Distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft

A vertical take-off and landing, aircraft technology, applied in vertical take-off and landing aircraft, aircraft, unmanned aircraft and other directions, can solve the problems of limited range of aircraft, low battery energy density, low power weight of internal combustion engine, etc., to achieve fuel utilization efficiency High, overcome the effects of weak control ability and light weight of the structure

Active Publication Date: 2017-12-22
TSINGHUA UNIV
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  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The internal combustion engine has a relatively small power and weight, and high-power internal combustion will bring a weight penalty; the electric propulsion system can run at super-rated power for a short time, and the power and weight are relatively high, but the energy density of the battery is low, and the range of the aircraft using electric propulsion is limited

Method used

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  • Distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft
  • Distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft
  • Distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft

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Embodiment Construction

[0033] Take the aircraft adopting 2 internal combustion engine propulsion systems and 2 electric propulsion systems as an example for further explanation.

[0034] in the attached figure 1 Among them, the two internal combustion engine propulsion systems are located on the upper side of the wing, and are installed symmetrically on the left and right wings. The system is located on the underside of the wing and is installed symmetrically on the left and right wings. The propellers of the two electric propulsion systems are forward and reverse, so that the counter torques cancel each other out. The installation position of the internal combustion engine propulsion system is close to the fuselage, and the installation position of the electric propulsion system is close to the wing tip, so that the propeller disc of the internal combustion engine propulsion system and the propeller disc of the electric propulsion system have a certain distance to avoid mutual interference.

[003...

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Abstract

The invention discloses a distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft which comprises a fuselage, wings, a vertical tail wing, a landing gear, an elevon, a rudder, an internal combustion engine propulsion system, an electric propulsion system, a fuel oil tank, a battery pack and a flight controller. According to needs of cruising power, an internal combustion engine is selected, insufficient thrust and power during vertical take-off and landing are provided by the electric propulsion system, by the propulsion system collocation, the problem of great power differences of vertical take-off and landing and cruising of a vertical take-off and landing aircraft can be solved, and the problem of insufficient control ability of a tail-mounted aircraft in the vertical takeoff and landing process can be solved by distributed propulsion of a plurality of propulsion systems. The distributed propelling tail-mounted vertical take-off and landing fixed wing aircraft has the advantages of high push / heavy ratio, high energy utilization rate and strong control ability and the like.

Description

technical field [0001] The invention belongs to the technical field of aircraft design. Background technique [0002] The propulsion system is a key part of a vertical take-off and landing fixed-wing aircraft. Usually, medium and large vertical take-off and landing fixed-wing aircraft use internal combustion engines such as turboshaft engines as the propulsion system, and small vertical take-off and landing fixed-wing aircraft use motors and batteries as the propulsion system. The number generally does not exceed two. In the vertical take-off and vertical landing stages, the vertical take-off and landing fixed-wing aircraft requires the thrust of the propulsion system to exceed the gravity of the aircraft, so the power demand of the propulsion system is relatively large; Thrust is mainly used to overcome flight resistance. Since fixed-wing aircraft have a large lift-to-drag ratio (usually more than 5), the power required for the propulsion system during cruise flight is sma...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64C29/00B64C29/02B64D27/06B64D27/24
CPCB64C29/0025B64C29/02B64D27/06B64D27/24B64D2027/026B64U50/11B64U10/25B64U70/80B64U50/19B64U30/20B64U50/13Y02T50/60
Inventor 王向阳朱纪洪
Owner TSINGHUA UNIV
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