2011
DOI: 10.2316/journal.206.2011.2.206-3078
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In-Pipe Inspection Crawler Adaptable to the Pipe Interior Diameter

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Cited by 15 publications
(7 citation statements)
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“…This problem is not getting resolved even the most knowledgeable personnel is available because manually and exhaustively searching the knowledge space can be too time-consuming and labor-intensive. Quickly screening the literature, we find many studies (Lee et al 2009;Roh and Choi 2005;Sabzehmeidani et al 2010;Liu et al 2013;Ong et al 2003;Moghaddam et al 2011;Zhang and Yan 2007;Choi and Roh 2007;Lee et al 2012;Horodinca et al 2002;Jun et al 2004;Roslin et al 2012) dedicated to in-pipe inspection robot design, but very few of them, if not any, addresses the issue that we have just mentioned above. Bearing this in mind, in this study, a smart conceptual design platform has been developed to fill this gap.…”
Section: Discussionmentioning
confidence: 99%
“…This problem is not getting resolved even the most knowledgeable personnel is available because manually and exhaustively searching the knowledge space can be too time-consuming and labor-intensive. Quickly screening the literature, we find many studies (Lee et al 2009;Roh and Choi 2005;Sabzehmeidani et al 2010;Liu et al 2013;Ong et al 2003;Moghaddam et al 2011;Zhang and Yan 2007;Choi and Roh 2007;Lee et al 2012;Horodinca et al 2002;Jun et al 2004;Roslin et al 2012) dedicated to in-pipe inspection robot design, but very few of them, if not any, addresses the issue that we have just mentioned above. Bearing this in mind, in this study, a smart conceptual design platform has been developed to fill this gap.…”
Section: Discussionmentioning
confidence: 99%
“…The simple type caterpillar robot is characterised with a belt bound wheel connected to the actuator, which generates friction to enable the robot to move on irregular surfaces (Josep et al , 2010). The pressed wall caterpillar robot is designed for rough interior pipe surfaces such as vertical and inclined pipes with rough orientations (Moghaddam et al , 2011). The wheeless robots are comprised of straight links interconnected by motorised joints with the aim of increasing the robot’s capability to move on various terrains and surfaces, either even or uneven (Bradbeer et al , 1997; Rizkallah et al , 2016).…”
Section: Literature Reviewmentioning
confidence: 99%
“…Caterpillar Wall-press systems are one of the most adaptive types of system in terms of shape adaptability. Tarbiat Modares University used active parallelogram adaption in a three-planed caterpillar wall-press system which could adapt from 250 mm to 350 mm, however this could be increased by altering the length of the linkages [18]. The lead screw used to alter the height of the tracks keeps all three planes extended at the same rate and hence keeps the chassis central in the pipe.…”
Section: Tracked Systemsmentioning
confidence: 99%