Mechanical structure for multi-axis wireless movement method of flight simulator

Abstract

The invention discloses a mechanical structure for a multi-axis wireless movement method of a flight simulator. The mechanical structure employs a plurality of gyroscope-type ring structures and comprises an outer ring, an inner ring, a central ring, a base, servo motors, a simulator cockpit, a power supply system and a wireless receiving and transmitting apparatus, wherein the base is fixedly connected with the outer ring; an X-direction servo motor and an X-direction support shaft are connected with a Y-direction support shaft together so as to control X-direction rotation; a Y-direction servo motor on the Y-direction support shaft and the Y-direction support shaft are staggered from X direction by 90 degrees, and are internally connected with the central ring so as to control Y-direction rotation; a Z-direction servo motor and a Z-direction support shaft on the central ring are staggered from Y direction by 90 degrees, and are internally connected with the simulator cockpit so as to control Z-direction rotation. The simulator cockpit can rotate around three axes of X, Y and Z in a three-dimensional coordinate, thus movement change situation of an airplane can be simulated. The mechanical structure for the multi-axis wireless movement method of the flight simulator disclosed by the invention has the advantages of improving the training efficiency, saving the training cost, guaranteeing flying security, reducing pollution, being simple in structure and low in cost.

Description

technical field [0001] The invention relates to the mechanical structure of the universal rotation action of the flight simulator, in particular to the mechanical structure of the multi-axis wireless motion method of the flight simulator. Background technique [0002] The so-called simulation of a flight simulator is the process of using one system to simulate another system. It reproduces various characteristics of the real system through the interaction between the operator, the simulated system and the working environment. Simulation training is the comprehensive use of modern simulation technology with computer technology as the core to describe and simulate the future environment, actions, processes and performance, so that trainees can get a highly simulated training experience close to the real environment. The use of flight simulator training has the advantages of improving training efficiency, saving training funds, ensuring flight safety, and reducing environmenta...

AI Technical Summary

Problems solved by technology

When realistically simulating the feeling of the human body during flight, it is limited by the structure of the equipment, and it is impossible to complete most of the real human body feeling and changes in the gravity field during flight movements.

Traditional simulators keep their seats still when performing various actions and stunts. Individual high-end products can only simulate the feeling of a certain small inclination, but cannot simulate the approximate real feeling of the human body, just like playing video games.

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