Leonard D.
Leonard D. Aceto, South Windsor, CT US
Patent application number | Description | Published |
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20100257841 | VARIABLE AREA FAN NOZZLE AND THRUST REVERSER - A nozzle for use in a gas turbine engine includes a nozzle door having a first end, a second end opposed from the first end, and a pivot between the first end and the second end. A linkage connects to the nozzle door and to an actuator. The actuator is selectively operative to move the linkage to in turn move the nozzle door about the pivot between a plurality of positions, such as a stowed position, an intermediate position, and a thrust reverse position, to influence a bypass airflow through a fan bypass passage. | 10-14-2010 |
20120005999 | VARIABLE AREA FAN NOZZLE AND THRUST REVERSER - An example nozzle for use in a gas turbine engine includes a nozzle door having a first end, a second end opposed from the first end, and a first pivot on the door between the first and second ends. A linkage connects to the nozzle door and to an actuator. The actuator is selectively operative to move the linkage about a second pivot to in turn move the nozzle door about the first pivot between a plurality of positions, such as stowed, intermediate, and thrust reverse positions to influence bypass airflow through a fan bypass passage. The fan bypass passage has a radially outward side defined by a nacelle in at least one position. At least a portion of the nozzle door is radially outward of the nacelle and includes a lip extending from the nozzle door between the first pivot and one of the first end and second end. | 01-12-2012 |
20120325930 | VARIABLE AREA FAN NOZZLE AND THRUST REVERSER - An example nozzle for use in a gas turbine engine includes a nozzle door having a first end, a second end opposed from the first end, and a first pivot on the door between the first and second ends. A linkage connects to the nozzle door and to an actuator. The actuator is selectively operative to move the linkage about a second pivot to in turn move the nozzle door about the first pivot between a plurality of positions, such as stowed, intermediate, and thrust reverse positions to influence bypass airflow through a fan bypass passage. The fan bypass passage has a radially outward side defined by a nacelle in at least one position. At least a portion of the nozzle door is radially outward of the nacelle and includes a lip extending from the nozzle door between the first pivot and one of the first end and second end. | 12-27-2012 |
Leonard D. Amalaha, Alexandria, VA US
Patent application number | Description | Published |
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20090287305 | Wholly implantable non-natural heart for humans - A wholly implantable non-natural heart for humans is a double pump configuration provided with two auricles and two ventricles. Both the said auricles and ventricles are driven by solenoid actuators interacting with high energy magnets; the auricles and ventricles which are hollow chambers are provided with one-way valves in the usual manner, for the purpose of effectively and rhythmically moving blood to and from the said chambers; power generation for driving said solenoid actuators, as well as an electronic control unit is accomplished by a power generating module which could be a simple battery, a miniature spring-driven generator, a mems generator or a redundant self-sustaining generator or a combination of all of the above; the self-sustaining generator has been proposed and designed to power this present artificial heart and will be presented in a separate patent application in the near future as a follow up to this present one; the aforementioned electronic control unit is preferably configured to amplify the signals from the power generating unit as well as utilizing input/output signals from temperature and pressure sensors embedded in the heart to vary contractile force and frequency of beats, based on bodily requirements, thereby mimicking some functions of the natural heart; the electronic unit is also preferably provided with a translator chip that converts signals from the cardiac/vargus trunks (sympathetic and parasympathetic nerves) via electrodes into clear electric currents for varying actuator outputs; the heart would be implanted in the normal position in the chest, atop the diaphragm, while the electronic control unit and the power generation module would preferably be implanted behind the breastbone and lower abdomen respectively; all components of the present invention are amenable to current mass production techniques and miniaturization for the purpose of fitting into individuals of various sizes; as is clearly shown in FIG. | 11-19-2009 |
20120010049 | Device for an Automatic Body Fat Reducing and Muscle Building - An apparatus for body fat reduction and muscle building includes a bridge having a rectangular shape. A chassis is joined to the bridge and extends away from a back side. A piston having a surface for applying a load resistance to an abdomen is positioned proximate the bridge with a stem extending through a central hole. A swash plate is joined to a distal end of the stem. A return spring is in communication with the swash plate. A drive shaft is mounted to the chassis. A cam is joined to the drive shaft where the cam contacts the swash plate. A motor rotates the drive shaft and cam to move the piston in a first direction towards the abdomen and the return spring moves the piston in a second direction away from the abdomen. A belt secures the bridge to a user with the piston adjacent to the abdomen. | 01-12-2012 |
Leonard D. Amalaha, Sterling, VA US
Patent application number | Description | Published |
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20110190880 | Wholly implantable non-natural heart for humans - A wholly implantable non-natural heart for humans includes a pumping unit, a power generating unit, and a controller. An I beam type chassis with matching holes is provided for supporting valve mounting bodies of the non-natural heart. | 08-04-2011 |
Leonard D. Barbod, San Diego, CA US
Patent application number | Description | Published |
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20090156998 | CATHETER HAVING TRANSITIONING SHAFT SEGMENTS - A catheter having shaft segments which are joined together by a strong bond providing a low profile shaft section with a flexibility transition and/or a compositional transition. A balloon catheter embodying features of the invention has a distal tip member and a coupling band member surrounding a junction of an inner tubular member of the shaft, and has a gradual change in bending stiffness along a distal end section of the shaft which extends distally from a location within the balloon interior. Another catheter embodying features of the invention has shaft segments joined together by a diagonal seam. | 06-18-2009 |
20120296273 | CATHETER HAVING TRANSITIONING SHAFT SEGMENTS - A catheter having shaft segments which are joined together by a strong bond providing a low profile shaft section with a flexibility transition and/or a compositional transition. A balloon catheter embodying features of the invention has a distal tip member and a coupling band member surrounding a junction of an inner tubular member of the shaft, and has a gradual change in bending stiffness along a distal end section of the shaft which extends distally from a location within the balloon interior. Another catheter embodying features of the invention has shaft segments joined together by a diagonal seam. | 11-22-2012 |
20140163466 | CATHETER HAVING TRANSITIONING SHAFT SEGMENTS - Balloon catheter includes an elongate tubular shaft having an outer tubular member having proximal and distal portions, and an inner tubular member having a distal length extending distally from the distal portion of the outer tubular member. The elongate tubular shaft has an inflation lumen and a guidewire lumen defined therein. The guidewire lumen extends along at least the distal length of inner tubular member. The balloon catheter also includes a distal end section coupled to a distal end of the inner tubular member and having a proximal end and a distal end. The balloon catheter also includes a balloon having a proximal portion sealingly coupled to the distal portion of the outer tubular member, a distal portion sealingly coupled to the distal end section, and a working length therebetween. The balloon defines an inner chamber. The proximal end of the distal end section is disposed within the inner chamber. | 06-12-2014 |
Leonard D. Medill, Bixby, OK US
Patent application number | Description | Published |
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20130240051 | ALIGNMENT SYSTEM FOR FLAPPER VALVE - A valve assembly, including a seat and a flapper complementarily formed with respect to the seat for creating a seal at an interface therebetween. At least one shim is operatively disposed in the valve assembly for altering a position of the flapper relative to the seat in at least one direction for aligning the flapper and the seat at the interface. A method of aligning the flapper and seat of a valve assembly is also included. | 09-19-2013 |
Leonard D. Nicoletti, Iii, Philadelphia, PA US
Patent application number | Description | Published |
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20100060405 | FUSE DEVICE WITH INTEGRATED SWITCH - A fuse is provided that includes a housing and a first lead and a second lead. The fuse further includes a fuse element having a current capacity. The fuse element forms a part of an electrical pathway between the first lead and the second lead. The fuse also includes a switch unit in communication with the housing and in series with the fuse element. The switch unit has an open state and a closed state. When the switch unit is in the closed state, the electrical pathway is connected to form a closed pathway between the first lead and the second lead, and when the switch unit is in the open state, the electrical pathway is disconnected to provide an open circuit between the first lead and the second lead. | 03-11-2010 |
Leonard D. Rezmer, Flushing, MI US
Patent application number | Description | Published |
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20100113195 | ARROW NOCK INCLUDING METAL REINFORCEMENT MEMBER - The present invention relates to an arrow nock having a metal insert therein. The arrow nock is provided for installation at the fletched end of an arrow shaft, and is configured to receive a bowstring of a hunting bow therein. The arrow nock imparts the force of the bowstring into the arrow shaft to propel the arrow to the target. Repeated use can cause failure of the nock. The solution is to provide the nock with a reinforcement to prevent the failure or breakage of the arrow nock and/or shaft. A reinforcing rod, preferably of metal, extends the length of the nock and is molded into the arrow nock. Optionally, the rod may extend beyond the nock body and into the arrow shaft providing additional support. | 05-06-2010 |