CN205953839U - Mazarine solar control coated glass of low luminousness - Google Patents

Mazarine solar control coated glass of low luminousness Download PDF

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Publication number
CN205953839U
CN205953839U CN201620894835.0U CN201620894835U CN205953839U CN 205953839 U CN205953839 U CN 205953839U CN 201620894835 U CN201620894835 U CN 201620894835U CN 205953839 U CN205953839 U CN 205953839U
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China
Prior art keywords
dielectric layer
coated glass
layer
thickness
utility
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CN201620894835.0U
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Chinese (zh)
Inventor
韩广军
郭志军
王建
刘国龙
张强
张永兵
蒋振伟
朱付昌
郭恒
张晓燕
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Henan Ancai Hi Tech Co Ltd
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Henan Ancai Hi Tech Co Ltd
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Abstract

The utility model discloses a mazarine solar control coated glass of low luminousness, it includes glass substrate, sputters first dielectric layer, second dielectric layer, barrier bed, third dielectric layer and outer protective layer on glass substrate in proper order from inside to outside. The utility model discloses an effect lies in providing a colour and being the mazarine through the rete structural grouping of difference and rete thickness adjustment, does not rely on special coating material, solar control coated glass that production efficiency is high.

Description

A kind of navy blue sunlight controlling coated glass of low-transmittance
Technical field
This utility model belongs to coated glass production technical field and in particular to a kind of navy blue sunlight control of low-transmittance Coated glass processed.
Background technology
Magnetron sputtering:In vacuum environment, using electromagnetic field, argon is carried out with ionization and accelerate, the charged particle of acquisition is adding During speed, mutually collision carries out energy transmission, and charged particle is not motion of spinning merely, but does a kind of irregular multiple Miscellaneous motion, in the process, more charged particles obtain the energy that electromagnetic field brings, and target material is by such high energy particle It is splashed to film forming on substrate, this effect due to electromagnetic field is so that the vacuum sputtering efficiency work more in hgher efficiency than usual manner Skill is referred to as magnetron sputtering.
Sunlight controlling coated glass:There is the coated glass of certain control action to 380-1800nm sunlight.In general, Sunlight controlling coated glass is coated with the one of which or several of metal level/oxygenatedchemicalss/nitrogen-containing compound on the glass substrate Material, does not typically contain the Ag with fine infrared control ability and its metalloid, sunlight controlling coated glass has attractive in appearance Heat-blocking action with a capability.
Existing sunlight controlling coated glass structure is simpler, and color is typically with silvery white, light blue, keynote based on bluish grey grade, Special color depends on the use of special Coating Materials, the compatibility of impact coating film production line and production efficiency.
Utility model content
This utility model purpose is the Coating Materials conventional using some, by different film layer structure combinations and film layer Thickness adjusts, and provides a kind of color to be in navy blue, is independent of special Coating Materials, the high solar control coated glass glass of production efficiency Glass.
For solving above-mentioned technical problem, this utility model adopts the following technical scheme that:A kind of navy blue sun of low-transmittance Photocontrol coated glass, it includes glass substrate, sputters first medium layer on the glass substrate, second Jie from inside to outside successively Matter layer, barrier bed, the 3rd dielectric layer and outer protective layer.
The material of described first medium layer is TiOx, and the material of second dielectric layer is SnOx, and the material of barrier bed is Cr, the The material of three dielectric layers is Si3N4, the material of outer protective layer is TiNx.
Described first medium thickness degree is 30~60nm, and second dielectric layer thickness is 10~30nm, and barrier bed thickness is 10 ~25nm, the 3rd thickness of dielectric layers is 10~30nm, and outer protective layer thickness is 20~30nm.
The beneficial effects of the utility model are:
This utility model passes through first medium layer, second dielectric layer, the film of barrier bed, the 3rd dielectric layer and outer protective layer Rotating fields combination and thicknesses of layers adjustment, it reaches less than 10% in optical transmittance, and when reflectance reaches more than 40%, color is in Navy blue.
The interaction of barrier bed and described other four kinds conventional Coating Materials film layers is it is provided that a kind of color is in deep Blueness, is independent of special Coating Materials, the high sunlight controlling coated glass of production efficiency.
This utility model does not use special Coating Materials, thus ensureing compatibility and the production efficiency of coating film production line.
The coated glass that this utility model produces can substitute blue color glass to a certain extent.
Brief description
Fig. 1 is structural representation of the present utility model.
Specific embodiment
Below in conjunction with accompanying drawing, specific embodiment of the present utility model is elaborated.
As illustrated, a kind of navy blue sunlight controlling coated glass of low-transmittance of the present utility model, it includes glass Substrate 1, the first medium layer 2 sputtering at successively from inside to outside on glass substrate 1, second dielectric layer 3, barrier bed 4, the 3rd medium Layer 5 and outer protective layer 6.
The material of described first medium layer 2 is TiOx, and the material of second dielectric layer 3 is SnOx, and the material of barrier bed 4 is Cr, the material of the 3rd dielectric layer 5 is Si3N4, the material of outer protective layer 6 is TiNx.Described first medium layer 2 thickness be 30~ 60nm, second dielectric layer 3 thickness be 10~30nm, barrier bed 4 thickness be 10~25nm, the 3rd dielectric layer 5 thickness be 10~ 30nm, outer protective layer 6 thickness is 20~30nm.
Ground floor dielectric layer 2 material is TiOx, and thickness is 30~60nm, adjusts color the attachment as whole film layer Cross layer.
Second layer dielectric layer 3 material is SnOx, and thickness is 10~30nm, adjusts color and uses.
Barrier bed 4 material is Cr, and thickness is 10~25nm, adjusts light transmittance and reflectance.
The material of the 3rd dielectric layer 5 is Si3N4, adjust color and use, thickness is 10~30nm.
Outer protective layer 6 material is TiNx, and thickness is 20~30nm, adjusts color and the overall film layer structure of protection, prevents Only film layer is subject to other various gases such as the oxygen of in the air, aqueous vapor, hydrogen sulfide that overall film layer is corroded.
This utility model passes through first medium layer 2, second dielectric layer 3, barrier bed 4, the 3rd dielectric layer 4 and outer protective layer 5 film layer structure combination and thicknesses of layers adjustment, it reaches less than 10% in optical transmittance, when reflectance reaches more than 40%, Color is in navy blue.
The interaction of barrier bed 4 and described other four kinds conventional Coating Materials film layers is it is provided that a kind of color is in Navy blue, is independent of special Coating Materials, the high sunlight controlling coated glass of production efficiency.
This utility model does not use special Coating Materials, thus ensureing compatibility and the production efficiency of coating film production line.
The coated glass that this utility model produces can substitute blue color glass to a certain extent.
Above example is only in order to illustrative and not limiting the technical solution of the utility model, although reference above-described embodiment pair This utility model has been described in detail, it will be understood by those within the art that:Still this utility model can be entered Row modification or equivalent, without deviating from any modification or partial replacement of spirit and scope of the present utility model, it all should Cover in the middle of right of the present utility model.

Claims (3)

1. a kind of low-transmittance navy blue sunlight controlling coated glass it is characterised in that:It includes glass substrate(1), from interior To sputtering at glass substrate successively outward(1)On first medium layer(2), second dielectric layer(3), barrier bed(4), the 3rd dielectric layer (5)And outer protective layer(6).
2. low-transmittance according to claim 1 navy blue sunlight controlling coated glass it is characterised in that:Described first Dielectric layer(2)Material be TiOx, second dielectric layer(3)Material be SnOx, barrier bed(4)Material be Cr, the 3rd medium Layer(5)Material be Si3N4, outer protective layer(6)Material be TiNx.
3. low-transmittance according to claim 1 and 2 navy blue sunlight controlling coated glass it is characterised in that:Described First medium layer(2)Thickness is 30~60nm, second dielectric layer(3)Thickness is 10~30nm, barrier bed(4)Thickness be 10~ 25nm, the 3rd dielectric layer(5)Thickness is 10~30nm, outer protective layer(6)Thickness is 20~30nm.
CN201620894835.0U 2016-08-18 2016-08-18 Mazarine solar control coated glass of low luminousness Active CN205953839U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620894835.0U CN205953839U (en) 2016-08-18 2016-08-18 Mazarine solar control coated glass of low luminousness

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620894835.0U CN205953839U (en) 2016-08-18 2016-08-18 Mazarine solar control coated glass of low luminousness

Publications (1)

Publication Number Publication Date
CN205953839U true CN205953839U (en) 2017-02-15

Family

ID=57975978

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201620894835.0U Active CN205953839U (en) 2016-08-18 2016-08-18 Mazarine solar control coated glass of low luminousness

Country Status (1)

Country Link
CN (1) CN205953839U (en)

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