CN206532037U - A kind of glasses available for AR or VR - Google Patents

Abstract

There is deformation, the technical problem that AR glasses centers of gravity are forward, display screen is larger to solve existing AR imaging methods and AR eyeglasses images, the utility model provide a kind of glasses available for AR or VR, the glasses including wear support, be arranged on the display unit worn on support, reflector element and in put beam-splitter；Reflector element includes completely reflecting mirror, Fresnel Lenses and the curve lens being successively set in display unit light path；The curve lens are arranged on user at the moment；VR split screens image is reflected and zoomed in or out for the second time by completely reflecting mirror respectively, is imaged in user's eye；AR split screen images are reflected and zoomed in or out for the second time by curved mirror respectively, are imaged in user's eye, while the scene of user at the moment is transmitted in user's eye, in the case where ensureing that AR glasses centers of gravity press close to forehead, deformation of image is smaller；Using small focal length, display screen height is the half of prior art, and heavy burden sense when user wears is smaller.

Description

A kind of glasses available for AR or VR

Technical field

The utility model is related to a kind of AR and VR imaging methods and the glasses available for AR and VR.

Background technology

Existing AR imaging methods, it is main using principle of reflection imaging.But, the imaging method has the following disadvantages：

1st, there is moderate finite deformation in image.

2nd, AR glasses center of gravity is forward, makes the fulcrum stress at forehead larger, influences the impression of user.

3rd, the translucent effect of the semi-transparent semi-reflecting eyeglass of existing AR glasses is poor.

4th, existing AR Glasses structures complexity, part are more, and production cost is too high.

Utility model content

The utility model purpose is to provide a kind of AR imaging methods and AR glasses, which solves existing AR imaging methods and AR There is deformation, the technical problem that AR glasses centers of gravity are forward, display screen is larger in eyeglasses image.

Technical solution of the present utility model is to provide a kind of VR imaging methods, comprises the following steps：

1) display unit face upward inclination 10 ° to 40 ° send VR split screen images；

2) Fresnel Lenses or Fresnel Lenses group that VR split screens image reflexes to lower section respectively are carried out ladder by completely reflecting mirror Shape is corrected with amplifying for the first time；

3) VR split screens image is reflected and carries out second of amplification by curved face total reflection mirror respectively, is imaged in user's eye； The curved face total reflection mirror is concave curved surface mirror or convex surface mirror.

The focal length sum (concave curved surface mirror is that positive focal length, convex surface mirror are negative focal length) of above-mentioned Fresnel Lenses and curved mirror is big In screen into user's eye 2 times of total length of light path.

The utility model also provides a kind of AR imaging methods, comprises the following steps：

1) display unit face upward inclination 10 ° to 40 ° send AR split screen images；

2) Fresnel Lenses that AR split screens image reflexes to lower section respectively is carried out keystone and first time by completely reflecting mirror Amplification；

3) AR split screen images are reflected and carry out second of amplification by the transparent curved mirror for posting holographic film respectively, in user It is imaged in eye；Meanwhile, outdoor scene in front of user through the transparent curved mirror for posting holographic film, directly in user's eye into Picture, the transparent curved mirror for posting holographic film is concave curved surface mirror or convex surface mirror.

The focal length sum (concave curved surface mirror is that positive focal length, convex surface mirror are negative focal length) of upper Fresnel Lenses and curved mirror is more than Screen is into user's eye 2 times of total length of light path.

The utility model also provides a kind of glasses available for AR or VR, including wears support, is arranged on and wears on support Display unit and reflector element, it is characterized in that：Beam-splitter is put in also including；

Above-mentioned reflector element includes completely reflecting mirror, Fresnel Lenses and the curved surface being successively set in display unit light path Eyeglass；Above-mentioned curve lens are arranged on user at the moment；

Above-mentioned curve lens are the transparent curved mirror or curved face total reflection mirror for posting holographic film；It is above-mentioned to post the saturating of holographic film Bright curved mirror or curved face total reflection mirror is concave curved surface mirror or convex surface mirror；The direction of above-mentioned display unit and the folder of facing upward in front Angular region is 10 ° to 40 °；

Beam-splitter is put in above-mentioned to be arranged between display unit and completely reflecting mirror, or is arranged on Fresnel Lenses and curved surface Between eyeglass, the AR split screen images for separating left and right；

The AR split screens image that above-mentioned Fresnel Lenses is reflected completely reflecting mirror carries out keystone with amplifying for the first time respectively；

VR split screens image is reflected and carries out second of amplification by above-mentioned concave curved surface completely reflecting mirror respectively, user eye in into Picture；AR split screen images are reflected and carry out second of amplification by the above-mentioned transparent curved mirror for posting holographic film respectively, in user's eye Middle imaging, while the scene of user at the moment is transmitted in user's eye；

VR split screens image is reflected and reduced respectively by above-mentioned convex surface completely reflecting mirror, is imaged in user's eye；Institute State and post the transparent curved mirror of holographic film AR split screen images are reflected and reduced respectively, be imaged in user's eye, simultaneously The scene of user at the moment is transmitted in user's eye.

Above-mentioned curve lens are the concave mirror or convex mirror of single-curved surface, hyperboloid or free form surface.

Above-mentioned curve lens by clamping, be hinged or magnet attraction mode is connected with wearing support, realize curve lens Angular adjustment is with storing.

Above-mentioned display unit is the display screen with wearing support one, or independent mobile display terminal.

Beam-splitter is put in above-mentioned for flexible material.

Advantage of the present utility model：

1st, the utility model is in the case where ensureing that AR glasses centers of gravity press close to forehead, and deformation of image is smaller.

2nd, the utility model can use small focal length, and display screen height can be the half of prior art, when user wears Heavy burden sense it is smaller.Can substantially it be fitted with people's forehead angle of inclination, so as to which torque arm length is greatly reduced in structure, Mitigate pressure of the equipment to forehead.Because image enlargement ratio is smaller, so can be according to the near big and far smaller original of perspective in light path Reason, reduces the volume of structure at lens, and structure can be made as trapezoidal, section maximum at close forehead, away from section at forehead most It is small.So as to reduce equipment volume and weight.Torque arm length is further reduced, pressure of the equipment to head part is reduced.

3rd, the utility model uses holographic film, in the case of ensureing reflecting effect clearly, increases the transmission of scenery light, Add virtual image and real-world scene merges sense.

4th, when the focal length of Fresnel Lenses is too small, focal length is increased by convex surface mirror, coordinates Fresnel Lenses to realize clear Clear imaging.

5th, (concave curved surface mirror is positive focal length, convex surface mirror to the focal length sum of Fresnel Lenses and curved mirror of the present utility model For negative focal length), more than screen into user's eye 2 times of total length of light path, it is ensured that screen display content it is clear.

6th, the utility model uses concave curved surface mirror before user, and the virtual image is amplified again, visual angle model is expanded Enclose.When using convex surface mirror, the virtual image is reduced, it is ensured that user observes clearly image；Can be according to different need Ask, using the scheme adaptable with it.

7th, because by the way of clamping or magnet attraction, curve lens can select convex surface mirror according to the demand of user Or concave curved surface mirror, and can change at any time.

8th, baffle plate is such as placed in the first light path, and the aesthetic property of the second light path is not influenceed, while nor affecting on the second light path Folding storage.Also the baffle plate of flexible material can be used, is placed in the second light path, realizes and stores.Equipment volume can be reduced after storage And the second speculum eyeglass of protection.

9th, the utility model only can just realize the switching between AR and VR with a set of helmet.

Brief description of the drawings

Fig. 1 is schematic perspective view of the present utility model；

Fig. 2 is front view of the present utility model；

Fig. 3 is decomposed schematic diagram of the present utility model；

Fig. 4 is whole decomposing schematic representations of the present utility model；

Fig. 5 is the side view of the utility model rounding state；

Fig. 6 is the side view of the utility model open mode；

Fig. 7 is the structure principle chart that the utility model curved mirror is convex surface mirror；

Fig. 8 is Fig. 7 light path principle figure；

Fig. 9 is the structural representation that the utility model uses curved mirror for concave curved surface mirror；

Figure 10 is Fig. 9 light path principle figure；

In figure：1-, which is worn, puts beam-splitter, 32- completely reflecting mirrors, 33- in support, 11- lens supports, 2- display units, 31- Fresnel Lenses, 34- curved reflectors or the transparent curved mirror for posting holographic film.

Embodiment

The utility model is further described below in conjunction with accompanying drawing.

As shown in Figures 1 to 4, the utility model includes wearing support, being arranged on display unit and the reflection worn on support Unit, display unit is the display screen with wearing support one, or independent mobile display terminal；Also include in flexibility Put beam-splitter；Reflector element includes completely reflecting mirror, Fresnel Lenses and the curved mirror being successively set in display unit light path Piece；Curve lens are arranged on user at the moment；Curve lens are the transparent curved mirror or curved face total reflection mirror for posting holographic film； The transparent curved mirror or curved face total reflection mirror for posting holographic film are concave curved surface mirror or convex surface mirror；The direction of display unit with just before The angular range of facing upward of side is 10 ° to 40 °；In put beam-splitter and be arranged between display unit and completely reflecting mirror, or be arranged on Between Fresnel Lenses and curve lens, the AR split screen images for separating left and right；Fresnel Lenses is reflected completely reflecting mirror AR split screens image carries out keystone with amplifying for the first time respectively；Concave curved surface completely reflecting mirror reflects VR split screen images respectively goes forward side by side Second of amplification of row, is imaged in user's eye；The transparent curved mirror for posting holographic film respectively goes forward side by side the reflection of AR split screens image Second of amplification of row, is imaged in user's eye, while the scene of user at the moment is transmitted in user's eye；Convex surface is complete VR split screens image is reflected and reduced respectively by speculum, is imaged in user's eye；Post the transparent curved mirror of holographic film AR split screen images are reflected and reduced respectively, user eye in be imaged, while by the scene of user at the moment transmit into In user's eye.Curved mirror by clamping, be hinged or magnet attraction mode is connected with wearing support, realize the angle of curve lens Regulation is with storing.The transparent curve lens support of holographic film is posted, is the articulated structure of double-body bike, the angle of holography eyeglass can be achieved Degree regulation is with storing.The width of lens supports front end, along direction of visual lines to contract.

The utility model principle：

The diverse location of screen can be different from the object distance of Fresnel magnifying glass, and produce different enlargement ratios, when using The lens of proper focal length, and suitable position is arrived in object distance regulation, can offset the near big and far smaller effect that human eye is produced by perspective, Laterally invariant, the virtual image of longitudinal compression is formed, so as to by physical route, improve resolution ratio or visual longitudinal in effective area Scope.

It is used for the lens amplified in the optical path, need to selects to be more than screen to the lens of lens total optical path length focal length, to protect Demonstrate,prove the clear of screen display content.Because the focal length of lens becomes big, multiplication factor diminishes, and the virtual image of above light path imaging is just slightly larger than Original image, angular field of view is smaller, so, the semi-transparent semi-reflecting minute surface before human eye then needs to select suitable hyperboloid reflective mirror, The virtual image is amplified again, expands angular field of view.

Holographic film, can have higher light transmittance than semi-transparent semi-reflecting minute surface, and when without luminous reflection, what can be apparent from sees Real world object, when there is light, there is higher reflectivity, shows clearly picture again, is more beneficial for virtual screen and reality Fusion.

VR imaging methods of the present utility model, display unit face upward inclination 10 ° to 40 ° send VR split screen images；Because of screen Face upward inclination, level observation can produce trapezoidal distortion.The Fresnel that VR split screens image is reflexed to lower section by completely reflecting mirror respectively is saturating Mirror or Fresnel Lenses group carry out keystone with amplifying for the first time；Curved face total reflection mirror reflects VR split screen images respectively goes forward side by side Second of amplification of row, is imaged in user's eye；The curved face total reflection mirror is concave curved surface mirror or convex surface mirror.Wherein Fresnel The focal length sum of lens and curved mirror is more than screen into user's eye 2 times of total length of light path.

A kind of AR imaging methods of the utility model, display unit face upward inclination 10 ° to 40 ° send AR split screen images；It is all-trans Penetrate mirror and the Fresnel Lenses that AR split screens image reflexes to lower section respectively is subjected to keystone with amplifying for the first time；Post holographic film Transparent curved mirror AR split screen images are reflected respectively and second of amplification is carried out, user eye in be imaged；Meanwhile, user The outdoor scene in front is directly imaged through the transparent curved mirror for posting holographic film in user's eye, described to post the saturating of holographic film Bright curved mirror is concave curved surface mirror or convex surface mirror.Wherein the focal length sum of Fresnel Lenses and curved mirror is more than screen to user 2 times of the total length of light path in eye.

Claims (5)

1. a kind of glasses available for AR or VR, including wear support, be arranged on the display unit and reflection list worn on support Member, it is characterised in that：Beam-splitter is put in also including；

The reflector element includes completely reflecting mirror, Fresnel Lenses and the curved mirror being successively set in display unit light path Piece；The curve lens are arranged on user at the moment；

The curve lens are the transparent curved mirror or curved face total reflection mirror for posting holographic film；The transparent song for posting holographic film Face mirror or curved face total reflection mirror are concave curved surface mirror or convex surface mirror；The direction of the display unit and the angle model of facing upward in front Enclose for 10 ° to 40 °；

Beam-splitter is put in described to be arranged between display unit and completely reflecting mirror, or is arranged on Fresnel Lenses and curve lens Between, the AR split screen images for separating left and right；

The AR split screens image that the Fresnel Lenses is reflected completely reflecting mirror carries out keystone with amplifying for the first time respectively；

VR split screens image is reflected and carries out second of amplification by concave curved surface completely reflecting mirror respectively, is imaged in user's eye；It is described AR split screen images are reflected and carry out second of amplification by the transparent curved mirror for posting holographic film respectively, are imaged in user's eye, The scene of user at the moment is transmitted in user's eye simultaneously；

VR split screens image is reflected and reduced respectively by convex surface completely reflecting mirror, is imaged in user's eye；It is described to post complete AR split screen images reflects and reduced respectively by the transparent curved mirror of breath film, the imaging in user's eye, while by user Scene at the moment is transmitted in user's eye.

2. the glasses according to claim 1 available for AR or VR, it is characterised in that：

The curve lens are the concave mirror or convex mirror of single-curved surface, hyperboloid or free form surface.

3. the glasses according to claim 1 or 2 available for AR or VR, it is characterised in that：

The curve lens by clamping, be hinged or magnet attraction mode is connected with wearing support, realize the angle of curve lens Regulation is with storing.

4. the glasses according to claim 1 or 2 available for AR or VR, it is characterised in that：

The display unit is the display screen with wearing support one, or independent mobile display terminal.

5. the glasses according to claim 1 or 2 available for AR or VR, it is characterised in that：

Beam-splitter is put in described for flexible material.