CN207133510U - A kind of head-wearing display device - Google Patents

Abstract

The utility model discloses a kind of head-wearing display device, including generating the display module of image frame and the first speculum and the second speculum for reflected image picture successively for projecting display screen, the reflecting surface of the second speculum is by image frame secondary reflection, amplification and the eyes for investing user；First speculum and the second speculum use concave mirror.The utility model by vertically arranged two sides concave mirror close to each other by image frame secondary reflection, turn back amplification by intimate 180 degree, into human eye, forms the virtual image for being projected on drawing axis suitable distance.The utility model can use the innovative designs such as double-sided symmetrical quadratic surface mirror, rotary type focusing structure, pellicle mirror eyepiece, VR, AR conversion variable field of view, folding storage structure so that the utility model can be with completely compatible VR, AR and large-screen image vision application.It is its simple in construction, small volume, easy to carry, it is practical, it is applied widely.

Description

A kind of head-wearing display device

Technical field

The utility model belongs to virtual reality technology and augmented reality field, and in particular to one kind wears display dress Put.

Background technology

VR (Virtual Reality), i.e. virtual reality, it produces one using the simulation of various intellectual technologies and possesses three-dimensional The virtual world of visual sense, the simulated environment for being based primarily upon vision is provided for user, allow user such as viewing three on the spot in person Virtual scene in dimension space.AR (Augmented Reality), i.e. augmented reality, it is existing that some schemes are also referred to as mixing Real MR (Mixed Reality), it is by various intellectual technologies, by information superposition caused by equipment to true environment vision, pole The earth extends the approach of man-machine system information exchange impression exchange.With virtual reality technology and the hair of augmented reality , there is increasing VR and AR equipment in exhibition, wherein, some head-mounted display apparatus applied to mobile phone are due to higher Cost performance and stronger practicality and quickly grow.But these head-mounted display apparatus are all using convex lens amplification mesh Mirror, or the imaging arrangement mode that plane mirror is combined with convex lens magnification eyepiece, these imaging arrangement modes are worn The light path of display device is short, magnifying power is big, can only watch AR/VR systems and left and right split screen stereopsis, can not watch in common The mobile phone flat image of appearance, complicated, volume is big, it is inconvenient to carry.

Utility model content

Technical problem to be solved in the utility model is to be directed to above-mentioned deficiency of the prior art, there is provided Yi Zhongtou Display device is worn, the device uses the frame mode of bi-concave mirror imager, without setting the visual amplification system of convex lens, its It is simple in construction, small volume, easy to carry, it is practical, it is easy to promote the use of.

In order to solve the above technical problems, the technical solution adopted in the utility model is：A kind of head-wearing display device, including with The display module 1 of image frame and first for reflecting the image frame successively anti-is generated in projection display screen 1-1 The speculum 3 of mirror 2 and second is penetrated, the display module 1 is arranged at user's forehead, and the reflecting surface of the second speculum 3 will The image frame secondary reflection, amplification and the eyes for investing user；The speculum 3 of first speculum 2 and second is adopted With concave mirror, and its reflecting surface is relative with head, cross the section at the reflecting surface lower edge midpoint of the first speculum 2 with it is aobvious Show that the display surface of set display screen 1-1 on module 1 forms the first angle a；Cross cutting for the reflecting surface lower edge midpoint of the first speculum 2 The second angle b is formed between plane and the section for crossing the reflecting surface top edge midpoint of the second speculum 3, the first angle a's Angular range is 30 degree to 60 degree, 70 degree to 95 degree of the second angle b angular range.Wherein the first speculum 2, the second speculum 3 respective four edges up and down form a quadrilateral structure.

It is preferred that the angular range of the first angle a is 35 degree to 45 degree；Second angle b angle is 90 degree.

It is preferred that first speculum 2 is identical with the curvature of the second speculum 3, curvature is quadric for any one Curvature.

It is preferred that the curvature of 2 and second speculum of the first speculum 3 is simultaneously using both paraboloid or ellipsoid One of.

It is preferred that second speculum 3 is using completely reflecting mirror or using semi-permeable and semi-reflecting mirror.

It is preferred that second speculum 3 includes visual field change-over panel 3-2, visual field change-over panel 3-2 is kept off in the second reflecting optics Before 3-1；Visual field change-over panel 3-2 and the second reflecting optics 3-1 is coordinated by visual field transaxle A3-3, visual field transaxle B3-5 and connected Connect to form hinge, rotate visual field change-over panel 3-2 switching visual field content, form AR VR switching mechanisms.

It is preferred that the display module 1 is connected with shell 4, it is also associated with being used to consolidate the head-wearing display device on shell 4 It is scheduled on the headband 5 on user head；

The headband 5 uses Demountable, by member head with the dovetail groove B5-3 on fixed seat 5-2, with shell 4 On member head work in coordination and connect together with the dovetail groove A4-3 structures contained by fixed mount 4-2, headband fixed mount 4-2 is also wrapped Containing the second rotating shaft 4-4, shell wall 4-1 is connected to by hinge type structure so that device can integrally rotate regulation and wear angle.

It is preferred that the display module 1 includes component display 1-1, display screen fixture 1-2, connecting bushing 1-3；Institute State the first speculum 2 and include part focusing slide rail 2-2, rack 2-3 is carried on focusing slide rail 2-2；The focus adjusting mechanism 6 includes portion Part first rotating shaft 6-1, focusing handwheel 6-2, focus gear 6-3, closing handle 6-4, and focus sliding block 6-5, bearing 6-6, sliding-rail groove 6-7；By the way that the part focusing slide rail 2-2 on the first speculum 2 and the sliding-rail groove 6-7 on sliding block 6-5 that focuses are fitted together, So that the first speculum 2 links into an integrated entity with focus adjusting mechanism 6；Pass through institute in display module 1 between focus adjusting mechanism 6 and display module 1 Band connection axle sleeve 1-3 is connected together, and focus adjusting mechanism 6 drives two-face mirror to rotate, then cooperating head band fixed mount 4-2 is rotated and adjusted Section so that viewing angle height can adjust as needed；Focusing handwheel 6-2 is rotated, drives first rotating shaft 6-1 in bearing 6-6 Interior rotation, focusing gear 6-3 is driven to be rotated on rack 2-3, focusing slide rail 2-2 is moved on focusing sliding block 6-5 so that the Occur relative displacement between one speculum 2 and display module 1, imaging focal length changes, and adapts to different human eye diopter and different The requirement of picture magnifying power；Finally lock closing handle 6-4 so that between the first speculum 2, focusing structure 6, display module 1 mutually Relation is fixed up use.

It is preferred that first speculum 2 includes the rotating shaft A2-4 of component the 3rd, the second speculum 3 includes the 3rd turn of component Axle B3-4, the 3rd rotating shaft A2-4 the 3rd rotating shaft B3-4, which work in coordination, allows the first speculum 2 second speculum, 3 angles to adjust Section, can rotate the second speculum 3 rapidly and leave the visual field, and can be folded together completely, form folding storage structure.

It is preferred that the display screen 1-1 point is left and right two parts, left images are shown respectively, first speculum 2, Second speculum 3 uses biplate concave mirror, and lens area possesses with right and left eyes optical axis coincidence respectively corresponding to right and left eyes Two optical centres, display screen corresponding to right and left eyes, the first speculum 2, the second speculum 3 composition right and left eyes corresponding regions Two halves symmetrical structure, composition right and left eyes separation viewing structure.

Beneficial effect

The utility model has advantages below compared with prior art：

1st, the utility model reflects the structure for zooming into picture using bi-concave speculum by the optical system of innovative design Mode so that head-wearing display device without set the visual amplification system of convex lens again, and then user can share first with right and left eyes, Second speculum watches magnified image, possesses a series of optical imagery advantages, compact-sized, small volume, folding storage, carries It is convenient.

2nd, the second speculum set by the utility model is that completely reflecting mirror can form VR head-wearing display devices, and second is anti- AR head-wearing display devices can be formed for semi-permeable and semi-reflecting mirror by penetrating mirror, and compatibility is strong, has wide range of applications.

3rd, the display module set by the utility model is close to forehead, and overall center of gravity is felt close to head, user when wearing Feel comfortable, light, moulding is more attractive in appearance rationally.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Brief description of the drawings

Fig. 1 is basic structure of the present utility model and imaging optical path schematic diagram.

Fig. 2 is the stereogram of embodiment 1 of the present utility model.

Fig. 3 is the explosive view of embodiment 2 of the present utility model, and each component separates the schematic diagram of display.Shared for eyes The structure that the full frame visual field of single screen optimizes, compatible large screen display, VR, AR application are overall to use folding storage structure.

Fig. 4 is the combination assumption diagram of embodiment 2 of the present utility model, and direction of visual lines is shown.

Fig. 5 is state of the embodiment 2 of the present utility model in folding storage.

Fig. 6 is embodiment 3 of the present utility model, is the optimization structure of eyes split field, and contains compatible VR, AR Baffle arrangement.

Fig. 7 is the combination assumption diagram of embodiment 3 of the present utility model, and direction of visual lines is shown.

Description of reference numerals:

1 display module.

Optional component includes：1-1：Display screen (this definition includes mobile phone), 1-2：(this definition includes hand to display screen fixture Machine bracket), 1-3：Connecting bushing.

2. the first speculum.

Optional component includes：2-1：First reflecting optics, 2-2：Focusing slide rail, 2-3：Rack, 2-4：3rd rotating shaft A.

3. the second speculum, eyepiece.

Optional component includes：3-1：Second reflecting optics, 3-2：Visual field change-over panel, 3-3：Visual field transaxle A, 3-4：3rd Rotating shaft B, 3-5：Visual field transaxle B.

4. shell.

Optional component includes：4-1：Shell wall, 4-2：Headband fixed mount, 4-3：Dovetail groove A, 4-4：Second rotating shaft.

5. headband.

Optional component includes：5-1：Band, 5-2：Headband fixed seat, 5-3：Dovetail groove B.

6 focus adjusting mechanisms.

Optional component includes：6-1：First rotating shaft, 6-2：Focusing handwheel, 6-3：Focusing gear, 6-4：Closing handle, 6-5： Focusing sliding block, 6-6：Bearing, 6-7：Sliding-rail groove.

Embodiment

Embodiment 1：Referring to Fig. 1 and Fig. 2, the utility model provides a kind of head-wearing display device, including aobvious for projecting Display screen 1-1 generates the display module 1 of image frame and the first speculum 2 and for reflecting the image frame successively Two-mirror 3, the display module 1 are arranged at user's forehead, and the reflecting surface of the second speculum 3 draws the image Face secondary reflection, amplification and the eyes for investing user；

The speculum 3 of first speculum 2 and second uses concave mirror, and its reflecting surface is relative with head, The display surface for crossing the section at the reflecting surface lower edge midpoint of the first speculum 2 and set display screen 1-1 in display module 1 forms the One angle a；The section at the reflecting surface lower edge midpoint of the first speculum 2 is crossed with crossing the reflecting surface top edge midpoint of the second speculum 3 Section between formed the second angle b, the first angle a angular range be 30 degree to 60 degree, optimal angle be 35 degree To 45 degree, 70 degree to 95 degree of the second angle b angular range, optimal angle is 90 degree.Wherein the first speculum 2, second reflects Respective four edges up and down of mirror 3 form a quadrilateral structure.

The speculum 3 of first speculum 2 and second preferably uses same curvature, can offset aberration, be formed excellent Imaging effect, according to different screen sizes, different application demands, its curvature can use any one quadratic surface, special It is not to use paraboloid or ellipsoid alternative one simultaneously, can effectively make corrections various aberrations.

Second speculum 3 may be designed to giant-screen effect head-wearing display device using completely reflecting mirror, and use is semi-transparent semi-reflecting AR head-wearing display devices can be formed by penetrating mirror.

The display module 1, the first speculum 2 are also secured on shell 4, and headband 5 is connected with shell 4 for wearing.Ginseng See Fig. 2, this structure of the present utility model is the embodiment most basic as display device is worn, and eyes share the one the second Mirror imager, it is simple firm, it is easy to use, it is suitably to select very much for commercial use.

The applicability of basic structure of the present utility model is very strong, shell, fixture plus suitable design, it may not be necessary to wear Wear, but be affixed directly to above the entity structures such as various equipment bodies, helmet specially used, training equipment, cap, glasses, so Basic structure of the present utility model is not limited using headband structure.

Embodiment 2：

As shown in Figures 3 and 4, on the basis of embodiment 1, further, the reflecting rate of the second speculum 3 is optional, adopts VR head-wearing display devices are formed with completely reflecting mirror or AR head-wearing display devices are formed using semi-permeable and semi-reflecting mirror.

Further, designed for VR-AR compatibilities head-wearing display device, second reflecting optics of part of the second speculum 3 3-1 uses semi-permeable and semi-reflecting mirror, and comprising regarding part field change-over panel 3-2, visual field change-over panel 3-2 gears are in the second reflecting optics 3-1 Above, for interdicting the perspective light of pellicle mirror；Part visual field change-over panel 3-2 and the second reflecting optics 3-1 are changed by visual field Axle A3-3, visual field transaxle B3-5 cooperatively form hinge rotation connection, and visual field change-over panel 3-2, which is dug, leaves the second reflecting optics 3- 1 visual field, form AR-VR rough set theory devices.Thus can compatible VR, AR and large-screen image vision application comprehensively.In order to Conveniently dig it is front and rear respectively with eyepiece casing fit together, visual field change-over panel 3-2 can use flexible material to make.

Further, the display module 1 is connected to shell 4, is also associated with being used for the head-wearing display device on shell 4 It is fixed on the headband 5 on user head；The headband 5 uses Demountable, by member head with the swallow on fixed seat 5-2 Stern notch B5-3, work in coordination and connect together with the dovetail groove A4-3 structures contained by fixed mount 4-2 with the member head on shell 4, Headband fixed mount 4-2 is also connected to shell wall 4-1 comprising the second rotating shaft 4-4 hinge type structures, and the part band 5-1 of headband 5 is fixed To user head so that device can integrally rotate regulation and wear angle.According to use demand, can be fixed with release head band Seat, headband is removed, using device as hand-held use, more succinctly, attractive in appearance, portable,

Further, the display module 1 includes component display 1-1, display screen fixture 1-2, connecting bushing 1-3； First speculum 2 includes and carries rack 2-3 on part focusing slide rail 2-2, focusing slide rail 2-2；

The focus adjusting mechanism 6 includes part first rotating shaft 6-1, focusing handwheel 6-2, and focus gear 6-3, closing handle 6-4, Focus sliding block 6-5, bearing 6-6, sliding-rail groove 6-7；

By the way that the part focusing slide rail 2-2 on the first speculum 2 and the sliding-rail groove 6-7 on sliding block 6-5 that focuses are coupled to Together so that the first speculum 2 links into an integrated entity with focus adjusting mechanism 6；

Coordinated between focus adjusting mechanism 6 and display module 1 by institute band connection axle sleeve 1-3 on first rotating shaft 6-1 and display module 1 Connect together, focus adjusting mechanism 6 drives two-face mirror to rotate, then cooperating head band fixed mount 4-2 rotates the second rotating shaft 4-4 of regulation Angle so that viewing angle height can adjust as needed；

So first rotating shaft works in coordination i.e. adjustable apparatus entirety relative to user's eyes with the second axis of rotation Angle, position, regulation image height direction, so as to reach the use state of the most comfortable.

Focusing handwheel 6-2 is rotated, drives first rotating shaft 6-1 to be rotated in bearing 6-6, drives focusing gear 6-3 in tooth Rotated on bar 2-3, focusing slide rail 2-2 is moved on focusing sliding block 6-5 so that the first speculum 2 between display module 1 with occurring phase To displacement, imaging focal length changes, and adapts to different human eye diopters and different picture magnifying power requirements；

Finally lock closing handle 6-4 so that 1 the first speculum 2, focusing structure 6, display module correlation are fixed Get off to use.It can be seen that this is a kind of simple efficient focus adjusting mechanism.

Embodiment 3：

As shown in Figures 6 and 7, on the basis of embodiment 1 and embodiment 2, further, the display screen 1-1 points are a left side Right two parts, left images are shown respectively, first speculum 2, the second speculum 3 use biplate concave mirror, i.e., Lens area corresponding to right and left eyes possesses two optical centres with right and left eyes optical axis coincidence respectively, is shown corresponding to right and left eyes Screen, the two halves symmetrical structure of the first speculum 2, the second speculum 3 composition right and left eyes corresponding region, and contain compatible VR, AR Baffle arrangement.

Fig. 7 is the appearance that shows of the combination assumption diagram direction of visual lines of embodiment 3, it can be seen that all structural elements are all can be with Embodiment 2 is inherited, so I will not elaborate, simply illustrates the measure about the limitation of right and left eyes visual field.Normal In the prior art seen, the visual field demarcation strip among left images is an indispensable part, can also be made here certainly With, but in order to which folding storage is convenient, the utility model is not limited using this part, but can be in mirror reflection surface Region takes measures on setting, the dash area shown in Fig. 7 among the second speculum, is exactly used for limiting right and left eyes visual field use Not reflected extinction region.

Obviously, three case study on implementation can increase or delete some technical characteristics, form a variety of independent assortment features Design, such as embodiment 2,3 can remove focus adjusting mechanism and rotating shaft and form stationary structure, for educating, medical treatment, work The application directions such as industry, military affairs, commercial entertainment are proper, and folding storage scheme is more reasonable for personal user.

It the above is only several preferred embodiments of the present utility model, not the utility model imposed any restrictions, every Any simple modification, change and the equivalent structure change made according to the utility model technical spirit to above example, still Belong in the protection domain of technical solutions of the utility model.

Claims (10)

1. A kind of 1. head-wearing display device, it is characterised in that the display including generating image frame for projecting display screen (1-1) Module (1) and the first speculum (2) and the second speculum (3) for reflecting the image frame successively, the display mould Group (1) is arranged at user's forehead, and the reflecting surface of the second speculum (3) is by the image frame secondary reflection, amplification And invest the eyes of user；

   First speculum (2) and the second speculum (3) use concave mirror, and its reflecting surface is relative with head, Cross section and the display surface of set display screen (1-1) in display module (1) at the first speculum (2) reflecting surface lower edge midpoint Form the first angle a；The section at the first speculum (2) reflecting surface lower edge midpoint is crossed with crossing the second speculum (3) reflecting surface Formed between the section at top edge midpoint the second angle b, the first angle a angular range be 30 degree to 60 degree, second 70 degree to 95 degree of angle b angular range.
2. A kind of 2. head-wearing display device according to claim 1, it is characterised in that：The angular range of the first angle a For 35 degree to 45 degree；Second angle b angle is 90 degree.
3. A kind of 3. head-wearing display device according to claim 1, it is characterised in that：First speculum (2) and second Speculum (3) curvature is identical, and curvature is any one quadric curvature.
4. A kind of 4. head-wearing display device according to claim 3, it is characterised in that：First speculum (2) and second Speculum (3) curvature uses paraboloid or ellipsoid alternative one simultaneously.
5. A kind of 5. head-wearing display device according to claim 1, it is characterised in that：Second speculum (3) is using complete Speculum or using semi-permeable and semi-reflecting mirror.
6. A kind of 6. head-wearing display device according to claim 5, it is characterised in that：Second speculum (3) includes and regarded Field change-over panel (3-2), visual field change-over panel (3-2) are kept off before the second reflecting optics (3-1)；Visual field change-over panel (3-2) and second Reflecting optics (3-1) are connected by visual field transaxle A (3-3), visual field transaxle B (3-5) and form hinge, are rotated visual field and are turned Change plate (3-2) switching visual field content, form AR VR switching mechanisms.
7. A kind of 7. head-wearing display device according to claim 1, it is characterised in that：The display module (1) and shell (4) Connect, the headband (5) for the head-wearing display device to be fixed on to user head is also associated with shell (4)；

   The headband (5) uses Demountable, and outer by member head with the dovetail groove B (5-3) in fixed seat (5-2) Member head on shell (4) is worked in coordination with dovetail groove A (4-3) structure contained by fixed mount (4-2) to be connected together, and headband is fixed Frame (4-2) also includes the second rotating shaft (4-4), is connected to shell wall (4-1) by hinge type structure, headband 5 also carries part band (5-1) is fixed to user head so that device can integrally rotate regulation and wear angle.
8. 8. according to a kind of head-wearing display device described in claim 1 to 7 any one claim, it is characterized in that：

   The display module (1) includes component display (1-1), display screen fixture (1-2), connecting bushing (1-3)；

   First speculum (2) includes part focusing slide rail (2-2), and rack (2-3) is carried on focusing slide rail (2-2)；

   The focus adjusting mechanism (6) includes part first rotating shaft (6-1), focusing handwheel (6-2), focusing gear (6-3), closing handle (6-4), focusing sliding block (6-5), bearing (6-6), sliding-rail groove (6-7)；

   By the way that the part focusing slide rail (2-2) on the first speculum (2) is matched somebody with somebody with the sliding-rail groove (6-7) on focusing sliding block (6-5) It is combined together so that the first speculum (2) links into an integrated entity with focus adjusting mechanism (6)；

   Pass through institute band connection axle sleeve (1- in first rotating shaft (6-1) and display module (1) between focus adjusting mechanism (6) and display module (1) 3) it is connected to together, focus adjusting mechanism (6) drives two-face mirror to rotate, then cooperating head band fixed mount (4-2) rotates regulation Second rotating shaft (4-4) angle so that viewing angle height can adjust as needed；

   Focusing handwheel (6-2) is rotated, drives first rotating shaft (6-1) to be rotated in bearing (6-6), drives focusing gear (6-3) to exist Rotated on rack (2-3), focusing slide rail (2-2) moves on focusing sliding block (6-5) so that the first speculum (2) and display Relative displacement occurs between module (1), imaging focal length changes, and adapts to different human eye diopters and different picture magnifying powers will Ask；

   Finally lock closing handle (6-4) so that correlation between the first speculum (2), focus adjusting mechanism (6), display module (1) Be fixed up use.
9. 9. according to a kind of head-wearing display device described in claim 1 to 7 any one claim, it is characterized in that, described One speculum (2) includes the rotating shaft A (2-4) of component the 3rd, and the second speculum (3) includes component the 3rd rotating shaft B (3-4), the 3rd turn The rotating shaft B (3-4) of axle A (2-4) the 3rd, which work in coordination, allows angle between the speculum (3) of the first speculum (2) second to adjust, can The visual field is left with rapid the second speculum (3) that rotates, and can be folded together completely, forms folding storage structure.
10. 10. according to a kind of head-wearing display device described in claim 1 to 7 any one claim, it is characterized in that, it is described aobvious Display screen (1-1) is divided into left and right two parts, shows left images respectively, and first speculum (2), the second speculum (3) are adopted With biplate concave mirror, lens area corresponding to right and left eyes possesses two optical centres with right and left eyes optical axis coincidence respectively, Mutual alignment is correspondingly set between left and right display screen, the first speculum (2) left-right parts, the second speculum (3) left-right parts three Put, form the two halves symmetrical structure of right and left eyes separation viewing.