|
|
Bridge type of track shifter
Jílek, Roman ; Fiedler, Petr (referee) ; Štohl, Radek (advisor)
The aim of this Master's thesis is characterization Programmable Logic Controllers, description of Industrial interface – AS-Interface, assembling electronic components at construction of model of bridge type track shifter and programming model. First part is focused to Programmable Logic Controllers their qualities, characterization and separation and describing AS-Interface and its components. Second part is describing equipment and locations of equipment. Third part is about software. Fourth part is describing programming. Next part is about visualization and last part contains instructions for laboratory work.
|
|
|
Model of bridge type track shifter
Jílek, Roman ; Šír, Michal (referee) ; Štohl, Radek (advisor)
The aim of this Bachelor thesis is to model virtual bridge type track shifter. There are specified in detail purpose and goals in the introduction. Next chapter is focused on short characteristic of programming environment RSLOGIX 5000 and software FactoryTalk View Studio used for creation of model control visualisation a and software RSLinx Classic. Then there is analysed in detail created program with description of all parts and final visualisation including control system.
|
|
|
Bridge type of track shifter
Holomek, David ; Franek, Lešek (referee) ; Štohl, Radek (advisor)
This Bachelor thesis contains a description of a bridge type track shifter model, with the introduction including an analysis of the whole work. The first task describes the look and layout of individual parts of the track shifter model. There is also a description of the AS-Interface database, as well as a section with representations of the sensors and actuators of the track shifter. The fifth part describes the PLC software configuration, and is followed by a section dealing with the errors found in the AS- Interface database. After a description of the track shifter’s control program, the seventh section underlines the visualization aspect of the track shifter model. The final section includes samples of laboratory tasks.
|
|
|
Bridge type of track shifter
Holomek, David ; Franek, Lešek (referee) ; Štohl, Radek (advisor)
This Bachelor thesis contains a description of a bridge type track shifter model, with the introduction including an analysis of the whole work. The first task describes the look and layout of individual parts of the track shifter model. There is also a description of the AS-Interface database, as well as a section with representations of the sensors and actuators of the track shifter. The fifth part describes the PLC software configuration, and is followed by a section dealing with the errors found in the AS- Interface database. After a description of the track shifter’s control program, the seventh section underlines the visualization aspect of the track shifter model. The final section includes samples of laboratory tasks.
|
|
|
Model of bridge type track shifter
Jílek, Roman ; Šír, Michal (referee) ; Štohl, Radek (advisor)
The aim of this Bachelor thesis is to model virtual bridge type track shifter. There are specified in detail purpose and goals in the introduction. Next chapter is focused on short characteristic of programming environment RSLOGIX 5000 and software FactoryTalk View Studio used for creation of model control visualisation a and software RSLinx Classic. Then there is analysed in detail created program with description of all parts and final visualisation including control system.
|
|
|
Bridge type of track shifter
Jílek, Roman ; Fiedler, Petr (referee) ; Štohl, Radek (advisor)
The aim of this Master's thesis is characterization Programmable Logic Controllers, description of Industrial interface – AS-Interface, assembling electronic components at construction of model of bridge type track shifter and programming model. First part is focused to Programmable Logic Controllers their qualities, characterization and separation and describing AS-Interface and its components. Second part is describing equipment and locations of equipment. Third part is about software. Fourth part is describing programming. Next part is about visualization and last part contains instructions for laboratory work.
|
guest ::
