CN204031355U - A kind of wear-type visual device and video system - Google Patents

Abstract

The utility model discloses a kind of wear-type visual device and video system, and described wear-type visual device comprises: camera unit, is sent to 3D video acquisition unit for capturing video signal and by vision signal; 3D video acquisition unit, for exporting to processor after being processed into 3D vision signal from the vision signal of camera unit; Processor, for carrying out exporting to selected cell after preliminary treatment to 3D vision signal; Also export to selected cell for produce OSD menu under the triggering of outside control command; Selected cell, for 3D vision signal is exported to video processing unit, or the signal that OSD menu is superimposed upon after 3D vision signal is exported to video processing unit; Display unit, the signal being superimposed upon after 3D vision signal for 3D vision signal that video processing unit is sent or OSD menu shows, thus the 3D video of realizing based on camera shows in real time.

Description

A kind of wear-type visual device and video system

Technical field

The utility model relates to technical field of video processing, particularly a kind of wear-type visual device and video system.

Background technology

Along with scientific and technological development, virtual helmet comes true from science fiction gradually, and wear product and also play and develop into high-definition movie and play from simple audio frequency and video, high definition game application, camera shows and reality game experience based on camera etc. constantly.

But the visual product of current wear-type (Head Mount Display) is also confined to representing of 2D video.

Utility model content

A kind of wear-type visual device and video system that the utility model provides, cannot realize to solve the visual product of wear-type the problem that the 3D video based on camera shows in real time.

For achieving the above object, the utility model embodiment adopts following technical scheme:

On the one hand, the utility model provides a kind of wear-type visual device, comprising:

Camera unit, for capturing video signal, and is sent to 3D video acquisition unit by the vision signal capturing; Camera unit comprises plural camera;

3D video acquisition unit, for exporting to processor after being processed into 3D vision signal from the vision signal of camera unit;

Processor, for carrying out exporting to selected cell after preliminary treatment to 3D vision signal; Export to selected cell for produce screen video control OSD menu under the triggering of outside control command;

Selected cell, for 3D vision signal is exported to video processing unit, or will export to video processing unit after 3D vision signal and the stack of OSD menu;

Video processing unit is exported to display unit after the signal after the 3D vision signal of selected cell output or 3D vision signal and the stack of OSD menu being converted to the vision signal of display unit needs;

Display unit, shows for the signal after 3D vision signal or 3D vision signal and the stack of OSD menu that video processing unit is sent.

Further, this wear-type visual device also comprises video converting unit;

Described video converting unit, for receiving the vision signal from external video source device, and exports to selected cell after described vision signal is converted to the vision signal that described wear-type visual device needs;

Described selected cell, is further used for receiving the vision signal from described video converting unit, and selects a road signal to export to video processing unit from following four road signals:

3D vision signal;

By the signal after 3D vision signal and the stack of OSD menu;

From the vision signal of described video converting unit;

By the signal after the vision signal from described video converting unit and the stack of OSD menu;

Described processing unit is exported to display unit after arbitrary road signal of described selected cell output being converted to the vision signal that display unit needs;

Described display unit, shows for the vision signal that video processing unit is sent.

Further, this wear-type visual device also comprises passback unit;

Described processor, sends to passback unit after being further used for obtaining the critical data of 3D vision signal;

Described passback unit, pass back to described external video source device for the critical data that processor is obtained, make described external video source device to adjust vision signal according to described critical data, and the vision signal after described adjustment is sent to described video converting unit.

On the other hand, the utility model discloses a kind of video system, comprise video source device and above-mentioned wear-type visual device;

Described video source device is used to described video converting unit that vision signal is provided.

Further, the critical data that described video source device also returns for receiving wear-type visual device, and adjust after vision signal according to critical data, the vision signal after adjusting is exported to wear-type visual device.

The beneficial effect of the utility model embodiment is: the utility model embodiment provides a kind of wear-type visual device and video system, described wear-type visual device is by camera elements capture vision signal, and described vision signal is become after 3D vision signal by 3D video acquisition cell processing, through being used for, 3D vision signal is carried out to preliminary treatment, and export to selected cell for produce the processor preliminary treatment of OSD menu under the triggering of outside control command after, the signal of selected cell by described 3D vision signal or after OSD menu is superimposed upon in 3D vision signal, exporting to video processing unit carries out after signal conversion, export on display unit and show, thereby realizing the 3D video of wear-type visual device based on camera shows and OSD menu function in real time, in the preferred version of the utility model embodiment, described wear-type visual device also comprises for receiving the vision signal from external video source device, for vision signal being converted to the video converting unit of the vision signal that described wear-type visual device needs and passing back to the passback unit of described external video source device for the critical data that processor is obtained, thereby make described wear-type visual device can realize the reality-virtualizing game of video playback, common game play and the 3D based on camera.

Brief description of the drawings

The structural representation of a kind of wear-type visual device that Fig. 1 provides for the utility model embodiment;

The structural representation of the another kind of wear-type visual device that Fig. 2 provides for the utility model embodiment;

The structural representation of a kind of video system that Fig. 3 provides for the utility model embodiment;

In figure, 10 is wear-type visual device, and 11 is camera unit, and 12 is 3D video acquisition unit, and 13 is processor, and 14 is selected cell, and 15 is video processing unit, and 16 is display unit;

20 is another kind of wear-type visual device, and 21 is camera unit, and 22 is 3D video acquisition unit, and 23 is processor, and 24 is video converting unit, and 25 is selected cell, and 26 is video processing unit, and 27 for showing red cloud, and 28 is passback unit;

30 is video system, and 31 is wear-type visual device, and 32 is video source device.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model execution mode is described in further detail.

The structural representation of a kind of wear-type visual device that Fig. 1 provides for the utility model embodiment.Described wear-type visual device 10 comprises:

Camera unit 11, for capturing video signal, and is sent to 3D video acquisition unit 12 by the vision signal capturing.

Camera unit 11: comprise plural camera.In the wear-type visual device 10 that the present embodiment provides, camera unit 11 comprises two cameras, camera 1 and camera 2.

3D video acquisition unit 12, for exporting to processor 13 after being processed into 3D vision signal from the vision signal of camera unit 11.

Processor 13, exports to selected cell 14 for 3D vision signal is carried out after preliminary treatment; Export to selected cell 14 for produce OSD menu under the triggering of outside control command.

Concrete, described OSD menu is adjusted for the working index of the color to display unit, pattern, geometry.

Selected cell 14, for 3D vision signal is exported to video processing unit 15, or exports to video processing unit 15 by the signal after 3D vision signal and the stack of OSD menu.

Video processing unit 15, exports to display unit 16 after being converted to the vision signal that display unit 16 needs for 3D vision signal that selected cell 14 is exported or by the signal after 3D vision signal and the stack of OSD menu.

Display unit 16, shows for the signal after 3D vision signal or 3D vision signal and the stack of OSD menu that video processing unit 15 is sent.

The described wear-type visual device that the present embodiment provides, by camera elements capture vision signal, and described vision signal is become after 3D vision signal by 3D video acquisition cell processing, through being used for, 3D vision signal is carried out to preliminary treatment, and export to selected cell for produce the processor preliminary treatment of OSD menu under the triggering of outside control command after, selected cell is by described 3D vision signal or after OSD menu is superimposed upon in 3D vision signal, exporting to video processing unit carries out after signal conversion, exporting to display unit shows, thereby realizing the 3D video of wear-type visual device based on camera shows and OSD menu function in real time.

The structural representation of the another kind of wear-type visual device that Fig. 2 provides for the utility model embodiment.Described wear-type visual device 20 comprises: camera unit 21,3D video acquisition unit 22, processor 23, video converting unit 24, selected cell 25, video processing unit 26, display unit 27.

Described camera unit 21,3D video acquisition unit 22 have identical function with the camera unit 11 described in Fig. 1,3D video acquisition unit 12 respectively.

Described video converting unit 24, for receiving the vision signal from external video source device, and exports to selected cell 25 after described vision signal is converted to the vision signal that described wear-type visual device 20 needs.

Described selected cell 25, for select a road signal to export to video processing unit 26 from following signal:

3D vision signal;

By the signal after 3D vision signal and the stack of OSD menu;

From the vision signal of described video converting unit 24;

By the signal after the vision signal from described video converting unit 24 and the stack of OSD menu.

It should be noted that, described selected cell 25 selects described four road signal Zhong mono-road signals to export to video processing unit 26 according to the mode of operation of described wear-type visual device 20.

Concrete, when described wear-type visual device 20 is during in the first mode of operation, 3D vision signal is exported to described video processing unit 26 by described selected cell 25;

When described wear-type visual device 20 is during in the second mode of operation or the 3rd mode of operation, described selected cell 25 will be exported to described video processing unit 26 from the vision signal of described video converting unit 24;

When described wear-type visual device 20 is during in additional modes of operation, described selected cell 24 is exported to described video processing unit 26 by the signal after 3D vision signal and the stack of OSD menu or by the signal after the vision signal from described video converting unit 24 and the stack of OSD menu.

Described video processing unit 26, exports to display unit 27 after being converted to the vision signal that display unit 27 needs for arbitrary road signal that described selected cell 25 is exported.

In actual applications, the mode of operation of described wear-type visual device 20 is selected according to external control instruction, when described wear-type visual device 20 is during in the first mode of operation, can realize the function that the 3D video based on camera shows in real time; While stating wear-type visual device 20 in the second mode of operation, can realize the function of video and common game play when described; While stating wear-type visual device 20 in the 3rd mode of operation, can realize the function of the reality-virtualizing game based on camera when described; While stating wear-type visual device 20 in additional modes of operation, can realize the function of OSD menu when described.

Described display unit 27, shows for the vision signal that video processing unit 26 is sent.

Concrete, described display unit 27, for the 3D vision signal receiving is carried out to 3D demonstration, can also carry out 2D demonstration by the 2D vision signal receiving.

Described wear-type visual device 20 also comprises passback unit 28.

Described processor 23 sends to passback unit 28 after obtaining the critical data of 3D vision signal.

Described processor for according to default strategy, obtains the critical data that includes key operations and/or key position information from described 3D rendering.

It should be noted that described processor 23 is also exported to selected cell 25 for 3D vision signal is carried out after preliminary treatment; Export to selected cell 25 for produce OSD menu under the triggering of outside control command.

Described passback unit 28, pass back to described external video source device for the critical data that processor 23 is obtained, make described external video source device to adjust vision signal according to described critical data, and the vision signal after described adjustment is sent to described video converting unit 24.

The wear-type visual device that the present embodiment provides, on the basis of the demonstration in real time of the 3D video in realization based on camera and OSD menu function, this wear-type visual device also comprises video converting unit, for receiving the vision signal from external video source device, and after being converted to the vision signal that described wear-type visual device needs, described vision signal exports to after selected cell, after video processing unit is processed, export to display unit and show, realize the broadcasting of video and common game video with this; In addition, this wear-type visual device also passes back to external video source device by passback unit by the critical data receiving from processor, external video source device is adjusted after vision signal according to critical data, send to again described wear-type visual device, realize the reality-virtualizing game based on camera with this.

The utility model embodiment also provides a kind of video system, comprises video source device and above-mentioned wear-type visual device.

Described video source device is used to described video converting unit that vision signal is provided.

The critical data that described video source device also returns for receiving wear-type visual device, and adjust after vision signal according to critical data, the vision signal after adjusting is exported to wear-type visual device.

The structural representation of a kind of video system that Fig. 3 provides for the utility model embodiment.Video system 30 comprises wear-type visual device 31 and video source device 32, below in conjunction with four kinds of mode of operations of wear-type visual device 31, above-mentioned video system 30 is described in detail.

When described wear-type visual device 31 is according to external control instruction, while selecting the first mode of operation, can realize the function that the 3D video based on camera shows in real time.

Concrete, the vision signal of camera elements capture is become after 3D vision signal by 3D video acquisition cell processing, export to processor and carry out preliminary treatment, and pretreated vision signal is exported to selected cell, carry out, after signal processing, showing by display unit through to video processing unit through selected cell.

When described wear-type visual device 31 is according to external control instruction, while selecting the second mode of operation, can realize the function of video and common game play.

Concrete, video source device 32 outputting video signals or common game video signal, wear-type visual device 31 receives vision signal or common game video signal by video converting unit, and after being converted to the vision signal that described wear-type visual device 31 needs, described vision signal or common game video signal export to selected cell, the straight-through selected cell of described vision signal is exported to video processing unit and is carried out, after signal conversion, on display unit, showing.

When described wear-type visual device 31 is according to external control instruction, while selecting the 3rd mode of operation, can realize the function of the reality-virtualizing game based on camera.

Concrete, the reality-virtualizing game video of camera elements capture is become after 3D vision signal by 3D video acquisition cell processing, export to processor, processor wherein critical data returns to described video source device 32 by passback unit, described video source device 32 is adjusted described reality-virtualizing game video according to critical data, and the reality-virtualizing game video after adjusting is sent to the video converting unit of described wear-type visual device 31, video converting unit is converted to the reality-virtualizing game video after described adjustment after manageable video format, straight-through selected cell, on the display unit of described wear-type visual device 31, show.

When described wear-type visual device 31 is according to external control instruction, while selecting additional modes of operation, can realize the function of OSD menu.

Concrete, when described wear-type visual device 31 is during in the first mode of operation or the second mode of operation or the 3rd mode of operation, under the triggering of outside control command, processor can produce OSD menu, and export to selected cell, selected cell is superimposed upon OSD menu on current video signal, and the signal after stack is exported to video processing unit and carry out signal processing, then shows by display unit.

Wherein, described current video signal is the 3D vision signal of described wear-type visual device 31 under the first mode of operation, or vision signal or the common game signal of described wear-type visual device 31 under the second mode of operation, or the reality-virtualizing game signal of described wear-type visual device 31 under the 3rd mode of operation.

In sum, the utility model embodiment provides a kind of wear-type visual device and video system, described wear-type visual device is by camera elements capture vision signal, and described vision signal is become after 3D vision signal by 3D video acquisition cell processing, through being used for, 3D vision signal is carried out to preliminary treatment, and export to selected cell for produce the processor preliminary treatment of OSD menu under the triggering of outside control command after, selected cell is by described 3D vision signal or after OSD menu is superimposed upon in 3D vision signal, exporting to video processing unit carries out after signal conversion, export on display unit and show, thereby realizing the 3D video of wear-type visual device based on camera shows and OSD menu function in real time, in the preferred version of the utility model embodiment, described wear-type visual device also comprises for receiving the vision signal from external video source device, for vision signal being converted to the video converting unit of the vision signal that described wear-type visual device needs and passing back to the passback unit of described external video source device for the critical data that processor is obtained, thereby make described wear-type visual device can realize video playback, the function of the reality-virtualizing game of common game play and the 3D based on camera, the technical scheme that the utility model provides realizes simple and integrated level is high.

The foregoing is only preferred embodiment of the present utility model, be not intended to limit protection range of the present utility model.All any amendments of doing, be equal to replacement, improvement etc. within spirit of the present utility model and principle, be all included in protection range of the present utility model.

Claims (10)

1. a wear-type visual device, is characterized in that, this wear-type visual device comprises:

Camera unit, for capturing video signal, and is sent to 3D video acquisition unit by the vision signal capturing; Camera unit comprises plural camera;

3D video acquisition unit, for exporting to processor after being processed into 3D vision signal from the vision signal of camera unit;

Processor, for carrying out exporting to selected cell after preliminary treatment to 3D vision signal; Export to selected cell for produce screen video control OSD menu under the triggering of outside control command;

Selected cell, for 3D vision signal is exported to video processing unit, or will export to video processing unit after 3D vision signal and the stack of OSD menu;

Video processing unit is exported to display unit after the signal after the 3D vision signal of selected cell output or 3D vision signal and the stack of OSD menu being converted to the vision signal of display unit needs;

Display unit, shows for the signal after 3D vision signal or 3D vision signal and the stack of OSD menu that video processing unit is sent.

2. wear-type visual device according to claim 1, is characterized in that, this wear-type visual device further comprises video converting unit;

Described video converting unit, for receiving the vision signal from external video source device, and exports to selected cell after described vision signal is converted to the vision signal that described wear-type visual device needs;

Described selected cell, is further used for receiving the vision signal from described video converting unit, and selects a road signal to export to video processing unit from following four road signals:

3D vision signal;

By the signal after 3D vision signal and the stack of OSD menu;

From the vision signal of described video converting unit;

By the signal after the vision signal from described video converting unit and the stack of OSD menu;

Described processing unit is exported to display unit after arbitrary road signal of described selected cell output being converted to the vision signal that display unit needs;

Described display unit, shows for the vision signal that video processing unit is sent.

3. wear-type visual device according to claim 2, is characterized in that, this wear-type visual device further comprises passback unit;

Described processor, sends to passback unit after being further used for obtaining the critical data of 3D vision signal;

Described passback unit, pass back to described external video source device for the critical data that processor is obtained, make described external video source device to adjust vision signal according to described critical data, and the vision signal after described adjustment is sent to described video converting unit.

4. wear-type visual device according to claim 2, is characterized in that, described selected cell selects described four road signal Zhong mono-road signals to export to video processing unit according to the mode of operation of described wear-type visual device;

When described wear-type visual device is during in the first mode of operation, 3D vision signal is exported to described video processing unit by described selected cell;

When described wear-type visual device is during in the second mode of operation or the 3rd mode of operation, described selected cell will be exported to described video processing unit from the vision signal of described video converting unit;

When described wear-type visual device is during in additional modes of operation, described selected cell is exported to described video processing unit by the signal after 3D vision signal and the stack of OSD menu or by the signal after the vision signal from described video converting unit and the stack of OSD menu.

5. wear-type visual device according to claim 4, is characterized in that, the mode of operation of described wear-type visual device is selected according to external control instruction.

6. wear-type visual device according to claim 5, is characterized in that,

When described wear-type visual device is during in the first mode of operation, can realize the function that the 3D video based on camera shows in real time;

When described wear-type visual device is during in the second mode of operation, can realize the function that video and common game video are play;

When described wear-type visual device is during in the 3rd mode of operation, can realize the function of the reality-virtualizing game based on camera;

When described wear-type visual device is during in additional modes of operation, can realize the function of OSD menu.

7. wear-type visual device according to claim 3, is characterized in that,

Described processor for according to default strategy, obtains the critical data that includes key operations and/or key position information from described 3D rendering.

8. wear-type visual device according to claim 1 and 2, is characterized in that,

Described processor, the OSD menu of adjusting for generation of the working index of the color in display unit, pattern, geometry.

9. a video system, is characterized in that, this system comprises video source device and the wear-type visual device as described in any one in claim 1-7;

Described video source device is used to described wear-type visual device that vision signal is provided.

10. video system according to claim 9, it is characterized in that, the critical data that described video source device also returns for receiving wear-type visual device, and adjust after vision signal according to critical data, the vision signal after adjusting is exported to wear-type visual device.