CN205011643U - High low cost thoroughly can be mixed colours and hanged down energy -conserving glass of radiation - Google Patents

Abstract

The utility model discloses a high low cost thoroughly can be mixed colours and hanged down energy -conserving glass of radiation, high low cost thoroughly can be mixed colours and hanged down energy -conserving glass of radiation includes glass substrate, barrier layer, first transparent conduction film layer, metal function rete, the transparent conduction film layer of second, mixing of colors layer and protective layer, and the orientation is barrier layer, first transparent conduction film layer, metal function rete, the transparent conduction film layer of second, mixing of colors layer and protective layer in proper order from inside to outside on glass substrate, the glass substrate direction is kept away from to the direction from inside to outside, and glass substrate is inlayer. The utility model discloses an energy -conserving glass membrane system of low radiation is simple, has higher luminousness, can adjust between 65-85%, and mechanical properties is good, and the even densification of rete, the processing cost is low, and is longe -lived.

Description

A kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly

Technical field

The utility model relates to glass preparation field, is specifically related to a kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly.

Background technology

Low emissivity energy-saving glass has critical role at the energy-saving square mask of building, automobile etc., has become the important development direction of energy-saving and emission-reduction development.Low-E is generally realized by metallic diaphragm, as argent, in conjunction with transmittance demand, and design film system and each tunic layer thickness, material etc.The filter that Low emissivity energy-saving glass can be selected through, reflection by adopting physics or chemical process to apply one deck on the glass surface to sunlight, the i.e. uniform film system of one deck, general requirement has higher transmittance to cold light and visible ray, do not affect indoor lighting effect, high reverse--bias is realized to UV-light, near infrared, far red light simultaneously, infrared especially low-E, plays energy-conservation and protected effect; Some high-end requirements propose color demand.

On above Low emissivity energy-saving glass basis, after being processed into hollow or vacuum glass, can further improve effect of heat insulation, and reduce noise.According to the different demands of practical application; by online or off-line coated production technology at Float Glass Surface successively deposited monolayers or multilayer functional membrane layer; the selectivity realizing spectrum through and reflection; greatly reduce the expenses such as heating; reduce the mephitical discharge such as sulfurous gas, carbon monoxide simultaneously, to energy-saving and emission-reduction, there is very positive effect.Current, ordinary residence, except to except Low emissivity power conservation requirement, also there are certain requirements in visible light-transmissive, cost, color.

Utility model content

The purpose of this utility model is to provide the height saturating low cost color-adjustable Low emissivity energy-saving glass of the high and low cost of a kind of visible light transmittance rate, color-adjustable.

In order to realize above-mentioned technical problem, the technical scheme that the utility model provides is: the utility model provides a kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly, described height saturating low cost color-adjustable Low emissivity energy-saving glass comprises glass substrate, blocking layer, the first transparent conductive film layer, metal function rete, the second transparent conductive film layer, color emission layer and protective layer, and direction is followed successively by blocking layer, the first transparent conductive film layer, metal function rete, the second transparent conductive film layer, color emission layer and protective layer from inside to outside on a glass substrate; Direction refers to away from glass substrate direction from inside to outside, and glass substrate is innermost layer.

Further, the material of described first transparent conductive film layer is any one in tin indium oxide, zinc oxide aluminum or stannic oxide; Described second transparent conductive film layer is any one in tin indium oxide, zinc oxide aluminum or stannic oxide;

The thickness of described first transparent conductive film layer is 15 ~ 100nm, and the thickness of described second transparent conductive film layer is 15 ~ 100nm.

Further, the thickness of described metal function rete is 8 ~ 15nm, and described metal is any one in silver, titanium, copper or magnesium.

Further, the material on described blocking layer is any one in silicon oxide, silicon nitride or silicon oxynitride, and the thickness on described blocking layer is 20 ~ 40nm.

Further, the material of described color emission layer is titanium nitride, and the thickness of described color emission layer is 20 ~ 35nm.

Further, the material of described protective layer is any one in silicon oxide, silicon nitride or silicon oxynitride, and the thickness of described protective layer is 35 ~ 60nm.

Beneficial effect: Low emissivity energy-saving glass film system of the present utility model is simple, and transmittance is high, good mechanical property, even film layer is fine and close, and weathering resistance and erosion resistance improve, and tooling cost is low, and the life-span is long.The utility model can realize the adjustment of visible region transmitance in 65% ~ 85% scope, and ultraviolet and the adjustment of infrared reflection rate in 51 ~ 80% scopes, radiant ratio is low, after adopting double glazing mode, heat-insulating property is good, can be widely used in cladding glass.

Relative to prior art, advantage of the present utility model is as follows:

(1) the utility model using the low metal of radiant ratio if silver, titanium etc. are as main low-E functional layer, in conjunction with two-layer transparent conductive film, the titanium nitride color emission layer itself with infrared and ultraviolet cutoff function, effective raising infrared external reflection, barrier portion ultraviolet, promote energy-saving effect, in conjunction with each layer thickness, process gas flow, adjusts film system color.Employing transparent conductive film also can realize the protection to metallic diaphragm, avoids oxidation.

(2) the utility model saves production cost, energy-conserving and environment-protective, and film layer structure is simple, and thickness is less, and Raw Material Demand is less, and larger reduces starting material loss; The simplification of the film system number of plies, can reduce the demand to equipment, enhances product performance in the basis without the need to existing installation of upgrading.Improve production efficiency and membrane uniformity; Film coating environment requires to reach 100,000 magnitudes to reduce dust pollution at cleanliness factor, improves film quality.

(3) adopt titanium nitride film effectively can realize the adjustment of energy-saving glass color, in conjunction with two-layer nesa coating, the structure adjusting realizing photoelectric properties controls, and meanwhile, titanium nitride has outstanding resist chemical performance, can improve the life-span of energy-saving glass.

Accompanying drawing explanation

Fig. 1 is schematic diagram of the present utility model;

In figure, 1 glass substrate, 2 blocking layers, 3 first transparent conductive film layers, 4 metal function retes, 5 second transparent conductive film layers, 6 color emission layer, 7 protective layers.

Embodiment

In order to illustrate the technical solution of the utility model and technical purpose, below in conjunction with figure and embodiment, the utility model is described further.

Embodiment 1

The utility model provides a kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly, described height saturating low cost color-adjustable Low emissivity energy-saving glass comprises glass substrate 1, blocking layer 2, first transparent conductive film layer 3, metal function rete 4, second transparent conductive film layer 5, color emission layer 6 and protective layer 7, and on glass substrate 1, direction is followed successively by blocking layer 2, first transparent conductive film layer 3, metal function rete 4, second transparent conductive film layer 5, color emission layer 6 and protective layer 7 from inside to outside; Direction refers to that, away from glass substrate 1 direction, glass substrate 1 is innermost layer from inside to outside.

The material of described first transparent conductive film layer 3 is tin indium oxide; The material of described second transparent conductive film layer 5 is zinc oxide aluminum; First transparent conductive film layer 3 and the second transparent conductive film layer 5 can effectively reflect infrared, barrier portion ultraviolet, energy-conserving and environment-protective, can play the effect of defencive function rete simultaneously.

The thickness of described first transparent conductive film layer 3 is 15nm, and the thickness of described second transparent conductive film layer 5 is 15nm.Employing tin indium oxide can be slightly thin, can be thicker during zinc oxide aluminum;

The thickness of described metal function rete 4 is 8nm, and the material of described metal function rete 4 is silver.Comparatively silverskin thickness is a little to adopt other metals such as titanium, copper, magnesium;

The material on described blocking layer 2 is silicon oxide, and the thickness on described blocking layer 2 is 20nm.Blocking layer 2 affects energy-saving effect, silicon oxide or silicon nitride nontoxic pollution-free for stoping the entered function layers such as the sodium ion in glass substrate, calcium ion, and corrosion-resistant and wear-resisting;

The material of described color emission layer 6 is titanium nitride, and the thickness of described color emission layer 6 is 20nm.Faint yellow, yellow, purple, blueness etc. can be realized, and improve rete resistance to chemical attack;

The material of described protective layer 7 is silicon oxide, and the thickness of described protective layer 7 is 35nm.Protective layer 7 for improving corrosion-resistant, the wear-resisting mechanical property of film, for the protection to whole film system.

Low emissivity energy-saving glass film system of the present utility model is simple, and transmittance is high, good mechanical property, and even film layer is fine and close, and weathering resistance and erosion resistance improve, and tooling cost is low, and the life-span is long.The utility model can realize the adjustment of visible region transmitance in 65% ~ 85% scope, and ultraviolet and the adjustment of infrared reflection rate in 51 ~ 80% scopes, radiant ratio is low, after adopting double glazing mode, heat-insulating property is good, can be widely used in cladding glass.

Relative to prior art, advantage of the present utility model is as follows:

(1) the utility model using the low metal of radiant ratio if silver, titanium etc. are as main low-E functional layer, in conjunction with two-layer transparent conductive film, the titanium nitride color emission layer itself with infrared and ultraviolet cutoff function, effective raising infrared external reflection, barrier portion ultraviolet, promote energy-saving effect, in conjunction with each layer thickness, process gas flow, adjusts film system color.Employing transparent conductive film also can realize the protection to metallic diaphragm, avoids oxidation.

(2) the utility model saves production cost, energy-conserving and environment-protective, and film layer structure is simple, and thickness is less, and Raw Material Demand is less, and larger reduces starting material loss; The simplification of the film system number of plies, can reduce the demand to equipment, enhances product performance in the basis without the need to existing installation of upgrading.Improve production efficiency and membrane uniformity; Film coating environment requires to reach 100,000 magnitudes to reduce dust pollution at cleanliness factor, improves film quality.

(3) adopt titanium nitride film effectively can realize the adjustment of energy-saving glass color, in conjunction with two-layer nesa coating, the structure adjusting realizing photoelectric properties controls, and meanwhile, titanium nitride has outstanding resist chemical performance, can improve the life-span of energy-saving glass.

Embodiment 2

Embodiment 2 is with the difference of embodiment 1: the utility model provides a kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly, and the material of described first transparent conductive film layer 3 is zinc oxide aluminum; Described second transparent conductive film layer 5 is zinc oxide aluminum; First transparent conductive film layer 3 and the second transparent conductive film layer 5 can effectively reflect infrared, barrier portion ultraviolet, energy-conserving and environment-protective, can play the effect of defencive function rete simultaneously.

The material of described metal function rete 4 is copper.

The thickness of described first transparent conductive film layer 3 is 80nm, and the thickness of described second transparent conductive film layer 5 is 70nm.The thickness of described metal function rete is 10nm.

The material on described blocking layer 2 is silicon nitride, and the thickness on described blocking layer 2 is 30nm.The thickness of described color emission layer 6 is 29nm.The material of described protective layer 7 is silicon nitride, and the thickness of described protective layer 7 is 50nm.

Embodiment 3

Embodiment 3 is with the difference of embodiment 1: the utility model provides a kind of high low cost color-adjustable Low emissivity energy-saving glass thoroughly, and the material of described metal function rete 4 is copper.

The material of described first transparent conductive film layer 3 is stannic oxide; Described second transparent conductive film layer 5 is stannic oxide; First transparent conductive film layer 3 and the second transparent conductive film layer 5 can effectively reflect infrared, barrier portion ultraviolet, energy-conserving and environment-protective, can play the effect of defencive function rete simultaneously.

The thickness of described first transparent conductive film layer 3 is 100nm, and the thickness of described second transparent conductive film layer 5 is 100nm.The thickness of described metal function rete 4 is 15nm, and described metal is titanium.The material on described blocking layer 2 is silicon oxide, and the thickness on described blocking layer 2 is 40nm.The material of described color emission layer 6 is titanium nitride, and the thickness of described color emission layer 6 is 35nm.The material of described protective layer 7 is silicon oxide, and the thickness of described protective layer 7 is 60nm.

Embodiment 4

Embodiment 4 is with the difference of embodiment 1: the material of described metal function rete 4 is magnesium.

Although more employ glass substrate 1 herein, blocking layer 2, the first transparent conductive film layer 3, metal function rete 4, second transparent conductive film layer 5, color emission layer 6, term such as protective layer 7 grade, does not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

More than show and describe ultimate principle of the present utility model, principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and specification sheets just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and the claimed scope of the utility model is defined by appending claims, specification sheets and equivalent thereof.

Claims (6)

1. one kind high low cost color-adjustable Low emissivity energy-saving glass, it is characterized in that: described height saturating low cost color-adjustable Low emissivity energy-saving glass comprises glass substrate, blocking layer, the first transparent conductive film layer, metal function rete, the second transparent conductive film layer, color emission layer and protective layer, and direction is followed successively by blocking layer, the first transparent conductive film layer, metal function rete, the second transparent conductive film layer, color emission layer and protective layer from inside to outside on a glass substrate; Direction refers to away from glass substrate direction from inside to outside, and glass substrate is innermost layer.

2. height according to claim 1 saturating low cost color-adjustable Low emissivity energy-saving glass, is characterized in that: the material of described first transparent conductive film layer is any one in tin indium oxide, zinc oxide aluminum or stannic oxide; Described second transparent conductive film layer is any one in tin indium oxide, zinc oxide aluminum or stannic oxide;

The thickness of described first transparent conductive film layer is 15 ~ 100nm, and the thickness of described second transparent conductive film layer is 15 ~ 100nm.

3. height according to claim 1 saturating low cost color-adjustable Low emissivity energy-saving glass, is characterized in that: the thickness of described metal function rete is 8 ~ 15nm, and described metal is any one in silver, titanium, copper or magnesium.

4. height according to claim 1 saturating low cost color-adjustable Low emissivity energy-saving glass, is characterized in that: the material on described blocking layer is any one in silicon oxide, silicon nitride or silicon oxynitride, and the thickness on described blocking layer is 20 ~ 40nm.

5. height according to claim 1 saturating low cost color-adjustable Low emissivity energy-saving glass, is characterized in that: the material of described color emission layer is titanium nitride, and the thickness of described color emission layer is 20 ~ 35nm.

6. height according to claim 1 saturating low cost color-adjustable Low emissivity energy-saving glass, is characterized in that: the material of described protective layer is any one in silicon oxide, silicon nitride or silicon oxynitride, and the thickness of described protective layer is 35 ~ 60nm.