CN220768475U - Built-in heated board steel wire mesh frame - Google Patents

Abstract

The utility model discloses a steel wire rack with an internal heat-insulating plate, which comprises a heat-insulating plate and steel wire racks arranged on two side walls of the heat-insulating plate; wherein a plurality of clamping pieces are uniformly arranged between the heat insulation plate and the steel wire net rack; the clamping piece comprises a base and a supporting sleeve perpendicular to the base; the base and the support sleeve are provided with radial through inserting grooves, and the support sleeve is also provided with limiting grooves communicated with the inserting grooves. In the application, when the clamping piece is installed, the clamping piece is hung on the steel bar through the inserting groove, and the limiting groove is clamped on the steel bar by the inserting groove with the barb piece, so that the clamping piece is prevented from falling off when in use; therefore, the clamping piece can play a role in supporting and fixing the steel wire net rack, and deformation of the steel wire net rack in the installation process is prevented.

Description

Built-in heated board steel wire mesh frame

Technical Field

The utility model relates to the technical field of heat preservation boards, in particular to a steel wire net rack with a built-in heat preservation board.

Background

The cast-in-place concrete built-in heat-insulating wall technology is to wrap the heat-insulating plate in the concrete layer, so that the stability and fireproof performance of the heat-insulating plate can be effectively improved. The two sides of the heat preservation plate are provided with the sheet-shaped steel wire meshes, the steel wire meshes are connected through the web wires penetrating through the heat preservation plate, the heat preservation plate is arranged between the two layers of steel wire meshes, so that the strength of the heat preservation plate is improved, the steel wire meshes at the two sides of the heat preservation plate are wrapped in concrete, and the integrity of the heat preservation plate and a wall body is improved.

In the pouring process of the wall body, templates are required to be arranged on two sides of the wall body containing the heat-insulating plate, the steel wire steel sheets and the templates in the prior art are supported by the lack of effective support, under the action of unbalanced pressure of concrete on two sides of the heat-insulating plate, the steel wire meshes and the heat-insulating plate have a certain probability of shifting, so that the steel wire meshes are attached to the templates, only one side of each steel wire mesh is wrapped by the concrete, the whole wrapping cannot be achieved, the integrity of the heat-insulating plate and the wall body is reduced, and meanwhile, the thickness of the concrete layer on the surface of the heat-insulating plate is uneven, so that the quality of the wall body is affected.

Wherein patent application number CN202220370931.0 provides a spacing steel wire mesh frame heated board, including heated board, steel wire mesh frame and crab-bolt, the steel wire mesh frame includes first steel wire mesh piece, second steel wire mesh piece, third steel wire mesh piece and the web that are parallel to each other, and the heated board sets up between first steel wire mesh piece and second steel wire mesh piece, and the web runs through the heated board perpendicularly and links to each other perpendicularly with the three-layer steel wire mesh piece respectively, and first steel wire steel sheet and third steel wire mesh piece are extended respectively at the both ends of web, one side that second steel wire mesh piece was kept away from to first steel wire mesh piece and third steel wire mesh piece is equipped with the template locating part respectively, the crab-bolt runs through the steel wire mesh frame perpendicularly, and the crab-bolt links to each other with the steel wire mesh frame is fixed, be equipped with the pressure release hole that runs through the heated board both sides on the heated board. The wall body structure has the beneficial effects that by adopting the technical scheme, the position of the heat insulation plate in the wall body can be effectively limited, the uniformity of the thickness of concrete at the outer side of the heat insulation plate is ensured, and the quality of the wall body is improved.

However, in the prior art, the strength of the heat-insulating plate and the steel wire net rack can be ensured by virtue of the anchor rod; gaps exist between the heat-insulating plate and the steel wire net rack all the time, and if mortar is poured again or external force is applied, the steel wire net rack is easy to deform, so that the structural shape of the steel wire net rack is influenced; based on this, among the prior art, still be in the cushion of design between heated board and the steel wire rack, but the cushion with heated board and steel wire rack are difficult to be connected the location to make the supporting site distribute unevenly.

Disclosure of Invention

The utility model aims to provide a steel wire rack with an internal heat-insulating plate, which solves the problem of how to distribute a uniform cushion block structure between the heat-insulating plate and the steel wire rack.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a steel wire rack with an internal heat-insulating plate, which comprises a heat-insulating plate and steel wire racks arranged on two side walls of the heat-insulating plate; the method is characterized in that: wherein a plurality of clamping pieces are uniformly arranged between the heat insulation plate and the steel wire net rack;

the clamping piece comprises a base and a supporting sleeve perpendicular to the base;

the base and the support sleeve are provided with radial through inserting grooves, and the support sleeve is also provided with limiting grooves communicated with the inserting grooves.

Further, the steel wire net frame comprises two layers of web ribs and a steel wire net sheet.

Still further, the width of the inserting groove and the width of the limiting groove are both larger than the outer diameter of the steel bars used on the steel wire net rack; the clamping piece is clamped on the steel wire net rack through the inserting groove and the limiting groove.

Still further, the spacing groove is communicated with the grafting groove vertically.

Still further, be provided with two barb pieces in the spacing inslot, wherein two the minimum interval of barb piece is less than the external diameter of steel wire rack upper steel bar.

Still further, the base is the disc structure, the base with be provided with a plurality of deep floor between the lateral wall of supporting sleeve.

Still further, two positioning inserts inserted into the heat insulation plate are vertically arranged on the base;

the positioning plug-in is of a cylindrical structure.

Still further, a reservation groove is formed in the support sleeve and located between the reinforcing rib plates.

Compared with the prior art, the utility model has the beneficial technical effects that: in the application, when the clamping piece is installed, the clamping piece is hung on the steel bar through the inserting groove, and the limiting groove is clamped on the steel bar by the inserting groove with the barb piece, so that the clamping piece is prevented from falling off when in use; therefore, the clamping piece can play a role in supporting and fixing the steel wire net rack, and deformation of the steel wire net rack in the installation process is prevented.

Drawings

The utility model is further described with reference to the following description of the drawings.

FIG. 1 is a schematic main view of a steel wire rack with an insulation board built in the utility model;

FIG. 2 is a schematic structural view of a clamping piece in the steel wire rack with the built-in heat insulation plate;

FIG. 3 is a side view of the schematic of FIG. 2;

fig. 4 is a schematic diagram of the other side of fig. 3.

Reference numerals illustrate: 1. a thermal insulation board; 2. a clamping piece; 21. a base; 22. a support sleeve; 23. a plug-in groove; 24. a limit groove; 241. a barb member; 25. reinforcing rib plates; 26. a reserved groove; 27. positioning the plug-in; 3. wire rack; 31. reinforcing steel bars.

Detailed Description

The embodiment discloses a steel wire rack with a built-in heat insulation plate, which comprises a heat insulation plate 1 and steel wire racks 3 arranged on two side walls of the heat insulation plate 1;

the steel wire net frame 3 comprises two layers of web ribs and steel wire meshes; the web comprises steel bars 31;

the steel wire net frame 3 in the present application has the same structure as that in patent application number 202220995883.4; specifically, the steel wire mesh is provided with 2 layers, namely an inner steel wire mesh and an outer steel wire mesh, and the inner steel is respectively arranged; the wire mesh sheet and the outer wire mesh sheet are welded with the web bars in a crossing manner, a space is reserved between the inner wire mesh sheet and the outer wire mesh sheet, and a dense mesh is further arranged on the outer wire mesh sheet.

On the basis of the prior art, as shown in fig. 1, a plurality of clamping pieces 2 are uniformly arranged between the heat insulation plate 1 and the steel wire net frame 3;

wherein the clamping piece 2 is clamped on the web member; when in use, the clamping piece 2 can play a role in supporting and fixing the steel wire net frame 3, so as to prevent the steel wire net frame from deformation in the installation process.

As shown in fig. 3 and 4, the clamping member 2 includes a base 21, and a supporting sleeve 22 perpendicular to the base 21;

wherein, the base 21 and the supporting sleeve 22 are provided with a radial through inserting groove 23, and the supporting sleeve 22 is also provided with a radial limit groove 24 communicated with the inserting groove 23;

in this embodiment, the width of the insertion groove 23 and the width of the limit groove 24 are both larger than the outer diameter of the steel bar used on the wire mesh frame 3; the clamping piece 2 is clamped on the steel wire net rack 3 through the inserting groove 23 and the limiting groove 24; the limiting groove 24 is vertically communicated with the inserting groove 23;

two reverse hook pieces 241 are integrally formed in the limit groove 24, wherein the minimum distance between the two reverse hook pieces 241 is smaller than the outer diameter of the steel bar on the steel wire net rack 3; when the clamping piece 2 is installed, the clamping piece 2 is hung on the steel bar 31 through the inserting groove 23, and then the clamping piece 2 is deflected, so that the limiting groove 24 is clamped on the steel bar 31, and the clamping piece 2 is prevented from falling off.

In this embodiment, the base 21 is in a disc structure, and a plurality of reinforcing ribs 25 are installed between the base 21 and the side wall of the supporting sleeve 22, so as to enhance the overall structural strength;

wherein two positioning inserts 27 inserted into the heat insulation board 1 are vertically installed on the base 21; specifically, the positioning insert 27 is in a cylindrical structure, and is inserted into the insulation board 1 by using the positioning insert 27, wherein the insulation board 1 may be an EPS foam board.

In this embodiment, a reserved groove 26 is formed on the support sleeve 22 and between the reinforcing ribs 25 for reducing material.

The foregoing embodiments are merely illustrative of the preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to which the present utility model pertains should fall within the scope of the utility model as defined in the appended claims without departing from the spirit of the utility model.

Claims (8)

1. The steel wire net rack with the built-in heat insulation plate comprises a heat insulation plate (1) and steel wire net racks (3) arranged on two side walls of the heat insulation plate (1); the method is characterized in that: wherein a plurality of clamping pieces (2) are uniformly arranged between the heat insulation plate (1) and the steel wire net rack (3);

the clamping piece (2) comprises a base (21) and a supporting sleeve (22) perpendicular to the base (21);

wherein the base (21) and the supporting sleeve (22) are provided with radial through inserting grooves (23), and the supporting sleeve (22) is also provided with radial limiting grooves (24) communicated with the inserting grooves (23).

2. The built-in insulation board wire rack of claim 1, wherein: the steel wire net frame (3) comprises two layers of web ribs and steel wire net sheets.

3. The built-in insulation board wire rack of claim 2, wherein: the width of the inserting groove (23) and the width of the limiting groove (24) are both larger than the outer diameter of the steel bars used on the steel wire net rack (3); the clamping piece (2) is clamped on the steel wire net rack (3) through the inserting groove (23) and the limiting groove (24).

4. A built-in insulation board wire rack according to claim 3, wherein: the limiting groove (24) is vertically communicated with the inserting groove (23).

5. A built-in insulation board wire rack according to claim 3, wherein: two reverse hook pieces (241) are arranged in the limiting groove (24), wherein the minimum distance between the two reverse hook pieces (241) is smaller than the outer diameter of the steel bar on the steel wire net frame (3).

6. The built-in insulation board wire rack of claim 1, wherein: the base (21) is of a disc structure, and a plurality of reinforcing rib plates (25) are arranged between the base (21) and the side wall of the supporting sleeve (22).

7. The built-in insulation board wire rack of claim 1, wherein: two positioning inserts (27) which are inserted into the heat insulation board (1) are vertically arranged on the base (21);

the positioning insert (27) is of a cylindrical structure.

8. The built-in insulation board wire rack of claim 6, wherein: a reserved groove (26) is formed in the support sleeve (22) and located between the reinforcing rib plates (25).