CN210342342U - Special-shaped heat-insulating energy-saving curtain wall structure - Google Patents

Abstract

A special-shaped heat-insulating energy-saving curtain wall structure comprises: the glass cover plate is hollow and long in section and is provided with a wavy curved surface side and a plane side opposite to the curved surface side; the vacuum glass tube is arranged inside the glass cover plate and is opposite to the wave-shaped position of the curved edge; and the supporting and isolating blocks are arranged between the vacuum glass tubes, separate the vacuum glass tubes and are separated from the inner wall of the glass cover plate. The utility model discloses a glass cover plate that dysmorphism heat preservation energy-saving curtain wall structure adopted curved surface limit and support the spacing block combined action can make vacuum glass pipe at glass cover plate internally mounted more stable, even produce and rock vacuum glass pipe and can not hit the damage yet to the bulk strength of glass cover plate is better, supports the spacing block and has heat preservation concurrently and support buffer function, makes the heat preservation effect and the life of curtain all obtain promoting.

Description

Special-shaped heat-insulating energy-saving curtain wall structure

Technical Field

The utility model relates to an assembly type structure fitment field, more specifically the utility model relates to a dysmorphism heat preservation energy saving curtain wall construction that says so.

Background

The prior building materials mainly comprise traditional building materials such as stone, cement, concrete, metal, tiles and ceramics and glass curtain walls, wherein the traditional building materials have certain defects in various indexes such as weight, strength, light transmission, sound insulation, heat preservation, attractiveness, safety, cost performance, reproducibility and the like, and the glass curtain walls are poor in heat preservation performance and safety performance although being light-transmitting, and hollow glass is poor in heat preservation performance, too high in manufacturing cost and easy to damage, and once the hollow glass and the vacuum glass leak air, condensation water can be generated on the cover plate, so that the heat preservation performance is poor. The traditional building material is low in price, but is opaque, non-renewable, poor in heat preservation performance, high in energy consumption and not in line with the trend of low-carbon buildings. The conventional heat-insulating material is basically an organic material or the main component of the conventional heat-insulating material is an organic material, the material is non-fireproof, high in manufacturing cost and short in service life, and the service life of a building is at least 50 years, so that the building needs to be repaired after 20-25 years, the cost and labor are increased, and the waste pollutes the environment.

The patent with publication number CN102199937A discloses a vacuum-pumping heat-insulating curtain wall module with a vacuum glass tube and a composite glass plate interlayer, which comprises a vacuum glass tube, a glass cover plate, a frame, adhesive glue and an exhaust pipe head. The vacuum glass tubes are closely distributed on the groove surface of the glass cover plate with the frame on one side, and gaps between the vacuum glass tubes are bonded, glued and sealed through bonding glue to form a vacuum glass tube bank. The gap between the vacuum glass tube and the gap between the vacuum glass tube and the frame are bonded, glued and sealed by bonding glue, at least one side of the vacuum glass tube bank is arranged and positioned with the glass cover plate, the interlayer gaps between the vacuum glass tube bank and the glass cover plate are mutually communicated, and the glass cover plate or the frame is provided with an exhaust pipe head which is communicated with the interlayer gaps to form the heat-preservation curtain wall. The novel light-emitting diode has a heat preservation function, has good performances in the aspects of weight, strength, light transmission, sound insulation, attractiveness, safety, cost performance, reproducibility and the like, and has an important promotion effect on low-carbon life and circular economy. However, in the curtain wall structure, the adjacent vacuum glass tubes and the glass cover plate are fixed by using the adhesive, if the curtain wall vibrates, the adhesive part of the adhesive is easy to loosen, and the glass material is easy to be damaged by shaking after the curtain wall loosens for a long time.

SUMMERY OF THE UTILITY MODEL

The weak point to prior art the utility model provides a dysmorphism energy-conserving curtain wall construction that keeps warm, the utility model discloses a glass cover plate that dysmorphism energy-conserving curtain wall construction adopted curved surface limit can make the vacuum glass pipe more stable at glass cover plate internally mounted with supporting the spacer block combined action, even produce and rock the vacuum glass pipe and can not hit the loss yet to the bulk strength of glass cover plate is better, supports the spacer block and has heat preservation and support buffer function concurrently, makes the heat preservation effect and the life of curtain all obtain promoting.

The utility model discloses a concrete technical scheme as follows, a dysmorphism heat preservation energy-saving curtain wall construction, include:

the glass cover plate is hollow and long in section and is provided with a wavy curved surface side and a plane side opposite to the curved surface side;

the vacuum glass tube is arranged inside the glass cover plate and is opposite to the wave-shaped position of the curved edge;

and the supporting and isolating blocks are arranged between the vacuum glass tubes, separate the vacuum glass tubes and are separated from the inner wall of the glass cover plate.

Therefore, the curved side of the glass cover plate and the supporting and isolating block act together to enable the vacuum glass tube to be more stably mounted inside the glass cover plate, the vacuum glass tube cannot be damaged by collision even if shaking occurs, and the strength of the glass cover plate is better.

As the utility model discloses a preferred, the curved surface limit includes bellying and depressed part, vacuum glass tube install in the position that the bellying is relative.

Therefore, the space of the vacuum glass tube is better accommodated at the bulge part, so that the curtain wall has smaller volume and better heat preservation effect.

As the utility model discloses a preferred, support the spacing block and include curved surface holding surface, plane holding surface and two glass pipe holding surfaces at least, the curved surface holding surface with plane holding surface position is relative, and two places said glass pipe holding surface position is relative.

Therefore, the supporting and isolating block is better attached and matched with the curved surface supporting surface and the surface of the vacuum glass tube, so that the pressure on the contact surface is smaller.

As the utility model discloses a preferred, the curved surface holding surface possess with the same sunken and with the depressed part cooperation offsets, the plane holding surface with the plane limit offsets, the glass pipe holding surface possess with the same sunken and messenger of vacuum glass pipe radius the vacuum glass pipe is absorbed in and is obtained spacingly in the sunken.

Therefore, the supporting and isolating blocks can be more stably separated between the adjacent vacuum glass tubes and between the vacuum glass tubes and the inner wall of the glass cover plate, and the supporting and isolating blocks can support and protect the vacuum glass tubes.

As the utility model discloses a preferred, the glass cover plate is in the curved surface limit with there is the circular arc transition limit in the crossing department at plane limit edge, there is inside bellied glass pipe supporting part in the circular arc transition limit inboard, glass pipe supporting part and two at the most edge the vacuum glass pipe offsets.

Thereby, the two vacuum glass tubes at the extreme edges can be effectively supported.

As the utility model discloses a preferred, vacuum glass manages the cross-section for circular or oval, and inside evacuation processing.

Therefore, the heat insulation effect of the special-shaped heat insulation energy-saving curtain wall can be ensured through the vacuumizing treatment of the vacuum glass tube.

Preferably, the supporting isolation block is made of foam plastic.

Therefore, the supporting and isolating block made of foamed plastic has the advantages of low density, light weight, good buffering and damping performance, good sound insulation and absorption performance, low heat conductivity, good heat insulation performance and the like.

To sum up, the utility model discloses following beneficial effect has:

the utility model discloses a glass cover plate that dysmorphism heat preservation energy-saving curtain wall structure adopted curved surface limit and support the spacing block combined action can make vacuum glass pipe at glass cover plate internally mounted more stable, even produce and rock vacuum glass pipe and can not hit the damage yet to the bulk strength of glass cover plate is better, supports the spacing block and has heat preservation concurrently and support buffer function, makes the heat preservation effect and the life of curtain all obtain promoting.

Drawings

FIG. 1 is a schematic structural view of the structural section of the special-shaped heat-insulating energy-saving curtain wall of the utility model;

in the figure, 1-glass cover plate, 11-curved surface edge, 111-convex part, 112-concave part, 12-plane edge, 13-arc transition edge, 131-glass tube supporting part, 2-vacuum glass tube, 3-supporting spacer block, 31-curved surface supporting surface, 32-plane supporting surface and 33-glass tube supporting surface.

Detailed Description

The present invention will be further explained by the following embodiments with reference to the attached drawings.

As shown in figure 1, the special-shaped heat-insulating energy-saving curtain wall structure comprises:

the glass cover plate 1 is characterized in that the cross section of the glass cover plate 1 is hollow and long, and a wavy curved surface edge 11 and a plane edge 12 opposite to the curved surface edge 11 are formed;

the vacuum glass tube 2 is arranged in the glass cover plate 1, and the vacuum glass tube 2 is opposite to the wave-shaped position of the curved edge 11;

and the supporting and isolating blocks 3 are arranged between the vacuum glass tubes 2, separate the vacuum glass tubes 2 and are separated from the inner wall of the glass cover plate 1.

Therefore, the curved edge 11 of the glass cover plate 1 and the supporting isolation block 3 act together to enable the vacuum glass tube 2 to be more stably mounted inside the glass cover plate 1, the vacuum glass tube 2 cannot be damaged by collision even if shaking occurs, and the strength of the glass cover plate 1 is better.

As shown in FIG. 1, the curved side 11 includes a convex portion 111 and a concave portion 112, and the vacuum glass tube 2 is installed at a position opposite to the convex portion 111.

From this, vacuum glass pipe 2's space obtains better holding in bellying 111 department for the curtain volume is littleer, and the heat preservation effect is better.

As shown in fig. 1, the supporting spacer 3 at least comprises a curved supporting surface 31, a flat supporting surface 32 and two glass tube supporting surfaces 33, wherein the curved supporting surface 31 and the flat supporting surface 32 are opposite to each other, and the two glass tube supporting surfaces 33 are opposite to each other.

Therefore, the support isolation block 3 is better fit and matched with the curved support surface 31 and the surface of the vacuum glass tube 2, so that the pressure on the contact surface is smaller.

As shown in fig. 1, the curved support surface 31 has the same recess as the recess 112 and is engaged with and abutted against the recess 112, the flat support surface 32 is abutted against the flat side 12, and the glass tube support surface 33 has the same radius as the vacuum glass tube 2 and is restrained from sinking into the recess of the vacuum glass tube 2.

Therefore, the supporting and isolating blocks 3 can be more stably separated between the adjacent vacuum glass tubes 2 and between the vacuum glass tubes 2 and the inner wall of the glass cover plate 1, and play a role in supporting and protecting the vacuum glass tubes 2.

As shown in figure 1, the glass cover plate 1 has a circular arc transition edge 13 at the intersection of the edges of the curved edge 11 and the flat edge 12, a glass tube supporting part 131 protruding inwards is arranged at the inner side of the circular arc transition edge 13, and the glass tube supporting part 131 is abutted against the two vacuum glass tubes 2 at the outermost edge.

Thereby, the two vacuum glass tubes 2 at the extreme edges can also be effectively supported.

As shown in FIG. 1, the vacuum glass tube 2 has a circular or elliptical cross section and is internally evacuated.

Therefore, the heat preservation effect of the special-shaped heat preservation energy-saving curtain wall can be ensured through the vacuum pumping treatment of the vacuum glass tube 2.

As shown in fig. 1, the material of the supporting and isolating block 3 is foam plastic.

Therefore, the supporting and isolating block 3 is made of foam plastic and has the advantages of low density, light weight, good buffering and damping performance, good sound insulation and absorption performance, low heat conductivity, good heat insulation performance and the like.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solution of the present invention by those skilled in the art should fall into the protection scope of the present invention, and the technical contents claimed by the present invention have been fully recorded in the claims.

Claims (7)

1. The utility model provides an energy-conserving curtain wall construction of dysmorphism heat preservation which characterized in that includes:

the glass cover plate (1) is hollow and long in section, and is provided with a wavy curved side (11) and a plane side (12) opposite to the curved side (11);

the vacuum glass tube (2) is arranged inside the glass cover plate (1), and is opposite to the wave-shaped position of the curved side (11);

the supporting and isolating blocks (3) are installed between the vacuum glass tubes (2), separate the vacuum glass tubes (2) and are separated from the inner wall of the glass cover plate (1).

2. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 1, wherein: the curved surface edge (11) comprises a convex part (111) and a concave part (112), and the vacuum glass tube (2) is arranged at the position opposite to the convex part (111).

3. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 2, wherein: the supporting and isolating block (3) at least comprises a curved supporting surface (31), a plane supporting surface (32) and two glass tube supporting surfaces (33), wherein the curved supporting surface (31) and the plane supporting surface (32) are opposite in position, and the two glass tube supporting surfaces (33) are opposite in position.

4. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 3, wherein: the curved surface supporting surface (31) is provided with a recess which is the same as the recess (112) and is matched and abutted with the recess (112), the plane supporting surface (32) is abutted with the plane edge (12), and the glass tube supporting surface (33) is provided with a recess which has the same radius as the vacuum glass tube (2) and enables the vacuum glass tube (2) to be sunk into the recess to be limited.

5. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 1, wherein: the glass cover plate (1) is characterized in that an arc transition edge (13) is arranged at the intersection of the edges of the curved surface edge (11) and the plane edge (12), an inward-convex glass tube supporting part (131) is arranged on the inner side of the arc transition edge (13), and the glass tube supporting part (131) is abutted to the two vacuum glass tubes (2) at the outermost edges.

6. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 1, wherein: the section of the vacuum glass tube (2) is circular or elliptical, and the interior of the vacuum glass tube is vacuumized.

7. The special-shaped heat-insulating energy-saving curtain wall structure as claimed in claim 1, wherein: the supporting isolation block (3) is made of foam plastics.

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