard is enhanced, the plastic steel reinforcing ribs and the pouring pieces can bear the weight together with the external wallboard, and the effect of enhancing the bearing capacity of the wallboard is achieved; in addition, the plastic steel reinforced ribs and the pouring piece are sequentially arranged between the two cover plates to play a role in dispersing load, so that the whole wallboard is uniformly stressed and is not easy to deform, and the wallboard has good stability, and has the beneficial effects of high strength, strong bearing capacity and high stability.

In addition, the plastic steel reinforced ribs reinforce the high strength capacity and the bearing capacity of the whole wallboard, so that the wallboard can be made thinner under the same high strength capacity and bearing capacity, and meanwhile, the self weight can be reduced due to the hollow plastic steel, so that the whole wallboard is lighter in weight and thinner in thickness.

Finally, the plastic steel reinforced edges at least comprise two layers of plastic steel, and the plastic steel reinforced edges have enough space for arranging thicker male and female tongues so as to improve the strength of the male and female tongues, thereby improving the connection strength between adjacent wall boards, and ensuring that the connection strength of the connection part is high and the stability is good; meanwhile, the male and female tongue-and-groove can be made thicker, so that the buckle construction is facilitated, the connection is convenient and quick, and the installation efficiency is further improved.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example one

Fig. 1 to 5 are a schematic structural diagram, a perspective view, an exploded view, a front view and a top view of a high-strength wall panel according to an embodiment of the present invention, and as shown in fig. 1 to 5, the wall panel 100 includes two cover plates 110, a plurality of plastic-steel reinforced ribs 120 and a pouring member 150.

The two cover plates 110 are oppositely arranged at intervals, a plurality of plastic steel reinforcing ribs 120 are arranged between the two adjacent cover plates 110 at intervals, the plastic steel reinforcing ribs 120 are fixedly connected with the cover plates 110 on two sides, and the plastic steel reinforcing ribs 120 at least comprise two layers of plastic steel 122; the pouring member 150 is poured between two adjacent plastic steel reinforced ridges 120, and is integrally formed with the cover plates 110 at two sides. Specifically, the plastic steel reinforced rib 120 and the pouring member 150 are both in a thin rectangular shape.

The plastic steel, namely the plastic steel section, has the main chemical component of PVC, so the plastic steel is also called as the PVC section. Because of its excellent physical properties such as rigidity, elasticity, corrosion resistance and aging resistance, it is generally used as a good substitute for nonferrous metals such as copper, zinc and aluminum.

First, stupefied 120 is strengthened through the plastic steel that sets up hardness height, toughness are good to this application embodiment the horizontal compressive capacity of wallboard 100, just plastic steel strengthen stupefied 120 include two-layer plastic steel 122 at least, thickness increases, has further improved wallboard 100's horizontal compressive capacity makes wallboard 100 has sufficient anti-wind pressure ability, has effectively solved the inside reinforcement of wallboard for the prefabricated construction and has formed through watering in the wallboard, and toughness is not enough to lead to the technical problem that wallboard anti-wind pressure ability is not enough, realized the whole strong, the strong beneficial effect of anti-wind pressure ability of wallboard 100.

In addition, in the embodiment of the application, the plastic steel reinforcing ribs 120 and the pouring member 150 are arranged between the cover plates 110, the plastic steel reinforcing ribs 120 and the pouring member 150 play a role of reinforcing the cover plates 110 at two sides of the connection, so that the stability of the wallboard 100 is improved, the strength of the wallboard 100 is enhanced, and the plastic steel reinforcing ribs 120 and the pouring member 150 can bear the weight together with the external wallboard 100, so that the function of enhancing the bearing capacity of the wallboard 100 is achieved; in addition, the plastic steel reinforced ribs 120 and the pouring member 150 are sequentially arranged between the two cover plates 110 to play a role in dispersing load, so that the wallboard 100 is uniformly stressed and not easy to deform and has good stability, and the wallboard 100 has the beneficial effects of high strength, strong bearing capacity and high stability.

In addition, the plastic steel reinforced ribs 120 reinforce the high strength and the load bearing capacity of the whole wallboard 100, so that the wallboard 100 can be made thinner under the same high strength and load bearing capacity, and meanwhile, the self weight can be reduced due to the hollow plastic steel, so that the whole wallboard 100 is lighter in weight and thinner in thickness.

In this embodiment, the pouring member 150 and the cover plate 110 are bonded by a polyurethane adhesive, the polyurethane adhesive has excellent rubber properties and can adapt to the bonding of substrates with different thermal expansion coefficients, and a soft-hard transition layer is formed between the substrates, so that the pouring member 150 and the cover plate 110 are firmly connected, and the soft-hard transition layer has strong bonding force and excellent buffering and shock absorption functions.

Further, the cover plates 110 are parallel to each other, the plastic steel reinforced ribs 120 and the pouring member 150 extend along the height direction of the cover plate 110, and the plastic steel reinforced ribs 120 and the pouring member extend from one end of the cover plate 110 to the other end of the cover plate 110.

Specifically, the plastic steel reinforced rib 120 and the pouring member extend along the height direction of the cover plate 110 (i.e. the height direction of the wall panel 100 during use), i.e. along the direction of load, so that the plastic steel reinforced rib 120 and the pouring member 150 form a reinforced column, which has a better load bearing effect, and the plastic steel reinforced rib 120 and the pouring member extend from one end of the cover plate 110 to the other end of the cover plate 110, which can well transmit load downwards, thereby enhancing the load bearing capacity of the wall panel 100.

Furthermore, the material of the pouring member 150 is the same as that of the cover plate 110, so that the pouring member 150 formed by pouring can be better connected with the cover plates 120 on both sides, and the connection strength between the pouring member 150 and the cover plates is higher and the connection is more stable.

Furthermore, the pouring member 150 and the plastic steel reinforced ribs 120 at the two ends are embedded with each other, so that the connection strength between the pouring member 150 and the plastic steel reinforced ribs 120 can be improved, and the overall bearing capacity and the pressure resistance of the wallboard 100 are improved. For example, in this embodiment, the plastic-steel reinforced ridge 120 is provided with a claw 121 extending into the casting 150, and the claw 121 is embedded in the casting.

Further, the cover plate 110 is a fireproof plate, for example, the cover plate 110 may be a glass magnesium plate, which has good fireproof performance and is a non-combustible plate, and the flame sustained combustion time is zero, the glass magnesium plate does not burn at 800 ℃, and the glass magnesium plate does not have flames at 1200 ℃, thereby improving the building safety.

Fig. 8 is a schematic view of a connection structure between a high-strength wall board and an adjacent wall board according to an embodiment of the present disclosure, as shown in fig. 1, 2, and 6, a male tongue-and-groove 130 and a female tongue-and-groove 140 are respectively disposed on lap joints on two sides of the wall board 100, the male tongue-and-groove 130 is in snap fit with the female tongue-and-groove 140, and two adjacent wall boards 100 are connected by the snap fit of the male tongue-and-groove 130 and the female tongue-and-groove 140, so that the connection is simple and fast, and the connection has a positioning function.

As shown in fig. 5, the plastic-steel reinforced rib 120 located at the leftmost side of the wall board 100 in the width direction is provided with an inserting strip exceeding the left side of the cover plate 110, the plastic-steel reinforced rib 120 located at the rightmost side of the wall board 100 in the width direction is completely located in the cover plate 110, and the right side of the plastic-steel reinforced rib 120 at the rightmost side is recessed towards the left side to form an inserting groove. The insert protrudes from the plastic-steel reinforced edge on the side of the cover plate 110 to form the male tongue-and-groove 130, and the plastic-steel reinforced edge slot on the rightmost side of the wall plate 100 forms the female tongue-and-groove 140.

Further, as shown in fig. 6 and 7, two sides of the male tongue-and-groove 130 are provided with a clamping strip 131, the inner side wall of the female tongue-and-groove 140 is provided with a clamping groove 141, and the clamping strip 131 and the clamping groove 141 are in snap fit when the male tongue-and-groove 130 is inserted into the female tongue-and-groove 140 to prevent the male tongue-and-groove from slipping, so that the connection strength between the male tongue-and-groove and the female tongue-and-groove is improved, and the connection strength of the connection part is high and the stability is good.

Further, an outer chamfer convenient to insert into the female rabbet 140 is arranged at the front end of the male rabbet 130, and an inner chamfer matched with the outer chamfer is arranged in the female rabbet 140 so as to facilitate the male rabbet 130 to be inserted into the female rabbet 140; and the clamping groove 141 is a circular groove so that the clamping strip 131 is clamped into the clamping groove 141, thereby enabling the two adjacent wall boards 100 to be connected quickly and conveniently and improving the installation efficiency.

In the embodiment of the application, the plastic steel reinforced ridges 120 are provided with the integrated male and female tongues, compared with the wallboard in the prior art, the wallboard is additionally provided with the male and female tongues, so that the wallboard 100 is convenient and quick to produce, the production efficiency can be improved, and meanwhile, the integrated male and female tongues are not easy to deform; compared with the integral male and female tongues formed by easy-to-break pouring, the strength is higher, so that the connection strength between the male and female tongues and the wall boards 100 is higher, and the connection strength between two adjacent wall boards 100 is improved.

In addition, the plastic steel reinforced rib 120 at least comprises two layers of plastic steel, and has enough space for arranging thicker male and female tongues, so as to improve the strength of the male and female tongues, thereby improving the connection strength between the adjacent wall boards 100, and ensuring that the connection strength of the connection part is high and the stability is good. Meanwhile, the male and female tongue-and-groove can be made thicker, so that the buckle construction is facilitated, the connection is convenient and quick, and the installation efficiency is further improved.

Example two

Based on the same inventive concept as the high-strength wallboard in the previous embodiment, the embodiment of the application also provides a manufacturing method of the assembly type enclosure plate for the building.

The manufacturing method comprises the following steps:

fixing the plastic steel reinforced ridges 120 between two adjacent cover plates 110 at intervals, and forming a gap between two adjacent plastic steel reinforced ridges 120;

pouring holes are respectively formed in the positions, corresponding to the gaps, of the cover plate 110;

grouting slurry into the corresponding gap through the grouting hole;

the slurry is integrally connected to the cover plates 110 at both sides, and is embedded with the plastic steel reinforced ribs 120 at both ends, and is cured to form the plastic steel reinforced rib filling member 150, thereby forming the wall panel 100.

Further, the material of the slurry is the same as that of the cover plate 110. For example, when the cover plate 110 is a magnesium oxide plate, the slurry and the magnesium oxide plate are made of the same materials and are prepared from the following raw materials in parts by weight: 30-40 parts of magnesium oxide, 20-30 parts of magnesium chloride, 10-15 parts of sodium bentonite, 2-4 parts of glass fiber and 20-40 parts of pure water.

Various modifications and embodiments of a high strength wallboard in the first embodiment of fig. 1 are also applicable to a method for manufacturing a high strength wallboard in this embodiment, and the implementation method of the method for manufacturing a high strength wallboard in this embodiment is clear to those skilled in the art from the foregoing detailed description of a high strength wallboard, so that the detailed description is omitted here for the brevity of the description.

EXAMPLE III

Based on the same inventive concept as the high-strength wallboard in the first embodiment, the embodiment of the application also provides a high-strength wall system.

Fig. 9 is a schematic structural view of a high-strength wall system according to an embodiment of the present invention, and as shown in fig. 9, the wall system includes a steel skeleton 200, a wall plate 100 and a fastener 300.

The plurality of wallboards 100 are arranged on the profile steel framework 200, two adjacent wallboards 100 are in snap fit with the female rabbet 140 through the male rabbet 130, and the clamping strip 131 on the male rabbet 130 is clamped in the clamping groove 141 on the female rabbet 140; the inner end of the fixing member 300 penetrates through the cover plate 110 of the wall panel 100 and the corresponding plastic steel reinforced rib 120 and/or the pouring member 150, and extends into the steel skeleton 200, so as to fix the wall panel 100 on the steel skeleton 200. The fixing member 300 is a screw in the present embodiment.

An assembly type structure shaped steel wall system through adopt anti-wind pressure ability reinforce, bearing capacity reinforce, intensity height, stability height, light in weight, thickness thin good wallboard 100 founds, makes wallboard system overall quality is reliable, long service life, environmental protection and energy saving, simultaneously, wallboard 100 takes the scale production of mill, and quality, precision are controllable, still can improve productivity, construction fast convenient by a wide margin.

In addition, when the fixing member 300 is used to fix the wall panel 100 to the steel skeleton 200, the fixing member 300 penetrates through the external wall panel 110 and the plastic-steel reinforcing rib 120 and/or the pouring member 150 corresponding to the external wall panel 110, so that the fixing member 300 also plays a role in fixing the plastic-steel reinforcing rib 120 and/or the pouring member 150 to the external wall panel 110, strengthens the connection between the external wall panel 100 and the plastic-steel reinforcing rib 120, and further strengthens the connection strength between the wall panel 100 and the wall system.

Various modifications and embodiments of a high strength wall panel in the first embodiment of fig. 1 are also applicable to a high strength wall system of this embodiment, and the implementation method of a high strength wall system in this embodiment will be apparent to those skilled in the art from the foregoing detailed description of a high strength wall panel, and therefore, for the sake of brevity of the description, will not be described in detail herein.

It should be understood that the terms of orientation of up, down, left, right, front, back, top, bottom, etc., referred to or may be referred to in this specification, are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed accordingly depending on the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

While the foregoing is directed to the preferred embodiment of the present application, and not to the limiting thereof in any way and any way, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims. Those skilled in the art can make various changes, modifications and equivalent arrangements to those skilled in the art without departing from the spirit and scope of the present application; moreover, any equivalent alterations, modifications and variations of the above-described embodiments according to the spirit and techniques of this application are intended to be within the scope of the claims of this application.

Claims (10)

1. A high strength wallboard, comprising:

the two adjacent cover plates are oppositely arranged at intervals;

the plastic steel reinforced ribs are arranged between two adjacent cover plates at intervals, the plastic steel reinforced ribs are fixedly connected with the cover plates on two sides, and the plastic steel reinforced ribs at least comprise two layers of plastic steel;

and the pouring piece is poured between the two adjacent plastic steel reinforced ridges and is integrally formed with the cover plates on the two sides.

2. The high-strength wall panel according to claim 1, wherein the plastic-steel reinforced rib extends along a height direction of the cover plate, and the plastic-steel reinforced rib extends from one end of the cover plate to the other end of the cover plate.

3. The wall panel of claim 1, wherein the casting member and the cover plate are made of the same material, and the casting member and the plastic steel reinforced ribs at the two ends are embedded with each other.

4. The wall panel of claim 3, wherein the plastic-steel reinforced ribs are provided with claws extending into the casting member, and the claws are embedded in the casting member.

5. A high strength wall panel as claimed in claim 2, wherein at least one side of both sides of said wall panel is provided with a male or female tongue-and-groove, said male or female tongue-and-groove is integrally formed on said plastic steel reinforced rib at the outermost side, and said male and female tongue-and-groove are snap-fitted.

6. A high-strength wall panel as claimed in claim 5, wherein the plastic-steel reinforcing ribs protruding from one side of the cover plate are provided with insertion strips extending outwards to form male tongue-and-groove; and the plastic steel reinforcing ribs on the other side of the cover plate are provided with slots which are sunken inwards to form female tongues and grooves, and the inserting strips are in snap fit with the slots.

7. A high strength wallboard according to claim 6 wherein the front end of the said cutting is provided with an external chamfer for inserting into the said slot, and the said slot is provided with an internal chamfer matching with the said external chamfer; the outer side face of the inserting strip is provided with a clamping strip, the inner side face of the slot is provided with a clamping groove, and the clamping strip is matched with the clamping groove in a buckling mode.

8. A high strength wall panel according to claim 7 wherein said channel is a circular channel to facilitate said snap-in of said strip.

9. A high strength wall system, comprising:

a framework;

the wall board as claimed in any one of claims 1 to 8, wherein the wall board is laid on the framework, and the male and female tongue-and-groove of two adjacent wall boards are in snap fit;

the inner end of the fixing piece penetrates through the cover plate on the wallboard and the corresponding plastic steel reinforcing rib and/or the pouring piece and extends into the framework so as to fix the wallboard on the framework.

10. A high strength wall system as recited in claim 9 wherein said fasteners are screws.

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