CN211968687U - Daylighting glass structure capable of preventing water accumulation - Google Patents

Abstract

The utility model provides a water-proof lighting glass structure, which comprises a first arc glass plate and a second arc glass plate, wherein the center of the first arc glass plate is bent to one side far away from the second arc glass plate, a sealing strip is arranged between the first arc glass plate and the second arc glass plate, and a sound-proof and heat-proof cavity is formed among the first arc glass plate, the second arc glass plate and the sealing strip; one side that first arc glass board is close to second arc glass board is equipped with a plurality of scattering recesses, and one side that second arc glass board was kept away from to first arc glass board is equipped with heat-resisting waterproof layer, and one side that first arc glass board was kept away from to second arc glass board is equipped with rupture membrane and titanium dioxide layer in proper order. The utility model is used for have good ponding performance of preventing during building printing opacity skylight, scattering structure can scatter the light of process, makes the light of process can disperse to all directions to effectively improve indoor environment grading scope.

Description

Daylighting glass structure capable of preventing water accumulation

Technical Field

The utility model relates to a daylighting glass specifically discloses a daylighting glass structure of preventing ponding.

Background

The lighting glass is a glass structure used for the building glass lighting roof, the building glass lighting roof mainly comprises a steel structure and the lighting glass, and the lighting glass has the effects of light transmission, wind prevention, rain prevention and the like.

In the prior art, the lighting glass is a general plate glass structure, and when the lighting glass is used for a building glass lighting roof, a plurality of plate glasses are usually paved into a pointed top shape with two downward sides, so as to ensure the effect of water accumulation prevention.

SUMMERY OF THE UTILITY MODEL

Therefore, the lighting glass structure for preventing water accumulation is necessary to solve the problems in the prior art, has good water accumulation prevention performance when used for a light-transmitting skylight of a building, and can effectively scatter passing light, so that the light distribution range of an indoor environment is effectively improved.

In order to solve the prior art problem, the utility model discloses a daylighting glass structure for preventing water accumulation, which comprises a first arc-shaped glass plate and a second arc-shaped glass plate, wherein the center of the first arc-shaped glass plate is arched to one side far away from the second arc-shaped glass plate, a sealing strip surrounding the first arc-shaped glass plate and the second arc-shaped glass plate is arranged between the first arc-shaped glass plate and the second arc-shaped glass plate, and a sound-insulating and heat-insulating cavity is formed among the first arc-shaped glass plate, the second arc-shaped glass plate and the sealing strip;

one side that first arc glass board is close to second arc glass board is equipped with a plurality of scattering recesses, and one side that second arc glass board was kept away from to first arc glass board is equipped with heat-resisting waterproof layer, and one side that first arc glass board was kept away from to second arc glass board is equipped with rupture membrane and titanium dioxide layer in proper order.

Further, the first arc-shaped glass plate is a tempered glass plate.

Furthermore, the heat dissipation groove is of a hemispherical groove structure.

Further, the heat-resistant waterproof layer is a PTFE layer.

Furthermore, the second arc-shaped glass plate is a glass plate.

Further, the sealing strip is an EVA adhesive tape.

Furthermore, a plurality of reinforcing ribs are arranged in the sound-insulating and heat-insulating cavity and connected with the first arc-shaped glass plate and the second arc-shaped glass plate.

The utility model has the advantages that: the utility model discloses a prevent daylighting glass structure of ponding, be provided with the protruding camber structure of arch, can effectively flow down moisture water conservancy diversion to both sides on it for have good ponding performance of preventing when building printing opacity skylight, in addition, scattering structure among the daylighting glass can scatter the light of process, make and can disperse to all directions through the indoor light of daylighting glass arrival, thereby effectively improve the grading scope to the indoor environment, daylighting glass overall structure is stable firm simultaneously, good sound insulation and heat-proof quality has.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The reference signs are: the glass plate comprises a first arc-shaped glass plate 10, a scattering groove 11, a heat-resistant waterproof layer 12, a second arc-shaped glass plate 20, an explosion-proof film 21, a titanium dioxide layer 22, a sealing strip 30, a sound-insulating and heat-insulating cavity 31 and reinforcing ribs 32.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Refer to fig. 1.

The embodiment of the utility model discloses a daylighting glass structure of preventing ponding, including first arc glass board 10 and second arc glass board 20, the center of first arc glass board 10 is to encircleing out the bending to one side of keeping away from second arc glass board 20, the shape of second arc glass board 20 matches with the shape of first arc glass board 10, daylighting glass is the domes that have the radian promptly, when installing and using, first arc glass board 10 is located and is close to outdoor one side, daylighting glass can effectively realize the water conservancy diversion, avoid taking place ponding, when being used for the printing opacity skylight of building, can effectively avoid causing the burden to daylighting glass for a long time because of the weight of ponding self, structural stability when effectively guaranteeing to use, be equipped with between first arc glass board 10 and the second arc glass board 20 around being frame-shaped sealing strip 30, first arc glass board 10, A sound and heat insulation cavity 31 is formed between the second arc-shaped glass plate 20 and the sealing strip 30, and the sound and heat insulation cavity 31 can effectively reduce the transmission effect of sound waves and heat energy, so that a certain sound and heat insulation effect is formed;

one side of the first arc-shaped glass plate 10, which is close to the second arc-shaped glass plate 20, is provided with a plurality of scattering grooves 11, the passing light can be effectively dispersed through the scattering grooves 11, so that the light distribution range of the outside light passing through the lighting glass is improved, and a certain light distribution effect can be obtained around the indoor space under the lighting glass, when the brightness of the outside light is overlarge, the scattering grooves 11 can also reflect partial light, thereby effectively avoiding the adverse consequences of dazzling and the like caused by overlarge light brightness passing through the lighting glass, one side of the first arc-shaped glass plate 10, which is far away from the second arc-shaped glass plate 20, is provided with a heat-resistant waterproof layer 12, the hydrophobicity of the outer surface of the lighting glass can be effectively improved through the heat-resistant waterproof layer 12, so that the water accumulation prevention performance is improved, one side of the second arc-shaped glass plate 20, which is far away, the rupture membrane 21 can effectively protect the structure of second arc glass board 20, in case burst, rupture membrane 21 can effectively restrict the glass piece and avoid its whereabouts to avoid the falling of glass piece to cause the injury to the personnel, titanium dioxide layer 22 has good automatically cleaning ability and anti ultraviolet ability, and under the shining of sunlight, titanium dioxide layer 22 can clean indoor air, reduces simultaneously and reachs indoor ultraviolet ray through daylighting glass.

In this embodiment, the first arc-shaped glass plate 10 is a tempered glass plate, and the surface of the tempered glass plate has a compressive stress, so that the compressive stress of the surface layer can be offset when an external force is applied, thereby improving the bearing capacity, and enhancing the wind pressure resistance, the cold and heat resistance, the impact resistance and the like of the glass itself.

In this embodiment, heat dissipation recess 11 is hemispherical groove structure, can effectively reflect partial light through hemispherical groove structure to adjust the light luminance behind daylighting glass, and hemispherical groove structure's light is dispersed effectually, can effectively enlarge the grading scope behind the daylighting glass of light process.

In this embodiment, the heat-resistant waterproof layer 12 is a PTFE layer, and PTFE is fully called polytetrafluoroethylene, also called teflon, and has low thermal conductivity, extremely low friction coefficient, good lubricating effect, and good hydrophobic effect.

In this embodiment, the second arc-shaped glass plate 20 is a colored glaze glass plate, and the colored glaze glass is artistic glass with bright colors formed by adding various colors into glass by burning and melting and finally cooling in a mold, so that the lighting glass has excellent decorative performance and a wide application range.

In this embodiment, the sealing strip 30 is an EVA adhesive tape, which is also called EVA hot melt adhesive, and is a polymer that does not require a solvent, contains no moisture, is meltable at 100% solid, is solid at room temperature, and is heated and melted to a certain extent to become a liquid adhesive that can flow and has a certain viscosity.

In this embodiment, a plurality of reinforcing ribs 32 are disposed in the sound-insulating and heat-insulating cavity 31, the reinforcing ribs 32 connect the first arc-shaped glass plate 10 and the second arc-shaped glass plate 20, preferably, the reinforcing ribs 32 are transparent resin ribs, so that the light-transmitting effect of the lighting glass can be ensured, and the stability of the structure of the lighting glass plate can be effectively improved.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. The daylighting glass structure is characterized by comprising a first arc-shaped glass plate (10) and a second arc-shaped glass plate (20), wherein the center of the first arc-shaped glass plate (10) is arched to one side far away from the second arc-shaped glass plate (20), a sealing strip (30) which is in a frame shape in a surrounding mode is arranged between the first arc-shaped glass plate (10) and the second arc-shaped glass plate (20), and a sound-insulating and heat-insulating cavity (31) is formed among the first arc-shaped glass plate (10), the second arc-shaped glass plate (20) and the sealing strip (30);

first arc glass board (10) are close to one side of second arc glass board (20) is equipped with a plurality of scattering recess (11), keep away from first arc glass board (10) one side of second arc glass board (20) is equipped with heat-resisting waterproof layer (12), keeping away from of second arc glass board (20) one side of first arc glass board (10) is equipped with rupture membrane (21) and titanium dioxide layer (22) in proper order.

2. A water-accumulation preventing lighting glass structure according to claim 1, characterized in that said first curved glass plate (10) is a tempered glass plate.

3. A water-accumulation-preventing light-collecting glass structure according to claim 1, characterized in that said scattering grooves (11) are hemispherical groove structures.

4. Daylighting glass structure for preventing ponding according to claim 1, characterized in that said heat-resistant and waterproof layer (12) is a PTFE layer.

5. A water accumulation resistant lighting glass structure as claimed in claim 1 or 2, wherein said second curved glass plate (20) is a glass glazed glass plate.

6. A water-accumulation preventing lighting glass structure as claimed in claim 1, characterized in that said sealing strip (30) is an EVA strip.

7. A water-accumulation-preventing lighting glass structure as claimed in claim 1, wherein a plurality of reinforcing ribs (32) are provided in said sound-insulating and heat-insulating chamber (31), said reinforcing ribs (32) connecting said first curved glass plate (10) and said second curved glass plate (20).

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