CN114059678A - Heat-bridge-free composite wood structure heat insulation system and installation method thereof - Google Patents

Abstract

The invention discloses a heat-bridge-free composite wood structure heat-insulation system which comprises an outer wall enclosure structure, a roof enclosure structure and a ground enclosure structure which are all wood structures, wherein aerogel felts are paved in the outer wall enclosure structure, the roof enclosure structure, the ground enclosure structure and the connection part of the ground enclosure structure and a ground foundation, and the aerogel felts among the outer wall enclosure structure, the roof enclosure structure and the ground enclosure structure are mutually staggered, lapped and connected in series to form a heat-bridge-free connection; the novel flexible, heat-insulating, fireproof and waterproof energy-saving low-carbon aerogel felt is utilized to carry out heat-insulating, seamless series connection and full wrapping on an outer wall enclosure structure, a roof enclosure structure and a ground enclosure structure of a wood structure, heat-bridge-free connection is realized, a novel low-carbon and energy-saving composite wood structure heat-insulating system is formed, the heat loss of a building is reduced, and the energy-saving rate of the building is improved.

Description

Heat-bridge-free composite wood structure heat insulation system and installation method thereof

Technical Field

The invention relates to the field of building energy conservation, in particular to a heat-bridge-free composite wood structure heat-insulation system and an installation method thereof.

Background

The building heat preservation is an important component in the building and is the most key ring in realizing green, low-carbon and low-energy-consumption buildings. The traditional reinforced concrete building needs to consume a large amount of natural resources and energy in the process of construction and use, and is also one of the main sources of greenhouse gas emission. The wood is used as a building material, can be regenerated without human input of energy, can absorb carbon dioxide and release oxygen to achieve the carbon fixation effect in the growth process, and has the advantages of sound absorption, sound insulation, heat preservation and the like, and is environment-friendly. Although the wood structure has the functions of heat preservation and the like, the wood structure can not meet the existing energy-saving standard only by the self heat preservation performance, and particularly, an additional heat preservation measure needs to be added to a low-energy-consumption and low-carbon building system with higher requirements. At present, the commonly used wood structure heat insulation material comprises glass wool or rock wool, but the glass wool and the rock wool both belong to materials harmful to human bodies, and are not suitable for continuous use under the background of the great times of green buildings, green materials and green development.

Disclosure of Invention

In view of the above, the present invention provides a thermal-bridge-free thermal insulation system with a composite wood structure and an installation method thereof, which utilize the characteristic of flexibility of aerogel felt to realize the thermal-bridge-free thermal insulation system with the composite wood structure, reduce building heat loss, and improve building energy saving rate.

The invention relates to a heat-bridge-free composite wood structure heat-insulation system which comprises an outer wall enclosure structure, a roof enclosure structure and a ground enclosure structure which are all wood structures, wherein aerogel felts are paved in the outer wall enclosure structure, the roof enclosure structure, the ground enclosure structure and the connection part of the ground enclosure structure and a ground foundation, the aerogel felts among the outer wall enclosure structure, the roof enclosure structure and the ground enclosure structure are mutually staggered, lapped and connected in series to form heat-bridge-free connection, and the aerogel felts are formed by compounding nano porous silica aerogel and inorganic fiber materials;

further, the exterior wall enclosure structure comprises an exterior wall wood hanging plate, an exterior wall plate keel, a wall unidirectional breathing paper, an exterior wall oriented structure shaving board, an interior wall oriented structure shaving board, a wall keel, an interior wall decoration panel and a wall gypsum board which are sequentially connected by a fixing component along the interior of the exterior wall, and a wall surface aerogel felt is laid between the exterior wall oriented structure shaving board and the interior wall oriented structure shaving board;

further, the wall keel comprises a wall main keel and a wall secondary keel which are vertically arranged in parallel and used for fixing a shaving board with an oriented structure in a wall, a wall transverse keel and a wall transverse lower keel which are used for supporting the wall secondary keel and assisting in the series connection of aerogel felts, the wall main keel is fixed on a ground foundation through a connecting piece and an anchoring sleeve, and a sleeve aerogel felt pad is laid between the wall main keel and the anchoring sleeve;

further, the roof enclosure structure comprises a roof keel, a roof gypsum board and a roof interior decoration panel which are hung below the roof keel, and a roof internal directional structure shaving board, a roof external directional structure shaving board, a roof unidirectional breathing paper, a roof wallboard keel and a roof external wood hanging plate which are supported upwards by the roof keel, wherein a roof aerogel felt is laid between the roof internal directional structure shaving board and the roof external directional structure shaving board;

further, the ground enclosing structure comprises a leveling layer positioned on the foundation, a ground aerogel felt laid on the leveling layer and a ground keel arranged on the ground aerogel felt, and an indoor floor is laid on the ground keel;

further, the whole upper portion space that passes the horizontal fossil fragments of wall body of roofing aerogel felt and establishes ties with the crisscross overlap joint of wall aerogel felt, the whole lower part space that passes the horizontal lower keel of wall body of wall aerogel felt and establishes ties with the crisscross overlap joint of ground aerogel felt.

The installation method of the thermal insulation system with the non-heat-bridge composite wood structure comprises the following steps:

a. the heat insulation system is integrally and externally moved out of the wall main keel, the roof keel and the floor keel through the hierarchical structures of the wall main keel and the shaving board with the wall internal orientation structure, the roof keel and the shaving board with the roof internal orientation structure and the floor keel and the indoor floor;

b. the integral roof aerogel felt penetrates through the upper space of the transverse keel of the wall body and is in staggered lap joint with the wall surface aerogel felt for series connection;

c. the wall surface aerogel felt integrally penetrates through the lower space of the transverse lower keel of the wall body and is in staggered lap joint with the ground surface aerogel felt to be connected in series;

d. the aerogel felt is paved in a staggered manner, the joint of the outer wall enclosure structure and the roof enclosure structure outer wall enclosure structure and the ground enclosure structure is avoided at the staggered joint, and the fixing component is used for reinforcing the staggered joint of the aerogel felt.

The invention has the beneficial effects that: the invention discloses a heat-bridge-free composite wood structure heat-insulation system and an installation method thereof, wherein a brand-new flexible, heat-insulation, heat-preservation, fireproof and waterproof energy-saving low-carbon aerogel felt is used for carrying out heat-preservation, seamless series connection and full wrapping on an outer wall enclosure structure, a roof enclosure structure and a ground enclosure structure of a wood structure, so that heat-bridge-free connection is realized, a brand-new low-carbon and energy-saving composite wood structure heat-insulation system is formed, the heat loss of a building is reduced, and the energy-saving rate of the building is improved.

Drawings

The invention is further described below with reference to the following figures and examples:

fig. 1 is a schematic view of an overall framework of a thermal insulation system of a composite wood structure without a thermal bridge according to the present invention.

Fig. 2 is a cross-sectional view of fig. 1 of a composite wood structure insulation system without a thermal bridge in accordance with the present invention.

Fig. 3 is a partial view of the connection between the main wall keel and the foundation of fig. 2 in a composite wood structure thermal insulation system without a heat bridge according to the invention.

Fig. 4 is a plan view of fig. 2 of a composite wood structure insulation system without a thermal bridge in accordance with the present invention.

Detailed Description

The thermal insulation system of the heat-bridge-free composite wood structure comprises an outer wall enclosure structure 18, a roof enclosure structure 17 and a ground enclosure structure 19 which are all wood structures, wherein aerogel felts are laid in the outer wall enclosure structure 18, the roof enclosure structure 17, the ground enclosure structure 19 and the joint of the ground enclosure structure 19 and a ground foundation 13, the aerogel felts among the outer wall enclosure structure 18, the roof enclosure structure 17 and the ground enclosure structure 19 are mutually staggered, lapped and connected in series to form heat-bridge-free connection, and the aerogel felts are formed by compounding nano porous silica aerogel and inorganic fiber materials; the novel flexible, heat-insulating, fireproof and waterproof energy-saving low-carbon aerogel felt is utilized to carry out heat-insulating, seamless series connection and full wrapping on the outer wall enclosure structure 18, the roof enclosure structure 17 and the ground enclosure structure 19 of the wood structure, heat-bridge-free connection is realized, a novel low-carbon and energy-saving composite wood structure heat-insulating system is formed, the heat loss of the building is reduced, and the energy-saving rate of the building is improved.

In the embodiment, the exterior wall enclosure structure 18 comprises an exterior wood hanging plate 1, an exterior wall plate keel 2, a wall unidirectional breathing paper 3, a wall exterior oriented structure shaving board 4, a wall interior oriented structure shaving board 8, a wall keel, a wall interior decoration panel 16 and a gypsum board 6 which are connected by a fixing component 7 in sequence along the interior of the exterior wall, and a wall surface aerogel felt 5 is laid between the wall exterior oriented structure shaving board 4 and the wall interior oriented structure shaving board 8; the wall body interior decoration panel 16, the wall body exterior wood hanging plate 1, the exterior wall panel keel 2 and the wall body keel are all made of wood materials, and all layers are connected by adopting the fixing component 7.

In the embodiment, the wall keels comprise a wall main keel 9 and a wall secondary keel 25 which are vertically arranged in parallel and used for fixing a shaving board 8 of an oriented structure in a wall, and a wall transverse keel 24 and a wall transverse keel 26 which are used for supporting the wall secondary keel 25 and an auxiliary wall aerogel felt 5 in series, wherein the wall main keel 9 is fixed on a ground foundation 13 through a connecting piece 21 and an anchoring sleeve, and a sleeve aerogel felt pad 22 is laid between the wall main keel 9 and the anchoring sleeve 23; the main wall keel 9 is internally connected with a gypsum board 6 and an interior decoration panel 16, and is externally connected with an oriented structure flakeboard 8 in the wall, a wall aerogel felt 5, an oriented structure flakeboard 4 outside the wall, one-way breathing paper 3 in the wall, an exterior wallboard keel 2 and an exterior wood hanging plate 1. The wall main keel 9, the wall transverse keel 24, the wall transverse keel 26 and the wall secondary keel 25 are all made of wood.

In this embodiment, the roof enclosure structure 17 includes a roof keel 14, a roof gypsum board 6' hung below the roof keel 14, a roof interior decoration panel 16', a roof interior directional structure shaving board 8' supported upward by the roof keel 14, a roof exterior directional structure shaving board 4', a roof unidirectional breathing paper 3', a roof wallboard keel 2' and a roof exterior wood hanging board 1', and a roof aerogel felt 15 is laid between the roof interior directional structure shaving board 8' and the roof exterior directional structure shaving board 4 '; the layers are connected using a fixing member 7.

In this embodiment, the ground enclosure 19 includes a leveling layer on the foundation 13, a ground aerogel felt 12 laid on the leveling layer, and a ground keel 11 arranged on the ground aerogel felt 12, and the indoor floor 10 is laid on the ground keel 11; leveling the foundation of the bottommost layer, paving the ground aerogel felt 12 on the foundation, arranging the ground keel 11 for reinforcement, and connecting the layers by adopting the fixing component 7. The ground keel 11 is of wood material.

In this embodiment, the whole roof aerogel felt 15 passes through the upper space of the transverse wall keel 24 and is connected in series with the wall aerogel felt 5 in a staggered and overlapped manner, and the whole wall aerogel felt 5 passes through the lower space of the transverse wall keel 26 and is connected in series with the ground aerogel felt 12 in a staggered and overlapped manner. The fixing member 7 is a gas nail, the ground foundation 13 is concrete, and the connecting sleeve and the anchoring sleeve are made of metal products.

The installation method of the thermal insulation system with the non-heat-bridge composite wood structure comprises the following steps:

a. the heat insulation system is integrally and externally moved out of the wall main keel 9, the roof keel 14 and the floor keel 11 through the hierarchical structure of the wall main keel 9, the wall internal oriented structure shaving board 8, the roof keel 14, the roof internal oriented structure shaving board 8' and the floor keel 11 and the indoor floor 10;

b. the roof aerogel felt 15 integrally penetrates through the upper space of the transverse keel 24 of the wall body and is in staggered lap joint with the wall surface aerogel felt 5 to be connected in series;

c. the wall surface aerogel felt 5 integrally penetrates through the space below the transverse lower keel 26 of the wall body and is in staggered lap joint with the ground surface aerogel felt 12 to be connected in series;

d. the aerogel felt is paved in a staggered mode, the joint of the outer wall building envelope 18 and the roof building envelope 17, the outer wall building envelope 18 and the ground building envelope 19 is avoided at the staggered joint, and the fixing component 7 is used for reinforcing the staggered joint of the aerogel felt.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (7)

1. The utility model provides a no hot bridge composite wood structure heat preservation system which characterized in that: the thermal bridge-free building structure comprises an outer wall enclosure structure, a roof enclosure structure and a ground enclosure structure which are all wood structures, aerogel felts are laid in the outer wall enclosure structure, the roof enclosure structure, the ground enclosure structure and the joint of the ground enclosure structure and a ground foundation, the aerogel felts among the outer wall enclosure structure, the roof enclosure structure and the ground enclosure structure are mutually staggered, lapped and connected in series to form a thermal bridge-free connection, and the aerogel felts are formed by compounding nano porous silica aerogel and an inorganic fiber material.

2. The non-thermal bridge composite wood structure insulation system according to claim 1, wherein: the exterior wall enclosure structure comprises an exterior wall body exterior wood hanging plate, an exterior wall plate keel, wall body one-way breathing paper, an exterior wall body oriented structure shaving board, an interior wall body oriented structure shaving board, a wall body keel, an interior wall body decorative panel and a wall body gypsum board which are sequentially connected through fixing members, wherein a wall surface aerogel felt is laid between the exterior wall body oriented structure shaving board and the interior wall body oriented structure shaving board.

3. The non-thermal bridge composite wood structure insulation system according to claim 2, wherein: the wall body fossil fragments include vertical wall body main joist and the wall body secondary joist that is used for fixed wall body internal orientation structure shaving board that sets up side by side, be used for supporting wall body secondary joist and supplementary horizontal fossil fragments of wall body and the horizontal lower keel of wall body that aerogel felt established ties, wall body main joist is fixed in ground basis through connecting piece and anchor sleeve, sleeve aerogel felt-pad has been laid between wall body main joist and the anchor sleeve.

4. The non-thermal bridge composite wood structure insulation system according to claim 2, wherein: the roof enclosure structure comprises a roof keel, a roof gypsum board and a roof interior decoration panel which are hung below the roof keel, and a shaving board with an oriented structure in the roof, a shaving board with an oriented structure outside the roof, one-way breathing paper for the roof, a keel of a roof wallboard and a wood hanging board outside the roof, wherein the shaving board with the oriented structure in the roof and the shaving board with the oriented structure outside the roof are upwards supported by the roof keel, and a roof aerogel felt is laid between the shaving board with the oriented structure in the roof and the shaving board with the oriented structure outside the roof.

5. The heat-bridge-free composite wood structure insulation system according to claim 4, wherein: the ground enclosing structure comprises a leveling layer on a foundation, a ground aerogel felt laid on the leveling layer and a ground keel arranged on the ground aerogel felt, wherein an indoor floor is laid on the ground keel.

6. The non-thermal bridge composite wood structure insulation system according to claim 5, wherein: the roof aerogel felt integrally penetrates through the upper space of the transverse keel of the wall body and is connected in series with the wall aerogel felt in a staggered and overlapped mode, and the wall aerogel felt integrally penetrates through the lower space of the transverse lower keel of the wall body and is connected in series with the ground aerogel felt in a staggered and overlapped mode.

7. The method of installing a thermal bridge-free composite wood structure insulation system according to claim 1, wherein: the method comprises the following steps:

a. the heat insulation system is integrally and externally moved out of the wall main keel, the roof keel and the floor keel through the hierarchical structures of the wall main keel and the shaving board with the wall internal orientation structure, the roof keel and the shaving board with the roof internal orientation structure and the floor keel and the indoor floor;

b. the integral roof aerogel felt penetrates through the upper space of the transverse keel of the wall body and is in staggered lap joint with the wall surface aerogel felt for series connection;

c. the wall surface aerogel felt integrally penetrates through the lower space of the transverse lower keel of the wall body and is in staggered lap joint with the ground surface aerogel felt to be connected in series;

d. the aerogel felt is paved in a staggered manner, the joint of the outer wall enclosure structure and the roof enclosure structure outer wall enclosure structure and the ground enclosure structure is avoided at the staggered joint, and the fixing component is used for reinforcing the staggered joint of the aerogel felt.

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