CN106773052A - Adjustment structure and VR equipment for VR equipment - Google Patents

Abstract

The invention provides a kind of adjustment structure for VR equipment, including：Housing；Left lens mounting frame, right lens mounting frame；The left lens mounting frame and the right lens mounting frame are installed on the housing each via single focal length setting mechanism and interpupillary adjustment mechanism, so that the left lens mounting frame and the right lens mounting frame each relatively described housing can be moved along X to Z-direction.Embodiments of the invention additionally provide a kind of VR equipment with above-mentioned adjustment structure.The present invention can realize VR equipment to the interpupillary distance of images of left and right eyes, focal length it is separately adjustable.

Description

Adjustment structure and VR equipment for VR equipment

Technical field

The present invention relates to field of optical equipment, and in particular to a kind of adjustment structure and VR equipment for VR equipment.

Background technology

With the improvement of people ' s living standards, what VR (virtual reality) equipment was used is more and more extensive.At present, on the market Either VR only focus adjustment functions, or only interpupillary distance regulatory function, and correspond to focal length, the pupil of the images of left and right eyes of user Away from regulation be it is synchronous symmetrically carry out, this is different to two different crowds of myopia degree and individual difference interpupillary distance Crowd brings the inconvenience in experience.

The content of the invention

Present invention aim to address the interpupillary distance regulation of VR equipment and focus adjustment problem, the versatility of VR equipment is improved.

To achieve the above object, The embodiment provides following technical scheme：

On the one hand, there is provided a kind of adjustment structure for VR equipment, including：Housing；Left lens mounting frame, right camera lens peace Shelve；The left lens mounting frame and the right lens mounting frame are each via single focal length setting mechanism and interpupillary distance regulation machine Structure is installed on the housing, so that the left lens mounting frame and the right lens mounting frame being capable of respective relatively described housings Moved to Z-direction along X.

Preferably, above-mentioned adjustment structure also includes left T-shaped slide unit and right T-shaped slide unit；The focal length setting mechanism includes a left side Focal length setting mechanism, right focal length setting mechanism；The interpupillary adjustment mechanism includes left interpupillary adjustment mechanism, right interpupillary distance regulation machine Structure；The left lens mounting frame is slidably matched with the left T-shaped slide unit, and the right lens mounting frame is slided with the right T-shaped slide unit Dynamic to coordinate, the left interpupillary adjustment mechanism is arranged on the housing and can drive the left lens mounting frame along X to moving, The right interpupillary adjustment mechanism is arranged on the housing and can drive the right lens mounting frame along X to moving, the left side Focal length setting mechanism is arranged on the housing and the left T-shaped slide unit can be driven to be moved along Z-direction, the right focus adjustment machine Structure is arranged on the housing and the right T-shaped slide unit can be driven to be moved along Z-direction.

Preferably, the left focal length setting mechanism is left focus adjustment screw rod, and the right focal length setting mechanism is right focal length Adjusting screw rod, the left focus adjustment screw rod and the left T-shaped slide unit screw thread cooperation, the right focus adjustment screw rod and the right side T-shaped slide unit screw thread coordinates.

Preferably, the left interpupillary adjustment mechanism is left interpupillary distance adjusting screw rod, and the right interpupillary adjustment mechanism is right interpupillary distance Adjusting screw rod, the left interpupillary distance adjusting screw rod and the left lens mounting frame screw thread cooperation, the right interpupillary adjustment mechanism and institute Right lens mounting frame screw thread is stated to coordinate.

Preferably, the left interpupillary distance adjusting screw rod, the right interpupillary distance adjusting screw rod and/or the left focus adjustment screw rod, Left regulation wheel is fixed with the right focus adjustment screw rod.

Preferably, left open slot and right open slot are provided with the housing, the left interpupillary distance adjusting screw rod is stuck in the left side In open slot, the right interpupillary distance adjusting screw rod is stuck in the right open slot.

Preferably, left lead column and right lead column are also equipped with the housing, the left lead column is slided with the left T-shaped Platform gap coordinates, and the right lead column coordinates with the right T-shaped slide unit gap.

On the other hand, there is provided a kind of VR equipment, the VR equipment has adjustment structure as described above.

The left lens mounting frame and right lens mounting frame of embodiments of the invention each use independent interpupillary adjustment mechanism And focal length setting mechanism, the images of left and right eyes therefore, it is possible to be directed to user independently carries out interpupillary distance regulation, focus adjustment, makes VR Equipment can be adapted to individual difference, improve versatility and experience.

Embodiments of the invention also have the advantages that simple structure, low cost.

Brief description of the drawings

Next embodiments of the invention will be described in further details with reference to accompanying drawing, wherein：

Fig. 1 is the axonometric drawing of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 2 is the explosive view of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 3 is the first step assembling schematic diagram of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 4 is the second step assembling schematic diagram of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 5 is the 3rd step assembling schematic diagram of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 6 is the 4th step assembling schematic diagram of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 7 is the top view of the adjustment structure for VR equipment of embodiments of the invention；

Fig. 8 is the sectional view along the line A-A in Fig. 7；

Fig. 9 is the sectional view along the line B-B in Fig. 7.

Description of symbols in upper figure：

1st, left regulation wheel, 1-1, the first left regulation wheel, 1-2, the second left regulation wheel, 1-3, the 3rd left regulation wheel, 1-4, the 4th left regulation wheel, 2nd, housing, 2-1, left open slot, 2-2, left lead column, 2-3, right open slot, 2-4, right lead column, 3, adjusting screw rod, 3-1, a left side Interpupillary distance adjusting screw rod, 3-2, left focus adjustment screw rod, 3-3, right focus adjustment screw rod, 3-4, right interpupillary distance adjusting screw rod, 4, T-shaped slide Platform, 4-1, left T-shaped slide unit, 4-2, right T-shaped slide unit, 5, lens mounting frame, 5-1, left lens mounting frame, 5-2, right camera lens are installed Frame.

Specific embodiment

With reference to Fig. 1, for the adjustment structure of VR equipment, including：Left regulation wheel 1, housing 2, adjusting screw rod 3, the and of T-shaped slide unit 4 Lens mounting frame 5.

With reference to Fig. 2.Left regulation wheel 1 for multiple, including the first left regulation wheel 1-1, the second left regulation wheel 1-2, the 3rd left regulation wheel 1-3 and 4th left regulation wheel 1-4.Left open slot 2-1 and right open slot 2-3 is provided with housing 2.Left lead column 2-2 is also equipped with housing 2 With right lead column 2-4.Adjusting screw rod 3 totally four, respectively left interpupillary distance adjusting screw rod 3-1, left focus adjustment screw rod 3-2, right Jiao Away from adjusting screw rod 3-3, right interpupillary distance adjusting screw rod 3-4.Lens mounting frame 5 is two, respectively left lens mounting frame 5-1 and right mirror Head mounting bracket 5-2, for installing optics.T-shaped slide unit 4 is two, respectively left T-shaped slide unit 4-1 and right T-shaped slide unit 4-2. Visible with reference to Fig. 1, left lens mounting frame 5-1 and right lens mounting frame 5-2 are each via single focal length setting mechanism and interpupillary distance Governor motion is installed on housing 2, so that left lens mounting frame 5-1 and right lens mounting frame 5-2 can each with respect to the edge of housing 2 X is moved to Z-direction.In the present embodiment, left lens mounting frame 5-1 and right lens mounting frame 5-2 are logical with respect to the motion of housing 2 Overregulate what screw rod 3 and T-shaped slide unit 4 were realized, but in actual applications, additionally it is possible to realization is driven by motor etc..

With reference to Fig. 2, Fig. 3, in the present embodiment, left interpupillary adjustment mechanism is left interpupillary distance adjusting screw rod 3-1, right interpupillary distance regulation Mechanism is right interpupillary distance adjusting screw rod 3-4, the adjustment structure of embodiments of the invention in assembling, first, left interpupillary distance adjusting screw rod 3-1 coordinates with left lens mounting frame 5-1 screw threads, and right interpupillary adjustment mechanism 3-4 coordinates with right lens mounting frame 5-2 screw threads.As above It is described, also can be using mechanisms such as motors as left interpupillary adjustment mechanism and right interpupillary adjustment mechanism in practical application.

With reference to Fig. 2, Fig. 3 and Fig. 4.The focal length setting mechanism of the present embodiment includes left focal length setting mechanism, right focus adjustment Mechanism.After assembling as shown in Figure 3 is completed, as shown in figure 4, left lens mounting frame 5-1 and left T-shaped slide unit 4-1 is slided matching somebody with somebody Close, the chute of left T-shaped slide unit 4-1 play the guiding role to left lens mounting frame 5-1, by right lens mounting frame 5-2 and right T-shaped slide unit 4-2 is slidably matched, and the chute of right T-shaped slide unit 4-2 play the guiding role to right lens mounting frame 5-2.In the present embodiment, left focal length Governor motion is left focus adjustment screw rod 3-2, and right focal length setting mechanism is right focus adjustment screw rod 3-3, left focus adjustment screw rod 3-2 coordinates with left T-shaped slide unit 4-1 screw threads, and right focus adjustment screw rod 3-3 coordinates with right T-shaped slide unit 4-2 screw threads.Similarly, in reality In, it is also possible to using motor etc. as left focal length setting mechanism and right focal length setting mechanism.

With reference to Fig. 1, Fig. 2, Fig. 4 and Fig. 5.After assembling as shown in Figure 4 is completed, left interpupillary distance adjusting screw rod 3-1 is installed On housing 2 and left interpupillary distance adjusting screw rod 3-1 can drive left lens mounting frame 5-1 along X shown in Fig. 1 to moving, and right pupil It is arranged on housing 2 away from adjusting screw rod 3-4 and right interpupillary distance adjusting screw rod 3-4 can drives right lens mounting frame 5-2 along Fig. 1 institutes Show X to motion.Meanwhile, left focus adjustment screw rod 3-2 is arranged on housing 2 and can drive left T-shaped slide unit 4-1 along Z shown in Fig. 1 To motion, right focus adjustment screw rod 3-3 is arranged on housing 2 and right T-shaped slide unit 4-2 can be driven to be moved along Z-direction shown in Fig. 1. In more detail, left interpupillary distance adjusting screw rod 3-1 is stuck in left open slot 2-1, and right interpupillary distance adjusting screw rod 3-4 is stuck in right open slot 2-3 Interior, left lead column 2-2 coordinates with left T-shaped slide unit 4-1 gaps, guide effect is played, between right lead column 2-4 and right T-shaped slide unit 4-2 Gap coordinates, and plays guide effect.

With reference to Fig. 1, Fig. 5 and Fig. 6, after assembling as shown in Figure 5 is completed, the first left regulation wheel 1-1 is installed to left interpupillary distance It is installed on left focus adjustment screw rod 3-2 on adjusting screw rod 3-1, by the second left regulation wheel 1-2, the 3rd left regulation wheel institute 1-3 is installed Onto right focus adjustment screw rod 3-3, the 4th left regulation wheel 1-4 is installed on right interpupillary distance adjusting screw rod 3-4.So, first is stirred During left regulation wheel 1-1, left interpupillary distance adjusting screw rod 3-1 drives left lens mounting frame 5-1 along X shown in Fig. 1 to moving, and stirs the second tune During section wheel 1-2, left focus adjustment screw rod 3-2 drives left T-shaped slide unit 4-1, left T-shaped slide unit 4-1 to drive left lens mounting frame 5-1 edges The motion of Z-direction shown in 1 on the way.The motion of right lens mounting frame 5-2 is similar with left mechanism's year mounting bracket 5-1, repeats no more.So, Just with simple structure realize left lens mounting frame 5-1, the right respective interpupillary distances of lens mounting frame 5-2, focal length it is separately adjustable, Images of left and right eyes therefore, it is possible to be directed to user independently carries out interpupillary distance regulation, focus adjustment, VR equipment is adapted to individuality Difference, improves versatility and experience.

With reference to Fig. 7 and Fig. 8, the first left regulation wheel 1-1 coordinates with left interpupillary distance adjusting screw rod 3-1 gaps, is bonded with glue, or Both interference fits；4th left regulation wheel 1-4 coordinates with right interpupillary distance adjusting screw rod 3-4 gaps, with glue bonding, or both interference Coordinate.

With reference to Fig. 7 and Fig. 9, left lens mounting frame 5-1, right lens mounting frame 5-2 respectively with left T-shaped slide unit 4-1, right T-shaped Slide unit 4-2 gaps coordinate to realize relative slip；Left focus adjustment screw rod 3-2 and right focus adjustment screw rod 3-3 and the gap of housing 2 Coordinate, to realize rotational positioning.

VR equipment with adjustment structure as described above, can preferably meet the individual demand of user, two Eye pupil away from, myopia degree it is different when can improve the experience of user to being adjusted respectively for images of left and right eyes.

Embodiments of the invention also have the advantages that simple structure, low cost.Above description is only preferable reality of the invention Example is applied, not for limiting the scope that the present invention is implemented, the equivalence replacement done to above-described embodiment and modification, this all should be fallen within In the claims of invention.

Claims (8)

1. a kind of adjustment structure for VR equipment, it is characterised in that including：

Housing；

Left lens mounting frame, right lens mounting frame；

The left lens mounting frame and the right lens mounting frame are each via single focal length setting mechanism and interpupillary distance regulation machine Structure is installed on the housing, so that the left lens mounting frame and the right lens mounting frame being capable of respective relatively described housings Moved to Z-direction along X.

2. adjustment structure according to claim 1, it is characterised in that also including left T-shaped slide unit and right T-shaped slide unit；It is described Focal length setting mechanism includes left focal length setting mechanism, right focal length setting mechanism；The interpupillary adjustment mechanism is adjusted including left interpupillary distance Mechanism, right interpupillary adjustment mechanism；The left lens mounting frame is slidably matched with the left T-shaped slide unit, the right lens mounting frame It is slidably matched with the right T-shaped slide unit, the left interpupillary adjustment mechanism is arranged on the housing and can drive the left mirror Along X to moving, the right interpupillary adjustment mechanism is arranged on the housing and the right camera lens can be driven to install head mounting bracket Along X to moving, the left focal length setting mechanism is arranged on the housing and the left T-shaped slide unit can be driven to be transported along Z-direction frame Dynamic, the right focal length setting mechanism is arranged on the housing and the right T-shaped slide unit can be driven to be moved along Z-direction.

3. adjustment structure according to claim 2, it is characterised in that the left focal length setting mechanism is left focus adjustment spiral shell Bar, the right focal length setting mechanism is right focus adjustment screw rod, and the left focus adjustment screw rod is matched somebody with somebody with the left T-shaped slide unit screw thread Close, the right focus adjustment screw rod coordinates with the right T-shaped slide unit screw thread.

4. the adjustment structure according to Claims 2 or 3, it is characterised in that the left interpupillary adjustment mechanism is that left interpupillary distance is adjusted Section screw rod, the right interpupillary adjustment mechanism is right interpupillary distance adjusting screw rod, and the left interpupillary distance adjusting screw rod is installed with the left camera lens Frame screw thread coordinates, and the right interpupillary adjustment mechanism coordinates with the right lens mounting frame screw thread.

5. adjustment structure according to claim 4, it is characterised in that the left interpupillary distance adjusting screw rod, the right interpupillary distance are adjusted Left regulation wheel is fixed with section screw rod and/or the left focus adjustment screw rod, the right focus adjustment screw rod.

6. adjustment structure according to claim 4, it is characterised in that left open slot and right opening are provided with the housing Groove, the left interpupillary distance adjusting screw rod is stuck in the left open slot, and the right interpupillary distance adjusting screw rod is stuck in the right open slot.

7. adjustment structure according to claim 2, it is characterised in that left lead column is also equipped with the housing and the right side is led Xiang Zhu, the left lead column coordinates with the left T-shaped slide unit gap, and the right lead column coordinates with the right T-shaped slide unit gap.

8. a kind of VR equipment, it is characterised in that the VR equipment has the regulation knot as any one of claim 1 to 7 Structure.