– MODULAR T – Spain PP – 178.009 SEVILLE 12 - 14 FEBRUARY 2007 MODULE I DESIGN PROCESS.

MODULAR T– – Spain

PP – 178.009SEVILLE

12 - 14 FEBRUARY 2007

MODULE IDESIGN PROCESS


“Sin la técnica el hombre no exisitría, ni habría existido núnca”

Ortega y Gasset (Santander 1933)

“Whitout technique the man would not exist, and would have never exist”

Ortega y Gasset (Santander 1933)


•Casa de la Columnas, former Universidad de Mareantes that trained sailors for the ship crew during XVI and XVII centuries. Later patio de vecinos, and nowadays it is used as a social center.


Main Module 1Fundamentals

Module 2Principles of Electrical

and Control Engineering

Module 1Design process


2. Submodule II – Theory of Technical Systems and Processes a. Theory of technical systems and processes Technology process and products (alternative lecture)

1. Submodule I - Basic Design Principles a. Technical drawing b. CAD-CAM c. Basic design principles and modelling d. Exposition and Documentation (incl. IPR) e. Principles of material science f. Basics of mathematics and physics in technical systems


. Drawing and graphic design materials, tools and techniques.

.Basic Geometric design/layout. .Representation in dihedral systems. .Representation in Axonometric

Projection and Cavalier Perspective. .Representation in Oblique and Front

Conic Projection. .Standardization and Symbols in

Technical Drawing

Lecture:TECHNICAL DRAWING

Lecture:CAD/CAM

.The Administration of Product Lifecycle Management (PLM).

. Phases in the manufature of a product: The planning of the process and the production , machine process, calendar planning, administration and quality control.

CAM Systems: Manufacturing processes. Automation in manufacturing. Digital Tool Machinery. (DTM) ISO programming language DTM

. CAD Systems: Modelling in 2 and 3 dimensions.

CAD/CAM systems. Integration


Fundamentals of antropometrics, ergonomics and bionics.

Creativity, innovation, inventiveness. Types of modelling, models and

prototypes. Market analyisis.

Lecture:BASIC DESIGN PRINCIPLES AND MODELLING


The project: Definition and object; phases, formal presentation and structure; delivery.

Documents of the project. Estructure and contents: report and annexs;plans

Projects and property rights: Intellectual property; inventors’ patents, trade marks; literary and artistic ownership. ICT rights. Industrial ownership.

Lecture:Exposition and Documentation

(incl. IPR)

Lecture:Principles of

material science

. Types and properties of materials. . Mechanical testing. Composition and

representation of tests. Calculation of testing in simple parts.

. Tests and measurements of the properties of materials used.

. Oxidisation and corrosion . Internal structure and techniques

used for the modification of the properties of metals.

. Changing into solid form and diagrams of the balances within metallic materials

. Heat treatment of steels.


. Mechanics: Staticts and dynamic Principles

. Priciples of hydrostatics and pneumatics (fluids).

. The theory of fields: electric, magnetic and electromagnetic.

. Thermodynamics: The Principals of Thermodynamics and thermal machines.

. Basic trigonometrics. (lineal Algebra) . Differential and integral calculus. . Vector calculus. . Calculus with variable complexes:

Phasors . The Laplace and Fourier

transformed. . Numerics methods for the solving of

the systems and no-lineal equations. . The functions of transference in

Physical systems. The concept of stability.

Lecture:Basics of

mathematics and physics in

technical systems


. The market . The production process. . Marketing . Quality Control.

Lecture:Theory of technical systems and processesTechnology process and products (alternative lecture)


SUBMODULE (list of enclosed subjects)

Technical Drawing

LECTURES:58SEMINARS:10APPLIED PROJECT:20

TOTAL HOURS: 88TIMES: 2 SEMESTERS/FIRST YEARCREDITS: 5

. Drawing and graphic design materials, tools and techniques..Basic Geometric design/layout. .Representation in dihedral systems. .Representation in Axonometric Projection and Cavalier Perspective..Representation in Oblique and Front Conic Projection. .Standardization and Symbols in Technical Drawing


SUBMODULE list of enclosed subjects

CAD-CAM


TOTAL HOURS:58TIMES: 1 SEMESTER/2nd YEARCREDITS:3

.The Administration of Product Lifecycle Management (PLM).. Phases in the manufature of a product: The planning of the process and the production , machine process, calendar planning, administration and quality control.CAM Systems: Manufacturing processes. Automation in manufacturing. Digital Tool Machinery. (DTM) ISO programming language DTM. CAD Systems: Modelling in 2 and 3 dimensions. CAD/CAM systems. Integration


SUBMODULE (list of enclosed subjects)

Technical Drawing


TOTAL HOURS: 88TIMES: 2 SEMESTERS/FIRST YEARCREDITS: 5

. Drawing and graphic design materials, tools and techniques..Basic Geometric design/layout. .Representation in dihedral systems. .Representation in Axonometric Projection and Cavalier Perspective..Representation in Oblique and Front Conic Projection. .Standardization and Symbols in Technical Drawing



BASIC DESIGN PRINCIPLES AND MODELLINGLECTURES:28SEMINARS:8APPLIED PROJECT:8

TOTAL HOURS:58TIMES: 1 SEMESTER/1st YEARCREDITS:3

Fundamentals of antropometrics, ergonomics and bionics.Creativity, innovation, inventiveness.Types of modelling, models and prototypes.Market analyisis.



Principles of material science LECTURES:28SEMINARS:8APPLIED PROJECT:8

TOTAL HOURS:58TIMES: 1 SEMESTER/1st YEARCREDITS:3

. Types and properties of materials.. Mechanical testing. Composition and representation of tests. Calculation of testing in simple parts.. Tests and measurements of the properties of materials used.. Oxidisation and corrosion. Internal structure and techniques used for the modification of the properties of metals.. Changing into solid form and diagrams of the balances within metallic materials. Heat treatment of steels.



Basics of mathematics and physics in technical systems LECTURES:58SEMINARS:10APPLIED PROJECT:20

TOTAL HOURS: 88TIMES: 2 SEMESTERS/FIRST YEARCREDITS: 5OBSERVATIONS: FIRST SEMESTER PHYSICS AND SECOND SEMESTER MATEMATICS

. Mechanics: Staticts and dynamic Principles. Priciples of hydrostatics and neumatics (fluids).. The theory of fields: electric, magnetic and electromagnetic.. Thermodynamics: The Principals of Thermodynamics and thermal machines.. Basic trigonometrics. (lineal Algebra). Differential and integral calculus.. Vector calculus.. Calculus with variable complexes: Phasors. The Laplace and Fourier transformed.. Numerics methods for the solving of the systems and no-lineal equations.. The functions of transference in Physical systems. The concept of stability.



Theory of technical systems and processes Technology process and products LECTURES:28SEMINARS:8APPLIED PROJECT:8

TOTAL HOURS:58TIMES: 1 SEMESTER/2nd YEARCREDITS:3

. The market

. The production process.

. Marketing

. Quality Control.


Descripción de cada curso (lecturing)

Título del curso: Dibujo Técnico

Tipo de curso: Obligatoria

Nivel del curso: Elemental

Año académico: Primero

Número del módulo:

Número destinado de Créditos (basados en el volumen de trabajo):

5 creditos (3,5 CRÉDITOS POR LAS ACTIVIDADES PRESENCIALES + 1,5 CRÉDITOS POR LAS NO PRESENCIALES)


Objetivos del curso (los resultados de aprendizaje exigidos y las competencias a adquirir):

1. Resolver razonadamente problemas geométricos cuidando el acabado y presentación.2. Realizar dibujos técnicos a distinta escala.3. Resolver problemas de tangencias insertados en la definición de una forma.4. Resolver problemas de curvas cónicas conocidos los diferentes elementos y propiedades de las mismas.5. Resolver problemas en sistema diédrico de definición y posicionamiento de puntos, rectas y figuras planas.6. Realizar la perspectiva de un objeto definido por sus vistas y viceversa.7. Utilizar las normas referidas a vistas, cortes secciones y roturas para completar la representación de piezas industriales.8. Realizar los trabajos con limpieza, orden y claridad.


Prerrequisitos: Ninguno

Contenidos del curso: 1.-Materiales de dibujo técnico. 2. Trazados fundamentales en el plano. 3. Transformaciones geométricas en el plano. 4. Polígonos. 5. Tangencias y enlaces. 6. Curvas geométricas. 7. Sistemas de representación: diédrico ortogonal I 8. Sistemas de representación: diédrico ortogonal II. 9. Sistemas de representación: axonométrico ortogonal y oblicuo. 10.- Perspectiva cónica. 11. Normalización y croquización.

Se pueden agrupar en tres grandes grupos:

Geometría métrica Geometría descriptiva Normalización


Lecturas recomendadas: AENOR. Manual de Normas sobre Dibujo Técnico. AENOR, 1995.

Bermejo Herrero, M. Geometría Descriptiva Aplicada. Servicio de Publicaciones

Ejercicios de geometría descriptiva (Tomo I y II). 1993, IZQUIERDO, F. Madrid: Paraninfo.

Prácticas de Dibujo Técnico: Sistema de planos acotados. 1988, MÉNDEZ, C. Donostiarra. San Sebastián.

Métodos de Enseñanza: Sesiones académicas teóricas: Método expositivo con video-proyector, pizarra y modelos

materiales, y entornos multimedia. Sesiones académicas prácticas: Breve exposición de las

líneas generales de aplicación de la teoría a la práctica (aula de Dibujo e Informática), y posteriormente método heurístico.

Seminarios de recuperación.Tutorías colectivas: Resolución de dudas generales, por

propuesta directa de los alumnos o deducidas de las prácticas..

Métodos de Evaluación: Actividades presenciales (80 %). Evaluación continua de las prácticas (10 %). Examen teórico-práctico de los contenidos, en su caso. (70

%)- Actividades no presenciales (20 %).Evaluación de presentación y realización de trabajos donde

el profesor podrá preguntar aspectos del mismo, para poder evaluar las tareas de búsqueda de información, organización del trabajo o los criterios que han conducido a las soluciones expuestas.

Idioma en el que se enseña: Local

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