CN205422386U - Insulating glass is decorated in four glasss, three chambeies - Google Patents

Abstract

The utility model discloses an insulating glass is decorated in four glasss, three chambeies, including the multi layered glass base member, form hollow layer between adjacent two -layer glass base member, the glass base member is established to the four layers, forms three -layer hollow layer in between the four layers glass base member, and the periphery of glass base member is connected with seal structure, seal structure is including being fixed in the circumferential warm strake of glass base member and connecting and bordure in the sealed glue of warm strake outer peripheral edges, warm strake forms one with the adjacent two -layer glass base member that is fixed in warm strake hollow layer, the thickness scope of glass base member is 4~6mm, hollow layer's thickness scope is 8~12mm. The utility model provides a pair of insulating glass is decorated in four glasss, three chambeies, it has better thermal insulation nature and light transmissivity, can extensively be applicable to the fields such as door and window, curtain wall glass and daylight roof of green building and ultra low energy consumption building and nearly zero energy consumption building.

Description

Four glass three chamber decorative heat preservation glass

Technical field

The utility model relates to glass technology field, a kind of four glass three chamber decorative heat preservation glass.

Background technology

Glass is that a kind of transparency, intensity and hardness are the highest, air-locked material, and glass in chemical inertness, also will not work with biology in surroundings, so, purposes is widely.For the glass of building in prior art, it is primarily used to closing, daylighting, insulation.But in the winter of cold district, the heat insulation effect of glass is unsatisfactory, and in hot-summer and cold-winter area or the summer of hot summer and warm winter region, the effect of heat insulation of glass is the most undesirable.Simultaneously along with China's rapid development of economy, people are more and more higher to the requirement of quality of life.

Utility model content

The deficiency existed for prior art, the purpose of this utility model is to provide a kind of four glass three chamber decorative heat preservation glass, it has preferable thermal insulation and light transmission, can be widely used in green building and super low energy consumption building and the field such as door and window, cladding glass and lighting roof of nearly zero energy consumption building.

For achieving the above object, the utility model provides following technical scheme: a kind of four glass three chamber decorative heat preservation glass, including compound glass matrix, hollow layer is formed between adjacent layer glass matrix, described glass basis is set to four layers, three layers of hollow layer are formed between four-layer glass matrix, the periphery of glass basis connects sealing structure, described sealing structure includes the warm edge strip being fixed on glass basis periphery and is connected to the fluid sealant bound edge of warm edge strip outer peripheral edge, described warm edge strip forms hollow layer described in the adjacent layer glass matrix being fixed on warm edge strip, the thickness range of described glass basis is 4～6mm, the thickness range of described hollow layer is 8～12mm.

By using technique scheme, three layers of hollow layer have the effect of insulation, wherein, the thickness of single layer hollow layer is more than the thickness of single-glass matrix, make four glass three chamber decorative heat preservation glass have good heat insulation effect, four-layer glass matrix and three layers of hollow layer are set so that four glass three chamber decorative heat preservation glass integral thickness are at about 47mm, while meeting overwhelming majority application requirement, also there is stronger structure.

The utility model is further arranged to: be filled with inert gas in described hollow layer.

The utility model is further arranged to: described inert gas is argon gas.

The utility model is further arranged to: described inert gas is Krypton.

By using technique scheme, in hollow layer, fill inert gas, it is ensured that hollow layer and extraneous air pressure balance, it addition, make hollow layer inside keep stable.

The utility model is further arranged to: the medial surface of the layer glass matrix being positioned at outside is provided with radiation prevention film.

The utility model is further arranged to: described fluid sealant bound edge is silica gel material.

The utility model is further arranged to: is formed with cavity volume in warm edge strip inner peripheral, is filled with drier in described cavity volume.

By using technique scheme, radiation prevention film is set and can reduce the ambient injury to indoor office personnel, keep being dried, stablizing it addition, arrange in drier can make hollow layer.

Accompanying drawing explanation

Fig. 1 is the structural representation of four glass three chamber decorative heat preservation glass；

Fig. 2 is the sectional view of Fig. 1；

Fig. 3 is the A portion enlarged drawing in Fig. 2.

Reference: 1, glass basis；2, hollow layer；3, structure is sealed；31, warm edge strip；311, cavity volume；32, fluid sealant bound edge；4, radiation prevention film.

Detailed description of the invention

Hereinafter, embodiment of the present utility model is illustrated.

With reference to Fig. 1, a kind of four glass three chamber decorative heat preservation glass, including compound glass matrix 1, hollow layer 2 is formed between adjacent layer glass matrix 1, glass basis 1 is set to four layers, three layers of hollow layer 2 are formed between four-layer glass matrix 1, the periphery of glass basis 1 connects sealing structure 3, seal structure 3 include the warm edge strip 31 being fixed on glass basis 1 periphery and be connected to the fluid sealant bound edge 32 of warm edge strip 31 outer peripheral edge, warm edge strip 31 forms a hollow layer 2 with the adjacent layer glass matrix 1 being fixed on warm edge strip 31, the thickness range of glass basis 1 is 4～6mm, the thickness range of hollow layer 2 is 8～12mm.

So, three layers of hollow layer 2 have the effect of insulation, wherein, the thickness of single layer hollow layer 2 is more than the thickness of single-glass matrix 1, make four glass three chamber decorative heat preservation glass have good heat insulation effect, four-layer glass matrix 1 and three layers of hollow layer 2 are set so that four glass three chamber decorative heat preservation glass integral thickness are at about 47mm, while meeting overwhelming majority application requirement, also there is stronger structure.

Additionally, after four glass three chamber decorative heat preservation glass are installed, the first glass basis, the second glass basis, the 3rd glass basis and the 4th glass basis is included successively from indoor toward indoor, wherein, the first hollow layer is formed between the first glass basis and the second glass basis, the second glass basis is formed between the second glass basis and the 3rd glass basis, the 3rd hollow layer is formed between the 3rd glass basis and the 4th glass basis, wherein, the thickness of the first glass basis, the second glass basis, the 3rd glass basis and the 4th glass basis successively decreases one by one；Wherein the thickness of the first hollow layer, the second hollow layer and the 3rd hollow layer is incremented by one by one.(in figure not separately labeled first glass basis, the second glass basis, the 3rd glass basis and the 4th glass basis, and the first hollow layer, the second hollow layer and the 3rd hollow layer)

So arrange, when controlling integral thickness, owing to the thickness near outdoor glass basis 1 is the thickest, therefore there is stronger shock resistance, the thickest near the thickness of indoor hollow layer, therefore there is preferable heat insulation effect.

With reference to Fig. 2 and Fig. 3, it is filled with inert gas in hollow layer 2, inert gas can be argon gas, it can also be Krypton, wherein the air pressure in indoor hollow layer tends to room pressure, air pressure near outdoor hollow layer tends to outdoor air pressure, so, hollow layer internal gas pressure can be maintained to keep balance with extraneous.

The medial surface of the layer glass matrix 1 being positioned at outside is provided with radiation prevention film 4.Fluid sealant bound edge 32 is silica gel material.It is formed with cavity volume 311 in warm edge strip 31 inner peripheral, in cavity volume 311, is filled with drier (in figure, only form with hatching illustrates).

So, radiation prevention film 4 is set and can reduce the ambient injury to indoor office personnel, keep being dried, stablizing it addition, arrange in drier can make hollow layer 2.

The above is only preferred embodiment of the present utility model, and protection domain of the present utility model is not limited merely to above-described embodiment, and all technical schemes belonged under the utility model thinking belong to protection domain of the present utility model.It should be pointed out that, for those skilled in the art, without departing from the some improvements and modifications under the utility model principle premise, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (7)

1. a glass three chamber decorative heat preservation glass, including compound glass matrix (1), hollow layer (2) is formed between adjacent layer glass matrix (1), it is characterized in that: described glass basis (1) is set to four layers, three layers of hollow layer (2) are formed between four-layer glass matrix (1), the periphery of glass basis (1) connects sealing structure (3), described sealing structure (3) includes the warm edge strip (31) being fixed on glass basis (1) periphery and is connected to the fluid sealant bound edge (32) of warm edge strip (31) outer peripheral edge, described warm edge strip (31) forms hollow layer (2) described in the adjacent layer glass matrix (1) being fixed on warm edge strip (31), the thickness range of described glass basis (1) is 4～6mm, the thickness range of described hollow layer (2) is 8～12mm.

Four glass three chamber decorative heat preservation glass the most according to claim 1, it is characterised in that: described hollow layer is filled with inert gas in (2).

Four glass three chamber decorative heat preservation glass the most according to claim 2, it is characterised in that: described inert gas is argon gas.

Four glass three chamber decorative heat preservation glass the most according to claim 2, it is characterised in that: described inert gas is Krypton.

Four glass three chamber decorative heat preservation glass the most according to claim 1, it is characterised in that: the medial surface of the layer glass matrix (1) being positioned at outside is provided with radiation prevention film (4).

Four glass three chamber decorative heat preservation glass the most according to claim 1, it is characterised in that: described fluid sealant bound edge (32) is silica gel material.

Four glass three chamber decorative heat preservation glass the most according to claim 1, it is characterised in that: being formed with cavity volume (311) in warm edge strip (31) inner peripheral, described cavity volume is filled with drier in (311).