CN203640561U - Energy-saving and heat-insulating ultraviolet-resisting hollow glass - Google Patents

Abstract

The utility model discloses an energy-saving and heat-insulating ultraviolet-resisting hollow glass. The energy-saving and heat-insulating ultraviolet-resisting hollow glass comprises spacing bars, wherein outdoor glass and indoor glass are respectively arranged on two sides of the spacing bars. The energy-saving and heat-insulating ultraviolet-resisting hollow glass is characterized in that a first painting layer is arranged on the inner side of the indoor glass; a coating layer is arranged on the inner side of the outdoor glass; a second painting layer is arranged on the outer side of the outdoor glass. The energy-saving and heat-insulating ultraviolet-resisting hollow glass disclosed by the utility model has the characteristics of energy economization, environment friendliness, favorable life comfortableness, guarantee of normal permeable sight and the like.

Description

A kind of uvioresistant hollow glass of energy-saving heat-insulating

Technical field

The utility model relates to a kind of uvioresistant hollow glass of energy-saving heat-insulating, belongs to hollow glass field.

Background technology

The heat of the earth is from the sun, Solar watch surface temperature is up to 6000 DEG C, it is incessantly to cosmic radiation energy, and because the temperature on sun surface is high, the solar radiation that the earth receives is mainly visible ray, it is shortwave radiation, its ceiling capacity is 600nm, and earth surface also sends heat radiation to universe simultaneously, and this radiation is infrared rays, be long-wave radiation, its ceiling capacity is in 16000nm left and right.

1, conventional clear glass (Na Calcium magnesium glass) transmission range between 0.3-5mm, wherein exceed 80% in the transmissivity of visible ray and near-infrared ripple, the penetrating rate 80% of ultraviolet light, therefore the sun heat radiation that sees through glass is very strong, and people has the strong sensation shining upon after glass.For far-infrared thermal radiation more than wavelength 5um, simple glass can not directly see through, and absorbs, and distribute to both sides with the form of radiant heat transfer but be close to completely, and the comprehensive absorptivity of general infrared radiation reaches 84%.The power of glass heat absorption capacity is represented by the absorption of glass, it is directly connected to the blocking effect of glass to far infrared heat energy, the glass that so namely emissivity is low is difficult for absorbing external heat radiation energy, thereby it is just few to conduct by convection current the heat transmitting, and it is heat insulation all right.

Therefore, in building body Design and manufacturing process, adopt the shading coefficient Sc and the thermal transmittance U value that reduce by some way glass, just can obtain the glass product with good thermal insulation property and heat-proof quality.

2, coloured glass, Low-E glass and subsides functional membrane glass

(1) coloured glass, by changing glass body material composition, produces bulk glass the absorption of solar energy is restricted, and the thermal-radiating direct light transmittance of solar energy is reduced, thereby reduces the shading coefficient of glass.The toner material difference of interpolation will be described simultaneously, and they are also different to the assimilation effect of solar radiation.In addition also can corresponding difference to visible ray and ultraviolet emissivity.

(2) coated glass (for example, Low-E glass) be process reform glass surface by physics or plated film from heat-reflective, solar radiant heat directly reflects away, thereby reduces shading coefficient Sc and the U value of glass.

Wherein, Low-E glass claims again low emissivity glass, is that the film that plates multiple layer metal or other compounds composition at glass surface is product.Its film plating layer has the characteristic to visible ray high transmission and the high reflection of centering far infrared rays.

(3) application of several functions reflectance coating, these functional membranes improve the function of glass greatly, as reflective membrane, thermal isolation film etc. also change glass greatly, solar radiation are affected, thereby as Low-E glass, reduce shading coefficient Sc and the U value of glass.Obviously, the glass of while coloured glass, Low-E glass and subsides functional membrane etc. all can affect the coefficient of visible ray, affects light transmittance and sight line shielding, also more or less affects the comfort level of people's vision.

In recent years, energy saving window technology has obtained development at full speed, and on to the basis of window heat-transfer mechanism heightened awareness, uses advanced industrial production technology, has had very large impetus to exterior window power-saving technology.Comparatively conventional hollow glass now, at the low gas of glass interbed filling heat conductivility, the low spacer bar of exploitation heat conductivility, reduce the heat transfer of window frame, the measures such as the window strip of paper used for sealing that functional performance is good, control window loss of heat, reduce the thermal transmittance of whole window, hollow glass has been promoted widely and has been used at present.

Along with a large amount of application hollow glasss, and high request to energy-saving index, general common hollow glass has also exposed many problems and defect, and how not only energy-conservation but also environmental protection, does not affect again life comfort level, is the problem in scientific research field always.

Summary of the invention

The technical problems to be solved in the utility model is: the uvioresistant hollow glass that a kind of not only energy-conservation but also environmental protection, energy-saving heat-insulating that life comfort level is good are provided, solve common hollow glass and can not ensure not only energy-conservation but also environmental protection, do not affected again the problem of life comfort level.

In order to solve the problems of the technologies described above, the technical solution of the utility model has been to provide a kind of uvioresistant hollow glass of energy-saving heat-insulating, comprise spacer bar, the both sides of spacer bar are respectively equipped with outside faced chamber glass in glass and faced chamber, it is characterized in that, in described faced chamber, the inner side of glass is provided with the first film layer, and outside described faced chamber, the inner side of glass is provided with film plating layer, and outside described faced chamber, the outside of glass is provided with the second film layer.

Preferably, described film plating layer is Low-E film plating layer.

Preferably, the second described film layer is Nano self-cleaning film layer.

The utility model is to replace original simple glass with the hollow glass of the heat-protecting glass composition of Low-E and nano-film coating, the making that it is the same with conventional hollow glass, just can be by reflectivity with every ultraviolet ray and ultrared, ensure normal penetrating sight line simultaneously, allow people still have good visual process.Not only energy-conservation but also environmental protection of the utility model, does not affect again life comfort level.

Brief description of the drawings

Fig. 1 is a kind of structural representation of uvioresistant hollow glass of energy-saving heat-insulating;

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

In figure: 1 is spacer bar, 2 is glass outside faced chamber, and 3 is glass in faced chamber, and 4 is film plating layer, and 5 is the first film layer, and 6 is the second film layer, and 7 is sealing.

Detailed description of the invention

For the utility model is become apparent, hereby with preferred embodiment, and coordinate accompanying drawing to be described in detail below.

The utility model is a kind of uvioresistant hollow glass of energy-saving heat-insulating, as shown in Figure 1 and Figure 2, is a kind of structural representation of uvioresistant hollow glass of energy-saving heat-insulating.It comprises spacer bar 1, and the both sides of spacer bar 1 are respectively by the sticky note of glass in glass 2 and faced chamber outside butyl rubber and faced chamber 3, outside faced chamber, in glass 2, faced chamber, between glass 3 and spacer bar 1, seals by sealing 7.Outside faced chamber, in glass 2, faced chamber, in the seal cavity between glass 3 and spacer bar 1, be filled with dry air or argon gas.In faced chamber, the inner side of glass 3 is the first film layer 5, and outside faced chamber, the inner side of glass 2 is film plating layer 4, and outside faced chamber, the outside of glass 2 is the second film layer 6.The inside of spacer bar 1 is filled with desiccant.

In the present embodiment, spacer bar 1 is aluminum alloy frame, and film plating layer 4 is Low-E film plating layer, and the second film layer 6 is Nano self-cleaning film layer.Sealing 7 is poly-sulphur glue or structure glue.

The hollow glass forming with the heat-protecting glass of Low-E and nano-film coating, the making that it is the same with conventional hollow glass just can, by reflectivity with every ultraviolet ray and ultrared, ensure normal penetrating sight line simultaneously, allows people still have good visual process.Wherein, the effect of Low-E is transmitting, and nano-film coating glass is to intercept ultraviolet ray and infrared rays.

The utility model manufacturing process is as follows:

1, cut required glass size according to order;

2, pretreatment edging, cleaning;

3, tempering processing;

4, the white glass of one is carried out to nano-film coating processing, and Ageing Treatment;

5, LOW-E is entered to hollow flow waterline with " heat insulation " coated glass and close sheet and gluing;

6, clean, arrange and check and dispatch from the factory.

Claims (3)

1. the uvioresistant hollow glass of an energy-saving heat-insulating, comprise spacer bar (1), the both sides of spacer bar (1) are respectively equipped with glass (3) in glass outside faced chamber (2) and faced chamber, it is characterized in that, the inner side of glass in described faced chamber (3) is provided with the first film layer (5), the inner side of glass outside described faced chamber (2) is provided with film plating layer (4), and the outside of glass outside described faced chamber (2) is provided with the second film layer (6).

2. the uvioresistant hollow glass of a kind of energy-saving heat-insulating as claimed in claim 1, is characterized in that, described film plating layer (4) is Low-E film plating layer.

3. the uvioresistant hollow glass of a kind of energy-saving heat-insulating as claimed in claim 1, is characterized in that, described the second film layer (6) is Nano self-cleaning film layer.

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