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Course title Ground Motor Vehicles
Course code LauZ4189
Credit points (ECTS) 4.5
Total Hours in Course 121.5
Number of hours for lectures 24
Number of hours for laboratory classes 24
Independent study hours 72
Date of course confirmation 20/09/2011
Responsible Unit Institute of Engineering and Energetics
 
Course developers
Dr. sc. ing., asoc. prof. Aivars Birkavs

There is no prerequisite knowledge required for this course
 
Replaced course
LauZB032 [GLAUB032] Ground Motor Vehicles
Course abstract
The aim of the study course is to get acquainted with the classification and structure of vehicles. The course covers engine classification, basic principles of operation of spark ignition engines and compression ignition engines and other topics: crank and crank distribution mechanisms, engine cooling, lubrication and supply systems, fuel pumps, nozzles and turbochargers, ignition system reviews, engine mechanical and adjustment, vehicle transmission elements, clutch, gearbox, transfer case, cardan gears, differentials, half-axles, side gears, wheel reducers, running gear and its principle of operation, vehicle suspensions, their types.
Learning outcomes and their assessment
Knowledge - peculiarities of vehicle construction, principles of operation of their units. Knowledge is assessed in tests. Test 1 - “Structure and operation of vehicle engines” - in the form of a test, successful mark, if 50% of the questions are answered correctly. Test 2 - “Vehicle transmission operation” - in the form of a test, successful mark, if 50% of the questions are answered correctly. Test 3 - “Vehicle hydraulics and PTO operation” - in the form of a test, successful mark, if 50% of the questions are answered correctly.
Skills - to evaluate the technical indicators of vehicles and engines, their operation; to perform full-fledged maintenance of vehicles for economic transport and agrotechnical work. Skills are assessed in laboratory work. Competence - to constantly analyze the engineering solutions of vehicle constructions, to constantly solve technical issues to ensure the failure-free operation of vehicles. Able to independently determine the technical condition of vehicle construction elements.
Course Content(Calendar)
1. Introduction to the construction of vehicles. History of the development of races. Classification of amphibians. Key characteristics of the vehicle. (2h lect,)
2. General design and operating principles of internal combustion engines. Engine Indicative and Effective Power. (2h lect, 2h lab.w)
3. Crank-knee mechanism. Gas distribution mechanism. (2h lect, 2h lab.w)
4. Engine cooling systems. Engine lubrication system. (1h lect, 3h lab.w)
5. Basic schematics of spark ignition engines and compression ignition engine power systems. Carburettor Principles. (1h lect, 1h lab.w)
6. Preparation methods for diesel fuel in a diesel engine and combustion chamber forms. (1h lect, 3h lab.w)
7. Components, structure and operating principle of the ignition system. Setting the Ignition Angle. (2h lect, 1h lab.w)
8. Transmission task, classification, characterization. Single, twin and multi-clutch clutches. (2h lect, 1h lab.w)
9. Driving bridges, sidewalls and PTO shafts. Differential lock. Crosswalk Cardan. The cartoon. (2h lect, 2h lab.w)
10. Steering, brake and running gear. (2h lect, 2h lab.w)
11. Hydraulic and lifting equipment. (2h lect, 1h lab.w)
12. The construction and operating principles of a gun type hydraulic pump. (1h lect, 1h lab.w)
13. Hydrosystem oil flow distributor design and operating principles. (2h lect, 1h lab.w)
14. Tractor hydromechanical drive shaft construction and operating principle. (1h lect, 2h lab.w)
15. Task and operating principle of hydromechanical position and power regulator. (2h lect, 2h lab.w)
16. Peculiarities of the construction of the electric hydraulics of load-bearing, positioning and power steering systems. (1h lect, 2h lab.w)
Requirements for awarding credit points
A written exam. Laboratory works have been developed and defended, tests are successfully written.
Description of the organization and tasks of students’ independent work
Analysis of laboratory work.
Criteria for Evaluating Learning Outcomes
The assessment of the study course exam depends on the cumulative assessment of the study course tests. The exam grade is calculated as the arithmetic mean of the two exam assignments and the mean valuation of the tests.
Compulsory reading
1. Introduction to Internal Combustion Engines. Stone. Basingstoke: Palgrave Macmillan, 2012.
2. Internal Combustion Engine Handbook. Basshuysen. 2004. SAE
3. Cikovskis V. Iekšdedzes motori. 1 daļa. Rīga: Jumava, 2010. 286 lpp.
Further reading
1. Miķelsons Z., Pīrs V. Spēkratu konstrukcijas. Jelgava, 2008. 199 lpp.
2. Blīvis J., Gulbis V. Traktori un automobiļi. Rīga: Zvaigzne, 1991. 517 lpp.
3. Cikovskis V. Motori. Rīga: Jumava, 2000. 224 lpp.
4. Duffy J.E. Modern automotive technology. Illinois: Goodheart-Willcox, 2009. 1613 p.
Periodicals and other sources
1. LUBE Magazine. United Kingdom Lubricants Association Limited. lube-media.com | ukla.org.uk, Registered in the UK: No. 936857 VAT Reg No. GB 240 8376 65
2. Profi: Magazin fur Agrartechnik. -1997- Münster-Hiltrup Landwirtschaftsverlag GmbH -1997- ISSN 0937-1583.
Notes
Compulsory study course for students of the Professional higher education Bachelor study program "Machine Design and Manufacturing".