CN211597115U - Sunshine room - Google Patents
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- CN211597115U CN211597115U CN201922279793.6U CN201922279793U CN211597115U CN 211597115 U CN211597115 U CN 211597115U CN 201922279793 U CN201922279793 U CN 201922279793U CN 211597115 U CN211597115 U CN 211597115U
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Abstract
The application discloses a sunlight room, which comprises a glass assembly and a mounting piece, wherein the glass assembly comprises a first glass assembly and a second glass assembly, the mounting piece comprises a first keel, a second keel, a third keel and a pressing plate, the end parts of the first keel and the second keel are oppositely arranged on two sides of the third keel, the first keel, the second keel and the third keel are connected to form an integrated piece, and the longitudinal section of the integrated piece is T-shaped; the first glass assembly is the same as the first glass assembly in structure and comprises outer glass, middle glass, first inner glass and second inner glass which are sequentially arranged; through the structural improvement of the glass assembly and the mounting part, the sunlight room obtained by mounting has lower solar infrared transmittance and better heat insulation performance in summer; the heat-transfer coefficient K is lower, and the heat-preservation performance is better in winter; the sunlight house has high visible light transmittance and good natural lighting, and is favorable for promoting the development of passive energy-saving house buildings.
Description
Technical Field
This application belongs to building sunshine room field particularly, relates to a sunshine room.
Background
The sunlight house is also called a glass house, and generally adopts a totally-transparent and non-traditional building with glass and a metal frame to achieve the purposes of enjoying sunlight and being close to nature. The sunlight room is a building which is worried by people pursuing nature and fashion in China, the sunlight room can be designed and built according to the requirements of use places and personal hobbies, indoor arrangement can be decorated according to the personal hobbies, and the balcony or terrace sunlight room is located in the whole set of living room, so that the visual continuity is very important, the integral style of the building is required to be considered, and meanwhile, the integral color tone is kept consistent as much as possible.
In the structure adopted by the traditional sunlight room structure, glass has the defects of high heat transfer coefficient, poor heat preservation performance in summer, low visible light transmittance, unsatisfactory energy-saving effect and the like; meanwhile, in the sunlight room structure, the connecting pieces between the glass and the glass are easy to corrode, so that the overall stability and the attractiveness of the sunlight room are affected.
Based on the above, a sunlight room is researched, developed and designed.
SUMMERY OF THE UTILITY MODEL
The present application mainly aims to solve one of the above technical problems and provide a sunlight room, which mainly improves the installation components connected between the glass and the glass of the structural unit of the sunlight room, adopts the glass components composed of the outer layer glass, the middle layer glass, the first inner layer glass and the second inner layer glass, and pastes the double silver Low-E film between the surfaces of the outer layer glass and the middle layer glass, and fills the inert gas in the hollow cavities between the outer layer glass and the middle layer glass, and between the middle layer glass and the first inner layer glass, so that the heat transfer coefficient of the glass components composed by the structure is lower, and the heat preservation performance in winter is better; the installed part adopts first fossil fragments, second fossil fragments, third fossil fragments to form the section and is T type structure, and this structure fastens the glass subassembly to between first fossil fragments, second fossil fragments through seal structure, first fossil fragments, second fossil fragments respectively with the clamp plate between, carry out three sealings between the glass subassembly, improve the thermal insulation performance in sunshine room, and set up anticorrosive piece, thereby solved current sunshine room thermal insulation performance poor, easily receive technical problem such as corruption.
In order to achieve the above object, the present application provides the following technical solutions:
a sunlight room comprises a glass assembly and a mounting piece, wherein the glass assembly comprises a first glass assembly and a second glass assembly, the mounting piece comprises a first keel, a second keel, a third keel and a pressing plate, the end parts of the first keel and the second keel are oppositely arranged on two sides of the third keel, the first keel, the second keel and the third keel are connected to form an integrated piece, and the longitudinal section of the integrated piece is T-shaped;
the pressing plate is positioned above the first glass assembly and the second glass assembly, the first glass assembly and the second glass assembly are respectively in contact with the pressing plate, the end part of the first glass assembly is in a gap with the end part of the second glass assembly, the first glass assembly is arranged between the second keel, and a sealing structure is arranged between the second glass assembly and the first keel;
the pressing plate covers a gap between the first glass assembly and the second glass assembly, and is provided with a threaded connection structure which sequentially penetrates through the pressing plate, the gap between the first glass assembly and the second glass assembly and extends to the inside of the third keel;
the first glass assembly and the second glass assembly are identical in structure, the first glass assembly comprises outer layer glass, middle layer glass, first inner layer glass and second inner layer glass which are sequentially arranged, the outer layer glass is positioned on one side close to the pressing plate, the second inner layer glass is positioned on one side close to the integrated piece, hollow cavities are respectively formed between the outer layer glass and the middle layer glass, between the middle layer glass and the first inner layer glass, and inert gas is filled in the hollow cavities; the surfaces of the outer layer glass and the middle layer glass are both provided with double-silver Low-E films.
In this technical scheme, glass subassembly and installed part are connected and are formed minimum unit, and the sunshine room structure is assembled into to a plurality of minimum units of connecting like this. The glass assembly of the minimum unit comprises a first glass assembly and a second glass assembly, the first glass assembly and the second glass assembly are identical in structure, the inventor considers that the heat transfer coefficient K of glass applied to a sunlight room in the prior art is high, and the heat insulation performance in summer and winter is poor, in order to improve the technology, the glass assembly is composed of outer layer glass, middle layer glass, first inner layer glass and second inner layer glass, a hollow cavity is formed between the outer layer glass and the middle layer glass and between the middle layer glass and the first inner layer glass respectively, inert gas is filled in the hollow cavity, after filling, two tail ends of the hollow cavity are sealed by high-strength and high-air-tightness bonding agents, and the heat insulation performance of the glass assembly, namely the hollow glass, can be effectively improved by filling the inert gas; the double-silver Low-E film is arranged on the surfaces of the outer layer glass and the middle layer glass, the double-silver Low-E film is one of Low-radiation coating films, and the glass after the double-silver Low-E film is arranged has high infrared reflection and no visible light reflection, so that the light transmission and heat impermeability are realized, the glass has good heat insulation performance, the heat radiation rate of the glass assembly is greatly reduced, the energy-saving effect is realized, the building energy consumption cost is reduced, and the glass cleaning and maintenance are facilitated.
Improve the installed part among this technical scheme, the installed part concrete structure adopts keel structure, the clamp plate, first fossil fragments, the second fossil fragments, form the integrative piece that the longitudinal section is the T type with the form of welding seam between the third fossil fragments, be used for installing first glass subassembly between the up end of T type spare and the clamp plate, the second glass subassembly, first glass subassembly, there is the clearance between the second glass subassembly, in order to strengthen the installed part and the connection of glass subassembly, installation threaded connection structure on the clamp plate, the concrete mountable of threaded connection structure is at the middle part of clamp plate, and run through the clamp plate, pass the clearance between first glass subassembly and the second glass subassembly, and then extend to the inside of third fossil fragments, realize fixing between a plurality of parts.
Meanwhile, in order to solve the problem of air tightness of the existing sunlight room, a first sealing structure is arranged at the contact position of the pressing plate with the first glass assembly and the second glass assembly, a second sealing structure is arranged between the gap of the first glass assembly and the gap of the second glass assembly, a third sealing structure is arranged between the first glass assembly and the second keel and between the second glass assembly and the second keel, so that the three sealing structures are arranged, and the sealing performance is good.
Among this technical scheme, through the improvement to glass subassembly, installed part structure, effectively solved the problem of heat-proof quality, heat insulating ability, the leakproofness that current sunshine room exists, make sunshine room heat-proof quality in summer, heat preservation performance in winter better, the sunshine room gas tightness is better.
Further, the outer surfaces of the first keel, the second keel and the third keel are coated with corrosion-resistant pieces.
Furthermore, the sealing structures arranged at the connecting parts of the first glass assembly and the second glass assembly and the pressing plate are first sealing structures; the sealing structure arranged in the gap between the end part of the first glass assembly and the end part of the second glass assembly is a second sealing structure; the sealing structure between the first glass assembly and the second keel and between the second glass assembly and the first keel is a third sealing structure.
Further, the first sealing structure, the second sealing structure and the third sealing structure are all neutral silicone weather-resistant sealant.
Furthermore, the contact parts of the pressing plate and the first glass assembly and the contact parts of the pressing plate and the second glass assembly are provided with noise reduction pieces.
Furthermore, the longitudinal section of the pressing plate is U-shaped, and the bottom surface of the pressing plate in the U-shaped structure is arranged on the first glass assembly and the second glass assembly in the installation state.
Further, the installed part still includes decorates the buckle closure, decorate the buckle closure and be the type of falling U structure, decorate the both ends lock respectively on first glass subassembly, second glass subassembly of buckle closure, and decorate and be connected through seal structure between buckle closure and first glass subassembly, the second glass subassembly for the clamp plate all with decorate buckle closure, first glass subassembly, second glass subassembly zonulae occludens.
Furthermore, molecular sieves are arranged between the outer layer glass and the middle layer glass and between the middle layer glass and the first inner layer glass, and the molecular sieves are bonded together through butyl rubber; and sealants are arranged on the outer side of the molecular sieve, between the outer layer glass and the middle layer glass and between the middle layer glass and the first inner layer glass.
Furthermore, the first inner layer glass and the second inner layer glass are connected through a film.
Furthermore, the outer layer glass, the middle layer glass, the first inner layer glass and the second inner layer glass are all tempered white glass.
The beneficial effects of the utility model reside in that:
(1) a sunshine room through set gradually the glass subassembly that comprises outer glass, middle level glass, first inlayer glass, second inlayer glass to and pack inert gas, set up two silver-colored Low-E membranes on outer glass and inlayer glass, can effectively reduce glass's coefficient of heat transfer, and the heat-proof quality is better.
(2) The utility model discloses an installed part to between the glass unit improves, through between the glass unit, sets up seal structure between glass unit and the clamp plate between glass unit and the fossil fragments to form three sealings, thereby make the gas tightness in sunshine room improve, increase thermal insulation performance, set up anti-corrosion member simultaneously on first fossil fragments, second fossil fragments, third fossil fragments, can effectively slow down the corruption of fossil fragments, thereby improve the pleasing to the eye degree in sunshine room.
(3) The sunlight room of the utility model has lower transmission ratio of solar infrared rays and better heat insulation performance in summer; the heat transfer coefficient K is lower, and the heat preservation performance in winter is better; the sunlight house has high visible light transmittance and good natural lighting, and is favorable for promoting the development of passive energy-saving house buildings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:
fig. 1 is a partial structural schematic diagram of the present invention;
FIG. 2 is a schematic view of a first glass assembly of the present invention;
the drawings are numbered as follows: 1-outer layer glass, 2-middle layer glass, 3-first inner layer glass, 4-second inner layer glass, 5-molecular sieve, 6-butyl rubber, 7-sealant, 8-hollow cavity, 9-double silver Low-E film, 10-film, 20-first keel, 21-second keel, 22-third keel, 23-first glass component, 24-second glass component, 25-threaded connection structure, 26-pressing plate, 27-decorative buckle cover, 28-first sealing structure, 29-noise reduction piece, 30-second sealing structure, 31-third sealing structure and 32-corrosion resistant piece.
Detailed Description
In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but 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 application.
It should be noted that the terms "mounted," "disposed," "provided," "connected," and "sleeved" should be understood in a broad sense. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.
The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.
Example 1
As shown in fig. 1 and 2, the sunlight room comprises a glass assembly and a mounting piece, wherein the glass assembly comprises a first glass assembly 23 and a second glass assembly 24, the mounting piece comprises a first keel 20, a second keel 21, a third keel 22 and a pressing plate 26, the end parts of the first keel 20 and the second keel 21 are oppositely arranged on two sides of the third keel 22, the first keel 20, the second keel 21 and the third keel 22 are connected to form an integrated piece, and the longitudinal section of the integrated piece is in a T shape;
the pressing plate 26 is positioned above the first glass assembly 23 and the second glass assembly 24, the contact part of the first glass assembly 23 and the second glass assembly 24 with the pressing plate 26, the gap between the end part of the first glass assembly 23 and the end part of the second glass assembly 24, the space between the first glass assembly 23 and the second keel 21, and the sealing structure between the second glass assembly 24 and the first keel 20 are arranged;
the pressing plate 26 covers the gap between the first glass assembly 23 and the second glass assembly 24, and the pressing plate 26 is provided with a threaded connection structure 25 which sequentially penetrates through the pressing plate 26, the gap between the first glass assembly 23 and the second glass assembly 24 and extends to the inside of the third keel 22;
the first glass assembly 23 and the second glass assembly 24 have the same structure, the first glass assembly 23 comprises an outer layer glass 1, a middle layer glass 2, a first inner layer glass 3 and a second inner layer glass 4 which are sequentially arranged, the outer layer glass 1 is positioned at one side close to the pressing plate 26, the second inner layer glass 4 is positioned at one side close to the integrated piece, hollow cavities 8 are respectively formed between the outer layer glass 1 and the middle layer glass 2, between the middle layer glass 2 and the first inner layer glass 3, and inert gas is filled in the hollow cavities 8; the surfaces of the outer layer glass 1 and the middle layer glass 2 are both provided with double-silver Low-E films 9.
The glass assembly of the embodiment comprises a first glass assembly 23 and a second glass assembly 24, wherein the first glass assembly 23 and the second glass assembly 24 are fixedly connected through a mounting piece, the glass assembly formed by connection and a structural unit formed by the mounting piece are connected, and a plurality of structural units are connected to form a sunlight room. It is understood that the structural unit is the smallest unit that constitutes the overall structure of the sunlight room.
In this embodiment, the end portions of the first keel 20 and the second keel 21 are oppositely arranged at two sides of the third keel 22, the first keel 20, the second keel 21 and the third keel 22 are connected to form an integral piece, the longitudinal section of the integral piece is T-shaped, specifically, the end portions of the first keel 20 and the second keel 21 are respectively welded to the side surfaces of the end portions of the third keel 22 which are oppositely arranged, so that a structural member with a T-shaped longitudinal section is formed among the first keel 20, the second keel 21 and the third keel 22; the first glass assembly 23 and the second glass assembly 24 are arranged above the T-shaped structural member, in the installation process, the first glass assembly 23 and the second glass assembly 24 are oppositely arranged, a gap is arranged between the first glass assembly 23 and the second glass assembly 24, and the pressing plate 26 is arranged above the first glass assembly 23 and the second glass assembly 24 and covers the gap between the first glass assembly 23 and the second glass assembly 24; in this way, the space between the pressing plate 26 and the T-shaped structural member forms a tight fixation for the first glass assembly 23 and the second glass assembly 24, and the fixation is performed by sequentially penetrating the gap between the pressing plate 26 and the first glass assembly 23 and the second glass assembly 24 through the screw connection structure 25 and extending into the third keel 22. The first keel 20, the second keel 21 and the third keel 22 which are used simultaneously are galvanized steel keels, and are respectively coated with anti-corrosion pieces 32 on the outer surfaces, the specific structure of the anti-corrosion pieces 32 can be wire-drawing stainless steel, corrosion to the steel keels can be effectively reduced, and meanwhile the attractiveness of a sunlight room is improved. The corrosion resistant member 32 may be any other structural member having an equivalent function.
Foretell, at the position of being connected of first glass subassembly 23, second glass subassembly 24 respectively with clamp plate 26, in the tip clearance of the tip of first glass subassembly 23 and second glass subassembly 24, between first glass subassembly 23 and the second fossil fragments 21, all be equipped with seal structure between second glass subassembly 24 and the first fossil fragments 20, form three seal structure so, can effectively strengthen the fastening joint strength between glass subassembly and the installed part, increase the leakproofness, thermal insulation performance is better.
In addition, the glass assembly described in this embodiment, the first glass assembly 23, the structure of the second glass assembly 24 are the same, in the first glass assembly 23, the adoption is made up of outer glass 1, middle glass 2, first inner glass 3, second inner glass 4, in the concrete structural improvement, the setting of cavity 8, in cavity 8 intussuseption inert gas, inert gas specifically can be argon gas, after inert gas fills, adopt the adhesive to seal between the glass, so can strengthen the thermal-insulated sound-proof performance of glass assembly, reduce cavity glass's coefficient of heat transfer K value, and to summer, can make the thermal-insulated performance of sunshine room carry out effective enhancement.
Compared with the glass in the prior art, the glass assembly adopted in the embodiment is provided with the double-silver Low-E film 9 on the surfaces of the outer layer glass 1 and the middle layer glass 2, and the double-silver Low-E film is a Low-radiation film and has the characteristics of high visible light transmission and high middle and far-infrared light reflection, so that the glass assembly has excellent heat insulation effect and good permeability after being plated on the glass, namely the solar infrared energy input ratio is lower.
Other structures and operation principles related to the present embodiment are well known to those skilled in the art and will not be described in detail.
Example 2:
the present embodiment is further defined on the basis of embodiment 1, and the sealing structure provided at the connection portion of each of the first glass assembly 23 and the second glass assembly 24 with the pressing plate 26 is a first sealing structure 28; the sealing structure arranged in the gap between the end part of the first glass assembly 23 and the end part of the second glass assembly 24 is a second sealing structure 30; the sealing structure between the first glass assembly 23 and the second keel 21 and between the second glass assembly 24 and the first keel 20 is a third sealing structure 31.
In this embodiment, the sealing structure in embodiment 1 is further optimized, and specifically, the first sealing structure 28, the second sealing structure 30, and the third sealing structure 31 may be the same structure, and the first sealing structure 28 may be a neutral silicone weather-resistant sealant. The neutral silicone weather-resistant sealant has high-strength cohesiveness and high-temperature resistance, can enhance the connection sealing property of a glass component and a mounting part, and enables the air tightness of a sunlight room to be better.
Other structures and operation principles related to the present embodiment are well known to those skilled in the art and will not be described in detail.
Example 3:
the present embodiment is further limited on the basis of the above embodiments, the noise reduction member 29 is disposed at the contact portion between the pressing plate 26 and the first glass assembly 23, and the contact portion between the pressing plate 26 and the second glass assembly 24, where the noise reduction member 29 may be a noise reduction double-sided tape, and the noise reduction double-sided tape is disposed to avoid direct contact between the pressing plate 26 and the first glass panel 23 and the second glass panel 24.
In addition, the specific structure of the noise reduction double-sided tape can be a double-sided tape structure, and the noise reduction double-sided tape has the effects of isolating two parts and buffering and noise reduction.
Example 4:
in this embodiment, the pressing plate 26 is further limited to the embodiment 1, the longitudinal section of which is U-shaped, and in the installed state, the pressing plate 26 having the U-shaped structure is installed on the first glass assembly 23 and the second glass assembly 24 at the bottom surface.
The mounting part further comprises a decorative buckle cover 27, the decorative buckle cover 27 is of an inverted U-shaped structure, two end portions of the decorative buckle cover 27 are buckled on the first glass assembly 23 and the second glass assembly 24 respectively, and the decorative buckle cover 27 is connected with the first glass assembly 23 and the second glass assembly 24 through a sealing structure, so that the pressing plate 26 is tightly connected with the decorative buckle cover 27, the first glass assembly 23 and the second glass assembly 24.
During installation, the decorative buckle cover 27 is buckled on the pressing plate 26, and two ends of the decorative buckle cover 27 are respectively contacted with the first glass assembly 23 and the second glass assembly 24 through a sealing structure, so that the pressing plate 26 is sealed between the decorative buckle cover 27 and the first glass panel 23 and between the decorative buckle cover 27 and the second glass panel 24, and the first glass panel 23 and the second glass panel 24 are tightly fixed with the installation piece.
Other structures and operation principles related to the present embodiment are well known to those skilled in the art and will not be described in detail.
Example 5:
in this embodiment, it is further preferable that molecular sieves 5 are disposed between the outer layer glass 1 and the middle layer glass 2, and between the middle layer glass 2 and the first inner layer glass 3, and the molecular sieves 5 are bonded together through butyl rubber 6; and sealants 7 are arranged on the outer side of the molecular sieve 5 and between the outer layer glass 1 and the middle layer glass 2, and between the middle layer glass 2 and the first inner layer glass 3.
The sealant 7, the butyl rubber 6 and the molecular sieve 5 jointly form the sealing of the hollow cavity between the outer layer glass and the middle layer glass and between the middle layer glass and the first inner layer glass, so that the leakage of inert gas in the hollow cavity is prevented, and the glass component plays a good role in the heat insulation and heat preservation performance of the whole glass component.
Specifically, sealed glue 7 is polysulfide glue, and outer glass 1, middle level glass 2, first inlayer glass 3, second inlayer glass 4 are tempering white glass, connect through film 10 between first inlayer glass 3, the second inlayer glass 4, film 10 is the PVB film.
Other structures and operating principles thereof involved in the present embodiment are well known to those skilled in the art and will not be described in detail.
Example 6:
on the basis of embodiment 5, the thickness of the tempered white glass is 6 mm, and the thickness of the hollow cavity is 12 mm, so that the sunlight room manufactured according to the structure can achieve the following technical indexes: the visible light transmittance is 59 percent, the heat transfer coefficient is 0.9, the shading coefficient is 0.406, the photo-thermal ratio is 1.65, and the total solar infrared heat transmittance is 0.085.
Example 7:
on the basis of embodiment 5, the thickness of the tempered white glass is 7 mm, and the thickness of the hollow cavity is 16 mm, so that the sunlight room manufactured according to the structure can achieve the following technical indexes: the visible light transmittance is 60%, the heat transfer coefficient is 0.82, the sun-shading coefficient is 0.4, the photo-thermal ratio is 1.60, and the total solar infrared heat transmittance is 0.083.
In summary, the sunlight room prepared by the above embodiment has the following advantages:
1) the solar infrared transmission ratio is lower, and the heat insulation performance in summer is better;
2) the heat-transfer coefficient K is lower, compared with the prior art of more than 1.5, the K of the sunlight room in the embodiment can reach less than 0.8, and the heat-preservation performance in winter is more excellent;
3) the visible light transmittance is high, and the natural lighting is good;
4) the development of passive energy-saving house buildings is promoted;
5) considerable building energy consumption cost is saved;
6) the glass can be cleaned and maintained by using a conventional glass cleaning agent;
7) the node of the mounting part in the sunlight room is sealed by three ways, so that the sunlight room has better air tightness and better heat insulation performance;
8) the steel keel in the node of the installation part in the sunlight room is wrapped by stainless steel, so that the corrosion of the steel keel is effectively slowed down, and the attractiveness of the sunlight room is improved;
9) the design of the steel keel is adopted in the sunlight room, so that the design requirement of the large-span sunlight room can be met;
10) the integral structure of the sunshine room is convenient to install, the integral strength is high, and the practicability is high.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (10)
1. The sunlight room is characterized by comprising a glass assembly and a mounting piece, wherein the glass assembly comprises a first glass assembly (23) and a second glass assembly (24), the mounting piece comprises a first keel (20), a second keel (21), a third keel (22) and a pressing plate (26), the end parts of the first keel (20) and the second keel (21) are oppositely arranged on two sides of the third keel (22), the first keel (20), the second keel (21) and the third keel (22) are connected to form an integrated piece, and the longitudinal section of the integrated piece is T-shaped;
the pressing plate (26) is positioned above the first glass assembly (23) and the second glass assembly (24), and sealing structures are arranged at the contact part of the first glass assembly (23) and the second glass assembly (24) with the pressing plate (26), in the gap between the end part of the first glass assembly (23) and the end part of the second glass assembly (24), between the first glass assembly (23) and the second keel (21), and between the second glass assembly (24) and the first keel (20);
the pressing plate (26) covers a gap between the first glass assembly (23) and the second glass assembly (24), and a threaded connection structure (25) which sequentially penetrates through the pressing plate (26), the gap between the first glass assembly (23) and the second glass assembly (24) and extends to the inside of the third keel (22) is arranged on the pressing plate (26);
the structure of the first glass assembly (23) is the same as that of the second glass assembly (24), the first glass assembly (23) comprises outer glass (1), middle glass (2), first inner glass (3) and second inner glass (4) which are sequentially arranged, the outer glass (1) is positioned on one side close to a pressing plate (26), the second inner glass (4) is positioned on one side close to an integrated piece, hollow cavities (8) are respectively formed between the outer glass (1) and the middle glass (2) and between the middle glass (2) and the first inner glass (3), and inert gas is filled in the hollow cavities (8); the surfaces of the outer layer glass (1) and the middle layer glass (2) are both provided with double-silver Low-E films (9).
2. A sunlight room according to claim 1, wherein: the outer surfaces of the first keel (20), the second keel (21) and the third keel (22) are coated with corrosion-resistant pieces (32).
3. A sunlight room according to claim 1, wherein: the sealing structures arranged at the connecting parts of the first glass assembly (23) and the second glass assembly (24) and the pressing plate (26) are first sealing structures (28); the sealing structure arranged in the gap between the end part of the first glass assembly (23) and the end part of the second glass assembly (24) is a second sealing structure (30); the sealing structures arranged between the first glass assembly (23) and the second keel (21) and between the second glass assembly (24) and the first keel (20) are third sealing structures (31).
4. A sunlight room according to claim 3, wherein: the first sealing structure (28), the second sealing structure (30) and the third sealing structure (31) are all neutral silicone weather-resistant sealants.
5. A sunlight room according to claim 3, wherein: the contact part of the pressing plate (26) and the first glass assembly (23) and the contact part of the pressing plate (26) and the second glass assembly (24) are both provided with noise reduction pieces (29).
6. A sunlight room according to claim 1, wherein: the longitudinal section of the pressing plate (26) is U-shaped, and the bottom surface of the pressing plate (26) in the U-shaped structure is arranged on the first glass assembly (23) and the second glass assembly (24) in the installation state.
7. The sunlight room of claim 6 wherein: the mounting part further comprises a decorative buckle cover (27), the decorative buckle cover (27) is of an inverted U-shaped structure, two end portions of the decorative buckle cover (27) are buckled on the first glass component (23) and the second glass component (24) respectively, and the decorative buckle cover (27) is connected with the first glass component (23) and the second glass component (24) through a sealing structure, so that the pressing plate (26) is tightly connected with the decorative buckle cover (27), the first glass component (23) and the second glass component (24).
8. A sunlight room according to claim 1, wherein: molecular sieves (5) are arranged between the outer layer glass (1) and the middle layer glass (2) and between the middle layer glass (2) and the first inner layer glass (3), and the molecular sieves (5) are bonded together through butyl rubber (6); and sealants (7) are arranged on the outer side of the molecular sieve (5) and between the outer layer glass (1) and the middle layer glass (2) and between the middle layer glass (2) and the first inner layer glass (3).
9. A sunlight room according to claim 1, wherein: the first inner layer glass (3) and the second inner layer glass (4) are connected through a film (10).
10. A sunlight room according to claim 1, wherein: the outer layer glass (1), the middle layer glass (2), the first inner layer glass (3) and the second inner layer glass (4) are all tempered white glass.
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CN113006652A (en) * | 2021-03-18 | 2021-06-22 | 温州前瞻玻璃科技有限公司 | Molecular sieve spacing strip, manufacturing method and equipment |
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CN113006652A (en) * | 2021-03-18 | 2021-06-22 | 温州前瞻玻璃科技有限公司 | Molecular sieve spacing strip, manufacturing method and equipment |
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