CN204488136U - A kind of glass of anti-electromagnetic radiation - Google Patents

Abstract

The utility model relates to the glass of anti-electromagnetic radiation, and the glass of described anti-electromagnetic radiation comprises simple glass bottom, adhesive linkage, anti-electromagnetic radiation functional layer and protective layer from the inside to the outside successively; Adhesive linkage is polyurethane coating layer, and thickness is 20 ~ 30nm; Anti-electromagnetic radiation functional layer is the ITO layer superposed successively, Ag layer, ITO layer, and ITO layer thickness is 30 ~ 50nm, Ag layer thickness is 20 ~ 30nm; Protective layer is SiO ₂film, thickness is 20 ~ 30nm.The beneficial effects of the utility model are: effectively prevent electromagnetic wave by this glass to external radiation, and the health of protection user can also play the effect of economize energy; The nontransparent glass that the film layer of extra setting can also play as anti-electromagnetic radiation uses and also serves the effect of attractive, decorative, has great practical value.

Description

A kind of glass of anti-electromagnetic radiation

Technical field

The utility model relates to a kind of glass, is specifically related to a kind of glass of anti-electromagnetic radiation.

Background technology

Along with the generally use of the high speed development of modern electronics industry and electronics, electric equipment products, electromagnetic radiation and electromagnetic interference oneself become one of very important public hazards of society.Electromagnetic radiation can affect the healthy of people, and electromagnetic radiation is except waste gas, sewage, the 4th kind of pollution beyond noise pollution.The harm being subject to electromagenetic wave radiation for a long time easily can cause the various diseases such as cardiovascular, the cerebrovascular, and faint electromagnetic wave also can invade brain by eyes, sows the inducement of cancer to people.The staff that every day works more than six hours before computer, can cause and be losing one's memory, insomnia, passionnate, palpitaition, leucocyte and decrease of platelet, or even the serious consequence such as miscarriage and newborn teratogenesis, very serious to the injury of human body., therefore in order to proterctive equipment is stable and human-body safety, domestic and international researcher has carried out with regard to anti-electromagnetic radiation material and has studied widely.

Modern kitchen popularizes the household electrical appliance such as micro-wave oven, disinfection cabinet, electric oven, refrigerator in a large number, the common ground of these electrical equipment is: the observation window of electrical equipment or door all adopt transparent glass material, to be convenient for people to observe the situation in electrical equipment, electrical equipment operationally can the electromagnetic wave such as microwave radiation, infrared ray, or needs shielding from the infrared emanation in the external world.In micro-wave oven application aspect, microwave irradiation produces serious influence to people's cognition, and the material structure of microwave current furnace door cannot take into account the double requirements of transparent observing and micro-wave screening.And infrared energy penetrates the simple glass of fire door during the work such as electric oven, micro-wave oven, take away amount of heat and cause energy waste.The observation door, window etc. of refrigerator-freezer and refrigerator then need effectively shielding from the heat radiation in the external world.Therefore, design one can shield electromagnetic wave and economize energy, and the glass material that can meet again transparent observing is necessary, and this just has higher requirement to the combination property of glass material.

For this reason, designer of the present utility model is because above-mentioned technological deficiency, and by concentrating on studies and designing, comprehensive experience and the achievement being engaged in related industry for a long time for many years, research and design goes out a kind of glass of anti-electromagnetic radiation, to overcome above-mentioned technological deficiency.

Utility model content

The technical problems to be solved in the utility model is: the glass designing a kind of anti-electromagnetic radiation, to solve the not good technical problem of glass anti-electromagnetic radiation performance conventional in prior art.

In order to solve the problems of the technologies described above, the utility model have employed following technical scheme:

A glass for anti-electromagnetic radiation, the glass of described anti-electromagnetic radiation comprises simple glass bottom, adhesive linkage, anti-electromagnetic radiation functional layer and protective layer from the inside to the outside successively; Described adhesive linkage is polyurethane coating layer, and thickness is 20 ~ 30nm; Described anti-electromagnetic radiation functional layer is the ITO layer superposed successively, Ag layer, ITO layer, and ITO layer thickness is 30 ~ 50nm, Ag layer thickness is 20 ~ 30nm; Described protective layer is SiO ₂film, thickness is 20 ~ 30nm.

The glass of above-mentioned anti-electromagnetic radiation, is characterized in that: the thickness of described simple glass bottom is 0.8 ~ 1.2mm.

The glass of above-mentioned anti-electromagnetic radiation, is characterized in that: at described SiO ₂be provided with polyethylene film outside thinfilm protective coating, described sealed polyethylene plastic is made with shades of colour and pattern, make described glass become the nontransparent glass of anti-electromagnetic radiation.

Known by technique scheme, the glass of anti-electromagnetic radiation of the present utility model has following technique effect:

1, the glass of anti-electromagnetic radiation of the present utility model adopts ITO/Ag/ITO anti-electromagnetic radiation functional layer effectively can prevent electromagnetic wave by this glass to external radiation, the health of protection user, the effect of economize energy can also be played simultaneously, there is great practical value;

2, anti-electromagnetic radiation glass of the present utility model adopts polyurethane coating adhesive linkage between ITO/Ag/ITO anti-electromagnetic radiation functional layer and simple glass bottom, greatly can improve the bond strength between anti-electromagnetic radiation functional layer and simple glass bottom;

3, the polyethylene film of pattern and the various colourful color can making different-effect can be set on the surface of the glass of anti-electromagnetic radiation of the present utility model as required, can use as the nontransparent glass of anti-electromagnetic radiation, and serve the effect of attractive, decorative.

Detailed content of the present utility model obtains by following detailed description and Figure of description.

Accompanying drawing explanation

Fig. 1 is the structural representation of the glass of anti-electromagnetic radiation of the present utility model.

In figure: 1 be simple glass bottom, 2 be adhesive linkage, 3 be anti-electromagnetic radiation functional layer, 4 be protective layer, 5 for lower ITO layer, 6 is Ag layer, and 7 is upper ITO layer.

Detailed description of the invention

The glass of anti-electromagnetic radiation of the present utility model is described in detail below in conjunction with Figure of description.

See Fig. 1, show the glass of anti-electromagnetic radiation of the present utility model.

The glass of a kind of anti-electromagnetic radiation of the present utility model, the glass of described anti-electromagnetic radiation comprises simple glass bottom 1, adhesive linkage 2, anti-electromagnetic radiation functional layer 3 and protective layer 4 that thickness is 0.8 ~ 1.2mm from the inside to the outside successively; Described adhesive linkage 2 is polyurethane coating layer, and thickness is 25nm; Described anti-electromagnetic radiation functional layer 3 is ITO layer 5, the Ag layer 6 superposed successively, ITO layer 7, and ITO layer thickness is 40nm, Ag layer thickness is 25nm; Described protective layer 4 is SiO ₂film, thickness is 25nm.

As required, can at described SiO ₂be provided with polyethylene film outside thinfilm protective coating, described sealed polyethylene plastic is made with shades of colour and pattern, make described glass become the nontransparent glass of anti-electromagnetic radiation.

Known by said structure, the glass tool of anti-electromagnetic radiation of the present utility model has the following advantages:

1, the glass of anti-electromagnetic radiation of the present utility model adopts ITO/Ag/ITO anti-electromagnetic radiation functional layer effectively can prevent electromagnetic wave by this glass to external radiation, the health of protection user, the effect of economize energy can also be played simultaneously, there is great practical value;

2, anti-electromagnetic radiation glass of the present utility model adopts polyurethane coating adhesive linkage between ITO/Ag/ITO anti-electromagnetic radiation functional layer and simple glass bottom, greatly can improve the bond strength between anti-electromagnetic radiation functional layer and simple glass bottom;

3, the polyethylene film of pattern and the various colourful color can making different-effect can be set on the surface of the glass of anti-electromagnetic radiation of the present utility model as required, can use as the nontransparent glass of anti-electromagnetic radiation, and serve the effect of attractive, decorative.

It is evident that, above description and record be only citing instead of in order to limit content disclosed in the utility model, application or use.Although described in an embodiment and described embodiment with reference to the accompanying drawings, but the utility model do not limit by accompanying drawing example and describe in an embodiment as the optimal mode thought at present to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment of description and the appended claim fallen into above.

Claims (3)

1. a glass for anti-electromagnetic radiation, is characterized in that: the glass of described anti-electromagnetic radiation comprises simple glass bottom, adhesive linkage, anti-electromagnetic radiation functional layer and protective layer from the inside to the outside successively; Described adhesive linkage is polyurethane coating layer, and thickness is 20 ~ 30nm; Described anti-electromagnetic radiation functional layer is the ITO layer superposed successively, Ag layer, ITO layer, and ITO layer thickness is 30 ~ 50nm, Ag layer thickness is 20 ~ 30nm; Described protective layer is SiO ₂film, thickness is 20 ~ 30nm.

2. the glass of anti-electromagnetic radiation as claimed in claim 1, is characterized in that: the thickness of described simple glass bottom is 0.8 ~ 1.2mm.

3. the glass of anti-electromagnetic radiation as claimed in claim 1, is characterized in that: at described SiO ₂be provided with polyethylene film outside thinfilm protective coating, described sealed polyethylene plastic is made with shades of colour and pattern, make described glass become the nontransparent glass of anti-electromagnetic radiation.