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Overmeyer L, Ventz K, Falkenberg S (2009). Interfaced multidirectional small-scaled modules for intralogistic operation. Logistics Journal, Vol. 01. (urn:nbn:de:0009-14-20943)
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%0 Journal Article %T Interfaced multidirectional small-scaled modules for intralogistic operation %A Overmeyer, Ludger %A Ventz, Kai %A Falkenberg, Sascha %J Logistics Journal %D 2009 %V 01 %N 01 %@ 1860-7977 %F overmeyer2009 %X This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements. %L 620 %K intralogistic systems %K material flow %K material handling systems %R 10.2195/LJ_Ref_Overmeyer_2094_092009 %U http://nbn-resolving.de/urn:nbn:de:0009-14-20943 %U http://dx.doi.org/10.2195/LJ_Ref_Overmeyer_2094_092009Download
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@Article{overmeyer2009, author = "Overmeyer, Ludger and Ventz, Kai and Falkenberg, Sascha", title = "Interfaced multidirectional small-scaled modules for intralogistic operation", journal = "Logistics Journal", year = "2009", volume = "01", number = "01", keywords = "intralogistic systems; material flow; material handling systems", abstract = "This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements.", issn = "1860-7977", doi = "10.2195/LJ_Ref_Overmeyer_2094_092009", url = "http://nbn-resolving.de/urn:nbn:de:0009-14-20943" }Download
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TY - JOUR AU - Overmeyer, Ludger AU - Ventz, Kai AU - Falkenberg, Sascha PY - 2009 DA - 2009// TI - Interfaced multidirectional small-scaled modules for intralogistic operation JO - Logistics Journal VL - 01 IS - 01 KW - intralogistic systems KW - material flow KW - material handling systems AB - This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements. SN - 1860-7977 UR - http://nbn-resolving.de/urn:nbn:de:0009-14-20943 DO - 10.2195/LJ_Ref_Overmeyer_2094_092009 ID - overmeyer2009 ER -Download
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PT Journal AU Overmeyer, L Ventz, K Falkenberg, S TI Interfaced multidirectional small-scaled modules for intralogistic operation SO Logistics Journal PY 2009 VL 01 IS 01 DI 10.2195/LJ_Ref_Overmeyer_2094_092009 DE intralogistic systems; material flow; material handling systems AB This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements. ERDownload
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<mods> <titleInfo> <title>Interfaced multidirectional small-scaled modules for intralogistic operation</title> </titleInfo> <name type="personal"> <namePart type="family">Overmeyer</namePart> <namePart type="given">Ludger</namePart> </name> <name type="personal"> <namePart type="family">Ventz</namePart> <namePart type="given">Kai</namePart> </name> <name type="personal"> <namePart type="family">Falkenberg</namePart> <namePart type="given">Sascha</namePart> </name> <abstract>This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements.</abstract> <subject> <topic>intralogistic systems</topic> <topic>material flow</topic> <topic>material handling systems</topic> </subject> <classification authority="ddc">620</classification> <relatedItem type="host"> <genre authority="marcgt">periodical</genre> <genre>academic journal</genre> <titleInfo> <title>Logistics Journal</title> </titleInfo> <part> <detail type="volume"> <number>01</number> </detail> <detail type="issue"> <number>01</number> </detail> <date>2009</date> </part> </relatedItem> <identifier type="issn">1860-7977</identifier> <identifier type="urn">urn:nbn:de:0009-14-20943</identifier> <identifier type="doi">10.2195/LJ_Ref_Overmeyer_2094_092009</identifier> <identifier type="uri">http://nbn-resolving.de/urn:nbn:de:0009-14-20943</identifier> <identifier type="citekey">overmeyer2009</identifier> </mods>Download
Full Metadata
Bibliographic Citation | Logistics Journal : referierte Veröffentlichungen, Vol. 01, Iss. 01 |
---|---|
Title |
Interfaced multidirectional small-scaled modules for intralogistic operation (eng) |
Author | Ludger Overmeyer, Kai Ventz, Sascha Falkenberg |
Language | eng |
Abstract | This article examines options of an innovative design of intralogistic systems by interfacing small-scaled modules. Current intralogistic systems are quite customized with unique solutions and small production lots. In most cases these systems feature a central main control. To offer highly individual solutions, thus meeting the demand of shorter life cycles, there is a need for more flexible material handling systems. Hence, identical small-scaled modules with integrated intelligence present a promising approach. Requirements and options are analyzed to develop a small-scaled module as a basis for a flexible intralogistic system. An essential requirement for a small sized module is functional flexibility to allow configuring individual intralogistic solutions. Thus, these modules have to combine a variety of functions to provide not only a material flow function but also sorting and distributing functions, for instance. Furthermore, an easy extension of the system in any plane direction should be possible. Approaches based on existing technology, such as roller conveyors or belt conveyors are considered along with new solutions concerning this ambitious challenge. A further development of swivel wheel technology and some new ideas like a swivel disk present promising solutions. With a flexible mechanical solution we can design modules that can be developed into self controlling elements. |
Subject | intralogistic systems, material flow, material handling systems |
DDC | 620 |
Rights | DPPL |
URN: | urn:nbn:de:0009-14-20943 |
DOI | https://doi.org/10.2195/LJ_Ref_Overmeyer_2094_092009 |