CN211396076U - Steel wire mesh frame light mortar composite heat-insulation wallboard - Google Patents

Abstract

The utility model discloses a steel wire mesh frame light mortar composite heat insulation wallboard, which is provided with an outer steel wire mesh, a light mortar composite layer, an interfacial agent and a heat insulation layer board; the left side surface and the right side surface of the heat-insulation layer plate are respectively connected with an interface agent, the outer sides of the interface agents are respectively connected with a light mortar composite layer, and the outer layer steel wire mesh is arranged on the outer side of the light mortar composite layer and keeps a distance with the light mortar composite layer. The beneficial technical effects are as follows: energy conservation and environmental protection, low manufacturing cost, simple and quick construction and no potential safety hazard. The composite layer is formed by combining perlite and light mortar, the steel wire net frame penetrates through the composite layer and is combined with the inner core material into a whole, and the core material is firmly bonded with the composite layer after being coated with the interface agent. The product has light weight per unit volume, heat insulation, heat preservation, high overall strength and greatly improved impact resistance.

Description

Steel wire mesh frame light mortar composite heat-insulation wallboard

Technical Field

The utility model belongs to the technical field of the building materials technique and specifically relates to a steel wire net rack light mortar composite insulation wallboard.

Background

The composite heat-insulating wall board is a building material product widely used at present, and the main components of the wall board mostly adopt ordinary portland cement, sand, fly ash or other industrial wastes such as water granulated slag, furnace slag and the like as fine aggregate, then polystyrene particles and a small amount of inorganic chemical auxiliary agents are added, a honeycomb structure is formed by internally inflating, the wall board is matched with a full-automatic high-efficiency forced light aggregate special stirring system, and air is filled in the stirring process to form honeycomb stable air holes of a core layer, so that the volume weight of the product can be reduced, the material cost is reduced, and ideal heat-insulating and sound-insulating effects can be achieved. The polyphenyl granules and the air holes are uniformly distributed in the product, so that the concrete forms a honeycomb-shaped mutually-supported circular skeleton, and the pressure resistance is improved. Similar products comprise fly ash concrete hollow blocks, cement fly ash expanded perlite concrete heat-preservation blocks, fly ash concrete light partition boards and the like. Although the products reduce the weight of the products and have certain heat preservation and sound insulation effects, the products have some disadvantages in the actual application process: the wall body is easy to have hollowness, is difficult to be combined with a concrete wall into a whole, is easy to generate a cold bridge, increases the volume weight, has large installation difficulty and long construction period and high manufacturing cost. Cracks are easy to generate between the plate seams, and potential safety hazards of falling off and hurting people exist easily.

With the rapid development of the science and technology level of the building material industry and the market demand, higher requirements are put forward on the building wall material, and the development of the composite heat-insulation wallboard which has light unit volume weight, heat insulation and sound insulation, high overall strength and strong bonding force with the outer layer surface becomes a major problem to be solved urgently by the modern building material technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a steel wire net frame light mortar composite insulation wallboard is provided, have unit volume light in weight, thermal-insulated heat preservation, bulk strength height, energy-concerving and environment-protective, cost low, the construction progress is fast, impact resistance's characteristics.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a steel wire mesh frame light mortar composite heat insulation wallboard comprises an outer steel wire mesh layer, a light mortar composite layer, an interface agent and a heat insulation layer board; and the outer layer steel wire mesh is arranged on the outer side of the light mortar composite layer and keeps a distance with the light mortar composite layer.

The steel wire mesh frame light mortar composite heat-insulation wallboard further comprises a reinforced steel wire mesh, and the reinforced steel wire mesh is located between the left outer steel wire mesh of the composite heat-insulation wallboard and the left light mortar composite layer.

The steel wire mesh frame light mortar composite heat-insulation wallboard further comprises an adhesive layer, and the adhesive layer is connected to the outer side face of the light mortar composite layer respectively.

Foretell steel wire net frame light mortar composite insulation wallboard still includes horizontal steel wire, horizontal steel wire passes composite insulation wallboard, and the left end head of horizontal steel wire is connected with the left outer wire net of composite insulation wallboard and the reinforcement wire net, and the right-hand member head of horizontal steel wire is connected with the outer wire net on composite insulation wallboard right side.

In the steel wire mesh frame light mortar composite heat-insulation wallboard, the outer steel wire mesh and the reinforcing steel wire mesh are rectangular meshes.

The utility model provides a steel wire mesh frame light mortar composite heat-insulation wallboard, which is provided with an outer steel wire mesh, a light mortar composite layer, an interfacial agent and a heat-insulation laminate; and the outer layer steel wire mesh is arranged on the outer side of the light mortar composite layer and keeps a distance with the light mortar composite layer. According to the product designed by the technical scheme, the outer steel wire meshes are arranged on the two sides and keep the distance, and the transverse steel wires penetrate through the heat-insulation wallboard and are respectively welded and fixed with the outer steel wire meshes at the two ends. The heat preservation laminated plate is made of EPS polystyrene plate, XPS polystyrene extruded sheet or graphite polystyrene board. Firstly, the surface of the insulating layer is sprayed with an interface agent for treatment. The interface agent can also be called as an interface modifier, and the physical and technical properties and surface chemical characteristics of the heat-insulating layer plate can be improved or completely changed through the adsorption or coating action of the interface agent sprayed on the surface of the heat-insulating layer plate. The common interfacial agent is used for wetting, dipping and coating the surface of the insulating layer, so that bidirectional permeation bonding can be realized, and a radioactive chain type anchoring effect is generated to permanently and firmly bond the bidirectional materials together. Secondly, the treated heat-insulating layer plate is subjected to light mortar double-sided compounding on a flow line, each surface is compounded with three layers, the first layer is bonding mortar and fiber gridding cloth, the second layer is light mortar and fiber gridding cloth, the third layer is anti-crack mortar and fiber gridding cloth, and the total thickness of the composite layer is 30 mm. And thirdly, performing one-time joint welding on the composite-molded heat-insulation laminate, namely respectively welding the head parts of the two ends of the transverse steel wire with the outer-layer steel wire mesh, and performing manual repair welding if welding spots are leaked by equipment. Through the production process, the overall strength and the shock resistance of the product are ensured. The beneficial technical effects are as follows: the product is energy-saving and environment-friendly, low in manufacturing cost, quick in construction progress, free of cold bridge and fire hazard, has the same service life as a building main body, and does not have potential safety hazard. And secondly, the composite layer is formed by combining perlite and light mortar into a whole, the flame retardance of the material reaches A level, the steel wire mesh frame penetrates through the composite layer and is combined with the inner core material into a whole, and the core material is firmly bonded with the composite layer after being coated with the interface agent. The construction is simple and quick. Thirdly, the product has light weight per unit volume, heat insulation, heat preservation, high overall strength and greatly improved impact resistance.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram according to a first embodiment;

fig. 3 is a schematic structural diagram of the second embodiment.

The parts in the figures are numbered: the heat-insulating composite plate comprises an outer steel wire mesh 1, a light mortar composite layer 2, an interfacial agent 3, a heat-insulating layer plate 4, transverse steel wires 5, a reinforcing steel wire mesh 6 and an adhesive layer 7.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in FIGS. 1-3, the embodiment of the present invention is as follows:

example 1: a steel wire mesh frame light mortar composite heat insulation wallboard comprises an outer steel wire mesh 1, a light mortar composite layer 2, an interfacial agent 3 and a heat insulation layer plate 4; the interface agent 3 is respectively coated on the left side surface and the right side surface of the heat-insulation layer plate 4, the light mortar composite layer 2 is connected to the outer sides of the interface agent 3, and the outer layer steel wire mesh 1 is arranged on the outer side of the light mortar composite layer 2 and keeps a distance with the light mortar composite layer 2. Still including consolidating the steel wire net 6, it is located between left outer steel wire net 1 of composite insulation wallboard and the left light mortar composite bed 2 to consolidate steel wire net 6. Still include horizontal steel wire 5, horizontal steel wire 5 passes composite insulation wallboard, and the left end head of horizontal steel wire 5 is connected with the left outer wire net 1 of composite insulation wallboard and consolidates wire net 6, and the right-hand member head of horizontal steel wire 5 is connected with outer wire net 1 on composite insulation wallboard right side. The outer layer steel wire mesh 1 and the reinforced steel wire mesh 6 are rectangular meshes. The outer layer steel wire mesh 1 is arranged on the outer side of the light mortar composite layer 2, keeps a distance with the light mortar composite layer 2, is a space reserved for pouring concrete, and is directly used as a wall facing after the concrete pouring is finished.

Example 2: a steel wire mesh frame light mortar composite heat insulation wallboard comprises an outer steel wire mesh 1, a light mortar composite layer 2, an interfacial agent 3 and a heat insulation layer plate 4; the interface agent 3 is respectively coated on the left side surface and the right side surface of the heat-insulation layer plate 4, the light mortar composite layer 2 is connected to the outer sides of the interface agent 3, and the outer layer steel wire mesh 1 is arranged on the outer side of the light mortar composite layer 2 and keeps a distance with the light mortar composite layer 2. Still including consolidating the steel wire net 6, it is located between left outer steel wire net 1 of composite insulation wallboard and the left light mortar composite bed 2 to consolidate steel wire net 6. The light mortar composite layer is characterized by further comprising an adhesive layer 7, wherein the adhesive layer 7 is connected to the outer side surface of the light mortar composite layer 2. Still include horizontal steel wire 5, horizontal steel wire 5 passes composite insulation wallboard, and the left end head of horizontal steel wire 5 is connected with the left outer wire net 1 of composite insulation wallboard and consolidates wire net 6, and the right-hand member head of horizontal steel wire 5 is connected with outer wire net 1 on composite insulation wallboard right side. The outer layer steel wire mesh 1 and the reinforced steel wire mesh 6 are rectangular meshes. The outer layer steel wire mesh 1 is arranged on the outer side of the light mortar composite layer 2, keeps a distance with the light mortar composite layer 2, is a space reserved for pouring concrete, and is directly used as a wall facing after the concrete pouring is finished.

Appropriate changes and modifications to the embodiments described above will become apparent to those skilled in the art from the disclosure and teachings herein. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (5)

1. The utility model provides a steel wire net rack light mortar composite insulation wallboard which characterized in that: comprises an outer steel wire mesh (1), a light mortar composite layer (2), an interfacial agent (3) and a heat-preservation laminate (4); the left side surface and the right side surface of the heat-insulation layer plate (4) are respectively coated with an interface agent (3), the outer sides of the interface agents (3) are connected with a light mortar composite layer (2), and the outer-layer steel wire mesh (1) is arranged on the outer side of the light mortar composite layer (2) and keeps a distance with the light mortar composite layer (2).

2. The steel wire mesh frame light mortar composite heat-insulation wallboard as claimed in claim 1, characterized in that: still including consolidating steel wire net (6), consolidate steel wire net (6) and be located between left outer steel wire net (1) of composite insulation wallboard and left light mortar composite bed (2).

3. The steel wire mesh frame light mortar composite heat-insulation wallboard as claimed in claim 2, characterized in that: the light mortar composite layer is characterized by further comprising an adhesive layer (7), wherein the adhesive layer (7) is connected to the outer side surface of the light mortar composite layer (2) respectively.

4. The steel wire mesh frame light mortar composite heat-insulation wallboard as claimed in claim 2 or 3, characterized in that: still include horizontal steel wire (5), compound heat preservation wallboard is passed in horizontal steel wire (5), and the left end head of horizontal steel wire (5) is connected with left outer wire net (1) of compound heat preservation wallboard and reinforcement wire net (6), and the right-hand member head of horizontal steel wire (5) is connected with outer wire net (1) on compound heat preservation wallboard right side.

5. The steel wire mesh frame light mortar composite heat-insulation wallboard as claimed in claim 4, characterized in that: the outer layer steel wire mesh (1) and the reinforced steel wire mesh (6) are rectangular meshes.

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