CN216075661U - Combined type heat insulation structure integrated composite heat insulation board - Google Patents

Abstract

The application relates to the technical field of building materials, in particular to a combined heat-preservation structure integrated composite heat-preservation plate which comprises a plurality of heat-preservation plate bodies, wherein each heat-preservation plate body is divided into an extension module and an edge module, two splicing abdicating grooves are formed in the extension module, one splicing abdicating groove is formed in the edge module, and the extension module and the edge module are matched with each other through the splicing abdicating grooves to splice an integrated heat-preservation plate surface; the splicing abdicating groove is arranged in a ladder shape, and the length of the splicing abdicating groove is equal to the length of the side wall of the extension module or the edge module. This application has the construction quality who promotes composite insulation board, reduces the effect that the possibility of fracture takes place for the board seam between the adjacent composite insulation board.

Description

Combined type heat insulation structure integrated composite heat insulation board

Technical Field

The application relates to the technical field of building materials, in particular to a combined type heat preservation structure integrated composite heat preservation plate.

Background

At present, composite insulation boards are widely applied in the industrial field, the composition of different materials can be applied in different fields and scenes, the application of wall insulation integrated products in the building field is relatively mature, and if the composite insulation boards with lower heat conductivity coefficients are fixed on the surface of a concrete wall in an engineering way, the indoor thermal stability of a building subjected to heat insulation treatment is improved.

In related fields, the fixing mode of the heat insulating material and the surface of the outer wall is adhesion, mechanical anchoring, adhesion-anchor combination, spraying, pouring and the like. The fixing method of the bonding anchor combination is generally characterized in that the heat insulating material is fixed on the wall body through a mechanical structure such as an anchor rod, cement mortar is poured between the heat insulating material and the wall body, and after the cement mortar is dried, the cement mortar further bonds and fixes the heat insulating material and the wall body.

In view of the above-described related art, the inventors found that: when adopting foretell composite insulation board to construct, only arrange through the mode of butt between two adjacent composite insulation boards, and then make the board seam between the adjacent composite insulation board produce great board seam because construction error easily, lead to producing the thick liquid problem of leaking to and engineering completion back, composite insulation board seam department is because of thick liquids is too few easy fracture, thereby leads to structure wall body heat preservation inefficacy and infiltration problem.

SUMMERY OF THE UTILITY MODEL

In order to promote composite insulation board's construction quality, reduce the possibility that the board seam takes place the fracture between the adjacent composite insulation board, this application provides a modular insulation structure integration composite insulation board.

The application provides a pair of modular insulation construction integration composite insulation board adopts following technical scheme:

a combined heat-preservation structure integrated composite heat-preservation plate comprises a plurality of heat-preservation plate bodies, wherein each heat-preservation plate body is divided into an extension module and an edge module, two splicing abdicating grooves are formed in the extension module, the two splicing abdicating grooves in the extension module are arranged in a staggered mode, one splicing abdicating groove is formed in the edge module, and the extension module and the edge module are matched with each other through the splicing abdicating grooves to splice an integral heat-preservation plate surface; the splicing abdicating groove is arranged in a ladder shape, and the length of the splicing abdicating groove is equal to the length of the side of one side of the side wall of the extending module or the edge module.

Through adopting above-mentioned technical scheme, through the outside or the inside and outside both sides dislocation to composite insulation board open the concatenation groove of stepping down and handle, can increase two adjacent composite insulation boards and the outside or the bonding area of inside and outside both sides tectonic layer, effectively improve bonding strength, make simultaneously neat through the whole heat preservation face that extends module and edge module formation to improve composite insulation board's whole construction quality, effectively avoid two adjacent composite insulation board crack and the wall body infiltration problem that causes.

Preferably, the insulation board body is formed by sequentially and mutually bonding an outer side reinforcing layer, an insulation transition layer, an insulation layer and an inner side reinforcing layer.

Through adopting above-mentioned technical scheme, add in proper order in the one side outside on heat preservation and establish heat preservation transition layer and outside enhancement layer, inboard adding establishes inboard enhancement layer, and then consolidate the heat preservation to promote the holistic intensity of composite insulation board, reduce and receive the striking condition that produces the fracture in the work progress, realize promoting composite insulation board's construction quality's purpose, reduce the composite insulation board later stage and lead to the emergence of structure wall body heat preservation inefficacy or wall body infiltration problem because of the fracture.

Preferably, the outer reinforcing layer and the inner reinforcing layer are constructed by anti-crack mortar with glass fiber mesh cloth inside.

Through adopting above-mentioned technical scheme, glass fiber net check cloth not only has high tenacity and high strength, but also has good anti-crack mortar permeability, and anti-crack mortar cooperation glass fiber net check cloth can holistically promote the holistic tensile of composite insulation board and anti folding performance, still can wholly promote composite insulation board's water proofness simultaneously, reduces the infiltration problem.

Preferably, the glass fiber mesh cloth in the outer reinforcing layer and the inner reinforcing layer is provided with two layers.

Through adopting above-mentioned technical scheme, further promote the holistic intensity of composite insulation board.

Preferably, the thickness of the outer reinforcing layer is 5-7 mm.

Through adopting above-mentioned technical scheme, when the thickness of outside enhancement layer is greater than 7mm, it is limited to the promotion of composite insulation board's intensity, causes the thickness of composite insulation board too thick easily simultaneously, can influence composite insulation board's construction to a certain extent. Because outside enhancement layer is the place that receives the striking easily, so the intensity requirement here is higher than inboard enhancement layer, and when thickness is less than 5mm for outside enhancement layer is not enough to the intensity promotion of composite insulation board. Through engineering verification, the outer reinforcing layer is made of the above thickness, so that the anti-cracking and protecting effects can be enhanced, and the thickness of the formed composite heat-insulating plate is reduced.

Preferably, the thickness of the inner reinforcing layer is 3-5 mm.

By adopting the technical scheme, the inner side reinforcing layer is attached to the wall body, so that the strength requirement of the inner side reinforcing layer is lower than that of the outer side reinforcing layer. Through engineering verification, the inner side reinforcing layer with the thickness can play roles in enhancing crack resistance and fire resistance and protecting the heat-insulating layer, and meanwhile, the overall thickness of the composite heat-insulating plate can be reduced.

Preferably, the heat-insulating transition layer is a thermosetting composite polystyrene foam board with the combustion performance of A level.

By adopting the technical scheme, the thermosetting composite polystyrene foam board has the advantages of small density coefficient, good impact resistance, enough capacity for buffering external impact force by changing and restoring the shape, and further effectively improving the overall impact resistance of the composite insulation board. Meanwhile, the surface of the thermosetting composite polystyrene foam plate has low water absorption rate and good anti-permeability performance, and can effectively avoid the wall surface problems of mildewing, falling off and the like after the wall surface is affected with damp. Moreover, the thermosetting composite polystyrene foam board with the combustion performance of A level overcomes the defect that the traditional polystyrene foam board is inflammable, and effectively improves the flame resistance, the heat insulation performance and the crack resistance of the composite heat insulation board.

Preferably, the thickness of the heat-preservation transition layer is 20-50 mm.

By adopting the technical scheme, when the thickness of the heat-insulation transition layer is more than 50mm, the composite heat-insulation plate is easy to have a thicker size, and the excessively thick composite heat-insulation plate brings a series of problems to production, transportation and construction; however, when the thickness of the heat-insulating transition layer is less than 20mm, the heat-insulating property of the composite heat-insulating board is easily not up to the standard. Through engineering verification, the heat-insulating transition layer with the thickness can play a role in fire prevention, crack resistance and certain heat insulation.

Preferably, the heat insulation layer is any one of B1 grade polystyrene board, extruded board or polyurethane board.

More preferably, the polystyrene board of B1 level is graphite polystyrene board, and the extruded sheet is graphite extruded sheet.

Through adopting above-mentioned technical scheme, the heat preservation that adopts above-mentioned material all has lower coefficient of heat conductivity for composite insulation board has the thermal insulation performance of preferred. Meanwhile, the extruded sheet and the polyurethane sheet have higher compressive strength, and the impact resistance of the composite insulation board can be effectively improved.

To sum up, the application comprises the following beneficial technical effects:

1. the outer side or the inner side and the outer side of each composite insulation board are subjected to staggered splicing abdicating groove treatment, so that the bonding area between the two adjacent composite insulation boards and the outer side or the inner side and the outer side structural layers can be increased, the bonding strength is effectively improved, and meanwhile, the integral insulation board surface formed by the extension module and the edge module is neat, so that the integral construction quality of the composite insulation boards is improved, and the cracking of the slab joints of the two adjacent composite insulation boards and the caused water seepage problem of the wall body are effectively avoided;

2. add in proper order in the one side outside on heat preservation layer and establish heat preservation transition layer and outside enhancement layer, inboard adds establishes inboard enhancement layer, and then consolidates the heat preservation to promote the holistic intensity of composite insulation board, reduce and receive the condition that the striking produced the fracture in the work progress, realize promoting composite insulation board's construction quality's purpose, reduce composite insulation board later stage and lead to the emergence of structure wall body heat preservation inefficacy or wall body infiltration problem because of the fracture.

Drawings

FIG. 1 is a schematic structural diagram of a composite insulation board according to an embodiment of the present application.

Fig. 2 is a schematic structural view of an overall insulation board surface formed by an extension module and an edge module in the composite insulation board according to the embodiment of the present application.

Fig. 3 is a schematic structural diagram of an extension module in a composite insulation board according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of an edge module in a composite insulation board according to an embodiment of the present application.

FIG. 5 is a schematic diagram of an assembling structure for covering the male and female corners of a wall body formed by assembling edge modules through the splicing abdicating grooves in the composite heat-insulating board of the embodiment of the application.

In the figure, 1, a heat insulation plate body; 11. an outer reinforcing layer; 12. a heat-insulating transition layer; 13. a heat-insulating layer; 14. an inner reinforcing layer; 2. an extension module; 3. an edge module; 4. splicing the abdicating grooves; 5. a wall body.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, the embodiment of the application discloses modular insulation construction integration composite insulation board, including a plurality of heated board bodies 1 of installing on wall body 5, heated board body 1 from the top down includes outside enhancement layer 11, heat preservation transition layer 12, heat preservation 13 and inboard enhancement layer 14 in proper order.

Referring to fig. 1, the outer reinforcing layer 11 and the inner reinforcing layer 14 are constructed by anti-crack mortar with glass fiber mesh cloth inside, and the glass fiber mesh cloth in the outer reinforcing layer 11 and the inner reinforcing layer 14 are both provided with two layers; the thickness of the outer reinforcing layer 11 is 5-7 mm, the size is customized according to construction requirements, and in the embodiment, the thickness of the outer reinforcing layer 11 is 5 mm; the thickness of the inner reinforcing layer 14 is 3-5 mm, the size is customized according to construction requirements, and in the implementation, the thickness of the inner reinforcing layer 14 is 3 mm; the reason why the thickness of the inner reinforcing layer 14 is smaller than that of the outer reinforcing layer 11 is that: the inner reinforcing layer 14 is attached to the wall, so the strength requirement of the inner reinforcing layer 14 is lower than that of the outer reinforcing layer 11, and the thickness of the inner reinforcing layer 14 is smaller than that of the outer reinforcing layer 11. The glass fiber gridding cloth not only has high toughness and high strength, but also has good anti-crack mortar permeability, and the anti-crack mortar is matched with the glass fiber gridding cloth to integrally improve the overall tensile and anti-bending performance of the composite insulation board, and simultaneously, the water resistance of the composite insulation board can be integrally improved, and the water seepage problem is reduced.

Referring to fig. 1, the heat-insulating transition layer 12 is made of a thermosetting composite polystyrene foam board with combustion performance of a class a, the thickness of the heat-insulating transition layer 12 is 20-50 mm, and the size of the heat-insulating transition layer is customized according to construction requirements, in this embodiment, the thickness of the heat-insulating transition layer 12 is 45 mm. The thermosetting composite polystyrene foam board has the advantages of small density coefficient and good impact resistance, and has enough capacity to buffer external impact force by changing and restoring the shape, so that the overall impact resistance of the composite insulation board is effectively improved. Meanwhile, the surface of the thermosetting composite polystyrene foam plate has low water absorption rate and good anti-permeability performance, and can effectively avoid the wall surface problems of mildewing, falling off and the like after the wall surface is affected with damp. Moreover, the thermosetting composite polystyrene foam board with the combustion performance of A level overcomes the defect that the traditional polystyrene foam board is inflammable, and effectively improves the flame resistance, the heat insulation performance and the crack resistance of the composite heat insulation board.

Referring to fig. 1, the insulating layer 13 may be any one of B1 grade polystyrene board, extruded board, or polyurethane board, the size of the insulating layer 13 is customized according to the construction requirement, and the thickness of the insulating layer 13 is generally 3-150 mm, which is not limited herein. Specifically, the polystyrene board of B1 grade is graphite polystyrene board, and the extruded sheet is graphite extruded sheet. The heat insulation layers 13 made of the materials have lower heat conductivity coefficient, so that the composite heat insulation plate has better heat insulation performance. Meanwhile, the extruded sheet and the polyurethane sheet have higher compressive strength, and the impact resistance of the composite insulation board can be effectively improved.

Referring to fig. 2 and 3, in order to reduce the slab joints between adjacent insulation board bodies 1, the insulation board bodies 1 are divided into extension modules 2 and edge modules 3 according to different positions, the extension modules 2 are mutually overlapped to cover most of the wall body 5, and then the edge modules 3 are overlapped to cover the edge of the extension modules 2, so that the whole insulation board surface covering the wall body 5 is formed.

Referring to fig. 3 and fig. 4, specifically, two splicing abdicating grooves 4 have been seted up on the extension module 2, in the embodiment of the present application, two splicing abdicating grooves 4 on the extension module 2 are set up on the same side of the extension module 2, and two splicing abdicating grooves 4 on the extension module 2 are arranged in a staggered manner, so that the overall longitudinal section of the extension module 2 is T-shaped, in another embodiment, two splicing abdicating grooves 4 on the extension module 2 can also be set up on the side wall of the extension module 2 opposite to each other, so that two adjacent extension modules 2 can be overlapped with each other to form a bond. The edge module 3 is provided with a splicing abdicating groove 4, the splicing abdicating groove 4 is arranged in a ladder shape, the length of the splicing abdicating groove 4 is equal to the length of the side wall of the extension module 2 or the edge module 3, so that the edge module 3 and the extension module 2 or the joint between the two adjacent extension modules 2 can be mutually overlapped to form bonding. The extension module 2 and the edge module 3 are matched with each other through the splicing abdicating groove 4 to be spliced into an integral heat-insulation board surface, so that the integral construction quality of the composite heat-insulation board is improved, and the cracking of the board joints of the two adjacent composite heat-insulation boards and the water seepage problem of the wall body 5 caused by the cracking are effectively avoided.

Referring to fig. 5, to the wall body 5 that needs structure negative and positive angle insulation construction, the staff can set up not unidimensional concatenation groove 4 of stepping down on edge module 3 according to the designing requirement to make two heated board bodies 1 can form right angled insulation construction, promote heated board body 1's suitability.

The implementation principle of the combined type heat preservation structure integrated composite heat preservation plate provided by the embodiment of the application is as follows: add in proper order in the one side outside of heat preservation 13 and establish heat preservation transition layer 12 and outside enhancement layer 11, inboard adds establishes inboard enhancement layer 14, and then consolidates heat preservation 13 to promote the holistic intensity of composite insulation board, reduce and receive the striking condition that produces the fracture in the work progress, realize promoting composite insulation board's construction quality's purpose, reduce composite insulation board later stage and lead to the emergence of 5 heat preservation inefficacy or 5 infiltration problems of wall body of structure wall body because of the fracture. Through the outside to composite insulation board or inside and outside both sides dislocation division concatenation groove 4 of stepping down handles, can increase two adjacent composite insulation boards and the outside or the bonding area of inside and outside both sides tectonic layer, effectively improve bonding strength, make simultaneously through extending the whole heat preservation face that module 2 and edge module 3 formed neat to improve composite insulation board's whole construction quality, effectively avoid two adjacent composite insulation board crack and the 5 problem of oozing of wall body that cause.

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: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a modular insulation construction integration composite insulation board which characterized in that: the heat-insulation board comprises a plurality of heat-insulation board bodies (1), wherein the heat-insulation board bodies (1) are divided into extension modules (2) and edge modules (3), two splicing abdicating grooves (4) are formed in the extension modules (2), the two splicing abdicating grooves (4) in the extension modules (2) are arranged in a staggered mode, one splicing abdicating groove (4) is formed in the edge module (3), and the extension modules (2) and the edge modules (3) are matched with each other through the splicing abdicating grooves (4) to splice an integral heat-insulation board surface; the splicing abdication groove (4) is arranged in a ladder shape, and the length of the splicing abdication groove (4) is equal to the length of the side edge of one side of the side wall of the extension module (2) or the edge module (3).

2. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 1, characterized in that: the insulation board body (1) is formed by sequentially and mutually bonding an outer side reinforcing layer (11), an insulation transition layer (12), an insulation layer (13) and an inner side reinforcing layer (14).

3. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the outer side reinforcing layer (11) and the inner side reinforcing layer (14) are constructed by anti-crack mortar with glass fiber gridding cloth inside.

4. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the glass fiber mesh cloth in the outer side reinforcing layer (11) and the inner side reinforcing layer (14) are both provided with two layers.

5. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the thickness of the outer side reinforcing layer (11) is 5-7 mm.

6. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the thickness of the inner side reinforcing layer (14) is 3-5 mm.

7. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the heat-insulating transition layer (12) is a thermosetting composite polystyrene foam board with the combustion performance of A level.

8. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the thickness of the heat-preservation transition layer (12) is 20-50 mm.

9. The combined heat-insulating structure integrated composite heat-insulating plate according to claim 2, characterized in that: the heat-insulating layer (13) is any one of B1-grade polystyrene board, extruded sheet or polyurethane board.

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