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INTEGRATED PROCESS CONTROL EQUIPMENT |
| Description: Integrated process control device is integrated, open and comprehensive Test equipment, and is geared to the needs of process equipment and control engineering, automation-related professionals, chemical-related Professional. Mainly used in the teaching of "process engineeringprinciples," "Automatic Control Theory", "process equipment control"," Control Engineering foundation, ""intelligent control "," process control theory and System "," sensors and process detection technology "," PLC control technology "," computer numerical control technology "," PC configuration control "and other courses. Features: This equipment includes a typical industrial process control level, flow, temperature, pressure part of the experimental process control functions, process control can be realized in the single-loop control, cascade control, ratio control and feedforward -feedback control, hysteresis control and decoupling control and other forms of control. Can also be used according to the needs of configuration for intelligent instrument control mode, DDCcontrol mode and DCS distributed control mode can also beextended to FCS field bus control mode. 1. Object system with integrated design, can be used independently With integrated design, summary of all electrical signals to a unified open interface, the object system can be used as process control device, but also as control object in other professional or courses . 2. Modular control system Control system with German architecture is formed by the test-bed and control module. a. Experimental tables: the use of split legs with the desktop design makes installation demolitionindependently. Desktop uses ahigh-density fire board, the legs adopt Aluminum alloy structure.Both of these make the table durable, easy to install and demolish, good stability, easy to modify. b. T-frame: for the placement of experimental module. The use of aluminum structures make it structurally stable, loading and unloading easy. Experimental modules are installed in the groove of the T-frame Aluminum beam . groove with trapezoidal design make the module easily moved ,handled and captive; with Optional LCD mount, the LCD screen can be fixed to the T-stand. c. With six control modules, each module is independent, small size, can exercise the hands-on experiments ability of the students , reflecting the autonomy and inquiry of the experiment . d. Module panel uses insulation panel material with up to 10kV high voltage resistance, to eliminate the metal (eg aluminum panel) panel leakage, ensure personal safety; e. Module rear cover is made of injection molded ABS plastic ,the insulation materrial eliminate the bulky unsightly leakage phenomenon of sheet metal cover , Beautiful and light; f. Experimental module does not require a separate set handle, can be moved lightly or handled. 3. The initial state of Automatically configure experiments Electronic valves controlled by PC, can realize the initial state auto-configuration of each experiment valve , reducing the pre-test preparations. 4. Double-loop control Each work station with double the amount of testing, the amount of dual control can achieve dual-loop experiments. 5. Increase the forced cooling system Experimental temperature increase of industrial cooling systems to significantly reduce the time the temperature experiment, both to improve the experimental results and increase cooling control experiments . 6. Transparent pressure tank Pressure tank with a transparent material is intuitive and convinient. 7. key components imported from Germany Applications: Students through the experimental apparatus can grasp the following Liquid level, flow, temperature, pressure sensor characteristics and use of knowledge ; Electric control valve regulation characteristics and use; The basic principle of the inverter and the initial use; Magnetic pump basic principles and use ; Thermostat module basic principles and use ; Initial use of intelligent regulator ; Methods of the controlled object identities determination; Control system parameter setting; Control loop tuning parameters of the system setting; Impact on quality indicators of the control system and adjustment of control parameters; Control system design, calculation, analysis, operation and other comprehensive capacity-building. Details:
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