CN204490733U - A kind of double-sided coated glass - Google Patents

Abstract

The utility model discloses a kind of double-sided coated glass, it comprises glass substrate, and described glass substrate side is on-line coating layer, and opposite side is off-line coated layer.The utility model has the advantage of off-line coated glass and on-line coating glass concurrently, compared with existing coated glass, substantially increases the heat-proof quality of coated glass; And then the glass post-processing products such as the double glazing utilizing the utility model to make, vacuum glass also have low-down heat transfer coefficient, have a extensive future.

Description

A kind of double-sided coated glass

Technical field

The present invention relates to a kind of double-sided coated glass.

Background technology

Modern building design is tended to use large-area glass natural lighting, but common monolithic glass summer cannot heat energy in block sunlight to indoor transmission, winter also cannot stop leaking of indoor heat, and the cost of temperature suitable in holding chamber can only be consume the energy such as air-conditioning, heating installation etc. in a large number.The direct result caused thus is the extreme loss of the energy saving of whole building.How to ensure under the prerequisite that indoor lighting is good, glass power loss to be minimized.Low radiation coated glass and Low-E glass (Low Emissivity Glass) in response to and go out, and achieve good effect and become one of product of the main development on current glass market, be widely used.The coated glass of prior art can be divided into two kinds according to production method: on-line coating glass and off-line coated glass; Along with the requirement of low-carbon energy-saving, more and more higher requirement is proposed to the heat transfer coefficient of low radiation coated glass.

Summary of the invention

For solving the problem, the object of the present invention is to provide a kind of double-sided coated glass, this glass substrate side is on-line coating layer, opposite side is off-line coated layer, this glass has the advantage of off-line coated glass and on-line coating glass concurrently thus, compared with existing coated glass, substantially increase the heat-proof quality of coated glass.

For achieving the above object, a kind of double-sided coated glass disclosed in the utility model, it comprises glass substrate, and described glass substrate side is on-line coating layer, and opposite side is off-line coated layer.

Further, described on-line coating layer is thermal reflecting coating, low-radiation film or conducting film.

Further, described off-line coated layer is thermal reflecting coating or low-radiation film.

Adopt the double glazing that above-mentioned double-sided coated glass is made, this double glazing comprises at least double-sided coated glass described in a slice.

Further, described on-line coating layer is arranged on the outside of described double glazing.

Adopt the vacuum glass that above-mentioned double-sided coated glass is made, this vacuum glass comprises at least double-sided coated glass described in a slice.

Further, described on-line coating layer is arranged on the outside of described vacuum glass.

The utility model has the advantage of off-line coated glass and on-line coating glass concurrently, compared with existing coated glass, substantially increases the heat-proof quality of coated glass; And then the glass post-processing products such as the double glazing utilizing the utility model to make, vacuum glass also have low-down heat transfer coefficient, have a extensive future.

Accompanying drawing explanation

Fig. 1 is double-sided coated glass structural representation in embodiment;

Fig. 2 is the hollow glass structure schematic diagram adopting a slice double-sided coated glass in embodiment;

Fig. 3 is the hollow glass structure schematic diagram adopting two panels double-sided coated glass in embodiment;

Fig. 4 is three glass two chamber hollow glass structure schematic diagram in embodiment;

Fig. 5 is vacuum glass structural representation in embodiment;

Fig. 6 is three glass two chamber vacuum glass structural representations in embodiment.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As shown in Figure 1, a kind of double-sided coated glass, it comprises glass substrate 1, and the side of glass substrate 1 is on-line coating layer 2, and opposite side is off-line coated layer 3.On-line coating layer 2 is thermal reflecting coating, low-radiation film or conducting film.Off-line coated layer 3 is thermal reflecting coating or low-radiation film.

As shown in Figure 2, a kind of double glazing adopting above-mentioned double-sided coated glass to make, this double glazing comprises a slice double-sided coated glass 10 and the non-double-sided coated glass 15 of a slice, and glass periphery is provided with spacer bar 4; Wherein, on-line coating layer 2 is arranged on the outside of double glazing, and off-line coated layer 3 is arranged in the hollow layer of double glazing.

As shown in Figure 3, two sheet glass forming double glazing all adopt double-sided coated glass 10, and the on-line coating layer 2 of two panels double-sided coated glass 10 is all arranged on the outside of double glazing; And off-line coated layer 3 is all arranged in the hollow layer of double glazing.

As shown in Figure 4, the three glass two chamber double glazings be made up of three sheet glass, this double glazing comprises a slice double-sided coated glass 10 and the non-double-sided coated glass 15 of two panels, and on-line coating layer 2 is arranged on the outside of double glazing.

In addition, double-sided coated glass 10 can also be arranged on centre, so, and (not shown) in two hollow layers that on-line coating layer 2 and off-line coated layer 3 are separately positioned on this double glazing.

As shown in Figure 5, a kind of vacuum glass adopting above-mentioned double-sided coated glass to make, this vacuum glass is by the upper and lower parallel placement of two glass sheets, and periphery is by sealing-in limit 41 sealing-in, and centre is provided with upholder 5; Wherein a glass sheets is double-sided coated glass 10, and on-line coating layer 2 is arranged on the outside of vacuum glass.

In addition, two sheet glass forming above-mentioned vacuum glass also can all adopt double-sided coated glass 10, and the on-line coating layer 2 of two panels double-sided coated glass 10 is all arranged on the outside of vacuum glass.

As shown in Figure 6, the three glass two chamber vacuum glass be made up of three sheet glass, a slice formed in three glass sheets of vacuum glass is double-sided coated glass 10, and on-line coating layer 2 is arranged on the outside of vacuum glass.Wherein, double-sided coated glass 10 can also be arranged on centre, so, and (not shown) in two vacuum layer that on-line coating layer 2 and off-line coated layer 3 are separately positioned on this vacuum glass.

In addition, double-sided coated glass of the present utility model can also be applied in other existing common glass post-processing products such as laminated glass, doubling glass and wire glass, thus improves the heat-proof quality of such glass.

Below only describe several preferred embodiments of the application by reference to the accompanying drawings, but the application is not limited thereto, every those of ordinary skill in the art are under the spirit not departing from the application, and any improvement made and/or distortion, all belong to the protection domain of the application.

Claims (7)

1. a double-sided coated glass, is characterized in that, it comprises glass substrate, and described glass substrate side is on-line coating layer, and opposite side is off-line coated layer.

2. double-sided coated glass as claimed in claim 1, it is characterized in that, described on-line coating layer is thermal reflecting coating, low-radiation film or conducting film.

3. double-sided coated glass as claimed in claim 1, it is characterized in that, described off-line coated layer is thermal reflecting coating or low-radiation film.

4. the double glazing adopting the arbitrary described double-sided coated glass of claim 1-3 to make, is characterized in that, this double glazing comprises at least double-sided coated glass described in a slice.

5. double glazing as claimed in claim 4, it is characterized in that, described on-line coating layer is arranged on the outside of described double glazing.

6. the vacuum glass adopting the arbitrary described double-sided coated glass of claim 1-3 to make, is characterized in that, this vacuum glass comprises at least double-sided coated glass described in a slice.

7. vacuum glass as claimed in claim 6, it is characterized in that, described on-line coating layer is arranged on the outside of described vacuum glass.