CN205229495U - Little glasses piece - Google Patents

Abstract

The utility model discloses a little glasses piece, learn the mirror surface structure including lens body, anti -radiation film, three -dimensional shimmer, lens body end is provided with anti -radiation film, anti -radiation film learns the mirror surface structure through three -dimensional shimmer and is cooperating the focus micro -structure, the focus micro -structure is installed on high diopter layer terminally, high diopter layer is distinguished through micro optical structure and is being connected the lens body, the lens body is being fixed through high diopter layer, be provided with anti -radiation film on the high diopter layer, anti -radiation film is connecting three -dimensional shimmer through high diopter layer and is learning the mirror surface structure, three -dimensional shimmer mirror surface structure is passed through the focus micro -structure and is being connected the micro optical structure district, the micro optical structure district sets up at the lens body terminally. The utility model discloses the cost is lower, and the design is simple, can be effectual carries out little optical processing to the lens, can improve the clear effect of glasses by a wide margin, is fit for the application of relevant enterprise and promotes.

Description

A kind of Microoptical glass lens

Technical field

The utility model belongs to produces lens field, is specifically related to a kind of Microoptical glass lens.

Background technology

At present, it is rapid that China produces lens industry development, and the device for lens is also varied, but is still faced with very many-sided challenge, and demand finds the solution meeting client.Application number is the Chinese patent of 03228531.0, and particular content is: the utility model relates to a kind of Microoptical glass lens.The micro-optic mirror surface structure (1) that on a face of this eyeglass, useful Microoptical glass lens designing and manufacturing technique is formed, the micro optical structure district that this structure has several to be formed by multiple stage rank, the ring diameter of each structural area increases progressively as rk=(2k λ f) 1/2 successively; Step depth is followed successively by t1=λ/4 (n-1) and t2=λ/8 (n-1).The another side of eyeglass also can be common minute surface (2) or micro-optic mirror surface structure.The utility model can produce has single Jiao, bifocal, multifocal and obtain the eyeglass of high diopter imaging clearly under ultra-thin condition, extensively can adapt to the rectification of hyperpresbyopia, high myopia, presbyopic myopia, near-sighted presbyopic or astigmatism, this eyeglass also has light and handy, attractive in appearance and cheap etc. advantage.This new structure contains the advantage that above-mentioned patent has, but above-mentioned patent is radiation-resistant function not, only increasing micro-optic mirror surface structure from structure carrys out the clear effect of eyeglass with this compared with traditional eyewear sheet, and make not do in purposes any process, make can not get a desired effect in the process of producing in practical operation, and cause manufacturing cost to increase considerably due to the requirement that structure is undue complicated, lens complex structure used, the actual budget of cost and service efficiency is not directly proportional, is not suitable for promoting the use.In sum, so I devises a kind of Microoptical glass lens.

Summary of the invention

In order to solve above-mentioned Problems existing, the utility model provides a kind of Microoptical glass lens.

The utility model is achieved through the following technical solutions:

A kind of Microoptical glass lens, comprise eyeglass body, radiation prevention film, three-dimensional micro-optic mirror surface structure, described eyeglass body tip is provided with radiation prevention film; Described radiation prevention film is combined with focal length microstructure by three-dimensional micro-optic mirror surface structure; Described focal length microstructure is arranged on high diopter layer end; Described high diopter floor is connected to eyeglass body by micro optical structure district; Eyeglass body is fixed wtih by high diopter layer; Described high diopter layer is provided with radiation prevention film; Described radiation prevention film is connected to three-dimensional micro-optic mirror surface structure by high diopter layer; Described three-dimensional micro-optic mirror surface structure micro optical structure district by focal length microstructure brazing; Described micro optical structure district is arranged on eyeglass body tip.

As further prioritization scheme of the present utility model, described eyeglass body is arranged on described three-dimensional micro-optic mirror surface structure; Described three-dimensional micro-optic mirror surface structure is provided with described focal length microstructure.

As further prioritization scheme of the present utility model, described focal length microstructure portion is provided with described high diopter layer; Described high diopter layer is connected to described three-dimensional micro-optic mirror surface structure by eyeglass body.

As further prioritization scheme of the present utility model, described three-dimensional micro-optic mirror surface structure is provided with described micro optical structure district; Described micro optical structure district is connected to described radiation prevention film by eyeglass body.

Compared with prior art, the beneficial effects of the utility model are: the utility model cost is lower, simplicity of design, effectively can carry out micro-optic process to lens, significantly can improve the clear effect of glasses.

Accompanying drawing explanation

Fig. 1 is the front view of structure described in the utility model.

In figure: 1, eyeglass body; 2, radiation prevention film; 3, three-dimensional micro-optic mirror surface structure; 4, focal length microstructure; 5, high diopter layer; 6, micro optical structure district.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail:

As shown in Figure 1, a kind of Microoptical glass lens, comprise eyeglass body (1), radiation prevention film (2), three-dimensional micro-optic mirror surface structure (3), described eyeglass body (1) end is provided with radiation prevention film (2); Described radiation prevention film (2) is combined with focal length microstructure (4) by three-dimensional micro-optic mirror surface structure (3); Described focal length microstructure (4) is arranged on high diopter layer (5) end; Described high diopter floor (5) is connected to eyeglass body (1) by micro optical structure district (6); Eyeglass body (1) is fixed wtih by high diopter layer (5); Described high diopter layer (5) is provided with radiation prevention film (2); Described radiation prevention film (2) is connected to three-dimensional micro-optic mirror surface structure (3) by high diopter layer (5); Described three-dimensional micro-optic mirror surface structure (3) is connected to micro optical structure district (6) by focal length microstructure (4); Described micro optical structure district (6) is arranged on eyeglass body (1) end.

Described eyeglass body (1) is arranged on described three-dimensional micro-optic mirror surface structure (3); Described three-dimensional micro-optic mirror surface structure (3) is provided with described focal length microstructure (4); Described focal length microstructure (4) inside is provided with described high diopter layer (5); Described high diopter layer (5) is connected to described three-dimensional micro-optic mirror surface structure (3) by eyeglass body (1); Described three-dimensional micro-optic mirror surface structure (3) is provided with described micro optical structure district (6); Described micro optical structure district (6) is connected to described radiation prevention film (2) by eyeglass body (1).

Described new structure is provided with three-dimensional micro-optic mirror surface structure, high diopter floor, radiation prevention film, micro optical structure district, described three-dimensional micro-optic mirror surface structure carries out effective micro-optic process to light, and light effects is sent to described data height diopter layer; Described high diopter layer processes the light that described three-dimensional micro-optic mirror surface structure transmits, and send result to described radiation prevention film; Described radiation prevention film is when the described high diopter layer of reception transmits, and performs the micro-optic processing instruction of lens, and sends this instruction to described micro optical structure district; Described micro optical structure district works after receiving the instruction that described radiation prevention film transmits, and makes to carry out micro-optic process to lens.The utility model cost is lower, simplicity of design, effectively can carry out micro-optic process to lens, significantly can improve the clear effect of glasses, is applicable to relevant enterprise and uses popularization.

More than show and describe ultimate principle of the present utility model, principal character and advantage.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and instructions just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (4)

1. a Microoptical glass lens, is characterized in that: comprise eyeglass body, radiation prevention film, three-dimensional micro-optic mirror surface structure, described eyeglass body tip is provided with radiation prevention film; Described radiation prevention film is combined with focal length microstructure by three-dimensional micro-optic mirror surface structure; Described focal length microstructure is arranged on high diopter layer end; Described high diopter floor is connected to eyeglass body by micro optical structure district; Eyeglass body is fixed wtih by high diopter layer; Described high diopter layer is provided with radiation prevention film; Described radiation prevention film is connected to three-dimensional micro-optic mirror surface structure by high diopter layer; Described three-dimensional micro-optic mirror surface structure micro optical structure district by focal length microstructure brazing; Described micro optical structure district is arranged on eyeglass body tip.

2. a kind of Microoptical glass lens according to claim 1, is characterized in that: described eyeglass body is arranged on described three-dimensional micro-optic mirror surface structure; Described three-dimensional micro-optic mirror surface structure is provided with described focal length microstructure.

3. a kind of Microoptical glass lens according to claim 2, is characterized in that: described focal length microstructure portion is provided with described high diopter layer; Described high diopter layer is connected to described three-dimensional micro-optic mirror surface structure by eyeglass body.

4. a kind of Microoptical glass lens according to claim 3, is characterized in that: described three-dimensional micro-optic mirror surface structure is provided with described micro optical structure district; Described micro optical structure district is connected to described radiation prevention film by eyeglass body.