CN210135399U - Angle self-adaptive adjustable supporting structure for VR product - Google Patents
Angle self-adaptive adjustable supporting structure for VR product Download PDFInfo
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- CN210135399U CN210135399U CN201920943942.1U CN201920943942U CN210135399U CN 210135399 U CN210135399 U CN 210135399U CN 201920943942 U CN201920943942 U CN 201920943942U CN 210135399 U CN210135399 U CN 210135399U
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Abstract
The utility model discloses an angle self-adaptation adjustable support structure for VR product, including the lower sleeve, the output of rotary disk runs through the chassis, support swing joint has first belt pulley, the internally mounted of top cap has the biax motor, the output of biax motor all is connected with the second belt pulley through the rotation axis, all be connected with the belt between second belt pulley and the first belt pulley, the connecting block has all been cup jointed in the activity of guide bar, the utility model discloses a manual pressing or lifting VR glasses make the rotating fixture block rotate around the connecting axle to can adjust the inclination of VR glasses; the controller controls the double-shaft motor to rotate, and the belt on one side is driven to ascend or descend by the belt pulley, so that the height of the VR glasses is adjusted, and the height is more suitable for an experiencer to use; the output of rotary disk drives the chassis rotation to it is rotatory to drive the VR product, adapts to different directions, experiences more conveniently.
Description
Technical Field
The utility model relates to a VR experiences technical field, specifically is an angle self-adaptation adjustable support structure for VR product.
Background
VR technology, also known as smart technology or artificial environment, uses computer simulation to generate a three-dimensional virtual world, providing the user with visual, auditory, and tactile senses, so that the user can view the objects in the three-dimensional space in a timely manner without limitation as if he had the same experience.
Along with the gradual development of VR equipment, multiple VR experience equipment has appeared in many public areas, and current VR experience equipment mostly is not convenient for remove by large-scale structure, and the high unable regulation of equipment has restricted crowd's use simultaneously, has made following improvement to the problem that current VR experience equipment can't be adjusted according to user's height and use angle.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a: in order to solve the problem that the existing VR experiencing equipment cannot be adjusted according to the height of a user and the use angle, an angle self-adaptive adjustable supporting structure for VR products is provided.
In order to achieve the above object, the utility model provides a following technical scheme: an angle self-adaptive adjustable supporting structure for VR products comprises a lower sleeve, a lower chassis is mounted at the top of the lower sleeve, a rotating disk is arranged at the middle position of the lower chassis, an upper sleeve is arranged at the top of the lower sleeve, an upper chassis is fixed at the bottom of the upper sleeve, the output end of the rotating disk penetrates through the upper chassis, the upper chassis and the lower chassis are both of a disc structure, two groups of supports are symmetrically arranged at the top of the upper chassis about the diameter, first belt pulleys are movably connected to the supports, first supporting rods penetrating through the top of the upper sleeve are arranged above the supports, cameras are mounted on the front faces of the first supporting rods, top covers are fixed at the top ends of the first supporting rods, the first supporting rods are of a hollow structure, guide rods are arranged inside the first supporting rods, and the top ends of the guide rods are connected with the top covers, the internally mounted of top cap has the biax motor, the output of biax motor all is connected with the second belt pulley through the rotation axis, all be connected with the belt between second belt pulley and the first belt pulley, the equal activity of guide bar has cup jointed the connecting block, just the equal fixedly connected with belt in connecting block one side, be provided with the connecting axle between the connecting block, the connecting axle runs through VR glasses, just rotatory fixture block has been cup jointed to the connecting axle, rotatory fixture block with VR glasses fixed connection.
Preferably, the top of going up the sleeve is provided with the display screen, the bottom on lower chassis is fixed with the battery, the battery is electric connection with biax motor, camera, display screen and VR glasses.
Preferably, the bottom of lower chassis is fixed with the second bracing piece, the second bracing piece is triangular distribution, and the bottom fixedly connected with base of second bracing piece.
Preferably, the joint of the rotating clamping block and the connecting shaft is provided with a rubber damper, and the rotating clamping block is movably connected with the connecting shaft.
Preferably, the top of the upper sleeve is in an inclined structure.
Compared with the prior art, the beneficial effects of the utility model are that: the utility model can adjust the inclination angle of the VR glasses by manually pressing or lifting the VR glasses to enable the rotary fixture block to rotate around the connecting shaft, and the inclination angle of the VR glasses can be kept without applying external force due to the rubber damping between the rotary fixture block and the connecting shaft, so that the VR glasses are convenient to use; the camera on the first supporting rod can transmit a face image positioned in front of the equipment to the processor, then the processor transmits analysis information to the controller, the controller controls the double-shaft motor to rotate, and the belt on one side is driven to rise or fall through the belt pulley, so that the height of the VR glasses is adjusted, the height of the VR glasses is more suitable for an experiencer to use, the phenomenon that the experience cannot be performed due to the fact that the height of the VR glasses is not suitable for the equipment is avoided, meanwhile, due to the effects of the double-shaft motor and the guide rod, the VR glasses are prevented from inclining in the recycling process, and the service life; simultaneously, the output end of the rotating disc drives the upper chassis to rotate, so that the VR product is driven to rotate, different directions are adapted, and the experience is more convenient.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the disassembled structure of the present invention;
FIG. 3 is a schematic view of the disassembled structure of the present invention;
FIG. 4 is a schematic view of the disassembled three structures of the present invention;
FIG. 5 is an enlarged view of part A of the present invention;
FIG. 6 is an enlarged view of the part B of the present invention;
FIG. 7 is an enlarged view of the C-removing part of the present invention;
fig. 8 is a schematic view of the enlarged structure of the D-detaching part of the present invention.
In the figure: 1. a base; 2. a lower sleeve; 201. a second support bar; 202. a lower chassis; 203. a storage battery; 204. rotating the disc; 3. an upper sleeve; 301. an upper chassis; 302. a support; 303. a first pulley; 4. a display screen; 5. a first support bar; 501. connecting blocks; 502. a guide bar; 503. a belt; 6. a camera; 7. VR glasses; 701. rotating the fixture block; 702. a connecting shaft; 8. a top cover; 801. a double-shaft motor; 802. a rotating shaft; 803. a second pulley.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-8, an angle adaptive adjustable supporting structure for VR products includes a lower sleeve 2, a lower chassis 202 is installed on the top of the lower sleeve 2, a rotating disc 204 is disposed at the middle position of the lower chassis 202, an upper sleeve 3 is disposed on the top of the lower sleeve 2, an upper chassis 301 is fixed on the bottom of the upper sleeve 3, the output end of the rotating disc 204 penetrates through the upper chassis 301, the upper chassis 301 and the lower chassis 202 are both in a disc structure, two sets of supports 302 are symmetrically disposed on the top of the upper chassis 301 with respect to the diameter, the supports 302 are movably connected with a first belt pulley 303, a first supporting rod 5 penetrating through the top of the upper sleeve 3 is disposed above each support 302, a camera 6 is installed on the front of the first supporting rod 5, a top cover 8 is fixed on the top of each first supporting rod 5, the first supporting rod 5 is in a hollow structure, and a guiding rod 502 is disposed inside each first supporting rod 5, and the top of guide bar 502 is connected with top cap 8, the internally mounted of top cap 8 has biax motor 801, biax motor 801's output all is connected with second belt pulley 803 through rotation axis 802, all be connected with belt 503 between second belt pulley 803 and the first belt pulley 303, guide bar 502 all activity has cup jointed connecting block 501, and the equal fixedly connected with belt 503 in connecting block 501 one side, be provided with connecting axle 702 between the connecting block 501, connecting axle 702 runs through VR glasses 7, and connecting axle 702 has cup jointed rotatory fixture block 701, rotatory fixture block 701 and VR glasses 7 fixed connection.
In the implementation: first, output through control rotary disk 204 drives chassis 301 rotatory, make the VR product just to experience the person, camera 6 carries out the analysis in transmitting the place ahead image to the treater, transmit analytic data to the controller again, by the rotatory direction of controller control biax motor 801 (implementation that prior art can be fine), thereby the height that control VR glasses 7 goes up and down adapts to experience person's height, after high adjustment is good, experience the person according to the habit of using press VR glasses 7 or raise VR glasses 7, rotatory fixture block 701 is rotatory around connecting axle 702, thereby adjustment VR glasses 7's inclination.
Please refer to fig. 1-4, the top of the upper sleeve 3 is provided with a display screen 4, the bottom of the lower chassis 202 is fixed with a storage battery 203, the storage battery 203 is electrically connected with the dual-axis motor 801, the camera 6, the display screen 4 and the VR glasses 7, information and parameters of the VR product can be checked conveniently through the display screen 4, and the VR product can be powered by the storage battery 203 when power is off, so that the usage is more convenient.
Please refer to fig. 1-2, the bottom of the lower chassis 202 is fixed with the second support rod 201, the second support rod 201 is distributed in a triangle, the bottom of the second support rod 201 is fixedly connected with the base 1, the top of the upper sleeve 3 is an inclined structure, the contact area between the base 1 and the ground is larger, so that the support structure is more stable, and the top of the upper sleeve 3 is an inclined structure, so that the experience person can check the information of the display screen conveniently.
Please refer to fig. 3, the joint between the rotating latch 701 and the connecting shaft 702 is provided with a rubber damper, and the rotating latch 701 is movably connected to the connecting shaft 702, so that the VR glasses can maintain an inclined angle without an external force due to the rubber damper between the rotating latch and the connecting shaft.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (5)
1. An angularly adaptive adjustable support structure for VR product, includes lower sleeve (2), its characterized in that: the improved multifunctional telescopic type camera is characterized in that a lower chassis (202) is installed at the top of the lower sleeve (2), a rotating disc (204) is arranged at the middle position of the lower chassis (202), an upper sleeve (3) is arranged at the top of the lower sleeve (2), an upper chassis (301) is fixed at the bottom of the upper sleeve (3), the output end of the rotating disc (204) penetrates through the upper chassis (301), the upper chassis (301) and the lower chassis (202) are of disc structures, two sets of supports (302) are symmetrically arranged at the top of the upper chassis (301) with respect to the diameter, a first belt pulley (303) is movably connected to the supports (302), a first supporting rod (5) penetrating through the top of the upper sleeve (3) is arranged above the supports (302), a camera (6) is installed on the front surface of the first supporting rod (5), and a top cover (8) is fixed at the top end of the first supporting rod (, the first supporting rod (5) is of a hollow structure, a guide rod (502) is arranged inside the first supporting rod (5), the top end of the guide rod (502) is connected with a top cover (8), a double-shaft motor (801) is arranged in the top cover (8), the output ends of the double-shaft motors (801) are connected with second belt pulleys (803) through rotating shafts (802), belts (503) are connected between the second belt pulley (803) and the first belt pulley (303), the guide rods (502) are movably sleeved with connecting blocks (501), and one side of each connecting block (501) is fixedly connected with a belt (503), a connecting shaft (702) is arranged between the connecting blocks (501), the connecting shaft (702) penetrates through VR glasses (7), and the connecting shaft (702) is sleeved with a rotating fixture block (701), and the rotating fixture block (701) is fixedly connected with the VR glasses (7).
2. The angularly adaptive adjustable support structure of claim 1, for a VR product, wherein: the top of upper sleeve (3) is provided with display screen (4), the bottom of lower chassis (202) is fixed with battery (203), battery (203) and biax motor (801), camera (6), display screen (4) and VR glasses (7) are electric connection.
3. The angularly adaptive adjustable support structure of claim 1, for a VR product, wherein: the bottom of lower chassis (202) is fixed with second bracing piece (201), second bracing piece (201) are the triangular distribution, and the bottom fixedly connected with base (1) of second bracing piece (201).
4. The angularly adaptive adjustable support structure of claim 1, for a VR product, wherein: the rotating fixture block (701) and the connecting shaft (702) are sleeved to form a rubber damper, and the rotating fixture block (701) is movably connected with the connecting shaft (702).
5. The angularly adaptive adjustable support structure of claim 1, for a VR product, wherein: the top of the upper sleeve (3) is of an inclined structure.
Priority Applications (1)
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CN201920943942.1U CN210135399U (en) | 2019-06-21 | 2019-06-21 | Angle self-adaptive adjustable supporting structure for VR product |
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CN201920943942.1U CN210135399U (en) | 2019-06-21 | 2019-06-21 | Angle self-adaptive adjustable supporting structure for VR product |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI785877B (en) * | 2020-04-06 | 2022-12-01 | 智崴資訊科技股份有限公司 | Installation structure of vr glasses and virtual reality device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI785877B (en) * | 2020-04-06 | 2022-12-01 | 智崴資訊科技股份有限公司 | Installation structure of vr glasses and virtual reality device |
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