CN103777354A

CN103777354A - LED array video glasses

Info

Publication number: CN103777354A
Application number: CN201410064967.6A
Authority: CN
Inventors: 刘明; 黄贵玉; 胡梨
Original assignee: Dongguan Institute of Opto Electronics Peking University
Current assignee: Dongguan Institute of Opto Electronics Peking University
Priority date: 2014-02-25
Filing date: 2014-02-25
Publication date: 2014-05-07

Abstract

The invention discloses LED array video glasses. Arrays composed of micron-sized LEDs serve as micro-displays, and a high-resolution video is projected to be at a certain focal length through a projection optical module to bring convenience to viewing. The LED array video glasses comprise an LED micro-display module, the projection optical module, a circuit control module and a glass frame module. The circuit control module is connected with the LED micro-display module, the LED micro-display module is connected with the projection optical module, and the projection optical module and the circuit control module are installed on the glass frame module. According to the LED array video glasses, the arrays composed of the micron-sized LEDs serve as the small-sized micro-displays, the high resolution is achieved, meanwhile, the luminous efficacy and the luminance can be greatly improved, and the LED array video glasses can be used within a wide light intensity range.

Description

LED array video eyeglasses

Technical field

The present invention relates to a kind of video eyeglasses, more specifically, relate to a kind of video eyeglasses of LED array as micro-demonstration that adopt.

Background technology

Video eyeglasses is a kind of emerging electronic product, utilizes micro-demonstration to make user watch video content by glasses.Video eyeglasses can be used for the fields such as military affairs, medical treatment, scientific research, also starts to enter the personal entertainment such as film, game field simultaneously.Current similar products are realized micro-demonstration mainly with modes such as reflection, transmissions, and its brightness is restricted because of optical efficiency, and especially in the time that surround lighting is more intense, display effect is very poor.

Summary of the invention

The object of this invention is to provide a kind of video eyeglasses that utilizes LED array to realize micro-demonstration, utilize the LED array of high pixel as micro-demonstration, video image that can display of high resolution, is projected on certain focal length and is watched to facilitate by projection optical module.

For achieving the above object, the present invention adopts following scheme:

A kind of LED array video eyeglasses, includes the micro-display module of LED, projection optics module, circuit control module and frame module; Frame module be wear in head, can set up optics show or eyeglass in the structure in eyes front; Circuit control module connects the micro-display module of LED, and the micro-display module of LED connects projection optics module, and projection optics module and circuit control module are installed in frame module; Circuit control module is accepted vision signal, drives and control the micro-display module of LED to show institute's receiving video signals (video content), projects on suitable focal length and receives for human eye through projection optics module.

In certain embodiments, the micro-display module of described LED is the array being made up of the LED of 10 micron levels, and the micro-display module display area of LED is 0.1～2 square inch.

In certain embodiments, described circuit control module provides power supply for whole system.

In certain embodiments, the mode that described frame module adds mirror leg by picture frame realizes, or frame module is realized by the mode of the helmet.

In certain embodiments, the vision signal that the micro-display module of described LED shows, the optics that projects to frame module through projection optics module shows, become real image on eyeglass, or projects to eyes front and become more at a distance the virtual image.

In certain embodiments, the vision signal (video image) that the micro-display module of described LED shows projects on the demonstration of monolithic optics, eyeglass or the empty burnt position of frame module, only projection is in single eyes, the micro-display module of LED and projection optics module are positioned at picture frame central authorities or a side of frame module, two centres or simple eye side front.

In certain embodiments, the video signal projection that the micro-display module of described LED shows is on two optics demonstrations, eyeglass or the empty burnt position of frame module, projection is in eyes, and projection optics module projects to the vision signal of the micro-display module of LED respectively the direction of two of left and right.

In certain embodiments, described circuit control module accepts to process two different vision signals (video source) to the micro-display module of LED, the micro-display module of LED and projection optics module on two optics demonstrations, eyeglass or the empty burnt position to frame module, are observed vision signal (video demonstration) projection to see for left and right two;

In certain embodiments, described circuit control module is realized by cmos circuit, is provided with environmental luminance sensor in circuit control module.

In certain embodiments, described circuit control module is by wireless communication mode, or digital storage media pattern realizes the reception to vision signal.

LED array video eyeglasses of the present invention adopts LED array, and miniature LED is as pixel cell, and its brightness can be very high; Because pixel cell is without transmission and reflection loss, optical efficiency can be very high; Because current unit LEDs size is approximately 10 micron levels, the resolution 2000DPI of array, and can continue to improve with technical progress, make user watch video content clearly by glasses.The present invention utilizes the array of micron-sized LED composition as micro-demonstration, with one inch can display of high resolution with interior size video content, be projected on certain focal length and watch to facilitate by projection optical module, realizing the high-resolution while, optical efficiency and brightness can be improved greatly, using in range of light intensity widely.

Accompanying drawing explanation

Figure 1 shows that the system chart of the embodiment of the present invention;

Figure 2 shows that the present invention adds the schematic diagram of mirror leg as the embodiment of frame using picture frame;

Figure 3 shows that the schematic diagram of the embodiment of the present invention using the helmet as frame;

Embodiment

For further understanding feature of the present invention, technological means and the specific purposes that reach, function, resolve the advantages and spirit of the present invention, by the present invention is further elaborated by the following examples.

The LED array video eyeglasses system chart of the embodiment of the present invention as shown in Figure 1, mainly comprises: the micro-display module 1 of LED, projection optics module 2, circuit control module 3 and frame module 4.Circuit control module 3 connects the micro-display module 1 of LED, and the micro-display module 1 of LED connects projection optics module 2, and the micro-display module 1 of LED is attached in projection optics module 2, and

projection optics module

2,3 of circuit control moulds are all installed in frame module 4.

Whole video eyeglasses system is worn on head by frame module 4, and the micro-display module 1 of LED, projection optics module 2, circuit control module 3 are all installed in frame module 4; Circuit control module 3 provides power supply in internal battery mode or in circumscripted power line mode as whole system; Circuit control module 3 is accepted vision signal, drives and control the micro-display module 1 of LED to show institute's receiver, video content; Projection optics module 2 is close to eyes position, and the optics that video image (video content) is projected to frame module 4 shows, become real image on eyeglass, or projects to eyes front and become more at a distance the virtual image.

In one embodiment, the mode that frame module 4 adds mirror leg by picture frame realizes, or frame module 4 is realized by the mode of the helmet.Only projection is in single eyes for the vision signal that the micro-display module 1 of LED shows, the micro-display module 1 of LED and projection optics module 2 can be positioned at picture frame central authorities or a side of frame module 4.

The micro-display module 1 of LED and projection optics module 2 are positioned at two centres or simple eye side front, the less eyes direct-view visual field that stops, and video and graph compound is in the direct-view visual field.

In one embodiment, vision signal (video image) projection that the micro-display module 1 of LED shows is in eyes, and projection optics module 2 projects to the video image of micro-LED display module 1 respectively the direction of two of left and right; Circuit control module 3 can be accepted to process two different video source and observe and see for left and right two, as double screen shows, or as two of 3D video visual angles.

The micro-display module 1 of LED and projection optics module 2 show that by video also projection, to eyes, realize eyes and see respectively different screen content, or eyes is watched 3D content simultaneously.

The micro-display module 1 of LED and projection optics module 2 cover simple eye or eyes completely, in simple eye or binocular visual field, only have video image.

Circuit control module 3 is realized by cmos circuit; In circuit control module 3, add environmental luminance sensor, adjusting display brightness, makes eyes simultaneously to ambient brightness and the luminance video adaptation of respective degrees again automatically.Circuit control module 3 is by wireless communication mode, or wire transmission pattern, or one of digital storage media pattern realizes the reception to vision signal.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims

1. a LED array video eyeglasses, is characterized in that, includes the micro-display module of LED, projection optics module, circuit control module and frame module;

Described frame module be wear in head, can set up optics show or eyeglass in the structure in eyes front;

Described circuit control module connects the micro-display module of LED, and the micro-display module of described LED connects projection optics module, and described projection optics module, circuit control module are installed in frame module;

Described circuit control module receiving video signals, drives and controls the micro-display module of LED to show the vision signal of accepting.

2. LED array video eyeglasses according to claim 1, is characterized in that, the micro-display module of described LED is the array being made up of the LED of 10 micron levels, and the micro-display module display area of described LED is 0.1～2 square inch.

3. LED array video eyeglasses according to claim 1, is characterized in that, described circuit control module provides power supply for whole system.

4. LED array video eyeglasses according to claim 1, is characterized in that, the mode that described frame module adds mirror leg by picture frame realizes, or frame module is realized by the mode of the helmet.

5. LED array video eyeglasses according to claim 3, is characterized in that, the vision signal that the micro-display module of described LED shows, projects to through projection optics module on optics demonstration, eyeglass or the empty burnt position of frame module.

6. LED array video eyeglasses according to claim 5, it is characterized in that, the video signal projection that the micro-display module of described LED shows is on the demonstration of monolithic optics, eyeglass or the empty burnt position of frame module, and the micro-display module of described LED and projection optics module are positioned at picture frame central authorities or a side of frame module.

7. LED array video eyeglasses according to claim 5, it is characterized in that, the video signal projection that the micro-display module of described LED shows is on two optics demonstrations, eyeglass or the empty burnt position of frame module, and described projection optics module projects to the vision signal of the micro-display module of LED respectively the direction of two of left and right.

8. LED array video eyeglasses according to claim 7, it is characterized in that, described circuit control module accepts to process two different vision signals to the micro-display module of LED, and the micro-display module of described LED and projection optics module are by video signal projection on two optics demonstrations, eyeglass or the empty burnt position to frame module.

9. LED array video eyeglasses according to claim 3, is characterized in that, described circuit control module is realized by cmos circuit, in described circuit control module, is provided with environmental luminance sensor.

10. LED array video eyeglasses according to claim 3, is characterized in that, described circuit control module is by wireless communication mode, or digital storage media pattern realizes the reception to vision signal.