RU2120396C1 - Propulsor - Google Patents

Abstract

FIELD: aeronautical engineering. SUBSTANCE: propulsor is provided with air intake mounted on tail section of fuselage and slotted exit nozzles mounted in nose section of fuselage at the top and on the wing. Engine is mounted in fuselage with turbine forward in way of flight and with compressor opposite to flight. Entire gas flow is fed to slotted nozzles mounted along leading edge of wing and over perimeter of upper portion of fuselage frame. EFFECT: enhanced efficiency of use of fuel. 3 dwg

Description

 The invention relates to aircraft manufacturing and relates to the installation of an engine on an aircraft, the device and placement of an engine for aircraft, in which the engine is mounted in or on the fuselage.

 The layout of the Hornet aircraft was adopted as a prototype (Wings of the Fatherland Magazine No. 9, 1996).

With all the excellent performance, this aircraft has significant disadvantages:
a) high landing speed (250 km / h), requiring a high-class landing strip, but all decent airfields are under nuclear missile sight, which means that they cannot be counted on when military operations are launched in the depths of the continent;
b) 8 tons of kerosene per 750 km of range - wasteful; the cost of a flight, its departure from a modern airfield with its contents and contents inflict economic damage on their country no less than the effect of their weapons on the enemy;
c) a significant part of the energy of the fuel is emitted uselessly in the form of gases with high temperature and speed into the airspace by the propulsion of the aircraft.

 Such an attack aircraft does not meet the requirement: cost - efficiency.

 As an analogue of a propulsion device, an aircraft propulsion device is adopted, which is known from US patent N 3807663, B 64 C 21/04, 1974.

 The objective of the invention is the creation of an aircraft propulsion device containing the main slotted exit nozzles located along the leading edges of the wing of the aircraft and intended for the outflow of a gas stream leaving the turbine of a turbojet engine, the air intake of which is mounted on the fuselage, characterized in that it is provided with an additional slotted nozzle, which is located in the front upper part of the fuselage, and the turbojet engine is located in the fuselage with a turbine from the side of the nose of the fuselage and with the compressor from the sides the rear fuselage, which also is an air inlet for supplying air to the compressor.

 FIG. 1 - a general view of the aircraft with the placement of air intakes, engine, the entire gas path in the plan.

 FIG. 2 - distribution of the gas flow of the engine to the slotted nozzle of the fuselage and center section, profile.

 FIG. 3 - the center section in the context.

 The air intakes 1 are made on the rear of the fuselage, which is pointed and developed over the area in the vertical plane. Such their placement (behind the center of gravity, center of pressure) improves flight stabilization. Inside the rear part of the fuselage, deflectors 2 directing air to the engine compressor 3. The heat pipe 4 of the engine with the output end is fixed to the spar 5. From the spar 5 and to the front edge of the wing in the center section, the bulkheads 11 form a sealed with thermal protection, hydraulically connected through a hole 6 with a gas the engine path and through the windows 12 in the front spar 7 with the front of the wing 13.

 Thus, the gas flow of the engine to the wing slotted nozzles 8 and to the slotted nozzle of the fuselage 9, which is ennobled by the fairing 10, is implemented. On the wing there are ridges 14 that prevent the flow of gases.

 From the FIGS. Fig. 1-3 shows the operation of the propulsion device: air enters through the slotted air intakes 1 into the aft part of the fuselage in the form of flat plume and deflectors 2 are sent without turbulence to the engine 3. The gases exhausted on the engine turbine enter the flame tube 4, from which they directly enter the slotted pipe a nozzle 9 located along the perimeter of the upper part of the frame, and through the opening 6 enter the sealed part of the center section sealed with heat insulation, from which through the windows 12 made in the front spar 7 enter the wing nozzle 8. Thus Zoom, the entire gas flow supplied to the engine in front of the aircraft, produces thrust, applied in front of the center of gravity and center of pressure, which contributes to stable flight.

 The gases exhausted in the nozzles 8, 9, flowing around the upper part of the edge and the fuselage, discharge the base of the atmospheric column, creating a significant increase in lift, while the fuselage becomes a carrier.

 By adjusting the flow of gases through the nozzle 8, maneuverability is easily implemented, inaccessible to that created by the aircraft aerodynamic rudders.

 Ideally, the range of the gas jets from the wings and the fuselage nozzle should not exceed the length of the chord of the wing, the length of the fuselage, respectively. For example, for a cruiser flight mode, there should not be an aerodynamic track of the aircraft.

 The proposed propulsion makes the aircraft inconspicuous for thermal and acoustic means of guidance.

 A slight increase in energy losses caused by thermal radiation, hydraulic resistances is more than compensated by an increase in lifting force and carrying capacity.

 The use of a slot nozzle as a propulsion aircraft for an attack aircraft expands the speed range by reducing the minimum speed that is needed when attacking ground targets, and exit the attack at high speed.

 Low take-off and run speeds make an aerodrome unnecessary, increase the effective range, expand the geography of the aircraft, and allow maintaining aviation units in the state of military units.

Claims (1)

 Aircraft mover containing main slotted exit nozzles located along the leading edges of the wing of the aircraft and intended for the outflow of a gas stream leaving the turbine of a turbojet engine, the air intake of which is mounted on the fuselage, characterized in that it is provided with an additional slotted nozzle, which is located in the front upper part fuselage, and the turbojet engine is located in the fuselage with a turbine from the side of the nose of the fuselage and with the compressor from the side of the rear of the fuselage, where t There is also an air intake for supplying air to the compressor.

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