Public University of Navarre



Academic year: 2023/2024 | Previous academic years:  2022/2023  |  2021/2022  |  2020/2021  |  2019/2020 
Bachelor's degree in Industrial Engineering at the Universidad Pública de Navarra
Course code: 252205 Subject title: INDUSTRIAL DRAWING
Credits: 6 Type of subject: Basic Year: 1 Period: 2º S
Department: Ingeniería
Lecturers:
PEREZ EZCURDIA, MARIA AMAYA   [Mentoring ] VEIGA SUAREZ, FERNANDO (Resp)   [Mentoring ]
CARLOSENA REMIREZ, LAURA   [Mentoring ]

Partes de este texto:

 

Module/Subject matter

Module: Basic training

Subject matter: Engineering graphics

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General proficiencies

CG3: Knowledge of basic subjects, scientific and technological, that allows for continuous learning, along with the ability to adapt to new situations or changing environments.
CG4: The ability to resolve problems with initiative, decision-making, creativity, critical thinking and communicating and transmitting knowledge, skills and dexterity in the field of Industrial Engineering.

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Specific proficiencies

CFB5: Spatial vision and knowledge of graphic representation techniques, both by traditional methods of basic and descriptive geometry and through computer aided design tools.

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Learning outcomes

R1: To solve spatial problems and to conceive technical forms, as required by the creative activities of industrial projects and designs.

R2: To conceive the functioning and the assembling and disassembling operations of mechanical assemblies.
R3: To apply the technical drawing standards and symbols necessary to represent the elements, systems, and technical diagrams of industrial structures and installations.
R4: To express and communicate ideas and technical forms, either from one's own or from someone else, through freehand sketches, technical drawings and models created with drawing equipment or CAD software.
R5: To produce technical graphic documentation with a professional view, in the frame of industrial projects and design activities.

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Methodology

Methodology - Activity In-class hours Self-study hours
A-1 Lecture 30  
A-2 Individual practice on medium size group 20  
A-3 Group practice on medium size group 10 20
A-4 Individual assignments   40
A-5 Analysis, synthesis and self study   25
A-6 Exams and evaluation activities 5  
     
Total 65 85

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Relationship between formative activities and proficiencies/learning outcomes

Competencia
Actividad formativa
CG3: Knowledge of basic subjects, scientific and technological, that allows for continuous learning, along with the ability to adapt to new situations or changing environments
A-1, A-3, A-4, A-5 and A-6
CG4: The ability to resolve problems with initiative, decision-making, creativity, critical thinking and communicating and transmitting knowledge, skills and dexterity in the field of Industrial Engineering.
A-2, A-3, A-4, A-5 and A-6
 CB5: Spatial vision and knowledge of graphic representation techniques, both by traditional methods of basic and descriptive geometry and through computer aided design tools.
A-1, A-2, A-3, A-4, A-5 and A-6

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Languages

English

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Evaluation

The following table lists the evaluation activities with the expected results.

Learning
outcome
Assessment
activity
Weight (%) It allows
test resit
Minimum
required grade
R-1, R-2, R-3, R-4, R-5 (CG3, CG4, CB5) Classroom tests (Experimental work tests and reports) 25% NO -
R-1, R-2, R-3, R-4, R-5 (CG3, CG4, CB5) Written exams (Long answer exams and experimental work tests and reports) 75% YES Written exams 5/10


Classroom tests will be carried out throughout the semester.

An exam of blocks 1 and 2 will be held in the middle of the semester, and another of block 3 on the official date of the ordinary exam. The score for the Written exams activity will be the average of the two.

In order to pass the course, a minimum score of 5 out of 10 points will be required. To obtain this grade, the score of the Written exams (75%) and the score of the Classroom tests (25%) will be weighted. To carry out this weighting, a minimum of 5 out of 10 will be required in the qualification of the Written exams.

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Contents

Architectonic drawing and electrical drawing

Descriptive geometry. Surface drawing

Mechanical assemblies

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Agenda

Architectonic drawing and electrical drawing

Electrical layout plans. Installation diagram. Electrical drawing in residential buildings. Power and command diagrams in industrial installations with electrical motors

 

Descriptive geometry. Surface drawing

Concepts and basic drawings. Polyhedra. Developable ruled [j1] surfaces. Warped surfaces. Revolution surfaces. Other surfaces relevant for technical applications. Intersections of surfaces

 

Mechanical assemblies

Standard representation of industrial parts. Technical drawings. Assemblies and detailing drawings. Finish marks. Tolerances and fits. Threads, fasteners and springs. Welding and rivet representation. Basic mechanical elements and components. Mechanisms for transforming linear and angular motion.


 [j1]Single-curved

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Bibliography

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


FELEZ, J. y MARTÍNEZ, M.L. Ingeniería Gráfica y Diseño. Ed. Síntesis, 2008.

UBIETO, P. y IBAÑEZ, P., Diseño básico de automatismos eléctricos. Ed. Paraninfo,

CRESPO, J.J. y USTARROZ, I. Geometría descriptiva. Los autores.

CRESPO, J.J. y USTARROZ, I. Dibujo eléctrico. Los autores.

AURIA, J.M., IBAÑEZ, P. y UBIETO, P., Dibujo industrial. Conjuntos y despieces. Ed. Thomson, 2005, 2ª Edición.

COMPANY, P. VERGARA, M. y MONDRAGÓN, S., Dibujo industrial. Ed. Univesitat Jaume I, 2007.

FÉLEZ, J. y MARTÍNEZ, Mª.L., Dibujo Industrial. Ed. Síntesis, 1996.

ISO STANDARDS HANDBOOK - TECHNICAL DRAWINGS (2 volumes).

Volume 1: Technical drawings in general (part 1), 2002.

Volume 2: Mechanical engineering drawings; construction drawings; drawing equipment (parts 2, 3, 4), 2002.

ISO STANDARDS HANDBOOK - LIMITS, FITS AND SURFACE PROPERTIES. Ed. ISO, 1999.

MANUAL DE NORMAS UNE. DIBUJO TÉCNICO. CD-ROM. Ed. AENOR, 2005.

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