JOSHUA STEVEN ROBINSON
Pilots at Hale St, Mesa, AZ

License number
Arizona A5014308
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
1334 E Hale St, Mesa, AZ 85203

Professional information

Joshua Robinson Photo 1

Mechanical &Amp; Structural Design Engineer At Boeing

Position:
Mechanical & Structural Design Engineer at Boeing
Location:
Phoenix, Arizona Area
Industry:
Aviation & Aerospace
Work:
Boeing - Mesa, Arizona since Aug 2011 - Mechanical & Structural Design Engineer Boeing Apr 2009 - Jul 2011 - Tool Design Engineer Boeing Jun 2008 - Apr 2009 - Contract-Tool Liaison Engineer Honeywell Aerospace Mar 2006 - Jun 2008 - Engineer II Datum Design Drafting, Inc - Phoenix, Arizona Area Jul 2005 - Mar 2006 - Tool Designer Honeywell Aerospace - Phoenix, Arizona Area Dec 2003 - Jul 2005 - Manufacturing Engineering Intern Carter-Schubert Architects - Mesa, AZ Jun 2000 - Dec 2003 - Architectural Draftsman - Intern
Education:
Arizona State University 2001 - 2006
B.S.E., Aerospace Engineering


Joshua Robinson Photo 2

Welding Shield And Flexible Skirt For Automated Welding

US Patent:
2007017, Aug 2, 2007
Filed:
Jan 30, 2006
Appl. No.:
11/343115
Inventors:
William Beeson - Laveen AZ, US
Mathew Hoppes - Tempe AZ, US
Joshua Robinson - Mesa AZ, US
International Classification:
B23K 26/14
US Classification:
219121840
Abstract:
An automated welding system is provided for welding a workpiece. The system includes a multiaxially movable arm, a fiber optic cable, a laser source, a focusing head, a focus lens, and a shield. The fiber optic cable is coupled to the arm. The laser source is coupled to the fiber optic cable and configured to supply laser light thereto. The focusing head includes a first end, a second end, and a passage extending therebetween. The shield has an inlet, an outlet and a cavity formed therebetween, and each of the inlet and the outlet has a diameter. The shield inlet is coupled to the focusing head and the shield inlet diameter is greater than the shield outlet diameter. The shield outlet diameter is sized to provide an opening through which the laser beam exits and prevents substantially all particles external to the focusing head passage from entering therein.


Joshua Robinson Photo 3

Cold Gas-Dynamic Spray Nozzle

US Patent:
2009025, Oct 15, 2009
Filed:
Apr 14, 2008
Appl. No.:
12/102368
Inventors:
George Golna - Chandler AZ, US
Joshua Robinson - Mesa AZ, US
Assignee:
Honeywell International Inc. - Morristown NJ
International Classification:
B05B 1/00
US Classification:
239589
Abstract:
A new particulate spray system nozzle design for the spraying of an interior diameter of tubular components or confined spaces is provided. The nozzle includes a substantially linear input section and a substantially linear output section. The input section includes an inlet adapted for coupling to a heated gas supply line for the input of a heated gas. The input section has a longitudinal axis and an inner diameter for the passage therethrough of the heated gas. The output section is in fluidic communication with the input section and includes an outlet adapted for discharging a particulate spray toward a target surface. The output section has a longitudinal axis extending substantially perpendicular to the longitudinal axis of the input section and an inner diameter for the passage therethrough of the particulate spray.


Joshua Robinson Photo 4

Sealing Systems

US Patent:
8138443, Mar 20, 2012
Filed:
Oct 20, 2008
Appl. No.:
12/254593
Inventors:
Brian G. Baughman - Phoenix AZ, US
Joshua Robinson - Mesa AZ, US
Assignee:
Honeywell International Inc. - Morristown NJ
International Classification:
B23K 15/06
US Classification:
21912122, 21912113
Abstract:
A sealing system includes two fittings, a compliant member, and a spring. The first fitting has two ends, a first cavity, and a first channel. The first channel extends from the first end to the first cavity, which is formed in the second end radially inwardly from an outer surface of the first fitting. The second fitting is disposed in the first cavity and has two ends, a second cavity, and a second channel. The first end is disposed in the first cavity, the second cavity is formed in the first end of the second fitting, and the second channel extends from the second cavity to the second end. The compliant member is disposed in the second cavity. The spring is disposed in the second cavity against the compliant member.