Water rocket assembling and launching system used in cooperation with VR simulation
A launch system and water rocket technology, applied in the field of VR, can solve the problems of not being able to connect virtual reality with reality, and poor practicability, and achieve the effects of enhancing assembly experience, improving assembly efficiency, and enhancing practicability
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Embodiment 1
[0041] like Figure 1-Figure 6 As shown, this embodiment discloses a water rocket assembly and launch system for use with VR simulation, including a support platform 1 and a VR experience platform. The support platform 1 is provided with a part placement platform 2 and a launch platform 3. The parts placement platform 2 has a part placement area 4 and a finished product placement area 5, the parts placement area 4 is used to place the unassembled water rocket parts, and the finished product placement area 5 is used to place the launch device 6;
[0042] The parts placement platform 2 includes a first groove 7 and a slide plate 8, the first groove 7 is communicated with the right side wall of the parts placement platform 2, the slide plate 8 is slidably arranged in the first groove 7, and the finished product placement area 5 is provided On the sliding plate 8, the launching platform 3 is provided with a second groove 9 located on the same horizontal line as the first groove 7....
Embodiment 2
[0067] This embodiment is further optimized on the basis of Embodiment 1. In this embodiment, the chute 15 and the slide rail 14 are both T-shaped structures;
[0068] In the actual use process, in order to prevent the sliding plate 8 from disengaging from the first groove 7 and the second groove 9, the sliding groove 15 and the sliding rail 14 are both set to a T-shaped structure. During the sliding process of the sliding plate 8 Since there is a limit between the T-shaped sliding groove 15 and the T-shaped sliding rail 14 , the sliding plate 8 can stably slide in the sliding grooves 15 on the first groove 7 and the second groove 9 through the sliding rail 14 .
Embodiment 3
[0070] like Figure 7 As shown, this embodiment is further optimized on the basis of Embodiment 1. In this embodiment, a screw nut 29 is fixedly arranged on the rear side of the liquid crystal display screen 27, a motor 31 is arranged on the prompt board 26, and the A ball screw 30 is fixedly installed at the output end, and a bearing seat 32 is also provided on the prompt board 26. The ball screw 30 is threadedly matched with the screw nut 29 and is rotatably matched with the bearing seat 21. The side of the liquid crystal display screen 27 is also provided with a sliding A guide rod is provided on the support table 1, and the guide rod is slidably matched with the liquid crystal display screen 27 through the sliding sleeve;
[0071] In the actual use process, when the user assembles the water rocket, due to the different height of each user, the user with low height needs to look up at the LCD screen 27, which will cause physical fatigue and affect the user's experience. 31...
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