CN218622742U - Heat preservation and structure integrated energy-saving wall structure constructed by adopting composite heat preservation material - Google Patents

Abstract

The utility model discloses an adopt heat preservation and energy-conserving wall body structure of structure integration of composite insulation material construction, it includes composite insulation board, the inoxidizing coating, the articulamentum, the basic unit wall body, veil layer and a plurality of connecting piece, the veil layer is connected in the medial surface of basic unit wall body, the articulamentum is located between the lateral surface of basic unit wall body and the composite insulation board and is connected with the lateral surface and the composite insulation board of basic unit wall body, the inoxidizing coating is connected in one side of basic unit wall body dorsad in the composite insulation board, composite insulation board is the composite insulation material that forms by the combination of two kinds or more than two kinds of insulation structure layer, the connecting piece passes the articulamentum, and the one end of connecting piece is connected in composite insulation board, the other end of connecting piece is buried underground and is connected in between the horizontal piece of basic unit wall body. On the premise of meeting the fireproof requirement, the heat insulation effect of the building wall is better improved, so that the higher building energy-saving requirement is met; greatly improving the structural stability and firmness.

Description

Heat preservation and structure integrated energy-saving wall structure constructed by adopting composite heat preservation material

Technical Field

The utility model relates to an adopt heat preservation and the energy-conserving wall body structure of structure integration of composite insulation material construction.

Background

In numerous energy consumption fields, the building energy consumption accounts for about 30% of the total social energy consumption, and along with the gradual improvement of the building energy-saving requirement, the technologies of 'near-zero energy consumption building', 'passive building' and 'ultra-low energy consumption building' are continuously developed, and higher requirements are provided for the performance of the building external wall heat-insulating material and the external wall heat-insulating structure.

In the building construction process, the wall body of the frame structure is called a filler wall, plays the roles of enclosure and separation, and the weight is borne by the beam column. The heat preservation construction of the part is generally that after the masonry of the filler wall is finished and a plastering layer is constructed on the outer side, a heat preservation layer is externally attached to one side of the filler wall in the forms of bonding and anchoring, spraying or dry hanging and the like. Due to factors such as structural form and construction quality, the problems of cracking, water seepage, falling and fire hazard often exist in the construction and use processes, the heat insulation effect of the building is influenced, and safety accidents (fire hazard and falling of the heat insulation layer) are caused. Meanwhile, the external thermal insulation layer has limited thermal insulation performance and cannot meet the requirement of higher standard on building energy conservation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides an adopt the heat preservation and the energy-conserving wall body structure of structure integration of composite insulation material construction.

The utility model discloses a realize through following technical scheme:

the utility model provides an adopt heat preservation and energy-conserving wall body structure of structure integration of composite insulation material construction, its includes composite insulation board, inoxidizing coating, articulamentum, basic unit's wall body, surface course and a plurality of connecting piece, the surface course connect in the medial surface of basic unit's wall body, the articulamentum is located the lateral surface of basic unit's wall body with between the composite insulation board and with the lateral surface of basic unit's wall body with the composite insulation board is connected, the inoxidizing coating connect in the composite insulation board dorsad one side of basic unit's wall body, composite insulation board is the composite insulation material that forms by the combination of the insulation structure layer more than two kinds or two kinds, the connecting piece passes the articulamentum, just the one end of connecting piece connect in composite insulation board, the other end of connecting piece bury underground and connect in between the horizontal piece of basic unit's wall body.

Further, the heat preservation structure layer is an inorganic material layer or an organic material layer.

Furthermore, two or more than two heat preservation structure layers comprise an organic material layer and an inorganic material layer, and the inorganic material layer is connected to one side, back to the base layer wall, of the organic material layer.

Further, the number of the inorganic material layers is two, and the two inorganic material layers are respectively connected to the inner side and the outer side of the organic material layer.

Furthermore, an accommodating cavity is formed in the inorganic material layer, and the other heat-insulating structure layer is arranged in the accommodating cavity, so that the inorganic material layer is completely coated on the heat-insulating structure layer.

Furthermore, the heat-preservation and construction integrated energy-saving wall body structure constructed by adopting the composite heat-preservation material further comprises a first reinforcing net, the first reinforcing net is arranged on the side surface and/or inside of the composite heat-preservation plate, and the connecting piece is connected to the first reinforcing net;

and/or the protective layer comprises mortar and a second reinforcing net, the mortar is connected to the outer side surface of the composite insulation board, and the second reinforcing net is arranged in the mortar.

Furthermore, the heat-preservation and construction integrated energy-saving wall body structure constructed by adopting the composite heat-preservation material further comprises a concrete guide wall, the concrete guide wall is connected to the bottom of the inner side of the composite heat-preservation plate, and the base wall body is connected to the concrete guide wall;

and/or one end of the connecting piece is abutted against the outer side face of the composite heat-insulation board, and the other end of the connecting piece is connected with a transverse tie bar and/or masonry material in a transverse abutted seam in the base wall body.

Furthermore, vertical columns are arranged in the base layer wall body;

and/or the base layer wall body is internally provided with a transverse wale.

Further, the width of the connecting layer is not less than 10mm;

and/or an additional protective layer is arranged on one side of the composite heat-insulation plate, which is back to the connecting layer, and the protective layer is connected to the outer side surface of the additional protective layer.

Further, the material of the heat insulation structure layer comprises one of an extruded polystyrene board, a molded polystyrene board, a polyurethane board, a vacuum heat insulation board, an aerogel material, glue powder polystyrene particle heat insulation slurry, expanded perlite heat insulation slurry and aerated concrete heat insulation slurry;

and/or the base layer wall body comprises one or more of aerated concrete blocks, aerated concrete block bricks, ALC laths and shale sintered bricks.

The beneficial effects of the utility model reside in that:

the utility model discloses an adopt the heat preservation and the energy-conserving wall body structure of structure integration of composite insulation material construction, composite insulation board adopts the composite insulation material that two kinds or more than two kinds of insulation construction layer combination formed, can realize that composite insulation board can be under the prerequisite that satisfies the fire prevention requirement, better promotion building wall body heat preservation effect to reach higher building energy saving requirement. And the composite insulation board is connected with the base wall through the connecting piece and the connecting layer, so that the structural stability and firmness are greatly improved, and the defects existing in the construction method that the insulation layer is attached to the outside after the wall is built are effectively overcome.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving wall structure integrated with heat preservation and structure constructed by using composite heat-insulating materials according to embodiment 1 of the present invention.

Fig. 2 is the schematic view of the internal structure of the heat-insulating and structure-integrated energy-saving wall structure constructed by using the composite heat-insulating material according to embodiment 1 of the present invention.

Fig. 3 is the schematic view of the internal structure of the heat-insulating and structure-integrated energy-saving wall structure constructed by using the composite heat-insulating material according to embodiment 2 of the present invention.

Fig. 4 is an internal structure diagram of an energy-saving wall structure integrated with heat preservation and structure constructed by using composite heat insulation materials according to embodiment 3 of the present invention.

Description of reference numerals:

composite heat insulation board 1

Thermal insulation structure layer 11

Base layer wall 2

Transverse tie bar 21

Connection layer 3

Protective layer 4

Protective layer 5

Connecting piece 6

Concrete guide wall 7

Detailed Description

The following description of the various embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Example 1

As shown in fig. 1 and fig. 2, the present embodiment discloses a heat preservation and structure integrated energy-saving wall structure constructed by composite heat insulation materials, the heat preservation and structure integrated energy-saving wall structure constructed by composite heat insulation materials includes a composite heat insulation board 1, a base wall 2, a connecting layer 3, a protective layer 4, a protective layer 5 and a plurality of connecting pieces 6, the protective layer 5 is connected to the inner side of the base wall 2, the connecting layer 3 is located between the outer side of the base wall 2 and the composite heat insulation board 1 and is connected with the outer side of the base wall 2 and the composite heat insulation board 1, the protective layer 4 is connected to one side of the composite heat insulation board 1 back to the base wall 2, the composite heat insulation board 1 is a composite heat insulation material formed by combining two or more heat insulation structure layers 11, the connecting pieces 6 pass through the connecting layer 3, and one end of the connecting pieces 6 is connected to the composite heat insulation board 1, the other end of the connecting pieces 6 is embedded between transverse abutted seams of the base wall 2.

The composite insulation board 1 is made of composite insulation materials formed by combining two or more insulation structure layers 11, so that the composite insulation board 1 can better improve the insulation effect of a building wall on the premise of meeting the fireproof requirement, and the higher building energy-saving requirement is met. Meanwhile, the protective layer 4 is connected to one side of the composite heat-insulation board 1, which is opposite to the base layer wall body 2, and plays a role in strengthening protection for the outer side face of the composite heat-insulation board 1, and the protective layer 5 is connected to the inner side face of the base layer wall body 2 and plays a role in strengthening protection for the inner side face of the base layer wall body 2, so that the good use function of the heat-insulation and structure-integrated energy-saving wall body structure constructed by adopting the composite heat-insulation material is protected; meanwhile, the wall can be used for protecting walls, beautifying buildings and meeting the use requirements.

Composite insulation board 1 sets up in basic unit's wall body 2's lateral surface, and composite insulation board 1 and the roof beam of the cast-in-place structure of concrete, the post part phase connection, the both ends of a plurality of connecting piece 6 are connected respectively in between composite insulation board 1 and basic unit's wall body 2's horizontal piece, articulamentum 3 bonds composite insulation board 1 and basic unit's wall body 2 each other, structural stability and firmness have been improved greatly under the tripartite combined action, effectively overcome the drawback that exists in the construction method of attaching the heat preservation again after the wall body is built by laying bricks or stones and finish, the heat preservation that adopts the composite insulation material construction and the safety and stability of the energy-conserving wall body structure of structure integration have been improved greatly.

In this embodiment, the two or more insulation structure layers 11 include an organic material layer and an inorganic material layer, and the inorganic material layer is connected to a side of the organic material layer opposite to the base wall 2. The number of the organic material layers and the number of the inorganic material layers are one, the protective layer 4 is connected to the outer side face of the inorganic material layer, and the connecting layer 3 is connected to the organic material layers and the base wall body 2. The composite insulation board 1 is a composite insulation material formed by combining an organic material layer and an inorganic material layer, the inorganic material layer has the characteristic of non-combustibility, the inorganic material layer of the composite insulation board 1 is arranged on the outer side of the combustible organic material layer, and a protective layer 4 on the outer side of the composite insulation board 1 is used for assisting, so that the fireproof effect can be effectively realized; meanwhile, the heat insulation performance of the organic material layer is superior to that of the inorganic material layer, and the composite heat insulation board 1 formed by combining the organic material layer and the inorganic material layer can better improve the heat insulation effect of a building wall body on the premise of meeting the fireproof requirement, so that the higher building energy-saving requirement is met.

Of course, in other embodiments, the insulating structure layer 11 may also be an inorganic material layer, that is, two or more insulating structure layers 11 are inorganic material layers. The thermal insulation structure layer 11 may also be an organic material layer, that is, two or more thermal insulation structure layers 11 are all organic material layers.

The material of the insulation structure layer 11 includes one or more of extruded polystyrene board, molded polystyrene board, polyurethane board, vacuum insulation board, aerogel material, glue powder polyphenyl granule insulation slurry, expanded perlite insulation slurry and aerated concrete insulation slurry. Thereby promoting the overall heat-insulating effect and the overall fireproof effect of the finally formed heat-insulating and structure-integrated energy-saving wall structure, and meeting the energy-saving requirement of the heat-insulating and structure-integrated energy-saving wall structure.

The base wall 2 comprises one or more of aerated concrete blocks, aerated concrete block bricks, ALC laths and shale sintered bricks. Therefore, the effect of reducing the overall weight of the heat-insulation and structure-integrated energy-saving wall structure constructed by adopting the composite heat-insulation material can be achieved; compare in traditional concrete material not only weight lighter, make basic unit's wall body 2 have the heat preservation function, cooperation composite insulation board 1, can be better reach the heat retaining effect of building to satisfy the heat preservation demand that keeps warm and construct the higher of energy-conserving wall body structure of integration.

The base layer wall body 2 is internally provided with vertical columns. When basic unit's wall body 2 width was too wide in horizontal construction, through increase vertical post in basic unit's wall body 2 to effectively strengthened basic unit's wall body 2's structural strength, with stability and the firmness of further promotion structure.

The base layer wall body 2 is internally provided with a transverse waist beam. When basic unit's wall body 2 was high too high in vertical construction, through increase horizontal waist rail in basic unit's wall body 2 to effectively strengthened basic unit's wall body 2's structural strength, with the stability and the firmness of further promotion structure.

The heat preservation and structure integrated energy-saving wall structure adopting the composite heat preservation material for construction further comprises a first reinforcing net, the first reinforcing net is arranged on the side face and/or inside the composite heat preservation plate 1, and the connecting piece 6 is connected to the first reinforcing net. The first reinforcing mesh can be arranged on one side of the composite heat-insulation board 1, can also be arranged on two sides of the composite heat-insulation board 1, and can also be arranged in the composite heat-insulation board 1. The connecting piece 6 is connected to the first reinforcing net, so that the structural strength of the heat-preservation and structure-integrated energy-saving wall structure is effectively enhanced, and the safety and stability of the heat-preservation and structure-integrated energy-saving wall structure are improved. The first reinforcing mesh can be a metal reinforcing mesh or an FRP reinforcing mesh.

One end of the connecting piece 6 is abutted against the outer side face of the composite heat-insulation board 1, and the other end of the connecting piece 6 is embedded between the transverse abutted seams of the base wall body 2 and is abutted against the transverse abutted seams arranged in the base wall body 2. Connecting piece 6 is the anchor assembly, and the anchor assembly includes anchor plate and stock, and the laminating of anchor plate is supported and is leaned on in the lateral surface of composite thermal insulation board 1, and the stock passes composite thermal insulation board 1 and articulamentum 3 and insert to connect between the horizontal piece of basic unit's wall body 2, further strengthens the joint strength who keeps warm and construct the energy-conserving wall body structure of integration. In this embodiment, the connecting members 6 are connected to masonry materials placed in transverse joints in the base wall 2 to improve the reliability of the connection of the materials in the structure.

The width of the connecting layer 3 is not less than 10mm. That is to say, the clearance between composite insulation board 1 and the basic unit wall body 2 is not less than 10mm to ensure to have sufficient space between composite insulation board 1 and the basic unit wall body 2 and hold articulamentum 3, in order to realize effectively having strengthened the joint strength between composite insulation board 1 and the basic unit wall body 2. Preferably, the thickness of the connection layer 3 is 10 to 25mm. The integral thickness of the heat-preservation and structure-integrated energy-saving wall structure constructed by adopting the composite heat-preservation material is reduced on the premise of ensuring the connection strength, the influence on the indoor usable floor area is reduced, and the usable floor area of a building is increased. Wherein, the connecting layer 3 is mortar.

The protective layer 4 can be directly connected to the outer side surface of the composite insulation board 1, and an additional protective layer can be additionally arranged. An additional protective layer is arranged on the side, opposite to the connecting layer 3, of the composite heat insulation board 1, and the protective layer 4 is connected to the outer side face of the additional protective layer. An independent additional protective layer can be additionally arranged at the abutted seam position in the composite heat-insulation board 1, and then the large-surface construction of the protective layer 4 is carried out on the outer side surface of the additional protective layer, so that the abutted seam position is prevented from cracking and water seepage, and the heat-insulation layer formed by the composite heat-insulation board 1 is stronger in integrity. Wherein, the additional protective layer comprises anti-crack mortar and alkali-resistant fiberglass gridding cloth.

The protective layer 4 comprises mortar and a second reinforcing net, the mortar is connected to the outer side face of the composite heat-insulation board 1, and the second reinforcing net is arranged in the mortar. The mortar is used for leveling protection, the second reinforcing net is arranged in the mortar, the integral structural firmness of the protective layer 4 can be enhanced, and the safety and stability of the heat-preservation and structure-integrated energy-saving wall structure constructed by adopting the composite heat-preservation material are improved. The mortar can be special mortar with anti-cracking/waterproof functions, and the second reinforcing mesh can be a metal reinforcing mesh, an FRP reinforcing mesh or a mesh cloth.

Example 2

As shown in fig. 3, the same parts of the integrated energy-saving wall structure of heat preservation and structure constructed by using composite heat insulation material in the embodiment 2 as those in the embodiment 1 will not be repeated, and only the differences will be described. In this embodiment 2, the one end of connecting piece 6 supports by in the lateral surface of composite insulation board 1, and the other end of connecting piece 6 is buried underground between the horizontal piece of basic unit's wall body 2 and is connected with the horizontal lacing wire 21 of arranging in the horizontal piece in basic unit's wall body 2. Transverse tie bars 21 are arranged in the base layer wall body 2, the connecting piece 6 is connected with the transverse tie bars 21, and the connecting strength of the heat-preservation and structure-integrated energy-saving wall body structure constructed by adopting the composite heat-preservation material is further improved.

Example 3

As shown in fig. 4, the same parts of the energy-saving wall structure of the embodiment 3 as those of the embodiment 1 will not be repeated, and only the differences will be described. In this embodiment 3, the inorganic material layer has a containing cavity therein, and the other thermal insulation structure layer 11 is disposed in the containing cavity, so that the inorganic material layer completely covers the thermal insulation structure layer 11. Will be used for holding through holding the chamber and place insulation construction layer 11, the inorganic material layer will wrap in insulation construction layer 11's whole surface completely to reach better fire prevention requirement and to the physical properties index requirement of composite insulation board 1. Of course, in other embodiments, the number of the inorganic material layers is two, the number of the organic material layers is one, and the two inorganic material layers are respectively connected to the inner side and the outer side of the organic material layer.

The heat preservation and structure integrated energy-saving wall body structure constructed by adopting the composite heat preservation material further comprises a concrete guide wall 7, the concrete guide wall 7 is connected to the bottom of the inner side of the composite heat preservation plate 1, and the base layer wall body 2 is connected to the concrete guide wall 7. Through leading wall 7 setting in the below of basic unit's wall body 2 with the concrete, provide the benchmark with the installation of composite insulation board 1 when basic unit's wall body 2 is built by laying bricks or stones, further promoted the control that the both sides of adopting the heat preservation of composite insulation material construction and the energy-conserving wall body structure of structure integration are to the roughness requirement. Wherein, the concrete guide wall 7 is formed by pouring concrete in situ.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides an adopt heat preservation and energy-conserving wall structure of structure integration of composite insulation material construction, its characterized in that, it includes composite insulation board, inoxidizing coating, articulamentum, basic unit's wall body, boundary layer and a plurality of connecting piece, the boundary layer connect in the medial surface of basic unit's wall body, the articulamentum is located the lateral surface of basic unit's wall body with between the composite insulation board and with the lateral surface of basic unit's wall body with composite insulation board is connected, the inoxidizing coating connect in the composite insulation board dorsad one side of basic unit's wall body, composite insulation board is the composite insulation material that forms by the combination of the insulation structure layer more than two kinds or two kinds, the connecting piece passes the articulamentum, just the one end of connecting piece connect in composite insulation board, the other end of connecting piece bury underground and connect in between the horizontal piece of basic unit's wall body.

2. The insulation and construction integrated energy-saving wall structure constructed by adopting composite insulation materials as claimed in claim 1, wherein the insulation structure layer is an inorganic material layer or an organic material layer.

3. The integrated energy-saving wall structure with heat preservation and construction constructed by adopting the composite heat preservation material as claimed in claim 1, wherein two or more heat preservation structure layers comprise an organic material layer and an inorganic material layer, and the inorganic material layer is connected to one side of the organic material layer, which faces away from the substrate wall.

4. The integrated energy-saving wall structure with heat preservation and structure constructed by adopting the composite heat preservation material as claimed in claim 3, wherein the number of the inorganic material layers is two, and the two inorganic material layers are respectively connected to the inner side and the outer side of the organic material layer.

5. The insulation and construction integrated energy-saving wall structure constructed by adopting composite insulation materials as claimed in claim 3, wherein the inorganic material layer is provided with an accommodating cavity therein, and the other insulation structure layer is arranged in the accommodating cavity, so that the inorganic material layer is completely coated on the insulation structure layer.

6. The insulation and construction integrated energy-saving wall structure constructed by adopting the composite insulation material as claimed in claim 1, wherein the insulation and construction integrated energy-saving wall structure constructed by adopting the composite insulation material further comprises a first reinforcing mesh, the first reinforcing mesh is arranged on the side surface and/or inside of the composite insulation board, and the connecting piece is connected to the first reinforcing mesh;

and/or the protective layer comprises mortar and a second reinforcing net, the mortar is connected to the outer side surface of the composite insulation board, and the second reinforcing net is arranged in the mortar.

7. The integrated energy-saving wall structure with heat preservation and construction constructed by the composite heat preservation material as claimed in claim 1, wherein the integrated energy-saving wall structure with heat preservation and construction constructed by the composite heat preservation material further comprises a concrete guide wall, the concrete guide wall is connected to the bottom of the inner side of the composite heat preservation plate, and the base wall is connected to the concrete guide wall;

and/or one end of the connecting piece is abutted against the outer side face of the composite insulation board, and the other end of the connecting piece is connected with a transverse tie bar and/or masonry material in a transverse abutted seam in the base layer wall body.

8. The integrated energy-saving wall structure with heat preservation and structure constructed by adopting the composite heat preservation material as claimed in claim 1, wherein the basement wall body is internally provided with vertical columns;

and/or the base layer wall body is internally provided with a transverse wale.

9. The insulation and construction integrated energy-saving wall structure constructed by adopting the composite insulation material as claimed in claim 1, wherein the width of the connecting layer is not less than 10mm;

and/or an additional protective layer is arranged on one side of the composite heat-insulation plate, which is back to the connecting layer, and the protective layer is connected to the outer side surface of the additional protective layer.

10. The insulation and construction integrated energy-saving wall structure constructed by adopting the composite insulation material as claimed in claim 1, wherein the material of the insulation structure layer comprises one of extruded polystyrene board, molded polystyrene board, polyurethane board, vacuum insulation board, aerogel material, rubber powder polyphenyl particle insulation slurry, expanded perlite insulation slurry and aerated concrete insulation slurry;

and/or the base wall body comprises one or more of aerated concrete blocks, aerated concrete block bricks, ALC laths and shale sintered bricks.

Images