Architecture for feeding fuel to a power plant for driving a rotary wing of a rotorcraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/22
F02C-007/236
B64D-037/00
B64D-037/04
B64D-037/14
출원번호
US-0590531
(2012-08-21)
등록번호
US-8966904
(2015-03-03)
우선권정보
FR-11 02736 (2011-09-09)
발명자
/ 주소
Lollini, Lionel
Morizot, Damien
출원인 / 주소
Airbus Helicopters
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
1인용 특허 :
1
초록▼
An architecture for feeding fuel to a power plant (1) of a rotorcraft, which power plant comprises a plurality of engines (2, 3) individually fed with fuel by respective assemblies (4, 5). Each assembly (4, 5) comprises a fuel feed circuit (9, 10) for feeding a safe tank (6, 7) from a fuel tank (8)
An architecture for feeding fuel to a power plant (1) of a rotorcraft, which power plant comprises a plurality of engines (2, 3) individually fed with fuel by respective assemblies (4, 5). Each assembly (4, 5) comprises a fuel feed circuit (9, 10) for feeding a safe tank (6, 7) from a fuel tank (8) that is common to the assemblies (4, 5). Together the feed circuits (9, 10) form a circuit for forced both-way transfer of fuel from either one of the assemblies to the other via the common tank (8) and an intercommunication (21) interposed between the safe tanks (6, 7), which safe tanks are fitted with respective spillage devices (17, 18, 19, 20) for transferring excess fuel to the common tank (8).
대표청구항▼
1. Rotorcraft equipment constituted by an architecture for feeding fuel to a power plant comprising a plurality of engines for driving at least one rotary wing of the rotorcraft in rotation, the architecture comprising: fuel feed assemblies that are allocated to supplying fuel to respective engines;
1. Rotorcraft equipment constituted by an architecture for feeding fuel to a power plant comprising a plurality of engines for driving at least one rotary wing of the rotorcraft in rotation, the architecture comprising: fuel feed assemblies that are allocated to supplying fuel to respective engines; each assembly comprising a fuel tank and a safe tank that is fed with fuel from the fuel tank by a feed circuit;the feed circuit including at least one feed pump dipping into the safe tank and at least one ejector dipping into the fuel tank, the feed pump taking fuel from capture and delivery of the fuel by the ejector, and driving the fuel into the feed circuit so that it flows from the fuel tank towards the safe tank; andthe safe tank being provided with a spillage device enabling excess fuel therein to be emptied spontaneously therefrom;a supply circuit for supplying fuel from the safe tank to the engine with which the assembly is associated, the supply circuit including at least one supply pump that causes fuel to flow within the supply circuit from the safe tank to the engine;an intercommunication that is interposed between the assemblies and that forms an excess fuel spillway from one of the assemblies to the other; anda transfer circuit for forced transfer of fuel from one of the assemblies to the other, the transfer circuit including at least one transfer pump for delivering both-way flow of fuel selectively from one of the assemblies to the other;wherein the fuel tank included in each of the assemblies is at least one tank common to both assemblies, the ejectors of the feed circuits included in each of the assemblies dipping into the common tank. 2. Rotorcraft equipment according to claim 1, wherein the feed circuits included respectively in each of the assemblies together form the transfer circuit via the common tank, the feed pumps included respectively in the feed circuits of each of the assemblies together forming the transfer pump for driving both-way flow of fuel selectively from either one of the assemblies to the other. 3. Rotorcraft equipment according to claim 1, wherein the intercommunication is interposed between the safe tanks included respectively in each of the assemblies, forming an excess fuel spillway from one of the safe tanks to the other. 4. Rotorcraft equipment according to claim 3, wherein the intercommunication leads to the insides of both of the safe tanks in the top portions of the safe tanks and upstream from spillage devices included respectively in each of the safe tanks. 5. Rotorcraft equipment according to claim 1, wherein the intercommunication forms a member for spontaneously feeding either one of the safe tanks in the event of a failure of the fuel feed pump included in the feed circuit allocated to that safe tank. 6. Rotorcraft equipment according to claim 5, wherein there is a single feed pump for each of the assemblies, the feed circuit of each of the safe tanks being of a capacity that is adapted to feeding both safe tanks simultaneously. 7. Rotorcraft equipment according to claim 1, wherein at least one of the feed pumps is a booster pump forming a pump for supplying fuel to the corresponding engine. 8. Rotorcraft equipment according to claim 1, wherein a pump of the power plant that is driven by at least one corresponding engine forms a fuel supply pump of said engine. 9. Rotorcraft equipment according to claim 1, wherein the common tank is formed by a single compartment housing both of the safe tanks, each included in a respective one of the assemblies. 10. Rotorcraft equipment according to claim 1, wherein: the common tank is made up from a plurality of compartments with free fluid-flow communication between one another; andat least one of any one of the compartments making up the common tank houses at least one safe tank included in at least one of the assemblies. 11. A rotorcraft fitted with a power plant including a plurality of engines that are fed with fuel from a fuel feed architecture according to claim 1. 12. A rotorcraft according to claim 11, wherein: each of the engines fitted to the rotorcraft is supplied with fuel independently from the safe tank that is respectively allocated thereto;the safe tanks are fed with fuel by means of feed circuits that are respectively specific thereto, from a common fuel tank; andthe fuel feed circuit of a safe tank constitutes a fuel feed circuit of the other safe tank in the event of a failure of the feed circuit of said other safe tank, fuel being fed via the intercommunication that participates in the circuit for forced transfer of fuel from one of the assemblies including a respective one of the safe tanks to the other.
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이 특허에 인용된 특허 (1)
Grafwallner Franz (Tegernsee DEX) Luger Peter (Hohenkirchen-Siegertsbrunn DEX) Peller Helmuth (Hohenkirchen-Siegertsbrunn DEX) Muller Martin (Hohenkirchen-Siegertsbrunn DEX) Malyshev Valentin V. (Mos, Fuel supply system.
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