CN213926810U - Novel steel wire net rack cement insulation board structure - Google Patents

Abstract

A novel steel wire mesh frame cement insulation board structure comprises a front steel wire mesh frame, a rear steel wire mesh frame and web wires, wherein a foaming insulation board is clamped between the front steel wire mesh frame and the rear steel wire mesh frame; the belly wire is inserted on the foaming heat-insulation board; the web wires are arranged along the direction between the transverse direction and the longitudinal direction of the foaming heat-insulation board, and two ends of the web wires are fixedly connected with the front steel wire net rack and the rear steel wire net rack respectively; cement mortar with the thickness not less than 25mm is sprayed on the foaming heat-insulation board, the cement mortar covers the front steel wire mesh frame and the rear steel wire mesh frame, and the distance between the edge of the cement mortar and the splicing side edge of the foaming heat-insulation board is not less than 100 mm. The abdominal wires are arranged in the foaming heat-insulation board in a splayed structure and form a quadrangular frustum pyramid structure, so that the structure strength of the utility model is higher, and the abdominal wires are more stable when being arranged transversely or vertically; cement mortar is sprayed on the foaming insulation board in advance in a factory, the workload of spraying the cement mortar on site is reduced, the quality is controllable, and the foaming insulation board is safe and environment-friendly.

Description

Novel steel wire net rack cement insulation board structure

Technical Field

The utility model relates to a building material technical field, concretely relates to novel steel wire net rack cement heated board structure.

Background

The steel wire mesh frame heat-insulating wall body technology is widely applied to building energy-saving heat-insulating engineering in China, and has the greatest characteristic: the steel wire mesh frame cement heat insulation board has a good heat insulation effect, can be used as an inner wall and an outer wall of a building, belongs to one of structural energy-saving integration technologies, and is simple and convenient to construct and operate. However, the existing steel wire mesh frame thermal insulation wallboard is large in engineering quantity of spraying mortar after a core plate is installed on site, and the quality is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, a steel wire mesh frame heat preservation plate structure pre-sprayed with cement mortar in a factory needs to be designed to overcome the existing defects.

A novel steel wire mesh frame cement insulation board structure comprises a front steel wire mesh frame and a rear steel wire mesh frame, wherein a foaming insulation board is clamped between the front steel wire mesh frame and the rear steel wire mesh frame; the thermal insulation board also comprises a belly wire which is inserted in the foaming thermal insulation board; the web wires are arranged along the direction between the transverse direction and the longitudinal direction of the foaming heat-insulation board, the transverse steel wires and the longitudinal steel wires in the front steel wire net rack and the rear steel wire net rack are respectively arranged in parallel with the transverse direction and the longitudinal direction of the foaming heat-insulation board correspondingly, and two ends of the web wires are respectively fixedly connected to the longitudinal steel wires in the front steel wire net rack and the rear steel wire net rack; cement mortar with the thickness not less than 25mm is sprayed on the foaming heat insulation board at the middle parts of the front steel wire mesh frame and the rear steel wire mesh frame, the cement mortar covers the front steel wire mesh frame and the rear steel wire mesh frame, and the distance between the edge of the cement mortar and the splicing side edge of the foaming heat insulation board is not less than 100 mm.

Further comprises the following steps: and the side surfaces of two splicing sides opposite to the foaming heat-insulation plate are respectively and correspondingly provided with matched concave-convex tongue-and-groove joints.

Further comprises the following steps: the orthographic projection of the abdominal wire on the transverse section of the foaming heat-insulation plate is of a splayed structure, and the orthographic projection of the abdominal wire on the longitudinal section of the foaming heat-insulation plate is of a splayed structure.

Further comprises the following steps: four adjacent binder wires are a set of and form a four-edge table structure, and a plurality of four-edge table structure is in be the array distribution between preceding wire net frame and the back wire net frame.

Further comprises the following steps: the four ends of the abdominal wires positioned at the small ends in the quadrangular frustum pyramid structure are respectively positioned on the adjacent longitudinal steel wires in the front steel wire mesh frame or the rear steel wire mesh frame in a pairwise combination manner, and the two mutually combined ends are respectively positioned at two sides of one transverse steel wire.

Further comprises the following steps: the front steel wire mesh frame or the rear steel wire mesh frame is provided with a plurality of web wires, the front steel wire mesh frame or the rear steel wire mesh frame is provided with a plurality of front steel wires and a plurality of rear steel wires, the front steel wires and the rear steel wires are arranged in a crossed mode, the two ends of the front steel wires and the rear steel wires are arranged on the vertical steel wires in a crossed mode, and the two ends of the front steel wires and the two ends of the rear steel wires are respectively arranged on the vertical steel wires in an adjacent mode.

Further comprises the following steps: the meshes of the front steel wire mesh frame and the rear steel wire mesh frame are both square.

The utility model has the advantages that: the web wires are arranged along the direction between the transverse direction and the longitudinal direction of the foaming heat-insulation board, so that tension forces exist between the web wires and the transverse direction and the longitudinal direction of the front steel wire net rack and the rear steel wire net rack, and the utility model can be used for arranging boards vertically and transversely; the abdominal wires are arranged in the foaming heat-insulation board in a splayed structure and form a quadrangular frustum pyramid structure, so that the structure strength of the utility model is higher, and the abdominal wires are more stable when being arranged transversely or vertically; cement mortar is sprayed on the foaming insulation board in advance in a factory, the workload of spraying the cement mortar on site is reduced, the quality is controllable, the foaming insulation board is safe and environment-friendly, the construction and installation are rapid, the labor intensity of workers is reduced, and the working efficiency is improved.

Drawings

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

FIG. 2 is a schematic structural diagram of the front side of the assembled foamed insulation board, a front steel wire mesh frame, a rear steel wire mesh frame and web wires;

FIG. 3 is a schematic sectional view taken along line A-A in FIG. 2;

FIG. 4 is a schematic sectional view of B-B in FIG. 2.

In the figure, 1, a front steel wire mesh frame; 2. a rear steel wire mesh frame; 3. abdominal silks; 4. foaming the insulation board; 41. concave-convex tongue-and-groove; 101. a transverse steel wire; 102. longitudinal steel wires; 5. and (3) cement mortar.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings. Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention. The terms of left, middle, right, upper and lower directions in the examples of the present invention are only relative concepts or reference to the normal use status of the product, and should not be considered as limiting.

A novel steel wire mesh frame cement insulation board structure is shown in figures 1-4 and comprises a front steel wire mesh frame 1 and a rear steel wire mesh frame 2, wherein a foaming insulation board 4 is clamped between the front steel wire mesh frame 1 and the rear steel wire mesh frame 2, and the front steel wire mesh frame 1, the rear steel wire mesh frame 2 and the foaming insulation board 4 are the same in length and width specifications; the thermal insulation board also comprises a belly wire 3, wherein the belly wire 3 is inserted into the foaming thermal insulation board 4; the web wires 3 are arranged along the direction between the transverse direction and the longitudinal direction of the foaming heat-insulation board 4, the transverse steel wires 101 and the longitudinal steel wires 102 in the front steel wire net frame 1 and the rear steel wire net frame 2 are respectively arranged in parallel with the transverse direction and the longitudinal direction of the foaming heat-insulation board 4 correspondingly, two ends of the web wires 3 are respectively fixedly connected to the longitudinal steel wires 102 in the front steel wire net frame 1 and the rear steel wire net frame 2, a dotted line in fig. 2 is an identification of the web wires, and only a local part of the identification is shown here; cement mortar 5 with the thickness not less than 25mm is sprayed on the foaming heat insulation board 4 at the middle parts of the front steel wire mesh frame 1 and the rear steel wire mesh frame 2, the cement mortar 5 covers the front steel wire mesh frame 1 and the rear steel wire mesh frame 2, and the distance between the edge of the cement mortar 5 and the splicing side edge of the foaming heat insulation board 4 is not less than 100 mm. The web wires 3 are welded to the longitudinal steel wires 102. The foaming heat-insulation board can be a hard polyurethane board or an extruded polystyrene board. And the side surfaces of two opposite splicing sides of the foaming heat-insulation board 4 are respectively and correspondingly provided with matched concave-convex tongue-and-groove 41.

Wherein, the orthographic projections of the abdominal wires 3 on the transverse section and the longitudinal section of the foaming heat-insulation board 4 are of a splayed structure; four adjacent abdominal wires 3 form a group and form a quadrangular frustum pyramid structure, and a plurality of quadrangular frustum pyramid structures are distributed between the front steel wire mesh frame 1 and the rear steel wire mesh frame 2 in an array manner; the four ends of the abdominal wire 3 positioned at the small end in the quadrangular frustum pyramid structure are respectively positioned on the adjacent longitudinal steel wires in the front steel wire rack 1 or the rear steel wire rack 2 in a pairwise combination manner, and the two mutually combined ends are respectively positioned at two sides of one transverse steel wire 101.

In addition, the orthographic projections of the abdominal wires 3 on the front steel wire mesh frame 1 or the rear steel wire mesh frame 2 are respectively crossed with one transverse steel wire 101, and two ends of the orthographic projections are respectively positioned on the adjacent longitudinal steel wires 102; the grids of the front steel wire mesh frame 1 and the rear steel wire mesh frame 2 are both square.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A novel steel wire mesh frame cement insulation board structure comprises a front steel wire mesh frame and a rear steel wire mesh frame, wherein a foaming insulation board is clamped between the front steel wire mesh frame and the rear steel wire mesh frame; the thermal insulation board also comprises a belly wire which is inserted in the foaming thermal insulation board; the method is characterized in that: the web wires are arranged along the direction between the transverse direction and the longitudinal direction of the foaming heat-insulation board, the transverse steel wires and the longitudinal steel wires in the front steel wire net rack and the rear steel wire net rack are respectively arranged in parallel with the transverse direction and the longitudinal direction of the foaming heat-insulation board correspondingly, and two ends of the web wires are respectively fixedly connected to the longitudinal steel wires in the front steel wire net rack and the rear steel wire net rack; cement mortar with the thickness not less than 25mm is sprayed on the foaming heat insulation board at the middle parts of the front steel wire mesh frame and the rear steel wire mesh frame, the cement mortar covers the front steel wire mesh frame and the rear steel wire mesh frame, and the distance between the edge of the cement mortar and the splicing side edge of the foaming heat insulation board is not less than 100 mm.

2. A novel steel wire mesh frame cement heat insulation board structure according to claim 1, characterized in that: and the side surfaces of two splicing sides opposite to the foaming heat-insulation plate are respectively and correspondingly provided with matched concave-convex tongue-and-groove joints.

3. A novel steel wire mesh frame cement heat insulation board structure according to claim 1, characterized in that: the orthographic projections of the abdominal wires on the transverse section and the longitudinal section of the foaming heat-insulation plate are of a splayed structure.

4. A novel steel wire mesh frame cement heat insulation plate structure according to claim 3, characterized in that: four adjacent binder wires are a set of and form a four-edge table structure, and a plurality of four-edge table structure is in be the array distribution between preceding wire net frame and the back wire net frame.

5. A novel steel wire mesh frame cement heat insulation plate structure as claimed in claim 4, characterized in that: the four ends of the abdominal wires positioned at the small ends in the quadrangular frustum pyramid structure are respectively positioned on the adjacent longitudinal steel wires in the front steel wire mesh frame or the rear steel wire mesh frame in a pairwise combination manner, and the two mutually combined ends are respectively positioned at two sides of one transverse steel wire.

6. A novel steel wire mesh frame cement heat insulation plate structure as claimed in claim 5, characterized in that: the front steel wire mesh frame or the rear steel wire mesh frame is provided with a plurality of web wires, the front steel wire mesh frame or the rear steel wire mesh frame is provided with a plurality of front steel wires and a plurality of rear steel wires, the front steel wires and the rear steel wires are arranged in a crossed mode, the two ends of the front steel wires and the rear steel wires are arranged on the vertical steel wires in a crossed mode, and the two ends of the front steel wires and the two ends of the rear steel wires are respectively arranged on the vertical steel wires in an adjacent mode.

7. A novel steel mesh frame cement insulation board structure according to any one of claims 1 to 6, characterized in that: the meshes of the front steel wire mesh frame and the rear steel wire mesh frame are both square.

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