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Peter Hoynash Hoynash

from Lancaster, VA
Age ~74
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Also known as:
Peter K Hoynash, Peter G Hoynash, Pete K Hoynash, Peter H
Related to:
Obdulia Galvis Hoynash, 70Joyce C Martin, 81Russell R BartholomewJason M Hoynash, 47Tina H Degnan, 50Brock R Bartholomew, 78Gail M Hoynash, 74Katherine F Bartholomew, 73Seth A Miller, 46Walter HoynashSylvia Hoynash
Connected to:
Barry S Hoyne, 75Jennifer A Hoyne, 48Patrick W Hoyne, 82Beverly A Hoyng, 58Kyle C Hoyng, 32John Hoynicki, 76Bryan F Hoyo, 44Diana F Hoyo, 36Maria D Hoyo, 74Pedro M Hoyo, 81

Peter Hoynash Phones & Addresses

  • Lancaster, VA
  • 407 Salford Station Rd, Perkiomenvlle, PA 18074 (610) 287-9713
  • Perkiomenville, PA
  • Schwenksville, PA
  • Salford, PA

Work

Position: Administration/Managerial

Education

Degree: Associate degree or higher

Public records

Vehicle Records

Peter Hoynash

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Address:
407 Salford Sta Rd, Perkiomenville, PA 18074
Phone:
(610) 287-9713
VIN:
1FTPX14567NA52882
Make:
FORD
Model:
F-150
Year:
2007

Resumes

Resumes

Peter Hoynash Photo 1

Manager Systems Engineering

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Location:
Perkiomenville, PA
Industry:
Electrical/Electronic Manufacturing
Work:
Datalogic
Manager Systems Engineering
Skills:
Engineering
New Business Development
Electronics
Product Development
Embedded Systems
Manufacturing
Microsoft Office
Engineering Management
Sales Management
Process Improvement
Product Management
Customer Service
Peter Hoynash Photo 2

Peter Hoynash

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Peter Hoynash
Principal
Hoynash Machine Inc
Research & Development Manufacturing
407 Salford Sta Rd, Perkiomenville, PA 18074

Publications

Us Patents

Thermally Operated Valve For Automatically Modulating The Flow Of Fluids

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US Patent:
6409147, Jun 25, 2002
Filed:
Jun 13, 2000
Appl. No.:
09/592821
Inventors:
Thomas M. Kenny - Glenmoore PA, 19343
Peter Hoynash - Perkiomenville PA
Vincent F. Pettinato - Warminster PA
Bruce S. Mitchell - Hatfield PA
Assignee:
Thomas M. Kenny - Glenmoore PA
International Classification:
F16K 3112
US Classification:
251268, 251 11, 236 93 A, 236 56
Abstract:
A valve for automatically modulating a flow of fluid. The valve includes a flexible flow adjustment member having a variable diameter passage therethrough and an outer surface and a shell surrounding at least a portion of the outer surface and creating a void between the shell and the outer surface. The shell is in contact with the flow of fluid. The valve further includes a thermally reactive material that expands when heated and contracts when cooled. The thermally reactive material is within the void and is in contact with the outer surface of the flexible flow adjustment member. The thermally reactive material exerts pressure on the flexible flow adjustment member in response to a heating of the thermally reactive material to cause the variable diameter passage to close and to relieve pressure thereon in response to a cooling of the thermally reactive material to permit the variable diameter passage to open. The flow of condensate is permitted to pass through the variable diameter passage at an average temperature that generally parallels the average temperature of saturated steam within the steam system within a range of about 0 to 40 percent. The average maximum temperature of condensate flow permitted to pass through the variable diameter passage differs from the average minimum temperature of condensate flow permitted to pass through the variable diameter passage by up to about 25 degrees Fahrenheit.

Thermally Operated Valve Containing Liquid And Filler For Automatically Modulating The Flow Of Fluids

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US Patent:
6722632, Apr 20, 2004
Filed:
Jun 24, 2002
Appl. No.:
10/179691
Inventors:
Thomas M. Kenny - Glenmoore PA, 19343
Peter Hoynash - Perkiomenville PA
Vincent F. Pettinato - Jamison PA
Bruce S. Mitchell - Hatfield PA
Assignee:
Thomas M. Kenny - Glenmoore PA
International Classification:
F16K 3112
US Classification:
251268, 236 93 A, 236 56, 251 11
Abstract:
A valve for automatically modulating fluid flow includes a flexible flow adjustment member having a variable diameter passage therethrough and an outer surface and a shell surrounding at least a portion of the outer surface and creating a void between the shell and the outer surface. The shell is in contact with the flow of fluid. A thermally reactive material that expands when heated and contracts when cooled is a substantially non-volatile heat transfer liquid that does not undergo a phase change in use and contains inert particulate filler within the void and is in contact with the outer surface of the flexible flow adjustment member. The thermally reactive material exerts pressure on the adjustment member in response to heating the thermally reactive material to cause the passage to narrow and relieves pressure thereon in response to cooling the thermally reactive material to permit the passage to widen.

Blade Restraint System

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US Patent:
7207519, Apr 24, 2007
Filed:
Mar 3, 2005
Appl. No.:
11/071504
Inventors:
Peter Hoynash - Perkiomenville PA, US
International Classification:
B64C 27/00
F16M 13/00
E04G 3/00
A47F 5/00
US Classification:
244 1711, 248595, 248598, 248602, 248614, 2482761, 24828811, 24828831, 24829214
Abstract:
A blade restraint system for restraining a blade of a helicopter comprising a blade clamp releasably mounted to the blade and a pole pair releasably mountable to the blade clamp at a clamp end. The pole pair is releasably mountable to the helicopter fuselage at an aircraft. The pole pair includes a first pole and second pole. The first and second poles are moveable relative to each other between a storage position and an extended position. The first pole is positioned generally within the second pole in the storage position.

Thermally Operated Valve For Automatically Modulating The Flow Of Fluids And Methods And Tool For Making The Same

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US Patent:
6371437, Apr 16, 2002
Filed:
Jan 28, 2000
Appl. No.:
09/494271
Inventors:
Thomas M. Kenny - Glenmoore PA, 19343
Peter Hoynash - Perkiomenville PA
Vincent F. Pettinato - Warminster PA
Assignee:
Ogontz Corporation - Willow Grove PA
Thomas M. Kenny - Glenmore PA
International Classification:
F16K 704
US Classification:
251 11, 251 4, 251 12
Abstract:
A valve for automatically modulating a flow of a stream of fluid, the valve including a housing having a wall defining an interior cavity. The interior cavity is in fluid communication with the stream of fluid. A modulator is mounted within the interior cavity and includes a shell in fluid communication with the stream of fluid and a flexible flow adjustment member within the shell. The flexible flow adjustment member has a variable diameter passage therethrough which is also in fluid communication with the stream of fluid. A circumferential void is located between the flexible flow adjustment member and the shell and a thermally reactive material is within the void and in contact with the shell for thermal communication therebetween. A tool is used to assemble the valve. The tool includes a base plate, and a receiver adjacent to the base plate.

High Density Storage Array System

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US Patent:
20140346008, Nov 27, 2014
Filed:
May 20, 2014
Appl. No.:
14/282731
Inventors:
- Telford PA, US
Peter Hoynash - Perkiomenville PA, US
International Classification:
B65G 1/04
US Classification:
1983471
Abstract:
A conveyor system including a rack having a first level with an input conveyor being moveable with respect to the rack in a first direction of travel, a first storage conveyor being moveable with respect to the rack in a second direction of travel, a second storage conveyor being moveable with respect to the rack in a third direction of travel, and a cross transfer assembly being movable with respect to the input conveyor in both the second direction of travel and the third direction of travel so that the cross transfer assembly moves the object from the input conveyor onto one of the first storage conveyor and the second storage conveyor. The second direction of travel and the third direction of travel are transverse to the first direction of travel.
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Peter Hoynash Hoynash from Lancaster, VA, age ~74 Get Report