CN102445757A - Three-dimension glasses imaging system - Google Patents

Abstract

The invention provides a three-dimension glasses imaging system, which is characterized in that: the three-dimension glasses imaging system comprises an eyeglass group which comprises a left eyeglass and a right eyeglass, and a glasses frame which comprises an optical frame, wherein the left eyeglass and the right eyeglass are arranged in the optical frame, the glasses frame also comprises a connecting unit, a storage unit, an accelerated speed sensing unit, a central processing unit and an graphic processing unit. By combining the three-dimensional imaging technology and the glasses, the three-dimension glasses imaging system achieves the effect that users can watch a three-dimensional image which is shown in the glasses by wearing a pair of glasses and is convenient for users to carry and use.

Description

The 3D glasses imaging system

[technical field]

The present invention relates to a kind of imaging system, relate in particular to a kind of 3D glasses imaging system that presents 3 D stereoscopic image through glasses.

[background technology]

Now; Multimedia has got into the 3 D stereoscopic image epoch; No matter be film or TV, 3 D stereoscopic image has all become future development trend, and its major reason is selected in aspects such as its technical advantage with respect to common two dimensional surface image, vivid effect all people.

No matter make a general survey of the 3 D stereoscopic image technology that has now existed, be three-dimensional movie or three-dimensional television, nothing but based on following manner:

First kind, look point-score:, see different images thereby right and left eyes filters out unwanted color respectively through tinted glasses.

Second kind; Light point-score: the polariscope principle that is usefulness; Two observe the image of seeing and project human eye with two polarized lights of polarization direction quadrature respectively about being used to supply, and put on secondary penetrating glasses of crossing polarized light when watching, and make two to see required separately image respectively.

The third, time-sharing procedure: two image about showing in turn on the display end, wear special liquid crystal glasses, when left-eye images occurs, the liquid crystal printing opacity of left eye, the liquid crystal of right eye is light tight; When right-eye image occurs, have only the liquid crystal printing opacity of right eye, about two can only see required separately image.

The 4th kind, the bore hole formula: the directive through poly-lens control left and right sides image, make right-eye image focus on beholder's right eye, left-eye images focuses on beholder's left eye, thereby does not need anaglyph spectacles just can produce stereopsis.

Above various technology its advance is all arranged, but shortcoming is also clearly:

The first, increase the weight of visual problems person's burden, such as myopia, presbyopia etc., when adopting look point-score, light point-score, time-sharing procedure.Need put on two pair of glasses;

The second, need special spectacles and display end, do not have versatility, like time-sharing procedure;

The 3rd, look point-score, light point-score, time-sharing procedure, bore hole formula all can't the implementation space images.

In view of this; The present invention provides a kind of 3D glasses imaging system; This 3D glasses imaging system combines the three-dimensional imaging technology with glasses, realized that the user can watch the 3 D stereoscopic image that appears in the glasses through wearing a pair of glasses, thereby made things convenient for carrying and using of user.

[summary of the invention]

Fundamental purpose of the present invention is to provide a kind of 3D glasses imaging system; This 3D glasses imaging system combines the three-dimensional imaging technology with glasses; Realized that the user can watch the 3 D stereoscopic image that appears in the glasses through wearing a pair of glasses, thereby made things convenient for carrying and using of user.

The object of the present invention is to provide a kind of 3D glasses imaging system, it is characterized in that, said 3D glasses imaging system comprises:

One lens set, it comprises a left eyeglass and a right eyeglass;

One spectacle frame, it comprises a picture frame, said left eyeglass, said right eyeglass are installed in said picture frame, also are provided with in the said spectacle frame: a linkage unit, a storage unit, an acceleration induction unit, a central processing unit and a GPU, wherein,

Said linkage unit is used for linking to each other with the main frame of a stored video data, and receives the image data that said main frame sends;

Said acceleration induction unit is used for the real time kinematics information of sensing user head;

Said central processing unit is used to receive the image data that said linkage unit sends, and said image data is deposited in the said storage unit; Said central processing unit also is used to receive the real time kinematics information of said acceleration induction unit output, goes out the image data that how to show in the said storage unit according to said real time kinematics information calculations, and is sent to said GPU to result of calculation;

Said GPU is used for reading the image data of said storage unit, according to the result of calculation that said central processing unit sends the image data that reads is handled, and the image data after will handling is sent to said lens set to show.

Preferably, said left eyeglass, said right eyeglass are opaque eyeglass.

Preferably, said spectacle frame also comprises two mirror legs, offers a cavity in the said mirror leg, and said linkage unit, said storage unit, said acceleration induction unit, said central processing unit and said GPU are arranged in the said cavity.

Preferably, said linkage unit is a wireless connections unit, and it comprises an antenna and a wireless processing unit.

Preferably, said linkage unit is a wireless connections unit, and it comprises an antenna and a wireless processing unit, and said antenna is arranged at the afterbody of said mirror leg.

Preferably, said linkage unit be one with the suitable interface unit of interface of said main frame.

Preferably, said 3D glasses imaging system also comprises an interface, and said interface is used to connect a power supply to said 3D glasses imaging system electric energy to be provided.

Preferably, said eyeglass is a liquid crystal lens.

Preferably, also be provided with the adjusting button on the said spectacle frame, said adjusting button is used to regulate the sharpness and the vision range of said lens set show image.

Preferably, said picture frame covers eyes in all directions.

Compared to prior art, 3D glasses imaging system of the present invention has realized that the user can watch the 3 D stereoscopic image that appears in the glasses through wearing a pair of glasses, thereby has made things convenient for carrying and using of user through the three-dimensional imaging technology is combined with glasses.

For making the object of the invention, structural attitude and function thereof there are further understanding, cooperate diagram to specify as follows now:

[description of drawings]

Fig. 1 is the structural representation of a preferred embodiment of 3D glasses imaging system of the present invention.

Fig. 2 is a visual field picture embodiment illustrated in fig. 1.

Fig. 3 person of being to use head to the right with move up after the visual field picture.

Fig. 4 is based on the functional flow diagram of structure among Fig. 1.

[embodiment]

Seeing also Fig. 1, is the structural representation of a preferred embodiment of 3D glasses imaging system of the present invention.3D glasses imaging system of the present invention comprises: spectacle frame 10 and liquid crystal lens group 20.Wherein, liquid crystal lens group 20 comprises left liquid crystal lens 21, right liquid crystal lens 22.Spectacle frame 10 comprises picture frame 11 and two mirror legs 12; Left side liquid crystal lens 21, right liquid crystal lens 22 are installed in the picture frame 11; Has a cavity (figure is sign not) in the one mirror leg 12; One circuit board 31 is located in this cavity, and circuit board 31 is provided with: wireless processing unit 32, central processing unit 33, storage unit 34, an acceleration induction unit 35, GPU 36 and be located at mirror leg 12 outer pass through the interface box 38 that lead 37 is connected with circuit board 31.Also be provided with antenna (figure does not show) in the mirror leg 12, so that receive the image data that a main frame sends through the mode of wireless connections, antenna can be arranged at or be arranged at the end of mirror leg 12 with lead 37.

In order to the user 3 D stereoscopic image to be provided, picture frame 11 is designed to can the omnibearing pattern that covers eyes.

In addition, do not disturbed by extraneous light for guaranteeing the three-dimensional imaging effect, liquid crystal lens group 20 is opaque.Because liquid crystal lens group 20 is very near apart from eyes in use, so liquid crystal lens group 20 will have very high resolution, and point is apart from very little.

Spectacle frame 10 can also be provided with regulates button (figure does not show).Regulate button through this; When initial correction; The user can regulate parameter to the rational value that GPU 36 is set, thereby changes the sharpness of image output on liquid crystal lens group 20, makes different users can both see image clearly; In addition, can also be through regulating seeing complete or partial image, and the distance of image, thereby the glasses that can help the problematic user of eyesight needn't wear other rectification just can be seen sharp image.

3D glasses imaging system of the present invention is a pair of glasses in appearance, relies on outside main frame and sends image data to 3D glasses imaging system of the present invention.In present embodiment; Main frame is through wireless mode and 3D glasses imaging system of the present invention communication; During practical implementation, can also carry out communication through wired mode, as; Interface box 38 is designed to the interface shape suitable with HPI, thereby 3D glasses imaging system of the present invention just can link to each other to carry out communication through interface box 38 with main frame.

In addition, interface box 38 also can be to be used for the interface of supplying power to 3-D imaging system of the present invention.

Acceleration induction unit 35 is used for the real time kinematics information of perception user head; And to central processing unit 33 these real time kinematics information of transmission; Then; Central processing unit 33 will calculate distance and the direction that the human eye visual field moves, and control GPU 36 is to change scope and the angle that image shows.Such as, if the image in user's visual field shows when as shown in Figure 2, if user's head is upwards and move right, then the image in the visual field will become image shown in Figure 3.

See also Fig. 4, show the functional flow diagram of embodiment shown in Fig. 1.3D glasses imaging system of the present invention realizes wireless connections through an antenna 39 and a main frame, and receives the image data that main frame sends.32 pairs of image datas that receive from antenna 39 of wireless processing unit carry out handled, and export it to central processing unit 33, deposit in the storage unit 34 via central processing unit 33 again; The real time kinematics information of user's head that central processing unit 33 reception acceleration induction unit 35 sense; Go out the image data that how to show in the storage unit according to this real time kinematics information calculations; And notify GPU 36 with result of calculation, change scope and the angle that images show with control GPU 36; Image data in GPU 36 reading cells 34 is handled the image data that reads according to the result of calculation that central processing unit 33 sends, and liquid crystal lens 21,22 transmissions of right liquid crystal lens left respectively of the image data after will handling.Wherein, The processing of 36 pairs of image datas of GPU comprises: playing up for twice, once is that left eye is handled, and once is the right eye processing; Output to simultaneously after disposing on left liquid crystal lens 21, the right liquid crystal lens 22; The physiological property of utilizing human eye vision to persist, the figure of in brain, right and left eyes being seen synthesizes, and finally can see having stereo image.

Certainly, the embodiment that has described here is many preferred embodiments that utilize in the embodiments of the invention, and sets forth through the mode of explanation rather than restriction here.It will be apparent to one skilled in the art that it should be apparent that, do not break away from itself under the prerequisite of the spirit and scope of the invention that appended claims limits, can make many other embodiment.

Claims (10)

1. a 3D glasses imaging system is characterized in that, said 3D glasses imaging system comprises:

One lens set, it comprises a left eyeglass and a right eyeglass;

One spectacle frame, it comprises a picture frame, said left eyeglass, said right eyeglass are installed in said picture frame, also are provided with in the said spectacle frame: a linkage unit, a storage unit, an acceleration induction unit, a central processing unit and a GPU, wherein,

Said linkage unit is used for linking to each other with the main frame of a stored video data, and receives the image data that said main frame sends;

Said acceleration induction unit is used for the real time kinematics information of sensing user head;

Said central processing unit is used to receive the image data that said linkage unit sends, and said image data is deposited in the said storage unit; Said central processing unit also is used to receive the real time kinematics information of said acceleration induction unit output, goes out the image data that how to show in the said storage unit according to said real time kinematics information calculations, and is sent to said GPU to result of calculation;

Said GPU is used for reading the image data of said storage unit, according to the result of calculation that said central processing unit sends the image data that reads is handled, and the image data after will handling is sent to said lens set to show.

2. 3D glasses imaging system as claimed in claim 1 is characterized in that: said left eyeglass, said right eyeglass are opaque eyeglass.

3. 3D glasses imaging system as claimed in claim 1; It is characterized in that: said spectacle frame also comprises two mirror legs; Offer a cavity in the one said mirror leg, said linkage unit, said storage unit, said acceleration induction unit, said central processing unit and said GPU are arranged in the said cavity.

4. 3D glasses imaging system as claimed in claim 1 is characterized in that: said linkage unit is a wireless connections unit, and it comprises an antenna and a wireless processing unit.

5. 3D glasses imaging system as claimed in claim 3 is characterized in that: said linkage unit is a wireless connections unit, and it comprises an antenna and a wireless processing unit, and said antenna is arranged at the afterbody of said mirror leg.

6. 3D glasses imaging system as claimed in claim 1 is characterized in that: said linkage unit be one with the suitable interface unit of interface of said main frame.

7. 3D glasses imaging system as claimed in claim 1 is characterized in that: said 3D glasses imaging system also comprises an interface, and said interface is used to connect a power supply to said 3D glasses imaging system electric energy to be provided.

8. 3D glasses imaging system as claimed in claim 1 is characterized in that: said eyeglass is a liquid crystal lens.

9. 3D glasses imaging system as claimed in claim 1 is characterized in that: also be provided with the adjusting button on the said spectacle frame, said adjusting button is used to regulate the sharpness and the vision range of said lens set show image.

10. 3D glasses imaging system as claimed in claim 1 is characterized in that: said picture frame covers eyes in all directions.

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