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Vincent F Panaroni

from North Haven, CT
Age ~85
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Also known as:
Vincent Frederick Panaroni, Vince F Panaroni, Vincent F Panar, Vincent I
Phone and address:
63 Fallon Dr, North Haven, CT 06473
(203) 239-3418
Connected to:
Blain J Panarotti, 56Danny F Panarotto, 40Brett R Panarra, 47Bruce G Panas, 64Charlene Panas, 48Christopher J Panas, 45Ludmyla T Panas, 61Michael A Panas, 66Sergiy Panas, 39William P Panas, 89

Vincent Panaroni Phones & Addresses

  • 63 Fallon Dr, North Haven, CT 06473 (203) 239-3418
  • Springfield, NH
  • 29 Manorwood Dr, Branford, CT 06405 (203) 488-9111
  • Hamden, CT
  • El Toro, CA
  • Meriden, CT

Work

Company: Vpe Sep 2011 Position: Consultant

Education

School / High School: California State University Fullerton- Fullerton, CA 1990 Specialities: BA in Political. Science

Resumes

Resumes

Vincent Panaroni Photo 1

Vincent Panaroni North Haven, CT

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Work:
VPE

Sep 2011 to 2000
Consultant
AT&T
Meriden, CT
Jul 2000 to Sep 2011
Customer Service Rep
Education:
California State University Fullerton
Fullerton, CA
1990 to 1993
BA in Political. Science
Saddleback College
Mission Viejo, CA
1985 to 1990
AA in General Studies

Business Records

Name / Title
Company / Classification
Phones & Addresses
Vincent F. Panaroni
President
UTI CHEMICALS, INC
7 Whatney, Irvine, CA 92718

Publications

Us Patents

Air Less Tire With Circumferential Band Reinforcement

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US Patent:
50868152, Feb 11, 1992
Filed:
Jun 4, 1990
Appl. No.:
7/533025
Inventors:
Vincent F. Panaroni - Irvine CA
Richard Steinke - Park City UT
International Classification:
B60C 700
B60C 714
US Classification:
152251
Abstract:
An airless tire incorporating a reinforcement chord system that is pre-assembled before placement in a tire mold to provide reinforcement for an airless tire that is formed in that mold and including one or more bands of selective length each formed into a ring with stand-off supports removably attached to each band or to each of the plurality of bands, the stand-off supports including legs or pins that can be formed to desired length appropriate for use in a selected mold.

Shoe Insert

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US Patent:
6138383, Oct 31, 2000
Filed:
Aug 9, 1999
Appl. No.:
9/370174
Inventors:
Richard A. Steinke - Boulder City NV
Vincent F. Panaroni - Springfield NH
Todd W. Hooks - Kent WA
International Classification:
A43B 1338
US Classification:
36 44
Abstract:
The invention in a shoe insert to be fitted into and maintained in a conventional walking or running shoe to provide support and cushioning to the foot of such shoe wearer. The shoe insert is to fit into a shoe to grip to the shoe insole and is manufactured from a vio-elastic polyperic material having a recovery or compression set less than two (2) percent providing a rapid rate of force dissipation to a shoe wearer that is equal to their rate of gait, with further cushioning provided by a selection and formation of cavities in the insert surface that is in engagement with a shoe insole. The cavities preferably consist of spaced dome and cylindrical shaped cavities, with the dome shaped cavities spaced apart and located over points of greatest anticipated stress concentrations as the shoe wearer experiences during walking or running, each to partially collapse, expanding outwardly within the polymeric material to where a lower edge of each also expands outwardly, providing an absorbtion of force with a rapid rebound when the force is removed, providing a dampening spring action, with the spaced cylindrical cavities also included in the shoe insert that are each formed to have approximately half the volume of a dome shaped cavity, and are positioned adjacent to points of lesser anticipated stress concentrations and around the insert outer edge, that are each to collapse inwardly around a center portion such that edges thereof flex outwardly, providing a cushioning while prohibiting an outward creep of the insert material.

Non-Cellular Polyurethane Composite

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US Patent:
52544052, Oct 19, 1993
Filed:
Oct 2, 1991
Appl. No.:
7/771308
Inventors:
Vincent F. Panaroni - El Toro CA
Thomas R. McClellan - Mission Viejo CA
Assignee:
Urethane Technologies, Incorporated - Irvine CA
International Classification:
B32B 516
B32B 2740
US Classification:
428327
Abstract:
A non-cellular polyurethane composite material comprising desiccated rubber particles embedded in a non-cellular matrix of polyurethane. Rubber particles derived from tires and other sources are combined with a desiccant to remove moisture present in the particles. The resulting desiccated rubber particles and desiccant are mixed with a polyol and isocyanate to form a precursor blend which is cured to produce a non-cellular polyurethane composite. The resulting rubber-polyurethane composite may be used for tires, shoe and boot soles, surface coatings, and other applications requiring a material which is structurally strong and wear resistant. The desiccated rubber particles may be premixed with the polyol and/or added simultaneously with the polyol and isocyanate during composite molding.

Spin Casting Apparatus For Manufacturing An Item From Polyurethane Foam

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US Patent:
59068361, May 25, 1999
Filed:
Aug 1, 1997
Appl. No.:
8/904674
Inventors:
Vincent F. Panaroni - Springfield NH
Richard A. Steinke - Boulder City NV
Dennis S. Chrobak - Silver Lake OH
Assignee:
American Mobility Limited Partnership - Ravenna OH
International Classification:
B29D 3002
B29C 3908
US Classification:
425 47
Abstract:
A spin casting apparatus, method of manufacture for producing a molded article from a polyurethane material, shown as a non-pneumatic tire, where a mold that is formed in sections or halves and has an inner cavity formed to have the shape of the article to be manufactured and is separable to release that article after manufacture. The mold is secured to a support plate of the apparatus that is journaled to turn axially imparting a centrifugal force into the mold. The support plate is connected to or is arranged to be connected to a motor assembly for turning, and includes a clamping arrangement for maintaining the mold halves together on the support plate. An annular trough is formed in the mold immediately adjacent to a mold interior cavity inner circumference to receive a polyurethane material liquid passed thereto, and to, in turn, pass that liquid through a trough annular opening or ports into the mold cavity. The polyurethane material is selected to begin to react, forming a foam, as support plate turning is initiated, providing immediate centrifugal forces into the material to uniformly distribute it throughout the mold cavity, compacting it against the cavity walls to form an article having a uniformly increasing porosity from a dense outer circumference to its inner circumference. The preferred polyurethane material is composition of polyisocyanates, with water as a polyol, and preferably includes a blowing agent to produce carbon dioxide gas during curing and provides for, after mixing, a time delay in seconds to allow the mixture to fill the mold annular trough and at least partially travel into the mold cavity, before the mixture begins to react.
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Vincent F Panaroni from North Haven, CT, age ~85 Get Report