A Stirling cycle machine. The machine includes at least one rocking drive mechanism which includes: a rocking beam having a rocker pivot, at least one cylinder and at least one piston. The piston is housed within a respective cylinder and is capable of substantially linearly reciprocating within the respective cylinder. Also, the drive mechanism includes at least one coupling assembly having a proximal end and a distal end. The linear motion of the piston is converted to rotary motion of the rocking beam. Also, a crankcase housing the rocking beam and housing a first portion of the coupling assembly is included. The machine also includes a working space housing the at least one cylinder, the at least one piston and a second portion of the coupling assembly. An airlock is included between the workspace and the crankcase and a seal is included for sealing the workspace from the airlock and crankcase. A burner and burner control system is also included for heating the machine and controlling ignition and combustion in the burner.

A Stirling cycle machine. The machine includes at least one rocking drive mechanism which includes: a rocking beam having a rocker pivot, at least one cylinder and at least one piston. The piston is housed within a respective cylinder and is capable of substantially linearly reciprocating within the respective cylinder. Also, the drive mechanism includes at least one coupling assembly having a proximal end and a distal end. The linear motion of the piston is converted to rotary motion of the rocking beam. Also, a crankcase housing the rocking beam and housing a first portion of the coupling assembly is included. The machine also includes a working space housing the at least one cylinder, the at least one piston and a second portion of the coupling assembly. An airlock is included between the workspace and the crankcase and a seal is included for sealing the workspace from the airlock and crankcase. A burner and burner control system is also included for heating the machine and controlling ignition and combustion in the burner.

A flexure support apparatus for providing multiple axes support to reciprocating members for an energy conversion process includes a base having a sleeved opening disposed therethrough a central portion of the base and a plurality of apertures also disposed therethrough the base that are positioned outside of the sleeved opening, also included in a plurality of flexible finger assemblies that are positioned in an offset manner on opposing sides of the base. Further included is a pair of piston assemblies that are disposed within opposing ends of the sleeved opening being supported by the plurality of flexible finger assemblies, wherein the piston assemblies move in opposing and equal amounts in reciprocating movement within the sleeved opening being supported and controlled by the plurality of flexible finger assemblies, thus the pair of piston assemblies are able to do compressive work on a fluid within the sleeve without bearings or seals.

A flexure support apparatus for providing multiple axes support to reciprocating members for an energy conversion process includes a base having a sleeved opening disposed therethrough a central portion of the base and a plurality of apertures also disposed therethrough the base that are positioned outside of the sleeved opening, also included in a plurality of flexible finger assemblies that are positioned in an offset manner on opposing sides of the base. Further included is a pair of piston assemblies that are disposed within opposing ends of the sleeved opening being supported by the plurality of flexible finger assemblies, wherein the piston assemblies move in opposing and equal amounts in reciprocating movement within the sleeved opening being supported and controlled by the plurality of flexible finger assemblies, thus the pair of piston assemblies are able to do compressive work on a fluid within the sleeve without bearings or seals.

An aircraft flight control system includes a first actuator attached to a wing main body, a horn arm configured to transmit an output of the first actuator to a control surface, and a second actuator that is a rotary actuator and attached to the control surface. At least one of the first actuator and the second actuator is an electromechanical actuator (EMA). A first end of the horn arm is coupled to an output terminal of the first actuator, and a second end of the horn arm is fixed to an output terminal of the second actuator. The second actuator is attached to the control surface such that a turning axis of the output terminal is parallel to or coincides with a fulcrum axis (hinge line) of the control surface.

The present invention provides a lubrication device for coating a lubricant onto the outer circumferential surface of a bearing. A lubrication device comprises a housing and a lubrication member that is accommodated within the housing. A bearing crosses and passes through the lubrication member so that an outer circumferential surface of the bearing comes into contact with an inner surface of the lubrication member, and due to this configuration, it becomes possible for the lubricant to be coated onto the outer circumferential surface of the bearing.

A Stirling cycle machine. The machine includes at least one rocking drive mechanism which includes: a rocking beam having a rocker pivot, at least one cylinder and at least one piston. The piston is housed within a respective cylinder and is capable of substantially linearly reciprocating within the respective cylinder. Also, the drive mechanism includes at least one coupling assembly having a proximal end and a distal end. The linear motion of the piston is converted to rotary motion of the rocking beam. Also, a crankcase housing the rocking beam and housing a first portion of the coupling assembly is included. The machine also includes a working space housing the at least one cylinder, the at least one piston and a second portion of the coupling assembly. An airlock is included between the workspace and the crankcase and a seal is included for sealing the workspace from the airlock and crankcase. A burner and burner control system is also included for heating the machine and controlling ignition and combustion in the burner.

A Stirling cycle machine. The machine includes at least one rocking drive mechanism which includes: a rocking beam having a rocker pivot, at least one cylinder and at least one piston. The piston is housed within a respective cylinder and is capable of substantially linearly reciprocating within the respective cylinder. Also, the drive mechanism includes at least one coupling assembly having a proximal end and a distal end. The linear motion of the piston is converted to rotary motion of the rocking beam. Also, a crankcase housing the rocking beam and housing a first portion of the coupling assembly is included. The machine also includes a working space housing the at least one cylinder, the at least one piston and a second portion of the coupling assembly. An airlock is included between the workspace and the crankcase and a seal is included for sealing the workspace from the airlock and crankcase. A burner and burner control system is also included for heating the machine and controlling ignition and combustion in the burner.

A gearbox has a partly toothed drive gear wheel with a toothed segment and a toothless segment on its circular peripheral surface. A driven gear is completely toothed and meshes with the toothed segment of the drive gear when it is presented to a mesh point between the gears. Pawls on the gear shafts synchronize the initiation of the mesh. The number of teeth on the drive gear is selected so that 360 degrees of rotation of the drive gear results in 360 degrees of rotation of the driven gear. As the drive gear toothless segment just reaches the mesh point, a brake on the driven gear shaft is actuated to accurately stop the motion of the driven gear shaft. The driven gear shaft is thereby halted while the drive gear is free to turn until its teeth once again reach the mesh point.

A linkage system is disclosed that is suitable for connecting an input shaft and an output shaft. The linkage system has a wide variety of applications, with non-limiting examples disclosed including a hinge for a door or gate, and a hub for a bicycle or similar. The linkage system comprises a first member having an input location fixedly connected to the input shaft, a second member having an input location pivotally connected to an output location of the first member, a third member having an input location pivotally connected to an output location of the second member, and a fourth member having an input location pivotally connected to an output location of the third member and having an output location fixedly connected to the output shaft. The linkage system has an engaged mode of operation whereby rotation of the input shaft causes corresponding rotation of the output shaft, and a disengaged mode of operation whereby the input shaft can be rotated independently of the output shaft.