RU2011120905A - SIMULATOR OF THE PARAJUTIST-paratrooper - Google Patents

Abstract

1. The paratrooper simulator containing a fuselage simulator located on the steel base of the simulator, doors and stairs intended for loading personnel into an aircraft, characterized in that an aerodynamic stand placed under the exit door of the aircraft fuselage simulator is additionally introduced into its structure, creating the air flow necessary to keep the paratrooper in the air in a grouped state; manipulators that capture paratroopers for special training parachutes that simulate dynamic impact and attach them to carriages on overpass guides; moreover, each paratrooper wears a helmet with liquid crystal indicators on his head to create virtual space, and in the fuselage simulator, on the outer surface of the fuselage simulator, the space on the aerodynamic stand, along the viaducts are position sensors of the paratrooper's body in three-dimensional space; signals about the position of the body are processed by the control computer and they generate signals that are transmitted to a wearable helmet worn on the user's head with liquid crystal indicators to create virtual space using wireless means of transmitting information; guideways of overpasses have branches and a different trajectory, and in the final phase of reduction different landing angles; sound and vibration support for the flight was introduced into the fuselage simulator, simulating conditions as close as possible to real ones. 2. The paratrooper simulator according to claim 1, characterized in that the control computer records the execution order of the des

Claims (8)

1. The paratrooper simulator containing a fuselage simulator located on the steel base of the simulator, doors and stairs intended for loading personnel into an aircraft, characterized in that an aerodynamic stand placed under the exit door of the aircraft fuselage simulator is additionally introduced into its structure, creating the air flow necessary to keep the paratrooper in the air in a grouped state; manipulators that capture paratroopers for special training parachutes that simulate dynamic impact and attach them to the carriages on overpass guides; moreover, each paratrooper wears a helmet with liquid crystal indicators on his head to create virtual space, and in the fuselage simulator, on the outer surface of the fuselage simulator, the space on the aerodynamic stand, along the viaducts are position sensors of the paratrooper's body in three-dimensional space; signals about the position of the body are processed by the control computer and they generate signals that are transmitted to a wearable helmet worn on the user's head with liquid crystal indicators to create virtual space using wireless means of transmitting information; guideways of overpasses have branches and a different trajectory, and in the final phase of reduction different landing angles; sound and vibration support for the flight was introduced into the fuselage simulator, simulating conditions as close as possible to real ones. 2. The paratrooper simulator according to claim 1, characterized in that the control computer registers the order of actions of the paratroopers, while maintaining the necessary information for subsequent analysis. 3. The paratrooper simulator according to claim 1, characterized in that the control computer, depending on the position of the head, arms, legs, correct grouping at the time of separation of the paratrooper from the fuselage simulator, simulates both a regular situation and a freelance situation, consisting in partial or full parachute failure, transmitting signals to a wearable helmet dressed on the user's head with liquid crystal indicators, in which the corresponding 3D dynamic picture of what is happening is projected. 4. The paratrooper simulator according to claim 3, characterized in that the control computer can set training modes for both regular and emergency situations, weather conditions, terrain, convergence of domes, etc. 5. The simulator of a paratrooper according to claim 1, characterized in that the control computer has software that automatically evaluates the correctness of the actions of the trainees. 6. The paratrooper simulator according to claim 1, characterized in that the training parachutes (main, spare) for the simulator have dimensions and a design that ensures their interaction with the manipulator at the time of capture. 7. The paratrooper simulator according to claim 1, characterized in that the computer controls the manipulator according to the results of assessing the position of the body, grouping the paratrooper and the correctness of the actions in case of an emergency. 8. The paratrooper simulator according to claim 1, characterized in that the landing angle varies according to the data from the control computer depending on the actions of the paratrooper to control the canopy in virtual space in the training zone of the paratrooper at the time before landing due to a change in the angle of inclination of the overpass guide along in relation to the landing site.