Universidad Pública de Navarra - Nafarroako Univertsitate Publikoa

Module/Subject matter

Module: Basic training

Subject matter: Engineering graphics

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Contents

Basic knowledge and skills on engineering graphics necessary for any engineer:
 
GEOMETRIC DRAWING

Basig geometric constructions. Proportionality and shape comparison. Inversion, rectification and tangency. Representation of curves and shapes.

TECHNICAL DRAWING

Fundamentals of graphic standards and technical representation. Representation of parts. Sketching. Multiview drawing. Cuts, sections and breakouts. Dimensioning.

COMPUTER AIDED DESIGN (CAD)

Introduction to CAD. Computer aided geometric drawing. Two dimensional applications of CAD

DESCRIPTIVE GEOMETRY. HORIZONTAL PROJECTION

Fundamentals of horizontal projections. Representation and positioning of geometric entities. Operations and procedures. Basics of topographic drawing.

DESCRIPTIVE GEOMETRY. AXONOMETRIC PROJECTION
Fundamentals of axonometric projections. Representation and positioning of geometric entities. Operations and procedures. Pictorial sketching and drawing.

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Descriptors

Representation techniques. Spatial conception. Standardisation. Design and Project Fundamentals in Industrial Engineering. Computer Aided Applications

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General proficiencies

• CB1: Students are able to demonstrate they have acquired knowledge and understanding in a field of study based on the basic foundations gained within their general secondary education together with the support of advanced textbooks and aspects of the latest advances in the field.
  

• CB2: Students can apply their knowledge to a job or vocation in a professional manner and have the competences which are generally shown through the elaboration and defence of arguments and problem solving in their field of study.
  

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Specific proficiencies

• CG2: Adequate knowledge of the physical problems, technologies, equipment, and water and energy supply systems, the limits imposed by budgetary factors and building regulations, the relationships between installations and/or buildings with farms, agro-food industries and spaces related to gardening and landscaping with their social and environmental surroundings, as well as the need to relate those surroundings from that environment with human needs and environmental protection.

• CE2: Spatial vision and knowledge of graphic representation techniques, both by traditional methods of basic and descriptive geometry and through computer aided design tools.

• CE28: Ability to recognize, understand, and utilize the principles of agricultural and landscape Engineering, environmental legislation and management, sustainable development principles, market and professional strategies, assessment of environmental assets, hydrology, erosion, plant material production, use, and maintenance, ecosystems and biodiversity, physical environment and climate change. Analysis, management, and land use planning. Landscaping principles. Specific design and graphic expression tools, practical development of environmental impact studies, environmental and landscaping restoration projects. Projects and maintenance plans for green spaces. Development projects. Tools for spatial and landscape planning. Projects and works management and planning.

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Learning outcomes

R1: To express and comunicate ideas and technical forms, either from one's own or from someone else, thorugh freehand sketches, technical drawings and models created with drawing equipment or CAD software.
R2: To produce technical graphic documentation with a professional view.
R3: To produce technical graphic documentation using CAD tools.

R4: To know how to represent the fundamental geometrical elements and the basic constructions of Geometric Drawing.

R5: To master the Horizontal Projection system and its applications in the field of Agricultural, Food and Rural Environment Engineering.

R6: To represent parts through their standard annotated views

RESULTADOS APRENDIZAJE ENAEE:
ENAEE-2: Una comprensión sistemática de los conceptos y aspectos clave de su rama de ingeniería.

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Methodology

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Languages

English

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Evaluation

Continuous evaluation:

* If the minimum to pass is not achieved in any of the evaluation activites, the final mark of the course will be at the most 4.5 (out of 10), FAILED.

** The evaluation of activities will be carried out per parts of the contents. If the minimum to compensate is not achieved in any of the parts, the final mark of the course will be at the most 4.5 (out of 10), FAILED.

*** In order to be able to attend the make up evaluation a minimum mark is required in each of the evaluation activities and parts evaluated.

Make up evaluation:

* If the minimum to pass is not achieved in any of the evaluation activites, the final mark of the course will be at the most 4.5 (out of 10), FAILED.

** The evaluation of activities will be carried out per parts of the contents. If the minimum to compensate is not achieved in any of the parts, the final mark of the course will be at the most 4.5 (out of 10), FAILED.

*** Must be submitted in the deadline established by the professor, and in any case before the written exam of the make up evaluation.

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Agenda

PART 01
ENGINEERING GRAPHICS

Unit  01  Introduction to its scientific content.
Topic 01 Scientific content.
Topic 02 Geometry.
Topic 03 Technical Drawing and Standardisation.
Topic 04 Engineering design and project principles.

Unit 02   Introduction to its applied content.
Topic 05 Fundamentals of Technical Drawing. Technical Applications of Orthographic Projection.
Topic 06 Topographical surfaces. Technical Applications of Horizontal projection.
Topic 07 Pictorial Drawing Technical Applications of Pictorial Drawing.
Topic 08 Perspective projection Technical Applications of Perspective projection.

PART 02
GEOMETRIC DRAWING.

Unit  01  Geometric Drawing Principles.
Topic 01 Fundamentals of Geometric Drawing.
Topic 02 Fundamental metric relations. Size, proportion and scale.
Topic 03 Metric relations on a plane. Equality, similarity and equivalence.
Topic 04 Movements on the plane. Translation, rotation and symmetry.

Unit 02   Fundamental geometric drawings.
Topic 05 Perpendicularity and parallelism.
Topic 06 Angles.
Topic 07 Circumferences.

Unit 03   Polygons.
Topic 08 Polygons: General concepts
Topic 09 Triangles.
Topic 10 Quadrilaterals.
Topic 11 Regular polygons.

Unit 04   Inversion, power and tangency.
Topic 12 Inversion.
Topic 13 Power and polarity.
Topic 14 Tangency.
Topic 15 Connecting lines and arcs.

Unit 05   Principles in representing curves.
Topic 16 Plane curves. General concepts and drawings.
Topic 17 Skewed curves. General concepts and drawings.

Unit 06   Curves Applied Technically
Topic 18 Plane curves. Conic curves.
Topic 19 Plane curves. Cyclic curves.
Topic 20 Other significant plane curves.
Topic 21 Curves in Computer Aided Design.

PART 03
DESCRIPTIVE GEOMETRY. HORIZONTAL PROJECTION.

Unit  01  Representation of geometric elements.
Topic 01 Fundamentals of Horizontal Projection
Topic 02 Representing the point.
Topic 03 Representing the line.
Topic 04 Representing the plane.

Unit 02   Relative positions of geometric elements.
Topic 05 Intersections.
Topic 06 Perpendicularity and parallelism.
Topic 07 Measuring distances.

Unit 03   Horizontal Projection Methods and their applications.
Topic 08 Methods, operations and representations.
Topic 09 Rebating. Changing projection planes. Rotations.
Topic 10 Angular relations. Measurement and construction.

Unit 04   General Technical Applications of Horizontal projection.
Topic 11 Fundamentals of Topographic Drawing.
Topic 12 Fundamental technical designs of topographic surfaces.
Topic 13 Land grading
Topic 14 Drawing infrastructure¿s on terrain.
Topic 15 Representation of roofs.

PART 04
DESCRIPTIVE GEOMETRY. AXONOMETRIC PROJECTION.

Unit  01  Introduction to Pictorial Drawing.
Topic 01 Fundamentals of Orthographic Pictorial Drawing. Pictorial Drawing.
Topic 02 Fundamentals of Oblique Pictorial Drawing Oblique Projection.

Unit 02   Representation of geometric elements.
Topic 03 Pictorial Drawing. Representing the point, line and plane.
Topic 04 Oblique Projection. Representing the point, line and plane.

Unit 03   Relative positions of geometric elements.
Topic 05 Pictorial Drawing. Intersections.
Topic 06 Pictorial Drawing. Parallelism, perpendicularity and measuring distances.
Topic 07 Oblique Projection. Intersections.
Topic 08 Oblique Projection. Parallelism, perpendicularity and measuring distances.

Unit 04   Pictorial Drawing Methods and their applications.
Topic 09 Pictorial Drawing. Rebating and rotations.
Topic 10 Oblique Projection. Rebating and rotations.
Topic 11 Pictorial Drawing. Angles.
Topic 12 Oblique Projection. Angles.

Unit 05   Technical Applications of Pictorial Drawing.
Topic 13 Constructing Pictorial Drawings.
Topic 14 Applications of Pictorial Drawings in Engineering Drawings.

PART 05
TECHNICAL DRAWING.

Unit  01  Fundamentals of Technical Drawing.
Topic 01 Introduction to Standardisation.
Topic 02 Graphic Standardisation.

Unit 02   Standardised representations of industrial parts.
Topic 03 Standardised representations..
Topic 04 Fundamentals of standardised dimensioning.

Unit 03   Fundamentals of standardised representation in Industrial Drawing.
Topic 05 Introduction to drawing groups and parts´ lists.
Topic 06 Basic fundamentals of standardised representation of joint systems.
Topic 07 Basic fundamentals of standardised representation of mechanical elements and mechanisms.
Topic 08 Fundamentals of construction drawing and technical installations.

PART 06
INTRODUCTION TO COMPUTER AIDED DESIGN.

Unit  01  Introduction to Computer Aided Design.
Topic 01 Computer Aided Design and Manufacturing fundamentals.
Topic 02 Graphic technique and CAD.
Topic 03 The physical support of CAD systems. Hardware.
Topic 04 The program support of CAD systems. Software.

Unit 02   Computer Aided Design Techniques.
Topic 05 Introduction to Computer Aided Design.
Topic 06 Creating drawings with CAD.
Topic 07 Creating models with CAD.
Topic 08 Organising and managing projects with CAD.

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Bibliography

Access the bibliography that your professor has requested from the Library.

DESCRIPTIVE GEOMETRY. BASIC TEXTBOOKS

COLLADO SÁNCHEZ-CAPUCHINO, V. Sistema de Planos Acotados: Sus aplicaciones en Ingeniería, Editorial Tébar Flores, S.L., 1988. ISBN: 84-7360-087-8.
RODRÍGUEZ DE ABAJO, F.J., Geometría descriptiva. Tomo II. Sistema de Planos Acotados. Editorial Donostiarra S.A., San Sebastián, (12ª ed.). ISBN: 84-7063-182-9.
RODRÍGUEZ DE ABAJO, F.J., Geometría descriptiva. Tomo III. Sistema Axonométrico. Editorial Donostiarra S.A., San Sebastián, 1991 (6ª ed.). ISBN: 84-7063-170-5.
RODRÍGUEZ DE ABAJO, F.J. y REVILLA BLANCO, A., Geometría Descriptiva. Tomo IV. Sistema de Perspectiva Caballera. Editorial Donostiarra S.A. 1991 (5ª ed.), ISBN: 84-7063-061-X.

DESCRIPTIVE GEOMETRY. COMPLEMENTARY TEXTBOOKS

COLLADO SÁNCHEZ-CAPUCHINO, V. Dibujo técnico: expresión gráfica de la ingeniería, Editorial Tébar Flores, S.L., 1999 (1ª ed. 1ª imp.). ISBN: 84-930380-6-7.
IZQUIERDO ASENSI, F., Geometría descriptiva. 1997. Editor: Izquierdo Ruiz de la Peña, F. J., Madrid, 1997 (23ª ed.). ISBN: 84-922109-1-5.
TAIBO FERNÁNDEZ, A., Geometría descriptiva y sus aplicaciones. Tomo I. Geometría descriptiva y sus aplicaciones. Tomo II. Editorial Tébar Flores, S.L., Tomo I: 2007 (2ª ed.). ISBN 13: 978-84-7360-273-0. Tomo II: 2007 (2ª ed.). ISBN 13: 978-84-7360-274-7.

DESCRIPTIVE GEOMETRY. EXERCISE BOOKS

BEGINNERS.

ALVAREZ BENGOA, V., Prácticas de dibujo técnico. 4. Perspectiva (axonométrica y caballera). Editorial Donostiarra S.A. Editorial Donostiarra S.A., 1997 (10ª ed.). ISBN: 84-7063-124-1.
MENDEZ LOPEZ, C., Prácticas de dibujo técnico. 11. Sistema de planos acotados. Editorial Donostiarra S.A. Editorial Donostiarra S.A., 1997 (3ª ed.). ISBN: 84-7063-158-6.

ADVANCED.

IZQUIERDO ASENSI, F., Ejercicios de Geometría descriptiva II (Acotado y Axonométrico). Madrid, 1994 (13ª ed.). ISBN: 84-237-0800-4.

GEOMETRIC AND TECHNICAL DRAWING. BASIC TEXTBOOKS.

RODRÍGUEZ DE ABAJO, F.J. y ÁLVAREZ BENGOA, V., Curso de Dibujo Geométrico y de Croquización. Editorial Donostiarra, S.A., San Sebastián, 2005 (15ª ed.). ISBN: 978-84-7063-173-X.
RODRÍGUEZ DE ABAJO, F.J. y GARRALAGA ASTIBIA, R., Normalización del Dibujo Industrial. Ed. Donostiarra S.A., 1999 (1ª ed. 2ª imp.). ISBN: 84-7063-181-0.
Manual de normas UNE. Dibujo técnico. CD-ROM. Ed. AENOR, 2009 (4ª Ed.), ISBN: 978-84-8143-626-6.

GEOMETRIC DRAWING. COMPLEMENTARY TEXTBOOKS.

CORBELLA, BARRIOS, D., Técnicas de representación geométrica con fundamentos de concepción espacial. Autor editor. Madrid. 1993. ISBN: 978-84-604-7495-1.
GONZALO GONZALO, J., Dibujo Geométrico. Arquitectura-Ingeniería. Ed. Donostiarra S.A., 2001. ISBN: 978-84-7063-287-7.

TECHNICAL DRAWING. COMPLEMENTARY TEXTBOOKS.

BEGINNERS.

GONZALO GONZALO, J., Prácticas de dibujo técnico. 1. Croquización. Editorial Donostiarra S.A., 2006, (2ª ed. 2ª imp.). ISBN: 84-7063-305-8.
GONZALO GONZALO, J., Prácticas de dibujo técnico. 2. Cortes, secciones y roturas. Editorial Donostiarra S.A., 2008 (1ª ed. 13ª imp.). ISBN: 84-7063-316-3.
REVILLA BLANCO, A., Prácticas de dibujo técnico. 6. Vistas y visualización de piezas. Editorial Donostiarra S.A., 2005 (1ª ed. 14ª imp.). ISBN: 84-7063-132-2.
REVILLA BLANCO, A., Prácticas de dibujo técnico. 3. Acotación. Editorial Donostiarra S.A., 2003 (1ª ed. 11ª imp.). ISBN: 84-7063-128-4.

ADVANCED.

PRECIADO, C. y MORALES, F.J., Normalización del Dibujo Técnico. Ed. Donostiarra S.A., San Sebastián, 2004. ISBN: 978-84-7063-309-6.
ISO STANDARDS HANDBOOK - TECHNICAL DRAWINGS (2 volumes). Volume 1: Technical drawings in general (part 1). 2002. ISBN 92-67-10370-9. Volume 2: Mechanical engineering drawings; construction drawings; drawing equipment (parts 2, 3, 4). 2002. ISBN 92-67-10370-7.

CAD.

REYES RODRIGUEZ, A.M., Manual Imprescindible de Autocad 2010. Ediciones Anaya Multimedia (Anaya S.A.), 2010. ISBN: 978-84-415-2626-6.

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Location

Arrosadia campus:
-Lectures in the Aulario building in the assigned classroom.
-Computer practice in the computer lab, ground floor at Los Tejos building

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