CN205874219U - Subtract super white float glass process coated glass of reflection - Google Patents

Abstract

The utility model discloses a subtract super white float glass process coated glass of reflection comprises super white float glass base plate, coating surface active group coating and the antireflecting coating of coating in this surface active group coating on super white float glass substrate surface, wherein, contains mean diameter 5~8 nano particle in this surface active group coating, and the roughness of this surface active group coating is 10~15nm, and thickness is 5~25nm, the refracting index of antireflecting coating be 1.1~1.4, thickness is 50~250nm.

Description

Antireflective ultrawhite float glass process coated glass

Technical field

This utility model relates to a kind of coated glass.

Background technology

Conventional solar energy ultra-white glass has two kinds: energy ultrawhite figured glass and ultra-white float glass.Most of sun on market Can glass be energy ultrawhite figured glass.Owing to there are suitable roughness and surface active groups in the front (matte) of energy ultrawhite figured glass (such as hydroxyl), is easier to use the mode of liquid roller coat to produce super white patterned coated glass.But, ultra-white float glass front Roughness is the lowest, surface active groups is not enough, it is not easy to use the mode of liquid roller coat to produce ultrawhite float glass process coated glass.Due to Ultra-white float glass surface smoothness is high, and increasing user begins to use ultra-white float glass.Therefore, this utility model is wanted Solve the technical problem that exactly: produce ultrawhite float glass process coated glass by the mode of the liquid roller coat of low cost.

Utility model content

For the technical deficiency of above-mentioned existence, the purpose of this utility model is to provide one can be applicable to rolling method production Antireflective ultrawhite float glass process coated glass.

For solving above-mentioned technical problem, this utility model adopts the following technical scheme that a kind of antireflective ultrawhite float glass process plated film Glass, surface active groups coating that it by ultra-white float glass substrate, is coated on ultra-white float glass substrate surface and The antireflecting coating composition being coated in this surface active groups coating, wherein, containing average particle in this surface active groups coating The nano-particle of footpath 5～8 nanometer, the roughness of this surface active groups coating is 10～15nm, and thickness is 5～25nm；Described The refractive index of antireflecting coating be 1.1～1.4, thickness is 50～250nm.

Preferably, the refractive index of described antireflecting coating is 1.2～1.3, and thickness is 100～150nm.

The beneficial effects of the utility model are: this utility model uses the transparent surface active group of 5-25 nano thickness Coating, the front of first pretreatment ultra-white float glass so that it is form suitable surface roughness and surface active groups (such as hydroxyl Base), thus improve the wellability between antireflecting coating and glass and adhesive force.This structure is applicable to liquid method of roll coating and produces, because of This cost is relatively low, is suitable to large-scale production.

Accompanying drawing explanation

Accompanying drawing 1 is schematic diagram of the present utility model.

In accompanying drawing: 10, ultra-white float glass substrate；20, surface active groups coating；30, antireflecting coating；31, nanometer Grain.

Detailed description of the invention

This utility model is described in detail below by the embodiment shown in below in conjunction with the accompanying drawings:

A kind of antireflective ultrawhite float glass process coated glass, it by ultra-white float glass substrate 10, be coated on ultra-white float glass Surface active groups coating 20 on substrate 10 surface and be coated on the antireflecting coating 30 in this surface active groups coating 20 Composition, wherein, contains the nano-particle 31 of mean diameter 5～8 nanometer, this surface activity base in this surface active groups coating 20 The roughness of group's coating 20 is 10～15nm, and thickness is 5～25nm；The refractive index of described antireflecting coating 30 is 1.1～1.4, Preferably 1.2～1.3, thickness is 50～250nm, preferably 100～150nm.

Claims (2)

1. an antireflective ultrawhite float glass process coated glass, it is characterised in that: it by ultra-white float glass substrate, be coated on ultrawhite and float Surface active groups coating on method glass baseplate surface and be coated on the antireflecting coating group in this surface active groups coating Become, wherein, this surface active groups coating contains the nano-particle of mean diameter 5～8 nanometer, this surface active groups coating Roughness be 10～15nm, thickness is 5～25nm；The refractive index of described antireflecting coating is 1.1～1.4, thickness be 50～ 250nm。

Antireflective ultrawhite float glass process coated glass the most according to claim 1, it is characterised in that: the folding of described antireflecting coating The rate of penetrating is 1.2～1.3, and thickness is 100～150nm.