Global ETD Search

161	Evaluation of Formability and Drawability of Al 5182-O Using a Servo Drive Press Mao, Tingting January 2014 (has links) No description available. Engineering
162	Exo-Controlled Biomimetic Robotic Hand : A design solution for control of a robotic hand with an exoskeleton Linder-Aronson, Philip, Stenberg, Simon January 2021 (has links) Robotic arms and hands come in all shapes and sizes, they can be general purpose or task-specific. They can be pre-programed by a computer or controlled by a human operator. There is a certain subsection of robotic hands which try to mimic the shape, movement and function of the human hand, these are sometimes known as biomimetic robotics. This project explores the human robot interaction by creating an anthropomorphic robotic hand with an accompanying exoskeleton. The hand, which consists of a 3D-printed body and fingers, is connected to a forearm where the servos that control the fingers are housed. The exoskeleton connects to the operator's hand allowing finger tracking through a set of potentiometers. This setup allows the operator to intuitively control a robotic hand with a certain degree of precision. We set out to answer research questions in regard to the form and function of a biomimetic hand and the exoskeleton. Along the way, a multitude of problems were encountered such as budgetary issues resulting in only half the fingers having movement. Despite this, good results were gathered from the functioning fingers and our research questions were answered. / Robotarmar och händer finns många former och storlekar, de kan vara för allmänna ändamål eller uppgiftsspecifika. De kan programmeras av en dator eller styras av en mänsklig operatör. Det finns en viss typ av robothänder som försöker efterlikna formen, rörelsen och funktionen hos den mänskliga handen, och brukar kallas biomimetisk robotik. Detta projekt utforskar interaktionen mellan människa och robot genom att skapa en antropomorf robothand med tillhörande exoskelett. Handen, som består av en 3D-printad kropp och fingrar, är ansluten till en underarm där servormotorerna som styr fingrarna sitter. Exoskelettet ansluts till operatörens hand vilket möjliggör spårning av fingrarnas rörelse genom ett antal potentiometrar. Detta tillåter operatören att intuitivt styra en robothand med en viss grad av precision. Vi valde att besvara ett antal forskningsfrågor med avseende på form och funktion av en biomimetisk hand och exoskelettet. Under projektets gång påträffades en mängd problem såsom budgetproblem som resulterade i att bara hälften av fingrarna kan kontrolleras. Trots detta fick vi bra resultat från de fungerande fingrarna och våra forskningsfrågor kunde besvaras. Mechatronics Biomechanical hand Robotic hand Exoskeleton Arduino Servo motor Potentiometer Mekatronik Servomotor Mekanisk hand Robothand Arduino Potentiometer Exoskelett Mechanical Engineering Maskinteknik
163	Développement d’un pilote de fabrication automatisée de photo-composites semi-ouvrés (pré-imprégnés) / Development of an automated prototype of manufacturing of semi-finished photo-composites (prepregs) Shanwan, Anwar 11 September 2014 (has links) Les véhicules de demain, (2020), devront diminuer leurs émissions globales de CO2 de 30% selon les directives européennes. Une solution qui apparait aujourd’hui comme inévitable est la substitution des métaux présents dans les châssis de véhicules par des matériaux composites plus légers et tout aussi performants. Pour généraliser cette approche à tout le secteur automobile, un temps court de fabrication des pièces est exigé pour satisfaire les cadences de production allant jusqu’à 1000 véhicules par jour. La production automatisée et robotisée de ces matériaux, basée sur la technologie de photo-polymérisation au moyen de rayonnements UV, répond à ces exigences. Le procédé de fabrication élaboré se décompose en deux phases : une phase de fabrication automatisée de pré-imprégnés (prépregs), produits semi-finis, et une phase de mise en forme et d’obtention du produit final (composite UV). La première étape consiste en l’imprégnation d’un renfort fibreux sec par une résine liquide photo-polymérisable, puis l’irradiation de celle-ci par des rayonnements UV, de manière à ce que la résine ne soit pas totalement polymérisée. On obtient alors un prépreg collant. La seconde étape de fabrication impose que les pré-imprégnés soient conditionnés parfaitement sous forme de bobines pour qu’ils soient intégrés dans un dispositif robotisé de dépose. D’où la nécessité de concevoir et de réaliser une machine automatisée de production des pré-imprégnés (objet de cette thèse). Cette machine a nécessité une automatisation se caractérisant par l'utilisation d'outils d'instrumentation et de pilotage modernes (servomoteurs Brushless, IHM, capteurs, …). Les essais réalisés sur cette machine ont permis de réaliser des premiers prépregs, dont les résultats ont conduit à des pistes de réflexion pour approfondir l'automatisation de la machine en vue d'améliorer le procédé de fabrication de ces prépregs. / The overall CO2 emission of the future vehicles, (2020), must be reduced by 30%, according to European directives. A solution that seems inevitable nowadays is the substitution of metals present in the vehicle chassis by lighter and equally efficient composite-materials. To generalize this approach throughout the automotive sector, a short manufacturing time of these materials is required to meet the high required production rates, of up to 1000 vehicles per day. The automated and robotic production of these materials, depending on the photo polymerization technology by UV radiation, meets these requirements. The developed automated manufacturing process consists of two phases: the phase of automated manufacturing of semi-finished composite (prepreg), and the phase of shaping and obtaining the final composite (UV composite). The first phase depends on the impregnation of fibrous reinforcement with a photo-polymerizable and liquid resin, then, on the partial irradiation of impregnated reinforcement with UV rays, in such a way that the resin is not completely cured. Thereby, a tacky prepreg is obtained. The second phase of automated manufacturing process requires that the prepregs must be perfectly reeled up in a form of coils, so that they can be incorporated in a robotic lay-up placement head. Hence, the need to design and produce a machine of automated prepreg production (subject of this thesis) is absolutely necessary. This machine requires automation, characterized by the use of modern instrumentations and control tools (Brushless Servo, Human–computer interface HCI, sensors...). The tests performed by this machine have enabled the production of the first prepregs, of which the results led to further approaches to develop the automation of this machine in order to improve the prepregs manufacturing process. Pré-imprégnés et composite UV Photo-polymérisation UV Résine photo-polymérisable Automatisation - robotisation Synchronisation des axes motorisés Servo-motoréducteur (moteur Brushless) Prepregs and UV composite UV light curing Light-curing resin Automation - robotics Synchronization of motorized axes Servo-gear motor (brushless motor) 629.2
164	Development of Steam Turbine Inlet Control Valve for Supercritical Pressure at Siemens Industrial Turbomachinery AB Sors, Felix, Holm, Patrik January 2010 (has links) <p>The development in the steam turbine business is heading for applications with much higher steam parameters since this enables a raised efficiency. Steam parameters refer to the pressure and the temperature of the steam. The aim of this study was to generate concepts for steam turbine inlet control valves designed for higher pressure and temperature in comparison with the present design. Future steam power plants using solar energy, based on tower technology, request this kind of performance and are an important potential market.</p><p>This master thesis at Linköping University has been written in collaboration with Siemens Industrial Turbomachinery AB. The performed work has incorporated literature studies, functional analysis and solid mechanics analysis, flow analysis, evaluation of sealings and cup springs and development of the dimensioning data for the future control valve. The aim was to find a design concept that sustains the new and higher steam parameters and is tolerant concerning vibrations.</p><p>A systematical way to work has been applied during the project and a detailed planning was continuously followed and adjusted. Major methods used were product design specification, quality function deployment, morphological matrices, decision matrices and failure mode and effect analysis. Important programs used during the project were Pro/ENGINEER, MATLAB, FloEFD and MS Excel.</p><p>Today’s valves are dimensioned for much lower performance than the new requirements in terms of pressure and temperature. The main problem for the present design is that the opening and closing forces requirements, with the new higher pressure, get unreasonably large. Therefore were many of the developed concepts equipped with a pressure balancing feature. This feature also gives another desirable result; the vibrations (that is the source of many of the problems with the present design) will also be reduced.</p><p>During the early concept development phase, 15 different concepts were generated and after the concept evaluation only three concepts remained. These concepts were further developed in different areas of interest and finally one of the three was chosen to be the winning concept. The new valve design will most likely meet the requirements and has the potential to be refined for even higher pressure for future demands.</p> / <p>Utvecklingen inom ångturbiner går mot applikationer med mycket högre ångdata eftersom detta möjliggör en ökad effektivitet. Ångdata refererar till ångans tryck och temperatur. Uppgiften var att generera koncept för inloppsreglerventiler (till ångturbiner) dimensionerade för högre tryck och temperatur jämfört med dagens design. Framtida ångkraftverk som drivs av solenergi, så kallade soltorn, efterfrågar denna prestanda och är en viktig framtida marknad.</p><p>Detta examensarbete vid Linköpings Universitet har skrivits i samverkan med Siemens Industrial Turbomachinery AB. Det genomförda arbetet har innefattat litteraturstudier, funktionsanalys och hållfasthetsanalys, flödesanalys, utvärdering av tätningar och tallriksfjädrar samt framtagning av dimensioneringsunderlag för den framtida reglerventilen. Målet var att finna ett koncept som klarar av dessa nya och högre ångdata och är tåligt beträffande vibrationer.</p><p>Ett systematiskt arbetssätt har anammats under projektet och en detaljerad planering upprättades och uppdaterades kontinuerligt. Viktiga metoder som använts är PDS (Product Design Specification), QFD (Quality Function Deployment), morfologisk matris, relativ beslutsmatris och feleffektanalys. Viktiga program som använts i projektet är Pro/ENGINEER, MATLAB, FloEFD och MS Excel.</p><p>Dagens ventiler är dimensionerade för mycket lägre prestanda än de nya kraven kräver i termer av tryck och temperatur. Det huvudsakliga problemet med den nuvarande designen var att kraven på de öppnande och stängande krafterna, med dessa nya ångdata, blir orimligt höga. Därför har många av de framtagna koncepten utrustats med tryckbalanserande funktion. Denna funktion ger också ett annat önskvärt resultat; vibrationerna (som är källan till många problem med dagens design) kommer även de att reduceras.</p><p>Under den tidiga konceptutvecklingsfasen genererades 15 olika koncept och efter konceptutvärderingen återstod bara tre. Dessa koncept vidareutvecklades inom olika intressanta områden och slutligen valdes ett av koncepten som det vinnande. Den nya ventildesignen kommer med stor sannolikhet att uppfylla kraven och har potential att förfinas för ännu högre tryck för framtida krav.</p> Steam steam turbine valve inlet control valve inlet valve control valve development siemens concept evaluation optimization machine design dimensioning turbine material pressure pressure balancing steam forces servo supercritical product development Ånga ångturbin ventil inloppsreglerventil inloppsventil reglerventil utveckling siemens koncept utvärdering optimering maskinkonstruktion dimensionering turbinmaterial tryck tryckbalansering ångkrafter servo superkritisk produktutveckling Mechanical engineering Maskinteknik
165	Development of Steam Turbine Inlet Control Valve for Supercritical Pressure at Siemens Industrial Turbomachinery AB Sors, Felix, Holm, Patrik January 2010 (has links) The development in the steam turbine business is heading for applications with much higher steam parameters since this enables a raised efficiency. Steam parameters refer to the pressure and the temperature of the steam. The aim of this study was to generate concepts for steam turbine inlet control valves designed for higher pressure and temperature in comparison with the present design. Future steam power plants using solar energy, based on tower technology, request this kind of performance and are an important potential market. This master thesis at Linköping University has been written in collaboration with Siemens Industrial Turbomachinery AB. The performed work has incorporated literature studies, functional analysis and solid mechanics analysis, flow analysis, evaluation of sealings and cup springs and development of the dimensioning data for the future control valve. The aim was to find a design concept that sustains the new and higher steam parameters and is tolerant concerning vibrations. A systematical way to work has been applied during the project and a detailed planning was continuously followed and adjusted. Major methods used were product design specification, quality function deployment, morphological matrices, decision matrices and failure mode and effect analysis. Important programs used during the project were Pro/ENGINEER, MATLAB, FloEFD and MS Excel. Today’s valves are dimensioned for much lower performance than the new requirements in terms of pressure and temperature. The main problem for the present design is that the opening and closing forces requirements, with the new higher pressure, get unreasonably large. Therefore were many of the developed concepts equipped with a pressure balancing feature. This feature also gives another desirable result; the vibrations (that is the source of many of the problems with the present design) will also be reduced. During the early concept development phase, 15 different concepts were generated and after the concept evaluation only three concepts remained. These concepts were further developed in different areas of interest and finally one of the three was chosen to be the winning concept. The new valve design will most likely meet the requirements and has the potential to be refined for even higher pressure for future demands. / Utvecklingen inom ångturbiner går mot applikationer med mycket högre ångdata eftersom detta möjliggör en ökad effektivitet. Ångdata refererar till ångans tryck och temperatur. Uppgiften var att generera koncept för inloppsreglerventiler (till ångturbiner) dimensionerade för högre tryck och temperatur jämfört med dagens design. Framtida ångkraftverk som drivs av solenergi, så kallade soltorn, efterfrågar denna prestanda och är en viktig framtida marknad. Detta examensarbete vid Linköpings Universitet har skrivits i samverkan med Siemens Industrial Turbomachinery AB. Det genomförda arbetet har innefattat litteraturstudier, funktionsanalys och hållfasthetsanalys, flödesanalys, utvärdering av tätningar och tallriksfjädrar samt framtagning av dimensioneringsunderlag för den framtida reglerventilen. Målet var att finna ett koncept som klarar av dessa nya och högre ångdata och är tåligt beträffande vibrationer. Ett systematiskt arbetssätt har anammats under projektet och en detaljerad planering upprättades och uppdaterades kontinuerligt. Viktiga metoder som använts är PDS (Product Design Specification), QFD (Quality Function Deployment), morfologisk matris, relativ beslutsmatris och feleffektanalys. Viktiga program som använts i projektet är Pro/ENGINEER, MATLAB, FloEFD och MS Excel. Dagens ventiler är dimensionerade för mycket lägre prestanda än de nya kraven kräver i termer av tryck och temperatur. Det huvudsakliga problemet med den nuvarande designen var att kraven på de öppnande och stängande krafterna, med dessa nya ångdata, blir orimligt höga. Därför har många av de framtagna koncepten utrustats med tryckbalanserande funktion. Denna funktion ger också ett annat önskvärt resultat; vibrationerna (som är källan till många problem med dagens design) kommer även de att reduceras. Under den tidiga konceptutvecklingsfasen genererades 15 olika koncept och efter konceptutvärderingen återstod bara tre. Dessa koncept vidareutvecklades inom olika intressanta områden och slutligen valdes ett av koncepten som det vinnande. Den nya ventildesignen kommer med stor sannolikhet att uppfylla kraven och har potential att förfinas för ännu högre tryck för framtida krav. Steam steam turbine valve inlet control valve inlet valve control valve development siemens concept evaluation optimization machine design dimensioning turbine material pressure pressure balancing steam forces servo supercritical product development Ånga ångturbin ventil inloppsreglerventil inloppsventil reglerventil utveckling siemens koncept utvärdering optimering maskinkonstruktion dimensionering turbinmaterial tryck tryckbalansering ångkrafter servo superkritisk produktutveckling Mechanical engineering Maskinteknik
166	Modelling and Design of a Test Rig to investigate the dynamic behaviour of a Servo driven Powertrain / Modellierung und Entwurf eines Versuchsstandes zur Untersuchung des dynamischen Verhaltens eines servogetriebenen Antriebsstranges Wittwer, Max 26 March 2018 (has links) (PDF) In the present work a simulation model for examining the fundamental dynamic behaviour of a servo driven powertrain is developed. This powertrain consists of a permanent magnet synchronous motor, a cycloidal gearbox and a torque motor to apply a load. On basis of this model the selection of components for the design of a test rig is possible. This leads to the constructive draft of the test rig. In order to model the system, the fundamentals give a brief overview of the components incorporated in the test rig system. With ais of the specified task the simulation purpose is defined and the modelling process enabled. The subsequent system analysis is performed intensively to decompose the system into subsystems, which are then investigated to find the optimal modelling approach for the given simulation task. Particular emphasis is put on the investigation of the cycloidal gearbox subsystem and it shows, that approaches for modelling the dynamic behaviour of the gearbox as a whole have only been published partially. Therefore, the available modelling approaches are analysed and suitable models are developed as conceptual models. Those will be formalised and implemented in Matlab/Simulink. The model is verified and simulation experiments are performed, that help in the selection of suitable test rig components. On basis of a flexible test rig, finally the constructive draft is presented. Modellieren Modell Versuchsstand Simulation PMSM Servo Motor Konzeptmodell Systemanalyse Matlab Simulink Antriebsstrang Zykloidengetriebe Zykloide Zykloid Cyclogetriebe cycloidal Modelling Model Test Rig Simulation PMSM Servo Motor Conceptual Model System Analysis Matlab Simulink Powertrain Cycloidal Gearbox Cyloidal Drive Cyclo ddc:620 rvk:ZL 3257
167	Tušírovací lis s pohybovými šrouby / Try-out press with motion screws Švoma, Jan Unknown Date (has links) The aim of this thesis is a complex design of the spotting press with a nominal force of 500 kN, which is intended for mating of the both halves of pressing tool for the automotive industry. The press ram is fitted with a hydraulic mechanism which allows the upper clamping board to be tilted in range of 0° -180° and removed from the working space of the press along a profile track. The lower clamping board is a part of moving bolster, which is equipped with a mechanism for lifting and centring. The concept of motion screws is used to drive the ram. Motion screws are mounted in a multiple-part frame and driven by servomotors. The thesis contains background research of the issue, solutions of the main design nodes of the press including calculations, detailed 3D model of the device and partial drawing documentation.
168	Tušírovací lis s pohybovými šrouby / Try-out press with motion screws Švoma, Jan Unknown Date (has links) The aim of this thesis is a complex design of the spotting press with a nominal force of 500 kN, which is intended for mating of the both halves of pressing tool for the automotive industry. The press ram is fitted with a hydraulic mechanism which allows the upper clamping board to be tilted in range of 0° -180° and removed from the working space of the press along a profile track. The lower clamping board is a part of moving bolster, which is equipped with a mechanism for lifting and centring. The concept of motion screws is used to drive the ram. Motion screws are mounted in a multiple-part frame and driven by servomotors. The thesis contains background research of the issue, solutions of the main design nodes of the press including calculations, detailed 3D model of the device and partial drawing documentation.
169	Návrh a analýza vlastností hydraulického servomechanismu řízení malého a rychlého letounu / Design and analysis of the properties of the hydraulic servo control of a small and speedy aircraft Cäsar, Tomáš January 2017 (has links) Target of this thesis was to design servo-mechanism suitable for control system of small and speedy aircraft, such as business jets and light multi-purpose attack aircraft. Main task was to use suggested characteristics for computer analysis and determine impact of their changes on servo-mechanism properties. Further on, experimental way of determining these parameters.
170	Optimalizace stroje s permanentními magnety na rotoru pomocí umělé inteligence / Optimization of the permanent magnet machine based on the artificial inteligence Kurfűrst, Jiří January 2013 (has links) The dissertation thesis deal with the design and the optimization of the permanent magnet synchronous machine (SMPM) based on the artificial intelligence. The main target is to apply potential optimization methods on the design procedure of the machine and evaluate the effectiveness of optimization and the optimization usefulness. In general, the optimization of the material properties (NdFeB or SmCo), the efficiency maximization with given nominal input parameters, the cogging torque elimination are proposed. Moreover, the magnet shape optimization, shape of the air gap and the shape of slots were also performed. The well known Genetic algorithm and Self-Organizing migrating algorithm produced in Czech were presented and applied on the particular optimization issues. The basic principles (iterations) and definitions (penalty function and cost function) of proposed algorithms are demonstrated on the examples. The results of the vibration generator optimization (VG) with given power 7mW (0.1g acceleration) and the results of the SMPM 1,1kW (6 krpm) optimization are practically evaluated in the collaboration with industry. Proposed methods are useful for the optimization of PM machines and they are further theoretically applied on the low speed machine (10 krpm) optimization and high speed machine (120 krpm) optimization.

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