CN203284327U - Low-reflectivity gold remote toughened off-line LOW-E coated glass - Google Patents

Abstract

The utility model provides a piece of low-reflectivity gold remote toughened off-line LOW-E coated glass. The LOW-E coated glass comprises a glass layer, a first dielectric layer, a second dielectric layer, a first shielding layer, a silver layer, a second shielding layer and a third dielectric layer which are sequentially arranged from the inside out. As the three dielectric layers are adopted, the adhesive force of the coating is enhanced, meanwhile, the transmittance, the reflectance and the color of the gold LOW-E coated glass can be effectively regulated by adjusting the second and third dielectric layers, and accordingly, the LOW-E coated glass has a larger gold color gamut and is more attractive. The second shielding layer (a blocking layer) and the thicker third dielectric layer can effectively improve the oxidation resistance of the silver layer in the LOW-E coated glass. Meanwhile, the thicker third dielectric layer belongs to harder silicon nitride, thereby effectively improving the damage prevention capability of the low-emissivity coating and avoiding scratches in the later manufacturing process.

Description

But the golden strange land of a kind of antiradar reflectivity steel off-line LOW-E coated glass

Technical field

The utility model relates to a kind of coated glass, but the golden strange land of especially a kind of antiradar reflectivity steel off-line LOW-E coated glass.

Background technology

Low emissivity glass (LOW-E) is that to plate at glass surface the film that is comprised of the metal such as multilayer silver, copper or tin or other compounds be that LOW-E glass mainly contains two types by performance, i.e. high-transparency LOW-E glass and sunshade type LOW-E glass.Wherein, high-transparency LOW-E glass has higher transmissivity to visible light, far infrared rays there is is very high reflectivity, have good heat-proof quality, lighting performance and higher sun power capacitation preferably, make it become the ideal energy saving building materials of north cold area.Sunshade type LOW-E glassy phase is exactly the shading performance that has strengthened product to the difference of coventional type LOW-E, more is adapted at the hotter area of weather and uses.

At present, low radiation coated glass particularly sunshade type LOW-E glass exist some defects such as color is single, antioxidant property is lower, anti-damage ability.And but the gold steel LOW-E glass with very strong decorative effect is rare especially, and present most golden coated glass is all the poor heat-reflection coated glass of energy-efficient performance or LOW-E coated glass that can not steel.

The utility model content

But the utility model provides the golden strange land of a kind of antiradar reflectivity steel off-line LOW-E coated glass, but strange land steel not only, and in the situation that pad pasting and increase supercoat and have good damage-resistant energy and antioxidant property not.

But realize the golden strange land of a kind of antiradar reflectivity steel off-line LOW-E coated glass of the utility model purpose, comprise the glass coating, first medium layer, second medium layer, the first screen layer, silver layer, secondary shielding layer, the 3rd medium layer that set gradually from inside to outside.

Described the first screen layer and secondary shielding layer are nitrogenize or oxidation nicr layer, or are the pure nickel chromium alloy layer.

Described first medium layer is the material layer that silicon oxide layer or specific refractory power and silicon oxide approach; Second medium layer and the 3rd medium layer are silicon nitride layer, or specific refractory power and the silicon nitride zinc oxide or the zinc-tin oxide layer that approach.

The thickness of described first medium layer is 0-100nm.

The thickness of described second layer medium layer is 10-40nm, and the thickness of the 3rd layer of medium layer is 85-120nm.

The thickness of described silver layer is 4-15nm.

The thickness of described the first layer screen layer and second layer screen layer is 2-10nm.

But the beneficial effect of the golden strange land of a kind of antiradar reflectivity of the present utility model steel off-line LOW-E coated glass is as follows:

But the golden strange land of a kind of antiradar reflectivity of the present utility model steel off-line LOW-E coated glass, three layers of medium layer have been adopted, not only strengthened the sticking power of rete, simultaneously by regulating second and third medium layer, can effectively regulate transmittance, reflectivity and the color of this golden low radiation film coating glass, make the golden colour gamut of this product larger, more attractive in appearance.Second layer screen layer (being blocking layer) and the 3rd layer of thicker medium layer can effectively improve the oxidation-resistance of silver layer in this low radiation coated glass.Simultaneously, the 3rd layer of thicker medium layer belongs to the harder silicon nitride of material, can effectively improve the anti-damage ability of this low-radiation film layer, prevents from causing scuffing in the post-production process.Use this film system can the production radiant ratio at 0.05-0.15, but visible transmission is than the golden strange land of the multiple a kind of antiradar reflectivity steel off-line LOW-E coated glass at 10%-30%.

Description of drawings

But Fig. 1 is the structural representation of the golden strange land of a kind of antiradar reflectivity of the present utility model steel off-line LOW-E coated glass.

Embodiment

As shown in Figure 1, but the golden strange land of a kind of antiradar reflectivity of the present utility model steel off-line LOW-E coated glass, comprise the glass coating 1, first medium layer 2, second medium layer 3, the first screen layer 4, silver layer 5, secondary shielding layer 6, the 3rd medium layer 7 that set gradually from inside to outside.

Described the first screen layer 4 and secondary shielding layer 6 are nitrogenize or oxidation nicr layer, or are the pure nickel chromium alloy layer.

Described first medium layer 2 is the material layer that silicon oxide layer or specific refractory power and silicon oxide approach; Second medium layer 3 and the 3rd medium layer 7 are silicon nitride layer, or specific refractory power and the silicon nitride zinc oxide or the zinc-tin oxide layer that approach.

The thickness of described first medium layer 2 is 0-100nm.

The thickness of described second layer medium layer 3 is 10-40nm, and the thickness of the 3rd layer of medium layer 7 is 85-120nm.

The thickness of described silver layer 5 is 4-15nm.

The thickness of described the first layer screen layer 4 and second layer screen layer 6 is 2-10nm.

Metallic silver layer 5 plays a crucial role in this film system, it determines the radiant ratio that whole film is, and directly affects transmittance and the reflectivity of film system.But the silverskin quality is soft, easily scratch, and poor with the bonding force of glass 1, add easily oxidation in air, so the silverskin both sides need add medium layer or screen layer is protected.In the present invention; three layers of medium layer have been adopted; not only strengthened the protection to silver layer 5; simultaneously by regulating the thickness of these three layers of medium layers; but can effectively regulate transmittance, reflectivity and the color of the low-E golden coated glass of this off-line steel; make the gamut range of product wider, anti-damage ability is strong.By adopting two-layer screen layer (blocking layer), the effective oxidation-resistance of silver layer in this coated glass.Simultaneously, thickness that also can be by regulating this two-layer screen layer to be to regulate transmittance and reflectivity, but but use this film system production radiant ratio at 0.05-0.15, visible transmission than the golden strange land of the multiple a kind of antiradar reflectivity steel off-line LOW-E coated glass at 10%-30%.

The material layer that first medium layer 2 can approach for silicon oxide layer or specific refractory power and silicon oxide; The first screen layer and secondary shielding layer are nitrogenize (or oxidation) nicr layer or pure nickel chromium alloy layer; Second medium layer and the 3rd medium layer are zinc oxide or the zinc-tin oxide layer that silicon nitride layer or specific refractory power and silicon nitride approach.

The Main Function of first medium layer 2 is the sticking power that improves this low-radiation film layer and glass, does not affect outward appearance and the energy-saving effect of this product, and thickness is 0-100nm, if do not use this medium layer also passable.

The thickness of second layer medium layer 3 is 10-40nm, and the thickness of the 3rd layer of medium layer 7 is 85-120nm.By adjusting the thickness of this two layer medium layer, can effectively regulate transmittance, reflectivity and the color of this film system, make the gamut range of product wider.

In above-mentioned low radiation coated glass, the thickness of the first layer screen layer 4 and second layer screen layer 6 is 2-10nm., by adjusting the thickness of this two-layer screen layer, can regulate transmittance and the reflectivity of film system.

Embodiment recited above is described preferred implementation of the present utility model; not scope of the present utility model is limited; do not breaking away under the spiritual prerequisite of the utility model design; various distortion and improvement that the common engineering technical personnel in this area make technical solutions of the utility model, all should fall in the definite protection domain of claims of the present utility model.

Claims (7)

1. but the golden strange land of an antiradar reflectivity steel off-line LOW-E coated glass, is characterized in that: comprise the glass coating, first medium layer, second medium layer, the first screen layer, silver layer, secondary shielding layer, the 3rd medium layer that set gradually from inside to outside.

2. but the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: the first screen layer and secondary shielding layer are nitrogenize or oxidation nicr layer, or are the pure nickel chromium alloy layer.

But 3. the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: described first medium layer is silicon oxide layer or the specific refractory power material layer approaching with silicon oxide; Second medium layer and the 3rd medium layer are silicon nitride layer, or specific refractory power and the silicon nitride zinc oxide or the zinc-tin oxide layer that approach.

4. but the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: the thickness of described first medium layer is 0-100nm.

But 5. the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: the thickness of described second layer medium layer is 10-40nm, the thickness of the 3rd layer of medium layer is 85-120nm.

6. but the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: the thickness of described silver layer is 4-15nm.

7. but the golden strange land of a kind of antiradar reflectivity according to claim 1 steel off-line LOW-E coated glass, it is characterized in that: the thickness of described the first layer screen layer and second layer screen layer is 2-10nm.