Abstract: A door lock system for an airplane is operative to alternately operate spaced doors to provide controllable entry into a restricted area located between the spaced doors.

Abstract: The device (10) serves for removably fastening a first part, particularly a covering element, to a second part installed in a vehicle and particularly in an airplane. The device is provided with a fastening element (18) having a first end (24) for attachment to the first part and a second end (36) for attachment to the second part. The second end (36) of the fastening element (18) is provided with an abutment portion (38) for abutment on the second leg (64) and the support element (78) of the second part, a locking portion (46) to be locked to the free end of the second leg (64) of the second part, the locking portion (46) being flexible and adapted to be moved, while generating a restoring force, from a locking position into a release position, and an actuating portion (56) for manually moving the locking portion (46) from the locking position to the release position thereof, and a grip-around portion (42) for gripping around the second part in the transition region of the two legs (62,64).

Abstract: A method for positioning a cable in a recess behind a fixed structure, e.g. a storage bin, in an aircraft. A portion of the cable is enclosed in a conduit. Panels adjacent the structure are removed to partially expose the recess and at least one stringer. The conduit is directed into the recess from adjacent one end of the structure until the conduit passes another end of the structure, and the conduit is fastened to the stringer(s). The method provides an easy way to route cable behind a fixed structure without removing the structure and without having to make holes in the aircraft.

Abstract: A buried subsurface pit for use beneath a surface across which aircraft travel for servicing aircraft is provided with a pit latching mechanism for holding and releasing a pit lid mounted atop the buried pit. A shallow latch operating lever storage recess is defined in the upper surface of the pit lid. An actuator rod passageway is formed in the pit lid and extends between the latch operating lever storage recess and the undersurface of the pit lid. A catch is located in alignment with the actuator rod passageway at the undersurface of the pit lid. The catch is mounted for rotation about a horizontal axis of catch rotation. An actuator rod is disposed for longitudinal, reciprocal movement in the actuator rod passageway. A latch operating lever has opposing latch handle and actuator rod engaging ends.

Abstract: There is provided a store ejection system and method for mounting and ejecting a jettisonable store. The system uses a pressurized non-pyrotechnic fluid from a fluid source as the source of energy and the transfer mechanism. An actuation system includes an accumulator for receiving and storing the fluid from the pressure source, a poppet valve for controlling a flow of the fluid from the accumulator, and a controller for actuating the poppet valve to an open position in response to a control signal to jettison the store. A pneumatically-driven jettison mechanism for releasably retaining the store is fluidly connected to the poppet valve such that actuating the poppet valve to the open position releases the pressurized fluid in the accumulator to flow to the jettison mechanism, thereby actuating the jettison mechanism to jettison the store.

Abstract: A novel parachute and method of manufacturing can be performed quickly and inexpensively. The parachute comprises a canopy having a plurality of gores with interior and exterior sides, and a pocket on the interior side of the gores formed either with folded or gathered or folded and gathered material from the gore. Preferably, each gore is fastened to adjacent gores at two spaced locations to form longitudinal apertures between gores. When the parachute is deployed some air initially passes through the apertures. However, instead of acting as a single unit like a traditional canopy each gore initially inflates separately in the crown region. As the gores become inflated they work together to close the apertures between the gores and trap air as a single unit.

Abstract: An automatic controlled parachute includes a parachute canopy, a flight controller and risers connecting the canopy to the flight controller. Pneumatic actuators are connected along the risers. The flight controller operates the pneumatic actuators to control the length of the risers. The direction of flight of the parachute is controlled by the length of the risers.

Abstract: Multiple-position seating units, methods for operating seating units, and methods for installing seating units are disclosed herein. In one embodiment, the seating unit includes a first seat portion and a second seat portion. The first seat portion has a first upper surface with a front extremity. The first seat portion can be moveable between first and second positions. In the second position, the first seat portion is tilted forwardly downwardly. The second seat portion has a second upper surface that can be configured to support at least one shin of a person. The second seat portion can be moveable between a stowed position and a deployed position. In the deployed position, the second upper surface is spaced apart from the front extremity of the first seat portion.

Abstract: A control surface drive system having a plurality of actuator assemblies are coupled to first and second supply lines and to a return line. The first and second supply lines are connected to a source of hydraulic fluid. At least one of the actuator assemblies has a hydraulic actuator movably connectable to an aircraft control surface. A flow control assembly is connected to the return line and to at least one of the first and second supply lines. A bypass line is in fluid communication with the first and second supply lines and positioned to recycle the hydraulic fluid from one of the first and second supply lines back into the other one of the first and second supply lines when the hydraulic actuator moves toward the first position. A computer controller operatively interconnects the plurality of actuator assemblies and the flow control assembly. It is emphasized that this abstract is provided to comply with the rules requiring an abstract.

Abstract: A parachute canopy release mechanism. The canopy release releasably holds a strap holding member. The strap holding member is released by movement of a latch, which in turn is released by an actuating lever which is protected against inadvertent opening by a cover. The cover has a cover lock which further prevents the inadvertent release of the latch. The release mechanism can have a removable triggering unit which is activated when the mechanism is exposed to water.

Abstract: Methods and apparatus are provided for a tubular composite structure with particular application to the design and assembly of space vehicles. The apparatus, designated herein as an X-strut, comprises alternately crossing tow-placed layers of parallel strands of a composite material, to form top and bottom intersecting faces. Alternately crossing strand layers are built up from the bottom faces to form the side walls of the tubular composite structure. The top and bottom faces and the side walls are configured to form intersecting tubular members in an X-shape. The layers of strands run continuously through the intersecting tubular members to form an integral joint, without the need for adhesive bonding or mechanical fasteners.

Abstract: A control system and method for automatic control of an air vehicle during catapult launch includes a first pitch axis partition that includes an altitude hold control loop and a vertical rate control loop, and a second pitch axis partition that includes a constant throttle airspeed hold control loop. The control system also includes a vertical acceleration command select loop. The altitude hold control loop and the vertical rate control loop cooperatively determine a vertical rate loop vertical acceleration command. The constant throttle airspeed hold control loop determines a constant throttle airspeed hold vertical acceleration command. The vertical acceleration command select loop selects one of either the vertical rate loop vertical acceleration command or the constant throttle airspeed hold vertical acceleration command. A flight control system of the air vehicle drives the air vehicle to the selected vertical acceleration command.

Abstract: The present invention concerns an emergency opening control device for an aircraft door comprising: at least one triggering mechanism (10) for emergency opening, at least one door actuator (8), and means of power supply (14, 16) to the actuator driven by the triggering mechanism. The device also comprises means (20) for modification of the output delivered by the means of power supply to the actuator, to allow the door to be opened more slowly in an initial phase of opening and more rapidly in at least one subsequent opening phase.

Abstract: Guidance of a gliding vehicle is disclosed. A method of the invention allows the range of the glide phase of a gliding vehicle to be maximized, while satisfying final flight path angle and aimpoint requirements. The method controls the time-of-flight of the gliding value to a desired value. The time-of-flight control can correct for winds, off-nominal launch conditions, and rocket motor variations, among other factors. Both time-of-flight control and range and cross-range maximization can be achieved by the inventive method, utilizing a compact closed-loop approach.

Abstract: The cockpit access protection system relies upon pass codes for an aircraft and utilizes the galley area as a security area to verify a person's identity before allowing access to the cockpit. The system includes normal operation to ensure that unauthorized personnel do not gain access to the cockpit. Upon breach of security, the cockpit door is automatically locked by a computer on the ground. A false signal of security breach can be overcome by an authorized flight crew member communicating with ground control upon verification that the report of a false security breach is not made under duress. The system also allows emergency access to the cockpit in the event of a medical or other similar emergency.

Abstract: An aircraft has a fuselage with a cockpit and a tail, and jet or propeller propulsion. The improved aircraft has a fuselage with one or more modules located between the cockpit and the tail. The modules include passenger seating, means to seal the modules, and means to detach the modules from the fuselage. One or more parachutes connect to the modules for use during an in-flight emergency, and the modules have a means to store the parachutes. Also, modules allow an airline to load passengers by groups onto an aircraft and to change the configuration of aircraft readily.

Abstract: A system and method for controlling a propulsion system of a space-borne object (e.g., a satellite) is based on the principle that temperature in the propellant tank of the propulsion system is directly proportional to the pressure therein. Accordingly, when pressure drops, the system and method maintains a desired pressure in the propellant tank by heating the tank. The amount of heat to be applied is determined based on an evaluation of thruster performance data collected during satellite test maneuvers. Heating of the tank may be coupled with the introduction of helium gas to provide a two-pronged approach for maintaining tank pressure. Alternatively, the helium gas may itself be heated prior to its introduction into the propellant tank. By maintaining a desired tank pressure, efficient performance of the satellite thrusters is assured.

Abstract: The optimal control design for antiskid brake control uses a discrete Kalman filter scheme in combination with a conventional aircraft brake control system, comprising sensors for measuring a speed of a wheel and brake torque, and for providing output signals indicative of the speed and torque values, and an optimal antiskid braking controller. The optimal antiskid brake controller includes a wheel speed filter, a reference velocity module, an optimal controller, and an integrator module. The optimal controller includes a discrete Kalman regulator utilizing a discrete Kalman filter, which compels the wheel velocity to quickly converge to the reference velocity, while the integrator produces appropriate antiskidding control and compensates for low frequency torque disturbances. The discrete Kalman filter estimates brake pressure, and the difference between the wheel velocity and a reference velocity, and these estimated states are regulated by a control feedback gain matrix.

Abstract: A spacecraft such as a fly back booster or a reusable launch vehicle, or an aerospace plane has a fuselage and a set of scissors wings consisting of two main wings. Both of the main wings are rotatably mounted on the fuselage and can be yawed at opposite directions. If the spacecraft is launched vertically, both of its main wings can be yawed to be generally parallel with its fuselage so that it can connect with other vehicle or vehicles to form different launch configurations. When the spacecraft or aerospace plane is flying in the air, landing, or taking off horizontally, it can yaw both of its main wings in opposite directions to maximize its lift-to-drag ratio by optimizing the yaw angle of the main wings according to flying conditions. It can also produce desired aerodynamic characteristics such as forming a high drag configuration by adjusting the yaw angle of its main wings.

Abstract: A aircraft weapons bay acoustic resonance suppression system for reducing undesirable acoustic resonances within an open weapons bay of an aircraft in flight is described. The system includes a rod mounted upon and spaced a distance from an extensible aircraft spoiler. The rod has a hollow core and includes a multiplicity of apertures axially aligned into two groups, placed at the point of fluid separation. A multiplicity of synthetic jets are received within the rod, each jet in fluid communication with a corresponding aperture. The jets combine to form first and second perturbation elements. The perturbation elements are sinusoidally driven out of phase at high frequencies by an actuator. This effectively creates a high frequency forcing of the airstream which is amplified by the airflow, creating a violent shedding. Advantageously, this violent shedding dramatically reduces acoustic resonance within the weapons bay of the aircraft.