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Diopter-corrected tooth-shaped mosaic planar waveguide optics

A planar waveguide and optical device technology, applied in the direction of optical waveguide light guide, optical components, optics, etc., can solve the problems of optical imaging system weight and field of view, observation of abnormal diopter, etc., to solve the problem of abnormal diopter observed by human eyes, compact structure , The effect of large imaging field of view

Active Publication Date: 2017-12-08
SHANGHAI RAYPAI PHOTONIC CRYSTAL LTD
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  • Application Information

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Problems solved by technology

[0003] In order to solve a series of problems caused by the contradiction between the weight of the optical imaging system and the field of view of the traditional wearable display optical system and the observation of abnormal diopter, the present invention designs a diopter-corrected tooth-shaped mosaic planar waveguide optical device

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  • Diopter-corrected tooth-shaped mosaic planar waveguide optics
  • Diopter-corrected tooth-shaped mosaic planar waveguide optics
  • Diopter-corrected tooth-shaped mosaic planar waveguide optics

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Embodiment Construction

[0026] Below in conjunction with accompanying drawing, concrete working project of the present invention is given description.

[0027] figure 1 Schematic diagram of the structure of the tooth-shaped mosaic planar waveguide optical device for diopter correction of the present invention, such as figure 1 As shown, the system composition of the optical device of the present invention includes: a display light source 10 , a collimator lens 11 , a coupling input surface 12 , a planar waveguide substrate 13 , a micro-toothed structure 14 , and a thin negative lens 15 . The basic structure of the optical device of the present invention is composed of six parts, and each component part of the present invention can be expanded correspondingly for specific applications, thereby further improving the application potential of the system. Below give corresponding explanation for the effect of six parts of the present invention:

[0028] The display light source 10 mainly provides image ...

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Abstract

The invention provides a tooth-shaped embedding planar waveguide optical device which has a diopter correction function and can be used for full-eye wearing displaying. The tooth-shaped embedding planar waveguide optical device comprises a display light source, a collimation lens, a coupling input surface, a planar waveguide substrate, a micro tooth-shaped structure and a thin negative lens, wherein the display light source is used for sending displaying light waves for displaying a required image; the collimation lens is used for collimating the light waves sent by the light source; the coupling input surface is used for coupling the collimated light waves to a planar waveguide; the planar waveguide substrate carries out reflection transmission on the coupled light waves to form total-reflection light waves; the micro tooth-shaped structure is used for carrying out coupling output on the total-reflection light waves; the thin negative lens is used for correcting the diopter. The tooth-shaped embedding planar waveguide optical device has the characteristics of convenience in diopter correction, light weight, compact structure, simple processing technology, flexible visual field adding and high light wave coupling efficiency, and can be either used for wearable displaying or the application field of naked-eye 3D displaying of a medical ear mirror, GPS navigation, mobile screen displaying and the like.

Description

technical field [0001] The invention relates to a planar waveguide optical device, in particular to a tooth-shaped inlaid planar waveguide optical device with diopter correction that can be used for full-eye wearable display. Background technique [0002] The traditional helmet-mounted display is realized by a 45° reflective structure. This structure has a great contradiction between the increase of the field of view and the overall weight of the helmet. In order to increase the field of view, it can only be achieved by increasing the area of ​​the 45° reflective surface, which means that the weight of the overall reflective system increases. Usually, the helmet-mounted display device uses optical components to virtually display image information at a certain distance in front of the human eye in order to facilitate the wearer to browse information without affecting the normal behavior. The core component of this type of optical display system consists of three parts: grap...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B27/01
CPCG02B6/10G02B27/0101
Inventor 张圣军张庆
Owner SHANGHAI RAYPAI PHOTONIC CRYSTAL LTD
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