CN211817596U - Heat-insulating and radiation-proof hollow glass with buffer structure - Google Patents

Abstract

The utility model discloses a thermal-insulated radiation protection cavity glass with buffer structure, including first glass board, protection component, buffering subassembly and second glass board, the outward flange parcel of first glass board has protection component, the rear side four corners of first glass board all is fixed with buffering subassembly, the rear side of buffering subassembly is connected with the second glass board, first glass board includes glass board main part, thermal-insulated membrane and radiation protection membrane, the surface of glass board main part is connected with thermal-insulated membrane, the surface mounting of thermal-insulated membrane has radiation protection membrane, protection component includes guard plate and cushion, the inboard of guard plate is connected with the cushion, buffering subassembly includes inflator, piston, movable rod and reset spring, the internally mounted of inflator has the piston, the upper end of piston is fixed with the movable rod. The device utilizes the air pressure change in the inflator to effectively buffer and protect the two glass plates, thereby improving the pressure resistance of the whole hollow glass.

Description

Heat-insulating and radiation-proof hollow glass with buffer structure

Technical Field

The utility model relates to a building material technical field, specific thermal-insulated radiation protection cavity glass with buffer structure that says so.

Background

The hollow glass invented by Americans in 1865 is a new type building material with good sound-insulating property, beautiful appearance and applicability and capable of reducing self-weight of building, and is made up by using two (or three) sheets of glass, using high-strength high-air-tightness composite adhesive to make the glass sheet and aluminium alloy frame containing drying agent be adhered together so as to obtain the invented high-effective sound-insulating heat-insulating glass. However, the radiation protection effect of the hollow glass in the current market in the using process is poor, the inside of the hollow glass is not convenient to arrange a buffer structure, and the corners are not provided with a protection structure, so that the hollow glass is easy to crack when being heavily hit, and therefore, the heat-insulation radiation-protection hollow glass with the buffer structure is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a thermal-insulated radiation protection cavity glass with buffer structure.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a heat-insulating radiation-proof hollow glass with a buffer structure comprises a first glass plate, a protection component, a buffer component and a second glass plate, the outer edge of the first glass plate is wrapped with a protective component, four corners of the rear side of the first glass plate are all fixed with buffer components, the rear side of the buffer component is connected with a second glass plate, the first glass plate comprises a glass plate main body, a heat insulation film and a radiation protection film, the outer surface of the glass plate main body is connected with a heat insulation film, the outer surface of the heat insulation film is provided with a radiation protection film, the protection component comprises a protection plate and a cushion, the cushion is connected to the inner side of the protection plate, the cushion component comprises an air cylinder, a piston, a movable rod and a reset spring, the inner mounting of inflator has the piston, the upper end of piston is fixed with the movable rod, reset spring has been cup jointed in the upper end outside of movable rod.

The first glass plate and the second glass plate have the same structure, and a hollow structure is formed between the first glass plate and the second glass plate.

And a full-surrounding structure is formed between the heat insulation film and the radiation protection film and between the glass plate main body, and the heat insulation film and the radiation protection film are tightly attached.

The structure of cushion is elastic structure, the material of cushion is silica gel.

The movable rod runs through the interior of the inflator, and the movable rod forms a telescopic structure with the inflator through the piston.

The inflator forms an elastic structure with the second glass plate through the return spring, and the return spring is fixedly connected with the inflator and the second glass plate.

The utility model has the advantages that: the device is provided with two glass plates to manufacture the main body of the whole hollow glass, the thickness of the hollow glass is effectively improved, the hollow glass is hollow inside, the sound insulation and heat insulation effects of the whole glass are greatly enhanced, the heat insulation film and the radiation protection film are arranged to be attached to the surface of the glass plate main body, the heat insulation and radiation protection effects of a single glass plate main body are effectively enhanced, the device is more suitable for the decoration structure of the building outer wall, the cushion is arranged to wrap the corners of the two glass plates by utilizing the elastic action of the cushion, so that the corners are better protected, the corners are prevented from being easily collided and cracked, the movable rod and the inflator can be stretched and retracted, so that the pressure change in the inflator can be utilized to effectively buffer and protect the two glass plates, the compression resistance of the whole hollow glass is improved, and the inflator further improves the buffer effect of the whole buffer assembly by utilizing the, so as to achieve good cushioning effect on the glass plate.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the cross-sectional structure of the present invention;

fig. 3 is a schematic view of a part of an enlarged structure at a in fig. 2 according to the present invention.

In the figure: 1 first glass plate, 101 glass plate main body, 102 heat insulation film, 103 radiation protection film, 2 protection component, 201 protection plate, 202 soft cushion, 3 buffer component, 301 air cylinder, 302 piston, 303 active lever, 304 reset spring and 4 second glass plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, a heat-insulating radiation-proof hollow glass with a buffering structure comprises a first glass plate 1, a glass plate main body 101, a heat-insulating film 102, a radiation-proof film 103, a protection assembly 2, a protection plate 201, a cushion 202, a buffer assembly 3, an air cylinder 301, a piston 302, a movable rod 303, a return spring 304 and a second glass plate 4, wherein the protection assembly 2 is wrapped on the outer edge of the first glass plate 1, the buffer assemblies 3 are fixed on four corners of the rear side of the first glass plate 1, the rear side of the buffer assembly 3 is connected with the second glass plate 4, the first glass plate 1 comprises the glass plate main body 101, the heat-insulating film 102 and the radiation-proof film 103, the heat-insulating film 102 is connected to the outer surface of the glass plate main body 101, the radiation-proof film 103 is installed on the outer surface of the heat-insulating film 102, the protection assembly 2 comprises the protection plate 201 and the cushion 202, the cushion, buffer unit 3 includes inflator 301, piston 302, movable rod 303 and reset spring 304, the internally mounted of inflator 301 has piston 302, the upper end of piston 302 is fixed with movable rod 303, reset spring 304 has been cup jointed in the upper end outside of movable rod 303.

The utility model discloses in, first glass board 1 is the same with second glass board 4's structure, form hollow structure between first glass board 1 and the second glass board 4, whole cavity glass's main part is made to two glass boards, has effectively improved cavity glass's thickness to inside cavity has strengthened whole glass's syllable-dividing and thermal-insulated effect greatly.

Form the structure of enclosing entirely between thermal-insulated membrane 102 and the radiation protection membrane 103 and the glass board main part 101, closely laminate between thermal-insulated membrane 102 and the radiation protection membrane 103, thermal-insulated membrane 102 and radiation protection membrane 103 paste the surface at glass board main part 101, have effectively strengthened the thermal-insulated and radiation protection effect of single glass board main part 101 for it is more applicable to the decorative structure of building outer wall.

The structure of cushion 202 is elastic construction, the material of cushion 202 is silica gel, and cushion 202 utilizes the elastic action parcel of self to live the corner of two glass boards to in the better protection of opposite side angle, avoid the corner to take place easily to collide with and cracked.

The movable rod 303 runs through the inside of inflator 301, the movable rod 303 passes through and constitutes extending structure between piston 302 and inflator 301, can stretch out and draw back between movable rod 303 and the inflator 301 to utilize the inside atmospheric pressure change of inflator 301 to carry out effective buffering protection to two glass boards, thereby improve whole cavity glass's compressive capacity.

The gas cylinder 301 forms an elastic structure with the second glass plate 4 through the return spring 304, the return spring 304 is fixedly connected with the gas cylinder 301 and the second glass plate 4, and the gas cylinder 301 further improves the buffering effect of the whole buffering assembly 3 by utilizing the elastic action of the return spring 304 so as to achieve a good buffering effect on the glass plates.

The utility model discloses a theory of operation is: when in use, firstly, the heat insulation film 102 is pasted on the outer surface of each glass plate main body 101, then the radiation protection film 103 is pasted on the outer part of the heat insulation film 102, thereby forming the first glass plate 1 or the second glass plate 4, then one end of the air cylinder 301 is respectively fixed at four corners of the outer edge of the first glass plate 1, one end of the movable rod 303 is connected with the piston 302 and is arranged in the air cylinder 301, the other end of the movable rod 303 extends out of the air cylinder 301, the outer part is sleeved with the return spring 304, one end of the return spring 304 is fixed on the outer edge of the air cylinder 301, thereby forming the buffer component 3, then the other ends of the return spring 304 and the movable rod 303 are fixed with the second glass plate 4, thereby connecting the first glass plate 1 and the second glass plate 4 together, then the cushion 202 is wrapped on the outer edges of the first glass plate 1 and the second glass plate 4, and then the protection plate 201 is fixed on the outer, thereby forming the protection assembly 2, when the first glass plate 1 or the second glass plate 4 is pressed, the return spring 304 and the movable rod 303 contract to a certain extent, thereby buffering the pressure.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a thermal-insulated radiation protection cavity glass with buffer structure, its characterized in that, includes first glass board (1), protection component (2), buffer component (3) and second glass board (4), the outward flange parcel of first glass board (1) has protection component (2), the rear side four corners of first glass board (1) all is fixed with buffer component (3), the rear side of buffer component (3) is connected with second glass board (4), first glass board (1) includes glass board main part (101), thermal-insulated membrane (102) and radiation protection membrane (103), the surface of glass board main part (101) is connected with thermal-insulated membrane (102), the surface mounting of thermal-insulated membrane (102) has radiation protection membrane (103), protection component (2) are including guard plate (201) and cushion (202), the inboard of guard plate (201) is connected with cushion (202), buffer unit (3) include inflator (301), piston (302), movable rod (303) and reset spring (304), the internally mounted of inflator (301) has piston (302), the upper end of piston (302) is fixed with movable rod (303), reset spring (304) have been cup jointed in the upper end outside of movable rod (303).

2. The insulating and radiation-proof hollow glass with the buffer structure as claimed in claim 1, wherein: the structure of the first glass plate (1) is the same as that of the second glass plate (4), and a hollow structure is formed between the first glass plate (1) and the second glass plate (4).

3. The insulating and radiation-proof hollow glass with the buffer structure as claimed in claim 1, wherein: and a full-surrounding structure is formed between the heat insulation film (102) and the radiation protection film (103) and the glass plate main body (101), and the heat insulation film (102) and the radiation protection film (103) are tightly attached.

4. The insulating and radiation-proof hollow glass with the buffer structure as claimed in claim 1, wherein: the structure of cushion (202) is elastic structure, the material of cushion (202) is silica gel.

5. The insulating and radiation-proof hollow glass with the buffer structure as claimed in claim 1, wherein: the movable rod (303) penetrates through the interior of the air cylinder (301), and the movable rod (303) forms a telescopic structure with the air cylinder (301) through the piston (302).

6. The insulating and radiation-proof hollow glass with the buffer structure as claimed in claim 1, wherein: the air cylinder (301) and the second glass plate (4) form an elastic structure through the return spring (304), and the return spring (304) is fixedly connected with the air cylinder (301) and the second glass plate (4).

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