NL1001992C1 - Protection of aircraft engines from birdstrike damage - Google Patents

Abstract

A fan-jet engine (1) is mounted in a nacelle (12) suspended (10) below the aircraft wing (11). Extensions (5, 9) of the engine hub (4) carry arrays of strong, flexible plastic spokes. These spin to form two parabolic flails (7, 8) in front of the air intakes (14, 2). The intake (2) serving the high pressure compressor (3) has two levels of protection. Flails could be retracted into the main hub and extended only during the relatively low-speed manoeuvres of take-off and landing, when the risk of birdstrike is greatest and stresses on the flails lowest. The hub could contain reduction gearing.

Description

The invention relates to a device for the protection of jet engines of aircraft against collisions with loose objects, such as flying birds. The invention relates to a device for protecting jet engines of aircraft against collisions with loose objects, such as flying birds, in which the air inlet of the nacelle with a number of rod-shaped protective elements is at least partially shielded.

Bird strikes can occur, especially when aircraft are taking off and landing. When larger and heavier birds and / or larger flocks of smaller birds get into the jet engines of an aircraft, they can damage the turbines therein and cause bending and breakage of turbine blades. As a result, the turbine rotor becomes unbalanced, which affects the operation of the jet engine because it then runs irregularly, loses power and may even catch fire. Therefore, aircraft hit at takeoff often have to abort takeoff and make a forced landing. There is a high risk of serious accidents in bird strike landings. In any case, on the one hand there are high repair costs and 25 replacement costs of the engines and passenger delays, as well as operating losses and sometimes passenger claims for the airlines in connection with the delays.

A device according to the preamble is known from NL-A-30 8600351. A number of fixedly arranged rod-shaped elements are arranged in helical form for the air inlet of the jet engines. The drawback here is that the objects, such as birds, are pressed against the grating elements, partially clogging them and sometimes eventually pushed through the elements.

The object of the invention is to overcome this drawback and to provide an increased protection of an aircraft jet engine, which is achieved in that the hub of the turbocharger of the jet engine is provided on the front with a protruding hub part, which extends up to a distance outside the air inlet of the motor gondola extends, wherein this hub part near its outer end is provided with a first series of freely flexible impact members of high-quality material, which, when rotating the hub part, extend beyond the air inlet of the motor nacelle and this inlet of the jet engine with a substantially parabolic rotating body substantially enveloping.

By applying the invention it is achieved that when the protection device is switched on, for example at take-off or landing of the aircraft, a rotating impact mill is created in front of the motor gold inlet, which moves away from the engine nacelle inlet by means of the rapidly rotating impact elements, or cuts into very small pieces which, when moved by the jet engine, present practically no danger.

According to a preferred embodiment of the invention, which is specially intended for so-called Fanjet engines, the protruding hub part is divided into a first protruding part, which in turn is extended with a second protruding part, whereby near the transition from the first hub part to the second hub portion a second series of freely flexible impact members are provided which, when rotating the hub portion, extend beyond the air inlet of the turbocharger and encase it with a second substantially parabolic rotating body.

1001992 3

Moreover, by this doubling, the inflow direction protects the second impact mill additionally the turbocharger, in which the combustion takes place. After this, the chance that heavier birds or parts of birds will enter the turbocharger is extremely small.

The invention will now be further elucidated with reference to the accompanying drawing of an exemplary embodiment.

The drawing shows a cross-section over an aircraft wing from which a jet engine is suspended, which is provided with a protection device according to the invention.

According to the drawing, a jet engine is generally indicated by 1, of the known so-called Fanjet type, 15 mounted under the aircraft wing 11 by means of the suspension 10. Around the jet engine 1 is the nacelle 12, within which the actual jet turbine engine 1 is located. , in which the combustion takes place, is secured by means of supports 13. This turbine 1 has an air inlet 2, while the turbine blades of the first turbocharger stage are indicated by 3. Behind this are the subsequent stages in which combustion takes place, while the outlet 16 allows the propulsion jet to flow out.

25 A so-called Fanjet is shown in the drawing.

Here, on the outside of the jet turbine 1 and within the engine nacelle 12, the protruding fan section with the turbine blades 15 is located. There is no combustion in this, and the air jet from the ring-shaped outlet 17 envelops the combustion jet from the outlet. 16.

According to the invention, the main hub 4 of the turbocharger 3 of the jet engine at the front carries a first protruding part 5, which is again extended by a second protruding part 9, which extends to a distance 1 00 1992 4 outside the air inlet 1 of the nacelle 12. reaches. In this case, this hub portion 9 is provided near its outer end 6 with a first series of freely flexible impact members 7 of high-quality material. These percussion members extend at rotation of the hub portion 5,9 outside the air inlet 14 of the engine nacelle 12 and substantially enclose this inlet 14 of the jet engine with a first, substantially parabolic rotating body.

Here, the first impact mill 10 in flow direction acts to protect the entire engine, which need not be a Fanjet, as shown in the drawing. In the case of a Fan jet, this is some protection for the outdoor unit with the fan blades, which only provide an air jet.

According to a preferred embodiment of the invention, which is specially intended for so-called Fanjet engines, a second series of freely flexible impact members 8 are arranged near the transition from the first hub part 5 to the second hub part 9. This second series of impact members 8 when rotating the hub portion 5 extend beyond the air inlet 2 of the turbocharger 1 and enclose it with a second, substantially parabolic rotating body.

Moreover, by this doubling, the second rotary body additionally protects the heart of the jet engine in which the combustion takes place.

According to another embodiment, the hub parts 5, 9 with the associated striking members 8, 7 are each retractable and extendable in and out of the main hub 4. This enables the protective device according to the invention to be actuated only when take-off and landing of the plane. Here, the flight speeds are relatively low, such as 2-300 km / h, so the strength requirements for the device may be lower and may not have to meet the cruising speeds of 950-1100 km / h of the jet aircraft at larger height.

In yet another embodiment, the first and second hub portions 5, 9 are freely rotatable relative to 5 of the main hub 4. If the one or more percussion members 7, 8 have an aerodynamic profile, they are driven by the flying wind and leave them connected thereto rotate hub sections 5, 9.

According to a suitable embodiment, the 10 hub sections 5, 9 are driven by the hub 4 and these hub sections 5, 9 in turn give the rotary drive to one or more impact members 7, 8. The drive of the hub sections 5, 9 through the hub 4 via a reduction gear (not shown).

According to an effective embodiment, the one or more impact members 7, 8 consist of strong plastic threads, which are for instance reinforced with plastic fibers (not shown).

In another embodiment, the one or more percussion members 7, 8 consist of strong metal wires, such as titanium wires.

In a final embodiment (not shown) of the device according to the invention, a number of drivable unwinding and winding reels are accommodated in the hubs 5, 9 for the one or more striking members 8, respectively. 7, which can be moved out and into the hubs 5, 9.

1001992

Claims (10)

Device for protecting jet engines of aircraft against collisions with loose objects, such as flying birds, in which the air inlet of the nacelle with a number of rod-shaped protective elements is at least partially shielded, characterized in that the hub (4) of the Turbocharger of the front jet engine 10 is provided with a protruding portion (5, 9) that extends beyond the air inlet (14) of the engine nacelle (12), this hub portion (9) near its outer end (6 ) is provided with a series of freely flexible impact elements (7) of high-quality material, which extend beyond the air inlet (14) of the engine nacelle (12) when the hub part (5, 9) is rotated and when the hub hub portion (5, 9) essentially enveloping this inlet (14) of the jet motor (1) with a substantially parabolic rotary body. 2. Device according to claim 1, characterized in that the protruding hub part is divided into a first protruding part (5) which is again elongated with a second protruding part (9), wherein near the transition from the first hub part (5) to the second hub portion (9) is provided with a second series of freely flexible impact members (8) which, when rotating the hub portion (5), extend beyond the air inlet of the turbocharger (1) and rotate them with a second substantially parabolic rotation envelop the body. Device according to claim 1 or 2, characterized in that the first and the second hub portion 1001992 (5, 9) with the associated impact members (7, 8) are each retractable in and out of the main hub (4) . i Device according to one or more of claims 1 to 3, characterized in that the first and second hub parts (5, 9) are freely rotatable with respect to the main hub (4). Device according to one or more of claims 1 to 4, characterized in that the one or more impact members (7, 8) have an aerodynamic profile through which they are driven by a flywheel and the hub parts (5, 9) connected thereto. ) rotate 15. Device according to one or more of claims 1 to 5, characterized in that the hub sections (5, 9) are driven by the hub (4) and in turn the one or more impact members (7, 8) rotating drive, the hub parts (5, 9) being driven by the hub (4) via a reduction gear. Device according to one or more of claims 1 to 6, characterized in that the one or more impact members (7, 8) consist of strong plastic wires. Device according to one or more of claims 1 to 7, characterized in that the plastics of the impact members (7, 8) are reinforced with carbon fibers. Device according to one or more of claims 1 to 6, characterized in that the one or more 100 1 9 92 impact members (7, 8) consist of strong metal wires, such as titanium wires. Device according to one or more of claims 1 to 9, characterized in that the hubs (5, 9) house a number of drivable reels and reels for one or more percussion members (8, 7 respectively). ), which can be moved out and into the hubs (5, 9). 1001992