CN205844646U - The interpupillary adjustment mechanism of a kind of virtual reality device and virtual reality device - Google Patents

Abstract

The utility model discloses the interpupillary adjustment mechanism of a kind of virtual reality device.This virtual reality device includes optics module and for installing the fixed mount of described optics module.Described optics module includes left optical module and right optical module, the interpupillary adjustment mechanism of described virtual reality device includes the regulation arm of force for regulating the distance between left optical module and right optical module, the described regulation arm of force have be pivotally connected on described fixed mount first end, for the manual the second end promoting operation and the connecting portion being flexibly connected with described optics module, described connecting portion is between described first end and described the second end.The interpupillary adjustment mechanism of virtual reality device of the present utility model, uses force arm type dual governor motion, and arm of force shape can be adjusted flexibly design, simple in construction according to practical structures, regulate easy to operate.

Description

The interpupillary adjustment mechanism of a kind of virtual reality device and virtual reality device

Technical field

This utility model relates to interpupillary adjustment mechanism and the virtual reality device of a kind of virtual reality device.

Background technology

Along with the appearance of virtual reality all-in-one form, structure becomes increasingly complex, and the interpupillary distance of optical glass is regulated problem Become increasingly conspicuous.The regulation of virtual reality all-in-one interpupillary distance be in order to can the interpupillary distance of a product adaptation different people, band interpupillary distance regulates Function has become as one necessary functions of field of virtual reality, but present interpupillary distance adjustment structure is complicated, regulation operation inconvenience.

Utility model content

The purpose of this utility model is, it is provided that the interpupillary adjustment mechanism of a kind of virtual reality device, makes virtual reality fill The interpupillary adjustment mechanism simple in construction put, convenient operation.

This utility model is achieved through the following technical solutions: the interpupillary adjustment mechanism of a kind of virtual reality device, and this is virtual Real device includes optics module and for installing the fixed mount of described optics module, and described optics module includes left optical module With right optical module, the interpupillary adjustment mechanism of described virtual reality device includes for regulating left optical module and right optical module Between the regulation arm of force of distance, the described regulation arm of force have be pivotally connected on described fixed mount first end, for hands Work promotes the second end of operation and the connecting portion that is flexibly connected with described optics module, and described connecting portion is in described the Between one end and described the second end.

As the further improvement of technique scheme, the quantity of the described regulation arm of force is two and is respectively for regulating The left regulating arm of the lateral attitude of left optical module and for regulating the right regulating arm of lateral attitude of right optical module.

As the further improvement of technique scheme, the interpupillary adjustment mechanism of described virtual reality device also includes sliding Assembly, described slide assemblies includes that slider and slide, described slider are arranged on slide and are flexibly connected with described the second end, Described slide is arranged on described fixed mount, and described slide has the slide opening of the sliding rail as described slider.

As the further improvement of technique scheme, first paragraph that the described regulation arm of force includes integrally connecting, second segment, And the 3rd section, described second segment extends towards first direction from first paragraph, and described 3rd section extends towards second direction from second segment, Described first direction is contrary with described second direction, and described connecting portion is in the position, boundary of described first paragraph Yu described second segment Put.

As the further improvement of technique scheme, the described regulation arm of force extends straight shape on the whole.

As the further improvement of technique scheme, described connecting portion is that first extended in vertical direction is elongated Hole, described optics module is provided with first coordinated with the first elongated hole and is connected post.

As the further improvement of technique scheme, it is long that described the second end has second extended in vertical direction Shape hole, described slider is provided with second coordinated with the second elongated hole and is connected post.

As the further improvement of technique scheme, the interpupillary adjustment mechanism of described virtual reality device also include for Guide the guidance set that described optics module transversely translates.

As the further improvement of technique scheme, described guidance set includes gathering sill, lower gathering sill, upper guiding Post and lower lead, described upper gathering sill and described lower gathering sill lay respectively on described optics module, described upper lead and Described lower lead is positioned on described fixed mount.

According on the other hand, this utility model provides a kind of virtual reality device, and it includes above-mentioned virtual reality device Interpupillary adjustment mechanism.The beneficial effects of the utility model are: the interpupillary adjustment mechanism of virtual reality device of the present utility model In, using force arm type dual interpupillary adjustment mechanism, arm of force shape can be adjusted flexibly design, simple in construction, regulation according to practical structures Easy to operate.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the interpupillary adjustment mechanism of the virtual reality device according to first embodiment of the present utility model；

Fig. 2 is that the interpupillary adjustment mechanism of the virtual reality device according to first embodiment of the present utility model removes fixed mount After schematic diagram；

Fig. 3 is the left regulating arm of the interpupillary adjustment mechanism of the virtual reality device according to first embodiment of the present utility model Schematic diagram；

Fig. 4 is the right regulating arm of the interpupillary adjustment mechanism of the virtual reality device according to first embodiment of the present utility model Schematic diagram；

Fig. 5 is the regulation arm of force of the interpupillary adjustment mechanism of the virtual reality device according to the second embodiment of the present utility model Schematic diagram；

Fig. 6 is the exploded pictorial of the interpupillary adjustment mechanism of the virtual reality device according to first embodiment of the present utility model Figure；

Fig. 7 is the schematic perspective view of a kind of virtual reality device provided according to this utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing in embodiment of the present utility model, the technical scheme in this utility model embodiment is carried out Clearly and completely describing, the example of described embodiment is shown in the drawings, and the most same or similar label represents Same or similar element or there is the element of same or like function.Obviously, described embodiment is only that this practicality is new The a part of embodiment of type rather than whole embodiments.Generally implement with this utility model illustrated described in accompanying drawing herein The assembly of example can be arranged with various different configurations and design.Therefore, below to this utility model provided in the accompanying drawings The detailed description of embodiment be not intended to limit claimed scope of the present utility model, but be merely representative of this practicality Novel selected embodiment.Based on embodiment of the present utility model, those skilled in the art are not making creative work The every other embodiment obtained under premise, broadly falls into the scope of this utility model protection.

First embodiment

First, referring to figs. 1 through Fig. 4, the interpupillary distance of the virtual reality device that first embodiment of the present utility model relates to is regulated Mechanism illustrates.

As shown in Fig. 1 to Fig. 2, Fig. 6, the interpupillary adjustment mechanism 2 of the virtual reality device of the present embodiment is used in virtual existing During actual load is put, it is used for regulating interpupillary distance.This virtual reality device includes optics module 24 and for installing the fixing of optics module 24 Frame 25.Certainly, those of ordinary skill in the art are clear from, and this virtual reality device also includes shell, headband etc..

In the present embodiment, described fixed mount 25 is integrated part.Described optics module 24 includes left optical module 241 and the right side Optical module 242, is respectively arranged in the both sides of described fixed mount 25.Left optical module 241 or right optical module 242 are the most extremely Few one piece of eyeglass.It is understood that the fixed mount 25 being capable of fixation is used equally to this utility model, it is not limited to figure Fixed mount in showing.

In the present embodiment, the interpupillary adjustment mechanism 2 of described virtual reality device includes for regulating left optical module 241 And the regulation arm of force of the distance between right optical module 241.And, in the present embodiment, the quantity of the described regulation arm of force is two Individual, structure is similar.The described regulation arm of force be respectively for regulate left optical module lateral attitude left regulating arm 211 and use Right regulating arm 212 in the lateral attitude regulating right optical module.

Specifically, in the present embodiment, the described regulation arm of force is respectively the horizontal position for regulating left optical module 241 The left regulating arm 211 put and for regulating the right regulating arm 212 of the lateral attitude of right optical module 242.Left regulating arm 211 Identical with right regulating arm 212 structure, it is symmetrical arranged in an opposing fashion.Certainly, in other embodiments, left tune can be only set Joint arm, or, right regulating arm is only set.

As it is shown on figure 3, described left regulating arm 211 is arranged at the left side of fixed mount 25.Left regulating arm 211 has pivotally connected First end 2131 on described fixed mount 25, for the manual the second end 2133 promoting operation and with described left light Learn the connecting portion 2132 that assembly is flexibly connected.Described connecting portion 2132 is positioned at described first end 2131 and described the second end Between 2133, it is the first elongated hole extended in vertical direction, first connect post 2151 can in connecting portion 2132, Move on vertical direction.

Described the second end 2133 has the second elongated hole 2135 extended in vertical direction, corresponding on slider described later Be provided with and second be connected post 2152 with the second elongated hole 2135 coordinates.

Additionally, as it is shown on figure 3, left regulating arm 211 include integrally connecting first paragraph 2141, second segment 2142, Yi Ji Three section 2143.Described second segment 2142 extends towards the 1st direction (drawing right) from first paragraph 2141, described 3rd section 2143 from the Two-stage nitration 2142 extends towards the 2nd direction (drawing left).Described 1st direction is 2nd in opposite direction with described, this compact conformation, and During interpupillary distance regulates, this structure can farthest reduce the resistance of motion of optical lens, makes the regulation of interpupillary distance more Add smooth.

Specifically, wherein, the first end 2131 being positioned at left regulating arm 211 upper end is rotatably pacified by pivot Being contained on fixed mount 25, the second end 2133 being positioned at lower end is connected with slider 221 by the second connection post 2152, is positioned at the One end 2131 is connected with left optical module 241 by the first connection post 2151 with the connecting portion 2132 in the middle of the second end 2133 Connect.

As shown in Figure 4, described right regulating arm 212 is installed on the right side of fixed mount 25.Right regulating arm 212 has pivot even Be connected on the first end 2231 on described fixed mount 25, for the manual the second end 2233 promoting operation and with the described right side The connecting portion 2232 that optical module is flexibly connected.Described connecting portion 2232 is positioned at described first end 2231 and described the second end Between 2233, it is the first elongated hole extended in vertical direction, first connect post 2151 can in connecting portion 2132, Move on vertical direction.

Described the second end 2233 has the second elongated hole 2235 extended in vertical direction, corresponding on slider described later Be provided with and second be connected post 2252 with the second elongated hole 2235 coordinates.

Additionally, as it is shown on figure 3, right regulating arm 212 include integrally connecting first paragraph 2241, second segment 2242, Yi Ji Three section 2243.Described second segment 2242 from first paragraph 2241 towards first direction (drawing left) extend, described 3rd section 2243 from Second segment 2242 extends towards second direction (drawing right).Described first direction is contrary with described second direction, this compact conformation, And during interpupillary distance regulates, this structure can farthest reduce the resistance of motion of optical lens, makes the tune of interpupillary distance Save more smooth.

Specifically, wherein, the first end 2231 of right regulating arm 212 upper end can be freely mounted to fix by pivot On frame 25, the second end 2233 of lower end is connected with slider 221 by the second connection post 2252, is positioned at first end 2231 He Connecting portion 2232 in the middle of the second end 2233 is connected with right optical module 242 by the first connection post 2251.

The optical module of the right and left is all installed the regulation arm of force, so can adjust two the optics groups in left and right simultaneously The lateral attitude of part or only adjustment one optical module of left or right, can be adjusted flexibly interpupillary distance, regulate smooth and easy, and comfortable feel is adjusted Joint precision is high.

Refering to Fig. 1 to Fig. 4, described connecting portion 2132 is the first elongated hole extended in vertical direction, described optical mode It is provided with first coordinated with the first elongated hole on the left optical module 241 of group 24 and is connected post 2151.Described the second end 2133 For the second elongated hole extended in vertical direction, described slider 221 is provided with second coordinated with the second elongated hole and is connected Post 2152.During interpupillary distance regulates, because connecting portion 2132 and the second end 2133 are the elongated of extension on vertical direction Hole, described first connection post 2151 and the second connection post 2152 can move up and down, so connecting optics module in elongated hole The first connection post 2151 and the second connection post 2152 of connection slider 221 on the left optical module 241 of 24 can be all the time at horizontal strokes Translational motion is done so that optics module 24 translates the most in a lateral direction during the regulation of interpupillary distance, so on direction Can effectively solve the problem that slide optic module is because sealing the movable resistance that structure is brought.

As in figure 2 it is shown, in the present embodiment, the interpupillary adjustment mechanism 2 of described virtual reality device also includes slide assemblies 22, described slide assemblies 22 includes slider 221 and slide 222；Described slider 221 one end is by the second connection post 2152 and regulation The second end (the second end 2133 of left regulating arm, the second end 2233 of right regulating arm) of the arm of force connects, and the other end is installed On slide 222, the rotation of the arm of force can be driven by slip slider 221.Described slide 222 is arranged on fixed mount 25, It is positioned at the lower section of described optics module 24, described slide 222 has the slide opening 223 of sliding rail as described slider 221, Make the slider 221 slip on slide 222 more smooth and easy, more laborsaving, slider 221 can be reduced and control the slip of optical lens Resistance.

Additionally, as in figure 2 it is shown, in the present embodiment, the interpupillary adjustment mechanism 2 of described virtual reality device also include for Guide the guidance set 23 that the left optical module 241 of described optics module 24 and right optical module 242 translate in transverse direction.Its In, in the present embodiment, described guidance set 23 include gathering sill 2311, lower gathering sill 2321, upper lead 2312 and under lead To post 2322；Described upper gathering sill 2311 and described lower gathering sill 2321 lay respectively on described optics module 24；Lead on described It is arranged on described fixed mount 25 to post 2312 and described lower lead 2322, described upper lead 2312 and described lower guiding Post 2322 is arranged in gathering sill 2311 and described lower gathering sill 2321 respectively.During interpupillary distance regulates, it is arranged in and leads Lead in groove can limit the movement of optics module 24, remains and translates in a lateral direction, and limits optics module The displacement of 24, make balance that interpupillary distance regulates and stability to improving.

The following is the exemplary use process of the interpupillary adjustment mechanism 2 of the present embodiment.The pupil of described virtual reality device Distance regulating mechanism 2, is mounted on a kind of virtual reality device use, for controlling to adjust the interpupillary distance of virtual reality device. By promoting slider 221 to drive the regulation arm of force (left regulating arm or right regulating arm) to rotate, thus drive left optical module 241 or the right side Optical module 242 is moved to the effect of interpupillary distance regulation.Such as needing to expand interpupillary distance, user need to pin slider 221 by it to far Pushing from the direction (the most outside) of the bridge of the nose, slider 221 outwards pushes and drives the regulation arm of force being connected with slider 221 outside Rotating, connection slider 221 is connected post 2152 with the second of the regulation arm of force and can move upward along the second end 2133, regulates the arm of force Rotation drive connected left optical module 241 or right optical module 242 to move out together, connect the regulation arm of force with left Optical module 241 and right optical module 242 first connect post 2151 and can move upward along connecting portion.The guiding of guidance set 23 Post is arranged in the gathering sill on optics module 24, is eventually blocked by lead along with optics module 24 moves out gathering sill Can not move out again.

It should be noted that this utility model not only refers to this kind of embodiment, it is explained below of the present utility model Other a kind of embodiments.

Second embodiment

Then, the interpupillary adjustment mechanism 2a of the virtual reality device that the second embodiment of the present utility model relates to is said Bright.Additionally, unless stated otherwise, the composition of the interpupillary adjustment mechanism 2 of the virtual reality device that the second embodiment relates to, with In one embodiment, the composition with reference to figure explanation is identical.Hereinafter, main interpupillary distance to the virtual reality device that the second embodiment relates to Composition parts different from first embodiment in the composition of governor motion illustrates, to virtual existing with what first embodiment related to The structure that interpupillary adjustment mechanism 2 that actual load is put is identical carries out schematic illustration.

As it is shown in figure 5, identical with first embodiment, described regulation arm of force 21a has and is pivotally connected on described fixed mount First end 2131a, for the manual the second end 2133a promoting operation and be flexibly connected with described optics module Connecting portion 2132a, described connecting portion 2132a is between described first end 2131a and described the second end 2133a.With Difference in one embodiment, in the second embodiment, the regulation arm of force of the interpupillary adjustment mechanism of the virtual reality device of the second embodiment 21a includes first paragraph 2141a, the second segment 2142a integrally connected, for linearly to prolong between first paragraph 2141a and second segment 2142a Stretching relation, in other words, the angle between first paragraph 2141a and second segment 2142a is 180 degree.The structure letter of this regulation arm of force Single, it is simple to produce, lower structure design difficulty.

According on the other hand, this utility model also provides for a kind of virtual reality device 1000, as it is shown in fig. 7, it includes The interpupillary adjustment mechanism of the virtual reality device stated.

In description of the present utility model, it is to be understood that term " first ", " second " etc. are only used for describing purpose, And it is not intended that indicate or hint relative importance.For the ordinary skill in the art, can manage with concrete condition Solve above-mentioned term concrete meaning in this utility model.Additionally, in description of the present utility model, except as otherwise noted, " many Individual " it is meant that two or more.

Embodiment the most of the present utility model, it will be understood by those skilled in the art that: In the case of without departing from principle of the present utility model and objective, these embodiments can be carried out multiple change, revise, replace And modification, scope of the present utility model is limited by claim and equivalent thereof.

Claims (10)

1. an interpupillary adjustment mechanism for virtual reality device, this virtual reality device includes optics module and described for installing The fixed mount of optics module, it is characterised in that described optics module includes left optical module and right optical module, described virtual existing The interpupillary adjustment mechanism that actual load is put includes the regulation arm of force for regulating the distance between left optical module and right optical module, institute State the second end that the regulation arm of force has the first end being pivotally connected on described fixed mount, promotes operation for manual, with And the connecting portion being flexibly connected with described optics module, described connecting portion in described first end and described the second end it Between.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 1, it is characterised in that the described regulation arm of force Quantity be two and be respectively the left regulating arm for the lateral attitude that regulates left optical module and for regulating right optics group The right regulating arm of the lateral attitude of part.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 2, it is characterised in that described virtual reality fills The interpupillary adjustment mechanism put also includes that slide assemblies, described slide assemblies include that slider and slide, described slider are arranged on slide Above and being flexibly connected with described the second end, described slide is arranged on described fixed mount, and described slide has as described cunning The slide opening of the sliding rail of button.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 3, it is characterised in that described the second end has There is the second elongated hole extended in vertical direction, described slider is provided with second coordinated with the second elongated hole and is connected post.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 2, it is characterised in that described regulation arm of force bag Including first paragraph, second segment and the 3rd section that one connects, described second segment extends towards first direction from first paragraph, and described the Three sections extend towards second direction from second segment, and described first direction is contrary with described second direction, and described connecting portion is in described First paragraph and the position, boundary of described second segment.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 1, it is characterised in that the described regulation arm of force is whole Shape is extended straight on body.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 1, it is characterised in that described connecting portion be The first elongated hole extended on vertical direction, described optics module is provided with first coordinated with the first elongated hole and is connected post.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 1, it is characterised in that described virtual reality fills The interpupillary adjustment mechanism put also includes the guidance set for guiding described optics module transversely to translate.

The interpupillary adjustment mechanism of virtual reality device the most according to claim 8, it is characterised in that described guidance set bag Include gathering sill, lower gathering sill, upper lead and lower lead, described upper gathering sill and described lower gathering sill and lay respectively at described On optics module, described upper lead and described lower lead are positioned on described fixed mount.

10. a virtual reality device, it is characterised in that include virtual reality device described in any one of claim 1 to 9 Interpupillary adjustment mechanism.