Machine Elements and Mechanisms II. (E131517)
|Katedra:||ústav konstruování a částí strojů (12113)|
|Platí do:|| ??||Rozsah:||3+4|
Preliminary design, design calculations and aplication of axles and shafts, sliding and rolling bearings, shaft connections, elements of crank mechanism, pipelines and their accessories and fittings.
Axles and shafts. Preliminary design, strength and deformation evaluation. Vibration of shafts.
Sliding bearings. Bases of tribology, lubrication, lubricants. Radial sliding bearings operating at hydrodynamic or hydrostatic lubrication. Design, loading capacity and reliability of sliding bearings.
Rolling bearings. Standardisation. Kinematics, dynamics, loading capacity, durability of rolling bearings. Shaft supporting with use of rolling bearings.
Shaft coupling and clutches. Main types, properties, characteristics, application. Kinematics, dynamics, design, dimensioning, design calculations.
Inelastic, elastic and compensating shaft couplings.
Design, loading capacity and compensating capabilities of shaft couplings.
Dynamic torsional analysis of driving systems provided with shaft couplings.
Mechanically controlled shaft clutches. Design, calculation of loading capacity, compensating properties.
Special shaft clutches. Safety, starting, overrunning clutches.
Main parts of crank mechanisms. Kinematics and dynamics of crank mechanism. Theoretic indicator diagrams.
External, internal and inertial forces loading crank mechanisms.
Loading, preliminary strength calculation and design of main parts of crank mechanisms.
Pipelines and fittings. Flow of substance through pipeline. Operating parameters, calculation of pipeline diameter.
Pipes. Materials, production, dimensioning, loading capacity, joining.
Closing fittings. Cocks, valves, gate valves. Closing forces of fittings, dimensioning, design calculations.
Design project of driving mechanis of conveyor:
Preliminary design concept of whole driving mechanism.
Design concept of gearbox.
Assembly drawing of gearbox with main design calculations.
Dynamic torsional analysis of whole driving mechanism.
Alternative concept arrangement of projected driving mechanism at substitution of gearbox and additional drive with single-stage worm gearbox. Concept design of gearbox. Assembly drawing of worm shaft and its supporting inside gearbox with main design calculations.
Jančík, L.: Machine Elements and Mechanisms II (study texts). CTU Prague, 2008
Jančík, L.: Design Project (study text). CTU Prague, 2008
J.E. Shigley; Ch.R. Mischke: Mechanical Engineering Design. McGraw Hill, New York, 1989.
- knowledge of whole range of lectured subject matters,
- capability to sketch of given arrangement of shaft supporting inside gearboxes with help of rolling bearings without use of literature,
- numerical calculation of given design example of simple driving mechanism or supporting system with use of literature
Supporting systems, axles, shafts, sliding bearings, rolling bearings, shaft couplings, shaft clutches, parts of crank mechanisms, pipelines and fittings, dimensioning, loading capacity, durability, reliability.