US2019146220A1PendingUtilityA1

Virtual reality image system with high definition

Assignee: CHOI HAE YONGPriority: Nov 13, 2017Filed: Oct 10, 2018Published: May 16, 2019
Est. expiryNov 13, 2037(~11.3 yrs left)· nominal 20-yr term from priority
Inventors:Hae-Yong Choi
G02B 30/35G02B 27/022H04N 13/307G02B 27/0149G06F 3/013H04N 13/346
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Claims

Abstract

A virtual reality stereoscopic image expansion device with high definition where 1 to 2 monitors are provided in an independent rotary case, first or first and second left and right reflectors having reflective refraction angles of 90° in left and right directions of stereoscopic left and right eye images are provided and configured as left and right lenses for matching optical axes so that the image center of the large monitor having a screen size of a human pupil interval or more is matched with the interval between the left and right eyes of the observer by coupling the optical axes of the monitors and the reflectors with an optical structure. Thereby it makes it possible to observe the stereoscopic image by a general monitor without structures of the polarizer and the translucent mirror.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A virtual reality image system with high definition comprising:
 a rotary box including left and right ocular lenses for matching optical axes configured to match an interval between left and right pupils of an observer with left and right optical axes of stereoscopic left and right eye images in left and right observations holes on the front surface of the rotary box for a virtual reality image which is coupled to upper and lower rotary means and left and right rotary means to rotate up, down, left and right;   left and right monitors configured in front and rear directions at both left and right ends in the rotary box based on the left and right ocular lenses and having a shape in which the screens face each other;   left and right reflectors provided in a bidirectional rectangular shape at positions where optical axes of the images of the left and right monitors and left and right optical axes of the left and right ocular lenses are perpendicularly matched with each other so that the images of the left and right monitors are reflected in the left and right ocular lenses direction; and   a position sensor provided at a position opposite to the left and right ocular lenses for calculating a viewing angle position of the rotating virtual reality image,   wherein the optical axes of the left and right monitors and the optical axes of the left and right pupils of the observer are matched with each other.   
     
     
         2 . The virtual reality image system with high definition of  claim 1 , wherein the rotary box includes right and left reflectors in which the left and right monitors are disposed on the front surface of the inside of the rotary box in the form of a left and right straight direction,
 the position sensor is provided at the positions of the left and right monitors,   and the optical axes of the left and right monitors are perpendicularly matched with the optical axes of the left and right reflectors separated in both left and right directions.   
     
     
         3 . The virtual reality image system with high definition of  claim 2 , wherein the left and right monitors are replaced with one monitor which is divided into two at the left and right. 
     
     
         4 . The virtual reality image system with high definition of  claim 1 , wherein in the configuration of the left and right ocular lenses, an inner surface of a lens surface which is a human pupil position direction is formed in a concave shape, an outer surface of the lens surface is formed in a convex shape, and a sum of focal lengths of the inner and outer surfaces of the lens has a positive force. 
     
     
         5 . The virtual reality image system with high definition of  claim 1 , wherein the configuration of the left and right ocular lenses has the left and right ocular lenses for matching optical axes having a focal distance of 100 mm or more to less than 1000 mm. 
     
     
         6 . The virtual reality image system with high definition of  claim 2 , wherein in the configuration of the left and right ocular lenses, an inner surface of a lens surface which is a human pupil position direction is formed in a concave shape, an outer surface of the lens surface is formed in a convex shape, and a sum of focal lengths of the inner and outer surfaces of the lens has a positive force. 
     
     
         7 . The virtual reality image system with high definition of  claim 3 , wherein in the configuration of the left and right ocular lenses, an inner surface of a lens surface which is a human pupil position direction is formed in a concave shape, an outer surface of the lens surface is formed in a convex shape, and a sum of focal lengths of the inner and outer surfaces of the lens has a positive force. 
     
     
         8 . The virtual reality image system with high definition of  claim 2 , wherein the configuration of the left and right ocular lenses has the left and right ocular lenses for matching optical axes having a focal distance of 100 mm or more to less than 1000 mm. 
     
     
         9 . The virtual reality image system with high definition of  claim 3 , wherein the configuration of the left and right ocular lenses has the left and right ocular lenses for matching optical axes having a focal distance of 100 mm or more to less than 1000 mm. 
     
     
         10 . The virtual reality image system with high definition of  claim 4 , wherein the configuration of the left and right ocular lenses has the left and right ocular lenses for matching optical axes having a focal distance of 100 mm or more to less than 1000 mm.

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