CN201628822U - Lens and spectacles with same - Google Patents

Abstract

The utility model provides a multifunctional lens, which comprises a substrate. The substrate is provided with a first surface and a second surface corresponding to the first surface, and comprises at least one transparent region disposed on the first surface and a non-transparent region arranged on other portions of the whole first surface, wherein the non-transparent region is a display area. The utility model further provides multifunctional spectacles, the spectacles can assist a wearer to observe external environments, and simultaneously, appearance of the spectacles is attractive and display images of the spectacles can be changed continuously by aid of image display functions of the outer surfaces of the lenses of the spectacles.

Description

A kind of eyeglass and have the glasses of this eyeglass

Technical field

The utility model relates to a kind of glasses, is specifically related to a kind of glasses with multifunctional usage.

Background technology

Micropole glasses, the center of lens that is meant glasses has the aperture of one or more printing opacities, and the part beyond the aperture is all light tight on the eyeglass.According to the pinhole imaging system principle, when wearing, the observer can clearly observe external environment by aperture.Wearing Micropole glasses does not need to carry out special optometry, and therefore, Micropole glasses can also play the adjusting eyesight, removes characteristics such as eye fatigue, anxiety, spasm.

Existing Micropole glasses, though have above characteristics, the eyeglass function singleness, pattern is outmoded, can not satisfy the demand that numerous youth chase fashion when regulating eyesight.

Summary of the invention

Technical scheme

The purpose of this utility model is to overcome above-mentioned defective, a kind of multi-functional glasses is provided, being provides when observing external environment condition to the wearer, and outside surface that can glasses is realized the Presentation Function of image, reaches dazzling glasses profile and the constantly display frame of conversion.

Above-mentioned purpose of the present utility model is achieved by following technical solution:

The utility model provides a kind of eyeglass, comprise substrate, described substrate has a first surface and a second surface corresponding with described first surface, described first surface is provided with organic electroluminescent layer, the core of organic electro luminescent layer has a plurality of transparent regions, the remainder of organic electro luminescent layer is a zone of opacity, and described zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone.

Concrete, described transparent region area is less than 4mm ²

Concrete, described transparent region comprises anode layer, cathode layer and the luminescent layer between anode layer and cathode layer, the cathode layer of described transparent region is transparent.

Concrete, described transparent region comprises anode layer, is positioned at the luminescent layer on the anode layer.

The utility model provides a kind of glasses, comprising:

Mirror holder;

Eyeglass, described eyeglass comprises substrate, substrate has a first surface and a second surface corresponding with described first surface, described first surface is provided with organic electroluminescent layer, the core of organic electro luminescent layer has a plurality of transparent regions, the remainder of organic electro luminescent layer is a zone of opacity, and described zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone;

Control the control device that described ORGANIC ELECTROLUMINESCENCE DISPLAYS zone shows.

Concrete, described transparent region area is less than 4mm ²

Concrete, described transparent region comprises anode layer, cathode layer and the luminescent layer between anode layer and cathode layer, the cathode layer of described transparent region is transparent.

Concrete, described transparent region comprises anode layer, is positioned at the luminescent layer on the anode layer.

Concrete, described control device is positioned on the mirror holder.

Concrete, described substrate has an inside surface and an outside surface corresponding with described inside surface, and described first surface is an inside surface.

Concrete, described substrate has an inside surface and an outside surface corresponding with described inside surface, and described first surface is an outside surface.

The utility model provides a kind of glasses, comprising:

Mirror holder;

Eyeglass, described eyeglass comprises substrate, substrate has an inside surface and an outside surface corresponding with described inside surface, first organic electro luminescent layer is set on the described inside surface, the core of first organic electro luminescent layer has a plurality of first transparent regions, the remainder of first organic electro luminescent layer is first zone of opacity, and first zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone

Second organic electro luminescent layer is set on the described outside surface, the core of second organic electro luminescent layer has a plurality of second transparent regions, the remainder of second organic electro luminescent layer is second zone of opacity, and described second zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone

Described first transparent region and described second transparent region lay respectively at the opposite position of inside surface and outside surface;

Control the control device that described first transparent region and described second transparent region show.

The multi-functional glasses that the utility model provides, when the observation external environment condition was provided to the wearer, the outside surface of glasses was realized image display function, the display frame of the continuous conversion of generation is for the onlooker provides dazzling glasses visual effect.The lens design that is used for Presentation Function is not when influencing wearer's Micropole glasses overview function, at the Presentation Function of glasses inside surface or outside surface realization image.

Description of drawings

Fig. 1 is a multi-functional glasses structural representation described in the utility model;

Fig. 2 is the lens structure synoptic diagram of the utility model embodiment one described multi-functional glasses;

Fig. 3 is the lens structure synoptic diagram of the utility model embodiment two described multi-functional glasses;

Fig. 4 is the lens structure synoptic diagram of the utility model embodiment three described multi-functional glasses;

Fig. 5 is the effect synoptic diagram that the utility model outside surface OLED shows.

Embodiment

The utility model is described in further detail below by specific embodiment.

As shown in Figure 1, be multi-functional glasses structural representation described in the utility model.Comprise mirror holder 11, eyeglass 10, eyeglass comprises that the eyeglass body is a substrate, and substrate comprises two surfaces, and a surface is an inside surface, and a surface is an outside surface, the corresponding eyeglass wearer of inside surface, the corresponding external environment of outside surface.

Be provided with one deck ORGANIC ELECTROLUMINESCENCE DISPLAYS layer on the outer surface, it is OLED (Organic Light EmittingDevice) layer, oled layer has covered outside surface, oled layer comprises anode layer, cathode layer and the luminescent layer between anode layer and cathode layer, anode layer and luminescent layer are generally transparent material, cathode layer is an opaque material, the outer surface region that oled layer covers has formed the zone of opacity of outside surface, show dazzling picture or image by this OLED zone of opacity to external environment, literal, video etc.Be provided with the transparent region of a plurality of small sizes in the center of oled layer, these transparent regions are not provided with oled layer, perhaps do not establish cathode layer, so transparent region is not luminous, i.e. display image not.Transparent region is the zone of diameter 1-6mm, is preferably the zone less than 2mm, and preferred transparent region area is less than 4mm ²The principle of work of Micropole glasses after the wearer is with glasses, can be passed through these transparent regions, i.e. " aperture " can clearly observe external environment.These transparent regions can be circle, and are square or irregularly shaped.

The image that oled layer shows is controlled by control device 12, and control device 12 can be positioned on the mirror holder, also can be positioned at other positions, as utilizes the control device of wireless etc. of controlled in wireless.

Below be several embodiment of the present utility model, oled layer can also be positioned at the inside surface of eyeglass except on the outside surface that is positioned at eyeglass, or, be positioned at simultaneously on outside surface and the inside surface.

Embodiment one: the OLED display layer is positioned at inside surface.The lens structure of multi-functional glasses as shown in Figure 2, eyeglass 10 ' comprise substrate 15 ', substrate 15 ' inside surface on have one deck oled layer 14 ', be positioned at a plurality of transparent apertures 13 ' on the oled layer 14 ', transparent apertures is not luminous, oled layer 14 ' is opaque, and opaque oled layer is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone, and the wearer is by transparent apertures 13 ' observation external environment condition." transparent apertures " for substrate can printing opacity transparent region, but not on substrate, bore a hole.

The scheme of embodiment one when the user wears, both can observe external environment by transparent region, can also watch the image of demonstration by zone of opacity, was similar to and was provided with a small-sized display on the glasses.

Embodiment two: the OLED display layer is positioned at outside surface.The lens structure of multi-functional glasses as shown in Figure 3, eyeglass 10 " comprise substrate 15 ", have one deck oled layer 17 on the outside surface ", be positioned at oled layer 17 " on a plurality of transparent apertures 16 "; oled layer 17 " be opaque layer, the wearer is by transparent apertures 16 " the observation external environment condition.Oled layer 17 " be used for dazzling cruel demonstration to the external world." transparent apertures " for substrate can printing opacity transparent region, but not on substrate, bore a hole.

As the outside surface Presentation Function, can allow its crowd on every side of user observe dazzling glasses profile and the constantly display frame of conversion, when surrounding population is seen the wearer, the world as the magic has appearred in " glasses " lining of wearer, gorgeous, with countless changes, display effect figure as shown in Figure 5.

Embodiment three: the OLED display layer lays respectively at inside surface and outside surface.The lens structure of multi-functional glasses as shown in Figure 4, eyeglass 10 " ' comprise substrate 15 " ', present embodiment combines preceding two embodiment, had inner oled layer 14 concurrently " ' and outside oled layer 17 " ', promptly can pass through inner oled layer 14 " ' satisfy to wearer's display image, by outside oled layer 17 " ' to onlooker's display image or sign.The outside design sketch that shows as shown in Figure 5.

The lens design that is used for Presentation Function can be when not influencing the Micropole glasses overview function, at the Presentation Function of glasses inside surface or outside surface realization image.Simultaneously, as the outside surface Presentation Function, allow user crowd on every side observe the display effect of dazzling glasses profile and continuous conversion.

Though the utility model is to disclose as above than preferable embodiment; yet it is not in order to limit the utility model; anyly be familiar with this technology personage; in not breaking away from spirit and scope of the present utility model; when being used for a variety of modifications and variations; therefore, protection domain of the present utility model is as the criterion when the claim with application defines.

Claims (12)

1. eyeglass, comprise substrate, described substrate has a first surface and a second surface corresponding with described first surface, it is characterized in that, described first surface is provided with organic electroluminescent layer, the core of organic electro luminescent layer has a plurality of transparent regions, and the remainder of organic electro luminescent layer is a zone of opacity, and described zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone.

2. eyeglass as claimed in claim 1 is characterized in that, described transparent region area is less than 4mm ²

3. eyeglass as claimed in claim 1 is characterized in that, described transparent region comprises anode layer, cathode layer and the luminescent layer between anode layer and cathode layer, and the cathode layer of described transparent region is transparent.

4. eyeglass as claimed in claim 1 is characterized in that, described transparent region comprises anode layer, is positioned at the luminescent layer on the anode layer.

5. glasses comprise:

Mirror holder;

Eyeglass, described eyeglass comprises substrate, substrate has a first surface and a second surface corresponding with described first surface, it is characterized in that, described first surface is provided with organic electroluminescent layer, the core of organic electro luminescent layer has a plurality of transparent regions, and the remainder of organic electro luminescent layer is a zone of opacity, and described zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone;

Control the control device that described ORGANIC ELECTROLUMINESCENCE DISPLAYS zone shows.

6. glasses as claimed in claim 5 is characterized in that, described transparent region area is less than 4mm ²

7. glasses as claimed in claim 5 is characterized in that, described transparent region comprises anode layer, cathode layer and the luminescent layer between anode layer and cathode layer, and the cathode layer of described transparent region is transparent.

8. glasses as claimed in claim 5 is characterized in that, described transparent region comprises anode layer, is positioned at the luminescent layer on the anode layer.

9. glasses as claimed in claim 5 is characterized in that described control device is positioned on the mirror holder.

10. glasses as claimed in claim 5 is characterized in that, described substrate has an inside surface and an outside surface corresponding with described inside surface, and described first surface is an inside surface.

11. glasses as claimed in claim 5 is characterized in that, described substrate has an inside surface and an outside surface corresponding with described inside surface, and described first surface is an outside surface.

12. glasses comprise:

Mirror holder;

Eyeglass, described eyeglass comprises substrate, substrate has an inside surface and an outside surface corresponding with described inside surface, it is characterized in that, first organic electro luminescent layer is set on the described inside surface, and the core of first organic electro luminescent layer has a plurality of first transparent regions, and the remainder of first organic electro luminescent layer is first zone of opacity, first zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone

Second organic electro luminescent layer is set on the described outside surface, the core of second organic electro luminescent layer has a plurality of second transparent regions, the remainder of second organic electro luminescent layer is second zone of opacity, and described second zone of opacity is the ORGANIC ELECTROLUMINESCENCE DISPLAYS zone

Described first transparent region and described second transparent region lay respectively at the opposite position of inside surface and outside surface;

Control the control device that described first transparent region and described second transparent region show.

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