Global ETD Search

1	Racionalizace výroby servomotoru v AVEKO / Rationalisation of servomotor production in AVEKO. Poláčková, Kateřina January 2011 (has links) The aim of this work is to rationalize the production process of the components produced by the actuator AVEKO Ltd. By analyzing the current state of identified weaknesses and proposals for amendments were made to increase volume and production efficiency. The following amendment has been prepared an economic evaluation and overall evaluation of the work.
2	[en] STUDY OF KINEMATIC AND DYNAMIC CHARACTERISTICS OF A LARGE-SIZED CHARTPLOTTER / [pt] ESTUDO DAS CARACTERÍSTICAS CINEMÁTICAS E DINÂMICAS DE UMA TRAÇADORA DE GRANDE PORTE SANDRA DE ALMIRANTE FRID 09 March 2018 (has links) [pt] Este trabalho apresenta um estudo experimental do funcionamento do protótipo de uma traçadora gráfica de grande porte, desenvolvida no Departamento de Engenharia Mecânica da PUC-RJ. São detalhadas as características cinemáticas e dinâmicas do modelo de posicionamento adotado. As respostas de traçados são analisadas em função de diversas variáveis. É feito um estudo sobre rampa de aceleração e sua influência na qualidade do traçado. Finalmente, é apresentado um algoritmo, de traçamento de arcos de círculo, que permite maior versatilidade no seu funcionamento. / [en] An experimental study of the performance of a large scale plotter developed and built at the Mechanical Engineering Department of PUC-RJ is undertaken. After analysis of the kinematical solution, the study is concerned with the dynamical response of the pen positioning system. The need of acceleration ramps becomes clear and their influence on the drawing quality is compared for several time delays. Finally, an algorithm for drawing circles and arcs based on a look-up table is presented. This algorithm is suitable for reducing data transfer between the controlling computer and the plotter. [pt] SERVOMOTORES [en] SERVOMOTORS [pt] TRACADORA GRAFICA DE GRANDE PORTE [en] LARGE SCALE PLOTTER [pt] MOTOR DE PASSO [en] STEP MOTORS
3	Polohovací jednotka pro laserovou spektroskopii / Positioning unit for laser spectroscopy Brada, Michal January 2012 (has links) This diploma thesis deals with design of positioning unit for laser spectroscopy and its realization to shape of prototype. The design of positioning unit is based on the analysis of the current state of knowledge in the field of remote laser spectroscopy systems. Precise harmonic drive and worm drive with stepper motors are used to drive. The main parts of positioning unit are designed primarily from duraluminium. The positioning unit will be used for experimental measurements at the Institute of Physical Engineering Faculty of Mechanical Engineering Brno University of Technology. 3D digital prototype and technical drawings were created in Autodesk Inventor 2010.
4	Electromechanical Device for Temperature Control of Internal Combustion Engines Mamani, A., Quispe, G., Raymundo-Ibañeez, C. 25 November 2019 (has links) Internal combustion engines are the most commonly used engines in the automotive world. However, these engines lack an overheating prevention system against cooling system failures when they exceed their normal operating temperature. Less experienced drivers (users) usually do not notice overheating until the engine stops, generating economic expenses in engine repairs. As such, this paper describes the design and construction of an electromechanical device to prevent engine overheating. This device is installed in a vehicle and operates independently from the electronic control unit (ECU); it records the coolant temperature and controls air admission to the engine of the vehicle in which it is installed. In addition, a new Arduino-based card will receive signals from a temperature sensor as input and process them according to its programming. Then, it will send signal outputs to the actuators: A servomotor, monitor, LED display, and buzzer. To control the intake flow, a butterfly valve is used with the servomotor. This valve partially or totally restricts the engine airflow, based on the temperature programmed for the Arduino, thus protecting the engine from overheating. Automobile cooling systems Combustion Control systems Display devices Electromechanical devices Manufacture Servomotors Internal combustion engines
5	Příprava scény pro detekci elektronických součástek / Adjustment of scene for electronic devices detection Hynčica, Tomáš January 2010 (has links) This work describes development of control hardware and software for automatic production of tuning fork with tip for atomic force microscopy (AFM). A specialized device implementing the problem is developed and tested. The advantage of the proposed solution is the ability to produce the tuning forks with constant parameters, which is an important condition for successful work with the microscope.
6	Bärbar sensorhandske med force feedback för manövrering av en humanoid robothand - : Implementering med monterade sensorer och motorer för styrning och känsel / Sensors glove with force feedback feeling when operating a humanoid robot hand : Implementing mounted sensors and engines for control and sensibility Ekström, Sebastian January 2019 (has links) The goal of this thesis was to create a sensors glove with force feedback feeling when operating a humanoid robot hand. The development covered multiple areas such as mechanics, electronics and programming. The final product gave the user control over three fingers of a humanoid robotic hand. In the case where the robotic hand comes in contact with an object the user's finger movement is limited according to the pressure the robotic hands fingers exposes the object to. / Rapporten beskriver arbetet för framtagandet och skapandet av en sensorhandske med inbyggd force feedback funktion som därmed ska möjliggöra styrning över en mekanisk gripare med hög finmotorik. Detta för att kunna få en mer realistisk manövrering över griparen. Projektet är uppdelat i två system. Ett system för sensorhand som med en Arduino Uno Rev 3 styr servomotorer som används för att återskapa force feedbacken. Utöver det sker även mätning och analys av användarens fingerposition genom potentiometrar. Det andra systemet är för en humanoid robothand som även den använder sig av en Arduino Uno Rev 3 för att manövrera de servomotorer som handen använder för att flytta fingrarna. Mätning och analys av trycksensorer på robothandens fingertoppar genomförs för att möjliggör återskapandet av force feedback till användaren efter det tryck robothanden utsätter ett objekt för. De två systemen använder sig av ett I2C protokoll i form av multimaster and slave struktur för att kommunicera mellan det två mikrokontrollerna samt deras respektive servomotordrivarkretsar (Adafruit- PCA9685). För att undvika krockar i kommunikationen då mer än en master använder I2C linorna skapades en ovanpåliggande struktur för att upprätta regler för hur kommunikationen ska genomföras. All datahantering och kommunikation programmeras i C++. Programmeringskoden är skapad så att utbytet av robothanden och dess servodrivarkrets är möjligt. Sensorhandsken kan därmed implementeras till vad användaren väljer att använda den till, så länge kommunikationen sker med samma regler och struktur som upprättats. Utöver elektronik och programmering har även mycket mekanik tillämpats då olika delar av elektroniken ska byggas in och kunna fungera korrekt med rörliga mekaniska delar. Detta har bland annat använts i skapandet för fingerpositionsmätningen där trimpotentiometrar har byggts in och rörliga delar kan ändra på det resistiva motståndet i komponenten. Trots projektets begränsning till tre fingrar tyder projektet på att det framtagna konceptet av en sensorhandske med force feedback är fullt möjligt och genomförbart. Electrical Engineering Programming Mechanics Mechatronics Robotics Arduino Adafruit I2C C ++ Sensors Servomotors Circuit Creation Force feedback Elektroteknik Programmering Mekanik Mekatronik Robotik Arduino Adafruit I2C C ++ Sensorer Servomotorer Kretskoppling Kraftåterkoppling Embedded Systems Inbäddad systemteknik
7	Matematický model zátěžového pracoviště točivých elektrických strojů / Mathematical model of load workplace for rotating electrical machines Rybnikář, Petr January 2021 (has links) This work deals with the creation of a mathematical model of load workplace for rotating electrical machines. The first part provides a general description of servomotors and their mathematical equations. The second part describes the commissioning and connection of the PLC to the inverter and the subsequent creation of PLC programs. The last part describes the creation of the PMSM model with its control and then verified the validity of the model and the real machine.
8	Systém pro pokročilou vizuální teleprezenci / Advanced Visual Telepresence System Davídek, Daniel January 2015 (has links) The introduction of this document presents some basic principles of visual telepresence with analysis of important aspects of the design. Afterwards there is a brief ovrewview of some of the applications of telepresence systems. Subsequently there is a description of the basic parameters and functions of the human visual perception system including the head motion parameters. This document examines the creation of telepresence apparatus through which is the user able to percieve visual stimuli accross distance. The device consist of camera with wide FOV positioned on the last link of the servo-motor chain with 3 DOF. Camera view is projected into scene in position read from actual motor posture. The scene is perceived through the HMD Oculus Rift (DK1, DK2) where the actual head-orientation read from the HMD inertial sensors is the entered end value for the rotation angles of the servomotors. A \csharp (WPF) program was developed for the controling and setting of motors which handles the byte communication through RS485-USB converter and also configures and starts the telepresence mode. The telepresence scene is drawn with help of SharpDX and SharpOVR - the \csharp wrappers of DirectX and LibOVR.
9	Ověření biologických parametrů člověka pro robotickou vizuální teleprezenci / Validation of human body biological parameters for robotic visual telepresence Cheparukhina, Anna January 2015 (has links) This work presents a research in the field of robotic visual telepresence. At the beginning explains the principle of teleprezence and it makes classification of robots according to their properties and concepts. Furthermore, there is a review of modern existing robots. The following chapter discusses the human visual system, the basic parameters and functions including parameters of head movements. Subsequently have been selected critical parameters for visual telepresence. At the conclusion of the theoretical part were designed some experiments to validation of human body biological parameters. In the practical part was conducted measuring the extent and speed of head movements, eye distinction depending on the lighting and measurement of visual field man. Also, a series of experiments was performed for practical technical embodiment of the telepresence system rescue robot for class Orpheus.

Search results