CN217711186U

CN217711186U - Vacuum heat insulation layer containing steel mesh for building

Info

Publication number: CN217711186U
Application number: CN202221795840.8U
Authority: CN
Inventors: 梁奇; 梁明珍; 孙翔宇; 涂晓惠; 张莉; 张坤; 傅小雨; 张能才
Original assignee: Anhui Gaocheng Construction Engineering Co ltd
Current assignee: Anhui Gaocheng Construction Engineering Co ltd
Priority date: 2022-07-12
Filing date: 2022-07-12
Publication date: 2022-11-01
Anticipated expiration: 2032-07-12

Abstract

The application discloses vacuum insulation heat preservation for building that contains steel mesh relates to construction technical field, including the basic unit's wall body, the adhesive linkage has been paintd on the surface of basic unit's wall body, one side that the basic unit's wall body is close to the adhesive linkage is fixed to bond and is had vacuum insulation panels, the heated board laminating is on the binding face of vacuum insulation panels both sides, make the evagination piece parallel in the middle of heated board and the vacuum insulation panels, thereby let heated board and vacuum insulation panels can form into a whole, the inside adiabatic chamber of seting up of vacuum insulation panels can carry out fire-retardant thermal insulation, make vacuum insulation panels and heated board can be used for adiabatic heat preservation in one side of basic unit's wall body, after heated board and vacuum insulation panels are connected, can lay glass silk heat preservation cotton in one side of the two, be used for reinforcing heat preservation effect, glass silk heat preservation cotton lays the back, can lay the steel mesh in one side thereof, it is fixed with the steel mesh to utilize fixed stock to run through, last only need lay at the outermost end decorative cover can, make whole adiabatic heat preservation performance promote by a wide margin.

Description

Vacuum heat insulation layer containing steel mesh for building

Technical Field

The application relates to the technical field of building construction, in particular to a vacuum heat insulation layer containing a steel mesh for a building.

Background

The heat-insulating layer in the building is a plate for heat insulation of the building, the outer wall heat-insulating plate is formed by compounding polymer mortar, glass fiber gridding cloth, flame-retardant molded polystyrene foam plates and other materials, and the like, is produced in a factory and is constructed by bonding on site, is a preferred material for meeting the energy-saving requirement of the current house building and improving the heat-insulating level of the outer wall of the industrial and civil buildings, and is also a preferred material for energy-saving reconstruction of the existing building.

The existing building heat-insulating layer does not have a good fireproof heat-insulating function, and when a fire disaster often occurs, the heat-insulating layer in the building can play a role in supporting combustion instead, so that the fire spread is accelerated.

SUMMERY OF THE UTILITY MODEL

In order to improve above-mentioned current building heat preservation and not have better fire prevention adiabatic function, when often producing the conflagration, the heat preservation in the building can play combustion-supporting effect on the contrary, causes the problem that spreads with higher speed of the intensity of a fire, and this application provides the vacuum insulation heat preservation for building that contains the steel mesh.

The application provides vacuum insulation heat preservation for building that contains the steel mesh adopts following technical scheme:

the vacuum heat-insulation layer for the building comprises a base layer wall body, wherein an adhesive layer is coated on the surface of the base layer wall body, a vacuum heat-insulation plate is fixedly bonded on one side, close to the adhesive layer, of the base layer wall body, heat-insulation plates are fixedly connected to two ends of one side, far away from the base layer wall body, of each vacuum heat-insulation plate, glass fiber heat-insulation cotton is bonded to one sides, far away from the base layer wall body, of the vacuum heat-insulation plates, a steel mesh is fixedly mounted on the other side of the glass fiber heat-insulation cotton, a fixing anchor rod penetrates through the middles of the vacuum heat-insulation plates and the base layer wall body, and a decorative surface layer is mounted on one side, far away from the vacuum heat-insulation plates, of the steel mesh;

the vacuum insulation panel is fixedly connected with an outer lug in the middle of one side of the vacuum insulation panel far away from the base wall, the outer lug and the vacuum insulation panel are of an integrated structure, binding faces are arranged at two ends of one side of the vacuum insulation panel far away from the base wall, the insulation board is fixedly attached to the binding faces, and insulation cavities are arranged on two sides of the vacuum insulation panel.

Through adopting above-mentioned technical scheme, vacuum insulation panels passes through the fixed adhesion of adhesive linkage on the surface of basic unit's wall body, laminate the heated board on the binding face of vacuum insulation panels both sides afterwards, make the heated board parallel with the evagination piece in the middle of the vacuum insulation panels, thereby let heated board and vacuum insulation panels can form into a whole, the inside heat insulating cavity of seting up of vacuum insulation panels can carry out fire-retardant adiabatic, make vacuum insulation panels and heated board can be used for adiabatic heat preservation in one side of basic unit's wall body, after heated board and vacuum insulation panels are connected, can lay the one side at the two with glass silk heat preservation cotton, be used for reinforcing heat preservation effect, glass silk heat preservation cotton lays the back, can lay the steel mesh in its one side, it is fixed with the steel mesh to utilize fixed stock to run through, at last only need lay the decorative cover layer at the outermost end can, make whole thermal insulation performance promote by a wide margin.

Optionally, the middle of two sides of the outer bump is provided with a fixed jack, and the side of the outer bump is symmetrically provided with a fixed slot.

Through adopting above-mentioned technical scheme, fixed stock runs through vacuum insulation panels through fixed jack, and vacuum insulation panels can utilize the fixed slot of outer lug side to carry out spacing fixed to the heated board.

Optionally, one side of the insulation board close to the outer convex block is fixedly connected with a fixed clamping block, and the fixed clamping block and the insulation board are of an integrated structure.

Through adopting above-mentioned technical scheme, when needs are connected the heated board, can insert the inside of fixed slot with the fixed fixture block of its one side and fix a position, make heated board and vacuum insulation board combination be a whole.

Optionally, the fixed clamping block and the fixed clamping groove are in joggle joint.

By adopting the technical scheme, when the fixed clamping block is connected with the fixed clamping groove, one needle and one nail are not needed, the assembly is convenient and fast, and the firmness of the fixed clamping block and the fixed clamping groove after connection can be ensured.

Optionally, a reinforcing rib is welded in the middle of the heat insulation cavity, dry powder is filled in one side of the reinforcing rib, and asbestos is filled in the other side of the reinforcing rib.

By adopting the technical scheme, the reinforcing ribs can support and separate in the heat insulation cavity, the dry powder is a dry powder extinguishing agent and can be used for flame retardance, and the asbestos has high tensile strength, high flexibility, chemical and thermal erosion resistance and can strengthen the heat insulation effect of the vacuum heat insulation plate.

Optionally, the reinforcing ribs are installed in a triangular structure, and the adjacent reinforcing ribs are welded.

Through adopting above-mentioned technical scheme, the strengthening rib is the installation of triangle-shaped structure and has higher stability and support intensity, takes place the situation of warping when avoiding vacuum insulation panel to receive pressure.

Optionally, the fixing anchor rods movably penetrate through the fixing insertion holes, and the fixing anchor rods are symmetrically connected to two sides of the vacuum insulation panel.

Through adopting above-mentioned technical scheme, fixed stock activity runs through fixed jack, makes steel mesh, glass silk heat preservation cotton, vacuum insulation panels all can be fixed in one side of basic unit's wall body, avoids producing the gap between the adjacent component.

Optionally, a sealing filling plate is installed on one side, close to the steel mesh, of the decorative surface layer, the sealing filling plate is fixedly bonded between the decorative surface layer and the steel mesh, and a heat preservation mortar layer is filled in a gap at the periphery of the sealing filling plate.

Through adopting above-mentioned technical scheme, when the installation architectural surface, can utilize sealed infill panel to cover the one end of steel mesh and fixed stock, utilize the heat preservation mortar layer to fill up the gap on every side afterwards, avoid the architectural surface installation back, hollow situation appears in its inside.

In summary, the present application includes at least one of the following benefits: vacuum insulation panels passes through the fixed adhesion of adhesive linkage on the surface of basic unit's wall body, laminate the heated board on the binding face of vacuum insulation panels both sides afterwards, make the heated board parallel with the evagination piece in the middle of the vacuum insulation panels, thereby let heated board and vacuum insulation panels can form into a whole, the inside adiabatic chamber of seting up of vacuum insulation panels can carry out fire-retardant adiabatic, the strengthening rib can support in the inside in adiabatic chamber and separate, the dry powder is the dry powder fire extinguishing agent, can be used for fire-retardant, the asbestos has high tensile strength, high flexibility, resistant chemistry and thermal erosion, can strengthen vacuum insulation panels's adiabatic effect, make vacuum insulation panels and heated board can be used for adiabatic heat preservation in one side of basic unit's wall body, after heated board and vacuum connection, can lay glass silk heat preservation cotton in one side of the two, be used for reinforcing heat preservation thermal-insulated effect, make whole adiabatic heat preservation performance promote by a wide margin, simultaneously avoid taking place the fire and carry out combustion-supporting to the fire behind the calamity.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application;

FIG. 2 is an exploded view of the vacuum insulation panel and insulation panel of the present application;

fig. 3 is a sectional view of the inside of the vacuum insulation panel of the present application.

Description of reference numerals:

1. a base layer wall body; 2. an adhesive layer; 3. a vacuum insulation panel; 31. an outer bump; 311. fixing the jack; 312. fixing the clamping groove; 32. a binding face; 33. a thermally insulating chamber; 331. reinforcing ribs; 332. dry powder; 333. asbestos; 4. a heat-insulating board; 41. fixing the clamping block; 5. glass fiber heat insulation cotton; 6. a steel mesh; 7. fixing an anchor rod; 8. decorating the surface layer; 81. sealing the filling plate; 82. and (4) a heat-insulating mortar layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present application: vacuum insulation heat preservation for building that contains the steel mesh, including basic unit's wall body 1, the adhesive linkage 2 has been smeared on basic unit's wall body 1's surface, basic unit's wall body 1 is close to one side fixed bonding of adhesive linkage 2 has vacuum insulation panels 3, one side both ends fixedly connected with heated board 4 of basic unit's wall body 1 is kept away from to vacuum insulation panels 3, vacuum insulation panels 3 and heated board 4 are kept away from one side laminating of basic unit's wall body 1 and are had glass silk heat preservation cotton 5, glass silk heat preservation cotton 5's opposite side fixed mounting has steel mesh 6, vacuum insulation panels 3 and basic unit's wall body 1's centre through connection has fixed

stock

7, 7 symmetric connections of fixed stock are in vacuum insulation panels 3's both sides. The decorative surface layer 8 is installed to one side that vacuum insulation panel 3 was kept away from to steel mesh 6, and sealed packing plate 81 is installed to one side that decorative surface layer 8 is close to steel mesh 6, and sealed packing plate 81 is fixed to be bonded between decorative surface layer 8 and steel mesh 6, and the peripheral gap department of sealed packing plate 81 is filled with heat preservation mortar layer 82. When installing decorative surface layer 8, can utilize sealed infill panel 81 to cover steel mesh 6 and the one end of fixing stock 7, utilize heat preservation mortar layer 82 to fill up the gap on every side afterwards, avoid decorative surface layer 8 installation back, its inside hollow situation that appears.

Fixedly connected with outer lug 31 in the middle of the one side of base course wall body 1 is kept away from to vacuum insulation panel 3,

outer lug

31 and 3 formula structures as an organic whole of vacuum insulation panel, binding face 32 has been seted up at one side both ends that base course wall body 1 was kept away from to vacuum insulation panel 3, and thermal insulation chamber 33 has been seted up to heated board 4 and the fixed laminating of binding face 32, the both sides of vacuum insulation panel 3. The middle of adiabatic chamber 33 welding has strengthening rib 331, and strengthening rib 331 is the installation of triangle-shaped structure, for the welding between the adjacent strengthening rib 331, and strengthening rib 331 is the installation of triangle-shaped structure and has higher stability and support intensity, avoids the situation that takes place to warp when vacuum insulation panel 3 receives pressure. One side of the reinforcing rib 331 is filled with dry powder 332, the other side of the reinforcing rib 331 is filled with asbestos 333, the reinforcing rib 331 can be supported and separated inside the heat insulation cavity 33, the dry powder 332 is a dry powder extinguishing agent and can be used for flame retardance, and the asbestos 333 has high tensile strength, high flexibility, chemical resistance and thermal erosion resistance and can strengthen the heat insulation effect of the vacuum heat insulation plate 3.

Vacuum insulation panels 3 passes through the fixed adhesion of adhesive linkage 2 on the surface of basic unit's wall body 1, laminate heated board 4 on the binding face 32 of 3 both sides of vacuum insulation panels afterwards, make heated board 4 parallel with the evagination piece 31 in the middle of the 3 vacuum insulation panels, thereby let heated board 4 and vacuum insulation panels 3 form into a whole, the inside heat insulating cavity 33 of seting up of vacuum insulation panels 3 can carry out fire-retardant adiabatic, make vacuum insulation panels 3 and heated board 4 can be used for adiabatic heat preservation in one side of basic unit's wall body 1. After heated board 4 and vacuum insulation panel 3 are connected, can lay glass silk heat preservation cotton 5 in one side of the two for reinforcing heat preservation thermal-insulated effect, glass silk heat preservation cotton 5 lays the back, can lay steel mesh 6 in its one side, utilizes fixed stock 7 to run through after that with steel mesh 6 fixed, only need at the outermost end at last lay decorative cover layer 8 can, make whole thermal insulation performance promote by a wide margin.

The middle of the two sides of the outer convex block 31 is provided with a fixed insertion hole 311, and the fixed anchor rod 7 movably penetrates through the fixed insertion hole 311, so that the steel mesh 6, the glass fiber heat-insulating cotton 5 and the vacuum heat-insulating plate 3 can be fixed on one side of the base layer wall body 1, and gaps are prevented from being generated between adjacent components. Fixing clamping grooves 312 are symmetrically formed in the side edge of the outer convex block 31, the fixing anchor rod 7 penetrates through the vacuum insulation panel 3 through the fixing insertion hole 311, and the vacuum insulation panel 3 can utilize the fixing clamping grooves 312 in the side edge of the outer convex block 31 to limit and fix the insulation board 4. One side fixedly connected with fixture block 41 that heated board 4 is close to outer lug 31, fixture block 41 and heated board 4 formula structure as an organic whole, when needs are connected heated board 4, can fix a position the inside that the fixture block 41 of its one side inserted fixing slot 312, make heated board 4 and the combination of vacuum insulation panels 3 be a whole, be the joggle between fixture block 41 and the fixing slot 312, when making fixture block 41 be connected with fixing slot 312, do not need a needle nail, convenient assembling is swift, and can guarantee the fastness after the two is connected simultaneously.

The working principle is as follows: vacuum insulation panel 3 passes through the fixed adhesion of adhesive linkage 2 on the surface of basic unit's wall body 1, laminate heated board 4 on the binding face 32 of 3 both sides of vacuum insulation panel afterwards, make heated board 4 parallel with the evagination piece 31 in the middle of the vacuum insulation panel 3, thereby let heated board 4 and vacuum insulation panel 3 form into a whole, after heated board 4 and vacuum insulation panel 3 connect, can lay glass silk heat preservation cotton 5 in one side of the two, glass silk heat preservation cotton 5 lays the back, can lay steel mesh 6 in its one side, it is fixed with steel mesh 6 to utilize fixed stock 7 to run through after that, it can to only need to lay decorative cover 8 at the outermost end at last.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. Vacuum insulation heat preservation for building that contains the steel mesh, including basic unit's wall body (1), its characterized in that: the bonding layer (2) is coated on the surface of the base wall body (1), a vacuum heat-insulating plate (3) is fixedly bonded to one side, close to the bonding layer (2), of the base wall body (1), heat-insulating plates (4) are fixedly connected to two ends of one side, far away from the base wall body (1), of each vacuum heat-insulating plate (3) and the corresponding heat-insulating plate (4), glass fiber heat-insulating cotton (5) is bonded to one side, far away from the base wall body (1), of each vacuum heat-insulating plate (3), a steel mesh (6) is fixedly mounted to the other side of each glass fiber heat-insulating cotton (5), a fixing anchor rod (7) penetrates through the middles of the vacuum heat-insulating plates (3) and the base wall body (1), and a decorative surface layer (8) is mounted on one side, far away from the vacuum heat-insulating plates (3), of each steel mesh (6);

outer lug (31) of fixedly connected with in the middle of one side of basic unit's wall body (1) is kept away from in vacuum insulation board (3), outer lug (31) and vacuum insulation board (3) formula structure as an organic whole, binding face (32) have been seted up at one side both ends that basic unit's wall body (1) was kept away from in vacuum insulation board (3), heated board (4) and binding face (32) fixed laminating, adiabatic chamber (33) have been seted up to the both sides of vacuum insulation board (3).

2. The vacuum heat insulation layer for buildings containing steel nets as claimed in claim 1, wherein: fixed jacks (311) are formed in the middles of two sides of the outer protruding block (31), and fixed clamping grooves (312) are symmetrically formed in the side edge of the outer protruding block (31).

3. The vacuum heat insulation layer for buildings containing steel nets as claimed in claim 1, wherein: one side of the heat insulation board (4) close to the outer convex block (31) is fixedly connected with a fixed clamping block (41), and the fixed clamping block (41) and the heat insulation board (4) are of an integrated structure.

4. The vacuum heat insulation layer for buildings containing steel nets of claim 3, wherein: the fixed clamping block (41) is in joggle joint with the fixed clamping groove (312).

5. The vacuum heat insulation layer for buildings containing steel nets as claimed in claim 1, wherein: the middle of the heat insulation cavity (33) is welded with a reinforcing rib (331), one side of the reinforcing rib (331) is filled with dry powder (332), and the other side of the reinforcing rib (331) is filled with asbestos (333).

6. The vacuum heat insulation layer for buildings containing steel nets of claim 5, wherein: the reinforcing ribs (331) are installed in a triangular structure, and the adjacent reinforcing ribs (331) are welded.

7. The vacuum heat insulation layer for buildings containing steel nets as claimed in claim 1, wherein: the fixed anchor rods (7) penetrate through the fixed insertion holes (311) movably, and the fixed anchor rods (7) are symmetrically connected to the two sides of the vacuum heat insulation plate (3).

8. The vacuum heat insulation layer for buildings containing steel nets of claim 1, wherein: one side of the decorative surface layer (8) close to the steel mesh (6) is provided with a sealing filling plate (81), the sealing filling plate (81) is fixedly bonded between the decorative surface layer (8) and the steel mesh (6), and a gap at the periphery of the sealing filling plate (81) is filled with a heat-preservation mortar layer (82).