CN220318846U

CN220318846U - Energy-saving building wall

Info

Publication number: CN220318846U
Application number: CN202320997371.6U
Authority: CN
Inventors: 练建平; 蔡志龙; 赵博宇; 陈建东; 邓琛; 向文浩; 邓流沙; 蒙亮灼
Original assignee: Shenzhen Shenan Enterprise Co ltd
Current assignee: Shenzhen Shenan Enterprise Co ltd
Priority date: 2023-04-25
Filing date: 2023-04-25
Publication date: 2024-01-09
Anticipated expiration: 2033-04-25

Abstract

The application relates to an energy-conserving building wall, it includes the wall body, the wall body includes side fascia, interior wallboard and intermediate layer, side fascia and interior wallboard pass through a plurality of connecting plate fixed connection, the intermediate layer is inserted and is located between side fascia and the interior wallboard, the intermediate layer is including the first heated board, acoustic celotex board and the second heated board that set gradually, first heated board is close to the side fascia, bond through the adhesive between first heated board and the acoustic celotex board, also bond through the adhesive between acoustic celotex board and the second heated board. Through above-mentioned technical scheme, first heated board and second heated board cooperation keep indoor temperature's invariable, reduce the required energy consumption of indoor temperature that maintains, and the acoustic celotex board can reduce external noise.

Description

Energy-saving building wall

Technical Field

The application relates to the field of building walls, in particular to an energy-saving building wall.

Background

The Chinese patent with the patent number of CN2016201223923 provides an energy-saving building wall body, which comprises an inner wall body and an outer wall body with the same thickness, wherein a conveying pipe is arranged on the upper side between the inner wall body and the outer wall body, a plurality of heat insulation branch pipes are arranged on the conveying pipe and are distributed at equal intervals on the conveying pipe, a first sound insulation layer is arranged at the central position inside the inner wall body, a second sound insulation layer is arranged at the central position inside the outer wall body, and the thicknesses of the first sound insulation layer and the second sound insulation layer are the same.

Through the technical scheme, the solar water heater on the roof in winter conveys hot water to the space between the inner wall body and the outer wall body through the conveying pipe and the heat preservation branch pipe, so that the heat preservation of the whole wall body can be realized, and meanwhile, the sound insulation layer can also effectively reduce the interference of external noise. But the heat preservation performance of this wall body only is applicable to winter, only can aggravate indoor temperature and rise in summer, influences resident family's living experience, and the water pipe in the wall body once takes place to damage simultaneously and is inconvenient for maintenance, also can cause a large amount of water waste.

Disclosure of Invention

In order to improve the energy conservation of the wall body and the living comfort of households, the application provides an energy-saving building wall body.

The application provides an energy-conserving building wall adopts following technical scheme:

the utility model provides an energy-conserving building wall, includes the wall body, the wall body includes side fascia, interior wallboard and intermediate layer, side fascia and interior wallboard pass through a plurality of connecting plate fixed connection, the intermediate layer is inserted between side fascia and the interior wallboard, the intermediate layer is including the first heated board, acoustic celotex board and the second heated board that set gradually, first heated board is close to the side fascia, bond through the adhesive between first heated board and the acoustic celotex board, also bond through the adhesive between acoustic celotex board and the second heated board.

By adopting the technical scheme, when the weather is cold, the first heat-insulating plate can effectively lock indoor hot air, so that heating energy consumption is reduced, the second heat-insulating plate can further strengthen the heat-insulating function and simultaneously block cold air outside, and further, the heating energy consumption is reduced, so that the purposes of energy conservation and emission reduction are achieved; when the heat is hot, the first heat preservation board can lock the cold air that indoor refrigeration plant produced, reduces the giving off of cold air, and the second heat preservation board can block hot outside air outside, reduces indoor refrigeration required energy consumption through powerful heat preservation ability, and the acoustic celotex board also can reduce external noise well, provides a comfortable living environment for the user.

Optionally, be provided with first division board between first heated board and the side fascia, be provided with the second division board between second heated board and the interior wallboard, connect through a plurality of fixed springs between first division board and the side fascia, connect through a plurality of connecting rods between second division board and the interior wallboard, the clearance between first division board and the second division board is less than the thickness of intermediate layer.

Through adopting above-mentioned technical scheme, operating personnel accessible extrusion first division board inserts the intermediate layer to accomplish the installation to the intermediate layer, fixed spring can provide elasticity and second division board cooperation centre gripping intermediate layer to first division board, thereby make wall body inner structure more stable.

Optionally, a first filling cavity is arranged between the first partition plate and the external wall plate, cement is filled in the first filling cavity, a second filling cavity is arranged between the second partition plate and the internal wall plate, and cement is also filled in the second filling cavity.

Through adopting above-mentioned technical scheme, pour cement into first filling cavity and second filling cavity, the holistic structural strength of wall body can be improved to the cement after the solidification, and then improves the security of wall body.

Optionally, an antibacterial film is arranged on the side wall of the inner wallboard far away from the second heat insulation board.

By adopting the technical scheme, the antibacterial film can reduce the possibility of mildew on the surface of the inner wallboard caused by factors such as humidity and the like indoors, and prolong the service life of the wall body.

Optionally, the side wall of the first heat-insulating plate, which is close to the external wall panel, is provided with a waterproof coating, and the side wall of the second heat-insulating plate, which is close to the internal wall panel, is also provided with a waterproof coating.

Through adopting above-mentioned technical scheme, can prevent that the steam infiltration in the cement from leading to the fact the destruction to the heated board to the intermediate layer when the cementing.

Optionally, the side wall of the external wall board far away from the first heat insulation board is provided with a waterproof film.

Through adopting above-mentioned technical scheme, the water vapor such as waterproof membrane can prevent external rainwater dew corrodes the wall body, improves the life of wall body.

Optionally, a thermal insulation coating is arranged on one side of the waterproof film far away from the external wall panel.

By adopting the technical scheme, the thermal insulation coating can effectively block, reflect and radiate near infrared heat irradiated by sunlight, so that the indoor temperature is not affected by the interference of external factors.

Optionally, a wear-resistant layer is arranged on one side of the thermal insulation coating away from the external wall panel.

Through adopting above-mentioned technical scheme, the surface structure of side fascia can be reinforceed to the wearing and tearing of wall body can be slowed down to resist external debris collision and sand blown by wind etc. to, and then the whole life of wall body is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the weather is cold, the first heat preservation plate can effectively lock indoor hot air, heating energy consumption is reduced, the second heat preservation plate can further strengthen the heat preservation function and simultaneously can block cold air outside, and further heating energy consumption is reduced to achieve the purposes of energy conservation and emission reduction;

2. an operator can insert the interlayer by extruding the first partition plate, so that the installation of the interlayer is completed, and the fixed spring can provide elasticity for the first partition plate and clamp the interlayer by matching with the second partition plate, so that the internal structure of the wall body is more stable;

drawings

Fig. 1 is a schematic structural view showing the overall structure of the present application.

Fig. 2 is a schematic view of a wall structure displayed by a hidden part of the connection board.

Fig. 3 is a schematic view of the structure of the interior of the wall body shown after the cement is hidden in the present application.

Reference numerals illustrate: 1. a wall body; 11. an external wall panel; 12. an inner wall panel; 13. an interlayer; 131. a first heat-retaining plate; 132. a sound insulation board; 133. a second insulation board; 14. a first filled cavity; 15. a second filling cavity; 16. a connecting plate; 2. a first partition plate; 21. a fixed spring; 3. a second partition plate; 31. a connecting rod; 4. cement; 5. an antibacterial film; 6. a waterproof coating; 7. a waterproof membrane; 8. a thermal barrier coating; 9. and a wear-resistant layer.

Detailed Description

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

The embodiment of the application discloses an energy-saving building wall.

Referring to fig. 1 and 2, an energy-saving building wall comprises a wall body 1, wherein the wall body 1 comprises an outer wall plate 11, an inner wall plate 12 and an interlayer 13, the outer wall plate 11 and the inner wall plate 12 are fixedly connected through a plurality of connecting plates 16, the interlayer 13 is inserted between the outer wall plate 11 and the inner wall plate 12, the interlayer 13 comprises a first heat insulation plate 131, a sound insulation plate 132 and a second heat insulation plate 133 which are sequentially arranged, the first heat insulation plate 131 is close to the outer wall plate 11, the first heat insulation plate 131 and the sound insulation plate 132 are bonded through an adhesive, and the sound insulation plate 132 and the second heat insulation plate 133 are also bonded through the adhesive. When the weather is cold, the first heat-insulating plate 131 can effectively lock indoor hot air, reduce heating energy consumption, improve the duration of indoor heating, and the second heat-insulating plate 133 can further strengthen the heat-insulating function and simultaneously block cold air outside, so that the invasion of indoor cold air is avoided, and further, the heating energy consumption is reduced, and the beneficial effects of energy conservation and emission reduction are achieved; when the heat is hot, the first heat preservation plate 131 can lock the cold air generated by the indoor refrigeration equipment, so that the emission of the cold air is reduced, the second heat preservation plate 133 can block the hot external air, so that the indoor cooling is guaranteed, the energy consumption required by indoor refrigeration is reduced through the strong heat preservation capability, the noise of the external environment can be well reduced by the sound preservation plate 132, and a comfortable living environment is provided for users.

As shown in fig. 2 and 3, a first insulation board 2 is disposed between a first insulation board 131 and an external wall board 11, a second insulation board 3 is disposed between a second insulation board 133 and an internal wall board 12, the first insulation board 2 is connected with the external wall board 11 through a plurality of fixing springs 21, the second insulation board 3 is connected with the internal wall board 12 through a plurality of connecting rods 31, the gap between the first insulation board 2 and the second insulation board 3 is smaller than the thickness of an interlayer 13, an operator can insert the interlayer 13 by extruding the first insulation board 2, so that the installation of the interlayer 13 is completed, and the fixing springs 21 can provide elasticity for the first insulation board 2 and clamp the interlayer 13 in cooperation with the second insulation board 3, so that the internal structure of the wall body 1 is more stable. A first filling cavity is arranged between the first partition plate 2 and the external wall plate 11, cement 4 is filled in the first filling cavity, a second filling cavity 15 is arranged between the second partition plate 3 and the internal wall plate 12, and cement 4 is also filled in the second filling cavity 15. Cement 4 is filled into the first filling cavity 14 and the second filling cavity 15, and the solidified cement 4 can improve the overall structural strength of the wall body 1, so that the safety of the wall body 1 is improved.

The antibacterial film 5 is arranged on the side wall of the inner wallboard 12 far away from the second heat insulation board 133, so that the possibility of mildew on the surface of the inner wallboard 12 caused by factors such as humidity in a room can be reduced by the antibacterial film 5, and the service life of the wall body 1 can be prolonged.

The side wall of the first heat preservation plate 131, which is close to the outer wall plate 11, is provided with the waterproof coating 6, and the side wall of the second heat preservation plate 133, which is close to the inner wall plate 12, is also provided with the waterproof coating 6, so that the water vapor in the cement 4 filled with cement 4 can be prevented from penetrating into the interlayer 13 to damage the heat preservation plate.

The side wall of the outer wall plate 11 far away from the first heat preservation plate 131 is provided with the waterproof film 7, and the waterproof film 7 can prevent water vapor such as outside rainwater dew from corroding the wall body 1, and can improve the service life of the wall body 1. The waterproof film 7 is provided with the thermal-insulated coating 8 far away from the side of side fascia 11, and thermal-insulated coating 8 can effectively block, reflect, radiate the near infrared heat that solar light shone to make indoor temperature not receive the interference of external factor to change. The side of the heat-insulating coating 8, which is far away from the external wall panel 11, is also provided with the wear-resistant layer 9, and the wear-resistant layer 9 can strengthen the surface structure of the external wall panel 11, so that the external sundry collision, sand wind and the like are resisted, the abrasion of the wall body 1 can be slowed down, and the overall service life of the wall body 1 is prolonged.

The implementation principle of the energy-saving building wall body of the embodiment of the application is as follows: when the weather is cold, the first heat-insulating plate 131 can lock indoor hot air, reduce indoor heating energy consumption, improve indoor heating duration, the second heat-insulating plate 133 can further strengthen the heat-insulating function, and can also block cold air outside, so that heating energy consumption is reduced, and the beneficial effects of energy conservation and emission reduction are achieved; when the heat is hot, the first heat preservation plate 131 can lock the cold air generated by the indoor refrigeration equipment, so that the emission of indoor cold air is reduced, and the second heat preservation plate 133 can block the hot outside air, so that the indoor coolness is guaranteed, and the energy consumption required by indoor refrigeration is reduced through strong heat preservation capability.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. Energy-conserving building wall, including wall body (1), its characterized in that: the wall body (1) comprises an external wall board (11), an internal wall board (12) and an interlayer (13), the external wall board (11) and the internal wall board (12) are fixedly connected through a plurality of connecting plates (16), the interlayer (13) is inserted between the external wall board (11) and the internal wall board (12), the interlayer (13) comprises a first heat insulation board (131), a sound insulation board (132) and a second heat insulation board (133) which are sequentially arranged, the first heat insulation board (131) is close to the external wall board (11), the first heat insulation board (131) and the sound insulation board (132) are bonded through an adhesive, and the sound insulation board (132) and the second heat insulation board (133) are bonded through the adhesive.

2. An energy efficient building wall according to claim 1, wherein: first division board (2) are provided with between first heated board (131) and side fascia (11), be provided with second division board (3) between second heated board (133) and the interior wallboard (12), be connected through a plurality of fixed springs (21) between first division board (2) and side fascia (11), be connected through a plurality of connecting rods (31) between second division board (3) and interior wallboard (12), the clearance between first division board (2) and second division board (3) is less than the thickness of intermediate layer (13).

3. An energy efficient building wall according to claim 2, wherein: a first filling cavity (14) is arranged between the first partition plate (2) and the external wall plate (11), cement (4) is filled in the first filling cavity (14), a second filling cavity (15) is arranged between the second partition plate (3) and the internal wall plate (12), and cement (4) is also filled in the second filling cavity (15).

4. An energy efficient building wall according to claim 1, wherein: an antibacterial film (5) is arranged on the side wall, far away from the second heat insulation plate (133), of the inner wall plate (12).

5. An energy efficient building wall according to claim 1, wherein: the side wall of the first heat insulation board (131) close to the outer wall board (11) is provided with a waterproof coating (6), and the side wall of the second heat insulation board (133) close to the inner wall board (12) is also provided with the waterproof coating (6).

6. An energy efficient building wall according to claim 1, wherein: the side wall of the external wall board (11) far away from the first heat insulation board (131) is provided with a waterproof film (7).

7. An energy efficient building wall according to claim 6, wherein: one side of the waterproof film (7) far away from the external wall panel (11) is provided with a heat-insulating coating (8).

8. An energy efficient building wall according to claim 7, wherein: one side of the thermal insulation coating (8) far away from the external wall panel (11) is provided with a wear-resistant layer (9).