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 ] | BENITO AMURRIO, MARTA (Resp) [Mentoring ] | ||||
CAMACHO DE MIGUEL, JAVIER [Mentoring ] |
Architectonic drawing and electrical drawing
Descriptive geometry. Surface drawing
Mechanical assemblies
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.
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.
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 |
Continuous evaluation:
Learning outcome (proficiency) | Evaluation activity | Weight | Recoverable | Minimum to pass * | Minimum to compensate ** | Minimum to attend the make up *** |
R1, R2, R3, R4, R5 (CG3, CG4, CFB5) | Written exam | 25% | Yes | 5 (out of 10) | 5 (out of 10) | 1 (out of 10) |
R1, R2, R3, R4, R5 (CG3, CG4, CFB5) | Assignment exam | 45% | Yes | 5 (out of 10) | 5 (out of 10) | 1 (out of 10) |
R1, R2, R3, R4, R5 (CG3, CG4, CFB5) | Assignment reports | 30% | Yes | 5 (out of 10) | 5 (out of 10) | 3 (out of 10) |
* 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:
Learning outcome (proficiency) | Evaluation activity | Weight * | Minimum to pass ** | Minimum to compensate ** |
R1, R2, R3, R4, R5 (CG3, CG4, CFB5) | Written exam | - | 5 (out of 10) | 5 (out of 10) |
R1, R2, R3, R4, R5 (CG3, CG4, CFB5) | Assignmet exam | - | 5 (out of 10) | 5 (out of 10) |
* The weight depends on what student is making up: exams or assignment reports
** If the minimum to pass is not achieved in any of the evaluation activites and parts, the final mark of the course will be at the most 4.5 (out of 10), FAILED.
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
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.