BRANDON FRANKLIN TUCKER
Pilots at Back Holw Rd, Hustontown, PA

License number
Pennsylvania A3782368
Issued Date
Oct 2016
Expiration Date
Oct 2018
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
506 Back Hollow Rd, Hustontown, PA 17228

Organization information

See more information about BRANDON FRANKLIN TUCKER at bizstanding.com

Brandon Franklin Tucker

506 Back Holw Rd, Hustontown, PA 17228

Industry:
Business Services at Non-Commercial Site
Principal:
Brandon Tucker (Principal)

Professional information

Brandon Tucker Photo 1

Vehicle Illumination System

US Patent:
2013026, Oct 10, 2013
Filed:
Mar 12, 2013
Appl. No.:
13/796340
Inventors:
Sanjeev T. Kuriakose - Shippensburg PA, US
Brandon F. Tucker - Harrisonville PA, US
International Classification:
B60Q 1/30
US Classification:
362485, 29428
Abstract:
A vehicle includes a chassis, a bed assembly, and a light assembly. The chassis includes a frame member that defines a longitudinal direction. The bed assembly includes a deck coupled to the frame member and moveable between a transport position and a loading position. The light assembly includes a housing, a marker light coupled to the housing and positioned to deliver light across the longitudinal direction, and an indicator light coupled to the housing and positioned to deliver light in the longitudinal direction. The light assembly is coupled to the bed assembly to improve lateral and longitudinal visibility of the vehicle when the deck is in the transport position and the loading position.


Brandon Tucker Photo 2

Obstruction Sensing System

US Patent:
2003022, Dec 4, 2003
Filed:
Oct 24, 2002
Appl. No.:
10/221220
Inventors:
Claude Dube - Waynesboro PA, US
Brandon Tucker - Harrisonville PA, US
International Classification:
B66B001/34
US Classification:
187/391000
Abstract:
An obstruction sensing system is provided for a lift vehicle () with a lift platform (). The system includes a plurality of sensors () mounted to the lift platform () and a control system () coupled with a drive system of the lift vehicle. The sensors collectively detect a profile of an area on a sensor side of the platform, and the control system generates a signal according to the profile detected by the plurality of sensors. The profile detected by the sensors may be compared with a stored plurality of area profiles by the control system based on a position of the lift platform or profiles of substantially symmetrical areas may be compared. If an obstruction is sensed during platform descent, further descent is halted and an alarm is sounded. The system also includes structure for overriding the disabling function.