Určení prostorových vztahů jeřábové dráhy / Deformation Surveying of Crane Track

Molčan, Vladimír

January 2014

The main theme of this master thesis is the design of technological process measurement and processing of measured data entered crane tracks to determine the geometric parameters of these crane tracks. Diploma thesis further describes the procedure for testing and possible rectification surveying equipment and instrumentation. The thesis is divided of 7 parts, contains 31 images, 4 graphs, 44 tables and 13 attachments. The theoretical part of this thesis contains information about several types of cranes, methods of measurement and processing, as well information on legal and technical regulations related to this topic of the thesis. The fourth and fifth parts of this thesis provides information on selected crane tracks on which the measurements were taken, the choice of methods of measurement, processing technique and the results obtained. The final part of the thesis includes evaluation of the results obtained, comparing methods of measurement, processing, evaluation and design of a technique of determining the geometric parameters of crane tracks.

Vybrané části stavebně technologického projektu - Bytový dům Novostrašnická / The selected parts of construction technology project - Apartment building Novostrašnická

Věrný, Roman

January 2016

This thesis is focused on selected parts of building technological project of apartment house Novostrašnická in Prague. The project contained technical report, coordinating situation with distinguished traffic routes, object-oriented time and financial plan, study of essential technological phases, report of building equipment and drawing of building equipment for different phases, the design of mechanical arrangement, the work schedule for fabric, plan for securing material resources, technological prescript and control trial plan for drilled piles, budget and design of lifting mechanisms.

Areál TRIANGL v Uherském Hradišti - stavebně technologický projekt / Campus TRIANGL Uherske Hradiste - construction technology project

Chamrádová, Klára

January 2016

The subject of this thesis is a construction technology project Areal triangle in the town of. The work includes a technical report on the structural and technological project technical report construction site along with drawings of building equipment, technological prescription for the implementation process of monolithic structures, being associated inspection and test plan, as well as draft mechanical assemblies, technical report broader transport relations, including drawings, itemized budget calculation according THU and the timetable for construction. It also dealt with contract work, instructions for use of the building and assess two variants of cranes in economic terms. Also at work are chapters dealing with safety at work and environmental protection. More specifically, the work deals with one of the main buildings, namely the object SO10 - Building A. The construction is a reinforced concrete monolith on five floors. The work is mainly focused on the shell construction.

Разработка конструктивного решения каркаса одноэтажного промышленного здания из ЛСТК, оборудованного подвесным краном грузоподъемностью до 2-3 тонн : магистерская диссертация / Development of a constructive solution for the frame of a single-storey industrial building made of LSTC equipped with an overhead crane with a lifting capacity of up to 2-3 tons

Никагосов, Д. В., Nikagosov, D. V.

January 2021

Работа посвящена разработке нового технического решения узла крепления подкрановых балок к ригелю покрытия рамы здания из ЛСТК (легких стальных тонкостенных конструкций), а также изучению его работы под нагрузкой. В результате исследования разработаны рабочие чертежи узла крепления и инженерный метод расчета данного узла, что позволяет расширить область применения каркасов из ЛСТК для строительства однопролетных зданий с подвесными кранами грузоподъемностью до 2-3 тс. В рамках настоящего исследования разработана расчетная пространственная модель здания в ПК ЛИРА-САПР 2016, произведен статический расчет по расчетным сочетаниям усилий. На основании результатов расчета методом конечных элементов определены максимальные действующие усилия, возникающие в несущих конструкциях. / Present work is devoted to the development of a new technical solution for the attachment joint of crane beams to the girder of the building frame covering made of LSTWS (Light steel thin-walled structures), as well as the study of its operation under load. As a result of the study, working drawings of the attachment joint and an engineering method for calculating this unit were developed, which makes it possible to expand the scope of application of frames from LSTWS for the construction of single-span buildings with overhead cranes with a lifting capacity of up to 2-3 t. Within the framework of this study, a computational spatial model of the building was developed in the FEA software LIRA-SAPR 2016. Static calculation was performed based on the design combinations of efforts. Based on the results of the calculation by the finite element method (FEM), the maximum acting forces arising in the supporting structures are determined.

ЛСТК

ОЦИНКОВАННЫЕ ПРОФИЛИ

ПРОМЫШЛЕННОЕ ЗДАНИЕ

УЗЕЛ

ПОДВЕСНОЙ КРАН

КРАН-БАЛКА

ФЕРМА

БАЛКА

ПОКРЫТИЕ

БОЛТОВОЕ СОЕДИНЕНИЕ

MASTER'S THESIS

LSTWS

LIGHTWEIGHT STEEL STRUCTURES

THIN-WALLED STRUCTURES

GALVANIZED PROFILES

INDUSTRIAL BUILDING

JOINTS

STEEL STRUCTURES

OVERHEAD CRANE

CRANE-BEAM

REDUCED SECTION

TRUSS

BEAM

COATING

BOLTED CONNECTION

FINITE ELEMENT METHOD

Offshore Wind Turbine Transportation & Installation Analyses Planning Optimal Marine Operations for Offshore Wind Projects

Uraz, Emre

January 2011

Transportation and installation of offshore wind turbines (Tower, Nacelle and Rotor) is a complete process conducted over several phases, usually in sequence. There are several factors that can turn this process into a challenge. These factors can either be due to offshore site conditions or the technical limitations of the installation vessels. Each project has its own characteristic parameters and requires a unique optimum solution. This paper identifies the dynamics of the installation process and analyzes the effects of each phase on the progression of events.The challenges in wind turbine installations due to offshore environment were investigated, the effects of each were explained and their significances were stressed. Special installation vessels were examined and their technical specifications were analyzed in terms of working conditions, dimensions, service performances, and crane capacities as well as projecting future design trends. Several offshore wind farm projects were analyzed; their installation methods were specified, and compared to each other to determine advantages and disadvantages of different pre-assembly concepts. The durations of the sub-phases of the process were defined in terms of different variables such as site conditions and individual vessel performance. These definitions were used for making time estimations, and conducting further analyses regarding the effects of different site specific parameters on the overall project duration.In conclusion, this study considered the main operation parameters in an offshore wind turbine installation context: the benefits and drawbacks of different pre-assembly methods were researched and evaluated resulting in new knowledge and a productive contribution for optimizing “the offshore turbine transportation and installation process”, based on actual time usage.

Offshore wind farms

transportation and installations

jack-up vessels

wind turbine installation vessels

design trends in installation vessels

assembly and pre-assembly

project durations

onboard cranes

challenges due to offshore environment

time performance

crane operations

At the center of American modernism Lola Ridge's politics, poetics, and publishing /

Wheeler, Belinda.

January 2008

Thesis (M.A.)--Indiana University, 2008. / Title from screen (viewed on June 2, 2009). Department of English, Indiana University-Purdue University Indianapolis (IUPUI). Advisor(s): Karen Kovacik, Jane E. Schultz, Thomas F. Marvin. Includes vita. Includes bibliographical references (leaves 57-61).

Modeling of the Haltere-A Natural Micro-Scale Vibratory Gyroscope

Parween, Rizuwana

January 2015

Vibratory gyroscopes have gained immense popularity in the microsystem technology because of their suitability to planar fabrication techniques. With considerable effort in design and fabrication, MEMS (Micro-electro-mechanical-system) vibratory gyroscopes have started pervading consumer electronics apart from their well known applications in aerospace and defence systems. Vibratory gyroscopes operate on the Coriolis principle for sensing rates of rotation of the r tating body. They typically employ capacitive or piezoresistive sensing for detecting the Coriolis force induced motion which is, in turn, used to determine the impressed rate of rotation. Interestingly, Nature also uses vibratory gyroscopes in its designs. Over several years, it has evolved an incredibly elegant design for vibratory gyroscopes in the form of dipteran halteres. Dipterans are known to receive mechanosensory feedback on their aerial rotations from halteres for their flight navigation. Insect biologists have also studied this sensor and continue to be fascinated by the intricate mechanism employed to sense the rate of rotation. In most Diptera, including the soldier fly, Hermetia illucens, the halteres are simple cantilever like structures with an end mass that probably evolved from the hind wings of the ancestral four-winged insect form. The halteres along with their connecting joint with the fly’s body constitute a mechanism that is used for muscle-actuated oscillations of the halteres along the actuation direction. These oscillations occur in the actuation plane such that any rotation of the insect body, induces Coriolis force on the halteres causing their plane of vibration to shift laterally by a small degree. This induced deflection along the sensing plane (out of the haltere’s actuation plane) results in strain variation at the base of the haltere shaft, which is sensed by the campaniform sensilla. The goal of the current study is to understand the strain sensing mechanism of the haltere, the nature of boundary attachments of the haltere with the fly’s body, the reasons of asymmetrical geometry of the haltere, and the interaction between both wings and the contralateral wing and haltere. In order to understand the haltere’s strain sensing mechanism, we estimate the strain pattern at the haltere base induced due to rotations about the body’s pitch, roll, and yaw axes. We model the haltere as a cantilever structure (cylindrical stalk with a spherical end knob) with experimentally determined material properties from nanoindentation and carry out analytical and numerical (finite element) analysis to estimate strains in the haltere due to Coriolis forces and inertia forces resulting from various body rotations. From the strain pattern, we establish a correlation between the location of maximum strain and the position of the campaniform sensilla and propose strain sensing mechanisms. The haltere is connected to the meta thoracic region of the fly’s body by a complicated hinge mechanism that actuates the haltere into angular oscillations with a large amplitude of 170 ◦ in the actuation plane and very small oscillation in the sensing plane. We aim to understand the reason behind the dissimilar boundary attachments along the two directions. We carry out bending experiments using micro Newton force sensor and estimate the stiffness along the actuation and sensing directions. We observe that the haltere behaves as a rigid body in the actuation direction and a flexible body in the sensing direction. We find the haltere to be a resonating structure with two different kinds of boundary attachments in the actuation and sensing directions. We create a finite element model of the haltere joint based on the optical and scanning microscope images, approximate material properties, and stiffness properties obtained from the bending experiments. We subsequently validate the model with experimental results. The haltere geometry has asymmetry along the length and the cross-section. This specific design of the haltere is in contrast to the the existing MEMS vibratory gyroscope, where the elastic beams supporting the proof mass are typically designed with symmetric cross-sections so that there is a mode matching between the actuation and the sensing vibrations. The mode matching provides high sensitivity and low bandwidth. Hence, we are interested in understanding the mechanical significance of the haltere’s asymmetry. First, we estimate the location of the maximum stress by using the actual geometry of the haltere. Next, by using the stiffness determined from bending experiments and mass properties from the geometric model, we find the natural frequencies along both actuation and sensing directions. We compare these findings with existing MEMS vibratory gyroscopes. The dipteran halteres always vibrate at the wing beat frequency. Each wing maintains 180 ◦ phase difference with its contralateral haltere and the opposite wing. Both wings and the contralateral wing-haltere mechanism exhibit coupled oscillatory motion through passive linkages. These linkages modulate the frequency and maintain the out- of-phase relationship. We explore the dynamics behind the out-of-phase behaviour and the frequency modulation of the wing-wing and wing-haltere coupled oscillatory motion. We observe that the linear coupled oscillatory model can explain the out-of-phase relationship between the two wings. However, a nonlinear coupled oscillator model is required to explain both frequency synchronization and frequency modulation of the wing with the haltere. We also carry out a finite element analysis of the wing-haltere mechanism and show that the out-of-phase motion between the wing and the haltere is due to the passive mechanical linkage of finite strength and high actuation force. The results of this study reveal the mechanics of the haltere as a rate sensing gyroscope and show the basis of the Nature’s design of this elegant sensor. This study brings out two specific features— the large amplitude actuated oscillations and the asymmetric geometry of the haltere structure— that are not found in current vibratory gyroscope designs. We hope that our findings inspire new designs of MEMS gyroscopes that have elegance and simplicity of the haltere along with the desired performance.

Gyrosocopic Halteres

Micro Scale Visratory Gyrosocopic

Micro-Electro-Mechanical-System

Haltere's Boundary

Haltere’s Asymmetry

Wing-Haltere Coupled Model

Haltere's Modeling

Haltere’s Attachment

Wing-Haltere Mechanism

Soldier Fly Halteres

Crane Fly Haltere

Mechanical Engineering

Jeřáb mostový jednonosníkový / Bridge crane one-girder

Stanec, Stanislav

January 2017

This diploma thesis deals with constructional design and a calculation of one-girder bridge crane with the requested primary parametres: lifting capacity 10 000 kg, span 12 000 mm, wheel base 2 500 mm, travel height 7 000 mm. In diploma thesis, there is executed analysis of constructional designs of box girders, drawn up technical report with the analysis of the choice of the construction with important technical and physical calculations. Calculations were executed according to valid Czech state norms and literature. Drawing documentation is enclosed to this thesis.

Matematické modelování pomocí diferenciálních rovnic / Mathematical modelling with differential equations

Béreš, Lukáš

January 2017

Diplomová práce je zaměřena na problematiku nelineárních diferenciálních rovnic. Obsahuje věty důležité k určení chování nelineárního systému pouze za pomoci zlinearizovaného systému, což je následně ukázáno na rovnici matematického kyvadla. Dále se práce zabývá problematikou diferenciálních rovnic se zpoždéním. Pomocí těchto rovnic je možné přesněji popsat některé reálné systémy, především systémy, ve kterých se vyskytují časové prodlevy. Zpoždění ale komplikuje řešitelnost těchto rovnic, což je ukázáno na zjednodušené rovnici portálového jeřábu. Následně je zkoumána oscilace lineární rovnice s nekonstantním zpožděním a nalezení podmínek pro koeficienty rovnice zaručující oscilačnost každého řešení.

Kladnice s motoricky otočným hákem nosnosti 20 t / Hook assembly with motorized rotating hook load capacity 20 tons

Procházka, Tomáš

January 2017

This thesis deals with the design of a crane hook block with a capacity of 20 tons with two guiding and one equalizing roller for handling sheet metal coils. The work includes the calculation and design of the elements and strength calculations of individual parts. Part of the work is the drawings of the given assemblies.