CN211690841U - Composite heat-insulation wall system - Google Patents

Abstract

The utility model discloses a compound incubation wall system, including heat preservation and wire net frame and components of a whole that can function independently screw rod, the wire net frame includes the wire net piece and inserts the silk to one side, the wire net piece is located the mortar in situ, insert silk one end welding to one side on the wire net piece, one end is passed and is extended the heat preservation, the components of a whole that can function independently screw rod includes lead screw and barrel arbor, barrel arbor one end be equipped with the screw rod cap and with the fixed lid of screw rod cap matched with, the screw rod cap covers the depressed groove that is equipped with mutual correspondence with fixed, the utility model has the advantages of it is following: this heat preservation wall system sets up components of a whole that can function independently screw rod structure, screw rod cap and fixed covering go up the sunken groove that is equipped with mutual correspondence perpendicularly, presets the section of thick bamboo pole part on the wire net frame earlier before compound mortar layer to compound screw rod cap in the mortar layer, just so solved the mode that has heat preservation wall system adopted the preformed hole, compound mortar layer earlier, install integrative connecting piece again, just so lead to heat preservation wall system to produce the heat bridge.

Description

Composite heat-insulation wall system

Technical Field

The utility model relates to a building material field especially relates to a novel compound incubation wall system.

Background

In order to enable a building to achieve a better energy-saving effect, various thermal insulation wall systems meeting the requirement are applied to a building structure, so that various performance indexes of the thermal insulation wall structure also determine the energy-saving and environment-friendly level of the whole building and even the engineering quality level, the thermal insulation wall system is not only applied to a non-bearing thermal insulation wall, but also is widely applied to the structure of a shear wall, and the waterproof, thermal insulation, fireproof, anti-cracking and anti-seismic strength of the thermal insulation wall system are all technical problems to be solved.

The composite heat-insulating wall system is made up by using additive, cement, sand and mucilage as adhesive material; the glass fiber mesh cloth and the reinforcing steel bars are reinforced materials; wood fiber and fly ash are used as fillers; the polyethylene foam board is a heat-insulating material. The product is produced in a factory through reasonable material proportion and scientific production process. Can be used for building, connecting building, modifying old building, modifying flat roof into slope roof, villa, factory building and rural building.

The existing composite heat-insulating wall system generally has the defects of low factory production efficiency, inconvenient transportation, cracking and falling off after installation and the like, and is a technical problem which always puzzles the field of building construction.

In order to solve the problems, some cast-in-place composite wall schemes without the web fibers are provided, but a plurality of problems to be solved are mainly that the problem of the connection strength of the composite wall is not well solved, the problem of the wall flatness does not form a uniform standard, most of the composite wall needs to be leveled by mortar after pouring, the time and the labor are consumed, and a lot of cost is increased.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defect, the utility model provides a novel compound incubation wall system.

The utility model adopts the technical scheme as follows: a composite heat-insulation wall body system comprises a heat-insulation layer, a steel wire mesh frame and split screws, wherein the steel wire mesh frame comprises a steel wire mesh sheet and oblique inserted wires, the steel wire mesh sheet is located in a mortar layer, one ends of the oblique inserted wires are welded on the steel wire mesh sheet, the other ends of the oblique inserted wires penetrate through the heat-insulation layer and extend out of the mortar layer, the split screws comprise lead screws and barrel rods, one ends of the barrel rods are provided with screw caps and fixing covers matched with the screw caps, and the screw caps and the fixing covers are provided with mutually corresponding concave grooves for placing steel wires; the other end of the cylinder rod penetrates through the heat-insulating layer but does not extend out of the heat-insulating layer, so that the transportation is facilitated; the screw rod cap is compounded in the mortar layer, and the bolt cap needs to be smeared in the mortar layer, guarantees like this that the face levels the transportation of being convenient for, and the mortar layer in the outside has no preformed hole simultaneously, improves the waterproof performance of wall.

The utility model discloses the technological effect who brings is, the utility model has the advantages of it is following:

(1) the heat-insulating wall system has reasonable structural design, is mechanically produced in a factory workshop, and does not need any processing operation during field construction;

(2) the heat-insulation wall body system is provided with a split screw structure, wherein concave grooves which correspond to each other are vertically arranged on a screw cap and a fixed cover and are used for placing vertical steel wires, and in addition, the screw cap and the fixed cover are respectively provided with a buckle and a clamping groove which are matched with each other and are used for fixing the screw cap and the fixed cover; the cylinder rod part is preset on the steel wire mesh frame before the mortar layer is compounded, and the screw rod cap is compounded in the mortar layer, so that the problem that the existing heat-insulating wall system adopts a preformed hole mode is solved, the mortar layer is compounded firstly, and then an integrated connecting piece is installed, so that the heat-insulating wall system generates a heat bridge, and the heat-insulating effect and the waterproof effect are influenced;

(3) the screw rod is designed to be split, the barrel rod part is preset, so that the transportation is convenient, the screw rod part is screwed after the screw rod part is transported to a construction site, and the construction efficiency and the construction quality are improved.

Drawings

FIG. 1 shows the overall structure of the present invention;

fig. 2 shows a structure diagram of the split screw rod of the present invention;

FIG. 3 shows a partial structure view of the split screw of the present invention;

as shown in fig. 4, the structure of the steel wire mesh placed on the screw cap structure of the present invention is shown;

in the figure, 1, a heat preservation layer, 2, a steel wire mesh, 3, oblique inserting wires, 4, an interface agent layer, 5, a mortar layer, 6, a barrel rod, 7, a screw rod, 8, a screw rod cap, 9, a fixing cover, 10, a concave groove, 11, inner wires, 12, outer wires, 13, a reinforcing structure, 14, a buckle, 15, a clamping groove, 16 and a plastering layer.

Detailed Description

The technical solution is described in detail below with reference to the accompanying drawings and the detailed description

As shown in the figure, the novel composite heat-insulation wall system comprises a heat-insulation layer 1, a steel wire mesh frame and split screws, wherein the steel wire mesh frame comprises a steel wire mesh 2 and oblique inserted wires 3, the steel wire mesh 2 is located in a mortar layer 5, one ends of the oblique inserted wires 3 are welded on the steel wire mesh 2, the other ends of the oblique inserted wires pass through and extend out of the heat-insulation layer 1, the split screws comprise lead screws 7 and barrel rods 6, one ends of the barrel rods 6 are provided with screw caps 8 and fixing covers 9 matched with the screw caps, and the screw caps 8 and the fixing covers 9 are provided with concave grooves 10 corresponding to each other for placing steel wires; the other end of the cylinder rod is provided with an inner wire 11 matched with an outer wire 12 of the screw rod, and the other end of the cylinder rod penetrates through the heat-insulating layer but does not extend out of the heat-insulating layer, so that the transportation is facilitated; the screw rod cap is compounded in the mortar layer, and the bolt cap needs to be smeared in the mortar layer, guarantees like this that the face levels the transportation of being convenient for, and the mortar layer in the outside has no preformed hole simultaneously, improves the waterproof performance of wall.

A plastering layer 16 is compounded on the outer side of the mortar layer; an interfacial agent layer 4 is arranged between the heat-insulating layer and the mortar layer;

screw rod cap covers perpendicularly with fixed and is equipped with the depressed groove that corresponds each other for place the vertically steel wire, screw rod cap and fixed lid are equipped with mutually supported buckle 14 and draw-in groove 15 respectively in addition, be used for the fixed of screw rod cap and fixed lid, the purpose of designing above-mentioned structure can pass through fixed lid card with the screw rod cap on the steel wire of wire net rack, and then presets the barrel-bar part on the wire net rack, the follow-up compound mortar layer of being convenient for, another important function is, guarantee that the bolt can hold the wire net piece, thereby hold whole heat preservation wall system.

And a reinforcing structure 13 is arranged on the screw rod, so that the whole split screw rod is more firmly pulled, connected and fixed.

It is easily understood that this embodiment is only a part of the present invention, and other embodiments obtained by those skilled in the art without any inventive work and various changes and modifications made without departing from the spirit and scope of the present invention should fall within the protection scope of the present invention.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (4)

1. The composite heat-insulation wall body system is characterized by comprising a heat-insulation layer, a steel wire mesh frame and split screws, wherein the steel wire mesh frame comprises a steel wire mesh sheet and oblique inserted wires, the steel wire mesh sheet is positioned in a mortar layer, one ends of the oblique inserted wires are welded on the steel wire mesh sheet, the other ends of the oblique inserted wires penetrate through and extend out of the heat-insulation layer, the split screws comprise screw rods and barrel rods, one ends of the barrel rods are provided with screw caps and fixing covers matched with the screw caps, and the screw caps and the fixing covers are provided with corresponding concave grooves; the other end of the cylinder rod penetrates through the heat-insulating layer but does not extend out of the heat-insulating layer; the screw cap is compounded in the mortar layer.

2. The composite thermal wall system according to claim 1, wherein a finishing layer is further compounded outside the mortar layer; an interface agent layer is arranged between the heat-insulating layer and the mortar layer.

3. The composite thermal wall system according to claim 1, wherein the screw cap and the fixing cover are vertically provided with corresponding concave grooves, and the screw cap and the fixing cover are respectively provided with a mutually matched buckle and a mutually matched clamping groove.

4. The composite thermal wall system of claim 1, wherein said screws are provided with a reinforcing structure.

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