Advance per revolution control system for cable peeling robot
Abstract
This graduation project presents the design process of a device for detecting a 240 mm² XLPE type
medium voltage cable. The device accurately measures the cable’s position within a range of 150 to
240 mm from the cable end. The aim is to integrate this device into a cable peeling robot, controlling
the advance per revolution with an on-off control system. To achieve this, the project investigates
the most suitable technology for position tracking with sub-1 mm inaccuracy. The device utilizes
a novel position tracking caster wheel system, rotary encoders, and presence-absence sensors. A
gear-box mechanical system adjusts sensor sensitivity, while a slippage avoidance system prevents
accuracy losses due to wheel-cable friction. Custom signal processing and filtering facilitates
manual testing. The device underwent thorough testing and analysis for integration with the robot,
achieving an impressive accuracy of 0.679 mm or 0.28% at its maximum range. Implementing
this device in the industry can significantly reduce cable splicing failures and eliminate problems
stemming from incorrect cutting distance measurements.
Description
Proyecto de Graduación (Licenciatura en Ingeniería Mecatrónica) Instituto Tecnológico de Costa Rica, Área Académica de Ingeniería Mecatrónica, 2023
Share
Metrics
Collections
The following license files are associated with this item: