CN212613114U - Integrated energy-saving wall structure - Google Patents
Integrated energy-saving wall structure Download PDFInfo
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- CN212613114U CN212613114U CN202020971100.XU CN202020971100U CN212613114U CN 212613114 U CN212613114 U CN 212613114U CN 202020971100 U CN202020971100 U CN 202020971100U CN 212613114 U CN212613114 U CN 212613114U
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Abstract
The utility model relates to an integrated energy-conserving wall structure belongs to building energy conservation technical field, and it is big to have solved among the prior art building energy consumption, and the low energy consumption building is unfavorable for extensively promoting, and adopts individual layer glass brick layer to be unfavorable for indoor heat retaining problem. The utility model discloses a main part unit and daylighting unit, daylighting unit are located the main part unit, and the main part unit includes first heat preservation and second heat preservation, and the daylighting unit includes first glass brick layer and second glass brick layer, is the air bed between first glass brick layer and the second glass brick layer, and the air bed can communicate with indoor outer air. The utility model discloses a two-layer heat preservation of wall structure is EPS board and rock wool or glass cotton respectively, and the daylighting unit includes two-layer glass brick layer, is the air bed between the two-layer glass brick layer, and the glass brick on glass brick layer can be dismantled, and the indoor summer heat dissipation of being convenient for keeps warm with winter, reduces indoor energy consumption, and wall structure's material is easy, builds by laying bricks or stones the convenience, is favorable to using widely.
Description
Technical Field
The utility model relates to a building energy conservation technical field especially relates to an integrated energy-conserving wall structure.
Background
In recent years, the construction success of China is huge, and the construction area of the house built every year exceeds 20 hundred million meters2However, the cost of the paid resource environment is too large, and the energy waste is serious, so that the reduction of the building energy consumption becomes the building construction target of China. At present, buildings with near zero energy consumption, buildings with ultra-low energy consumption and buildings with zero energy consumption are integrated by functional layout, maintenance structure, indoor environment, energy types and efficiency, intellectualization, recovery technology and the like.
The existing realization of near-zero energy consumption buildings, ultralow energy consumption buildings and zero energy consumption buildings is that the cold and heat requirements of the buildings are reduced and the energy efficiency of an active energy system is improved to reach the standard through passive design, and the application of the technology integration usually needs to arrange large advanced equipment in advance, but in undeveloped areas, the integration technology cannot be widely popularized due to the limitation of economy and high standard requirements on technical processes; meanwhile, the existing integrated energy-saving wall adopts a single-layer glass brick layer for lighting, which is not beneficial to indoor heat preservation.
SUMMERY OF THE UTILITY MODEL
In view of the aforesaid analysis, the utility model aims at providing an integrated energy-conserving wall structure for it is big to solve current building energy consumption, and the low energy consumption building is unfavorable for extensively promoting, and adopts the individual layer glass brick layer to be unfavorable for indoor heat retaining problem.
The purpose of the utility model is mainly realized through the following technical scheme:
the utility model provides an integrated energy-conserving wall structure, includes main part unit and daylighting unit, and the daylighting unit is located the main part unit, and the main part unit includes first heat preservation and second heat preservation, and the daylighting unit includes first glass brick layer and second glass brick layer, is the air bed between first glass brick layer and the second glass brick layer, and the air bed can communicate with indoor outer air.
Furthermore, the first glass brick layer comprises a plurality of first glass bricks and a plurality of second glass bricks, and the first glass bricks and the second glass bricks are surrounded to form a first mounting groove;
the second glass brick is arranged in the first mounting groove and can be detached from the first mounting groove.
Furthermore, the second glass brick layer comprises a plurality of third glass bricks and a plurality of fourth glass bricks, the third glass bricks and the fourth glass bricks are arranged in a surrounding manner to form a second mounting groove, and the second mounting groove is aligned with the first mounting groove;
the fourth glass brick is arranged in the second mounting groove and can be detached from the second mounting groove.
Furthermore, a first sliding groove is formed in the first mounting groove, a second sliding groove is formed in the second mounting groove, the second glass brick can slide in the first sliding groove for dismounting, and the fourth glass brick can slide in the second sliding groove for dismounting.
Further, the first sliding groove and the second sliding groove are both of an L-shaped structure, the first sliding groove comprises a first short side part and a first long side part, the first short side part is vertically communicated with the first long side part, the second sliding groove comprises a second short side part and a second long side part, the second short side part is vertically communicated with the second long side part, the first short side part is positioned in the first mounting groove, the second short side part is positioned in the second mounting groove, and the first long side part and the second long side part are both positioned in the air layer;
a first metal plate is arranged at the end part of the first short edge part and can seal the gap between the second glass brick and the first glass brick;
and a second metal plate is arranged at the end part of the second short side part and can seal the gap between the fourth glass brick and the third glass brick.
Further, the main body unit is arranged in a light steel keel of the wall structure, the first glass brick layer is connected with the light steel keel, and the second glass brick layer is connected with the second heat-insulating layer.
Further, the first heat-insulating layer is an EPS plate, and the second heat-insulating layer is rock wool or glass wool;
the EPS board is embedded in the light steel keel and is arranged close to the indoor, and sealant is arranged at the joint of the EPS board and the light steel keel.
Further, the main body unit further comprises a first fireproof layer and a second fireproof layer, and the first fireproof layer and the second fireproof layer are located on two sides of the first heat-insulating layer respectively.
Further, the main body unit further comprises a steam-insulating film and a waterproof breathable film, the steam-insulating film is located between the first heat-insulating layer and the first fireproof layer, and the waterproof breathable film is located on the outer side of the second heat-insulating layer.
Further, the main body unit further comprises an inner decoration layer and a coating decoration layer, the inner decoration layer is located on the outer side of the first fireproof layer, and the coating decoration layer is arranged on the outer side of the waterproof breathable film.
Compared with the prior art, the utility model discloses can realize one of following beneficial effect at least:
(1) the integrated energy-saving wall structure is composed of a main body unit and lighting units, the main body unit comprises an EPS board heat-insulating layer, asbestos or glass wool heat-insulating layers, the lighting units are composed of glass brick layers, construction can be carried out without arranging large-scale equipment in the building process, the main body unit and the glass brick layers are made of easily-obtained materials, construction is facilitated, the limitation of high price and high technology on reduction of energy consumption in village and town areas is overcome, and popularization and use are facilitated.
(2) The lighting unit comprises a first glass brick layer and a second glass brick layer, detachable glass bricks are arranged on the first glass brick layer and the second glass brick layer, the glass bricks are detached in summer, outdoor cold air can enter a room through a first mounting groove and a second mounting groove at the bottom, indoor heat is taken away through thermal circulation, and the outdoor cold air flows to the outside from the second mounting groove and the first mounting groove at the top; in winter, the air is sealed in the air layer by the first glass brick layer and the second glass brick layer, and the air layer is heated by the sun, so that the heat preservation effect is achieved.
(3) Be equipped with first spout in the first mounting groove, be equipped with the second spout in the second mounting groove, first spout and second spout are L shape structure, and the short limit portion of spout is established in the mounting groove, and the long limit portion of spout is located the air layer, when glass brick is dismantled to needs, only need with glass brick along spout push-and-pull to the air in situ can, convenient and fast.
The utility model discloses in, can also make up each other between the above-mentioned each technical scheme to realize more preferred combination scheme. Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.
Drawings
The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, wherein like reference numerals are used to designate like parts throughout the drawings.
FIG. 1 is a block diagram of an integrated energy saving wall structure removal chute according to an embodiment;
FIG. 2 is a partial schematic view of a lighting unit according to an embodiment;
FIG. 3 is a partial schematic view of the lighting unit with the second and fourth glass blocks removed according to the embodiment;
FIG. 4 is a partial schematic view of a second glass brick layer according to an embodiment;
FIG. 5 is a partial schematic view of the second glass block layer with the fourth glass block removed according to the exemplary embodiment;
FIG. 6 is a schematic view of the air circulation after the second and fourth glass blocks are removed according to the embodiment;
FIG. 7 is a schematic view of the air flow when the glass block is not removed according to the embodiment.
Reference numerals:
1-a body unit; 11-a first insulating layer; 12-a second insulating layer; 13-a first fire barrier layer; 14-a second fire barrier layer; 15-inner decoration layer; 16-a paint finish; 2-a lighting unit; 21-a first glass brick layer; 211-a first glass block; 212-a second glass block; 213-a first chute; 214-a first metal plate; 22-second glass transition layer; 221-a third glass tile; 222-a fourth glass tile; 223-a second runner; 224-second metal plate.
Detailed Description
The following detailed description of the preferred embodiments of the invention, which is to be read in connection with the accompanying drawings, forms a part of the invention, and together with the embodiments of the invention, serve to explain the principles of the invention and not to limit the scope of the invention.
In the description of the embodiments of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the term "connected" should be interpreted broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection, which may be a mechanical connection, an electrical connection, which may be a direct connection, or an indirect connection via an intermediate medium. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
The terms "top," "bottom," "above … …," "below," and "on … …" as used throughout the description are relative positions with respect to components of the device, such as the relative positions of the top and bottom substrates inside the device. It will be appreciated that the devices are multifunctional, regardless of their orientation in space.
The utility model discloses a concrete embodiment, as shown in fig. 1 to 7, discloses an integrated energy-conserving wall structure, including main unit 1 and daylighting unit 2, daylighting unit 2 inlays to be established in main unit 1, and daylighting unit 2 includes first glass brick layer 21 and second glass brick layer 22, is the air bed between first glass brick layer 21 and the second glass brick layer 22, and first glass brick layer 21 and second glass brick layer 22 can make indoor outer and air bed intercommunication.
Main unit 1 is for inlaying the double-deck heat preservation wall body of establishing in light gauge steel, main unit 1 includes first heat preservation 11 and second heat preservation 12, first heat preservation 11 is EPS (Expanded Polystyrene foam) board, second heat preservation 12 is the heat preservation insulating layer, specifically, light gauge steel is U type or C type cold-formed thin-walled steel, the EPS board is inlayed and is established in light gauge steel, the EPS board is equipped with weather resistant sealed glue with the light gauge steel junction and seals, second heat preservation 12 is rock wool or glass wool. In this embodiment, the light gauge steel is C-shaped cold-formed thin-walled steel with a width of 100-120 mm, the thickness of the EPS plate is the same as the width of the light gauge steel, and the second heat-insulating layer 12 is rock wool.
Compared with the prior art, the lighting unit is embedded in the main body unit, the lighting unit is a glass brick layer, the main body unit is a double-layer heat-insulating wall body embedded in the light keel, the lighting unit comprises a first heat-insulating layer formed by an EPS board and a second heat-insulating layer formed by rock wool or glass wool, the materials are easy to obtain, the manufacturing cost is low, the construction is convenient, and the lighting unit is suitable for being widely popularized in villages and small towns; meanwhile, the lighting unit comprises a first glass brick layer and a second glass brick layer, and when the lighting unit is used in summer, indoor and outdoor air can circulate through the first glass brick layer and the second glass brick layer to take away indoor heat; in winter, the first glass brick layer and the second glass brick layer seal air in the air layer, and the heat preservation effect is achieved through solar irradiation.
It should be noted that the first heat insulating layer 11, i.e., the EPS board, is disposed close to the indoor space, and the second heat insulating layer 22 is disposed close to the outdoor space.
In consideration of the fire-resistance of the wall body, the main body unit 1 further includes fire-resistant layers provided on both sides of the first heat-insulating layer 11, i.e., a first fire-resistant layer 13 and a second fire-resistant layer 14, respectively. Specifically, the flame retardant coating is 15mm fire-resistant gypsum board, through bolt and first heat preservation 11 fixed connection. The fireproof layers arranged on the two sides of the first heat-insulating layer 11 can achieve the effects of protecting the EPS boards, preventing fire of buildings and saving energy in winter.
To avoid the intrusion of external moisture into the building envelope, the service life of the building is reduced. Still be equipped with the vapour barrier between first heat preservation 11 and the first flame retardant coating 13, the vapour barrier has the isolated ability of excellent steam, can prevent the invasion of moisture to envelope, uses with waterproof ventilated membrane cooperation can effectively avoid mould and comdenstion water to produce in the envelope of wall body or roofing, the life of extension building.
Considering the waterproof property of the building, the main body unit 1 further comprises a waterproof breathable film, the waterproof breathable film is arranged on the outer side (outdoor direction) of the second heat insulation layer 14, and the waterproof breathable film is made of a high polymer material with windproof, waterproof and vapor permeable functions, can be used as a waterproof layer of a building envelope structure, and allows moisture inside the structure to be discharged, so that the purpose of moisture prevention is achieved.
In this embodiment, the main unit 1 further includes an interior layer 15 and a paint layer 16, the interior layer 15 is provided on the outside of the first flame-retardant layer 13, and the paint layer 16 is provided on the outside (in the outdoor direction) of the waterproof breathable film. In this embodiment, the paint finish is a real stone paint coating.
The structure of the main unit 1 of the present embodiment is, from inside to outside (indoor to outdoor): the heat-insulating coating comprises an inner decoration layer 15, a first fireproof layer 13, a steam-insulating film, a first heat-insulating layer 11, a second fireproof layer 14, a second heat-insulating layer 12, a waterproof breathable film and a coating decoration layer 16.
First glass brick layer 21 includes first glass brick 211, second glass brick 212, the mortar and violently indulges the reinforcing bar, first glass brick 211 is equipped with a plurality ofly, every first glass brick 211's specification is 190mm 80mm, be equipped with the mortar between the adjacent first glass brick 211 and violently indulge the reinforcing bar, violently indulge the diameter of reinforcing bar and be 6mm, be equipped with violently indulge the reinforcing bar between the adjacent first glass brick 211, improve the intensity between the glass brick body, guarantee the security of the glass brick body. The surface on first glass brick layer 21 and the 15 parallel and level in interior trim layer of main part unit 1, first glass brick layer 21 are equipped with first mounting groove, and first mounting groove is enclosed by the side of 4 first glass bricks 211 and establishes and forms, and first mounting groove is equipped with a plurality ofly, and the first mounting groove on the same floor or same row is just to setting up.
In order to facilitate the disassembly of the second glass brick 212, a first chute 213 is arranged in the first mounting groove, and is fixed with the bottom of the first mounting groove through a screw, specifically, the first chute 213 is of an L-shaped structure, a first short edge of the first chute 213 is arranged in the first mounting groove, the end of the first short edge is flush with the outside (outdoor direction) of the first glass brick layer 21, a first long edge of the first chute 213 is located in the air layer, and the end of the first long edge is provided with a limiting plate, so that the second glass brick 212 is prevented from dropping. In order to seal the gap between the second glass brick 212 and the first glass brick 211 and limit the second glass brick 212, the end of the first short edge of the first chute 213 is provided with a first metal plate 214, the first metal plate 214 is in a shape like a Chinese character hui, the large edge of the first metal plate 214 is larger than the edge of the first mounting groove, and the small edge of the first metal plate 214 is larger than the edge of the second glass brick 212, so that the first metal plate 214 can seal the gap between the second glass brick 212 and the first glass brick 211 and can prevent the second glass brick 212 from falling from the hole of the first metal plate 214. Note that, the inside of the first metal plate 214 is provided with a seal strip, and when the first metal plate 214 is connected to the first runner 213 by a bolt, the seal strip has a further sealing effect.
It is noted that the exterior of the first glass block 211 fixing the first sliding groove 213 is wrapped with a steel plate to facilitate the bolt connection; the first short side portion of the first chute 213 is vertically communicated with the first long side portion.
Similarly, the second glass brick layer 22 comprises a plurality of third glass bricks 221, a plurality of fourth glass bricks 222, mortar and transverse and longitudinal reinforcing steel bars, wherein each third glass brick 221 is 190mm × 190mm × 80mm in specification, the mortar and the transverse and longitudinal reinforcing steel bars are arranged between every two adjacent third glass bricks 221, the diameter of each transverse and longitudinal reinforcing steel bar is 6mm, and the transverse and longitudinal reinforcing steel bars are arranged between every two adjacent third glass bricks 221, so that the strength between the glass brick bodies is improved, and the safety of the brick bodies is ensured. The outer surface of the second glass brick layer 22 is flush with the paint finish 16 of the body unit 1. Second glass brick layer 22 is equipped with the second mounting groove, and the second mounting groove is enclosed by the side of 4 third glass bricks 221 and establishes and forms, and the second mounting groove is equipped with a plurality ofly, and the second mounting groove on the same floor or same row is adjusted well and is set up, and the second mounting groove is just to setting up with first mounting groove.
In order to facilitate the detachment of the fourth glass brick 222, a second sliding groove 223 is formed in the second mounting groove and fixed to the bottom of the second mounting groove through a screw, specifically, the second sliding groove 223 is of an L-shaped structure, a second short edge of the second sliding groove 223 is formed in the second mounting groove, the end of the second short edge is flush with the inner side (indoor direction) of the second glass brick layer 22, a second long edge of the second sliding groove 223 is located in the air layer, and the end of the second long edge is provided with a limiting plate to prevent the fourth glass brick 222 from falling. In order to seal the gap between the fourth glass brick 222 and the third glass brick 221 and limit the fourth glass brick 222, a second metal plate 224 is arranged on the second short side part of the second sliding groove 223, the second metal plate 224 is in a shape like a Chinese character 'hui', the large side length of the second metal plate 224 is larger than the side length of the second mounting groove, and the small side length of the second metal plate 224 is larger than the side length of the fourth glass brick 222, so that the second metal plate 224 can seal the gap between the fourth glass brick 222 and the third glass brick 221, and the fourth glass brick 222 can be prevented from falling from the hole of the second metal plate 224. It should be noted that the inside of the second metal plate 224 is provided with a sealing strip, and when the second metal plate 224 is connected with the second sliding groove 223 through a bolt, the sealing strip has a further sealing effect; the screen window is further arranged on the inner side of the second metal plate 224, the screen window can cover the hole of the second metal plate 224, the arrangement of the sealing strip is not interfered, and mosquitoes and insects enter the room when the fourth glass brick 222 is prevented from being detached.
It is worth noting that the steel plate is wrapped outside the third glass brick 221 for fixing the second sliding groove 223, so as to facilitate bolt connection; the second short side portion of the second sliding groove 223 is vertically communicated with the second long side portion.
It can be understood that when the glass blocks need to be removed, the fourth glass block 222 is pushed into the air layer along the second sliding groove through the hole of the second metal plate from the room and moved to the fourth end of the second sliding groove, the second glass block 212 is pulled out along the first sliding groove and moved to the second end of the second sliding groove, at this time, the first installation groove and the second installation groove are communicated, and when the glass blocks need to be installed, the second glass block 212 is pushed into the first installation groove along the first sliding groove, and then the fourth glass block 222 is pulled into the second installation groove along the second sliding groove.
In order to facilitate the disassembly and assembly of the second glass brick 212 or the fourth glass brick 222, handles are arranged on the side surfaces of the second glass brick 212 and the fourth glass brick 222, the handles are bonded with the glass bricks or integrally formed, or reinforcing steel bars are bound on the circumferential side surfaces of the second glass brick 212 and the fourth glass brick 222, the reinforcing steel bars are fixed by white cement and then coated with steel plates, and the handles are welded on the steel plates.
It is worth noting that the quantity that first mounting groove and second mounting groove set up can be set for according to indoor size by oneself, be equipped with a plurality of first mounting grooves or second mounting groove on the same layer promptly, first mounting groove and second mounting groove all need be close to the upper end or the lower extreme setting on glass brick layer, be convenient for form the gas circulation passageway, in this embodiment, first mounting groove is equipped with two, one is established at the third layer from bottom to top on first glass brick layer 21, one is established at the third layer from top to bottom on first glass brick layer 22, the second mounting groove is adjusted well with first mounting groove and is set up.
In this embodiment, the second glass brick 212 and the fourth glass brick 222 can be detached from the first glass brick layer 21 and the second glass brick layer 222, when in summer, the second glass brick 212 and the fourth glass brick 222 are detached, outdoor cold air can enter the room through the first mounting groove and the second mounting groove at the bottom, indoor heat is taken away through thermal circulation, and the cold air flows to the outside from the second mounting groove and the first mounting groove at the top to facilitate indoor heat dissipation; when the solar energy water heater is used in winter, the first glass brick layer 21 and the second glass brick layer 22 are sealed firmly, air is sealed in the air layer, and the air is heated under the irradiation of sunlight, so that the indoor heat insulation is facilitated.
In this embodiment, the daylighting unit is equipped with two-layer glass brick layer, is equipped with the air bed between two-layer glass brick layer, and the air bed is used for adjusting indoor temperature with the heat flow effect, reduces the energy consumption.
It should be noted that the main body unit 1 and the lighting unit 2 are fixedly connected by welding, specifically, the main body unit 1 is provided with a head receiving plate, the head receiving plate is respectively welded and fixed with the light steel keel and the embedded part, the embedded part is arranged in the second insulating layer 12, and the transverse and longitudinal steel bars of the first glass brick layer 21 and the transverse and longitudinal steel bars of the second glass brick layer 22 are both welded and fixed with the head receiving plate.
It is worth noting that the joint of the main body unit 1 and the lighting unit 2 is provided with a foam rod and a weather-proof sealant for sealing. The weather-resistant sealant has excellent weather resistance, when in use, a glue extruding gun is used for extruding glue from a sealing glue cylinder into a joint to be sealed, and the sealant absorbs moisture in the air at room temperature and is cured into an elastomer to form effective sealing.
In this embodiment, the second glass block 212 and the fourth glass block 222 have the same specification, the first mounting groove and the second mounting groove have the same size, and the first sliding groove and the second sliding groove have the same specification.
The integrated energy-saving wall structure of this embodiment is formed through main part unit and glass brick daylighting unit welding, and glass brick daylighting unit is equipped with two-layerly, is equipped with the interval between two-layerly for keep warm, and main part unit's material is easy, simple structure, and construction convenience has overcome high price, high skill and has realized the restriction that reduces the energy consumption to villages and small towns area. The breadth of our country is wide, and the low-skill and low-price integrated energy-saving system applied to 436 villages and towns has strong popularization.
The integrated energy-saving wall structure of the embodiment achieves the energy-saving standard through the simple technical integration of the main body unit and the lighting unit, has the advantages of easily available materials, low construction difficulty and low manufacturing cost, can be widely popularized, and is particularly suitable for wide village and town areas in China.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.
Claims (10)
1. The utility model provides an integrated energy-conserving wall structure, a serial communication port, including main part unit (1) and daylighting unit (2), daylighting unit (2) are located main part unit (1), main part unit (1) includes first heat preservation (11) and second heat preservation (12), daylighting unit (2) are including first glass brick layer (21) and second glass brick layer (22), be the air bed between first glass brick layer (21) and second glass brick layer (22), the air bed can communicate with indoor outer air.
2. The integrated energy-saving wall structure according to claim 1, wherein the first glass brick layer (21) comprises a plurality of first glass bricks (211) and second glass bricks (212), and the first glass bricks (211) and the second glass bricks (212) are arranged in plurality, and the plurality of first glass bricks (211) are surrounded to form a first mounting groove;
a second glass block (212) is disposed in the first mounting channel and is removable from within the first mounting channel.
3. The integrated energy-saving wall structure according to claim 2, wherein the second glass brick layer (22) comprises a plurality of third glass bricks (221) and fourth glass bricks (222), the third glass bricks (221) and the fourth glass bricks (222) are arranged in a surrounding manner to form a second installation groove, and the second installation groove is aligned with the first installation groove;
a fourth glass block (222) is disposed in the second mounting channel and is removable from within the second mounting channel.
4. The integrated energy-saving wall structure according to claim 3, wherein a first sliding groove (213) is arranged in the first mounting groove, a second sliding groove (223) is arranged in the second mounting groove, the second glass brick (212) can slide in the first sliding groove (213) for assembly and disassembly, and the fourth glass brick (222) can slide in the second sliding groove (223) for assembly and disassembly.
5. The integrated energy-saving wall structure according to claim 4, wherein the first sliding chute (213) and the second sliding chute (223) are both L-shaped structures, the first sliding chute (213) comprises a first short side part and a first long side part, the first short side part is vertically communicated with the first long side part, the second sliding chute (223) comprises a second short side part and a second long side part, the second short side part is vertically communicated with the second long side part, the first short side part is positioned in the first mounting groove, the second short side part is positioned in the second mounting groove, and the first long side part and the second long side part are both positioned in the air layer;
a first metal plate (214) is arranged at the end part of the first short side part, and the first metal plate (214) can seal the gap between the second glass brick (212) and the first glass brick (211);
and a second metal plate (224) is arranged at the end part of the second short side part, and the second metal plate can seal the gap between the fourth glass brick (222) and the third glass brick (221).
6. The integrated energy-saving wall structure according to claim 1, characterized in that the main body unit (1) is arranged in a light gauge steel of the wall structure, the first glass brick layer (21) is connected with the light gauge steel, and the second glass brick layer (22) is connected with the second insulating layer (12).
7. The integrated energy-saving wall structure according to claim 6, wherein the first heat-insulating layer (11) is an EPS board, and the second heat-insulating layer (12) is rock wool or glass wool;
the EPS board is embedded in the light steel keel and is arranged close to the indoor, and sealant is arranged at the joint of the EPS board and the light steel keel.
8. The integrated energy saving wall structure according to claim 1, characterized in that the main body unit (1) further comprises a first fire resistant layer (13) and a second fire resistant layer (14), the first fire resistant layer (13) and the second fire resistant layer (14) being respectively located at both sides of the first heat insulating layer (11).
9. The integrated energy-saving wall structure according to claim 8, wherein the main body unit (1) further comprises a vapor-proof film and a waterproof and breathable film, the vapor-proof film is positioned between the first heat-insulating layer (11) and the first fireproof layer (13), and the waterproof and breathable film is positioned outside the second heat-insulating layer (12).
10. The integrated energy-saving wall structure according to claim 9, wherein the main body unit (1) further comprises an inner decoration layer (15) and a paint decoration layer (16), the inner decoration layer (15) is located on the outer side of the first fireproof layer (13), and the paint decoration layer (16) is arranged on the outer side of the waterproof and breathable film.
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CN202020971100.XU CN212613114U (en) | 2020-06-01 | 2020-06-01 | Integrated energy-saving wall structure |
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CN202020971100.XU CN212613114U (en) | 2020-06-01 | 2020-06-01 | Integrated energy-saving wall structure |
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2020
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