DAVID J FINK
Engineering in Pittsburgh, PA

License number
Pennsylvania ET017577
Category
Engineers
Type
Engineer in Training
Address
Address
Pittsburgh, PA 15220

Personal information

See more information about DAVID J FINK at radaris.com
Name
Address
Phone
David Fink, age 65
52 Summit St, Philadelphia, PA 19118
David Fink, age 91
527 Welty St, Greensburg, PA 15601
David Fink
49 Shirk Rd, Clarendon, PA 16313
David Fink, age 79
537 Cold Spring Rd, Andreas, PA 18211
(570) 905-6689
David Fink, age 75
5801 Wilkins Ave, Pittsburgh, PA 15217

Professional information

David Fink Photo 1

David Fink, Ann Arbor MI

Work:
Ann Arbor Veterans Affairs Medical Center
2215 Fuller Rd, Ann Arbor, MI 48105 University-Pittsburg Physician
3601 5Th Ave, Pittsburgh, PA 15213


David Fink Photo 2

Closed System And Method For Shot Peening Adjacently Located Tubes In A Power Generation System

US Patent:
5797290, Aug 25, 1998
Filed:
Feb 9, 1994
Appl. No.:
8/193771
Inventors:
William H. Blissell - Elizabeth Township PA
David J. Fink - Greentree PA
David A. Snyder - North Huntingdon PA
Phillip J. Hawkins - Penn Hills Township PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
B23P 1526, B24C 110, B24C 700, B24C 900
US Classification:
72 53
Abstract:
A shot peening system for peening the tubes of a steam generator continuously generates a shot stream and withdraws the shot stream dispensing nozzle into a vacuum chamber in an end effector while repositioning the nozzle for peening the next tube. A load tank forms an air lock for recycling shot recovered and cleaned by the vacuum system to a pressurized peen tank which feeds the recycled shot to a feed valve for mixing with a flow of compressed air to generate the shot stream. The pressure on the shot in the feed tank and the pressure of the compressed gas supplied to the feed valve are independently regulated to adjust the concentration of shot in the shot stream. The feed valve is constructed for ease of assembly and repair, and directs flow of a purge gas across the shot feed orifice and into a purge line which cycles shot and debris purged from the feed valve to the shot cleaning equipment on the vacuum side.


David Fink Photo 3

Gripper Apparatus And Method

US Patent:
4728217, Mar 1, 1988
Filed:
Feb 26, 1986
Appl. No.:
6/832940
Inventors:
David J. Fink - Pittsburgh PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
B23Q 300, B66C 124, F16B 214
US Classification:
403290
Abstract:
A gripper with leaf springs having fingers near their ends to engage and disengage work. The springs are respectively connected in an annular array to the end of a cylindrical support. The springs are diverged or expanded to cause the fingers to engage the work and are converged or collapsed to cause the fingers to disengage the work. During the diverging and the converging each spring is pivoted about its junction with the support. The diverging and the converging of the springs is effected by an actuator or mandrel including a rod having a nose at its outer end. The actuator is reciprocable within the springs between advanced and retracted positions. Near its outer end the rod has a conical cam surface which engages cooperative internal cam-follower surfaces on the springs to diverge the springs when the actuator is in advanced position. The nose has a skirt which engages the outer ends of the springs, i. e. the fingers, to converge the springs near the ends when the actuator is in retracted position.


David Fink Photo 4

Tube Vibration Dampener And Stiffener Apparatus And Method

US Patent:
5158162, Oct 27, 1992
Filed:
Sep 15, 1989
Appl. No.:
7/407598
Inventors:
David J. Fink - Greentree PA
Stephen M. Ira - Plum Boro PA
Thomas M. Frick - North Huntingdon PA
James R. Ziler - Pittsburgh PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
F16F 710
US Classification:
188378
Abstract:
Vibration dampener and stiffener apparatus and method for increasing the dampening and the stiffness of a tube subjected to large amplitude flow-induced vibration. The preferred embodiment of the apparatus includes a plurality of flexible braided cables capable of being disposed in the tube for dissipating the vibration energy of the tube as the tube vibrates, the cables having a first end portion and a second end portion. Enclosing the first end portion of the plurality of flexible cables is a rigid cable tip member and enclosing the second end portion of each cable is a rigid cable end fitting. As the tube vibrates due to flow-induced vibration, the vibration energy will be transferred to the cables which will rub together creating frictional heat energy that will radiate from the cables. In this manner, the vibration amplitude of the tube is decreased. Moreover, as the tube vibrates, the rigid cable tip member and the rigid cable end fittings will tend to stiffen the tube.


David Fink Photo 5

Nuclear Reactor Fuel Assembly Grid Measuring Method And Device

US Patent:
4649650, Mar 17, 1987
Filed:
May 3, 1985
Appl. No.:
6/730217
Inventors:
David J. Fink - Pittsburgh PA
Frank W. Cooper - Monroeville Boro PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
G01B 714
US Classification:
33143L
Abstract:
A nuclear reactor fuel assembly grid measuring method and device, including a grid measuring tool mounted on an X, Y, X positioner having a force limiter for each of these three axes and a grid clamping tool. The grid measuring tool is a combination of: a movable, spring-loaded, caliper assembly; a caliper stand assembly; and a base assembly. TV cameras are mounted on the base assembly to allow remote viewing and positioning of the caliper assembly and monitoring of the overall measuring process. An additional separate force limiter is provided near the caliper assembly to prevent excessive force from being applied to the delicate fuel assembly grids. Measurements are taken only after the caliper assembly is positioned upon the grid. Finally, a linear variable differential transformer is associated with the caliper assembly for enhancing accuracy of the measurements.


David Fink Photo 6

Latency Active Herpes Virus Promoters And Their Use

US Patent:
5849571, Dec 15, 1998
Filed:
Mar 8, 1995
Appl. No.:
8/401638
Inventors:
Joseph C. Glorioso - Cheswick PA
David J. Fink - Pittsburgh PA
William F. Goins - Pittsburgh PA
Assignee:
University of Pittsburgh of the Commonwealth System of Higher Education - Pittsburgh PA
Regents of the University of Michigan - Ann Arbor MI
International Classification:
C12N 1500
US Classification:
4353201
Abstract:
The application discloses the structure of a herpes virus promoter that by means of which one can obtain the transcription of a non-herpes gene in a cell latently infected with a herpes virus. An HSV-1 vector comprising a LAP2 promoter encoded by SEQ ID NO:1, or fragments of SEQ ID NO:1 which have LAP 2 promoter activity regulating the expression of a heterologous gene is particularly disclosed. The herpes virus is preferably used to obtain such expression in the neurons of the peripheral nerves, and the ganglion cells of the cranial nerves. The invention teaches that specific diseases and pathological conditions and the corresponding non-herpes genes wherein such expression has practical value.


David Fink Photo 7

System And Method For Shot Peening Reactor Vessel Penetrations

US Patent:
5307661, May 3, 1994
Filed:
Apr 27, 1993
Appl. No.:
8/054492
Inventors:
David J. Fink - Greentree PA
Bruce W. Bevilacqua - Export PA
Assignee:
Westinghouse Electric Corp. - Pittsburgh PA
International Classification:
B24C 316
US Classification:
72 53
Abstract:
A method for shot peening a first tube external to and concentric with a second tube comprising the steps of forming a slot through the second tube; positioning a shot peening device adjacent the notch in the second tube for propelling shot peening balls; propelling the shot peening balls through the slot in the second tube for shot peening the second tube; and rotating the second tube in increments for shot peening an entire circumferential portion of the first tube positioned outwardly and radially from the slot.


David Fink Photo 8

Method For Removing A Metallic Plug From A Tube

US Patent:
5465483, Nov 14, 1995
Filed:
Feb 28, 1994
Appl. No.:
8/203631
Inventors:
David J. Fink - Greentree PA
James W. Everett - Hempfield Township, Westmoreland County PA
Annette M. Costlow - Trafford PA
James J. Roberts - Irwin PA
Paul J. Boone - Bethel Park PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
B23P 1526
US Classification:
29890031
Abstract:
A method of removing a metal plug from a conduit includes the steps of simultaneously applying a static pull force and repetitive impulses to the plug. The method is particularly suited to removing a plug from a heat exchanger tube in a nuclear powered steam generator. A tool for practicing the method on such plugs includes a first hydraulic actuator for first moving an expansion member out of engagement with an interior plug wall, a second hydraulic actuator capable of attachment to the plug for applying a static pull force to the plug, and an arrangement connecting an air impact tool to the second hydraulic actuator for applying, simultaneously with the static force, high-frequency impulses to the plug entirely through solid members.


David Fink Photo 9

Tool For Removing A Metallic Plug From A Tube

US Patent:
5664328, Sep 9, 1997
Filed:
Feb 13, 1995
Appl. No.:
8/387656
Inventors:
David J. Fink - Greentree PA
James W. Everett - Hempfield Township, Westmoreland County PA
Annette M. Costlow - Trafford PA
James J. Roberts - Irwin PA
Paul J. Boone - Bethel Park PA
Assignee:
Westinghouse Electric Corporation - Pittsburgh PA
International Classification:
B23P 1526
US Classification:
29890031
Abstract:
A method of removing a metal plug from a conduit includes the steps of simultaneously applying a static pull force and repetitive impulses to the plug. The method is particularly suited to removing a plug from a heat exchanger tube in a nuclear powered steam generator. A tool for practicing the method on such plugs includes a first hydraulic actuator for first moving an expansion member out of engagement with an interior plug wall, a second hydraulic actuator capable of attachment to the plug for applying a static pull force to the plug, and an arrangement connecting an air impact tool to the second hydraulic actuator for applying, simultaneously with the static force, high-frequency impulses to the plug entirely through solid members.