SUMMERY OF THE UTILITY MODEL
Aiming at the defects of the prior art, the utility model provides a portable VR (virtual reality) interactive experience device, a portable mechanism and a wearing mechanism thereof, which have the advantages of synchronously protecting a lens on the basis of portability and the like, and solve the problem of general protection of the lens in the prior art.
In order to achieve the purpose, the utility model provides the following technical scheme:
the utility model provides an interactive device of experiencing of portable VR, includes the device body, the top of device body is provided with portable mechanism, the side of device body is provided with wears the mechanism.
The portable mechanism includes: mounting panel, synchronizing shaft, portable handle, synchronous gear, synchronous rack, camera lens guard plate, polishing cloth, spring post, stopper, spout and spacing groove, mounting panel fixed mounting in device body top, the top both sides of mounting panel all articulate the synchronizing shaft, the outside fixed mounting of synchronizing shaft has portable handle, the inner wall and the fixedly connected with synchronous gear of fixed mounting panel are run through to the one end of synchronizing shaft, the side meshing of synchronous gear is connected with synchronous rack, synchronous rack fixed mounting is in the both sides of camera lens guard plate, one side that the camera lens guard plate is close to the device body bonds polishing cloth, one side fixed mounting that the mounting panel is close to the camera lens guard plate has the spring post, the other end fixed connection of spring post has the stopper, the other end and the camera lens guard plate sliding connection of stopper, the camera lens guard plate is seted up the spout with stopper contact department, the bottom of spout is provided with the spacing groove.
Preferably, the top end of the limiting block is provided with a shifting block, and the shifting block is fixedly connected with the limiting block.
Preferably, the wearing mechanism includes: adjust seat and bandeau fixed strip, regulation seat fixed mounting in this both sides of device, the inside of adjusting the seat is provided with the bandeau fixed strip.
Preferably, the upper end and the lower end of the headband fixing strip are both fixedly provided with a synchronous sleeve, and the synchronous sleeve on the top end of the headband fixing strip is installed on the outer surface of the threaded shaft in a threaded manner.
Preferably, one end of the threaded shaft is rotatably connected with the inner wall of the adjusting seat, and the other end of the threaded shaft penetrates through the inner wall of the adjusting seat and is fixedly connected with the adjusting block.
Preferably, the synchronous sleeve at the bottom end of the headband fixing strip is movably arranged on the outer surface of the stabilizing column, and the stabilizing column is fixedly arranged in the adjusting seat.
Preferably, a headband is fixedly installed between the headband fixing strips, and a through groove matched with the headband is formed in the outer side of the adjusting seat.
A portable mechanism of a portable VR interactive experience device, comprising: mounting panel, synchronizing shaft, portable handle, synchronous gear, synchronous rack, camera lens guard plate, polishing cloth, spring post, stopper, spout and spacing groove, mounting panel fixed mounting in device body top, the top both sides of mounting panel all articulate the synchronizing shaft, the outside fixed mounting of synchronizing shaft has portable handle, the inner wall and the fixedly connected with synchronous gear of fixed mounting panel are run through to the one end of synchronizing shaft, the side meshing of synchronous gear is connected with synchronous rack, synchronous rack fixed mounting is in the both sides of camera lens guard plate, one side that the camera lens guard plate is close to the device body bonds polishing cloth, one side fixed mounting that the mounting panel is close to the camera lens guard plate has the spring post, the other end fixed connection of spring post has the stopper, the other end and the camera lens guard plate sliding connection of stopper, the camera lens guard plate is seted up the spout with stopper contact department, the bottom of spout is provided with the spacing groove, the top of stopper is provided with the shifting block, shifting block and stopper fixed connection.
A wearing mechanism of a portable VR interactive experience device, comprising: adjust seat, bandeau fixed strip, synchronous cover, threaded shaft, regulating block, stabilize post and bandeau, regulation seat fixed mounting in device body both sides, the inside slidable mounting who adjusts the seat has the bandeau fixed strip, the equal fixed mounting in both ends has synchronous cover about the bandeau fixed strip, the synchronous cover screw thread on bandeau fixed strip top is installed in the surface of threaded shaft, the one end of threaded shaft is rotated with the inner wall of adjusting the seat and is connected, the other end of threaded shaft runs through the inner wall and the fixedly connected with regulating block of adjusting the seat, the synchronous cover movable mounting in bandeau fixed strip bottom is in the surface of stabilizing the post, it installs in the inside of adjusting the seat to stabilize post fixed mounting, fixed mounting has the bandeau between the bandeau fixed strip, adjust the outside of seat and set up the logical groove with bandeau looks adaptation.
Compared with the prior art, the utility model provides a portable VR interactive experience device, a portable mechanism and a wearing mechanism thereof, which have the following beneficial effects:
1. this mutual experience device of portable VR, through setting up portable mechanism, when needs remove or the user equipment body, portable handle of upset to with mounting panel vertical state, when portable handle of upset, the synchronizing shaft can rotate in step, thereby drive synchronous gear and rotate, synchronous gear drives synchronous rack thereupon and removes, thereby realize the rising of camera lens guard plate, the camera lens guard plate is at the in-process that rises, polishing cloth can clean the camera lens department of device body in step, move to spacing groove and stopper department of correspondence when the camera lens guard plate, the spacing block blocks the camera lens guard plate towards the direction removal in spacing groove under the effect of spring post, can remove or use the device body afterwards, thereby the protectiveness to the device body has been improved on portable basis.
2. This mutual experience device of portable VR wears the mechanism through the setting for when needs adjust the bandeau, the user rotates the regulating block and drives the threaded spindle and rotate, and the synchronous cover of threaded spindle department drives the fixed strip of bandeau thereupon and removes, and the fixed strip of bandeau drives the bandeau thereupon and advances or stretch out by adjusting seat department, thereby realizes possessing advantages such as convenient regulation bandeau.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Detailed description of the utility model
The following is a detailed implementation of a portable VR interaction experience device.
Referring to fig. 1-5, a portable VR interaction experience device includes a device body 1, a portable mechanism 2 disposed at a top end of the device body 1, and a wearing mechanism 3 disposed at a side surface of the device body 1.
In the present embodiment, the model number of the device body 1 is G04BS, which is an intelligent bluetooth link VR glasses, however, the innovation point of the present application is not to improve the device body 1, but to design the portable mechanism 2 disposed at the top end of the device body 1 and the wearing mechanism 3 disposed at the side of the device body 1, therefore, the device body 1 is not limited to G04BS, and the device body 1 depicted in fig. 1 is not G04 BS;
the portable mechanism 2 includes: the device comprises a mounting plate 201, a synchronizing shaft 202, a portable handle 203, a synchronizing gear 204, a synchronizing rack 205, a lens protection plate 206, polishing cloth 207, a spring column 208, a limiting block 209, a sliding groove 210 and a limiting groove 211, wherein the mounting plate 201 is fixedly mounted at the top end of the device body 1, the synchronizing shaft 202 is hinged to both sides of the top end of the mounting plate 201, the portable handle 203 is fixedly mounted at the outer side of the synchronizing shaft 202, one end of the synchronizing shaft 202 penetrates through the inner wall of the mounting plate 201 and is fixedly connected with the synchronizing gear 204, the synchronizing rack 205 is connected to the side surface of the synchronizing gear 204 in a meshing manner, the synchronizing rack 205 is fixedly mounted at both sides of the lens protection plate 206, the polishing cloth 207 is bonded at one side of the lens protection plate 206 close to the device body 1, the spring column 208 is fixedly mounted at one side of the mounting plate 201 close to the lens protection plate 206, the limiting block 209 is fixedly connected with the other end of the limiting block 209 in a sliding manner with the lens protection plate 206, the lens protection plate 206 is provided with a sliding groove 210 at a contact position with the stopper 209, and a stopper groove 211 is provided at the bottom end of the sliding groove 210.
In above-mentioned technical scheme, when portable handle 203 of upset, synchronizing shaft 202 can synchronous rotation, thereby drive synchronizing gear 204 and rotate, synchronizing gear 204 drives synchronous rack 205 thereupon and removes, thereby realize the rise of lens protection board 206, lens protection board 206 is at the in-process that rises, polishing cloth 207 can be in step cleaned the camera lens department of device body 1, thereby guarantee user's use and experience, it corresponds the department to move to spacing groove 211 and stopper 209 when lens protection board 206, stopper 209 removes towards the direction of spacing groove 211 and blocks lens protection board 206 under the effect of spring post 208, thereby guarantee the stability of user lens protection board 206 when using.
When needs remove or use device body 1, the user portable handle 203 of upset to with mounting panel 201 vertical state, when portable handle 203 of upset, synchronizing shaft 202 can synchronous rotation, thereby drive synchronizing gear 204 and rotate, synchronizing gear 204 drives synchronous rack 205 thereupon and moves, thereby realize the rise of lens protection plate 206, lens protection plate 206 is at the in-process that rises, polishing cloth 207 can clean the camera lens department of device body 1 in step, thereby guarantee user's use and experience, move to spacing groove 211 and the corresponding department of stopper 209 when lens protection plate 206, stopper 209 removes to the direction of spacing groove 211 and blocks lens protection plate 206 under the effect of spring post 208, can remove or use device body 1 afterwards.
Specifically, the top end of the limiting block 209 is provided with a shifting block, and the shifting block is fixedly connected with the limiting block 209.
In the above technical solution, the shifting block can drive the limiting block 209 to move.
After device body 1 finishes using, drive stopper 209 through the shifting block and remove towards the direction of keeping away from spacing groove 211, contact stopper 209 is spacing to lens protection plate 206, then press down lens protection plate 206, make lens protection plate 206 cover device body 1's camera lens department, protect the lens with this, and simultaneously, at the in-process that lens protection plate 206 moved down, synchronous rack 205 of lens protection plate 206 both sides can synchronous motion, thereby drive synchronous gear 204 and rotate, thereby realize accomodating of portable handle 203.
Specifically, the wearing mechanism 3 includes: the device comprises an adjusting seat 301 and a headband fixing strip 302, wherein the adjusting seat 301 is fixedly arranged on two sides of the device body 1, and the headband fixing strip 302 is arranged inside the adjusting seat 301;
specifically, the upper end and the lower end of the headband fixing strip 302 are both fixedly provided with a synchronous sleeve 303, and the synchronous sleeve 303 at the top end of the headband fixing strip 302 is installed on the outer surface of the threaded shaft 304 in a threaded manner;
specifically, one end of the threaded shaft 304 is rotatably connected with the inner wall of the adjusting seat 301, and the other end of the threaded shaft 304 penetrates through the inner wall of the adjusting seat 301 and is fixedly connected with an adjusting block 305;
specifically, the synchronizing sleeve 303 at the bottom end of the headband fixing strip 302 is movably mounted on the outer surface of the stabilizing column 306, and the stabilizing column 306 is fixedly mounted inside the adjusting seat 301;
specifically, a headband 307 is fixedly installed between the headband fixing strips 302, and a through groove matched with the headband 307 is formed on the outer side of the adjusting seat 301.
In the above technical solution, when the headband 307 needs to be adjusted, a user rotates the adjusting block 305 to drive the threaded shaft 304 to rotate, the synchronous sleeve 303 at the threaded shaft 304 drives the headband fixing strip 302 to move, and the headband fixing strip 302 drives the headband 307 to retract or extend from the adjusting seat 301, thereby adjusting the headband 307.
The arrangement of the stabilizing post 306 is used to ensure the stability of the synchronous sleeve 303 at the stabilizing post 306 during movement, thereby ensuring the stability of the headband fixing strip 302 during movement, and simultaneously playing a certain limiting role in the headband fixing strip 302.
When using, when needs remove or when using device body 1, the user overturns portable handle 203 to with mounting panel 201 vertical state, when the portable handle 203 of upset, synchronizing shaft 202 can synchronous rotation, thereby drive synchronizing gear 204 and rotate, synchronizing gear 204 drives synchronous rack 205 thereupon and removes, thereby realize the rise of lens protection board 206, lens protection board 206 is at the in-process that rises, polishing cloth 207 can clean the camera lens department of device body 1 in step, thereby guarantee user's use and experience, move to spacing groove 211 and stopper 209 department of correspondence when lens protection board 206, stopper 209 removes to the direction of spacing groove 211 and blocks lens protection board 206 under the effect of spring post 208, can remove or use device body 1 afterwards.
After device body 1 finishes using, the user drives stopper 209 through the shifting block and removes towards the direction of keeping away from spacing groove 211, contact stopper 209 is spacing to lens protection plate 206, then press down lens protection plate 206, make lens protection plate 206 cover device body 1's camera lens department, protect the lens with this, and simultaneously, at the in-process of lens protection plate 206 downstream, synchronous rack 205 of lens protection plate 206 both sides can synchronous motion, thereby drive synchronous gear 204 and rotate, thereby realize accomodating of portable handle 203.
When the headband 307 needs to be adjusted, a user rotates the adjusting block 305 to drive the threaded shaft 304 to rotate, the synchronous sleeve 303 at the threaded shaft 304 drives the headband fixing strip 302 to move, and the headband fixing strip 302 drives the headband 307 to retract or extend from the adjusting seat 301, so that the adjustment of the headband 307 is realized.
Detailed description of the utility model
The following is a specific implementation of a portable mechanism of a portable VR interaction experience device, and the portable mechanism can be implemented alone, and can also be used as a key mechanism of a portable VR interaction experience device disclosed in a specific implementation.
The mutual portable mechanism who experiences device of portable VR under this embodiment includes: the device comprises a mounting plate 201, a synchronizing shaft 202, a portable handle 203, a synchronizing gear 204, a synchronizing rack 205, a lens protection plate 206, polishing cloth 207, a spring column 208, a limiting block 209, a sliding groove 210 and a limiting groove 211, wherein the mounting plate 201 is fixedly mounted at the top end of the device body 1, the synchronizing shaft 202 is hinged to both sides of the top end of the mounting plate 201, the portable handle 203 is fixedly mounted at the outer side of the synchronizing shaft 202, one end of the synchronizing shaft 202 penetrates through the inner wall of the mounting plate 201 and is fixedly connected with the synchronizing gear 204, the synchronizing rack 205 is connected to the side surface of the synchronizing gear 204 in a meshing manner, the synchronizing rack 205 is fixedly mounted at both sides of the lens protection plate 206, the polishing cloth 207 is bonded at one side of the lens protection plate 206 close to the device body 1, the spring column 208 is fixedly mounted at one side of the mounting plate 201 close to the lens protection plate 206, the limiting block 209 is fixedly connected with the other end of the limiting block 209 in a sliding manner with the lens protection plate 206, the lens protection plate 206 has been seted up spout 210 with stopper 209 contact department, and the bottom of spout 210 is provided with spacing groove 211, and stopper 209's top is provided with the shifting block, shifting block and stopper 209 fixed connection.
When needs remove or use device body 1, portable handle 203 of upset to with mounting panel 201 vertical state, when portable handle 203 of upset, synchronizing shaft 202 can synchronous rotation, thereby it rotates to drive synchronizing gear 204, synchronizing gear 204 drives synchronous rack 205 thereupon and removes, thereby realize the rise of lens guard plate 206, lens guard plate 206 is at the in-process that rises, polishing cloth 207 can clean the camera lens department of device body 1 in step, thereby guarantee user's use and experience, it corresponds the department with the stopper 209 to move to spacing groove 211 as lens guard plate 206, stopper 209 removes to the direction of spacing groove 211 and blocks lens guard plate 206 under spring column 208's effect, can remove or use device body 1 afterwards.
After device body 1 finishes using, drive stopper 209 through the shifting block and remove towards the direction of keeping away from spacing groove 211, contact stopper 209 is spacing to lens protection plate 206, then press down lens protection plate 206, make lens protection plate 206 cover device body 1's camera lens department, protect the lens with this, and simultaneously, at the in-process that lens protection plate 206 moved down, synchronous rack 205 of lens protection plate 206 both sides can synchronous motion, thereby drive synchronous gear 204 and rotate, thereby realize accomodating of portable handle 203.
Detailed description of the utility model
The following is a concrete implementation of a wearing mechanism of a portable VR interactive experience device, and the wearing mechanism can be implemented independently and can be used as a key mechanism of the portable VR interactive experience device disclosed in the concrete implementation.
The wearing mechanism of the interactive experience device of portable VR under this embodiment includes: adjust seat 301, headband fixed strip 302, synchronous cover 303, threaded shaft 304, regulating block 305, stabilize post 306 and bandeau 307, regulation seat 301 fixed mounting in device body 1 both sides, the inside slidable mounting who adjusts seat 301 has headband fixed strip 302, the equal fixed mounting in both ends about headband fixed strip 302 has synchronous cover 303, synchronous cover 303 screw thread installation in threaded shaft 304's the surface on headband fixed strip 302 top, threaded shaft 304's one end and the inner wall of adjusting seat 301 rotate to be connected, threaded shaft 304's the other end runs through the inner wall of adjusting seat 301 and fixedly connected with regulating block 305, synchronous cover 303 movable mounting in headband fixed strip 302 bottom is in the surface of stabilizing post 306, it fixes in the inside of adjusting seat 301 to stabilize post 306, fixed mounting has bandeau 307 between headband fixed strip 302, the logical groove with bandeau 307 looks adaptation is seted up in the outside of adjusting seat 301.
When the headband 307 needs to be adjusted, a user rotates the adjusting block 305 to drive the threaded shaft 304 to rotate, the synchronous sleeve 303 at the threaded shaft 304 drives the headband fixing strip 302 to move, and the headband fixing strip 302 drives the headband 307 to retract or extend from the adjusting seat 301, so that the adjustment of the headband 307 is realized.
The arrangement of the stabilizing post 306 is used to ensure the stability of the synchronous sleeve 303 at the stabilizing post 306 during movement, thereby ensuring the stability of the headband fixing strip 302 during movement, and simultaneously playing a certain limiting role in the headband fixing strip 302.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.