Abstract: Disclosed herein is an exemplary embodiment of a system for driving a slat of an aircraft. The system includes first and second hinge support elements of a wing structure, a first arm device, a second arm device, and a third arm device. Also disclosed is an aircraft having the system, an aircraft wing having the system, and a method for driving a slat of an aircraft. The system utilizes a particular configuration of connection junctions, which rotatably connect the arm devices and the hinge support elements.

Abstract: A container designed for carrying payload and being removably installable and dimensioned to fit in a cargo bay of an aircraft. Included in the container is a payload compartment having space defined by the payload compartment for carrying the payload. A heat exchanger is installed within the container to perform heat exchange operation for the payload using a coolant. A heat exchanger control unit controls the heat exchange operation of the heat exchanger between the payload and the heat exchanger using an internal circuitry.

Abstract: In an aircraft including a cockpit, a unit for monitoring the situation of the aircraft and a radio communication unit, the device for aiding the ground rolling is configured to: acquire, from the monitoring unit, information the situation of the aircraft and determine predicted positions of the aircraft for a set of future instants, and for each vehicle of a set of other vehicles situated on the surface of the airport: acquire, from the radio communication unit, information regarding the situation of the vehicle, which information is transmitted by this vehicle, determine predicted positions of the vehicle and calculate a distance between the predicted position of the aircraft and the predicted position of the vehicle for each instant of the set of future instants and compare this distance with a predetermined distance threshold and, emit an alert in the cockpit if this distance is less than this distance threshold.

Abstract: An aircraft wing has a fixed wing portion and a trailing edge flap movable with respect to the fixed wing portion to define a gap between the fixed wing and the flap. A seal assembly has a first rigid seal member fixed to the fixed wing portion and a second resilient seal member fixed to an upper surface leading edge portion of the flap. The trailing edge flap is deployable between a first flap position in which the trailing edge flap conforms to a profile of the fixed wing portion, a second flap position in which the trailing edge flap is deflected upwardly from the first flap position, and a third flap position in which the trailing edge flap is deflected downwardly from the first flap position. In the first flap position the first seal member contacts the second seal member to at least partially seal the gap, and in the second flap position the first seal member presses against the second seal member and deflects the second seal member to at least partially seal the gap.

Abstract: In order to allow robust assembly between a structural element and a self-stiffened panel comprising a skin and a stiffening structure formed of a network of ribs extending out from a first face of the skin, the structural element comprises at least one end formed of terminal tabs separated by cut-outs delimited by the terminal tabs and applied to the first face of the skin at an end part of the skin. In addition, the stiffening structure comprises at least one end formed of several terminal ribs extending respectively through the cut-outs. Finally, each of the terminal tabs is fixed to the end part of the skin via through-fixing elements.

Abstract: A tie rod includes an elongate tie rod body of substantially uniform cross-section, the tie rod body comprising at least eight columns that run parallel to each other and are placed in a circumferential formation around a central axis of the tie rod.

Abstract: A method for producing a smooth aerodynamic surface of an aircraft component is depicted and described. The method includes: provision of an aircraft component with an aerodynamic surface, which has an uneven section, introduction of a liquid or viscous, uncured sealing compound into the uneven section, introduction of a solid, precured sealing body into the uneven section in such a way that the sealing body presses into the sealing compound until the sealing compound at least partially surrounds the sealing body, curing of the sealing compound.

Abstract: A structural composite component, in particular for an aircraft or spacecraft, has a lightning strike protection layer, and a composite battery comprising a cathode layer, wherein the lighting strike protection layer is formed integrated with the cathode layer.

Abstract: A passenger seat arrangement for a transport vehicle has at least one first passenger seat or row of seats having a first backrest, at least one second passenger seat having a second backrest which, by its rear side, faces the rear side of the first backrest, and a seat supporting frame. The seat supporting frame comprises a first backrest reinforcing strut which is arranged along the first backrest at a first inclination angle with respect to the horizontal, and a second backrest reinforcing strut which is arranged along the second backrest at a second inclination angle, supplementary to the first inclination angle, with respect to the horizontal.

Abstract: A galley cooling system for installation in a transportation means, in particular an aircraft, comprises a cooling device comprising a coolant circuit configured to be flowed through with a coolant. The cooling system further comprises a first fluid line configured to be flowed through with a first fluid and being thermally coupled with the coolant circuit to transfer heat from the first fluid line fluid to the coolant circuit coolant, and a second fluid line configured to be flowed through with a second fluid and being thermally coupled to the coolant circuit to transfer heat from the coolant circuit coolant to the second fluid line fluid. The second fluid line comprises a first portion integrated into or arranged adjacent to a galley worktop, the first portion of the second fluid line being configured to be flowed through with the second fluid in a direction parallel to the worktop.

Abstract: A method for repairing a sandwich composite structure comprising a pinned foam core. In the sub-region in which the pinned foam core is damaged, the at least one upper or lower cover layer is removed as far as the pinned foam. The pinned foam core is removed. A pinned replacement foam core is inserted, the pinned replacement foam core being impregnated with a resin. An upper or lower replacement cover layer is applied. The pinned replacement foam core and optionally the upper or lower replacement cover layer are cured.

Abstract: A drive system for rotating a wheel of an aircraft landing gear is disclosed including a motor operable to rotate a drive pinion via a drive path; and a driven gear adapted to be attached to the wheel so as to be capable of rotating the wheel. The drive system has a drive configuration in which the drive pinion is capable of meshing with the driven gear to permit the motor to drive the driven gear via the drive path. The drive path comprises a first compensating gear mounted on a common drive shaft with the drive pinion so as to be capable of rotating in tandem with the drive pinion, and a second compensating gear which is meshed with the first compensating gear. One of the drive pinion and the driven gear comprises a roller gear having a series of rollers arranged to form a ring, each roller being rotatable about a roller axis, and the other of the dive pinion and the driven gear comprises a sprocket.

Abstract: A passenger seat arrangement for installation in an aircraft comprises at least one seating unit comprising a backrest element and a seat element pivotable relative to the backrest element between a resting position and a position of use. The passenger seat arrangement also has a support frame which bears against the at least one seating unit and which is able to be connected in a load-bearing manner to a structure of the aircraft. The support frame has at least one mechanical interface which, in each case, is assigned to a seating unit and is designed to fasten different mutually exchangeable modular units in a releasable and load-transmitting manner to the support frame.

Abstract: A device for an aircraft powerplant de-icing system making it possible to reduce or eliminate a tonal noise generated by a flow of air along a surface having an orifice opening into a cavity extending on the side opposite this surface, the orifice having a downstream edge relative to the direction of flow of the air, includes a deflector positioned next to the downstream edge, extending towards the inside of the cavity, and oriented perpendicularly to the direction of flow of the air to divert towards the outside of the orifice vortices formed in the shear layer due to the flow of the air along the surface over each orifice. The deflector at the downstream edge of each exhaust orifice of the de-icing system makes it possible to redirect the vortices outside the cavity while preventing them from being greatly deformed when they pass over the downstream edge.

Abstract: A flow guide body for an aircraft includes a main body having an outer aerodynamic surface having a plurality of outlet openings, and flow control devices, each having an inlet, an interaction chamber, a first outlet and a second outlet. A first control inlet is connected to the interaction chamber at the first side of the chamber axis. The outlets are each connected to outlet openings in the aerodynamic surface. Each outlet has a control outlet. A second flow control device is arranged such that one outlet is connected with the inlet of the first flow control device. One of the control outlets of the first flow control device is connected to the first control inlet of the first flow control device, and the other of the control outlets of the first flow control device is connected to the first control inlet of the second flow control device.

Abstract: A system installed on an aircraft. The system includes a memory storing static information in one or more optical fibre gratings; and an interrogator. The interrogator includes a light source configured to transmit interrogation light to the memory, a receiver configured to receive return light from the memory, and an analyser configured to analyse the return light to obtain the static information.

Abstract: A system and method for detaching an extractable unit from an extraction unit pulling the extractable unit in an extraction direction out of a cargo bay of an aerospace vehicle for aerial delivery. The system includes a detachment unit which is connectable to an extractable unit and which is operable for controllably detaching an extraction unit from the extractable unit, a guiding system and a release unit. The release unit is movably attached to the guiding system and physically connected to the detachment unit such that the release unit is movable with an extractable unit to which the detachment unit has been connected in the extraction direction along the guiding system. The release unit is controllable to operate the detachment unit to which the release unit is connected for detaching an extraction unit from the extractable unit.

Abstract: The display system for a cockpit of an aircraft comprises a transparent display device and a display computer. The transparent display device includes a brightness masking device that can be commanded according to at least three predetermined levels of opacity in at least four masking independent zones. The display system includes a brightness sensor. The display computer is configured to determine a level of brightness due to the light source, in display zones corresponding to each of the masking zones, depending on information coming from the brightness sensor; determine an opacity level associated with each of the masking zones, depending on the brightness level determined, such that a higher level of opacity corresponds to a higher level of brightness; and command the opacity level in each of the masking zones of the brightness masking device.

Abstract: An aircraft air conditioning system includes an ambient air line connected to an aircraft air conditioning system mixer to supply ambient air, and a cabin exhaust air line connectable to an aircraft cabin, and a bleed air line drawn off from an engine or auxiliary power unit. An ambient air compressor in the ambient air line compresses ambient air. A refrigerating apparatus includes a refrigerant circuit and a refrigerant compressor. The refrigerant circuit is thermally coupled to the air line to transfer heat from air line air to refrigerant circulating in the refrigerant circuit before the air is supplied to the mixer. A turbine is coupled to the air compressor. A control device controls the aircraft air conditioning system wherein in a first operating state the turbine receives air from the air line, and in a second operating state receives a mixture of bleed air and cabin exhaust air.

Abstract: A gateway having an architecture authorizing bidirectional communication between applications located in different domains and presenting a high assurance level of protection. The gateway interconnects a first and second domain. The gateway comprises an internal protocol, first and second protocol adapters hosted within the first and second domains and configured to make a conversion between application data formatted according to an applicative protocol relative to the two domains and gateway data formatted according to the gateway internal protocol, and a security module hosted on a separate platform to communicate with the first and second protocol adapters via first and second data links according to the gateway internal protocol.