360-degree omni-directional overload flight simulator

A flight simulation and simulator technology, applied in the field of flight simulation training facilities, can solve problems such as inconsistencies

Active Publication Date: 2014-06-25
陈京波
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  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to solve the defect in the prior art that the trainee's center of gravity does not match the actual situation of the position of the center of gravity when the aircraft is flying, the inv...

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Embodiment Construction

[0026] The center of gravity of trainees in existing flight simulators is on the intersection of simulator pitch, roll, and yaw flight attitude axes, and it is difficult for pilots (ie trainees) to feel both translation and rotation during simulated training. The actual situation is that when the aircraft is flying, the pilot's center of gravity is usually at the front end of the aircraft, so when the aircraft rolls, rolls, and spins, the pilot (or trainee) will feel translation and rotation at the same time. The technical problem to be solved by the present invention is that, by providing a 360-degree omnidirectional overload flight simulation simulator, the simulation of the real aircraft rolling, rolling, and swinging during flight is realized, that is, the 360-degree omnidirectional Overload flight simulation. Provide trainees with a flight experience of translation and rotation at the same time; at the same time, realize the synchronization of highly immersive visual imag...

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Abstract

The invention discloses a 360-degree omni-directional overload flight simulator. The center of gravity of a trainee is in the front of the center of the gravity of an airplane like in the real flight process. The 360-degree omni-directional overload flight simulator comprises a vertical lifting system, a first movement system, a second movement system and a flight cockpit system, wherein an intelligent control system has control over a front-and-rear pitching motor and a left-and-right rotating motor, the center of gravity of the trainee is in the front of the center of gravity of the airplane like in the real flight process, and the pilot can feel transverse movement and rotation at the same time; the intelligent control system converts various rotation overload motions of the vision into electric signals, and controls a stepping motor to synchronously move in the X direction, the Y direction and the Z direction. When the 360-degree omni-directional overload flight simulator is used, the training cost can be reduced, the training effect can be ensured, and the airplane driving training time of trainees such as trainee pilots can be shortened.

Description

technical field [0001] The invention relates to the technical field of flight simulation training facilities, in particular to a 360-degree omnidirectional overload flight simulation simulator. Background technique [0002] Flight simulation training is to construct a virtual "real" flight environment for pilots. The environment here mainly refers to two parts: one is the machine environment, that is, the aircraft cockpit, equipment, etc.; the other is the external environment, mainly referring to natural conditions, geographical conditions, etc. In terms of the machine environment, the simulation of aircraft motion and dynamics (such as acceleration, seat buffeting, etc.) In other words, the cockpit must have a sense of realism and presence. In our country, people's awareness of the important role of flight simulators in the aviation field is constantly improving, and aviation technology and aviation industry have developed rapidly. The support has been strengthened, and...

Claims

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Application Information

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IPC IPC(8): G09B9/08
Inventor 陈京波
Owner 陈京波
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