CN113338460A

CN113338460A - Positioning anchoring reinforcing steel mesh built-in heat preservation system

Info

Publication number: CN113338460A
Application number: CN202110689425.8A
Authority: CN
Inventors: 王冰洁; 王爱国; 冯雪松; 于凤帅
Original assignee: Shandong Zhisheng Energy Saving Building Materials Co ltd
Current assignee: Shandong Zhisheng Energy Saving Building Materials Co ltd
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2021-09-03
Also published as: CN219196348U

Abstract

The invention provides a positioning anchoring reinforced steel mesh built-in heat preservation system. The structure is as follows: the outside at the heated board has the concrete protection layer, has the steel wire net in the outside of concrete protection layer, has a plurality of oblique plug wires in the inboard of steel wire net, and the plug wire runs through the concrete protection layer and inserts to the heated board to one side, and the connecting piece is from outside to inside runs through steel wire net, concrete protection layer, heated board in proper order. The invention uses a layer of wire mesh with oblique inserted wires as a supporting framework, and the wire mesh penetrates into the heat-insulating layer through the oblique inserted wires and has enough length, thereby constructing the heat-insulating system with a composite structure. The steel-plastic buckle heat-insulation nail or the connecting rib is used for connecting the positioning anchoring reinforcing steel mesh built-in heat-insulation system with the main structure steel bar, and the heat-insulation protection layer and the protection layer form a heat-insulation system integrating building heat insulation and structure. The invention has the advantages of firm structure, excellent heat preservation effect, convenient construction and outstanding technical advantages.

Description

Positioning anchoring reinforcing steel mesh built-in heat preservation system

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a positioning anchoring reinforcing steel mesh built-in heat insulation system.

Background

The external wall external heat insulation is a heat insulation method of arranging a heat insulation layer on the outer side of a main body wall material, can reduce heat loss, can relieve temperature deformation stress borne by the main body wall material, and is the most widely applied heat insulation method at present. Because the heat insulating material is arranged on the outer side of the outer wall of the building, the cold and heat bridge influence of all parts of the building can be basically eliminated. The heat-insulating effect of the novel light high-efficiency heat-insulating material can be fully exerted, and compared with the heat-insulating wall body with the heat-insulating sandwich structure and the heat-insulating wall body with the heat-insulating sandwich structure in the outer wall, the heat-insulating material is required to be smaller in thickness under the condition of using the same heat-insulating material, so that the higher energy-saving effect is achieved.

In the prior art, in order to realize heat preservation and fireproof effect, the heat preservation plate is generally designed to be a multilayer composite structure. The existing conventional insulation board has poor firmness and is easy to have the problems of delamination, cracks, leakage and the like in the use process; in addition, the conventional composite heat insulation structure has the technical defects that the construction is inconvenient, the heat insulation effect needs to be enhanced and the like.

Disclosure of Invention

The invention aims to provide a positioning anchoring reinforced steel mesh built-in heat insulation system aiming at the technical defects in the prior art so as to solve the technical problem that the firmness of a conventional composite heat insulation structure needs to be improved.

The invention also aims to solve the technical problem that the conventional composite heat-insulating structure is inconvenient to construct.

The invention further solves the technical problem of how to further improve the heat insulation effect of the composite heat insulation structure.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

location anchor strengthens steel mesh built-in heat preservation system, including heated board, concrete protective layer, the wire net piece, insert the silk to one side, the connecting piece, wherein, has the concrete protective layer in the outside of heated board, has the wire net piece in the outside of concrete protective layer, has a plurality of oblique inserting silks in the inboard of wire net piece, inserts the silk to one side and runs through the concrete protective layer and insert to the heated board, and the connecting piece runs through wire net piece, concrete protective layer, heated board in proper order from outside to inside.

Preferably, the heat insulation plate further comprises a cast-in-place concrete wall body, wherein the heat insulation plate is located on the outer side of the cast-in-place concrete wall body, and the connecting piece is inserted into the cast-in-place concrete wall body.

Preferably, the steel wire mesh plate further comprises leveling mortar, and the leveling mortar is located on the outer side of the steel wire mesh plate.

Preferably, the leveling mortar further comprises a coating veneer, and the coating veneer is positioned outside the leveling mortar.

Preferably, the outer end of the connecting piece is provided with a first oval disc, the middle of the connecting piece is provided with a second disc, the middle of the connecting piece is provided with a circular buckle, the first oval disc (9) is positioned on the outer side of the steel wire mesh (3), the second disc (9) is positioned on the inner side of the heat insulation plate (1), and the buckle (9) is positioned on the outer side of the heat insulation plate (1).

In the above technical scheme, the connecting piece is a steel-plastic heat-preservation connecting nail or a twisted steel.

The heat insulating layer can adopt materials such as molded polystyrene board (EPS), extruded polystyrene board (XPS), graphite polystyrene board (GEPS), modified graphite extruded sheet (GXPS) or polyurethane board as core materials, thereby playing a role in heat insulating and heat insulating.

The wire mesh sheets with the oblique inserted wires can be formed by welding galvanized steel wires, the wire mesh sheets with the oblique inserted wires play a role in fixing the insulation board and ensuring the structural steel bar protection layer, the grid interval is less than or equal to 100mm, and the wire diameter is greater than or equal to 2.5 mm.

The steel-plastic heat-preservation connecting nail is used for connecting two layers of obliquely inserted wire steel wire mesh sheets outside the heat-preservation plate. One end of the mesh extends out of the outer side of the insulation board, and the other end of the mesh is connected with main body steel bars on the inner side of the insulation board and is reinforced by steel-plastic buckles or nylon buckles. The function of positioning, anchoring and reinforcing tensile strength of the steel mesh built-in heat insulation system and the base layer wall body is achieved.

The invention uses a layer of wire mesh with oblique inserted wires as a supporting framework, and the wire mesh penetrates into the heat-insulating layer through the oblique inserted wires and has enough length, thereby constructing the heat-insulating system with a composite structure. The steel-plastic buckle heat-insulation nails or connecting bars (no less than 5 steel bars per square meter) are used for connecting the positioning anchoring reinforcing steel mesh built-in heat-insulation system with the main structure steel bars, and the heat-insulation protective layer and the protective layer form a heat-insulation system integrating building heat insulation and structure integration on the outer side. The invention has the advantages of firm structure, excellent heat preservation effect, convenient construction and outstanding technical advantages.

Drawings

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIGS. 1 and 3;

FIG. 3 is a schematic view of the overall structure of the present invention;

in the figure:

1. insulation board 2, concrete protective layer 3, steel wire mesh 4 and oblique inserting wire

5. Connecting piece 6, cast-in-place concrete wall 7, leveling mortar 8 and coating veneer

9. An oval shaped disk. 10. Disc 11, circular buckle

Detailed Description

Hereinafter, specific embodiments of the present invention will be described in detail. Well-known structures or functions may not be described in detail in the following embodiments in order to avoid unnecessarily obscuring the details. Approximating language, as used herein in the following examples, may be applied to identify quantitative representations that could permissibly vary in number without resulting in a change in the basic function. Unless defined otherwise, technical and scientific terms used in the following examples have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Location anchor strengthens steel mesh built-in heat preservation system, as shown in fig. 1 ~ 3, including heated board 1, concrete protective layer 2, steel mesh 3, insert silk 4 to one side, connecting piece 5, wherein, concrete protective layer 2 has in the outside of heated board 1, steel mesh 3 has in the outside of concrete protective layer 2, a plurality of insert silk 4 to one side have in the inboard of steel mesh 3, insert silk 4 to one side and run through concrete protective layer 2 and insert to heated board 1, connecting piece 5 from outside to inside runs through steel mesh 3 in proper order, concrete protective layer 2, heated board 1.

Simultaneously, still including cast in situ concrete wall 6, wherein, heated board 1 is located the outside of cast in situ concrete wall 6, and connecting piece 5 inserts inside cast in situ concrete wall 6. Still include the mortar 7 of making level, the mortar 7 of making level is located the wire net piece 3 outside. The mortar leveling device further comprises a coating facing 8, wherein the coating facing 8 is positioned outside the leveling mortar 7. Have first oval dish 9 in the outer end of connecting piece 5, have second disc 9 in the middle part of connecting piece 5, have a circular buckle in the middle part of connecting piece, first oval dish (9) are located wire net piece (3) the outside, second disc (9) are located the inboard of heated board (1), a buckle (9) are located the outside of heated board (1).

The main specifications and dimensions of the positioning anchoring reinforcing steel mesh built-in heat preservation system are shown in table 1.

TABLE 1 Main specification and size of the steel mesh built-in insulation system with positioning, anchoring and strengthening functions

The embodiments of the present invention have been described in detail, but the description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention. Any modification, equivalent replacement, and improvement made within the scope of the application of the present invention should be included in the protection scope of the present invention.

Claims

1. Location anchor strengthens built-in heat preservation system of steel mesh, its characterized in that includes heated board (1), concrete protective layer (2), wire mesh (3), insert silk (4) to one side, connecting piece (5), wherein, concrete protective layer (2) have in the outside of heated board (1), wire mesh (3) have in the outside of concrete protective layer (2), a plurality of oblique plug silks (4) have in the inboard of wire mesh (3), plug silks (4) to one side run through concrete protective layer (2) and insert to heated board (1), connecting piece (5) are from outer and interior wire mesh (3) of running through in proper order, concrete protective layer (2), heated board (1).

2. The system for built-in heat preservation of the positioning anchoring reinforcing steel mesh according to claim 1, further comprising a cast-in-place concrete wall (6), wherein the heat preservation plate (1) is located at the outer side of the cast-in-place concrete wall (6), and the connecting member (5) is inserted into the cast-in-place concrete wall (6).

3. The system for internally installing the heat insulation system in the positioning anchoring reinforcing steel mesh as claimed in claim 2, further comprising a leveling mortar (7), wherein the leveling mortar (7) is located outside the steel mesh (3).

4. The system according to claim 3, further comprising a paint finish (8), wherein the paint finish (8) is located outside the leveling mortar (7).

5. The system for internally arranging the heat preservation steel mesh by the positioning anchoring and reinforcing as claimed in claim 4, wherein a first oval disc is arranged at the outer end of the connecting piece (5), a clamping groove is respectively formed in each of two ends of the disc to be connected and fixed with the steel wire mesh (9), a second oval disc is arranged in the middle of the connecting piece (5) to fix the heat preservation layer and prevent the heat preservation layer from shifting (9) with the distance between the heat preservation layer and the steel wire mesh, a circular buckle is arranged in the middle of the connecting piece (5) to prevent the connecting piece from shifting and reinforcing the connecting piece from being connected with a concrete wall body, the first oval disc (9) is positioned on the outer side of the steel wire mesh (3), the second disc (9) is positioned on the inner side of the heat preservation plate (1), and the buckle (9) is positioned on the outer side of the heat preservation plate (1).