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Sinhrono gibanje v Kuka KRL programskem okolju
ID Vesel, Luka (Author), ID Kamnik, Roman (Mentor) More about this mentor... This link opens in a new window

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Abstract
Roboti so postali pomembni za človeštvo, saj lahko nadomestijo človeško delo, najpogosteje v industrijskih panogah, še posebej tam, kjer gre za človeku nevarno okolje. V diplomski nalogi sem se osredotočil na strojno opremo robotskega sistema Kuka, komunikacijo med komponentami, ki vključuje razliko med sinhronim in asinhronim gibanjem dveh sodelujočih robotov, ter osnovne funkcije robota in krmilnika. V prvem delu diplomske naloge sem predstavil strojno opremo krmilnika robota Kuka, kaj vse potrebuje robot za funkcionalnost in komunikacijo in katere komponente najdemo v ohišju krmilnika. Opisal sem modul, ki zagotavlja varnost in preprečuje trke med roboti. Predstavil pretvornik signalov iz resolverja v digitalni signal, ki vsebuje elektromehanski senzor in meri natančen kotni položaj vrtljivega elementa ter modul digitalne servo elektronike, ki je odgovoren za digitalno zaprto zanko za nadzor gibanje do 8 osi. Gibanje robota lahko programiramo z različnimi gibi, kot so, gibanje od točke do točke, linearno premikanje in krožno premikanje. Vse gibe je mogoče tudi sinhronizirati z gibanjem drugega robota v celici. Pri sinhroniziranem gibanju, morajo roboti dokončati svoj sinhroniziran gib, nato se lahko pričnejo ponovno premikati do naslednje točke. Pri asinhronem gibanju je potreben pogoj za ponovni premik. Asinhroni gib je neodvisen od časa.

Language:Slovenian
Keywords:Robot Kuka, sinhronizacija, asinhronizacija, RoboTeam, operacijski sistem Kuka, učna enota.
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2022
PID:20.500.12556/RUL-138548 This link opens in a new window
COBISS.SI-ID:117113091 This link opens in a new window
Publication date in RUL:27.07.2022
Views:615
Downloads:69
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Secondary language

Language:English
Title:Synchronous motion in Kuka KRL programming environment
Abstract:
Robots have become human society important to humanity because they can replace human labour, most often in industrial sectors, especially where the environment is not safe to humans. In my diploma thesis i have focused on the hardware of the Kuka robot system, the communication between the components, including the difference between synchronous and asynchronous motion of the two participating robots, and the basic functions of the robot and the controller. In the first part of diploma thesis i have presented the hardware of the Kuka robot controller, what the robot needs for functionality and communication and which components are found in the controller cabinet. I have described the module that ensures safety and prevents collisions between robots, the resolver to digital signal converter containing the electromechanical sensor that measures the precise angular position of the rotating element, the digital servo electronics module responsible for the digital closed loop that controls the movement of up to 8 axes. The robot can be programmed with different movements such as point-to-point, linear and circular. All movements can also be synchronised with another robot in the cell. In synchronised motion, robots must complete their synchronised motion, before they can start moving again to the next point. In asynchronous motion, a condition is needed to move again. Asynchronous motion is independent of time.

Keywords:Robot Kuka, synchronization, asynchronization, RoboTeam, operating system Kuka, teach pendent.

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