CN212534649U

CN212534649U - Structure heat preservation integration shear force wall

Info

Publication number: CN212534649U
Application number: CN202022264062.7U
Authority: CN
Inventors: 方元博; 赵晨禾
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2021-02-12
Anticipated expiration: 2030-10-13

Abstract

The utility model discloses a structure heat preservation integrated shear wall, a heat preservation sandwich plate comprises a heat preservation layer and a connecting component which is matched and arranged with the heat preservation layer; the connecting assembly comprises an inner steel bar net and an outer steel bar net which are arranged on two sides of the heat-insulating layer in parallel, the inner steel bar net is connected with the heat-insulating layer through a plurality of short supports, the outer steel bar net is connected with the heat-insulating layer through a plurality of long supports, and the inner steel bar net and the outer steel bar net which are arranged in parallel are connected through a web rib penetrating through the heat-insulating layer; the protective layer is arranged on one side of the long support of the heat-insulating layer, and the structural layer is arranged on one side of the short support of the heat-insulating layer; connecting pieces are inserted on the inner steel bar net and the outer steel bar net, sequentially penetrate through the protective layer and the heat-insulating layer sandwich board, and extend into the structural layer; the utility model discloses a set up short support, long support and interior reinforcing bar net, outer reinforcing bar net cooperation heat preservation installation, then connect interior reinforcing bar net, outer reinforcing bar net through the web muscle and form the heat preservation battenboard and avoid the heat preservation to warp and break when concreting.

Description

Structure heat preservation integration shear force wall

Technical Field

The invention relates to the technical field of building wall structures, in particular to a structural heat-insulation integrated shear wall.

Background

The SW building system is characterized by that on the special-purpose equipment firstly the steel wire net frame cement polystyrene sandwich board is prefabricated, the board is mounted on the ground beam foundation which is cast in place, after the mould-clamping column and mould-clamping beam are mounted, the concrete layer is sprayed on the steel wire net sandwich board, then the cast-in-place of mould-clamping beam and mould-clamping column is implemented, so that the concrete and sprayed concrete layer are consolidated together so as to form the side frame type light sandwich concrete bearing wall body. The disadvantage is that the large gap is formed between the abdominal muscle and the heat-insulating material. The welded mesh of the inner and outer steel bars and the heat-insulating layer are not firmly fixed.

The 'NBW cast-in-place concrete built-in heat insulation system' is supported by double-layer welded steel bar nets on one side or two sides of a heat insulation plate, penetrates the heat insulation plate through inserted wires and is reserved for a certain length to form the NBW welded steel bar net rack heat insulation plate. And pouring protective layers and structural layer concrete on two sides of the welded reinforced net rack heat insulation plate, wherein the protective layers and the structural layers are connected through connecting pieces to form a composite heat insulation concrete component. The NBW system has the defects that the NBW system is difficult to pour ordinary cement because the outer layer is composed of two layers of steel bar welding nets, and the distance between the two nets is only 32mm at most when the outer protective layer is also 50 mm.

A RBQ building heat preservation and integration system adopts a single-sided steel wire mesh frame plate as a heat preservation layer, the steel wire mesh frame plate is arranged on the inner side of an external wall template during construction, and a fixing part is arranged on the mesh frame plate. After concrete is poured, the steel wire net frame plate and the fixing piece are combined with the concrete into a whole, and the outer surface is leveled by anti-crack mortar and added with alkali-resistant mesh cloth.

In the existing common SW system, the positions of the inner and outer steel bar welding nets and the heat preservation layer are not firmly fixed due to the larger gaps between the web bars and the heat preservation material; in the NBW system, the outer layer consists of two layers of welded steel meshes, so that when the outer protective layer is also 50mm, the distance between the two meshes is only 32mm at most, and the common cement is difficult to pour; RQB the proposal does not have the defects of the two structures, but the RQB system needs manual threading, the labor intensity of workers is high, and the production efficiency is low.

The invention belongs to the technical field of buildings, and discloses a building heat preservation and structure integrated system which comprises a concrete wall, a heat preservation layer and an outer protection layer, wherein the publication number is CN 207063203U, and the publication date is 2018.03.02; the heat insulation layer is positioned between the concrete wall and the outer protection layer; a steel wire mesh is arranged in the outer protection layer; and the concrete wall body, the heat insulation layer and the steel wire mesh are connected through a limiting connecting piece. The limiting connecting piece comprises a connecting rod, a disc and a clamping block; the disc is in a sheet shape and is vertically connected with the connecting rod; the clamping blocks are arranged at the tail ends of the connecting rods, and clamping holes for connecting the steel wire meshes are formed in the clamping blocks. The concrete wall heat-insulating layer is reasonable in structure, the heat-insulating layer, the outer protective layer and the concrete wall are connected into a whole through the limiting connecting piece, the installation is convenient, the structure is firm, the selection diversity is achieved, and the technical problems that the building heat-insulating layer in the prior art is easy to fall off, the process is complex, the construction difficulty is high and the like are effectively solved. Above-mentioned technical scheme is as an organic whole even with heat preservation and outer protective layer and concrete wall through spacing connecting piece, simple to operate, sound construction to select the variety, the effectual building heat preservation that has solved prior art has the easy technical problem that drops, and the technology is complicated, and the construction degree of difficulty is big etc., but does not relate to the structural design and the whole construction reinforcement of heat preservation battenboard.

The utility model relates to a fixing part for a heat-insulating member, the publication number is CN 208563648U, the publication date is 2019.03.01, the application relates to a fixing part for a heat-insulating member, the fixing part comprises 2 or more than 2 parallel telescopic pieces, an end fixing part and a tail limiting fastener; the steel wire net frame is formed by connecting 2 layers of steel wire meshes and/or more than 2 layers of steel wire meshes on the same side of the heat insulation plate, the steel wire net frame is composed of an outer side steel wire mesh and an inner side steel wire mesh, the fixing piece is clamped between the two telescopic pieces which are arranged in parallel on transverse steel wires on the inner side of the inner side steel wire mesh of the steel wire net frame of the heat insulation plate, and the fixing piece can well enhance the strength of the reinforced concrete heat insulation structure. The technical scheme solves the problems that the strength of the heat insulation plate member is not enough and the heat insulation plate is easy to deform and break when concrete is poured in the existing method, but the technical scheme of the invention is not adopted.

Disclosure of Invention

The invention aims to solve the problems and adopts the technical scheme that:

a structural heat-insulation integrated shear wall comprises a heat-insulation layer sandwich plate, wherein the heat-insulation layer sandwich plate comprises a heat-insulation layer and a connecting assembly which is installed in a matched mode with the heat-insulation layer; the connecting assembly comprises an inner reinforcing mesh and an outer reinforcing mesh which are arranged on two sides of the heat insulation layer in parallel, the inner reinforcing mesh is connected with the heat insulation layer through a plurality of short supports, the outer reinforcing mesh is connected with the heat insulation layer through a plurality of long supports, and the inner reinforcing mesh and the outer reinforcing mesh which are arranged in parallel are connected through a web rib penetrating through the heat insulation layer; the protective layer is arranged on one side of the long support of the heat-insulating layer, and the structural layer is arranged on one side of the short support of the heat-insulating layer; the connecting pieces are inserted on the inner steel bar net and the outer steel bar net which are arranged in parallel, sequentially penetrate through the protective layer and the heat preservation sandwich plate, and extend into the structural layer.

Further, the inner reinforcement net and the outer reinforcement net are formed by cross welding of reinforcing steel bars.

Further, the inner reinforcement net and the outer reinforcement net which are arranged in parallel are welded with the web ribs.

Further, the connecting piece is of a nail-shaped structure.

Further, the surface of the connecting piece is treated by baking varnish.

Further, be provided with respectively on short support and the long support dorsad heat preservation one side with interior reinforcing bar net and outer reinforcing bar net on the mounting groove unit of cross intersection reinforcing bar cooperation installation, be equipped with the mounting groove that is the cross and distributes in the mounting groove unit, and adjacent mounting groove degree of depth is different, and relative mounting groove degree of depth is the same.

Furthermore, the short support and the long support are provided with pressing end faces which are matched with the heat preservation layer and are installed on one sides of the heat preservation layer.

Furthermore, the distance between the heat-insulating layer and the reinforcing mesh positioned on one side of the protective layer is 30-40 mm.

Further, the thickness of the protective layer is 45-50 mm.

The invention has the following beneficial effects:

1. the invention relates to a structural heat-preservation integrated shear wall, which is characterized in that a short support, a long support, an inner steel bar net and an outer steel bar net are arranged and matched with a heat-preservation layer for installation, then the inner steel bar net and the outer steel bar net are connected through web ribs to form a heat-preservation sandwich plate, the heat-preservation sandwich plate is firm in structure and convenient and fast to install, the heat-preservation layer is prevented from deforming and breaking when concrete is poured, and a protective layer, the heat-preservation sandwich plate and the structural layer are connected into a whole through a connecting piece to form the integrated heat-preservation structural shear wall.

2. The outer steel bar net is connected with the heat-insulating layer through the plurality of long supports, so that the space between the heat-insulating layer and the steel wire net is stable and reaches 38mm, the pouring construction space of cement can be fully ensured, and the operation is convenient.

3. The side, back to the heat preservation layer, of the short support and the side, back to the heat preservation layer, of the long support are respectively provided with mounting grooves which are matched with the crossed steel bars on the inner steel bar net and the outer steel bar net in a mounting mode, the mounting grooves are distributed in a crossed mode, the depths of the adjacent mounting grooves are different, the depths of the mounting grooves are the same relative to the mounting grooves, the mounting grooves distributed in a crossed mode are matched with the crossed welding positions on the inner steel bar net and the outer steel bar net, so that the longitudinal steel bars and the transverse steel bars are just embedded in the mounting grooves, and the short support, the inner steel bar net, the long.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view taken along A-A in FIG. 1;

FIG. 3 is an enlarged view of FIG. 2 at I;

FIG. 4 is a schematic view of an elongated support structure of the present invention;

FIG. 5 is a schematic view of the short stand structure of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1-5, a structural and thermal insulation integrated shear wall comprises a thermal insulation layer sandwich plate, wherein the thermal insulation layer sandwich plate comprises a thermal insulation layer 2 and a connecting assembly matched with the thermal insulation layer 2; the connecting assembly comprises an outer steel bar net 41 and an inner steel bar net 42 which are arranged on two sides of the heat preservation layer 2 in parallel, preferably, in the embodiment, the inner steel bar net 42 and the outer steel bar net 41 are formed by cross welding of steel bars; the inner steel bar net 42 is connected with the heat-insulating layer 2 through a plurality of short brackets 7, the outer steel bar net 41 is connected with the heat-insulating layer 2 through a plurality of long brackets 6, and the outer steel bar net 41 and the inner steel bar net 42 which are arranged in parallel are connected through a web rib 5 penetrating through the heat-insulating layer 2; preferably, in this embodiment, the outer and inner reinforcing

meshes

41 and 42 arranged in parallel are welded to the web 5.

As shown in fig. 1-5, the insulating layer 2 is provided with a protective layer 1 on one side of the long support 6, preferably, the thickness of the protective layer 1 is 45-50 mm, in this embodiment, the thickness of the protective layer 1 is 50 mm; the heat preservation layer 2 is provided with a structural layer 3 at one side of the short bracket 7; and the outer steel bar net 41 and the inner steel bar net 42 which are arranged in parallel are provided with connecting pieces 8, and the connecting pieces 8 sequentially penetrate through the protective layer 1 and the heat-insulating layer sandwich board and extend to the inside of the structural layer 3.

As shown in fig. 1 to 5, preferably, in order to make the protection layer 1 convenient for pouring, the distance between the insulation layer 2 and the outer steel bar net 41 on one side of the protection layer 1 is 30-40mm by the arrangement of the long bracket 6, and in this embodiment, the distance between the insulation layer 2 and the outer steel bar net 41 on one side of the protection layer 1 is 38mm, so that the pouring of the portland cement can be smoothly completed.

As shown in fig. 1-5, in order to fasten and connect the protective layer 1, the insulating layer sandwich board and the structural layer 3 into a whole, the connecting member 8 is a nail-shaped structure, and the connecting member 8 enters from one side of the protective layer 1, sequentially passes through the protective layer 1 and the insulating layer sandwich board, and extends into the structural layer 3.

As shown in fig. 1 to 5, in order to ensure better antirust effect of the connecting piece 8, the surface of the connecting piece 8 is treated by baking finish, and the surface of the connecting piece 8 is prevented from being oxidized by baking finish, so that better antirust effect is achieved.

As shown in fig. 1 to 5, in order to make the sandwich panel of the insulating layer firm, it is ensured that the sides of the short support 7 and the long support 6 opposite to the insulating layer 2 are respectively provided with mounting groove units which are installed in cooperation with the steel bars at the cross-shaped intersections of the inner steel bar net 42 and the outer steel bar net 41, the mounting grooves 9 are arranged in the mounting groove units in a cross-shaped distribution, the depths of the adjacent mounting grooves 9 are different, the depths of the mounting grooves 9 are the same relative to the depths of the mounting grooves 9, the mounting grooves 9 in the cross-shaped distribution are matched with the cross-shaped welding positions of the inner steel bar net 42 and the outer steel bar net 41, so that the longitudinal steel bars and the transverse steel bars are just embedded in the mounting grooves 9, and the short support 7; in order to realize the tight fit of the reinforcing mesh and the heat-insulating layer 2, the sides of the short support 7 and the long support 6 facing the heat-insulating layer 2 are respectively provided with a compaction end face 10 which is matched and installed with the heat-insulating layer 2; the short support 7 and the long support 6 are tightly pressed on the heat preservation layer 2 through the pressing end faces 10, and then the web ribs 5 are respectively welded with the inner steel bar net 42 and the outer steel bar net 41 on the inner side and the outer side of the heat preservation layer 2, so that the inner steel bar net 42, the outer steel bar net 41 and the heat preservation layer 2 are respectively matched with each other through the short support 7 and the long support 6 to form a heat preservation layer sandwich plate, and the heat preservation layer sandwich plate is firm and firm in structure and good in integrity; meanwhile, the long support 6 is adopted to ensure that the distance between the heat-insulating layer 2 and the outer reinforcing mesh 41 positioned on one side of the protective layer 1 is 30-40mm, so that the protective layer 1 is conveniently formed by pouring common cement, the construction difficulty is reduced, and the construction quality is ensured.

The manufacturing process of the invention is as follows:

manufacturing a heat-insulating layer sandwich board, firstly, matching the installation grooves 9 distributed in a cross shape on the short supports 7 with cross-shaped welding positions on the inner steel bar net 42 to ensure that longitudinal steel bars and transverse steel bars on the inner steel bar net 42 are just embedded in the installation grooves 9, in the embodiment, a cross-shaped welding point is arranged between adjacent short supports 7 which are transversely and longitudinally installed on the inner steel bar net 42 at intervals, and the short supports 7 and the inner steel bar net 42 form an inner steel bar net 42 assembly after installation;

then, the mounting grooves 9 distributed in a cross shape on the long supports 6 are matched with cross-shaped welding positions on the outer steel bar nets 41, so that longitudinal steel bars and transverse steel bars on the outer steel bar nets 41 are just embedded in the mounting grooves 9, in the embodiment, cross-shaped welding points are arranged between adjacent long supports 6 which are transversely and longitudinally mounted on the outer steel bar nets 41 at intervals, and the long supports 6 and the outer steel bar nets 41 form an outer steel bar net 41 combination body after mounting;

then, the inner steel bar net 42 assembly is installed on the inner side of the heat preservation layer 2, the short support 7 compresses the heat preservation layer 2 through the compression end face 10, the outer steel bar net 41 assembly is installed on the outer side of the heat preservation layer 2, the long support 6 compresses the heat preservation layer 2 through the compression end face 10, the web bars 5 penetrate through the heat preservation layer 2, two ends of the web bars 5 are respectively welded with the inner steel bar net 42 and the outer steel bar net 41, and under the action of the web bars 5, the inner steel bar net 42, the outer steel bar net 41 and the heat preservation layer 2 are respectively matched through the short support 7 and the long support 6 to form a heat preservation sandwich plate.

Finally, connecting pieces 8 are inserted into an outer steel bar net 41 and an inner steel bar net 42 which are arranged on the heat insulation layer sandwich board in parallel, then cement is poured into the inner side and the outer side of the heat insulation layer 2, the heat insulation layer 2 is located on one side of the short support 7 to form the structural layer 3, the heat insulation layer 2 is located on one side of the long support 6 to form the protective layer 1, the thickness of the protective layer 1 is 50mm, in the embodiment, the distance between the heat insulation layer 2 and the outer steel bar net 41 is 38mm, so that the cement can be smoothly poured between the heat insulation layer 2 and the outer steel bar net 41, and the pouring quality is ensured; after the pouring is finished, the connecting piece 8 sequentially penetrates through the protective layer 1 and the heat-insulating layer sandwich board and extends into the structural layer 3, so that the heat-insulating layer sandwich board, the structural layer 3 and the protective layer 1 are firmly matched and combined into a whole, and the manufacturing of the integrated heat-insulating structure shear wall is realized.

The invention relates to a structural heat-preservation integrated shear wall, which is characterized in that a short support 7, a long support 6, an inner steel bar net 42 and an outer steel bar net 41 are arranged to be matched with a heat-preservation layer 2, then the inner steel bar net 42 and the outer steel bar net 41 are connected through a web rib 5 to form a heat-preservation sandwich plate, the heat-preservation sandwich plate is firm in structure and convenient and fast to install, and a protective layer 1, the heat-preservation sandwich plate and a structural layer 3 are connected into a whole through a connecting piece 8 to form the integrated heat-preservation structural shear wall.

The outer steel bar net 41 is connected with the heat-insulating layer 2 through the plurality of long supports 6, so that the space between the heat-insulating layer 2 and the steel bar net is stable and reaches 38mm, the pouring construction space of cement can be fully ensured, and the operation is convenient.

The short support 7 and the long support 6 are respectively provided with mounting grooves 9 which are matched with the steel bars at the cross-shaped intersection positions on the inner steel bar net 42 and the outer steel bar net 41 at one side back to the heat preservation layer 2, the mounting grooves 9 are distributed in a cross shape, the depths of the adjacent mounting grooves 9 are different, the depths of the mounting grooves 9 are the same relative to the depths of the mounting grooves 9, the mounting grooves 9 distributed in the cross shape are matched with the cross-shaped welding positions on the inner steel bar net 42 and the outer steel bar net 41, so that longitudinal steel bars and transverse steel bars are just embedded in the mounting grooves 9, and the short support 7 is firmly matched with the inner steel bar net 42, the long support 6 and the outer.

The present embodiment is not intended to limit the shape, material, structure, etc. of the present invention in any way, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

In the description of the present invention, it is to be understood that the terms "central", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the scope of the present invention.

If the terms "first," "second," etc. are used herein to define parts, those skilled in the art will recognize that: the use of "first" and "second" is merely for convenience in describing the invention and to simplify the description, and unless otherwise stated the above words are not intended to have a special meaning.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof, but such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The structural heat-insulation integrated shear wall is characterized by comprising a heat-insulation layer sandwich plate, wherein the heat-insulation layer sandwich plate comprises a heat-insulation layer and a connecting assembly which is matched with the heat-insulation layer;

the connecting assembly comprises an inner reinforcing mesh and an outer reinforcing mesh which are arranged on two sides of the heat insulation layer in parallel, the inner reinforcing mesh is connected with the heat insulation layer through a plurality of short supports, the outer reinforcing mesh is connected with the heat insulation layer through a plurality of long supports, and the inner reinforcing mesh and the outer reinforcing mesh which are arranged in parallel are connected through a web rib penetrating through the heat insulation layer;

the protective layer is arranged on one side of the long support of the heat-insulating layer, and the structural layer is arranged on one side of the short support of the heat-insulating layer; the connecting pieces are inserted on the inner steel bar net and the outer steel bar net which are arranged in parallel, sequentially penetrate through the protective layer and the heat preservation sandwich plate, and extend into the structural layer.

2. The integrated shear wall for structural insulation of claim 1, wherein the inner and outer reinforcement meshes are formed by criss-cross welding of steel bars.

3. The integrated shear wall for structural and thermal insulation of claim 2, wherein the inner and outer parallel reinforcing meshes are welded to the web members.

4. A structural insulating integrated shear wall according to claim 3, wherein the connectors are nail-shaped structures.

5. The integrated shear wall for structural insulation of claim 4, wherein the surface of the connecting piece is treated by baking finish.

6. The shear wall integrating structure and thermal insulation according to any one of claims 2 to 5, wherein mounting groove units which are matched with the steel bars at the cross-shaped intersections of the inner steel bar net and the outer steel bar net are respectively arranged on the sides of the short support and the long support, which are opposite to the thermal insulation layer, the mounting grooves are distributed in a cross manner, the depths of the adjacent mounting grooves are different, and the depths of the opposite mounting grooves are the same.

7. The shear wall integrating structural insulation and thermal insulation of claim 6, wherein the short support and the long support are provided with compression end faces which are matched with the thermal insulation layer on the sides facing the thermal insulation layer.

8. The shear wall of claim 7, wherein the distance between the insulation layer and the reinforcing mesh on the side of the protective layer is 30-40 mm.

9. The integrated shear wall for structural and thermal insulation of claim 8, wherein the thickness of the protective layer is 45-50 mm.