|
|
Main menu for Browse IS/STAG
Course info
KKS / KSV2
:
Course description
Department/Unit / Abbreviation
|
KKS
/
KSV2
|
Academic Year
|
2023/2024
|
Academic Year
|
2023/2024
|
Title
|
Road Vehicle Design 2
|
Form of course completion
|
Exam
|
Form of course completion
|
Exam
|
Accredited / Credits
|
Yes,
5
Cred.
|
Type of completion
|
Combined
|
Type of completion
|
Combined
|
Time requirements
|
Lecture
2
[Hours/Week]
Tutorial
2
[Hours/Week]
|
Course credit prior to examination
|
Yes
|
Course credit prior to examination
|
Yes
|
Automatic acceptance of credit before examination
|
Yes in the case of a previous evaluation 4 nebo nic.
|
Included in study average
|
YES
|
Language of instruction
|
Czech
|
Occ/max
|
|
|
|
Automatic acceptance of credit before examination
|
Yes in the case of a previous evaluation 4 nebo nic.
|
Summer semester
|
0 / -
|
0 / -
|
0 / -
|
Included in study average
|
YES
|
Winter semester
|
10 / -
|
0 / -
|
2 / -
|
Repeated registration
|
NO
|
Repeated registration
|
NO
|
Timetable
|
Yes
|
Semester taught
|
Winter semester
|
Semester taught
|
Winter semester
|
Minimum (B + C) students
|
10
|
Optional course |
Yes
|
Optional course
|
Yes
|
Language of instruction
|
Czech
|
Internship duration
|
0
|
No. of hours of on-premise lessons |
|
Evaluation scale |
1|2|3|4 |
Periodicity |
každý rok
|
Evaluation scale for credit before examination |
S|N |
Periodicita upřesnění |
|
Fundamental theoretical course |
No
|
Fundamental course |
Yes
|
Fundamental theoretical course |
No
|
Evaluation scale |
1|2|3|4 |
Evaluation scale for credit before examination |
S|N |
Substituted course
|
KKS/KSKV
|
Preclusive courses
|
N/A
|
Prerequisite courses
|
N/A
|
Informally recommended courses
|
KKS/KKV1 or KKS/KKV2 or KKS/KSKV or KKS/KSV1
|
Courses depending on this Course
|
KKS/ZSZDM
|
Histogram of students' grades over the years:
Graphic PNG
,
XLS
|
Course objectives:
|
The aim of this course is to provide students with selectected information about the main assembly groups of the road vehicles, with regard to the student?s curriculum. The combustion motors and driveline, chassis, body, assistance and comfort systems systematically discussed.
|
Requirements on student
|
Exam criterion:
- zápočet
- managing of the content of the course
|
Content
|
The course is intended to give students a good insight into the following areas:
design of road vehicles; basic types of vehicle steering, kinematics of steering; steering boosters and absorbers; brake systems, requirements, properties; brake design, brake boosters and unloaders; driving mechanisms of road vehicles, engines, gearboxes and final drives; mounting of driving mechanisms; safety; legislative limitations of road vehicle design.
Lectures:
1. Concept of road vehicles, buses, trucks, semi-trailers and trailers
2. Vehicle equation of motion, running resistance, grip limits, slip and slip. Drivetrain of motor vehicles, ideal characteristics of drive engine, characteristics of internal combustion engine, cooperation of engine with gear mechanism.
3. Gear mechanism of motor vehicles, clutches, clutch construction, clutch control
4. Gearboxes, gear ratio, range and selection of gears and gears, geometric and progressive gears, types of gears. Step gearboxes, gear shifting, gear synchronization, examples of mechanical gearboxes
5. Semi-automatic and automatic transmissions, hydrodynamic torque converters, planetary gears for automatic transmissions, shifting elements of automatic transmissions, smooth transmissions
6. Gearboxes, axle drive, single-stage gearboxes and external permanent gears, differentials, purpose and principle of operation, differential lock, self-locking differentials, all-wheel drive, transfer gearboxes
7. Drive shafts and joints, longitudinal drive shafts, transverse drive shafts, drive joints, cross joints, homokinetic joints
8. Karoserie. Koncepce karosérií, umístění osob v karosérii, výhled z vozidla, hluk, nárazy vozidel, ochrana účastníků silniční dopravy, struktura, tuhost, dveře, zasklení karoserie, zadržovací systémy. Materiály karoserií, ochrana proti korozi.
9. Body - comfort systems. Ventilation, heating, air conditioning, comfort equipment, suspension control, active suspension systems.
10. Anti-lock and anti-slip systems, anti-lock regulation systems ABS, types of anti-slip regulation ASR, car stabilization system ESP, other related systems.
11. Assistance systems in vehicles. Lane monitoring, active cruise control, collision avoidance systems, night vision.
12. Motorcycles. Motorcycle dynamics, types and concepts of motorcycles. Engine, transmission, chassis and electrical equipment of motorcycles.
13. New trends in car construction, trends to increase safety.
Tutorials:
1. Introduction. Assignment of semestral works.
2. Consultation and specification of term papers.
3. Presentation of semester works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
4. Presentation of semestral works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
5. Presentation of semester works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
6. Presentation of semestral works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
7. Presentation of semester works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
8. Presentation of semestral works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
9. Presentation of semestral works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
10. Presentation of semestral works, discussion on the topic of lectures in the field of vehicle diagnostics and repair.
11. Deadline for submission of semester work and its presentation.
12. Evaluation and credit.
|
Activities
|
|
Fields of study
|
viz COURSEWARE
|
Guarantors and lecturers
|
|
Literature
|
-
Basic:
Vlk, František. Dynamika motorových vozidel : jízdní odpory, hnací charakteristika, brzdění, odpružení, řiditelnost, ovladatelnost, stabilita. 1. vyd. Brno : Nakladatelství a vydavatelství Vlk, 2000. ISBN 80-238-5273-6.
-
Basic:
Vlk, František. Koncepce motorových vozidel : koncepce vozidel, alternativní pohony, komfortní systémy, řízení dynamiky, informační systémy. 1. vyd. Brno : Nakladatelství a vydavatelství Vlk, 2000. ISBN 80-238-5276-0.
-
Basic:
Vlk, František. Převodová ústrojí motorových vozidel : spojky, převodovky, rozvodovky, diferenciály, hnací hřídele, klouby. 1. vyd. Brno : Nakladatelství a vydavatelství Vlk, 2000. ISBN 80-238-5275-2.
-
Recommended:
Achtenová, G. Převodová ústrojí motorových vozidel. Diferenciály a děliče momentu.. ISBN 978-80-01-04855-9.
-
Recommended:
Achtenová, G. Převodová ústrojí motorových vozidel. Kloubové hřídele.. ČVUT Praha, 2012. ISBN 978-80-01-05129-0.
-
Recommended:
Vlk, František. Převody motorových vozidel. 1. vyd. Brno : František Vlk, 2006. ISBN 80-239-6463-1.
-
Recommended:
Gscheidle, Rolf. Příručka pro automechanika. 3., přeprac. vyd. Praha : Europa-Sobotáles, 2007. ISBN 978-80-86706-17-7.
-
Recommended:
Vlk, František. Stavba motorových vozidel. 1. vyd. Brno : Nakladatelství a vydavatelství Vlk, 2003. ISBN 80-238-8757-2.
-
On-line library catalogues
|
Time requirements
|
All forms of study
|
Activities
|
Time requirements for activity [h]
|
Contact hours
|
52
|
Preparation for an examination (30-60)
|
50
|
Individual project (40)
|
40
|
Presentation preparation (report) (1-10)
|
10
|
Total
|
152
|
|
Prerequisites
|
Knowledge - students are expected to possess the following knowledge before the course commences to finish it successfully: |
o be equipped with knowledge of preparatory theoretical subjects (mechanics, material science) |
to be well informed in design solutions of basic machine and equipment assemblies |
to have basic knowledge of at least one CAD design and calculation tool |
to have basic knowledge of at least one foreign language with a focus on the field of machine and equipment design |
Skills - students are expected to possess the following skills before the course commences to finish it successfully: |
to acquire and develop professional skills in the field of machine and equipment design based on their practical experience and their evaluation and use them in their design activities |
to apply knowledge of preparatory scientific disciplines in the analysis and synthesis (design) of machines and equipment |
to communicate relevantly with experts in the field of machine and equipment design |
to generalize and use their own experience in the design of machines and equipment |
to use at least one CAD design and calculation tool |
to use at least one foreign language when designing machinery and equipment |
Competences - students are expected to possess the following competences before the course commences to finish it successfully: |
N/A |
N/A |
N/A |
|
Learning outcomes
|
Knowledge - knowledge resulting from the course: |
to acquire further knowledge independently by studying knowledge from the field of propulsion, assistance and comfort systems of road vehicles |
to describe in a comprehensive way and explain the various design solutions of propulsion, assistance and comfort systems of road vehicles |
to have a basic knowledge of at least one foreign language with a focus on the field of propulsion, assistance and comfort systems of road vehicles |
Skills - skills resulting from the course: |
to apply creatively acquired knowledge in related construction projects and diploma thesis |
to apply creatively the knowledge of preparatory scientific disciplines in the analysis and synthesis (design) of propulsion, assistance and comfort systems |
to be able to analyze existing design solutions and design new design solutions for propulsion, assistance and comfort systems of road vehicles |
to solve design problems of propulsion, assistance and comfort systems of road vehicles in cooperation with companies from practice |
to use the basic knowledge of at least one foreign language with a focus on the field of propulsion, assistance and comfort systems of road vehicles |
Competences - competences resulting from the course: |
N/A |
N/A |
|
Assessment methods
|
Knowledge - knowledge achieved by taking this course are verified by the following means: |
Combined exam |
|
Teaching methods
|
Knowledge - the following training methods are used to achieve the required knowledge: |
Lecture supplemented with a discussion |
Skills - the following training methods are used to achieve the required skills: |
Practicum |
|
|
|
|