338-0509/02 – Design of Hydraulic Mechanisms (ProHM)
Gurantor department | Department of Hydromechanics and Hydraulic Equipment | Credits | 4 |
Subject guarantor | Dr. Ing. Miroslav Bova | Subject version guarantor | Dr. Ing. Miroslav Bova |
Study level | undergraduate or graduate | Requirement | Choice-compulsory |
Year | 2 | Semester | winter |
| | Study language | Czech |
Year of introduction | 2013/2014 | Year of cancellation | 2020/2021 |
Intended for the faculties | FS | Intended for study types | Follow-up Master |
Subject aims expressed by acquired skills and competences
In the course Design of hydraulic mechanisms, students learn to solve basic problems of the synthesis of hydraulic circuits, ie. design of basic hydraulic circuits. They can suggest possible structures of the system with regard to functionality, accuracy of control, energy efficiency, environmental friendliness, operability, durability, operating costs and price.
Teaching methods
Lectures
Tutorials
Project work
Other activities
Summary
The course Design of hydraulic mechanisms, students learn the principles of creativity in the design of simple and complex mechanical and technological equipment with hydraulic mechanizmem. Emphasis is placed on energy-saving hydraulic circuit structure, its high quality of energy and information transfer with respect to reliability, longevity and fulfillment requirements of the technological process. Particular emphasis is also placed on the design of parts of hydraulic circuits, their design, calculation of basic parameters and modeling of static and dynamic behavior of the hydraulic mechanism when changing input parameters of the machine.
Compulsory literature:
Recommended literature:
Additional study materials
Way of continuous check of knowledge in the course of semester
E-learning
Other requirements
They are not other conditions for credit.
Prerequisities
Subject has no prerequisities.
Co-requisities
Subject has no co-requisities.
Subject syllabus:
Lectures Program
Week Contents lectures
1 Methodology design activities
Design work and its importance. Types of projects and their contents.
Algorithm design hydraulic mechanism using computer
techniques. Accompanying technical documentation.
2 The design of hydraulic structures design mechanism.
The general structure of the hydraulic mechanism.
The basic structure of the hydraulic circuits.
3 Progressive track hydraulic mechanism and its parameters.
Basic parameters of the hydraulic mechanism.
Selecting the operating pressure. Choice of flow. The choice of power and
control elements and criteria for their selection.
4 Accessories hydraulic circuit.
Sizing and selection of fluid lines connecting parts.
Principles of calculation of pressure losses. Temperature stabilization of liquid.
5 The variability parameters of the hydraulic circuit.
Basic physical properties of liquids and change their parameters influence
pressure and temperature. Effect of parameter changes on the output behavior
of liquids hydraulic mechanism for static and dynamic mode. Unsteady
phenomena in the hydraulic mechanism.
6 Hydraulic actuators for the translational and rotational motion.
Stiffness and compliance engine, natural frequency motors.
Control of output parameters of the drive. Multi-engine hydraulic actuators.
7 Hydraulic circuit with accumulator.
Structural types of batteries and their basic parameters.
Calculation of the battery for the purpose - the source of pressurized fluid.
Battery-powered linear motors - starting, braking, energy storage.
8 circuits with built-in hydraulic valves.
Structural design and built-in valves management.
Hydraulic circuits with built-in valves. Emulsion and water hydraulics.
9 Proportional technology and servo technology.
Types of proportional elements and advantages of their use.
The basic parameters and characteristics of the proportional elements.
Examples of hydraulic circuits with proportional elements and determine
basic parameters. Dynamic and static characteristics proportional elements and
circuits assembled from them.
Hydraulic circuit servo technology.
10 Hydraulic and electrohydraulic servo control circuits.
The structure of hydraulic servomechanisms for position control and speed.
Electro-hydraulic control systems and determine their basic
parameters.
Static and dynamic characteristics, stability control system and
accuracy of the transmission signal.
11 Energy-efficient hydraulic systems.
Secondary control and its use in mobile technology and testing.
Load sensing systems in mobile technology.
Energy-saving involvement in shaping technology.
Energy-efficient systems for handling heavy material.
12 Hydraulic systems of machinery in the industry.
Equipment steel mills and secondary metallurgy. Equipment for continuous
casting steel. Rolling mill plates. Rolling thin sheets - winders, decoilers, slings,
water treatment.
13 Hydraulic systems of machinery in the industry.
Curing presses and furniture. Injection molding machines for plastics.
Baling presses and scrapping scissors. Forging presses and manipulators.
Water works. Stage technician. Ecology
14 Hydraulic systems. Tightness of the hydraulic system and protection against
leakage of fluids. Noise and hydraulic system means for its
reduction. Environmentally degradable fluids and
possibility of their use, impact on the reduction parameters of the hydraulic
circuit.
Program practicals and seminars + individual work of students
Week Contents practicals and seminars
1 Practical demonstration projects, the first phase of P 1 and P 2 of the second phase
2 Track hydraulic circuit according to the technological process,
choice and selection of hydraulic components
3 The calculation parameters of the hydraulic circuit
4 Calculation of the tanks, heat exchangers, temperature regime, pressure losses
5 Calculation of shock and pressure changes in the parameters of the
hydraulicmechanism change in pressure and temperature
6 Calculation of stiffness and compliance, natural frequency, the basic determination
parameters of linear and rotary motors
7 Calculation of charge for a particular purpose, battery-powered linear
hydraulic
8 Calculation of decompression, creation of hydraulic circuits of built-in valves
water hydraulics
9 Calculation and design of hydraulic circuits with proportional technology and
servo technology
10 Basic calculation and electrohydraulic servo control
circuit parameters of the technological process
11 Design and calculation of test equipment for dynamic testing
12 Calculation and design nadsynchronního braking control circuit design
winding belt, battery option for building the pressure
13 Proposal for a hydraulic circuit for a particular purpose and calculation of basic
parameters
14 Calculation of service life of hydraulic converters using ecological
liquids
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction