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Main Authors: Feiguel, Julien, NDiaye, Mouhamed, Chambaud, Pascal, Chambellan, Adrien, Blanc, Pierre, Bourgeois, Steve, Labarussiat, Lucas, Dubois, Clemence, Vigneron, Audrey, Desrez, Thomas, Riwan, Alain, Vienne, Caroline
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.14382
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author Feiguel, Julien
NDiaye, Mouhamed
Chambaud, Pascal
Chambellan, Adrien
Blanc, Pierre
Bourgeois, Steve
Labarussiat, Lucas
Dubois, Clemence
Vigneron, Audrey
Desrez, Thomas
Riwan, Alain
Vienne, Caroline
author_facet Feiguel, Julien
NDiaye, Mouhamed
Chambaud, Pascal
Chambellan, Adrien
Blanc, Pierre
Bourgeois, Steve
Labarussiat, Lucas
Dubois, Clemence
Vigneron, Audrey
Desrez, Thomas
Riwan, Alain
Vienne, Caroline
contents Rehabilitating cast iron pipes through lining offers several advantages, including increased durability, reduced water leaks, and minimal disruption.This approach presents a cost effective and environmentally friendly solution by sealing cracks and joints, extending the pipeline's lifespan, and reducing water wastage, all while avoiding the need for trench excavation. However, due to the relining process, branch connections are sealed and need to be reestablished. To address the issue of rehabilitating small-diameter water pipes, we have designed a modular robot capable of traversing and working within 200 meter long, 100 mm diameter cast iron pipes. This robot is equipped with perception functions to detect, locate, and characterize the branch connections in cast iron pipes and relocate them after lining, as well as machining functions. A first prototype of this system has been developed and validated on an 8 meter long section, in a laboratory environment.
format Preprint
id arxiv_https___arxiv_org_abs_2405_14382
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multi-purpose robot for rehabilitation of small diameter water pipes
Feiguel, Julien
NDiaye, Mouhamed
Chambaud, Pascal
Chambellan, Adrien
Blanc, Pierre
Bourgeois, Steve
Labarussiat, Lucas
Dubois, Clemence
Vigneron, Audrey
Desrez, Thomas
Riwan, Alain
Vienne, Caroline
Robotics
Rehabilitating cast iron pipes through lining offers several advantages, including increased durability, reduced water leaks, and minimal disruption.This approach presents a cost effective and environmentally friendly solution by sealing cracks and joints, extending the pipeline's lifespan, and reducing water wastage, all while avoiding the need for trench excavation. However, due to the relining process, branch connections are sealed and need to be reestablished. To address the issue of rehabilitating small-diameter water pipes, we have designed a modular robot capable of traversing and working within 200 meter long, 100 mm diameter cast iron pipes. This robot is equipped with perception functions to detect, locate, and characterize the branch connections in cast iron pipes and relocate them after lining, as well as machining functions. A first prototype of this system has been developed and validated on an 8 meter long section, in a laboratory environment.
title Multi-purpose robot for rehabilitation of small diameter water pipes
topic Robotics
url https://arxiv.org/abs/2405.14382