CN207073224U - A kind of industrial energy-saving anti-seismic wallboard - Google Patents

Abstract

The utility model discloses a kind of industrial energy-saving anti-seismic wallboard, including alloy sheets, protective layer, enhancement layer and steel plate, the alloy sheets upper surface sets matcoveredn, enhancement layer and steel plate, matcoveredn is fixedly mounted in the enhancement layer side and its opposite side is installed with steel plate, the shock-proof wall plate bottom is installed with shakeproof layer, the concrete layer is fixedly mounted on enhancement layer bottom, the reinforcement is fixedly connected with transverse beam by bar frame, air entrained concrete is fixedly mounted inside the bar frame, it is provided with inside the protective layer and reinforces lath, aglite and transverse slats, the protective layer, enhancement layer and alloy sheets are two groups, the shakeproof layer is Foamex, the reinforcing lath is portland cement post.The utility model is by that provided with shakeproof layer, steel plate, enhancement layer and protective layer, can ensure the shock resistance, economy and practicality of wallboard, be applicable different operating environment, bring more preferable prospect of the application.

Description

A building industrialized energy-saving and anti-seismic wall panel

technical field

The utility model relates to a building industrialization wallboard, in particular to a building industrialization energy-saving and anti-seismic wallboard.

Background technique

Building industrialized wall panels are building industrialized components. At present, the building industrialized wall panels on the market are mainly divided into hollow wall panels, solid wall panels and composite wall panels, mainly including ordinary panels, door and window frame panels and special-shaped panels. For construction in the construction industry, building industrialized wall panels play a very important role. It can effectively reduce labor intensity, reduce construction time, and improve work efficiency. The cost of wall panels is relatively cheap, and it can be manufactured in advance. It can be used directly if necessary, convenient, quick and economical

There are certain disadvantages in the use of the existing building industrialized wallboards. In many cases, some wallboards have insufficient toughness and are prone to breakage, and some wallboards have insufficient corrosion resistance and are easily corroded, resulting in that the wallboards cannot be used for a long time. Most building industrialized wall panels are relatively heavy, which is quite inconvenient both in transportation and in use. Some building industrialized wall panels are of low quality and insufficient strength, cannot adapt to complex environments, and have a small range of use, resulting in certain safety issues. Hidden dangers, for this reason, we propose a kind of building industrialization energy-saving anti-seismic wallboard.

Utility model content

The main purpose of the utility model is to provide an energy-saving and anti-seismic wallboard for building industrialization, which can effectively solve the problems in the background technology.

In order to achieve the above object, the technical scheme that the utility model takes is:

An industrial energy-saving anti-seismic wallboard for buildings, including an alloy plate, a protective layer, a reinforcing layer, and a steel plate. The industrial energy-saving anti-seismic wallboard equipment is provided with an alloy plate, and the upper surface of the alloy plate is provided with a protective layer, a reinforcing layer and a steel plate. A protective layer is fixedly installed on one side of the reinforcement layer, and a steel plate is fixedly installed on the other side, steel keels and bolts are fixedly installed at both ends of the reinforcement layer, and an earthquake-proof layer is fixedly installed at the bottom of the building industrialized energy-saving and anti-seismic wallboard , the concrete layer is fixedly installed at the bottom of the reinforcement layer, and the inside of the reinforcement layer is provided with reinforcing ribs and transverse beams, and the reinforcing ribs and transverse beams are fixedly connected through a steel grid frame, and aerated concrete is fixedly installed on one side of the reinforcing ribs , the inside of the protective layer is provided with reinforcement laths, lightweight aggregates and transverse laths, one side of the reinforcement laths is fixedly connected to the transverse laths, and the other side of the reinforcement laths is fixedly connected to the lightweight aggregates.

Further, the steel keels are connected by bolts.

Further, the number of the protective layer and the reinforcing layer is two groups.

Further, the shockproof layer is made of foamed resin.

Further, the reinforcing slats are Portland cement columns.

Compared with the prior art, the utility model has the following beneficial effects: this kind of building industrialized energy-saving anti-seismic wallboard is provided with an anti-seismic layer during use, and the anti-seismic layer is fixedly installed on the bottom of the anti-seismic wall board, and its material is foamed Resin, when the wallboard is in transit and after use, can effectively reduce the damage to the wallboard due to vibration. After installation, when strong vibration occurs, it can ensure the integrity of the wallboard and improve the practicability of the wallboard. By setting the steel plate, the The above-mentioned steel plate is fixedly installed on the surface of the alloy plate, which strengthens the overall rigidity of the wall panel and improves the safety. The problem of fracture makes the wallboard increase its toughness during use, so that the building industrialized wallboard can be used for a long time. By setting the reinforcement strips, the reinforcement strips are Portland cement columns, which are made of Portland cement The reinforcement slats have good corrosion resistance, and also ensure the overall corrosion resistance of the industrialized wallboard, which solves the problem that the building industrialized wallboard is easily corroded and cannot be used for a long time. By setting aerated concrete and lightweight aggregate, The air-entrained concrete is fixedly installed inside the reinforced grid, and the lightweight aggregate is fixedly installed inside the protective layer. Both the aerated concrete and the lightweight aggregate are low in weight, high in strength, and cheap in price. The use of these materials reduces the The overall weight of the building industrialized wallboard improves the strength of the building industrialized wallboard, reduces the cost of materials, is more economical, practical, and more convenient to use. A new type of building industrialized wallboard described in the utility model can ensure the shock resistance, economy and practicability of the wallboard by being provided with an anti-shock layer, a steel plate, a reinforcing layer and a protective layer, and is suitable for different working environments, bringing more Good prospects for use.

Description of drawings

Figure 1 is a schematic diagram of the overall structure of the utility model building industrialized energy-saving anti-seismic wallboard.

Fig. 2 is a structural schematic diagram of the reinforced layer of the building industrialized energy-saving anti-seismic wallboard of the utility model.

Fig. 3 is a structural schematic diagram of the protective layer of the utility model building industrialization energy-saving anti-seismic wall panel

In the figure: 1. Protective layer; 2. Reinforcing layer; 3. Bolt; 4. Reinforced keel; 5. Steel plate; 6. Reinforced grid; 7. Aerated concrete; 8. Transverse beam; Alloy plate; 11. Reinforcing ribs; 12. Reinforced slats; 13 Shockproof layer; 14. Lightweight aggregate; 15. Transverse slats.

Detailed ways

In order to make the technical means, creative features, goals and effects achieved by the utility model easy to understand, the utility model will be further elaborated below in conjunction with specific embodiments.

As shown in Figures 1-3, a building industrialized energy-saving and anti-seismic wallboard includes an alloy plate 10, a protective layer 1, a reinforcing layer 2 and a steel plate 5, and the upper surface of the alloy plate 10 is provided with a protective layer 1, a reinforcing layer 2 and a steel plate 5. Steel plate 5, the protective layer 1 is fixedly installed on one side of the reinforcement layer 2 and the steel plate 5 is fixedly installed on the other side, the two ends of the reinforcement layer 2 are fixedly installed with reinforcement keels 4 and bolts 3, and the bottom of the anti-seismic wallboard is An anti-vibration layer 13 is fixedly installed, and the concrete layer 9 is fixedly installed on the bottom of the reinforcement layer 2. The inside of the reinforcement layer 2 is provided with reinforcement ribs 11 and transverse beams 8. Fixedly connected, the aerated concrete 7 is fixedly installed on one side of the reinforcing rib 11, and the inside of the protective layer 1 is provided with reinforcing slats 12, lightweight aggregates 14 and transverse slats 15, and one side of the reinforcing slats 12 is fixed The transverse slats 15 are connected, and the other side is fixedly connected to the lightweight aggregate 14 .

Wherein, bolts 3 are used to connect the reinforced keels 4 .

Wherein, the number of the protective layer 1 and the reinforcement layer 2 are two groups.

Wherein, the shockproof layer 3 is made of foamed resin.

Wherein, the reinforcing slats 12 are Portland cement columns.

It should be noted that the utility model is an energy-saving anti-seismic wallboard for building industrialization. When in use, the anti-seismic layer 13 is fixedly installed on the bottom of the anti-seismic wallboard, and its material is foamed resin. During transportation and after use, it can effectively reduce the damage to the wallboard caused by vibration. After installation, when a strong vibration occurs, the integrity of the wallboard can be guaranteed, and the practicability of the wallboard is improved. By setting the steel plate 5, the steel plate 5 It is fixedly installed on the upper surface of the alloy plate 10, which strengthens the overall rigidity of the wallboard and improves the safety. By setting the reinforcement layer 2 and the protection layer 1, the reinforcement layer 2 and the protection layer 1 are fixedly installed on both sides of the steel plate 5, which solves the problem of The problem that the wallboard is easy to break makes the wallboard increase its toughness when it is used, so that the building industrialized wallboard can be used for a long time. By setting the reinforcement strip 12, the reinforcement strip 12 is a Portland cement column, and the silicic acid The reinforced slats made of salt cement have good corrosion resistance, and also ensure the overall corrosion resistance of the industrialized wallboard, which solves the problem that the building industrialized wallboard is easily corroded and cannot be used for a long time. By setting the aerated concrete 7 and lightweight aggregate 14, the aerated concrete 7 is fixedly installed inside the reinforced grid 6, and the lightweight aggregate 14 is fixedly installed inside the protective layer 1, and both the aerated concrete and the lightweight aggregate are low in weight, High strength and low price, the use of these materials reduces the overall weight of the building industrialized wallboard, improves the strength of the building industrialized wallboard, reduces the cost of materials, is more economical, practical, and more convenient to use.

The basic principles and main features of the present utility model and the advantages of the present utility model have been shown and described above. Those skilled in the art should understand that the utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model The new model also has various changes and improvements, and these changes and improvements all fall within the scope of the claimed utility model. The scope of protection required by the utility model is defined by the appended claims and their equivalents.

Claims (5)

1. a kind of industrial energy-saving anti-seismic wallboard, including alloy sheets（10）, protective layer（1）, enhancement layer（2）And steel plate（5）, It is characterized in that：The alloy sheets（10）Upper surface sets matcoveredn（1）, enhancement layer（2）And steel plate（5）, the enhancement layer （2）Matcoveredn is fixedly mounted in side（1）, and its opposite side is installed with steel plate（5）, the enhancement layer（2）Both ends are fixed Reinforcing bar keel are installed（4）And bolt（3）, the alloy sheets bottom is installed with shakeproof layer（13）, the enhancement layer（2）Bottom Portion is provided with concrete layer（9）, the enhancement layer（2）Inside is provided with reinforcement（11）And transverse beam（8）, the reinforcement（11）Gu Dingan County is mounted in transverse beam（8）Top, the reinforcement（11）And transverse beam（8）Pass through bar frame（6）It is fixedly connected, the steel Muscle rack（6）Inside is provided with air entrained concrete（7）, the protective layer（1）Inside, which is provided with, reinforces lath（12）, aglite（14） And transverse slats（15）, the reinforcing lath（12）Side is fixedly connected with transverse slats（15）, and its opposite side fixed-link is light Matter aggregate（14）.

A kind of 2. industrial energy-saving anti-seismic wallboard according to claim 1, it is characterised in that：The reinforcing bar keel （4）At least two groups.

A kind of 3. industrial energy-saving anti-seismic wallboard according to claim 1, it is characterised in that：The protective layer（1） And enhancement layer（2）Quantity be two groups.

A kind of 4. industrial energy-saving anti-seismic wallboard according to claim 1, it is characterised in that：The shakeproof layer（13） It is made up of Foamex.

A kind of 5. industrial energy-saving anti-seismic wallboard according to claim 1, it is characterised in that：The reinforcing lath （12）For portland cement post.