CN212321986U - VR glasses of adjustable diopter - Google Patents
VR glasses of adjustable diopter Download PDFInfo
- Publication number
- CN212321986U CN212321986U CN202021378735.5U CN202021378735U CN212321986U CN 212321986 U CN212321986 U CN 212321986U CN 202021378735 U CN202021378735 U CN 202021378735U CN 212321986 U CN212321986 U CN 212321986U
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- sleeve
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- 239000011521 glass Substances 0.000 title claims abstract description 28
- 230000003287 optical effect Effects 0.000 claims abstract description 79
- 230000006978 adaptation Effects 0.000 description 8
- 230000015572 biosynthetic process Effects 0.000 description 2
- 238000003384 imaging method Methods 0.000 description 2
- 230000004379 myopia Effects 0.000 description 2
- 208000001491 myopia Diseases 0.000 description 2
- 230000007613 environmental effect Effects 0.000 description 1
- 230000004438 eyesight Effects 0.000 description 1
- 238000007654 immersion Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000004088 simulation Methods 0.000 description 1
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Abstract
The utility model relates to a VR glasses of adjustable diopter, including preceding face guard and back cover, set up first optics module and second optics module between preceding face guard and the back cover, first optics module includes first main part, first main part one side is the hollow cylinder structure, first main part one side outer wall sets up first arch, first arch is the cylinder structure, first optics module outside sets up can carry out the first sleeve of rotation in its outside, first sleeve sets up in first main part outsidely, first sleeve outer wall sets up first slide, first arch sets up inside first slide, first sleeve lower extreme sets up the second arch, the protruding lower extreme of second sets up first button that pushes away. Can directly promote the change that optical lens piece rotated and preceding back distance through pushing away the button, make that the diopter of VR glasses can be convenient adjust, and the simple and convenient space of having saved a large amount of VR glasses main parts of structure for the volume of VR glasses main part can be more frivolous, and the operation is got up succinctly more conveniently.
Description
Technical Field
The utility model relates to a virtual reality field, concretely relates to VR glasses of adjustable diopter.
Background
The virtual reality technology, abbreviated as VR in English and also called smart technology, is a brand new technology developed in the 20 th century, and comprises a computer, electronic information and simulation technology, and the basic implementation mode is that the computer simulates a virtual environment so as to provide people with environmental immersion.
VR glasses are when using, often need carry out the regulation of position to optical lens for the user of different eyesight can be better use VR glasses, but current VR glasses are when adjusting diopter, and is comparatively loaded down with trivial details through the structure, makes adjustment mechanism occupy great space, makes whole equipment frivolous inadequately, and it is not convenient enough when adjusting diopter to have some existing equipment in addition, influences user's use impression.
SUMMERY OF THE UTILITY MODEL
In view of the above, there is a need to provide VR glasses with adjustable diopter.
A VR glasses with diopter adjustable comprises a front face cover and a rear face cover, wherein the front face cover and the rear face cover are fixedly connected and form a cavity structure, a first optical module and a second optical module are arranged between the front face cover and the rear face cover, the first optical module comprises a first main body, one side of the first main body is of a hollow cylinder structure, a first bulge is arranged on the outer wall of one side of the first main body and is of a cylindrical structure, a first sleeve capable of rotating outside the first optical module is arranged outside the first optical module, the first sleeve is arranged outside the first main body, a first slide way is arranged on the outer wall of the first sleeve, the first bulge is arranged inside the first slide way, a second bulge is arranged at the lower end of the first sleeve, a first push button is arranged at the lower end of the second bulge, the second optical module comprises a second main body, and a second sleeve identical to the first sleeve is arranged on one side of the second main body, one side of the second main body is provided with a hollow cylinder structure, the structure of the hollow cylinder structure is the same as that of the side part of the first optical module, the lower end of the second optical module is provided with a third bulge, and the lower end of the third bulge is provided with a second push button.
Furthermore, a first round hole and a second round hole are formed in the middle of the rear cover, the first round hole and the second round hole are identical in structure and are arranged oppositely, the first round hole is located on one side of the first sleeve, and the second round hole is located on one side of the second optical module.
Further, the cross section of the first slideway is of an oval structure, and an inner included angle between the central axis and the side edge of the first sleeve is larger than 0 degree.
Furthermore, the number of the first slide ways is 3, and the 3 first slide ways are uniformly distributed on the outer wall of the first sleeve at the same interval.
Furthermore, the lower end of the rear face cover is provided with a first groove matched with the first push button, and one side of the first groove is provided with a second groove matched with the second push button.
Furthermore, the first push button and the second push button have the same structure, and a third protrusion is arranged at the lower end of the first push button.
This VR glasses of adjustable diopter can directly promote the change that optical lens rotated and back-and-forth distance through pushing away the button for the diopter of VR glasses can be convenient adjust, and the structure has simply saved the inside space of a large amount of VR glasses, makes the volume of VR glasses main part can be more frivolous, and operates succinctly more convenient.
Drawings
Fig. 1 is an exploded view of the VR glasses with adjustable diopter of the present invention.
Fig. 2 is the utility model discloses in the structure sketch map of VR glasses of adjustable diopter.
The optical module comprises a front cover 1, a rear cover 2, a first optical module 3, a second optical module 4, a first main body 5, a first sleeve 6, a first push button 7, a second push button 8, a first round hole 9, a second round hole 10, a first groove 11, a second groove 12, a second protrusion 13 and a third protrusion 14.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples.
Example one
VR glasses with adjustable diopter comprises a front cover 1 and a rear cover 2 which form a glasses main body structure, the front cover 1 and the rear cover 2 are fixedly connected and form a cavity structure, a first optical module 3 and a second optical module 4 are arranged in the cavity structure between the front cover 1 and the rear cover 2, the first optical module 3 and the second optical module 4 are oppositely arranged, wherein the first optical module 3 comprises a first main body 5, the first main body 5 is vertically arranged, one side of the first main body 5 facing the rear cover 2 is of a fixed hollow cylinder structure, a first bulge is arranged on the outer wall of the hollow cylinder structure of the first main body 5, the first bulge is of a cylinder structure, a first sleeve 6 which can rotate and can stretch back and forth is arranged outside the hollow cylinder structure of the first optical module 3, an optical lens is arranged in the middle of the first sleeve 6, the utility model is used for enabling the user to watch the imaging of virtual reality through the optical lens, wherein the outside of the first sleeve 6 is provided with a first slideway, the purpose that the first sleeve 6 moves telescopically outside the first main body 5 is realized through the arrangement of the first slideway and a first bulge, when the first sleeve 6 rotates towards the rear face mask 2, the closer the distance between the optical lens and the eyes of the user is, the myopia-resistant user is suitable, the diopter adjustment is realized through adjusting the distance between the first sleeve 6 and the eyes of the user, wherein the first slideway has a certain inclination angle, when the first sleeve 6 rotates outside the first main body 5, the front and back position change can be carried out, the lower end of the first sleeve 6 is provided with a second bulge 13, the lower end of the second bulge 13 is provided with a first push button 7, the second bulge 13 can be arranged in the first push button 7, when the first push button 7 slides to the left, can drive the protruding 13 of second and realize around and the removal of controlling, when the protruding 13 of second removes, can drive first sleeve 6 and rotate and carry out the position removal around going on, second optical module 4 includes the second main part, second main part sets up hollow cylinder structure towards 2 one sides of back face guard, this hollow cylinder structure is the same with the hollow cylinder structure of 5 one sides of first main part, and the outside second cylinder that sets up of second main part, second cylinder structure is the same with first cylinder structure, make the change of position around optical lens on the second optical module 4 can realize equally through second push button 8, thereby realize the regulation of diopter.
The middle part of back face guard 2 sets up first round hole 9 and second round hole 10, and first round hole 9 is the same with the structure of second round hole 10 and sets up relatively, the size of first round hole 9 and the big or small looks adaptation of the optical lens in the first sleeve 6 on the first optical module 3, and first round hole 9 is located first sleeve 6 one side, and second round hole 10 is located second optical module 4 one side for the user can conveniently observe the formation of image of first optical module 3 and second optical module 4.
The cross-section of first slide is oval shape, and the interior contained angle of the axis of the oval cross-section's of first slide long side direction and the side of first sleeve 6 is greater than 0, thereby make oval first slide be the setting of skew angle on first sleeve 6, thereby make first sleeve 6 rotate in the outside of first main part 5, not only can be in the rotation of first slide, the removal of position around can also realizing, the structure of second optical module 4 is roughly the same with first optical module 3's structure, and set up the slide equally, make the last optical lens of second optical module 4 can realize the removal of front and back.
The number of first slide is 3, and 3 first slides are at the outer wall of first sleeve 6 according to same interval equipartition, the outer wall of the hollow cylinder structure of one side of first main part 5 of first optical assembly sets up 3 first archs with first slide adaptation equally, 3 first archs set up in 3 first slides, set up 3 first archs and 3 first slides, make first sleeve 6 more stable in whole first optical module 3's structure when rotating and removing, and set up 3 first archs equally on the second optical module 4, and set up 3 second slides of using with it equally on the second sleeve, make second sleeve on second optical module 4 more stable when rotating and removing.
The lower extreme of back face guard 2 sets up the first recess 11 with first push button 7 adaptation, first push button 7 sets up in first recess 11, make first push button 7 can move about first recess 11, one side of first recess 11 sets up the second recess 12 with second push button 8 adaptation, first recess 11 is the same with second recess 12's structure, make the second push button 8 can move in second recess 12, first recess 11 and second recess 12 can restrict first push button 7 and the second range of motion that pushes away button 8, make first push button 7 and second push button 8 can be normal adjust the diopter scope of first optical module 3 and second optical module 4.
Example two
VR glasses with adjustable diopter comprises a front cover 1 and a rear cover 2 which form a glasses main body structure, the front cover 1 and the rear cover 2 are fixedly connected and form a cavity structure, a first optical module 3 and a second optical module 4 are arranged in the cavity structure between the front cover 1 and the rear cover 2, the first optical module 3 and the second optical module 4 are oppositely arranged, wherein the first optical module 3 comprises a first main body 5, the first main body 5 is vertically arranged, one side of the first main body 5 facing the rear cover 2 is of a fixed hollow cylinder structure, a first bulge is arranged on the outer wall of the hollow cylinder structure of the first main body 5, the first bulge is of a cylinder structure, a first sleeve 6 which can rotate and can stretch back and forth is arranged outside the hollow cylinder structure of the first optical module 3, an optical lens is arranged in the middle of the first sleeve 6, the utility model is used for enabling the user to watch the imaging of virtual reality through the optical lens, wherein the outside of the first sleeve 6 is provided with a first slideway, the purpose that the first sleeve 6 moves telescopically outside the first main body 5 is realized through the arrangement of the first slideway and a first bulge, when the first sleeve 6 rotates towards the rear face mask 2, the closer the distance between the optical lens and the eyes of the user is, the myopia-resistant user is suitable, the diopter adjustment is realized through adjusting the distance between the first sleeve 6 and the eyes of the user, wherein the first slideway has a certain inclination angle, when the first sleeve 6 rotates outside the first main body 5, the front and back position change can be carried out, the lower end of the first sleeve 6 is provided with a second bulge 13, the lower end of the second bulge 13 is provided with a first push button 7, the second bulge 13 can be arranged in the first push button 7, when the first push button 7 slides to the left, can drive the protruding 13 of second and realize around and the removal of controlling, when the protruding 13 of second removes, can drive first sleeve 6 and rotate and carry out the position removal around going on, second optical module 4 includes the second main part, second main part sets up hollow cylinder structure towards 2 one sides of back face guard, this hollow cylinder structure is the same with the hollow cylinder structure of 5 one sides of first main part, and the outside second cylinder that sets up of second main part, second cylinder structure is the same with first cylinder structure, make the change of position around optical lens on the second optical module 4 can realize equally through second push button 8, thereby realize the regulation of diopter.
The middle part of back face guard 2 sets up first round hole 9 and second round hole 10, and first round hole 9 is the same with the structure of second round hole 10 and sets up relatively, the size of first round hole 9 and the big or small looks adaptation of the optical lens in the first sleeve 6 on the first optical module 3, and first round hole 9 is located first sleeve 6 one side, and second round hole 10 is located second optical module 4 one side for the user can conveniently observe the formation of image of first optical module 3 and second optical module 4.
The cross-section of first slide is oval shape, and the interior contained angle of the axis of the oval cross-section's of first slide long side direction and the side of first sleeve 6 is greater than 0, thereby make oval first slide be the setting of skew angle on first sleeve 6, thereby make first sleeve 6 rotate in the outside of first main part 5, not only can be in the rotation of first slide, the removal of position around can also realizing, the structure of second optical module 4 is roughly the same with first optical module 3's structure, and set up the slide equally, make the last optical lens of second optical module 4 can realize the removal of front and back.
The number of first slide is 3, and 3 first slides are at the outer wall of first sleeve 6 according to same interval equipartition, the outer wall of the hollow cylinder structure of one side of first main part 5 of first optical assembly sets up 3 first archs with first slide adaptation equally, 3 first archs set up in 3 first slides, set up 3 first archs and 3 first slides, make first sleeve 6 more stable in whole first optical module 3's structure when rotating and removing, and set up 3 first archs equally on the second optical module 4, and set up 3 second slides of using with it equally on the second sleeve, make second sleeve on second optical module 4 more stable when rotating and removing.
The lower extreme of back face guard 2 sets up the first recess 11 with first push button 7 adaptation, first push button 7 sets up in first recess 11, make first push button 7 can move about first recess 11, one side of first recess 11 sets up the second recess 12 with second push button 8 adaptation, first recess 11 is the same with second recess 12's structure, make the second push button 8 can move in second recess 12, first recess 11 and second recess 12 can restrict first push button 7 and the second range of motion that pushes away button 8, make first push button 7 and second push button 8 can be normal adjust the diopter scope of first optical module 3 and second optical module 4.
The structure of the first push button 7 is the same as that of the second push button 8, the lower end of the first push button 7 is provided with a third protrusion 14, the third protrusion 14 can facilitate the operation of the first push button 7 by the hand of a user, and the lower end of the second push button 8 is provided with a fourth push button having the same structure as the third protrusion 14.
The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description in any form, and although the present invention has been disclosed with reference to the preferred embodiment, it is not limited to the present invention, and any skilled person in the art can make modifications or changes equivalent to the equivalent embodiment of the above embodiments without departing from the scope of the present invention.
Claims (6)
1. A VR glasses with diopter adjustable comprises a front face cover and a rear face cover, wherein the front face cover and the rear face cover are fixedly connected and form a cavity structure, a first optical module and a second optical module are arranged between the front face cover and the rear face cover, the first optical module comprises a first main body, one side of the first main body is of a hollow cylinder structure, a first bulge is arranged on the outer wall of one side of the first main body, the first bulge is of a cylindrical structure, a first sleeve capable of rotating outside the first optical module is arranged outside the first optical module, the first sleeve is arranged outside the first main body, a first slide way is arranged on the outer wall of the first sleeve, the first bulge is arranged inside the first slide way, a second bulge is arranged at the lower end of the first sleeve, a first push button is arranged at the lower end of the second bulge, the second optical module comprises a second main body, the optical module is characterized in that a second sleeve identical to the first sleeve is arranged on one side of the second main body, a hollow cylinder structure is arranged on one side of the second main body, the structure is identical to the structure of the side portion of the first optical module, a third bulge is arranged at the lower end of the second optical module, and a second push button is arranged at the lower end of the third bulge.
2. The diopter adjustable VR glasses of claim 1, wherein a first circular hole and a second circular hole are formed in a middle portion of the rear cover, the first circular hole and the second circular hole are identical in structure and opposite to each other, the first circular hole is located on one side of the first sleeve, and the second circular hole is located on one side of the second optical module.
3. The diopter-adjustable VR glasses of claim 2 wherein the first slide cross-section is an elliptical configuration and wherein an inner included angle of the axis with the side of the first sleeve is greater than 0 °.
4. The diopter adjustable VR glasses of claim 3, wherein the number of the first sliding ways is 3, and 3 first sliding ways are uniformly distributed on the outer wall of the first sleeve at equal intervals.
5. The diopter-adjustable VR glasses of claim 4, wherein the lower end of the rear cover is provided with a first groove adapted to the first push button, and one side of the first groove is provided with a second groove adapted to the second push button.
6. The diopter adjustable VR glasses of claim 5, wherein the first push button and the second push button are identical in structure, and a third protrusion is disposed at a lower end of the first push button.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021378735.5U CN212321986U (en) | 2020-07-14 | 2020-07-14 | VR glasses of adjustable diopter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021378735.5U CN212321986U (en) | 2020-07-14 | 2020-07-14 | VR glasses of adjustable diopter |
Publications (1)
Publication Number | Publication Date |
---|---|
CN212321986U true CN212321986U (en) | 2021-01-08 |
Family
ID=74027173
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021378735.5U Expired - Fee Related CN212321986U (en) | 2020-07-14 | 2020-07-14 | VR glasses of adjustable diopter |
Country Status (1)
Country | Link |
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CN (1) | CN212321986U (en) |
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2020
- 2020-07-14 CN CN202021378735.5U patent/CN212321986U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210108 |
|
CF01 | Termination of patent right due to non-payment of annual fee |