SU1800472A1 - Trainer for boiler installation operator - Google Patents

Description

The invention relates to technical means for training specialists in the management, maintenance and repair of hot water boiler plants equipped with automatic nozzle units operating on 5 liquid fuel.

The aim of the invention is to expand the didactic capabilities of the simulator through the use of staffing 10 equipment and devices that simulate real processes that occur during the operation of boiler plants, and improve the quality of training for operators.

The drawing shows a structural diagram 15 of the simulator, which contains an electric drive 1 of the nozzle unit, an air compressor 2, a high voltage transformer 3, a fuel pump 4, an air supply regulator 5, a fuel injection pressure regulator 6, a fuel injection pressure meter 7, an electrode mounting unit 8, an injector 9, ignition electrodes 10, torch burning simulation lamp 11, photoresistor 12, fuel supply pipe 13, electric heater 14, fuser 15, combined lower temperature switch 16, combined upper relay 17 th temperature, low temperature level controller 18, upper temperature level controller 19, water temperature indicator 20, emergency mode signaling unit 21, protection time relay unit 22, ignition switch unit 23, automatic nozzle aggregate control unit 24_35, switch 25 modes operation of the nozzle unit, block 26 for manual control of the nozzle unit, button 27 for manual ignition of the torch, remote control 28, supply 29 to the control panel 40, relay 30 for the torch ignition delay time, key 31 for simulating a break burning torch, line filter 32, fuel filter 33, simulator 34 of a boiler installation. 45

The simulator works as follows.

Manual control. Check the presence of water in the fuser 15 and the presence of fuel in the fuel system of the filter 33. Set the air supply regulator 5 to the maximum flow, turn on the power to the control panel 28. Set the mode switch 25 to position P. The power is supplied through the manual control unit to the electric motor 1 of the air compressor 2 and the fuel pump 4, while the boiler furnace is purged and the fuel atomization pressure indicator 7 shows the fuel injection pressure, since the nozzle 9 has a plug . The torch ignition button 27 is pressed, while the power is supplied through the line filter 32, the high-voltage transformer 3 to the electrodes 10, as a result of which the high-voltage arc (10000 V) is ignited. In 6-8 s after the power supply to the electric motor 1, the power through the time delay relay 30 is supplied to the electric lamp 11 and to the electric heater 14 of the fuser 15. As a result, the torch is simulated and the fuser 15 starts heating by means of the electric heater. After the torch ignites, the torch ignition button 27 is released.

The operation of the boiler installation is controlled by the values of the fuel injection pressure display unit 7, the quality of fuel combustion and the temperature value by the display unit, the air supply is regulated by the air damper 5, the fuel supply is by means of a pressure relief valve 6.

The boiler installation operating in the manual control mode is stopped in case of emergency or when the temperature reaches the limit value by setting switch 25 to the neutral position - 0.

Automatic control. ·

Preparation of the simulator of the boiler plant operator for work is carried out identically, as with manual control.

After preparation, it is necessary to set the mode switch 25 to position 5 A (automatic), while the power is supplied to the electric drive 1, which drives the air compressor 2 and the fuel pump 4, as a result of which the boiler furnace is purged and simulation of fuel supply by pump 4 into the nozzle 9, the pressure indicator shows the injection pressure, since the nozzle 9 has a plug. Through the arc ignition unit 23, the line filter 32, the high-voltage transformer 3, the power is supplied to the electrodes 10, an arc arises to ignite the torch. In addition, power is supplied to the time delay relay 30 and after 6-8 s, after the boiler is purged, the torch simulator lamp 11 and the heating unit 14 of the fuser unit 15 light up. After ignition of the torch, the photoresistor 12 turns off the power supply unit of the ignition electrodes 10. Further operation of the nozzle unit leads to heating of the thermoblock 15 and, upon reaching the upper temperature limit value, the combined thermal relay 17 cuts off the power of the automatic control unit 24, thereby stopping the operation of the nozzle unit. When the temperature drops to the lower limit, the combined thermal relay 16 turns on the power of the automatic control unit 24 and the sequence of operations of 35 turning on the nozzle unit is repeated, i.e. the simulator of the boiler installation works as a self-acting one.

To stop the simulator when it is operating in automatic mode, 40 switch 25 must be put in neutral position O.

An emergency situation for a flare break is performed by turning off the power of the electric lamp 11 by means of a key 45 31, while re-ignition of the arc on the ignition electrodes 10 is turned on through the photoresistor 12 and the ignition power supply unit 23. If after 6-8 s the torch does not light, then through the protection time relay 22 you turn on the emergency light block 21 and turn off the unit 24 for automatic control of the nozzle unit, which, in turn, cuts off the power supply to the block 23 to turn on the light the torch and the electric drive 1 of the nozzle unit, as a result of this the simulator stops its work. If, during re-ignition of the torch, the switch is returned to its original position within 6-8 seconds, i.e. To simulate the reignition of the torch, the simulator continues its work in automatic mode.

The simulator of the boiler plant, equipped with special elements and devices interconnected by logical connections, provides the creation of real conditions during the operation of the boiler plant and its systems, provides the opportunity to create extreme and emergency situations that occur in real boiler plants, work out their elimination, carry out tuning, maintenance and repair of standard systems and means of 15 automatic control.

The simulator, by expanding didactic capabilities, significantly improves the quality of professional training for operators of boiler plants equipped with automatic nozzle units, which eliminates the need for operator training on standard boiler plants, which means that fuel consumption and boiler plant life are eliminated. Not being an object of increased danger in a classroom, the simulator after acquiring basic skills can be used for self-study.

’The proposed simulator can be used for high-quality training of operators of boiler plants equipped with automatic nozzle units used in industry, transport and agriculture.

Claims (1)

Claim The simulator of the boiler plant operator, comprising an operator console, the inputs and outputs of the groups of which are connected to the corresponding outputs and inputs of the control unit, a boiler plant simulator, an indicator, characterized in that. In order to expand the didactic capabilities of the simulator, the first and second threshold blocks are introduced into it, the outputs of which are connected to the corresponding inputs of the control unit, the temperature sensor block, the first, second and third outputs of which are connected to the inputs of the corresponding threshold blocks and to the indicator input, respectively. an electric heater, the output of which is connected to the input of the temperature sensor block, a photoelectric converter, first and second switches, first and second time relays, an alarm unit, the input of which is connected to the output of the first time relay and to the third input of the control unit, and a torch burning simulator. one output of which is connected to the input 7 of the electric heater, the input - with the output of the second switch, and the other output - with the input of the photoelectric converter, the output of which is connected to the input of the first timer and one input of the first 5 switch, the other input of which is connected to one output of the control unit, and the output - with the first input of the boiler plant simulator and one output of the operator panel, other outputs of the control unit and operator panel are connected to the second input of the boiler plant simulator and the input of the second relay and whose output is connected to the input of the second switch.