CN111781729A - Waveguide augmented reality display device based on microstructure - Google Patents

Abstract

The invention discloses a waveguide augmented reality display device based on a microstructure, and relates to the technical field of optical imaging. The device comprises a wearing part of the existing waveguide augmented reality display device, a size adjusting component and an air bag, wherein the air bag is made of silica gel, a pressure sensor is fixedly arranged at the middle inner side position of the air bag, one end of the air bag is fixedly connected with an air inlet pipe in series, the air inlet pipe is connected with the air outlet end of a miniature air pump in series, the other end of the air bag is fixedly connected with an exhaust interface, the air outlet end of the exhaust interface is fixedly connected with an electromagnetic valve in series, in the actual use process, when the adjustment is needed, the miniature air pump is started, air is injected into the air bag by virtue of the air inlet pipe, so that the air bag is inflated, after the air bag is inflated, pressure is applied to the afterbrain part of a user, when the pressure sensor monitors that the pressure value is a set value.

Description

Waveguide augmented reality display device based on microstructure

Technical Field

The invention relates to the technical field of optical imaging, in particular to a waveguide augmented reality display device based on a microstructure.

Background

Augmented Reality (AR) technology is also called Augmented Reality, and is a newer technical content for promoting fusion between real world information and virtual world information, and the AR Augmented Reality technology implements simulation processing on entity information which is difficult to experience in a space range of the real world originally by using scientific technologies such as computers, and superimposes the virtual information content in the real world, and can be perceived by human senses in the process, so that the sensory experience beyond Reality is realized. After the real environment and the virtual object are overlapped, the real environment and the virtual object can exist in the same picture and space at the same time. The augmented reality display technology can overlay the virtual image into the real world, so as to achieve the purpose of fusing virtual information and the real world. The augmented reality display technology can enhance information expressed in the real world, so that the augmented reality display technology has wide application prospects in the fields of education, remote collaboration, traffic navigation and the like. The waveguide-based augmented reality display device has the advantages of compact structure, small volume, easy exit pupil expansion and the like, and is applied to products by companies such as microsoft, sony, magicclose and the like.

However, the existing waveguide augmented reality display device is not only complex in structure, but also single in function, the existing waveguide augmented reality display device can only realize visual effect, and cannot provide excellent audio and video effect in combination with the visual effect, and the existing waveguide augmented reality display device is usually of a wearable structure, and the wearing comfort is not enough, so that a waveguide augmented reality display device based on a microstructure is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a waveguide augmented reality display device based on a microstructure, which solves the problems that the existing waveguide augmented reality display device is not only complex in structure but also single in function, the existing waveguide augmented reality display device can only realize visual effect but cannot combine the audio and video effect of the visual effect, and the existing waveguide augmented reality display device is usually of a wearable structure and is not enough in wearing comfort level.

In order to solve the problems, the invention is realized by the following technical scheme: a microstructure-based waveguide augmented reality display device, comprising:

the display device body is of a wearable structure and comprises a wearing part and an imaging part, the wearing part is fixedly connected with the imaging part, the wearing part is sleeved on the head of a user, and the imaging part is covered on the outer side of the eyes of the user;

the two groups of Bluetooth earphones are fixedly arranged below the display device body and are symmetrically arranged;

the mobile terminal is internally provided with an APP matched with the display device for use, and is any one of a mobile phone terminal or a PC terminal;

and the data transmission line is arranged between the display device body and the mobile terminal data communication port in series and is used for transmitting image data.

Preferably, the wearing part disposed in the display device body includes a transverse head band, a longitudinal head band and a size adjusting component, the transverse head band is of a non-closed structure, two ends of the non-closed structure of the transverse head band are fixedly connected with the outer side of the imaging part, one end of the longitudinal head band is fixedly connected with a middle section of the transverse head band, the other end of the longitudinal head band is fixedly connected with the top end of the imaging part, and the size adjusting component is fixedly disposed on the inner side surface of the transverse head band in an adhesive manner.

Preferably, the imaging part of setting in the display device body includes the protective housing who concatenates with horizontal head hoop both ends, a plurality of equidistance air inlet windows that set up are fixed to protective housing's a side end face, protective housing's inside both sides respectively fixed mounting have first image light source body and second image light source body, be the symmetry setting between first image light source body and the second image light source body, protective housing's inside is fixed and has been seted up the window.

Preferably, the front end face of the protective shell is fixedly connected with a limiting frame in a clamping mode, a lens clamping groove is formed in the inner side wall of the limiting frame, and a waveguide lens is fixedly mounted in the lens clamping groove.

Preferably, the waveguide lens comprises an imaging lens, two groups of couplers and an astigmatic lens, wherein the couplers are respectively arranged on two sides of the imaging lens, and the astigmatic lens is fixedly connected to the end surfaces of the two groups of couplers on one side departing from the imaging lens.

Preferably, size adjustment subassembly includes the air bag of silica gel material, the inboard fixed mounting in the centre of air bag has pressure sensor, the one end of air bag is fixed to concatenate and is provided with an intake pipe, the intake pipe concatenates with the end of giving vent to anger of miniature air pump mutually, the other end fixedly connected with exhaust interface of air bag, the solenoid valve has been established to the end of giving vent to anger of exhaust interface fixedly in series.

Preferably, the micro air pump is fixedly installed inside the protective shell, and an air inlet of the micro air pump corresponds to the air inlet windows.

Preferably, the middle section of the exhaust port penetrates through the inside of the transverse head band, and the electromagnetic valve is located outside the outer end face of the transverse head band.

Preferably, size adjusting part still includes the controller, be two-way electric connection between pressure sensor, miniature air pump, the controller all and the external power supply, pressure sensor's output and the input electric connection of controller, the output of controller corresponds respectively with the input electric connection of miniature air pump and solenoid valve.

Advantageous effects

The invention provides a waveguide augmented reality display device based on a microstructure. Compared with the prior art, the method has the following beneficial effects:

1. the waveguide augmented reality display device based on the microstructure is characterized in that a size adjusting component is arranged on a wearing part of the existing waveguide augmented reality display device, wherein the size adjusting component comprises a gas bag made of silica gel, a pressure sensor is fixedly arranged at the inner side position in the middle of the gas bag, one end of the gas bag is fixedly connected with an air inlet pipe in series, the air inlet pipe is connected with the air outlet end of a miniature air pump in series, the other end of the gas bag is fixedly connected with an air outlet interface, the air outlet end of the air outlet interface is fixedly connected with an electromagnetic valve in series, the size adjusting component further comprises a controller, the pressure sensor, the miniature air pump and the controller are electrically connected with an external power supply in a bidirectional mode, the output end of the pressure sensor is electrically connected with the input end of the controller, and the output end of the controller is, in the in-service use process, when needing to adjust, start miniature air pump, with the help of the intake pipe, to the air bag in the injection air, make the air bag swell, after the air bag swells, exert pressure to user's afterbrain, when pressure sensor monitors the pressure value and is the setting value, change this signal into the signal of telecommunication, and transmit for the controller, let the miniature air pump stop work of controller active control, when needs gassing, the controller control solenoid valve is opened, can, whole accommodation process, time saving and labor saving, the practicality is high.

2. This waveguide augmented reality display device based on microstructure through being provided with two sets of bluetooth headset, and two sets of bluetooth headset fixed mounting wear the part at the display device body, can form the data connection passageway with current waveguide augmented reality display device, has realized the splendid experience effect in vision and the sense of hearing, and structure scientific and reasonable, convenience safe in utilization.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of a display device according to the present invention;

FIG. 3 is a schematic view of a waveguide lens according to the present invention;

FIG. 4 is a schematic view of the size adjustment assembly of the present invention;

fig. 5 is a schematic block diagram of a pressure control structure in an airbag of the present invention.

In the figure: 1. a display device body; 11. a transverse head hoop; 12. a longitudinal head band; 13. a size adjustment assembly; 131. an air bag; 132. a pressure sensor; 133. an air inlet pipe; 134. a micro air pump; 135. an exhaust interface; 136. an electromagnetic valve; 137. a controller; 14. a protective housing; 15. a first image light source body; 16. a second image light source body; 17. a window; 18. an air inlet window; 19. a waveguide lens; 191. an imaging lens; 192. a coupler; 193. an astigmatic lens; 110. a limiting frame; 111. a lens clamping groove; 2. a Bluetooth headset; 3. a data transmission line; 4. a mobile terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a microstructure-based waveguide augmented reality display device, comprising:

the display device body 1 is of a wearable structure and comprises a wearing part and an imaging part, wherein the wearing part is fixedly connected with the imaging part, the wearing part is sleeved on the head of a user, and the imaging part is covered on the outer side of the eyes of the user;

the two groups of Bluetooth earphones 2 are arranged, and the two groups of Bluetooth earphones 2 are fixedly arranged below the display device body 1 and are symmetrically arranged;

the mobile terminal 4 is internally provided with an APP matched with the display device body 1 for use, and is any one of a mobile phone terminal or a PC terminal;

and the data transmission line 3 is connected between the display device body 1 and the data communication port of the mobile terminal 4 in series and is used for transmitting image data.

Referring to fig. 2, the wearing portion disposed in the display device body 1 includes a transverse head band 11, a longitudinal head band 12 and a size adjusting assembly 13, the transverse head band 11 is a non-closed structure, two ends of the non-closed structure of the transverse head band 11 are fixedly connected to the outer side of the imaging portion, one end of the longitudinal head band 12 is fixedly connected to the middle section of the transverse head band 11, the other end is fixedly connected to the top end of the imaging portion, the size adjusting assembly 13 is fixedly disposed on the inner side surface of the transverse head band 11 by gluing, the imaging portion disposed in the display device body 1 includes a protective housing 14 connected to two ends of the transverse head band 11 in series, a plurality of air inlet windows 18 are fixedly disposed on one side end surface of the protective housing 14, a first image light source 15 and a second image light source 16 are respectively fixedly disposed on two inner sides of the protective housing 14, the first image light source 15 and the second image light source 16 are symmetrically disposed, a window 17 is fixedly formed in the protective housing 14. The front end face of the protective housing 14 is fixedly connected with a limiting frame 110 in a clamping manner, a lens clamping groove 111 is formed in the inner side wall of the limiting frame 110, and a waveguide lens 19 is fixedly mounted in the lens clamping groove 111.

Referring to fig. 3, the waveguide lens 19 includes an imaging lens 191, two couplers 192 and an astigmatic lens 193, the couplers 192 are disposed in two groups and respectively disposed on two sides of the imaging lens 191, and end surfaces of the two groups of couplers 192 facing away from the imaging lens 191 are fixedly connected with the astigmatic lens 193.

Referring to fig. 4, the size adjustment assembly 13 includes an air bag 131 made of a silicone material, a pressure sensor 132 is fixedly installed at an inner side position of a middle of the air bag 131, an air inlet pipe 133 is fixedly connected to one end of the air bag 131 in series, the air inlet pipe 133 is connected to an air outlet end of a micro air pump 134 in series, an air outlet port 135 is fixedly connected to the other end of the air bag 131, an electromagnetic valve 136 is fixedly connected to an air outlet end of the air outlet port 135 in series, the micro air pump 134 is fixedly installed inside the protective housing 14, an air inlet of the micro air pump 134 corresponds to positions of a plurality of air inlet windows 18, a middle section of the air outlet port 135 penetrates through the inside of the transverse head hoop 11, and the electromagnetic valve 136 is.

Referring to fig. 5, the size adjustment assembly 13 further includes a controller 137, the pressure sensor 132, the micro air pump 134 and the controller 137 are electrically connected to an external power source in a bidirectional manner, an output end of the pressure sensor 132 is electrically connected to an input end of the controller 137, and an output end of the controller 137 is electrically connected to input ends of the micro air pump 134 and the electromagnetic valve 136, respectively.

Through the structure, in the actual use process, when needing to be adjusted, the miniature air pump 134 is started, with the help of the air inlet pipe 133, the air is injected into the air bag 131, so that the air bag 131 is bulged, after the air bag 131 is bulged, pressure is applied to the afterbrain of a user, when the pressure sensor 132 monitors that the pressure value is a set value, the signal is converted into an electric signal and is transmitted to the controller 137, the controller 137 actively controls the miniature air pump 134 to stop working, when needing to deflate, the controller 137 controls the electromagnetic valve 136 to be opened, namely, the whole adjusting process is time-saving and labor-saving, and the practicability is high.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A microstructure-based waveguide augmented reality display device, comprising:

the display device body (1) is of a wearable structure and comprises a wearing part and an imaging part, the wearing part is fixedly connected with the imaging part, the wearing part is sleeved on the head of a user, and the imaging part is covered on the outer side of the eyes of the user;

the two groups of Bluetooth earphones (2) are arranged, and the two groups of Bluetooth earphones (2) are fixedly arranged below the display device body (1) and are symmetrically arranged;

the mobile terminal (4) is internally provided with an APP which is matched with the display device body (1) for use and is any one of a mobile phone terminal or a PC terminal;

and the data transmission line (3) is connected in series between the display device body (1) and the data communication port of the mobile terminal (4) and is used for transmitting image data.

2. The waveguide augmented reality display device based on the microstructure according to claim 1, wherein the wearing part arranged in the display device body (1) comprises a transverse head band (11), a longitudinal head band (12) and a size adjusting component (13), the transverse head band (11) is in a non-closed structure, two ends of the non-closed structure of the transverse head band (11) are fixedly connected with the outer side of the imaging part, one end of the longitudinal head band (12) is fixedly connected with a middle section of the transverse head band (11), the other end of the longitudinal head band is fixedly connected with the top end of the imaging part, and the size adjusting component (13) is fixedly arranged on the inner side surface of the transverse head band (11) in an adhesive manner.

3. The microstructure-based waveguide augmented reality display device according to claim 2, wherein the imaging portion disposed in the display device body (1) includes a protective casing (14) connected in series with two ends of the transverse head hoop (11), a plurality of air inlet windows (18) disposed at equal intervals are fixedly disposed on an end surface of one side of the protective casing (14), a first image light source body (15) and a second image light source body (16) are respectively and fixedly mounted on two sides of the interior of the protective casing (14), the first image light source body (15) and the second image light source body (16) are symmetrically disposed, and a window (17) is fixedly disposed in the interior of the protective casing (14).

4. The waveguide augmented reality display device based on the microstructure according to claim 3, wherein a limiting frame (110) is fixedly connected to a front end surface of the protective housing (14) in a clamping manner, a lens clamping groove (111) is formed in an inner side wall of the limiting frame (110), and a waveguide lens (19) is fixedly mounted in the lens clamping groove (111).

5. The microstructure-based waveguide augmented reality display device according to claim 4, wherein the waveguide lens (19) comprises an imaging lens (191), an incoupler (192) and an astigmatic lens (193), the incoupler (192) is provided in two groups and respectively arranged at two sides of the imaging lens (191), and the astigmatic lenses (193) are fixedly connected to end surfaces of the two groups of the incouplers (192) facing away from the imaging lens (191).

6. The waveguide augmented reality display device based on the microstructure according to claim 5, wherein the size adjusting assembly (13) comprises an air bag (131) made of silica gel, a pressure sensor (132) is fixedly installed at the middle inner side position of the air bag (131), one end of the air bag (131) is fixedly connected with an air inlet pipe (133) in series, the air outlet end of the air inlet pipe (133) and the air outlet end of a micro air pump (134) are connected in series, the other end of the air bag (131) is fixedly connected with an air exhaust interface (135), and the air outlet end of the air exhaust interface (135) is fixedly connected with an electromagnetic valve (136) in series.

7. A microstructure-based waveguide augmented reality display device according to claim 6, wherein the micro air pump (134) is fixedly installed inside the protective housing (14), and the air inlet of the micro air pump (134) corresponds to the position of the air inlet windows (18).

8. A microstructure-based waveguide augmented reality display device according to claim 7, wherein the middle section of the exhaust interface (135) penetrates the inside of the transverse head band (11), and the solenoid valve (136) is located outside the outer end face of the transverse head band (11).

9. The waveguide augmented reality display device based on the microstructure according to claim 8, wherein the size adjusting assembly (13) further comprises a controller (137), the pressure sensor (132), the micro air pump (134) and the controller (137) are electrically connected with an external power supply in a bidirectional manner, an output end of the pressure sensor (132) is electrically connected with an input end of the controller (137), and output ends of the controller (137) are respectively electrically connected with input ends of the micro air pump (134) and the solenoid valve (136) correspondingly.

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