DESIGN OF ELECTRONICALLY CONTROLLED JACQUARD MACHINE FOR MULTI-SHED WEAVING MACHINES

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dc.contributor.authorARSOY, RAŞIT
dc.contributor.authorASLAN, SELÇUK
dc.contributor.organizationTechnická univerzita v Liberci
dc.date.accessioned2023-04-19T09:20:51Z
dc.date.available2023-04-19T09:20:51Z
dc.description.abstractThe Jacquard shed opening system, which makes it possible to open the shed by controlling the warp threads in groups and obtain different designs and shapes, differs from other shed opening systems in that each group of warp threads and each of them can be controlled as needed. The various warp movements, which are limited by the number of frames in other shedding systems, are limited by the number of sinkers in the Jacquard system. Since all known Jacquard shedding systems are designed for operation with single shed weaving machines, they cannot be used for shedding on multiple weaving machines. In this study, a new electronically controlled jacquard machine for multiple shed weaving machines was developed, which eliminates this problem and enables the opening of the weaving compartments by controlling the warp threads individually in multiple shed weaving machines, thus allowing the weaving of all known jacquard fabric patterns. The technological and kinematic schemes of the jacquard machine were prepared taking into account the type of fabric to be produced, the operating principles of the weft insertion and shedding mechanisms to be used in the machine to be developed, and the expectations for improving the technical and economic indicators of the machine. The electronically controlled pattern reading system, which consists of modules in the machine, converts the electronic data into mechanical data to ensure shedding. In the cam shedding mechanism, which transmits motion to the knives in the form of a stepped shaft in the multiple weaving machine, the warp threads are placed on the knives so that they can move vertically. They are controlled by specially structured sinkers which, in contact with the blades, move from the lower to the upper state with the help of the blades and from the upper to the lower state with the help of springs. When the warp threads are to remain in the upper position according to the pattern, the sinkers are interlocked by electromagnets to form an undulating nozzle corresponding to the fabric pattern. By arranging the interlocking projections along the sinker, it is possible to match the density of the sinker to the density of the warp threads. Since the machine allows weaving of all known jacquard fabrics, the problem of not being able to produce weaves other than the rag foot weave, which is considered one of the major drawbacks of multiple shed weaving machines, has been solved.cs
dc.formattext
dc.format.extent6 stran
dc.identifier.doi10.15240/tul/008/2023-1-018
dc.identifier.issn1335-0617
dc.identifier.urihttps://dspace.tul.cz/handle/15240/167247
dc.language.isocscs
dc.publisherTechnical University of Liberec
dc.publisher.abbreviationTUL
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dc.relation.isbasedonhttps://www.derstekstil.name.tr/dokuma-makinelerinin-anaelemanlari.html
dc.relation.isbasedonhttps://www.derstekstil.name.tr/jakarli-agizlik-acmasistemleri.html
dc.relation.ispartofFibres and Textiles
dc.subjectJacquardcs
dc.subjectShedcs
dc.subjectWeavingcs
dc.subjectPlatecs
dc.subjectThreadcs
dc.titleDESIGN OF ELECTRONICALLY CONTROLLED JACQUARD MACHINE FOR MULTI-SHED WEAVING MACHINESen
dc.typeArticleen
local.accessopen access
local.citation.epage104
local.citation.spage99
local.facultyFaculty of Textile Engineeringen
local.fulltextyesen
local.relation.issue1
local.relation.volume30
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