CN-224217075-U - Rotary interactive terminal of VR software

Abstract

The utility model relates to the technical field of VR terminals, in particular to a rotary interactive terminal of VR software, which comprises a base, wherein a base is fixed at the center of the upper part of the base, a bottom column is arranged in the base, a center table is fixed at the upper end of the bottom column, a bearing is fixed at the upper end of the center table in an assembled mode, a shaft rod perpendicular to the horizontal plane is in interference fit with the inner ring wall of the bearing, a shell is arranged outside the center table, the surface of the shaft rod is fixedly assembled with the inner wall of the shell through a plurality of uniformly distributed brackets, a rotary handle is fixedly penetrated at the upper end of the shell, and the rotary handle is perpendicular to the top of the shell. According to the utility model, through the design of the rotary handle, a user can directly perform turning operation similar to a steering wheel, body rotation is not needed or a handle or gestures are not needed, space requirements and collision risks in VR experience are reduced, the method is particularly suitable for limited space use, and meanwhile, rotary interaction is more in line with intuition and higher in operation efficiency.

Inventors

• ZOU YUAN

Assignees

• 上海酷柚文化发展有限公司

Dates

Publication Date

20260508

Application Date

20250331

Claims (8)

1. The rotary interactive terminal of VR software comprises a base (1) and is characterized in that a base (11) is fixed at the center of the upper part of the base (1), a bottom column (12) is arranged in the base (11), a center table (13) is fixed at the upper end of the bottom column (12), a bearing (14) is fixedly assembled at the upper end of the center table (13), a shaft rod (15) perpendicular to a horizontal plane is in interference fit with the inner ring wall of the bearing (14), a shell (16) is arranged outside the center table (13), and the surface of the shaft rod (15) is fixedly assembled with the inner wall of the shell (16) through a plurality of uniformly distributed brackets; the upper end of the shell (16) is fixedly penetrated with a rotary handle (17), and the rotary handle (17) is perpendicular to the top of the shell (16); The inner wall of shell (16) is close to lower extreme position distribution and is fixed with capacitive sensor (19), outer wall one end of center platform (13) is fixed with response piece (18), and response piece (18) are copper aluminum alloy material, the tip of capacitive sensor (19) is curved surface contact, and with the surface laminating setting of response piece (18).
2. 2. The rotating type interactive terminal of VR software according to claim 1, wherein the base (11) is of a cylindrical structure, a built-in sleeve (1001) is symmetrically arranged on the inner wall of the base (11) in a penetrating mode, the joint position of the built-in sleeve (1001) and the base (11) is fixed through welding, a telescopic rod (1002) is sleeved in the built-in sleeve (1001) in a sliding mode, one end of the telescopic rod (1002) is arranged in the base (11) and fixed with a bottom column (12) through a screw, and an anti-falling block (1003) is fixed at the outward end of the telescopic rod (1002).
3. 3. The rotary interactive terminal of VR software according to claim 2, characterized in that the surface of the telescopic rod (1002) is wound with a first spring (1004), and two ends of the first spring (1004) are fixedly assembled with the end surface of the built-in sleeve (1001) and the surface of the anti-drop block (1003) respectively.
4. 4. The rotating interactive terminal of VR software according to claim 1, wherein the upper end of the shaft lever (15) is fixed with a liner (2), the liner (2) is located at the center of the housing (16), and the liner (2) is made of stainless steel material.
5. 5. The rotary interactive terminal of VR software according to claim 4, wherein the inner container (2) is provided with symmetrically distributed second springs (22), one ends of the second springs (22) are welded on the inner wall of the inner container (2) and fixed, and a vibration seat (21) is fixed between the two second springs (22).
6. 6. The rotating interactive terminal of VR software according to claim 5, characterized in that the surface of the vibration seat (21) is fixedly provided with a motor (23) in a penetrating manner, a rotating shaft for driving is arranged in the motor (23), and an eccentric block (24) is fixedly arranged at the end part of the rotating shaft.
7. 7. The rotary interactive terminal of VR software according to claim 1, wherein the housing (16) is fixedly and penetratingly provided with a plurality of pin bosses (3) at positions close to the center table (13), the pin bosses (3) are located under the capacitive sensor (19) and are the same in number, the inner parts of the pin bosses (3) are slidably sleeved with the bayonet locks (31), the end parts of the bayonet locks (31) are of curved surface structures, the inner parts of the pin bosses (3) are further provided with springs III (32), and two ends of each spring III (32) are fixedly assembled with the surfaces of the bayonet locks (31) and the inner wall surfaces of the pin bosses (3) respectively.
8. 8. The rotating type interaction terminal of VR software according to claim 7, wherein an arc-shaped groove (33) is formed in the surface of the center table (13), the arc-shaped groove (33) is located right below the sensing block (18), and the curved surface of the end portion of the bayonet lock (31) is in contact with the inner curved surface of the arc-shaped groove (33).

Description

Rotary interactive terminal of VR software Technical Field The utility model relates to the technical field of VR terminals, in particular to a rotary interactive terminal of VR software. Background VR (virtual reality) software refers to computer programs for creating, managing, and experiencing a virtual reality environment. Such software may be used in a variety of applications, such as games, education, training, medical treatment, real estate, etc. VR software interaction terminal refers to a hardware device for interacting with a virtual reality environment. These devices typically work in conjunction with VR head displays to provide an immersive user experience. At present, most VR software is operated by gestures or handles in information interaction feedback, for example, in some game places, but due to the gestures or handles, options and action instructions which need to be rotated in the scene are not convenient enough to operate, and the operations can be realized by matching with human bodies to rotate, especially in a certain software progress, the rotation instructions need to be frequently used, the operations of the handles or the gestures can be greatly limited, and the situation that the human bodies need to frequently rotate can also occur, so that the use of VR software is dizzy to the human bodies due to the large-amplitude movement, and unnecessary potential safety hazards are generated. Thus, we provide a rotational interactive terminal for VR software. Disclosure of utility model The utility model aims to solve the technical problems, and provides a rotary interactive terminal of VR software, which can avoid the limitation caused by gesture operation or handle operation when frequent rotation or rotation instructions are needed. In view of the above, the utility model provides a rotary interactive terminal of VR software, which comprises a base, wherein a base is fixed at the center above the base, a bottom post is arranged inside the base, a center table is fixed at the upper end of the bottom post, a bearing is fixed at the upper end of the center table in an assembled manner, a shaft rod perpendicular to the horizontal plane is in interference fit with the inner ring wall of the bearing, a shell is arranged outside the center table, and the surface of the shaft rod is fixedly assembled with the inner wall of the shell through a plurality of uniformly distributed brackets; The upper end of the shell is fixedly penetrated with a rotary handle which is perpendicular to the top of the shell; The inner wall of shell is close to lower extreme position distribution and is fixed with capacitive sensor, the outer wall one end of center platform is fixed with the response piece, and the response piece is copper aluminum alloy material, capacitive sensor's tip is curved surface contact, and with the surface laminating setting of response piece. In detail, the base is a barrel-shaped structure, the inner wall of the base is symmetrically provided with a built-in sleeve in a penetrating mode, the joint position of the built-in sleeve and the base is fixed through welding, the inside of the built-in sleeve is sleeved with a telescopic rod in a sliding mode, one end of the telescopic rod is arranged in the base and fixed with a bottom column through a screw, and the outward end of the telescopic rod is fixed with an anti-falling block. In detail, the surface winding of telescopic link is provided with spring one, and the both ends of spring one are respectively with the terminal surface of built-in cover and the fixed assembly of surface of anticreep piece. In detail, the upper end of the shaft lever is fixedly provided with an inner container, the inner container is positioned at the center of the shell, and the inner container is made of stainless steel materials. In detail, the inside of the inner container is provided with symmetrically distributed springs II, one end of each spring II is welded and fixed on the inner wall of the inner container, and a vibration seat is fixed between the two springs II. In detail, the surface of the vibration seat is fixedly penetrated with a motor, a rotating shaft for driving is arranged in the motor, and an eccentric block is fixedly arranged at the end part of the rotating shaft. In detail, the shell is close to the position of the center table and fixedly and penetratingly provided with a plurality of pin seats, the pin seats are located under the capacitive sensor, the pin seats are identical in number, the inside of each pin seat is slidably sleeved with a bayonet lock, the end part of each bayonet lock is of a curved surface structure, the inside of each pin seat is further provided with a spring III, and two ends of each spring III are fixedly assembled with the surface of each bayonet lock and the inner wall surface of each pin seat respectively. In detail, the surface of the center table is provided with an arc groove, the arc groove is position