Case Study of Industry 4.0 Capability for Fume Exhaust Units

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dc.contributor Jakschik Stefan, Dr.
dc.contributor.advisor Kratzsch Alexander, prof. Dr. Ing.
dc.contributor.author Veisová, Eliška
dc.contributor.other Skolitel : 55317 Olehla Miroslav, prof. Ing. CSc.
dc.contributor.other Konzultant : 65407 Borůvka Martin, Ing.
dc.contributor.other Konzultant2 : 65957 Bendáková Nikola, Ing.
dc.date 2017
dc.date.accessioned 2018-05-03
dc.date.available 2018-05-03
dc.date.submitted 2016-10-10
dc.identifier.uri https://dspace.tul.cz/handle/15240/23535
dc.description.abstract This master thesis has two major purposes: (1) to investigate Industry 4.0 capabilities for fume exhaust units and (2) to create a prototype unit for needs of ULT AGcompany which complies with the Industry 4.0 rules and shows possibilities for future development in this area.Industry 4.0 is considered as the fourth industrial revolution describing the futureindustry development trends leading to smart factories and intelligent production.Part of this thesis introduces basic principles and ideas of Industry 4.0 and presentsvarious solutions related with the fume exhaust industry. As a reaction to increasingnumber of manufacturing processes employing Industry 4.0, the companies providingfiltration solutions such as ULT AG are made to think about future form and featuresof their products.The prototype unit uLite (ULT Air Quality Module) was created as a practicalpart of this thesis. Its purpose is to measure various parameters associated withthe air quality and with the filtration unit itself, log them, save them to memorymedium, present them to the user and share with other devices. The uLite unitcore is based on ARM R Cortex R -M4 technology. The unit monitors the filtratedair quality and can detect if any harmful substances are left behind. It also hasfunction to measure filtration unit vibration and possibility to connect externalwaterproof probe. Furthermore there is option to measure pressure difference. Twopairs of pressure differences can be measured with total of four inputs. The unit hasits own power supply solution and it is enclosed in durable box. cs
dc.description.abstract This master thesis has two major purposes: (1) to investigate Industry 4.0 capabilities for fume exhaust units and (2) to create a prototype unit for needs of ULT AGcompany which complies with the Industry 4.0 rules and shows possibilities for future development in this area.Industry 4.0 is considered as the fourth industrial revolution describing the futureindustry development trends leading to smart factories and intelligent production.Part of this thesis introduces basic principles and ideas of Industry 4.0 and presentsvarious solutions related with the fume exhaust industry. As a reaction to increasingnumber of manufacturing processes employing Industry 4.0, the companies providingfiltration solutions such as ULT AG are made to think about future form and featuresof their products.The prototype unit uLite (ULT Air Quality Module) was created as a practicalpart of this thesis. Its purpose is to measure various parameters associated withthe air quality and with the filtration unit itself, log them, save them to memorymedium, present them to the user and share with other devices. The uLite unitcore is based on ARM R Cortex R -M4 technology. The unit monitors the filtratedair quality and can detect if any harmful substances are left behind. It also hasfunction to measure filtration unit vibration and possibility to connect externalwaterproof probe. Furthermore there is option to measure pressure difference. Twopairs of pressure differences can be measured with total of four inputs. The unit hasits own power supply solution and it is enclosed in durable box. en
dc.format 117
dc.format.extent Ilustrace, Grafy, Tabulky 1 ROM
dc.language.iso an
dc.relation.isbasedon
dc.rights Vysokoškolská závěrečná práce je autorské dílo chráněné dle zákona č. 121/2000 Sb., autorský zákon, ve znění pozdějších předpisů. Je možné pořizovat z něj na své náklady a pro svoji osobní potřebu výpisy, opisy a rozmnoženiny. Jeho využití musí být v souladu s autorským zákonem https://www.mkcr.cz/assets/autorske-pravo/01-3982006.pdf a citační etikou https://knihovna.tul.cz/document/26 cs
dc.rights A university thesis is a work protected by the Copyright Act. Extracts, copies and transcripts of the thesis are allowed for personal use only and at one?s own expense. The use of thesis should be in compliance with the Copyright Act. https://www.mkcr.cz/assets/autorske-pravo/01-3982006.pdf and the citation ethics https://knihovna.tul.cz/document/26 en
dc.rights.uri https://knihovna.tul.cz/document/26
dc.rights.uri https://www.mkcr.cz/assets/autorske-pravo/01-3982006.pdf
dc.subject Industry 4.0 cs
dc.subject STM32F407 cs
dc.subject air quality sensors cs
dc.subject digital and analogue sensors cs
dc.subject Industry 4.0 en
dc.subject STM32F407 en
dc.subject air quality sensors en
dc.subject digital and analogue sensors en
dc.title Case Study of Industry 4.0 Capability for Fume Exhaust Units cs
dc.title Case Study of Industry 4.0 Capability for Fume Exhaust Units en
dc.title.alternative cs
dc.type diplomová práce cs
dc.date.updated 2.3.2017 12:12
dc.degree.level Ing.
dc.date.defense 2017-02-02
dc.date.committed 2017-05-15
local.faculty Fakulta mechatroniky, informatiky a mezioborových studií cs
local.department.abbreviation MTI
local.identifier.stag 35937
local.degree.programme Electrical Engineering and Informatics
local.degree.discipline MEA
local.faculty.abbreviation FM
dc.description.mark
local.degree.programmeabbreviation N2612
local.note.administrators automat
local.identifier.verbis kpw06525415
dc.subject.verbis mechatronika cs
dc.subject.verbis mechatronics en
local.verbis.aktualizace 2019-10-05 07:28:26 cs
local.verbis.studijniprogram MTI Electrical Engineering and Informatics/Mechatronics cs


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