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Manfred R Kuehnle

from Lincoln, MA
Age ~94
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Also known as:
Manfred Dr Kuehnle, Regelindis A Kuehnle, Regelindis H Kuehnle, S Kuehnle
Phone and address:
22 Deer Run Rd, Lincoln Center, MA 01773
(781) 259-1632
Related to:
Regelindis Kuehnle
Connected to:
Charles R Kuehnle, 72Kenzie B Kuehnle, 64Tracy M Kuehnle, 55Barbara J Kuehnrich, 84Nancy J Kuei, 45Michael Kuek, 33Jared M Kueker, 38Kenneth M Kueker, 78Victoria L Kueker, 68Victoria Kuelbs, 57

Manfred Kuehnle Phones & Addresses

  • 22 Deer Run Rd, Lincoln, MA 01773 (781) 259-1632
  • Burlington, MA
  • New London, NH
  • Chelmsford, MA
  • Lexington, MA
  • Northwood, NH
  • Waltham, MA
  • Framingham, MA

Professional Records

License Records

Manfred R Kuehnle

Address:
New London, NH 03257
License #:
14129 - Expired
Issued Date:
Oct 27, 1960
Expiration Date:
Jun 30, 1998
Type:
Mechanical Engineer

Business Records

Name / Title
Company / Classification
Phones & Addresses
Manfred R. Kuehnle
President
OPIX CORPORATION
22 Dove Run Rd, Burlington, MA 01803
22 Deer Run Rd, Lincoln, MA 01773
Manfred R. Kuehnle
President
A-XYZ TRANSMISSION SYSTEMS CORPORATION
22 Deer Run Rd, Lincoln, MA 01773
Manfred R. Kuehnle
President
KMPI, CORPORATION
Business Services at Non-Commercial Site
22 Deer Run Rd, Lincoln, MA 01773
Manfred R Kuehnle
Soc signatory
SLX COMPANY LLC
Manfred R. Kuehnle
President
Current to Current Corp
Business Services at Non-Commercial Site
22 Deer Run Rd, Lincoln Center, MA 01773
Manfred R. Kuehnle
A-Xyz Transmission Systems LLC
Power Train Systems
1601 Trapelo Rd, Waltham, MA 02451
(781) 890-3001

Publications

Us Patents

Portable Magneto-Mechanical Delivery Device And Method For Delivery Of Reactive Substances

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US Patent:
6617153, Sep 9, 2003
Filed:
Dec 5, 2001
Appl. No.:
10/005417
Inventors:
Adelheid Kuehnle - Honolulu HI, 96822
Manfred R. Kuehnle - Lincoln MA, 01773-2507
International Classification:
C12N 1587
US Classification:
4352851, 4352831, 435459, 4352853, 4351735, 435440, 435455
Abstract:
A method of delivery of reactive substances that are attached to magnetizable needle-like particles using a magneto-mechanical delivery device. The subject method and device can be utilized for the delivery of reactive or other substances, such as DNA via the penetration of a target body. Such penetration of a target or multiple targets can initiate the interaction between the material contained within the target site and the chemical substances delivered by the particles into the targets. In a preferred embodiment, the subject device is portable and does not require electrical power.

Method And Apparatus For Manufacture Of Magnetizable Microparticles

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US Patent:
6706394, Mar 16, 2004
Filed:
May 2, 2001
Appl. No.:
09/847965
Inventors:
Manfred R. Kuehnle - Lincoln MA, 01773-2507
Adelheid Kuehnle - Honolulu HI, 96822
International Classification:
G11B 566
US Classification:
428402, 428403, 428404, 428407, 428329, 428694 BA, 428900, 427127, 427216, 427221, 4351731, 436526
Abstract:
The subject invention related to methods and apparatuses for the manufacture of magnetizable carrier particles. In addition the subject invention pertains to particles having one or more of a variety of particle configurations and/or functional features. These geometric particle configurations and/or functional features such as delivering or removing a pay load can be tailored to achieve one or more desired missions. The subject invention also pertains to a method and apparatus for the delivery of particles to target materials, in order to accomplish one or more of a variety of missions. In a specific embodiment of the subject invention, acicular and other particles with a lengthwise dimension that are substantially uniform and homogenous in their geometry are manufactured and provided with magnetizations. In this way, predictable mechanical force responsivity can be achieved when these particles are subjected to an external magnetic field gradient.

Toroidal Transmission

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US Patent:
7025705, Apr 11, 2006
Filed:
Nov 7, 2003
Appl. No.:
10/704361
Inventors:
Manfred R. Kuehnle - Lincoln MA, US
International Classification:
F16H 57/08
F16H 55/32
H02K 1/12
H02K 1/22
US Classification:
475331, 475344, 476 72, 310261, 310254, 7442494
Abstract:
A method is provided for optimally engineering a toroidal transmission having a desired input/output ratio to implement the desired ratio of the transmission while meeting the torque and efficiency requirements of the design. Nanoparticle technology is used to manufacture the stator walls to replace the cutting and milling procedures now in use. A novel Mitchell bearing sleeve and its particular hydrodynamic lubrication and cooling method are proposed herein, as well as the introduction of a novel, ultra smooth, amorphous non-oxidizing contact sleeve material used to form the contact sleeve of the drive rollers. A novel self-lubricating system is further provided that includes an oil reservoir disposed within an output shaft of the transmission.

Toroidal Transmission

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US Patent:
7291089, Nov 6, 2007
Filed:
Feb 14, 2006
Appl. No.:
11/353846
Inventors:
Manfred R. Kuehnle - Lincoln MA, US
International Classification:
F16H 57/08
F16H 61/32
F16H 13/12
F16H 1/24
F16H 55/02
US Classification:
475331, 475344, 7442494, 476 4, 476 11
Abstract:
A method is provided for optimally engineering a toroidal transmission having a desired input/output ratio to implement the desired ratio of the transmission while meeting the torque and efficiency requirements of the design. Nanoparticle technology is used to manufacture the stator walls to replace the cutting and milling procedures now in use. A novel Mitchell bearing sleeve and its particular hydrodynamic lubrication and cooling method are proposed herein, as well as the introduction of a novel, ultra smooth, amorphous non-oxidizing contact sleeve material used to form the contact sleeve of the drive rollers. A novel self-lubricating system is further provided that includes an oil reservoir disposed within an output shaft of the transmission.

Gas-Impermeable, Chemically Inert Container Structure For Food And Volatile Substances And The Method And Apparatus Producing The Same

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US Patent:
20020041942, Apr 11, 2002
Filed:
Sep 13, 2001
Appl. No.:
09/952153
Inventors:
Manfred Kuehnle - New London NH, US
Arno Hagenlocher - Santa Rosa CA, US
Klaus Schuegraf - Torrance CA, US
Hermann Statz - Wayland MA, US
International Classification:
B32B001/02
US Classification:
428/035700
Abstract:
A method of making a gas-impermeable, chemically inert container wall structure comprising the steps of providing a base layer of an organic polymeric material; conducting a pair of reactive gases to the surface of the base layer preferably by pulsed gas injection; heating the gases preferably by microwave energy pulses sufficiently to create a plasma which causes chemical reaction of the gases to form an inorganic vapor compound which becomes deposited on the surface, and continuing the conducting and heating until the compound vapor deposit on the surface forms a gas-impermeable, chemically inert barrier layer of the desired thickness on the surface. Various wall structures and apparatus for making them are also disclosed.

Optical Transmission Network For Self-Directed Messages

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US Patent:
20020181845, Dec 5, 2002
Filed:
Nov 29, 2001
Appl. No.:
09/997590
Inventors:
Manfred Kuehnle - New London NH, US
Hermann Statz - Wayland MA, US
Theodore Simis - Inglewood FL, US
International Classification:
G02B006/35
G02B006/28
US Classification:
385/017000, 385/016000, 385/024000
Abstract:
A network of inter-connectable optical fibers equipped, at strategic locations, with devices that can respond to optical signals emanating from a particular source as part of a message or data stream to determine the destination and select suitable fibers to assure its arrival at the point of destination, using at said locations lambda-extractor switches for single frequencies to signal the switching logic, nanosecond responsive switches to re-direct the data flow into appropriate other optical fibers on an instantaneous time basis, and massive cross-connecting switches that enable the connection to any incoming fiber to any outgoing fiber within one module in a mechanically asynchronous manner.

Rotary Motion Machine

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US Patent:
20050060998, Mar 24, 2005
Filed:
Jan 20, 2004
Appl. No.:
10/761120
Inventors:
Manfred Kuehnle - Lincoln MA, US
International Classification:
F02B071/04
US Classification:
060595000
Abstract:
A rotary motion machine and method of operation that includes at least one radially expandable piston defining an inner chamber having a volume that varies upon radial expansion and contraction of the piston, a core defining, at least in part, a cylinder in which the piston is positioned, a rotor rotationally movable relative to the core and being rotated by a relatively incompressible fluid driven by expansion of the piston, and at least one magnet associated with the rotor that, upon rotation of the rotor, generates electricity in a cooperatively arranged coil. A novel fuel injector atomizes and injects fuel along the length of the inner chamber. The piston can include a spiral of thin, flexible foil of amorphous material having a strip of a crystalline material for causing the spiral to expand after contraction. In one embodiment, the spiral has a melting temperature of about 3,200 degrees Celsius.

Encapsulated Nanoparticles For The Absorption Of Electromagnetic Energy

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US Patent:
20050074611, Apr 7, 2005
Filed:
Feb 18, 2004
Appl. No.:
10/780901
Inventors:
Manfred Kuehnle - Lincoln MA, US
Hermann Statz - Wayland MA, US
Assignee:
Manfred R. Kuehnle - Lincoln MA
International Classification:
B32B005/16
B32B015/02
US Classification:
428403000, 427212000, 427215000
Abstract:
Composite materials that can be used to block radiation of a selected wavelength range or provide highly pure colors are disclosed. The materials include dispersions of particles that exhibit optical resonance behavior, resulting in the radiation absorption cross-sections that substantially exceed the particles' geometric cross-sections. The particles are preferably manufactured as uniform nanosize encapsulated spheres, and dispersed evenly within a carrier material. Either the inner core or the outer shell of the particles comprises a conducting material exhibiting plasmon (Froehlich) resonance in a desired spectral band. The large absorption cross-sections ensure that a relatively small volume of particles will render the composite material fully opaque (or nearly so) to incident radiation of the resonance wavelength, blocking harmful radiation or producing highly pure colors. The materials of the present invention can be used in manufacturing ink, paints, lotions, gels, films, textiles and other solids having desired color properties. The materials of the present invention can be used in systems consisting of reflecting substances such as paper or transparent support such as plastic or glass films. The particles can be further embedded in transparent plastic or glass beads to ensure a minimal distance between the particles.
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Manfred R Kuehnle from Lincoln, MA, age ~94 Get Report