Victor Fey MD 90 N 30 St STE 1, Clinton, OK 73601 (580)3235433 (phone), (580)3233833 (fax)
Education:
Medical School University of Oklahoma College of Medicine at Oklahoma City Graduated: 1984
Procedures:
Allergen Immunotherapy Allergy Testing Circumcision Destruction of Benign/Premalignant Skin Lesions Electrocardiogram (EKG or ECG) Pulmonary Function Tests Skin Tags Removal Vaccine Administration
Conditions:
Acute Bronchitis Bronchial Asthma Otitis Media Pneumonia Skin and Subcutaneous Infections
Languages:
English Spanish
Description:
Dr. Fey graduated from the University of Oklahoma College of Medicine at Oklahoma City in 1984. He works in Clinton, OK and specializes in Family Medicine. Dr. Fey is affiliated with Clinton Regional Hospital.
Isbn (Books And Publications)
Innovation On Demand: New Product Development Using Triz
International Triz Association Matriz
Vice President, Chairman, Triz Research and Development Council
Wayne State University Sep 1997 - 2014
Adjunct Professor
Naneva Sep 1997 - 2014
Chief Technology Officer
Altshuller Institute For Triz Studies Sep 1997 - 2014
Chairman of the Certification Board
The Triz Group Sep 1997 - 2014
President
Education:
Chatrapati Sahuji Maharaj Kanpur University, Kanpur 1975 - 1980
Masters, Master of Science In Electrical Engineering
Public Institute For Engineering Creativity 1975 - 1978
Skills:
Triz Training Innovation Consulting Strategy Management Consulting Entrepreneurship Product Development Program Management Open Innovation Coaching Innovation Management Business Process Improvement Cross Functional Team Leadership Business Strategy Teaching Executive Coaching Start Ups Research Process Improvement Organizational Development Strategic Planning R&D Leadership Patents Analysis Change Management Workshop Facilitation Management Creative Problem Solving Leadership Development Product Design Process Engineering Research and Development Strategic Thinking Six Sigma Consulting Public Speaking
A multi-function apparatus for controlling various functions of a liftgate of an automotive vehicle. The apparatus includes an elastomeric member which is operably disposed in connection with a gear which imparts a driving force to a drive shaft of a window wiper member. The elastomeric member, in one embodiment, is a coiled spring which allows movement between the drive shaft and the gear driving the drive shaft in the event the wiper becomes frozen to the window of the vehicle or otherwise immovable. In this manner various other functions can be carried out by the apparatus regardless if the wiper becomes temporarily immobilized.
Apparatus Having A Mechanism For Limiting The Movement Of An Air Bag Module Relative To A Steering Wheel
Arnold J. Herberg - Davisburg MI, US Evgeny I. Rivin - West Bloomfield MI, US Victor R. Fey - West Bloomfield MI, US Ying-Kuo Lee - Troy MI, US Jagan Kumar Surendran - Sterling Heights MI, US
Assignee:
TRW Vehicle Safety Systems Inc. - Washington MI
International Classification:
B60R 21/203
US Classification:
280731, 2807282, 200 6155
Abstract:
An apparatus () for a vehicle includes a steering wheel () and a vehicle occupant protection device () that is mounted to the steering wheel () and is actuatable for helping to protect an occupant of the vehicle. At least a portion of the vehicle occupant protection device () is movable relative to the steering wheel () for actuating an electric device () associated with the vehicle when a force is applied to any one of various locations on the vehicle occupant protection device (). The apparatus () also includes a mechanism () for substantially blocking tilt of the movable portion of the vehicle occupant protection device () relative to the steering wheel () during movement for actuating the electric device ().
Hydrocarbon/Oxygen Industrial Gas Mixer With Coarse Water Droplet Environment To Reduce Ignition Potential
Harvey E. Andresen - Luling LA, US Christopher P. Christenson - Lake Jackson TX, US Charles W. Lipp - Lake Jackson TX, US John R. Mayer - The Woodlands TX, US Thomas J. Kling - Midland MI, US Victor R. Fey - West Bloomfield MI, US Laurence G. Britton - Charleston WV, US Michael J. Rangitsch - Saginaw MI, US Michael L. Hutchison - Poca WV, US
Assignee:
Dow Technology Investments LLC - Midland MI
International Classification:
C07D 301/08 B01J 19/00
US Classification:
549523, 422224
Abstract:
A hydrocarbon-containing gas is mixed with an oxygen gas in a gas mixer in the presence of coarse water droplet environment, e. g. , a ‘rainy’ or ‘driving rainstorm’ environment in which the water droplets generally have a size greater than 200 microns SMD. The water droplets surround and contact entrained particles in either the oxygen gas stream or the hydrocarbon-containing gas stream. The water acts to suppress, prevent and quench ignition of the hydrocarbon gas in the mixer which would otherwise be caused by energetic collisions between such particles and structures within the gas mixer. In one configuration the gas mixer includes water pipes having coarse water droplet-producing nozzles at the peripheral end thereof concentrically located within oxygen supply pipes. Additionally, nozzles introduce coarse water droplets into a pipe carrying the hydrocarbon gas and forming a mixing chamber for the hydrocarbon and oxygen gases.
Oxygen/Hydrocarbon Rapid (High Shear) Gas Mixer, Particularly For The Production Of Ethylene Oxide
Harvey E. Andresen - Luling LA, US Christopher P. Christenson - Lake Jackson TX, US Charles W. Lipp - Lake Jackson TX, US John R. Mayer - The Woodlands TX, US Thomas J. Kling - Midland MI, US Victor R. Fey - West Bloomfield MI, US Laurence G. Britton - Charleston WV, US Michael J. Rangitsch - Saginaw MI, US Michael L. Hutchison - Poca WV, US
Assignee:
Dow Technology Investments LLC - Midland MI
International Classification:
B01F 3/02 B01F 5/04 B01J 12/00 B01J 19/24
US Classification:
422224, 366336, 366341, 239429, 239430, 239432
Abstract:
A gas mixer is disclosed which includes a vessel () (e. g. , pipe) containing a stream () of a first hydrocarbon-containing gas. The mixer includes a hollow pipe () located internal to the vessel containing a stream of a second gas, e. g. , an oxygen-containing gas stream such as a stream of pure oxygen gas or air enriched with oxygen. The internal pipe further includes a mixer tip () at the peripheral end thereof. The mixer tip includes a body having an internal passage for conducting the second gas out of the pipe and an opening introducing the second gas stream into the first gas stream in a radial plane at an acute angle relative to the longitudinal axis of the pipe. The pipe further includes a deflector () on its external surface in longitudinal alignment with the opening of the mixer tip. The deflector serves to deflect any entrained particles within the first gas stream away from the mixing zone where the two streams mix, minimizing the risk of ignition of the hydrocarbon-containing gas.
Hydrocarbon/Oxygen Industrial Gas Mixer With Water Mist
Harvey E. Andresen - Luling LA, US Christopher P. Christenson - Lake Jackson TX, US Charles W. Lipp - Lake Jackson TX, US John R. Mayer - The Woodlands TX, US Thomas J. Kling - Midland MI, US Victor R. Fey - West Bloomfield MI, US Laurence G. Britton - Charleston WV, US Michael J. Rangitsch - Saginaw MI, US Michael L. Hutchison - Poca WV, US
Assignee:
Dow Technology Investments LLC - Midland MI
International Classification:
B01J 19/26 C07D 301/08
US Classification:
422224, 549523
Abstract:
A hydrocarbon-containing gas is mixed with an oxygen-containing gas in a gas mixer in the presence of a water mist. The water mist surrounds and contacts entrained particles in either the oxygen-containing gas stream or the hydrocarbon-containing gas stream. The water acts to suppress and prevent ignition of the hydrocarbon gas in the mixer by serving as a sink for heat created by energetic collisions between such particles and structures within the gas mixer. The water mist also acts to quench ignition caused by such collisions. The water mist can be introduced into the gas mixer in a number of different configurations, including via nozzles injecting a mist into a hydrocarbon gas manifold or an oxygen gas manifold, nozzles placed within the gas mixer adjacent to ends of the oxygen supply pipes, and nozzles placed coaxially within the oxygen supply pipes in the gas mixer.
Harvey E. Andresen - Luling LA, US Christopher P. Christenson - Lake Jackson TX, US Charles W. Lipp - Lake Jackson TX, US John R. Mayer - The Woodlands TX, US Thomas J. Kling - Midland MI, US Victor R. Fey - West Bloomfield MI, US Laurence G. Britton - Charleston WV, US Michael J. Rangitsch - Saginaw MI, US Michael L. Hutchison - Poca WV, US Matthias Schaefer - Saxony, DE
A gas mixer () for mixing a first gas stream with a second gas stream includes an impact labyrinth () in the first gas stream having structures (), e. g. , corrugated walls, forming a tortuous path through which the first gas stream must pass en route to a mixing point () in the gas mixer. The labyrinth fosters ignition of particles entrained in the first gas stream. Elongate, straight pipes () receive the first gas stream from the impact labyrinth () and carrying the first gas stream to the mixing point () the pipes () are positioned with a vessel () carrying the second gas stream. The pipes () have openings which are substantially aligned with the flow direction of the second gas stream at the mixing point () thereby introducing the first gas stream into the second gas stream in a low shear manner.
Martin Colston - Newbury, GB Christopher Gee - Berkshire, GB Jon Shaw - Hampshire, GB Kevin Pope - Hampshire, GB John Cooke - Hampshire, GB Adrian Barclay - London, GB Evgeny Rivin - West Bloomfield MI, US Victor Fey - West Bloomfield MI, US
International Classification:
A47J031/00
US Classification:
099/279000
Abstract:
An apparatus for the brewing of a beverage by transmission of an aqueous fluid through a sachet () containing a beverage brewing ingredient, the apparatus comprising: one or more injectors () to inject the acqueous fluid into the sachet () during the brewing; and a clamp for the sachet, the clamp comprising one or more members () that are movable to open and close the clamp, the members having inner surfaces which in a closed position of the clamp define a cavity adapted to substantially enclose and support the sachet () during the brewing and further adapted to define a beverage exit pathway in a lower part of the cavity, and wherein the inner surface of a least one clamp member comprises at least one deformable region () mounted on a support that is movable while the clamp is in the closed position, whereby the shape of the cavity or of the exit pathway can be changed while the clamp is in the closed position to provide a desired brewing configuration of the sachet (). The invention also provides methods of brewing beverages in such an apparatus and systems made up of the apparatus in combination with beverage sachets for use in methods of the invention.
Hydrocarbon/Oxygen Industrial Gas Mixer With Water Mist
Dow Technology Investments LLC - , US Christopher P. Christenson - Lake Jackson TX, US Charles W. Lipp - Lake Jackson TX, US John R. Mayer - The Woodlands TX, US Thomas J. Kling - Midland MI, US Victor R. Fey - West Bloomfield MI, US Laurence G. Britton - Charleston WV, US Michael J. Rangitsch - Saginaw MI, US Michael L. Hutchison - Poca WV, US
Assignee:
DOW TECHNOLOGY INVESTMENTS LLC - Midland MI
International Classification:
B01J 19/26
US Classification:
3661781, 422224
Abstract:
A hydrocarbon-containing gas is mixed with an oxygen-containing gas in a gas mixer in the presence of a water mist. The water mist surrounds and contacts entrained particles in either the oxygen-containing gas stream or the hydrocarbon-containing gas stream. The water acts to suppress and prevent ignition of the hydrocarbon gas in the mixer by serving as a sink for heat created by energetic collisions between such particles and structures within the gas mixer. The water mist also acts to quench ignition caused by such collisions. The water mist can be introduced into the gas mixer in a number of different configurations, including via nozzles injecting a mist into a hydrocarbon gas manifold or an oxygen gas manifold, nozzles placed within the gas mixer adjacent to ends of the oxygen supply pipes, and nozzles placed coaxially within the oxygen supply pipes in the gas mixer.
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