CN102540486A

CN102540486A - Imaging and amplifying method and application thereof

Info

Publication number: CN102540486A
Application number: CN2012100232993A
Authority: CN
Inventors: 黄得锋
Original assignee: Individual
Current assignee: Huang Defeng
Priority date: 2011-02-22
Filing date: 2012-02-02
Publication date: 2012-07-04
Also published as: CN107707902A

Abstract

The invention provides an imaging and amplifying method which comprises a left visual screen and a right visual screen. The imaging and amplifying method is characterized in that the left visual screen and the right visual screen are respectively coated with a layer of light path limiting layer, and the light path limiting layers are in matrix arrangement by dense light passages. According to the imaging and amplifying method, the light path limiting layers are arranged on a video, so that the phenomenon of fuzziness cannot occur in the vision when eyes approach to the video for watching. According to the imaging and amplifying method, the visual-angle range of eyeballs is completely covered by the video, and the light passages are both vertical to the eyeballs, so that an image which is much greater than the video is seen by the eyes.

Description

A kind of imaging amplification method and utilization thereof

Technical field

The present invention relates to the glasses that form images, relate in particular to a kind of simple eye changed over picture size and can change over the imaging glasses of image position.

Background technology

Existing 3D technology all must be implemented through fixed equipment, and the picture fineness of 3D is poor, and the visual angle is very limited.

Summary of the invention

In order to overcome above-mentioned defective, it is little to the purpose of this invention is to provide a kind of video, simulates the full 3D equipment of eyes visual effect fully.

For realizing above-mentioned purpose, technical scheme of the present invention is:

A kind of imaging amplification method, it may further comprise the steps:

1) make image S on the imaging support to its back side direction imaging S ', and the S ' that the observer is seen just cover S zone on imaging support;

2) make guide system, said guide system is a visual element of being located at the same object space on two pictures respectively, and this visual element satisfies the observer can from the close-by examples to those far off adapt to the visual angle of picture in remote imaging.

Said guide system is the connecting line of an imaging support and S '.

A kind of Television glasses, it comprises left eye video and right eye video, left eye video and right eye video fit in picture and satisfy picture that the observer sees away from Television glasses.

The usefulness of technique scheme is:

Left side through televisor is as S1 and right cooperation as S2; The display screen that spectators before the televisor see will form images on the position of S '; Spectators go up at an arbitrary position, and eyeball will just all be seen the corresponding edges of the S ' behind televisor along the true display screen of televisor edge, and obviously the area of S ' is greater than the area of S; And S ' imaging is far away more from S, and then S ' is big more.

The present invention can be used for stealthy lofty beam body, can the interior space be enlarged, and can the interior space be formed any environment, as: outer space imperial palace gardens etc. are visual effect arbitrarily.

Can on video equipment, stick original screen panel through the present invention, the picture that forms images about handling according to the pitch of grating makes picture rearmounted, and after being amplified by its imaging, pixel improves on the contrary, and you made the mistake of picture loyal after the equipment that therefore just can remedy increased grating.

Below in conjunction with accompanying drawing and specific embodiment the present invention is further described.

Description of drawings

Fig. 1 is the synoptic diagram of embodiment 1;

Fig. 2 is the synoptic diagram of embodiment 2.

Embodiment

A kind of embodiment 1 of the amplification method that forms images

It may further comprise the steps:

1) the every loyal image with video source makes into two secondary identical images;

2) said two pictures of parallel overlapping step 1), and, make two pictures that overlapping part promptly arranged according to the depth overlay region that requires to stagger, non-overlapping portions is also arranged;

3) make observer's left eye can and can only see step 2) a said picture, right eye can and can only be seen step 2) another picture.

Principle:

As shown in Figure 1; Televisor has one to face the large display screen S2 that its screen shows screen S1 amplification several times at the back; Suppose that S1 is a window, can see S2, and have a picture S2 in the face of its amplification to be placed on the imaging support back the imaging area hypothesis of imaging support through S1; And human eye is seen S2 through the window of imaging area, supposes just can see through the limit of window the limit of S2.

In order to make eyeball can adjust the correct parallax angle of left side picture and right picture rapidly, the present invention has established a guide line L, and the observer can see that seemingly L connects S ' and S, is pushed to a distant place by making eyeball from the close-by examples to those far off adapt to display screen.

Utilize prior art can realize that left side picture obtains the inside depth of display screen with right as cooperating, this technology can be:

Left side picture alternately shows with right picture fast, through the left mirror and the right mirror of glasses.

Through grating, left side picture and right picture are emitted beam by special angle, make left eye and right eye just can only see left side picture and right picture respectively, thereby reach the effect of the amplification of above-mentioned display screen.

The observer wears Monocle, makes left eye can and can only see left eye image cloth, and right eye can and can only see that right eye is as cloth.

N on the imaging support object space point s forms object space S, and object space point s is formed images on the direction of the back side of imaging support, and imaging point is s ', and each imaging point group imaging side S ' makes observer's eyes.

The left side that imaging support is provided with picture S makes observer see picture S imaging support after surface imaging as S2 through S1 and S2 with right as S1, is S ' as the side.

Picture is adjusted into the left side picture and right picture of picture respectively.

A kind of utilization of the amplification method that forms images

It is provided with an impact damper, light path prolongs equipment and 3D glasses.

The said slow device that fills becomes left eye imaging and right eye imaging with the Flame Image Process of every chastity, and after synthesizing, every loyal image forms images behind display.

Said light path prolongs equipment, is meant in Television glasses, to make light that light source sends earlier through behind the light path extender, arrive eyeball again, makes eyes see that the position of luminous point becomes far away.

Display screen is provided with the virtual video frame, after the cooperation right and left eyes isolation technics, can make the observer see after video frame in situ and form images that promptly the observer has seen video equipment outlying observation portion.

Said 3D glasses satisfy: left eye video and right eye video, form visual effect jointly, and make imaging integral body on the video away from the wearer.

Principle of work:

Be the picture on the example (as: TV or computer) with the video equipment,, look like cloth conversion, and make left eye image cloth be distributed in left imaging area that right eye is distributed in right imaging area as cloth with every loyal entering in the buffer device.As shown in Figure 1; A ' on the screen and A " just be in A to the light-path of left eye B1 and right eye B2; suppose at A ' and A " for A along the projection of above-mentioned optical channel on screen, when left eye B1 and right eye B2 see A ' and A respectively " time, with regard to the corresponding three-dimensional imaging of seeing A.

The area that makes A ' is S ', A " area be S ", the area of A is S, then:

S’/S=L1/（L1+L2），S”/S=L1/（L1+L2）。

A said left side is looked screen 1 and is looked the angular field of view that screen 2 covers left eye ball B1 and right eye B2 respectively with the right side.

Screen 1 and the right side are looked in a said left side, and to look screen planar in 2 balling-up, makes when the user wears, and the each point that a left side is looked on the screen equates that to the distance of left eye eyeball the each point that the right side is looked on the screen 2 is equal to the distance of right eye eyeball B2.

Claims

1. imaging amplification method is characterized in that: it makes image S on the imaging support to its back side direction imaging S ', and the S ' that the observer is seen just covers S zone on imaging support.

2. a kind of imaging amplification method as claimed in claim 1, it is characterized in that: it may further comprise the steps:

3. a kind of imaging amplification method as claimed in claim 2; It is characterized in that: it also comprises a guide system; Said guide system is a visual element of being located at the same object space on two pictures respectively, and this visual element satisfies the observer can from the close-by examples to those far off adapt to the visual angle of picture in remote imaging.

4. a kind of imaging amplification method as claimed in claim 2 is characterized in that: said guide system is the connecting line of an imaging support and S '.

5. the utilization Television glasses of amplification method that forms images according to claim 1, it comprises left eye video and right eye video, it is characterized in that: left eye video and right eye video fit in picture and satisfy picture that the observer sees away from Television glasses.