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CN-224203664-U - Multimode somatosensory simulated rotary VR equipment

CN224203664UCN 224203664 UCN224203664 UCN 224203664UCN-224203664-U

Abstract

The utility model discloses a multi-mode somatosensory simulation rotary VR device, which solves the problems that a traditional VR device cannot simulate temperature change, gas medium and odor molecule release, so that a viewer lacks more real immersive somatosensory in a plurality of natural scenes, and specifically comprises a multi-dimensional motion seat and VR glasses; the multi-dimensional exercise seat comprises a seat body arranged on a multi-dimensional exercise platform, a functional cabin extending forwards and upwards from the seat body to the front of a viewer, a functional panel arranged on the functional cabin, an atmosphere supply port arranged on the functional panel, and an air supply unit, a water return unit, a control unit and a power supply unit which are arranged in the functional cabin, wherein the atmosphere supply port comprises a water outlet, an air outlet and a water return port, the water outlet is communicated with the water supply unit, the air outlet is communicated with the air supply unit, the water return port is communicated with the water return unit, the control unit is respectively and electrically connected with the air supply unit and the water supply unit and used for controlling the on-off of the air supply unit and the water supply unit, and the power supply unit is electrically connected with the control unit and used for supplying power.

Inventors

  • DENG GUIJUN

Assignees

  • 西安可视可觉网络科技有限公司

Dates

Publication Date
20260505
Application Date
20250516

Claims (10)

  1. 1. A multi-mode somatosensory simulated rotary VR device comprises a multi-dimensional motion seat and VR glasses; The multi-dimensional exercise seat comprises a seat body (1) arranged on a multi-dimensional exercise platform and used for a viewer to sit flat or straddle, and a functional cabin (2) extending forwards and upwards from the seat body (1) to the front of the viewer, wherein a functional panel (21) facing the face of the viewer is arranged above the functional cabin (2); The method is characterized in that: The multifunctional intelligent air conditioner further comprises an atmosphere supply port arranged on the functional panel (21), and an air supply unit (3), a water supply unit (4), a water return unit (5), a control unit and a power supply unit which are arranged in the functional cabin (2); The atmosphere supply port comprises a water outlet (211), an air outlet (212) and a water return port (213), wherein the water outlet (211) is communicated with the water supply unit (4), the air outlet (212) is communicated with the air supply unit (3), and the water return port (213) is communicated with the water return unit (5); the control unit is respectively and electrically connected with the air supply unit (3) and the water supply unit (4) and is used for controlling the on-off of the air supply unit and the water supply unit; the power supply unit is electrically connected with the control unit and is used for supplying power.
  2. 2. The multi-modal somatosensory simulated rotary VR device of claim 1, wherein: the air supply unit (3) comprises a fan (31) and at least one atmosphere adjusting component (32); The fan (31), the atmosphere adjusting component (32) and the air outlet (212) are communicated through an air supply pipeline (33) in sequence; The atmosphere regulating component (32) is a perfuming component and/or a temperature regulating component; the fan (31) and the atmosphere adjusting component (32) are electrically connected with the control unit.
  3. 3. The multi-modal somatosensory simulated rotary VR device of claim 2, wherein: The perfuming assembly comprises an injection pipe (321), an electromagnetic valve (322) and a perfume bottle (323); The injection pipe (321) is communicated with the air supply pipeline (33), and the injection port of the injection pipe is communicated with the perfume bottle (323) through the electromagnetic valve (322); the perfume bottle (323) is filled with atmosphere perfume; The electromagnetic valve (322) is electrically connected with the control unit.
  4. 4. The multi-modal simulated motion vector VR device of claim 3, wherein: The temperature regulating component is a thermoelectric cooling piece (324); The thermoelectric cooling piece (324) is arranged on the side wall of the air supply pipeline (33) close to the air outlet (212) and is electrically connected with the control unit.
  5. 5. The multi-modal simulated rotating VR device of claim 3 or 4, wherein: the water supply unit (4) comprises a water supply bottle (41) and a diaphragm pump (42); The water supply bottle (41), the diaphragm pump (42) and the water outlet (211) are sequentially communicated through a water supply pipeline (43); The diaphragm pump (42) is electrically connected to a control unit.
  6. 6. The multi-modal somatosensory simulated rotary VR device of claim 5, wherein: The air outlet (212) faces the face of the viewer, is closely attached to the lower edge of the water outlet (211), has an included angle with the water outlet (211), and is used for atomizing water drops sprayed out of the water outlet (211).
  7. 7. The multi-modal somatosensory simulated rotary VR device of claim 6, wherein: The water return unit (5) comprises a water return bottle (51) and a water return pipe (52); The backwater bottle (51) is communicated with the backwater port (213) through a backwater pipe (52).
  8. 8. The multi-modal somatosensory simulated rotary VR device of claim 7, wherein: The functional panel (21) is a concave panel; The water return port (213) is arranged near the lower part of the functional panel (21).
  9. 9. The multi-modal somatosensory simulated rotary VR device of claim 8, wherein: an armrest (22) is arranged on one side of the functional cabin (2) close to the viewer.
  10. 10. The multi-modal somatosensory simulated rotary VR device of claim 9, wherein: the front end face of the functional cabin (2) is provided with a buckling type cabin cover (23).

Description

Multimode somatosensory simulated rotary VR equipment Technical Field The utility model relates to VR equipment, in particular to multi-mode somatosensory simulation rotary VR equipment. Background In recent years, virtual Reality (VR) technology has made significant progress in the fields of hardware display, interactive algorithms, and content production. The existing mainstream VR devices mainly build visual and auditory immersive experience through high resolution display screens, head tracking systems and stereo headphones. However, there are still significant technical bottlenecks in the integrity of environmental simulation and multi-sensory synergistic feedback. Specifically, the conventional VR device only integrates visual and auditory channels, but cannot establish a neural coupling mechanism with touch sense, temperature sense and smell sense, and cannot simulate temperature change (such as hot air and cold air), gas medium (such as fog and water mist) and smell molecule release, so that a viewer lacks more real immersive body feeling in snowfield, jungle, flower cluster, waterfall and other scenes. Disclosure of utility model The utility model provides a multi-mode somatosensory simulation rotary VR device, which aims to solve the technical problem that a traditional VR device cannot simulate temperature change, gas medium and odor molecule release, so that a viewer lacks more real immersive somatosensory in a plurality of natural scenes. In order to achieve the above purpose, the present utility model adopts the following technical scheme: A multi-mode somatosensory simulated rotary VR device comprises a multi-dimensional motion seat and VR glasses; the multi-dimensional motion seat comprises a seat body and a functional cabin, wherein the seat body is arranged on the multi-dimensional motion platform and is used for a viewer to sit flat or straddle, and the functional cabin extends forwards and upwards from the seat body to the front of the viewer; the special feature is that: The multifunctional intelligent control system also comprises an atmosphere supply port arranged on the functional panel, and an air supply unit, a water return unit, a control unit and a power supply unit which are arranged in the functional cabin; The atmosphere supply port comprises a water outlet, an air outlet and a water return port, wherein the water outlet is communicated with the water supply unit, the air outlet is communicated with the air supply unit, and the water return port is communicated with the water return unit; The control unit is respectively and electrically connected with the air supply unit and the water supply unit and is used for controlling the on-off of the air supply unit and the water supply unit; the power supply unit is electrically connected with the control unit and is used for supplying power. Further, the air supply unit comprises a fan and at least one atmosphere adjusting component; The fan, the atmosphere adjusting component and the air outlet are sequentially communicated through an air supply pipeline; the atmosphere regulating component is a perfuming component and/or a temperature regulating component; the fan and the atmosphere adjusting component are electrically connected with the control unit. Further, the perfuming assembly comprises an injection pipe, an electromagnetic valve and a perfume bottle; the injection pipe is communicated with the air supply pipeline, and the injection port of the injection pipe is communicated with the perfume bottle through the electromagnetic valve; The perfume bottle is filled with atmosphere perfume; The electromagnetic valve is electrically connected with the control unit. Further, the temperature regulating component is a thermoelectric refrigerating sheet; the thermoelectric refrigerating sheet is arranged on the side wall of the air supply pipeline close to the air outlet and is electrically connected with the control unit. Further, the water supply unit includes a water supply bottle and a diaphragm pump; the water supply bottle, the diaphragm pump and the water outlet are sequentially communicated through a water supply pipeline; The diaphragm pump is electrically connected with the control unit. Further, the air outlet faces the face of the viewer, is closely attached to the lower edge of the water outlet, has an included angle with the water outlet, and is used for atomizing water drops sprayed out of the water outlet. Further, the water return unit comprises a water return bottle and a water return pipe; The backwater bottle is communicated with the backwater port through a backwater pipe. Further, the functional panel is a concave panel; the water return port is arranged below the functional panel. Further, the simulated rotation VR device is felt to attitude, its characterized in that: an armrest is arranged on one side of the functional cabin close to the viewer. Further, the front end face of the functional cabin is provided w