CN201854334U - Handheld terminal capable of realizing three dimensional (3D) video effect - Google Patents

Abstract

The utility model relates to a handheld terminal capable of realizing the three dimensional (3D) video effect, which comprises an upper cover, a 3D lens, a connection mechanism, a display screen and a bottom part. The upper cover is connected with the bottom part by the connection mechanism. The 3D lens is embedded on the upper cover. The display screen is embedded on the bottom part. Further, the handheld terminal also comprises a microprocessor module for controlling display of a 3D video, a video decoding module and a video image storage module. Furthermore, the handheld terminal also comprises a connection mechanism control module connected with the microprocessor module. In the utility model, the 3D lens is embedded on the upper cover of the handheld terminal, and thus, when the 3D video is displayed, the upper cover can be automatically closed and the refractive index of the 3D lens is regulated according to the strength of background light of a 3D video image on a main screen so that a user can view the 3D video without wearing 3D eyeglasses.

Description

A kind of handheld terminal of realizing the 3D video effect

Technical field

The utility model relates to a kind of handheld terminal, relates in particular to a kind of handheld terminal of the 3D of realization video effect.

Background technology

3D video effect principle is based on the parallax of people's eyes.Two of the people are separated about 5 centimeters, and two eyes are seen any the same thing except the aiming dead ahead, and two angle can be not identical.Though gap is very little, pass in the brain through retina, brain produces the far and near degree of depth just with this small gap, thereby produces third dimension.According to above-mentioned principle, if same image, produce two images with the gap at two eyes visual angles, allow one of two eye then on one side, every eyes are only seen own image on one side, see through retina and just can make the third dimension of the brain generation depth of field.

Along with popularizing of 3D video, the handheld terminal of 3D video has appearred playing, and existing handheld terminal is play the method for 3D video, and a kind of is to adopt common LCD screen, utilizes the polaroid glasses method to handle the 3D video flowing; The special AMOLED screen that another kind is to use optical screen barrier (grating) formula method to make is watched the 3D video.

Adopt first method, the user need wear mycyscope, is not easy to the user and uses, and can allow the people dizzy after using a period of time;

Adopt second method, the user can bore hole watch the 3D video.Because used the optical screen barrier, picture brightness is low, and resolution can be inverse ratio and reduce along with the increase that display screen broadcasts image at one time.

Summary of the invention

In order to solve the deficiency that prior art exists, the purpose of this utility model is to provide a kind of handheld terminal of the 3D of realization video effect, and the user need not wear mycyscope when watching the 3D video, and can not stop because of the grating screen and cause screen intensity to descend.

For achieving the above object, the handheld terminal of a kind of 3D of realization video effect that the utility model provides comprises loam cake, 3D lens, bindiny mechanism, display screen and bottom, and wherein, described loam cake is connected with described bottom by described bindiny mechanism; Described 3D lens embed to be installed in and cover on described; Described display screen is embedded to be installed on the described bottom.

Further, described handheld terminal also comprises microprocessor module, video decode module and the video image memory module that is used for the control of 3D video playback.

Further, described microprocessor module links to each other with described video image memory module with described video decode module respectively; Described video decode module links to each other with described display screen.

Further, described handheld terminal also comprises the bindiny mechanism's control module that links to each other with described microprocessor module.

Further, described bindiny mechanism control module links to each other with described bindiny mechanism, controls described bindiny mechanism and drives described loam cake and open or close.

The handheld terminal of realization 3D video effect of the present utility model has tangible technique effect, embed the 3D lens by on handheld terminal, covering, when playing the 3D video, loam cake can be closed automatically, and regulate the refractive index of 3D lens, and then reach and need not to wear the 3D glasses and also can watch the 3D video according to the power of the bias light of main screen 3D video pictures.

Other features and advantages of the utility model will be set forth in the following description, and, partly from specification, become apparent, perhaps understand by implementing the utility model.

Description of drawings

Accompanying drawing is to be used to provide further understanding of the present utility model, and constitutes the part of specification, and with embodiment of the present utility model, is used to explain the utility model, does not constitute restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the handheld terminal structural representation according to realization 3D video effect of the present utility model;

Fig. 2 is the handheld terminal theory diagram according to realization 3D video effect of the present utility model.

Embodiment

Below in conjunction with accompanying drawing preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein only is used for description and interpretation the utility model, and be not used in qualification the utility model.

Fig. 1 is the handheld terminal structural representation according to realization 3D video effect of the present utility model, and as shown in Figure 1, the handheld terminal of realization 3D video effect of the present utility model comprises loam cake 11,3D lens 12, bindiny mechanism 13, display screen 14 and bottom 15.

Loam cake 11 is connected with bottom 15 by bindiny mechanism 13, and the user can manual unlocking or closed loam cake 11, also can open or close loam cake 11 by control module.

3D lens 12 embed and are installed on the loam cake 11, when loam cake is closed, and the 3D video that the user watches handheld terminal to play by 3D lens 12 usefulness bore holes.

Bindiny mechanism 13 connects loam cake 11 and bottom 15 respectively, and loam cake 11 and bottom 15 can be opened or closed.

Display screen 14 embedded being installed on the bottom 15 show the video pictures that handheld terminal is play.

Fig. 2 is the handheld terminal theory diagram according to realization 3D video effect of the present utility model, as shown in Figure 2, the handheld terminal of realization 3D video effect of the present utility model, also comprise microprocessor module 101, loam cake detection module 102, bindiny mechanism's control module 103,3D video decode module 104 and video image memory module 105.

Microprocessor module 101 connects loam cake detection module 102 respectively, bindiny mechanism's control module 103, and 3D video decode module 104 and video image memory module 105 are used for the Play Control of handheld terminal 3D video;

Loam cake detection module 102 connects microprocessor module 101, detected loam cake is opened or closed information send to microprocessor module 101;

Bindiny mechanism's control module 103 connects microprocessor module 101 and bindiny mechanism 13 respectively, accepts the control of microprocessor module 101, starts bindiny mechanism 13 and closes loam cake 11;

3D video decode module 104 connects microprocessor module 101 and display screen 14 respectively, receives the 3D vision signal that microprocessor module 101 sends, and carries out decoding processing; Decoded 3D vision signal is sent to display screen 14 to be shown;

Video image memory module 105 connects microprocessor module 101, is used to store the 3D video file that the user watches.

Workflow of the present utility model is as follows: the user chooses the video file that will play, and microprocessor module 101 judges at first whether this video file is the 3D video; If not the 3D video, send to display screen 14 after this video file directly decoded and play; If the 3D video, the loam cake that then receives 102 detections of loam cake detection module opens or closes information, judges the state that opens or closes of loam cake 11; If loam cake 11 closures, then the 3D vision signal is sent to 3D video decode module 104,, then send out code to bindiny mechanism's control module 103 if loam cake 11 is open modes, after loam cake 11 closures, the 3D vision signal is sent to 3D video decode module 104; 3D video decode module 104 sends to display screen 14 with decoded 3D vision signal and shows.

The 3D lens of the handheld terminal loam cake that the utility model uses are based on lens pillar (LenticularLens) technology and realize, the principle of lens pillar 3D technology is to install one deck lens pillar on the transparent outer cover of handheld terminal additional, make being positioned on the focal plane of lens of liquid crystal display screen as the plane, the pixel of the image below each post lens is divided into several sub-pixels, with each sub-pixel of different direction projections.So when eyes are watched video from different angles, just see different sub-pixels.In the process of watching, the gap between pixel also can be exaggerated, and sub-pixel simply therefore can not superpose.The post lens are not parallel with pixel column, but have a certain degree (by lens and the physical distance decision of playing screen).So just can make each group sub-pixel repeat to throw vision area, rather than only throw one group of anaglyph.

The utility model by embedding the enclosing cover of 3D lens, can make the user watch video under the situation that need not wear the 3D glasses under the situation of using common LCD screen, and in the process of playing, video output brightness and quality are unaffected.Promote the user experience of 3D video playback, enlarged the liquid crystal panel scope that bore hole 3D is suitable for, reduced the access threshold that the 3D screen is play.

One of ordinary skill in the art will appreciate that: the above only is preferred embodiment of the present utility model, be not limited to the utility model, although the utility model is had been described in detail with reference to previous embodiment, for a person skilled in the art, it still can be made amendment to the technical scheme of aforementioned each embodiment record, perhaps part technical characterictic wherein is equal to replacement.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection range of the present utility model.

Claims (5)

1. a handheld terminal of realizing the 3D video effect comprises loam cake, 3D lens, bindiny mechanism, display screen and bottom, it is characterized in that, described loam cake is connected with described bottom by described bindiny mechanism; Described 3D lens embed to be installed in and cover on described; Described display screen is embedded to be installed on the described bottom.

2. the handheld terminal of realization 3D video effect according to claim 1 is characterized in that described handheld terminal also comprises microprocessor module, video decode module and the video image memory module that is used for the control of 3D video playback.

3. the handheld terminal of realization 3D video effect according to claim 2 is characterized in that described microprocessor module links to each other with described video image memory module with described video decode module respectively; Described video decode module links to each other with described display screen.

4. the handheld terminal of realization 3D video effect according to claim 2 is characterized in that described handheld terminal also comprises the bindiny mechanism's control module that links to each other with described microprocessor module.

5. the handheld terminal of realization according to claim 4 3D video effect is characterized in that described bindiny mechanism control module links to each other with described bindiny mechanism, controls described bindiny mechanism and drives described loam cake and open or close.

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