CHARLES S COOK
Engineers in Pittsburgh, PA

License number
Pennsylvania PE021374E
Category
Engineers
Type
Professional Engineer
Address
Address
Pittsburgh, PA 15241

Personal information

See more information about CHARLES S COOK at radaris.com
Name
Address
Phone
Charles Cook, age 69
5014 Apple Ridge Dr, Allison Park, PA 15101
Charles J Cook
100 Oak Knoll Rd, New Cumberland, PA 17070
(717) 774-1164
Charles J Cook
1015 Green St, Harrisburg, PA 17102
Charles J Cook
108 High St, Scottdale, PA 15683
(724) 887-9814
Charles J Cook, age 49
15 Seasons Dr, Dillsburg, PA 17019
(717) 432-4788

Professional information

Charles Cook Photo 1

Personal Trainer \ Studio Owner At One On One Personal Training And Fitness Llc

Position:
personal trainer \ studio owner at one on one personal training and fitness LLC
Location:
Greater Pittsburgh Area
Industry:
Health, Wellness and Fitness
Work:
one on one personal training and fitness LLC - personal trainer \ studio owner
Education:
University of the District of Columbia 1984 - 1986
Crossland High School 1981 - 1984
general
Interests:
mentor to youth , motivational speaking


Charles Cook Photo 2

Monitoring Pilger Forming Operation By Sensing Periodic Lateral Displacement Of Workpiece

US Patent:
5418456, May 23, 1995
Filed:
Jun 17, 1992
Appl. No.:
7/900709
Inventors:
Charles S. Cook - Pittsburgh PA
Edward S. Diaz - Monroeville PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
G07B 7287
US Classification:
32420723
Abstract:
A production measuring system is provided for early identification of dimensional or operational problems in a pilger forming device. The forming device has a mandrel for supporting a tubular workpiece to be elongated and thinned, at least two opposed dies bearing against the workpiece, and a mechanical drive for rolling the dies over the workpiece under pressure while periodically rotating and advancing the workpiece along the mandrel. Sensors are directed at the workpiece and produce signals reflecting displacement of the workpiece in rotation, axial displacement and transverse displacement. The signals can be compared to nominal standards and/or graphed and displayed, for visualizing operational conditions. The sensors can be disposed axially before or after the dies, or both. Preferably, idler rollers coupled to rotary variable differential transformers encode axial and rotational displacement after the dies (on the formed workpiece), and a pair of non-contacting proximity sensors disposed at right angles encode transverse displacement of the workpiece before the dies.