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Laserska izdelava in detekcija predoznak za korekcijo termičnih raztezkov merilne palice
ID Ujčič, Jan (Author), ID Jezeršek, Matija (Mentor) More about this mentor... This link opens in a new window

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Abstract
Izdelava merilnih palic vključuje sistem za kompenzacijo termičnih raztezkov, ki je bil v pričujoči diplomski nalogi optimiziran in dokončno implementiran. Termični raztezek je posledica procesa laserskega vpisa informacije, ki v palico vnese toploto in v primeru neupoštevanja poslabša točnost izdelave. Za kompenzacijo raztezka je uporabljen princip izdelave predoznak in njihovo zaznavanje z merjenjem intenzitete odbite laserske svetlobe. Osrednji eksperimentalni del naloge je zajemal nastavljanje sistema. Cilj je bil izdelati ozke predoznake, ki bi jih bilo mogoče ponovljivo zaznavati. Njihovo izdelavo smo izvedli s kontinuiranim in moduliranim žarkom pri različnih močeh laserja. Slednji se je pri vršni moči 240 W izkazal za najprimernejšega, za zaznavanje predoznak pa smo izbrali minimalno moč laserja 16 W. Za povečanje ponovljivosti zaznavanja smo še ustrezno nastavili pozicijo fotodiode. Sledila je izvedba eksperimentov izdelave in zaznavanja predoznak ter njuno vrednotenje. Z ustrezno nastavitvijo sistema in izbiro algoritma za analizo podatkov smo dosegli zahtevano točnost pod 10 μm in ponovljivost zaznavanja predoznak s standardno deviacijo 3,59 μm. Z uporabo tega sistema se bo znatno izboljšala točnost izdelave merilnih palic.

Language:Slovenian
Keywords:predoznake, termični raztezek, merilne palice, kompenzacija raztezka, merjenje intenzitete laserske svetlobe, zaznavanje predoznak
Work type:Final paper
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Publisher:[J. Ujčič]
Year:2018
PID:20.500.12556/RUL-102493 This link opens in a new window
UDC:621.375.826:53.08(043.2)
COBISS.SI-ID:16388891 This link opens in a new window
Publication date in RUL:31.08.2018
Views:1246
Downloads:255
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Secondary language

Language:English
Title:Laser manufacturing and detection of pre-marks for correction of encoder shaft thermal expansion
Abstract:
Procedure of encoder shaft manufacturing has a built-in system for thermal expansion compensation which was optimised and implemented in this undergraduate thesis. Thermal expansion is a result of heat added to the shaft by laser information inscription and causes lower manufacturing precision. Expansion compensation uses a method of creating pre-marks and detecting them by measuring the intensity of reflected laser light. Main experimental task in this thesis was system setup. The goal was to create narrow pre-marks which could be reproducibly detected. We created them with both continuous and modulated laser beams at different power levels. The latter proved to be more suitable at 240 W peak power. For pre-mark detetection we have chosen minimum laser power of 16 W. To increase repeatability we also set up the position of the photodiode. We then conducted experiments of creating pre-marks and detecting them, followed by their evaluation. By calibrating the system and choosing the appropriate algorithm for data analysis we have achieved target precision under 10 μm and detection repeatability evaluated with standard deviation of 3,59 μm. Using this system the precision of encoder shaft production will drastically increase.

Keywords:pre-marks, thermal expansion, encoder shafts, expansion correction, measuring laser light intensity, detection of pre-marks

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