CN215575920U - VR telescope capable of manually adjusting rotation and lifting - Google Patents

Abstract

The utility model discloses a VR telescope capable of being manually adjusted to rotate and lift, and relates to the technical field of VR telescope adjusting structures. The first gear is operated to enable the sliding column to slide upwards or downwards along the sliding hole of the upright column, manual adjustment lifting is carried out, and the second gear is operated to enable the first bevel gear to horizontally rotate on the connecting cylinder for a certain angle, so that manual adjustment rotation is carried out.

Description

VR telescope capable of manually adjusting rotation and lifting

Technical Field

The utility model relates to the technical field of VR telescope adjusting structures, in particular to a VR telescope capable of being manually adjusted to rotate and lift.

Background

Virtual Reality (VR) technology is a computer simulation system, can generate a simulation environment, provides an immersive application experience for users through three-dimensional dynamic viewing, entity behavior interaction and other modes, generally watches videos through VR glasses, requires processed video sources when experiencing the playing of Virtual Reality contents, and a VR telescope is a device combining Virtual technology and telescope.

Among the prior art, when using the VR telescope to simulate space observation, the VR telescope is generally fixed, perhaps according to system's setting, automatic adjustment position to observe, when actual observation, this kind of mode makes the observer can not carry out interactive operation, greatly reduced the impression experience, consequently need one kind can let the observer operate according to the circumstances, increase the VR telescope that immersive experienced, therefore we have disclosed the VR telescope of manual regulation rotation and lift.

SUMMERY OF THE UTILITY MODEL

The utility model provides a VR telescope of manual regulation rotation and lift to it is fixed to solve the VR telescope that proposes among the above-mentioned background art, and the observer can not carry out the problem of interactive operation.

In order to achieve the above purpose, the present application provides the following technical solutions: the VR telescope capable of manually adjusting rotation and lifting comprises a stand column and a VR telescope body arranged on the stand column, wherein a sliding hole is formed in the top end of the stand column, a sliding column is arranged in the sliding hole in a sliding mode, a rack is arranged on one side of the sliding column, an avoiding notch is formed in one side, close to the rack, of the stand column, a first gear is rotatably arranged on the outer side wall of the stand column at the avoiding notch through a first rotating shaft, the first gear is meshed with the rack on the sliding column, a connecting cylinder is arranged on the top side of the sliding column, a first bevel gear is rotatably arranged on the top end of the connecting cylinder, a second bevel gear is rotatably arranged on the outer side wall of the connecting cylinder through a fixed rotating column, and a pitching adjusting mechanism used for adjusting the pitching angle of the VR telescope body is arranged on the top side of the first bevel gear meshed with the second bevel gear, the bottom side of the VR telescope body is mounted on the top side of the pitch adjustment mechanism.

Based on the mechanism, the VR telescope body is arranged on the upright post, the first handle is operated to enable the first gear to rotate around the first rotating shaft through the meshing action of the first gear and the rack on the sliding post, the sliding post slides upwards or downwards along the sliding hole of the upright post, so that the height of the VR telescope body can be manually adjusted, the lifting can be manually adjusted, the second handle is operated to enable the second bevel gear to rotate around the fixed rotating column through the meshing action of the first bevel gear and the second bevel gear, the first bevel gear horizontally rotates for a certain angle on the connecting column, thereby manually adjusting the orientation of the VR telescope body on the horizontal plane and manually adjusting the rotation, through the angle of depression and the angle of elevation of every single move adjustment mechanism adjustment VR telescope body, realize carrying out diversified real-time adjustment to VR telescope body, realize real-time interdynamic, increase maneuverability, the enhancement is immersed and is experienced.

Preferably, the pitching adjusting mechanism comprises a concave fixing seat, a convex fixing seat and a second rotating shaft, the bottom side of the concave fixing seat is installed on the top side of the first bevel gear, the convex fixing seat is rotatably installed on the concave fixing seat through the second rotating shaft, an interval adjusting mechanism for adjusting the interval of the VR telescope body is installed at the top end of the convex fixing seat, and the bottom side of the VR telescope body is installed on the interval adjusting mechanism.

Further, the convex fixing base is installed on the concave fixing base through the rotation of the second rotating shaft, and the convex fixing base can rotate along the concave fixing base in the vertical plane, so that the depression angle and the elevation angle of the VR telescope body installed on the convex fixing base can be adjusted, and multi-azimuth adjustment is achieved.

Preferably, the interval adjustment mechanism includes a fixed frame, a first rack, a second rack and a second gear, the first rack and the second rack are parallel to each other and slidably mounted in the fixed frame, tooth surfaces of the first rack and the second rack are close to each other, the second gear is rotatably mounted in the fixed frame, the second gear is located at a middle position between the first rack and the second rack and is engaged with the first rack and the second rack, the VR telescope body includes a left lens barrel and a right lens barrel, bottom sides of the left lens barrel and the right lens barrel are respectively mounted at two ends far away from the first rack and the second rack, the left lens barrel and the right lens barrel are respectively mounted at top sides of the first rack and the second rack, and an operating mechanism for rotating the second gear is mounted on the second gear.

Furthermore, when the second gear is rotated, under the meshing action, the first rack and the second rack slide on the fixed frame and move in opposite directions at equal intervals, so that the left lens cone and the right lens cone are close to or far away from each other, the distance between the left lens cone and the right lens cone is further adjusted, the distance between two eyes of an observer is adapted, and the second gear can be conveniently rotated through the operating mechanism.

Preferably, the operating mechanism includes an operating dial and a third rotating shaft, the bottom side of the operating dial is mounted on the top side of the third rotating shaft, the top side of the fixing frame is provided with a rotating shaft hole, and the bottom side of the third rotating shaft penetrates through the rotating shaft hole and is mounted in the center of the top side of the second gear.

Furthermore, the operation turntable is rotated by hands to drive the third rotating shaft to rotate on the fixed frame, so that the second gear is driven to rotate.

Preferably, operating handles are mounted on two sides of the convex fixing seat.

Further, through setting up two operation handles, the equipment is supported to the hand of being more convenient for, and the better application of force of being convenient for is adjusted the position of VR telescope body.

Preferably, a protection plate is installed at one side of the sliding column, and the protection plate corresponds to the position of the operating handle.

Furthermore, the operation handle is held by hands, the body of an observer is opposite to the front surface of the protection plate, and the body of the observer is isolated from the mechanism through the protection plate, so that the operation safety is improved.

Preferably, a base is installed on the bottom side of the upright post, and a plurality of fixing holes are formed in the base.

Furthermore, through the setting of base, be convenient for place and support VR telescope body, be convenient for fix the base in setting for the region through the fixed orifices, be convenient for install.

In conclusion, the technical effects and advantages of the utility model are as follows:

1. according to the utility model, the VR telescope body is arranged on the stand column, the sliding column slides upwards or downwards along the sliding hole of the stand column by operating the first gear, so that the height of the VR telescope body can be manually adjusted, the VR telescope body can be manually adjusted to lift, the first bevel gear horizontally rotates for a certain angle on the connecting cylinder by operating the second bevel gear, so that the orientation of the VR telescope body on the horizontal plane can be manually adjusted, the VR telescope body can be manually adjusted to rotate, the depression angle and the elevation angle of the VR telescope body can be adjusted by the elevation adjusting mechanism, the VR telescope body can be adjusted in multiple directions in real time, real-time interaction is realized, the operability is increased, and the immersive experience is enhanced.

2. According to the utility model, the convex fixing seat is rotated on the concave fixing seat through the operation handle, so that the depression angle and the elevation angle of the VR telescope body arranged on the convex fixing seat are adjusted, multi-direction adjustment is realized, the left lens cone and the right lens cone are close to or far away from each other through mechanism adjustment, and the distance between the left lens cone and the right lens cone is further adjusted to adapt to the distance between two eyes of an observer, so that observation is facilitated, the operation handle is held by hand, the body of the observer is opposite to the front surface of the protection plate, and the body of the observer is isolated from the mechanism through the protection plate, so that the operation safety is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of another embodiment of the present invention;

FIG. 3 is a schematic view of a portion of the enlarged area A in FIG. 2;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is a partial cross-sectional view of the first gear area;

fig. 6 is a partial sectional structure diagram of the second gear area.

In the figure: 1. a column; 2. a VR telescope body; 3. a sliding post; 4. fixing the rotary column; 5. a second bevel gear; 6. a first bevel gear; 7. a concave fixed seat; 8. a second rotating shaft; 9. a convex fixed seat; 10. a fixing frame; 11. an operating handle; 12. a first rack; 13. a connecting cylinder; 14. operating the turntable; 15. a protection plate; 16. a base; 17. a second gear; 18. a third rotating shaft; 19. a second rack; 20. a first gear; 21. a first rotating shaft; 22. avoiding the gap.

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.

Example (b): referring to fig. 1-6, a VR telescope capable of manually adjusting rotation and lifting comprises an upright post 1 and a VR telescope body 2 disposed on the upright post 1, where the upright post 1 may be any one of prior art cylinders, such as a square metal column, the VR telescope body 2 may be any one of prior art cylinders, a sliding hole is formed at the top end of the upright post 1, a sliding post 3 is slidably mounted in the sliding hole, the sliding post 3 slides up and down in the sliding hole of the upright post 1, a rack is mounted on one side of the sliding post 3, an avoiding notch 22 is formed on one side of the upright post 1 close to the rack, a first gear 20 is rotatably mounted on the outer side wall of the upright post 1 at the avoiding notch 22 through a first rotating shaft 21, a first handle is mounted on one side of the first gear 20, the first gear 20 is engaged with the rack on the sliding post 3, and is engaged with the rack on the sliding post 3 through the first gear 20, operating the first handle to rotate the first gear 20 around the first rotating shaft 21, and sliding the sliding column 3 upwards or downwards along the sliding hole of the upright column 1, so as to adjust the height of the top end of the sliding column 3; a connecting cylinder 13 is installed on the top side of the sliding column 3, the connecting cylinder 13 is any one of cylinders in the prior art, such as a metal cylinder, a first bevel gear 6 is installed on the top end of the connecting cylinder 13 in a rotating manner, the first bevel gear 6 can rotate on the connecting cylinder 13, a second bevel gear 5 is installed on the outer side wall of the connecting cylinder 13 in a rotating manner through a fixed rotating column 4, a second handle is installed on one side of the second bevel gear 5 at the bottom, the first bevel gear 6 is meshed with the second bevel gear 5, the second bevel gear 5 rotates around the fixed rotating column 4 by operating the second handle through the meshing action of the first bevel gear 6 and the second bevel gear 5, the first bevel gear 6 horizontally rotates on the connecting cylinder 13 for a certain angle, a pitch adjusting mechanism for adjusting the pitch angle of the VR telescope body 2 is installed on the top side of the first bevel gear 6, and the bottom side of the VR telescope body 2 is installed on the top side of the pitch adjusting mechanism, the pitching angle and the elevation angle of the VR telescope body 2 are adjusted through the pitching adjusting mechanism, and multi-azimuth adjustment is carried out.

Based on the above mechanisms, the VR telescope body 2 is arranged on the upright post 1, the first handle is operated to enable the first gear 20 to rotate around the first rotating shaft 21 through the meshing action of the first gear 20 and the rack on the sliding post 3, the sliding post 3 slides upwards or downwards along the sliding hole of the upright post 1, so that the height of the VR telescope body 2 can be manually adjusted, the manual adjustment and the lifting are carried out, the second handle is operated to enable the second bevel gear 5 to rotate around the fixed rotating post 4 through the meshing action of the first bevel gear 6 and the second bevel gear 5, the first bevel gear 6 horizontally rotates for a certain angle on the connecting cylinder 13, so that the orientation of the VR telescope body 2 on the horizontal plane can be manually adjusted, the manual adjustment and the rotation are carried out, the depression angle and the elevation angle of the VR telescope body 2 are adjusted through the pitching adjusting mechanism, and the multidirectional real-time adjustment of the VR telescope body 2 is realized, real-time interaction is realized, operability is improved, and immersive experience is enhanced.

As shown in fig. 1, 2 and 3, the pitching adjusting mechanism comprises a concave fixing seat 7, a convex fixing seat 9 and a second rotating shaft 8, the bottom side of the concave fixing seat 7 is installed on the top side of the first bevel gear 6, a gap is arranged in the middle of the concave fixing seat 7, a convex block is correspondingly arranged in the middle of the convex fixing seat 9, the convex fixing seat 9 is rotatably installed on the concave fixing seat 7, rotating holes are respectively formed in one corresponding side of the convex fixing seat 9 and one corresponding side of the concave fixing seat 7, the second rotating shaft 8 penetrates through the corresponding rotating holes, a spacing adjusting mechanism for adjusting the spacing of the VR telescope body 2 is installed at the top end of the convex fixing seat 9, the bottom side of the VR telescope body 2 is installed on the spacing adjusting mechanism, the convex fixing seat 9 is rotatably installed on the concave fixing seat 7 through the second rotating shaft 8, the convex fixing seat 9 can rotate along the concave fixing seat 7 in the vertical plane, so as to adjust the depression angle and the elevation angle of the VR telescope body 2 installed on the convex fixing seat 9, and multi-directional adjustment is realized.

Referring to fig. 2, 4 and 6, the distance adjustment mechanism includes a fixed frame 10, a first rack 12, a second rack 19 and a second gear 17, the fixed frame 10 can be any one of the prior art, such as a square metal frame, the first rack 12 and the second rack 19 are slidably mounted in the fixed frame 10 in parallel, the tooth surfaces of the first rack 12 and the second rack 19 are close to each other, the second gear 17 is rotatably mounted in the fixed frame 10, the second gear 17 is located at the middle position between the first rack 12 and the second rack 19 and is engaged with the first rack 12 and the second rack 19, the first rack 12 and the second rack 19 slide on the fixed frame 10 and can perform equal-distance reverse movement, the VR telescope body 2 includes a left lens barrel and a right lens barrel corresponding to two eyes of an observer, the bottom sides of the left lens barrel and the right lens barrel are mounted at two ends of the first rack 12 and the second rack 19 respectively, the left lens cone and the right lens cone are respectively arranged on the top sides of the first rack 12 and the second rack 19, when the second gear 17 is rotated, the first rack 12 and the second rack 19 slide on the fixing frame 10 under the meshing effect, and are moved in opposite directions at equal intervals, so that the left lens cone and the right lens cone are close to or far away from each other, the distance between the left lens cone and the right lens cone is further adjusted, the distance between two eyes of an observer is adapted, the second gear 17 is provided with an operating mechanism for rotating the second gear 17, and the second gear 17 can rotate conveniently through the operating mechanism.

According to fig. 1 and 4, the operating mechanism includes an operating dial 14 and a third rotating shaft 18, the operating dial 14 can be any one of the discs in the prior art, such as a plastic disc, the bottom side of the operating dial 14 is installed on the top side of the third rotating shaft 18, a rotating shaft hole is opened on the top side of the fixed frame 10, the bottom side of the third rotating shaft 18 penetrates through the rotating shaft hole and is installed at the center position of the top side of the second gear 17, and the third rotating shaft 18 is driven to rotate on the fixed frame 10 by rotating the operating dial 14 by hand, so as to drive the second gear 17 to rotate.

According to fig. 2, operating handles 11 are installed on two sides of the convex fixing seat 9, and through the arrangement of the two operating handles 11, the hand supporting device is convenient, better force application is convenient, and the position of the VR telescope body 2 is adjusted.

According to fig. 1 and 2, a protection plate 15 is installed on one side of the sliding column 3, the protection plate 15 can be any one of the prior art, such as a plastic plate, the protection plate 15 corresponds to the position of the operating handle 11, the operating handle 11 is held by hands, the body of an observer is opposite to the front side of the protection plate 15, and the body of the observer is isolated from the mechanism through the protection plate 15, so that the operation safety is improved.

According to the scheme shown in fig. 1, a base 16 is installed on the bottom side of the upright post 1, a plurality of fixing holes are formed in the base 16, the VR telescope body 2 is convenient to place and support through the base 16, and the base 16 is convenient to fix in a set area through the fixing holes and is convenient to install.

The working principle of the utility model is as follows:

the VR telescope body 2 is arranged on the upright post 1, the first handle is operated to enable the first gear 20 to rotate around the first rotating shaft 21 through the meshing action of the first gear 20 and the rack on the sliding post 3, the sliding post 3 slides upwards or downwards along the sliding hole of the upright post 1, so that the height of the VR telescope body 2 can be manually adjusted, the manual adjustment and lifting are carried out, the second handle is operated to enable the second bevel gear 5 to rotate around the fixed rotating post 4 through the meshing action of the first bevel gear 6 and the second bevel gear 5, the first bevel gear 6 horizontally rotates for a certain angle on the connecting cylinder 13, so that the orientation of the VR telescope body 2 on the horizontal plane can be manually adjusted, the manual adjustment and rotation are carried out, the depression angle and the elevation angle of the VR telescope body 2 are adjusted through the elevation adjusting mechanism, the multi-directional real-time adjustment of the VR telescope body 2 is realized, and the real-time interaction is realized, operability is increased, and immersive experience is enhanced.

The convex fixing seat 9 is rotatably installed on the concave fixing seat 7 through the second rotating shaft 8, the convex fixing seat 9 can rotate along the concave fixing seat 7 in a vertical plane, so that the depression angle and the elevation angle of the VR telescope body 2 installed on the convex fixing seat 9 can be adjusted, multi-direction adjustment can be realized, the left lens cone and the right lens cone are respectively installed on the top sides of the first rack 12 and the second rack 19, when the second gear 17 is rotated, under the meshing action, the first rack 12 and the second rack 19 slide on the fixing frame 10 and do equidistance reverse movement, the left lens cone and the right lens cone are close to or far away from each other, the distance between the left lens cone and the right lens cone can be adjusted to adapt to the distance between two eyes of an observer, the rotating disc 14 is rotated by hand to drive the third rotating shaft 18 to rotate on the fixing frame 10, so as to drive the second gear 17 to rotate, the handle 11 is operated by hand, the body of the observer is opposite to the front of the protection plate 15, the protection plate 15 isolates the body of an observer from the mechanism, and the operation safety is improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (7)

1. VR telescope of manual regulation rotation and lift, including stand (1) and setting be in VR telescope body (2) on stand (1), its characterized in that: the top end of the upright post (1) is provided with a sliding hole, a sliding post (3) is arranged in the sliding hole in a sliding manner, a rack is arranged on one side of the sliding post (3), one side of the upright post (1) close to the rack is provided with an avoiding notch (22), a first gear (20) is arranged on the outer side wall of the upright post (1) at the avoiding notch (22) in a rotating manner through a first rotating shaft (21), the first gear (20) is meshed with the rack on the sliding post (3), a connecting cylinder (13) is arranged on the top side of the sliding post (3), a first bevel gear (6) is arranged on the top end of the connecting cylinder (13) in a rotating manner, a second bevel gear (5) is arranged on the outer side wall of the connecting cylinder (13) in a rotating manner through a fixed rotating post (4), and the first bevel gear (6) is meshed with the second bevel gear (5), a pitching adjusting mechanism used for adjusting the pitching angle of the VR telescope body (2) is installed on the top side of the first bevel gear (6), and the bottom side of the VR telescope body (2) is installed on the top side of the pitching adjusting mechanism.

2. The manually adjustable rotation and elevation VR telescope of claim 1, wherein: the pitching adjusting mechanism comprises a concave fixing seat (7), a convex fixing seat (9) and a second rotating shaft (8), the bottom side of the concave fixing seat (7) is installed on the top side of the first bevel gear (6), the convex fixing seat (9) is installed on the concave fixing seat (7) through the second rotating shaft (8) in a rotating mode, a distance adjusting mechanism used for adjusting the distance between the VR telescope bodies (2) is installed at the top end of the convex fixing seat (9), and the bottom side of the VR telescope bodies (2) is installed on the distance adjusting mechanism.

3. The manually adjustable rotation and elevation VR telescope of claim 2, wherein: the interval adjustment mechanism comprises a fixed frame (10), a first rack (12), a second rack (19) and a second gear (17), wherein the first rack (12) and the second rack (19) are arranged in the fixed frame (10) in a parallel sliding mode, the second gear (17) is rotatably arranged in the fixed frame (10), the second gear (17) is located at the middle positions of the first rack (12) and the second rack (19) and meshed with the first rack (12) and the second rack (19), the VR telescope body (2) comprises a left lens barrel and a right lens barrel, the bottom sides of the left lens barrel and the right lens barrel are respectively arranged at two ends, far away from the first rack (12) and the second rack (19), and an operating mechanism for enabling the second gear (17) to rotate is arranged on the second gear (17).

4. The manually adjustable rotation and elevation VR telescope of claim 3, wherein: the operating mechanism comprises an operating turntable (14) and a third rotating shaft (18), the bottom side of the operating turntable (14) is installed on the top side of the third rotating shaft (18), a rotating shaft hole is formed in the top side of the fixed frame (10), and the bottom side of the third rotating shaft (18) penetrates through the rotating shaft hole and is installed in the center of the top side of the second gear (17).

5. The manually adjustable rotation and elevation VR telescope of claim 2, wherein: operating handles (11) are arranged on two sides of the convex fixing seat (9).

6. The manually adjustable rotation and elevation VR telescope of claim 5, wherein: one side of the sliding column (3) is provided with a protection plate (15), and the protection plate (15) corresponds to the position of the operating handle (11).

7. The manually adjustable rotation and elevation VR telescope of claim 1, wherein: the base (16) is installed to the bottom side of stand (1), seted up a plurality of fixed orificess on base (16).

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