CN111155706A - Energy-saving assembled enclosure outer wall - Google Patents

Abstract

The invention relates to the technical field of buildings, in particular to an energy-saving assembly type enclosure outer wall which comprises a steel structure frame, wherein a middle insulation board is arranged on the steel structure frame, an outer wall substrate and an inner insulation board are respectively arranged on two opposite sides of the steel structure frame, an inner wall board is arranged on one side, away from the steel structure frame, of the inner insulation board, an outer insulation board is arranged on one side, away from the steel structure frame, of the outer wall substrate, an outer decorative board is arranged on one side, away from the outer wall substrate, of the outer insulation board, an inner heat reflection board and an outer heat reflection board are further included, the inner heat reflection board is located between the inner insulation board and the steel structure frame, the outer heat reflection board is located between the outer wall substrate and the steel structure frame, a. The invention has better heat preservation effect, is not easy to cause heat loss and has better energy-saving effect.

Description

Energy-saving assembled enclosure outer wall

Technical Field

The invention relates to the technical field of buildings, in particular to an energy-saving assembled type enclosure outer wall.

Background

At present, prefabricated buildings are new types of buildings that combine new types of prefabricated construction techniques with sustainable techniques. The prefabricated building is an industrial building which is designed by adopting a systematic design, a modularized splitting, factory manufacturing and field assembly mode to build a house, and processing and field assembly are carried out in a factory as much as possible. The assembly type building is different from a traditional building in a 'extensive type construction' mode, is more like manufacturing an industrial product, adopts a flow line production mode to prefabricate building component parts, and is like building blocks to build up the building after being transported to an installation site. The assembly type building has the characteristic of sustainability, and is fireproof, insect-proof, moisture-proof, heat-insulating, environment-friendly and energy-saving.

Chinese patent with publication number CN207582798U discloses an assembled enclosure exterior wall, which comprises a C-shaped steel framework, a wood wool cement board, grid cloth, anti-crack mortar plaster, soft porcelain, an interior decoration finish surface and a polyphenyl particle composite filling material, wherein the C-shaped steel framework is filled with the polyphenyl particle composite filling material, the wood wool cement board is arranged on two sides of the C-shaped steel framework, the grid cloth is arranged on two sides of the wood wool cement board, the anti-crack mortar plaster is arranged on two sides of the grid cloth, the soft porcelain is arranged on the anti-crack mortar plaster on the outer side, and the interior decoration finish surface is arranged on the anti-crack mortar plaster on the inner side.

The above prior art solutions have the following drawbacks: according to the assembly type enclosure outer wall, the polyphenyl particle composite filling material is filled in the C-shaped steel framework to block heat loss, the heat preservation effect is poor, heat loss is still easy to cause, and the energy-saving effect is poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an energy-saving assembly type enclosure outer wall which is good in heat preservation effect, not easy to cause heat loss and good in energy-saving effect.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides an energy-saving assembled enclosure outer wall, includes steel structural framework, the last middle heated board that is equipped with of steel structural framework, the last relative both sides of steel structural framework are equipped with outer wall base plate and interior heated board respectively, and one side that interior heated board deviates from steel structural framework is equipped with interior wallboard, one side that outer wall base plate deviates from steel structural framework is equipped with outer heated board, and one side that outer heated board deviates from outer wall base plate is equipped with outer decorative board, still includes heat internal reflection board and heat external reflection board, and the heat internal reflection board is in between interior heated board and the steel structural framework, and the heat external reflection board is in between outer wall base plate and the steel structural framework, and is equipped with silver layer or copper layer on the heat internal reflection.

Through adopting above-mentioned technical scheme, interior heated board, middle heated board and outer heated board can play the heat preservation effect, and silver layer or copper layer on baffle and the heat outer reflecting plate can produce specular reflection in the heat, with heat radiation reflection, make this enclosure outer wall insulation effect better, are difficult to lead to thermal loss, and energy-conserving effect is better.

The present invention in a preferred example may be further configured to: the silver layer or the copper layer on the heat inner reflecting plate is arranged on one side, away from the steel structure frame, of the heat inner reflecting plate, and the silver layer or the copper layer on the heat outer reflecting plate is arranged on one side, away from the steel structure frame, of the heat outer reflecting plate.

By adopting the technical scheme, the silver layer or the copper layer on the heat internal reflection plate can perform heat radiation reflection on the heat inside the building in winter, so that the loss of the heat inside the building is reduced; the silver layer or the copper layer on the heat external reflection plate can perform heat radiation reflection on heat outside the building in summer, so that the possibility of heat outside the building entering the interior of the building is reduced.

The present invention in a preferred example may be further configured to: the steel structure frame includes inner frame and outer frame, and intermediate insulation board sets up between inner frame and the outer frame, and the inner frame links to each other with outer frame, and the outer reflecting plate of heat internal reflection board and heat sets up respectively on inner frame and outer frame.

Through adopting above-mentioned technical scheme, including the intermediate insulation board setting between frame and the outer frame, compare on steel structural framework with becoming the fragment packing with intermediate insulation board split, can keep the integrality of intermediate insulation board, help improving the heat preservation effect.

The present invention in a preferred example may be further configured to: the inner frame is provided with a fixed positioning plate, the fixed positioning plate is provided with a positioning groove, the outer frame is provided with a movable positioning plate, the movable positioning plate is inserted in the positioning groove, and the fixed positioning plate penetrates through the middle heat-insulation plate.

Through adopting above-mentioned technical scheme, the cooperation of fixed position board and removal locating plate can carry on spacingly to the position of middle heated board to improve the stability of middle heated board between inner frame and outer frame.

The present invention in a preferred example may be further configured to: the positioning groove is internally provided with a first magnet, the movable positioning plate is provided with a second magnet, and the first magnet and the second magnet attract each other.

Through adopting above-mentioned technical scheme, will remove the locating plate and insert the back in the constant head tank, first magnet attracts together with second magnet to improved the stability between removal locating plate and the fixed slot, and then improved the stability between internal frame and the outer frame.

The present invention in a preferred example may be further configured to: the inner frame is connected with the outer frame through the mounting plate, a dovetail strip is arranged on the mounting plate, dovetail grooves are formed in the outer frame and the inner frame, the dovetail strip is located in the dovetail grooves, the mounting plate is fixedly connected with the inner frame, and the mounting plate is fixedly connected with the outer frame.

Through adopting above-mentioned technical scheme, when connecting internal frame and outer frame, insert the dovetail on internal frame and the outer frame with the dovetail on the mounting panel in earlier to tentatively fix a position the mounting panel, the mounting panel is tentatively connected with the internal frame, the mounting panel is tentatively connected with outer frame, brings the convenience for the fixed connection between follow-up mounting panel and the internal frame, brings the convenience for the fixed connection between follow-up mounting panel and the outer frame.

The present invention in a preferred example may be further configured to: an outer rock wool sound-absorbing plate is further arranged between the outer heat-insulating plate and the outer decorative plate, an outer sound-absorbing hole is formed in the outer rock wool sound-absorbing plate and is horn-shaped, the end, large in diameter, of the outer sound-absorbing hole faces the outer decorative plate, and the end, small in diameter, of the outer sound-absorbing hole faces the outer heat-insulating plate.

Through adopting above-mentioned technical scheme, the effect that noise reduction can be played in setting up of outer rock wool acoustical panel and outer bloop, and outer bloop is loudspeaker form, spreads into the in-process inside the building when the noise from the building outside into, and when the noise was through outer bloop, the route that the noise passed through was by diminishing greatly, helps improving noise reduction effect.

The present invention in a preferred example may be further configured to: interior rock wool acoustical panel still is equipped with interior rock wool acoustical panel between interior heated board and the interior wallboard, is equipped with interior bloop on the interior rock wool acoustical panel, and interior bloop is loudspeaker form, and the one end that interior bloop diameter is big is towards interior wallboard, and the one end that interior bloop diameter is little is towards interior heated board.

Through adopting above-mentioned technical scheme, the effect of noise sound can be played in setting up of interior rock wool acoustical panel and interior noise hole, and interior noise hole is loudspeaker form, spreads into the in-process outside the building into from the building inside when sound, and when sound process interior noise hole, the route of sound process is by diminishing greatly, helps improving syllable-dividing effect.

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

1. the inner heat-insulation board, the middle heat-insulation board and the outer heat-insulation board can play a role in heat insulation, and silver layers or copper layers on the heat inner reflection board and the heat outer reflection board can generate mirror reflection to reflect heat radiation, so that the enclosure outer wall has a good heat insulation effect, heat loss is not easy to cause, and the energy-saving effect is good;

2. in winter, the silver layer or the copper layer on the heat internal reflection plate can perform heat radiation reflection on the heat inside the building, so that the loss of the heat inside the building is reduced; in summer, the silver layer or the copper layer on the heat outer reflecting plate can perform heat radiation reflection on heat outside the building, so that the possibility that the heat outside the building enters the interior of the building is reduced;

3. when connecting internal frame and outer frame, insert the dovetail on internal frame and the outer frame with the dovetail on the mounting panel earlier to tentatively fix a position the mounting panel, the mounting panel is tentatively connected with the internal frame, the mounting panel is tentatively connected with outer frame, brings the convenience for the fixed connection between follow-up mounting panel and the internal frame, brings the convenience for the fixed connection between follow-up mounting panel and the outer frame.

Drawings

Fig. 1 is a schematic structural diagram for showing a positional relationship between a steel structural frame and a mounting plate in the present embodiment;

fig. 2 is a schematic structural diagram for showing the positional relationship between the inner frame and the outer frame in the present embodiment;

FIG. 3 is a schematic structural diagram illustrating a positional relationship between the fixed positioning plate and the inner frame in the present embodiment;

FIG. 4 is a schematic structural diagram illustrating a positional relationship between the movable positioning plate and the positioning slot in the present embodiment;

FIG. 5 is an enlarged view of the portion A of FIG. 2 showing the positional relationship between the dovetail bar and the dovetail groove;

FIG. 6 is an enlarged view of a portion B of the structure of FIG. 1 for showing the positional relationship between the exterior rock wool sound-absorbing panel and the exterior decorative panel;

fig. 7 is a schematic structural diagram for showing the positional relationship between the inner acoustic hole and the inner rock wool acoustic panel in the present embodiment;

fig. 8 is a schematic structural view for showing the positional relationship between the outer muffling holes and the outer rock wool muffling plate in the present embodiment.

In the figure, 1, a steel structure frame; 2. an intermediate insulation board; 3. an inner frame; 4. an outer frame; 5. fixing a positioning plate; 6. positioning a groove; 7. moving the positioning plate; 8. a second magnet; 9. a first magnet; 10. mounting a plate; 11. a dovetail strip; 12. a dovetail groove; 13. a thermal internal reflection plate; 14. a heat external reflection plate; 15. an exterior wall substrate; 16. an inner insulation board; 17. an inner rock wool acoustical panel; 18. an inner wall panel; 19. an internal sound elimination hole; 20. an outer insulation board; 21. an outer rock wool acoustical panel; 22. an outer decorative plate; 23. an outer silencing hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the energy-saving assembled enclosure exterior wall disclosed by the invention comprises a steel structure frame 1, wherein an intermediate heat-insulation plate 2 is arranged on the steel structure frame 1, the steel structure frame 1 comprises an inner frame 3 and an outer frame 4, and the inner frame 3 and the outer frame 4 are formed by welding square pipes.

Referring to fig. 3 and 4, the welding has fixed positioning plate 5 on the internal frame 3, be equipped with constant head tank 6 on the fixed positioning plate 5, the inside bottom of constant head tank 6 is connected with first magnet 9, be connected through glue between first magnet 9 and the constant head tank 6, the welding has movable positioning plate 7 on the outer frame 4, one side that movable positioning plate 7 deviates from outer frame 4 is connected with second magnet 8, be connected through glue between second magnet 8 and the movable positioning plate 7, movable positioning plate 7 inserts and establishes in constant head tank 6, first magnet 9 and second magnet 8 inter attraction, middle heated board 2 sets up between internal frame 3 and outer frame 4, be equipped with the location mouth on middle heated board 2, fixed positioning plate 5 runs through middle heated board 2 through the location mouth, so as to fix a position middle heated board 2, improve middle heated board 2's stability.

Referring to fig. 1 and 2, the inner frame 3 is connected with the outer frame 4 through four mounting plates 10, referring to fig. 3 and 5, dovetail strips 11 are welded on two opposite side walls of the mounting plates 10, dovetail grooves 12 are respectively arranged at four edges of one side of the outer frame 4 close to the inner frame 3 and four edges of one side of the inner frame 3 close to the outer frame 4, adjacent dovetail grooves 12 on the outer frame 4 are perpendicular to and intersected, adjacent dovetail grooves 12 on the inner frame 3 are perpendicular to and intersected, the dovetail strips 11 are located in the dovetail grooves 12, the mounting plates 10 are welded with the inner frame 3, and the mounting plates 10 are welded with the outer frame 4.

Referring to fig. 6, two opposite sides of the steel structure frame 1 are respectively connected with a heat inner reflection plate 13 and a heat outer reflection plate 14, the heat inner reflection plate 13 is welded with one side of the inner frame 3 departing from the outer frame 4, the heat outer reflection plate 14 is welded with one side of the outer frame 4 departing from the inner frame 3, a silver layer or a copper layer is plated on one side of the heat inner reflection plate 13 departing from the steel structure frame 1, the silver layer or the copper layer is plated on one side of the heat outer reflection plate 14 departing from the steel structure frame 1, the two opposite sides of the steel structure frame are respectively connected with an outer wall substrate 15 and an inner heat insulation plate 16, the heat inner reflection plate 13 is located between the inner heat insulation plate 16 and the steel structure frame 1, the heat outer reflection plate 14 is located between the outer wall substrate 15 and the steel structure frame 1, the inner heat insulation plate 16 is adhered to the heat.

Referring to fig. 1 and 6, one side of the inner heat-insulating plate 16 departing from the steel structure frame 1 is connected with an inner rock wool sound-insulating plate 17 and an inner wall plate 18 in sequence, the steel structure frame 1 and the inner heat-insulating plate 16 are connected through self-tapping screws at the drill tail between the inner rock wool sound-insulating plate 17 and the inner wall plate 18, the self-tapping screws at the drill tail sequentially penetrate through the inner wall plate 18, the inner rock wool sound-insulating plate 17 and the inner heat-insulating plate 16, the inner wall plate 18 is a fiber reinforced calcium silicate plate, the inner heat-insulating plate 16 and the inner rock wool sound-insulating plate 17 are bonded through glue, and the inner rock wool sound-insulating plate 17 and.

Referring to fig. 6 and 7, interior rock wool acoustical panel 17 is in between interior heated board 16 and interior wallboard 18, is equipped with interior noise hole 19 on the interior rock wool acoustical panel 17, referring to fig. 4 and 6, interior noise hole 19 is loudspeaker form, and the big one end of interior noise hole 19 diameter is towards interior wallboard 18, and the little one end of interior noise hole 19 diameter is towards interior heated board 16 to play the effect of giving sound insulation, reduce the possibility that sound wore out the envelope outer wall.

Referring to fig. 1 and 6, one side of the outer wall substrate 15, which deviates from the steel structure frame 1, is connected with an outer insulation board 20, one side of the outer insulation board 20, which deviates from the outer wall substrate 15, is sequentially connected with an outer rock wool acoustical panel 21 and an outer decorative panel 22, the steel structure frame 1 and the outer wall substrate 15, the outer insulation board 20, the outer rock wool acoustical panel 21 and the outer decorative panel 22 are connected through self-tapping screws, the self-tapping screws sequentially penetrate through the outer decorative panel 22, the outer rock wool acoustical panel 21, the outer insulation board 20 and the outer wall substrate 15, wherein the outer decorative panel 22 is a calcium silicate veneer, the outer wall substrate 15 is a fiber reinforced cement flat plate, the outer insulation board 20 and the outer wall substrate 15 are further bonded through glue, the outer rock wool acoustical panel 21 and the outer insulation board 20 are bonded through glue, and the outer rock wool acoustical panel 22.

Referring to fig. 6 and 8, the outer rock wool sound-absorbing plate 21 is located between the outer heat-insulating plate 20 and the outer decorative plate 22, the outer rock wool sound-absorbing plate 21 is provided with an outer sound-absorbing hole 23, referring to fig. 4 and 6, the outer sound-absorbing hole 23 is horn-shaped, one end of the outer sound-absorbing hole 23 with a large diameter faces the outer decorative plate 22, one end of the outer sound-absorbing hole 23 with a small diameter faces the outer heat-insulating plate 20, so that a noise reduction effect is achieved, and the possibility that noise is transmitted from the outside of the building to the.

The implementation principle of the embodiment is as follows: in winter, the arrangement of the inner heat-insulation board 16, the middle heat-insulation board 2 and the outer heat-insulation board 20 can play a heat-insulation role, the loss of heat inside the building is reduced, a silver layer or a copper layer on the heat inner reflection board 13 can perform heat radiation reflection on the heat inside the building, the loss of heat inside the building is further reduced, the heat-insulation effect of the enclosure outer wall is better, the heat loss is not easy to cause, and the energy-saving effect is better.

In summer, the silver layer or the copper layer on the heat outer reflecting plate 14 can perform heat radiation reflection on heat outside the building, so that the possibility that the heat outside the building enters the inside of the building is reduced, the temperature inside the building is not too high, and the environment of people inside the building is more comfortable.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. The utility model provides an energy-saving assembled enclosure protects outer wall, includes steel structural framework (1), is equipped with middle heated board (2) on steel structural framework (1), and steel structural framework (1) is gone up relative both sides and is equipped with outer wall substrate (15) and interior heated board (16) respectively, and one side that interior heated board (16) deviate from steel structural framework (1) is equipped with interior wallboard (18), one side that outer wall substrate (15) deviate from steel structural framework (1) is equipped with outer heated board (20), and one side that outer heated board (20) deviate from outer wall substrate (15) is equipped with outer decorative board (22), its characterized in that: the heat insulation board is characterized by further comprising a heat inner reflecting board (13) and a heat outer reflecting board (14), the heat inner reflecting board (13) is located between the inner heat insulation board (16) and the steel structure frame (1), the heat outer reflecting board (14) is located between the outer wall substrate (15) and the steel structure frame (1), a silver layer or a copper layer is arranged on the heat inner reflecting board (13), and a silver layer or a copper layer is arranged on the heat outer reflecting board (14).

2. The energy-saving assembled type enclosure exterior wall according to claim 1, wherein: silver layers or copper layers on the heat inner reflecting plates (13) are arranged on one sides, deviating from the steel structure frame (1), of the heat inner reflecting plates (13), and silver layers or copper layers on the heat outer reflecting plates (14) are arranged on one sides, deviating from the steel structure frame (1), of the heat outer reflecting plates (14).

3. The energy-saving assembled type enclosure exterior wall according to claim 1, wherein: steel construction frame (1) includes inner frame (3) and outer frame (4), and intermediate insulation board (2) set up between inner frame (3) and outer frame (4), and inner frame (3) link to each other with outer frame (4), and reflector plate (13) and heat outer reflecting plate (14) set up respectively including on inner frame (3) and outer frame (4).

4. The energy-saving assembled type enclosure exterior wall of claim 3, wherein: be equipped with fixed positioning board (5) on internal frame (3), be equipped with constant head tank (6) on fixed positioning board (5), be equipped with on outer frame (4) and remove locating plate (7), remove locating plate (7) and insert and establish in constant head tank (6), and fixed positioning board (5) run through middle heated board (2).

5. The energy-saving assembled type enclosure exterior wall of claim 4, wherein: be equipped with first magnet (9) in constant head tank (6), be equipped with second magnet (8) on removal locating plate (7), first magnet (9) and second magnet (8) inter attraction.

6. The energy-saving assembled type enclosure exterior wall of claim 4, wherein: link to each other through mounting panel (10) between inner frame (3) and outer frame (4), be equipped with dovetail (11) on mounting panel (10), all be equipped with dovetail (12) on outer frame (4) and inner frame (3), dovetail (11) are in dovetail (12), and fixed connection between mounting panel (10) and inner frame (3), fixed connection between mounting panel (10) and outer frame (4).

7. The energy-saving assembled type enclosure exterior wall according to claim 1, wherein: still be equipped with outer rock wool acoustical panel (21) between outer heated board (20) and outer decorative board (22), be equipped with outer bloop (23) on outer rock wool acoustical panel (21), outer bloop (23) are loudspeaker form, and the big one end of outer bloop (23) diameter is towards outer decorative board (22), and the little one end of outer bloop (23) diameter is towards outer heated board (20).

8. The energy-saving assembled type enclosure exterior wall according to claim 1, wherein: interior rock wool acoustical panel (17) still are equipped with between interior heated board (16) and interior wallboard (18), are equipped with interior noise hole (19) on interior rock wool acoustical panel (17), and interior noise hole (19) are loudspeaker form, and the one end that interior noise hole (19) diameter is big is towards interior wallboard (18), and the one end that interior noise hole (19) diameter is little is towards interior heated board (16).

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