RU2611669C1 - Device for training operational personnel of power equipment - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: device for training the operational personnel of the power equipment comprises job groups for training operational, non-operational, technical and maintenance personnel, network switches, a calculation computer of the equipment model, a workplace computer of the training control, a core switch, a database computer of the automated process control system (PCS), a unit of modeling alarms, a database computer of warning alarms, a warning alarm unit, a unit of the early emergency diagnosis, a processing and switching module of the simulation results, a model management unit, a training and methodological support unit, a unit of fuel quality pre-indexation, a security and lock module, a PCS database, a maintenance personnel training unit, a module of telephone conversations, a module of thermal, mechanical, hydraulic, aerodynamic, electrical simulation, a simulation module of chemical water treatment, a module of step-by-step programs, connected in a certain way.

EFFECT: increasing the training efficiency of the power equipment operational personnel.

4 cl, 1 dwg

Description

The present invention relates to a means of training operational operational, non-operational, technical and repair personnel of power equipment.

The current state of automated process control systems (APCS) is characterized by the transition from traditional autonomous specialized equipment to microprocessor-based software and hardware complexes (PTC) of a network organization.

In general, PCS-based process control systems are distributed integrated software and hardware systems of large information scale, which are built using controllers of computers of workstations of operators and computer networks, i.e. functional tasks of control and management are implemented in hardware and software.

The main difficulties in mastering the new equipment management technology are related to the fact that for the first time the PTK replaces a wide range of specialized hardware and implements software and hardware in a single information and technical environment both information and computing (control of technological parameters, signaling, etc.) and control functions (display remote control, automatic regulation, functional group control, etc.).

In real operating conditions, preparation can be carried out only by trial and error, which is associated with significant costs and is not effective.

Effective and trouble-free management and operation of new power equipment is possible only after a full study of the entire functional complex of capabilities provided by modern full-scale process control systems. In this regard, a device is needed for training specialists involved in the management, operation and repair of automated technological (energy) equipment. In this case, effective training (education) of specialists can be provided provided that the program and technical characteristics of the device are similar to the corresponding characteristics of a real process control system. For example, the operator interface of the device should be completely identical to the interface of operator stations as part of the process control system of the technological facility (power unit), and the model of technological equipment should be all-mode, providing unambiguous quantitative, qualitative and temporal compliance with the control object.

A device for training operational personnel of power equipment is known (patent for the invention of the Russian Federation No. 2282248, published: 08/20/2006), containing a group of training jobs for operational staff, a group of training jobs for non-operational staff, a group of workplaces for developing mathematical software, a group of management jobs training, several gateway computers, computer models, communication computers, learning scenario management computers, controller model computers, computer-aided design software.

A disadvantage of the known device is associated with its low didactic efficiency for training operational and non-operational personnel and the lack of training for field operators, technical, repair personnel of power equipment.

The technical result of the invention is to increase the efficiency of training operational personnel of power equipment by:

1. Creation of training jobs for technical and repair personnel communicating with the training unit for maintenance and repair personnel;

2. Creating a block for early diagnosis of an emergency with time scaling;

3. The creation of a block of preliminary indexing of fuel quality;

4. Creation of a block for modeling emergency situations;

5. Implementations of the new educational and methodological support for the simulator according to p. 1-4

The technical result is achieved by means of a training device for operating personnel of power equipment, which is a dispersed information-management training system containing a group of training jobs for operational personnel, a group of training jobs for non-operational personnel, a group of training jobs for technical personnel, a group of training jobs for repair personnel connected with the corresponding inputs of the corresponding network switches, computer model technologist hardware, a computer database of the process control system, a computer database alarm, the workplace of the training instructor connected to the corresponding inputs of the main switch, which is connected to the corresponding inputs of the network switches of the workplaces.

The device can work in the training mode of operational work with an instructor, or without an instructor (independently), or in exam mode. This provides the opportunity to implement an integrated approach to training.

The figure 1 shows the technical structure of the device.

The device (simulator) contains a group of workplaces 1 training of operational personnel, a group of workplaces 2 training of technical personnel, a group of workplaces 3 training of non-operational personnel, a group of workplaces 4 repair personnel, a workplace for training management (instructor station), network switches 6-10 , module for processing and switching simulation results 11, thermotechnical modeling module 12, thermomechanical modeling module 13, hydraulic modeling module 14, aerodynamic model module 15, electrotechnical modeling module 16, chemical water treatment modeling module 17, warning alarm module 18, protection and blocking module 19, step-by-step program module 20, telephone conversation module 21, training script module 22, emergency early diagnosis unit with time scaling 23, block preliminary indexing of fuel quality 24, block for modeling emergency situations 25, block for educational and methodological support of UMO 26, block for training personnel for maintenance and repair 27, computers for the ACS database TP 28, control unit model 29, computer for calculating the model of an object (server) 30, computer database alarm systems 31.

The group of workplaces 1 for the training of operational personnel is the workplaces of the trained operational personnel, which corresponds to the workplaces of the control system operators of real-time power equipment. On the computer of workplace groups 2 training of technical personnel, workplace groups 3 training of non-operational personnel and workplace groups 4 training of repair personnel, in addition to the automatic process control system functions, additional functions have been implemented that provide training for the relevant personnel by displaying information from the training unit for maintenance and repair personnel 27.

The group of training jobs for personnel 1-4 is connected to the main network switch 10 through its own network switches 6, 7, 8, 9 to ensure greater independence of the trained groups. The training management workstation is connected directly to the main network switch 10, which provides control of the modeling process and monitoring the training process in any of the trained groups. The main network switch 10 is also connected to the computer database ASUTP 28, the computer database alarm 31 and the computer calculation model of the object 30.

Modeling of power equipment, sensors and actuators is performed in a computer for calculating model 30. Calculation of the parameters of the simulation object is carried out by the modules of thermotechnical simulation 12, thermomechanical simulation 13, hydraulic simulation 14, aerodynamic simulation 15, electrical simulation 16, simulation of chemical water treatment 17. The initial data for the calculation are design and input parameters of the simulated equipment coming from the control system database 28, I control Signals coming from the control unit of Model 29 and information about the presence of interlocks and protections coming from the protection and interlocks module 19. The calculated parameters of a normally functioning model of equipment are transmitted to the emergency simulation block 25, in which emergency corrections are made to the calculation results. The final calculation results are transmitted to the training workstation computers and the training management computers through the main network switch 10 and then through the corresponding network switches 6, 7, 8, 9 by the processing and switching module of the simulation results 11.

In the learning process, students control the equipment through an interface identical to the interface of a real process control system, presented on the computer of groups of training jobs 1, 2, 3, 4. Control signals are received through the corresponding network switches 6, 7, 8, 9 and the main network switch 10 on the computer calculating the model of the object 30 in the control unit of the model 29 and affect the results of further modeling in real or accelerated time. The results of the calculation of the model are analyzed in the block for early diagnosis of an emergency with time scaling 23 and the results of the analysis are transmitted to the computer of training jobs 1, 2, 3, 4 and to the block of educational and methodological support 26, affecting the assessment of the task performed by the student.

For full-time training of operational, non-operational, technical and repair personnel, the telephone conversations module 21 is included in the simulator. At training sites 1, 2, 3, 4, it is possible to make telephone calls to predetermined subscribers according to the list of predefined questions. The made calls are recorded by the telephone conversations module 21, where their need and timeliness are assessed, the result of this assessment is transmitted to the educational and methodological support unit 26 and affects the overall assessment of the result of the training (training session).

Simulation results in parallel with sending the training jobs to the computer are sent to the warning module 18, information about the triggered protections and locks from the corresponding module 19 and the evaluation of the learning results from the educational and methodological support block 26 are also received there. The warning signal module 18 compares the incoming information with the settings coming from the database of the process control system 28, and in the presence of critical deviations in the received information creates the corresponding entries in the database limit signaling 31. Information about warning signaling in the database 31 is available on all computer workstations training 1, 2, 3, 4 through the corresponding network switches 6, 7, 8, 9, 10.

To implement pre-prepared training scenarios, the device provides a training script module 22, controlled from the training control workstation 5, which creates the necessary consistent effects on the simulation results. Similarly, the device implements a module step-by-step programs 20, which simulates similar step-by-step programs in real process control systems. The step-by-step program module analyzes the simulation results and generates the necessary control sequences at the input of the model control block.

The device operates as follows.

1. In staff training mode with an instructor

The instructor using a computer workstation training management 5 prepares the device for the selected training scenario by loading the script into the training script module 22.

In the process of training, trained operators work at the workplaces of 1 training of operational personnel. Computer 1 of the training of operational personnel teaches the skills of monitoring the state of technological equipment in the form of information on mnemonic diagrams (videograms), graphs and histograms, monitoring emergency operating modes in the form of technological alarms, monitoring the actions of protection and emergency automation, manual control in the form of setting initial conditions and forming management teams to manage the model of power equipment.

Trained technical, non-operational and repair work at workplaces 2, 3, 4 training of technical, non-operational and repair personnel. A training computer for 2, 3, 4 technical, non-operational and repair personnel teaches the skills of monitoring the state of technical controls, recording the status of technological equipment, recording emergency situations, monitoring the calculation of technical and economic indicators, etc.

2. In personnel training mode without an instructor

This mode repeats the mode of training personnel with an instructor, except that the role of the instructor is performed by an automated educational and methodological support program, a monitoring program, etc.

3. In exam mode

In exam mode, the instructor using the computer of the training management workstation 5 prepares the device for conducting the selected training scenario by loading the script into the training script module 22. After loading the script, the instructor switches on the “Exam” mode.

Trainees are connected from workplace 1-4 to a computer for calculating the model of the object 30 and begin to complete the task. The difference between the “exam” mode and the mode of training with an instructor is that the trainees are not shown methodological hints for completing the task and information about the errors made is not displayed until the end of the task.

From the above it is seen that the totality of the features of the present invention provides the claimed technical result - training a group of specialists consisting of operational, technical, non-operational and repair personnel interacting with each other during the operation of technological equipment by including a training unit for repair and maintenance personnel. The presence of preliminary fuel quality indexing units, an emergency modeling unit, and an emergency emergency diagnostics unit with time scaling allows you to train personnel in the prevention and forecasting of emergency situations and the correct actions when they occur. Operation of the device is possible by specialized training centers for the training of personnel for energy facilities and in educational institutions of the energy profile.

Thus, the device allows you to train specialists in operational, technical, non-operational and repair personnel in the operation of technological equipment in normal and emergency modes of operation. This increases the efficiency of training and ensures the reliability and efficiency of the power equipment.

Analysis of the totality of all the essential features of the proposed invention proves that the exclusion of at least one of them leads to the inability to fully ensure the achieved technical result.

The analysis of the prior art shows that it is unknown such a device that has inherent features identical to all the essential features of this technical solution, which indicates its unknownness and, therefore, novelty.

The above proves the conformity of the claimed device and method to the criteria of an inventive step, since it is not obvious to a specialist from the field of its application.

When carrying out the invention, the presence of the proposed object is really realized, which indicates its industrial applicability.

Claims (4)

1. A training device for operating personnel of power equipment, which is a dispersed information-management training system that contains a group of training jobs for operational personnel, a group of training jobs for non-operational personnel connected to the corresponding inputs of the corresponding network switches, computers for calculating the model of equipment, computers for the control workstation training connected to the corresponding inputs of the main switch connected to other network switches, characterized in that it additionally contains a computer database of an automated process control system (APCS) connected to the simulation units and the main switch, a warning database computer connected to the warning block and the main switch, an early emergency diagnosis unit, connected to the modules for processing and switching simulation results and control units for the model and the block of educational and methodological support, the block variable indexing of fuel quality, connected to the protection and blocking module, the process control system database and the model control unit, the maintenance and repair personnel training unit, connected to the model control unit and the modeling results processing and switching module, the telephone conversation module connected to the training and methodological unit providing and a module for processing and switching simulation results, connected via a network of switches with training jobs for technical and repair personnel, b ok emergency modeling, connected to the processing and switching unit of the simulation results and the protection and blocking module, the protection and blocking module, connected to the emergency modeling module and the thermotechnical, thermomechanical, hydraulic, aerodynamic, electrical modeling and chemical water treatment modeling modules, which are connected to a control system database and a module for processing and switching simulation results, a step-by-step program module connected to the processing modules weave and switching the simulation results and the model control unit. 2. The training device for operational personnel of power equipment according to claim 1, characterized in that it operates in a training mode with an instructor. 3. The training device for operating personnel of power equipment according to claim 1, characterized in that it operates in a training mode for personnel without an instructor. 4. The training device for operating personnel of power equipment according to claim 1, characterized in that it operates in exam mode.

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