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Simulační modelování paralelních mechanismů / Simulation modeling of parallel mechanismsCintula, Ladislav January 2012 (has links)
Parallel mechanisms are characterized by their kinematic structure presented a closed kinematic chain. The end effector of mechanism is then bound to a base of over one arm. This design provides an advantage especially at high stiffness of mechanism and related properties. The disadvantage of such a structure is then usually very limited working space. In terms of simulation modeling is the construction due to its complexity rather problematic. The aim of work is design comprehensive simulation model chosen parallel mechanism and its analysis in selected working modes. Expected to use Adams simulation environment, if necessary. Matlab - SimMechanics and Ansys.
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Konstrukce manipulátoru s PKS pro velmi malé součásti / Desing of PKS type TRIPODCoufal, Jiří January 2011 (has links)
The thesis acquaints the reader with issues of manipulators based on parallel kinematic structures. It includes also the description of the construction procedure of chosen mechanism. Introductory search part specifies selected terms relating to building elements and describes their requirements. Alternatives of construction and used types of manipulators are shown in the illustrative images with labels. Next chapters deal with projects of selected parallel mechanism and methodologies of constructions. These chapters describe the design of all devised construction nodes. The construction and testing of the produced prototype is properly documented, indicating the resulting knowledge.
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Návrh SW pro řízení delta robotu / Design of SW for control of the delta robotŠimková, Kristýna January 2019 (has links)
This thesis deals with software creation for delt robot in TwinCAT 3 program. First part describes the general characteristics of a delta robot. Next part deals with hardware and PLC coding in TwinCAT 3 and the final part discusses the creation of an application.
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Experimentální robotizované pracoviště s delta-robotem / Experimental robotized workplace with delta-robotKozubík, Jiří January 2011 (has links)
This diploma thesis was written within Czech-German study programme Production systems (VUT v Brně & TU Chemnitz). This thesis is divided into four main parts. In the first part is brought out the introduction to design of robotic cells. Following part is concentrated on analysis of present state in area of machines with parallel kinematics. The penultimate part, on which is focused the main attention, is dedicated to kinematic analysis of delta-robot. Closing part of this Thesis presents the study of experimental robotized workplace with integrated delta-robot.
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Využití viruální reality v konstrukčním procesu / Using virtual reality in design processHlavatý, Michal January 2013 (has links)
Master thesis deals with the possibility of using virtual reality in the construction process and points to new possibilities for non-traditional controlling of devices. The aim of this thesis is to become familiar with equipment designed in ÚVSSR and technology using motion capturing. Subsequently, there is also aim to use the gained knowledge to design a software which uses virtual reality in the construction process of parallel kinematic structure delta type, which will have the option of touchless control and will analyze the progress of energy flow of devices.
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Design, Construction, Control, and Analysis of Linear Delta RobotOberhauser, Joseph Q. 19 July 2016 (has links)
No description available.
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Design, Modeling, and Testing of a Force Feedback Haptic Device for Simulated Robot Interaction / Design, modellering, och test av en kraftåterkopplad haptisk pryl för simulerad robot interaktionLindström, Patrik January 2023 (has links)
Haptic feedback is a growing phenomenon that incorporates the sense of touch through tactile sensations such as vibrations, electrical signals, air pressure, and sound waves or through force feedback, which employs torques and/or forces to replicate the pressure and weight of a simulated object. Utilizing haptic technology establishes a communication bridge between the user and the technical component, enhancing the user's understanding of the technical component's surroundings. This thesis focuses on designing a force feedback haptic device with an impedance control strategy, enabling the imposition of dynamic behavior during simulated robot interactions. Impedance control is a commonly employed approach in haptic devices, utilizing a mass-spring-damper model to vary stiffness, damping, and inertia levels, thereby simulating realistic forces and torques in master-slave interactions. Initially, a haptic device resembling the shape of a Delta robot was designed using Solidworks, with size and weight distribution serving as the primary design considerations. Subsequently, the device was further represented using a generic robot description format, incorporating the design's joints and links. This representation was then paired with kinematic connections delineating the robot's motion and dynamic matrices to simulate the robot's movement. Alongside the integration of an impedance control strategy, simulations were conducted to emulate robot interactions. These simulations tested the system under various conditions, including scenarios with and without introduced torque disturbances. Including torque disturbances was intended to enhance the simulation's realism and assess the impact of impedance control parameter choices on the system's behavior. In summary, the research concludes how a closed-chain robot, the Delta robot, can be modeled as a haptic device with an impedance control strategy, offering valuable guidance for future research. / Haptisk återkoppling är ett växande fenomen som integreras i allt fler användningsområden. Genom att återskapa känslan av att röra vid eller interagera med föremål, antingen genom att simulera taktila sensationer som vibrationer, elektriska signaler, lufttryck och ljudvågor eller genom att återge kraftåterkoppling till användaren, kan användarens förståelse för tekniska komponenter och deras omgivning öka. Kraftåterkoppling möjliggör imitation av tryck och vikt hos simulaterade objekt, vilket förbättrar realismen i användarupplevelsen. Detta examensarbete har inriktat sig på att designa en haptisk pryl med kraftåterkoppling och en styrmekanism baserad på impedanskontroll. Genom att implementera impedanskontroll kan dynamiska beteenden inkorporeras i systemet genom varierande styrka, dämpning och tröghet. Dessa impedansparametrar möjliggör realistiska simuleringar av kraft och vridmoment i samband med virtuella robotinteraktioner. Först utformades en haptisk pryl som efterliknar formen av en Delta-robot med hjälp av CAD-programmet Solidworks. Här var storlek och viktfördelning primära överväganden i designprocessen. Därefter representerades enheten genom en generisk robotbeskrivning som inkluderade dess leder och länkar. Denna representation kopplades sedan ihop med kinematiska samband som reglerade enhetens rörelse. Tillsammans med integreringen av impedanskontrollstrategin genomfördes simuleringar som efterliknade robotinteraktioner. Dessa simuleringar omfattade olika scenarier, inklusive de med vridmomentsstörningar och de utan. Syftet med att inkludera vridmomentsstörningar var att öka realismen i simuleringen och utvärdera påverkan av valda parametrar för impedanskontrollen på systemets beteende. Sammanfattningsvis har detta arbete resulterat i utformningen av en haptisk pryl med kraftåterkoppling, som efterliknar en Delta-robot. Prylen har modellerats som en trädstruktur, med kinematiska samband som sammanfogar dess ändnoder. Det här arbetet har bidragit till kunskapen om hur realistiska haptiska interaktioner kan skapas och öppnat möjligheter för framtida forskning och utveckling inom detta område.
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