CN108316465B

CN108316465B - Wood structure modular energy-saving building

Info

Publication number: CN108316465B
Application number: CN201810116570.5A
Authority: CN
Inventors: 周海
Original assignee: Shanghai Hantai Steel Membrane Structure Construction Co ltd
Current assignee: Shanghai Hantai Steel Membrane Structure Construction Co ltd
Priority date: 2018-02-06
Filing date: 2018-02-06
Publication date: 2020-12-18
Anticipated expiration: 2038-02-06
Also published as: CN108316465A

Abstract

The invention discloses a modular energy-saving building with a wood structure, which comprises a base module and a plurality of wood box modules, wherein the wood box modules are arranged above the base module and are connected with the base module through connecting embedded parts; the wooden box module comprises a bottom surface module, a plurality of wall body modules and a top surface module, edge beams are arranged around the bottom surface module and the top surface module, the upper end and the lower end of the wall body module are respectively provided with an upper beam and a lower beam, the edge beams in the top surface module are connected with the upper beam in a clamped mode, and the edge beams in the bottom surface module are connected with the lower beam in a clamped mode. The modular energy-saving building with the wood structure has the advantages of simple modular construction technology, high assembly degree, low labor cost, capability of realizing large-scale production and better energy conservation.

Description

Wood structure modular energy-saving building

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a modular energy-saving building with a wood structure.

Background

The wood structure is widely applied to developed countries as an environment-friendly building, and in China, the wood structure building industry is still in an early development stage, and the technical content and the efficiency need to be improved from various links such as design, manufacture, construction and the like. At present, the wood structure building adopting the modularization technology is greatly popularized in China, most of the building is manufactured in factories, and only simple module assembly is carried out on the site. The design and manufacture idea modularization is combined with the wood structure, so that the wood has unique advantages, and from the material point of view, the wood is a natural renewable resource, the three wastes in the production process are less, and the wood has reliable mechanical and durable properties; from the design point of view, modularization, namely, using basic profiles of the component size as a basis to be coordinated with the prefabricated houses, the basic units of the timber structure building are prefabricated by using the module coordinate grid and the basic module values.

At present, the modular construction of the wood structure is rarely applied in China, and the technology of modular design and manufacture of the wood structure is not mature; in addition, in the process of manufacturing modular buildings in China, the energy-saving performance of the buildings is poor; meanwhile, as the wood material is used as a building material, the wood structure building material is easy to damp and go moldy due to poor moisture resistance and air permeability of the wood structure building in the prior art, and the service life of the wood structure modular building is shortened. Therefore, the existing wood structure modular building is still to be further improved.

Disclosure of Invention

The invention aims to solve the technical problems that the wood structure modular energy-saving building is simple in installation process, and meanwhile, the technical problems that the wood structure modular building in the prior art is poor in energy-saving performance and moisture-proof and air-permeable performance are solved.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides a timber structure modularization energy-saving building which characterized in that: the wood box body module is arranged above the base module and is connected with the base module through a connecting embedded part;

the wooden box module comprises a bottom surface module, a plurality of wall body modules and a top surface module, edge beams are arranged around the bottom surface module and the top surface module, the upper end and the lower end of the wall body module are respectively provided with an upper beam and a lower beam, the edge beams in the top surface module are connected with the upper beam in a clamped mode, and the edge beams in the bottom surface module are connected with the lower beam in a clamped mode.

Preferably, the wall module sequentially comprises an external wall plate, a middle partition plate, a constructional column and an internal wall plate from outside to inside, wherein the external wall plate, the middle partition plate, the constructional column and the internal wall plate are longitudinally arranged, and the constructional column and the internal wall plate and the middle partition plate as well as the middle partition plate and the external wall plate are respectively fixed through purlines; glass wool is arranged between the middle partition plate and the construction column, inside the construction column and between the construction column and the inner wall plate.

Preferably, one side of the middle partition board close to the external wall board is provided with a waterproof and breathable film; and one side of the constructional column, which is close to the inner wallboard, is provided with a waterproof vapor-barrier film.

Preferably, from top to bottom the bottom surface module includes horizontal inner wall board, structure roof beam and the bottom plate that sets up in proper order, it is fixed through the purlin respectively between structure roof beam and inner wall board and the bottom plate, be provided with the glass cotton between inner wall board and the structure roof beam, inside the structure roof beam and between structure roof beam and the bottom plate.

Preferably, one side of the inner wallboard, which is close to the construction beam, is provided with a waterproof and breathable film; and one side of the bottom plate, which is close to the construction beam, is provided with a waterproof vapor-barrier film.

Preferably, the bottom surface module is further including setting up the floor mat in interior wallboard top, it warms up to be provided with between floor mat and the interior wallboard.

Preferably, enclose between wooden box module and the basic module and become secret maintenance space, the bottom surface in secret maintenance space and all be provided with dampproofing heat preservation all around, be provided with dampproofing heat preservation on the contact surface of basic module and wooden box module.

Preferably, an exhaust fan is arranged in the underground overhaul space.

Preferably, the wall body module is provided with a sealing gasket on the contact surface side of the adjacent wooden box body modules, and the sealing gasket is composed of glass wool and a rubber coating layer coated on the outer side of the glass wool.

Preferably, wooden box module is provided with the flashing board, the flashing board sets up in the below of wooden box module.

The invention has the beneficial effects that:

according to the wood structure modular energy-saving building, the bottom surface module, the wall body module and the top surface module can be directly produced in a factory assembly line, and the base module can also be prefabricated in a factory and then transported to a field for assembly. The bottom surface module, the wall body module and the top surface module are inserted and connected to form a wooden box body module, and the wooden box body module and the base module are fixed by utilizing the connecting embedded parts, so that the wooden structure modularized building is constructed. The modular construction technology is simple, the assembly index is high, the labor cost is low, and the large-scale production can be realized;

secondly, the wooden box body module is of an energy-saving design, and the waterproof and breathable films are arranged in the wall body module and the bottom surface module, so that external rainwater can be prevented from permeating, internal water vapor can be guaranteed to be timely diffused out, the surface of the wooden box body module is prevented from dewing due to internal and external temperature difference, the waterproof and breathable films are arranged, the wooden box body module is guaranteed not to be dried and not to be rotten, the heat preservation effect of glass wool can be fully exerted, the growth of mildew is inhibited, and the quality of indoor air and the health of a human body are guaranteed;

moreover, the wall body module and the bottom surface module are internally provided with waterproof vapor-proof films, and in summer, the waterproof vapor-proof films can prevent water vapor in outside hot air from entering a room; in winter, the waterproof and steam-proof film can also prevent the water vapor in indoor hot air from diffusing outwards, so that a good indoor air-conditioning heating environment is maintained, the heat preservation effect is fully played, and the energy-saving effect is further improved;

and finally, a ventilator is arranged in the underground maintenance space, and the ventilator draws air outwards to keep the negative pressure in the underground maintenance space, so that radon gas and humid gas in the ground soil are prevented from upwards permeating into the room, and the health and safety of human bodies are further ensured.

Drawings

Fig. 1 is a schematic structural view of a modular energy-saving building of a wood structure in embodiment 1;

fig. 2 is an assembly schematic diagram of a bottom surface module, a wall body module and a top surface module in embodiment 1;

FIG. 3 is a schematic view showing a connection structure of a wood box module and a base module in embodiment 1;

FIG. 4 is a schematic view of a horizontally arranged wooden case module;

FIG. 5 is a schematic view of a connection structure of wood box modules arranged in a horizontal direction;

FIG. 6 is a schematic view showing a coupling structure of wood box modules arranged in a horizontal and vertical direction;

FIG. 7 is a schematic view showing a connection structure of wall modules in the wooden case module according to example 1;

FIG. 8 is a schematic view showing a connection structure of bottom surface modules in the wood chest module according to example 1;

reference number in the figure, 1-base module; 2-bottom module, 2.1-inner wall board, 2.2-structural beam, 2.3-bottom board, 2.4-floor mat, 2.5-floor heating; 3-wall module, 3.1-external wall panel, 3.2-intermediate partition board, 3.3-constructional column, 3.4-internal wall panel, 3.5-waterproof vapor-permeable membrane, 3.6-waterproof vapor-barrier membrane; 4-a top surface module; 5-edge beam, 5.1-edge beam bump; 6-upper beam, 6.1-upper beam groove; 7-lower beam, 7.1-lower beam groove; 8-corner embedded parts; 9-connecting embedded parts; 10-sealing pad, 10.1-glass wool, 10.2-rubber coating layer; 11-a connector; 12-purlin; 13-an air layer; 14-moisture-proof insulating layer; 15-an exhaust fan; 16-flashing board; 17-glass wool; 100-wooden case module; a-underground overhaul space.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

a modular energy-saving building with a wood structure is shown in figures 1-3 and comprises a base module 1 and a wood box body module 100, wherein the wood box body module 100 is arranged above the base module 1, and the wood box body module 100 and the base module 1 are fixed through a connecting embedded part 9. In order to ensure the structural strength of the foundation module, in this embodiment, the foundation module is cast of concrete. The wooden box body module 100 comprises a

bottom surface module

2, 4 wall body modules 3 and a top surface module 4, wherein edge beams 5 are arranged around the bottom surface module 2 and the top surface module 4, and edge beam bumps 5.1 are arranged in the edge beams 5; the upper end and the lower end of the wall body module 3 are respectively provided with an upper beam 6 and a lower beam 7, an upper beam groove 6.1 and a lower beam groove 7.1 which are matched and clamped with the boundary beam lug 5.1 are respectively arranged in the upper beam 6 and the lower beam 7, the boundary beam lug 5.1 in the top surface module is clamped with the upper beam groove 6.1 in the wall body module, the boundary beam lug 5.1 in the bottom surface module is clamped with the lower beam groove 7.1 in the wall body module, and therefore the wall body module 3, the top surface module 4 and the bottom surface module 2 are fixed. The adjacent wall modules 3 positioned at the corners are fixedly connected through corner embedded parts 8; the corner embedded part 8 is embedded into the foundation module 1 and fixed with the foundation module 1.

It should be noted that a plurality of wood case modules 100 may be provided. As shown in fig. 4 and 5, a plurality of wood box modules 100 may be arranged in a horizontal direction, and adjacent wood box modules 100 are fixed by a connecting embedded part 9, and the connecting embedded part 9 is embedded in the base module 1 and fixed with the base module 1. In order to ensure the sealing performance between the wood box modules 100, a sealing gasket 10 is arranged on the wall module 3 on the contact surface side of the adjacent wood box modules 100, wherein the sealing gasket 10 is composed of glass wool 10.1 and a rubber coating layer 10.2 coated on the outer side of the glass wool. In addition, a plurality of wood box modules 100 may be arranged in a vertical direction, as shown in fig. 6, and two upper and lower wood box modules 100 are fixedly connected to each other by a connecting member 11.

In this embodiment, as shown in fig. 7, the wall module 3 sequentially includes an external wall panel 3.1, a middle partition panel 3.2, a structural column 3.3, and an internal wall panel 3.4, which are longitudinally arranged from outside to inside. The external wall panel 3.1, the constructional column 3.3 and the internal wall panel 3.4 are all made of wood materials, and the intermediate partition 3.2 is made of a moisture-proof inorganic plate. One side of the middle partition plate 3.2 close to the external wall panel is provided with a waterproof and breathable film 3.5; one side of the constructional column 3.3, which is close to the inner wall plate 3.4, is provided with a waterproof vapor-proof membrane 3.6. The constructional column 3.3 and the inner wall plate 3.4 and the middle partition plate 3.2 as well as the middle partition plate 3.2 and the outer wall plate 3.1 are respectively fixed through purlines 12; glass wool 17 is arranged between the middle partition 3.2 and the constructional column 3.3, inside the constructional column 3.3 and between the constructional column 3.3 and the inner wall plate 3.4. Due to the existence of the purlins, gaps are formed between the middle partition plate and the constructional column and between the constructional column and the inner wall plate, and the sealing and heat-insulating properties of the wall body module can be ensured by filling the gaps with glass wool; an air layer 13 is reserved between the middle partition board and the external wall board and is communicated with the atmosphere of the outer layer, so that the moist air can be quickly dispersed.

In this embodiment, as shown in fig. 8, the bottom module 2 sequentially includes an inner wall plate 2.1, a structural beam 2.2, and a bottom plate 2.3, which are transversely disposed from top to bottom. The inner wall board 2.1 and the construction beam 2.2 are both made of wood materials, and the bottom board 2.3 is made of moisture-proof inorganic boards. One side of the inner wallboard 2.1 close to the construction beam 2.2 is provided with a waterproof and breathable film 3.5; the side of the bottom plate 2.3 close to the construction beam 2.2 is provided with a waterproof vapor-barrier film 3.6. The structural beam 2.2, the inner wall plate 2.1 and the bottom plate 2.3 are fixed through purlins 12, and glass wool 17 is arranged at gaps among the inner wall plate 2.1, the structural beam 2.2 and the bottom plate 2.3. The effect of arranging the glass wool at the position is consistent with the effect of arranging the glass wool in the wall body module. In order to further improve indoor ambient temperature, bottom surface module 2 still including set up in the floor mat 2.4 of interior wallboard top, is provided with ground between floor mat 2.4 and interior wallboard 2.1 and warms up 2.5.

It should be noted that the waterproof and steam-proof films are arranged in the wall module and the bottom module to maintain a good indoor heating environment. In summer, the waterproof vapor-proof film can prevent the water vapor in the outside hot air from entering the room; in winter, the waterproof vapor-proof film can also prevent water vapor in indoor hot air from diffusing outwards, the indoor environment temperature change is small, higher indoor comfort level is guaranteed, human health is facilitated, and the energy-saving effect is further improved.

Set up waterproof ventilative membrane in wall body module and bottom surface module, can prevent outside rainwater infiltration, can also guarantee simultaneously that inside vapor in time distributes away, prevents that the inside and outside difference in temperature from causing wooden box module surface frosting, sets up waterproof ventilative membrane and both guaranteed that wooden box module is dry can not be rotten, guarantees again that the cotton heat preservation effect of full play of glass, inhibits the growth of mould, guarantees the quality and the health of indoor air.

In this embodiment, an underground maintenance space a is formed between the wooden box module 100 and the base module 1, and the bottom surface and the periphery of the underground maintenance space a are provided with the moisture-proof insulating layer 14. The moisture-proof heat-insulating layer is arranged to isolate moisture, microorganisms and mould in soil and has a heat-insulating effect on the underground overhaul space; the contact surface of the foundation module 1 and the wooden box body module 100 is also provided with a moisture-proof heat-insulating layer 14, so that the moisture can be prevented from eroding the wooden box body module after passing through the concrete foundation module, and the energy-saving effect is improved.

In this embodiment, an exhaust fan 15 is provided inside the underground maintenance space a. The ventilator is arranged in the underground maintenance space A, the ventilator draws air outwards to keep the negative pressure in the underground maintenance space, radon gas and humid gas in ground soil are further prevented from upwards permeating into a room, and the health and safety of human bodies are further guaranteed.

In order to drain the wooden case module in time, the wooden case module 100 is further provided with a flashing plate 16. Specifically, the flashing 16 is disposed below the wooden case module 100.

In the embodiment, the wall body module and the bottom surface module are both in energy-saving design, and the comprehensive U values of the wall body module and the bottom surface module are both less than 0.1W/m²K, the energy saving effect is better.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. The utility model provides a timber structure modularization energy-saving building which characterized in that: the wood box body module is arranged above the base module and is connected with the base module through a connecting embedded part;

the wooden box body module comprises a bottom surface module, a plurality of wall body modules and a top surface module, wherein edge beams are arranged around the bottom surface module and the top surface module, the upper end and the lower end of the wall body module are respectively provided with an upper beam and a lower beam, the edge beams in the top surface module are clamped with the upper beam, and the edge beams in the bottom surface module are clamped with the lower beam to fix the wall body module with the top surface module and the bottom surface module;

sealing gaskets are arranged on the wall body module, the top surface module and the bottom surface module on the contact surface sides of the adjacent wooden box body modules, and each sealing gasket is composed of glass wool and a rubber coating layer coated on the outer side of the glass wool;

the wooden box body module is directly processed and constructed in a factory, and the wooden box body module is prefabricated and decorated on the inner part and the outer wall in the factory; the wall body module sequentially comprises an external wall plate, a middle partition plate, a constructional column and an internal wall plate from outside to inside, wherein the external wall plate, the middle partition plate, the constructional column and the internal wall plate are longitudinally arranged, and the constructional column and the internal wall plate and the middle partition plate as well as the middle partition plate and the external wall plate are respectively fixed through purlins; glass wool is arranged between the middle partition plate and the constructional column, inside the constructional column and between the constructional column and the inner wall plate;

one side of the middle partition board close to the external wall board is provided with a waterproof and breathable film; one side of the constructional column, which is close to the inner wall plate, is provided with a waterproof vapor-barrier film, an effective air layer structure is formed by utilizing purlines, the air layer structure is integrated into a wall module in factory manufacturing, and the waterproof breathable film is bidirectional breathable.

2. The modular energy saving building with wood structure as claimed in claim 1, wherein: from top to bottom the bottom surface module includes horizontal inner wall board, structure roof beam and the bottom plate that sets up in proper order, it is fixed through the purlin between structure roof beam and inner wall board and the bottom plate respectively, be provided with the glass cotton between inner wall board and the structure roof beam, inside the structure roof beam and between structure roof beam and the bottom plate.

3. The modular energy saving building with wood structure as claimed in claim 2, wherein: one side of the inner wallboard, which is close to the structural beam, is provided with a waterproof and breathable film; and one side of the bottom plate, which is close to the construction beam, is provided with a waterproof vapor-barrier film.

4. The modular energy saving building with wood structure as claimed in claim 3, wherein: the bottom surface module is still including setting up the floor mat in wallboard top in, it warms up to be provided with between floor mat and the interior wallboard.

5. The modular energy saving building with wood structure as claimed in claim 1, wherein: enclose between wooden box module and the basic module and become secret maintenance space, the bottom surface in secret maintenance space and all be provided with dampproofing heat preservation all around, be provided with dampproofing heat preservation on the contact surface of basic module and wooden box module.

6. The modular energy saving building with wood structure as claimed in claim 5, wherein: an exhaust fan is arranged in the underground overhaul space.

7. The modular energy saving building with wood structure as claimed in claim 1, wherein: wooden box module is provided with the flashing board, the flashing board sets up in the below of wooden box module.