RU2753855C1 - Method and apparatus for registration of resource exhaustion of railroad automatic and telemetry equipment - Google Patents

Abstract

FIELD: computational technology.

SUBSTANCE: invention relates to computational technology. Technical result is achieved through the stages wherein the track plan of the station is formed, the list of possible routes through the station is determined, the characteristics of operational of the station are set, the number of routes within the selected time interval and the list of sections and traffic lights included in said routes are determined, operation of the electric interlocking (EI) system is repeated according to the resulting number of routes, the number of activations of each piece of equipment switching during implementation of the set routes in the electric interlocking system for the selected time interval is calculated, resource exhaustion of the equipment is determined if there is information on the current number of activations of one type of equipment, the operating period, the nominal number of activations and the number of activations at the beginning of calculation, the information about the resource exhaustion is transmitted to the repair and technological section equipment record task complex (RTS ER TC).

EFFECT: increased service life of railroad automatic and telemetry equipment and ensured maximum and uniform resource exhaustion of the equipment during operation.

2 cl, 3 dwg

Description

The invention relates to systems for simulating and predicting the resource of devices, and can be used to predict and determine the resource of railway automation devices, to provide analytical support for the maintenance of railway equipment, even at those facilities that do not provide automatic control (technical diagnostics and monitoring systems) ...

From the patent for invention No. 2234079 from 2004, a method and device for determining the residual life of thin-walled shells made of tank and pipe steels is known. The method for determining the residual life of thin-walled shells of equipment made of tank and pipe steels at potentially hazardous objects consists in the fact that selective control of the investigated thin-walled shells is carried out, an array of information is obtained about the degree of deviation of the investigated thin-walled shell from the corresponding previously unloaded sample - a representative, after which at the same points at the same sensor positions, an array of information sampling on the degree of deviation of the electromagnetic field (e / m) of the investigated thin-walled shell from the corresponding previously unloaded sample - a representative, then the arrays of current values of the impact strength safety factor are sequentially calculated on the basis of the data obtained and the safety factor of the thickness of the investigated thin-walled shell for the entire sample size, the array of residual average service lives of the sections of the research object, the mathematical expectation of the average residual life of the research object i and its standard deviation and determine the 95% residual life of the investigated thin-walled shell. This system has a narrow specialization and does not allow predicting the residual life, taking into account the influence of the main interdependent parameters and factors of operation of the equipment of the railway systems.

Known patent (RU) No. 2533321 from 2014 for the invention "A method for adaptive forecasting of the residual service life of complex objects and a device for its implementation." The group of inventions relates to measuring technology. The method includes force action on the surface of the control object, registration of an array of electrical signals of input information by information sensors installed on the control object, while the signals of information sensors are caused by changes in the force effect on the surface of the control object. A device is used that includes information sensors installed at the control object and perceiving changes in the parameters of the control object, electronic filters to increase the signal-to-noise ratio associated with the outputs of the sensors and connected to the inputs of an electronic analog circuit that implements a neural network model of the reliability of the control object, while another group of inputs of the electronic analog circuit is connected to a signal supply unit for retraining the model by wear, and to its output are connected in series a block for approximating the time dependences of arrays of electrical signals, a block for forming a time series of predictions of the reliability of operation of the control object, a block for extrapolating the value of an array of electrical signals at the output of an electronic analog circuit to the limit value and determination of the residual resource, to the input of which the block for setting the extrapolation model is connected. The technical result consists in increasing the reliability of the forecasting results, increasing the versatility of the method, and expanding the area of use. In the present invention, the resource is predicted by the mean time between failures to overhaul using probabilistic models of the theory of reliability and this invention does not find wide practical application due to insufficient reliability of the resource assessment of technical devices, since the resource is taken on the basis of nomenclature reliability indicators, which does not satisfy the requirement on the accuracy of calculating the resource of railway automation devices to assess their actual resource without taking into account the data of diagnostic systems. This invention cannot be applied in solving the problems of metering devices, since it does not provide a reliable assessment of the long-term and long-term forecast of the residual resource and its gamma-percentage indicator, providing only the search for a defect in the ferrometal wall along the magnetic induction gradient, has a narrow specialization and thus most of all it is impossible to adapt it in order to solve the problem of development.

Patent No. RU 2 502 974 Cl (RU) for the invention "Method for determining the residual life of technical objects". The invention relates to the field of measuring technology, in particular to methods for diagnosing the technical condition of new technology, which have no analogues. The method includes testing objects before they deplete a resource in operating modes with the determination of the operating time to failure. At least two objects are tested, the first object is expected to fail and the time of its failure is recorded, the operating times of the remaining tested objects at the time of failure of the first object are recorded. Based on the sample for the tested objects with the corresponding failure times or operating time, a statistical series is formed, sorted in ascending order of operating time. According to the generated statistical series, the accumulated failure rates are determined, then the distribution function is selected, the values of its parameters are determined, and the gamma percentage indicators of the resource are calculated, on the basis of which the residual resource is determined. In addition, the residual resource is determined in case of failure of each subsequent object to improve the accuracy of determining the residual resource. The technical result consists in determining the residual life of newly developed and operated technical objects that have no analogues, with a limited scope of their testing (operation). The disadvantage of this method is the need for a large number of tests, as well as the inability to determine the MTBF for a limited test time, since a large amount of statistical data is needed to determine the residual resource.

From the patent of the Russian Federation No. 2351012 from 2009 known "Method for modeling failures and damages of communication networks." The technical result is to expand the possibilities for modeling the processes of the occurrence of failures, damages, failures, as well as the process of suppressing communication networks. For this, the means, communication complexes, communication lines are numbered, the imitation of the intended use of communication facilities and complexes, the generation of the time of occurrence of operational failures, damages and failures of communication facilities and complexes, as well as the generation of the start time of suppression of communication lines. Next, the beginning of the next statistical implementation is determined for a time corresponding to the operating time of the communication facility or complex, a drawing of the degree of damage and the number of damaged communication facilities and complexes is carried out, the duration of suppression and the number of suppressed communication lines is drawn, the time of finding the communication facilities and communication facilities in an inoperative state is recorded, as well as the duration of suppression of communication lines. The disadvantages of this method include the limited process of simulation. The invention simulates only the process of occurrence of failures, damage, failures of communication elements, but does not allow to simulate the entire process of the station operation.

Patent No. (RU) 2440611 from 2012 discloses the invention "Method for modeling bilateral impacts". The technical result consists in increasing the reliability of modeling. The method for modeling bilateral impacts is that they simulate the occurrence of combat damage to objects, generate operational failures, simulate the restoration of objects, generate the time of occurrence of operational failures, the time to start suppressing telecommunications objects, draw the degree of damage and numbers of damaged objects, and measure, calculate, set and the parameters characterizing the initial resources of the opposing sides are written into the RAM cells of the PC, on real objects subjected to impacts, they are measured, counted, the indicators characterizing the main influences for each opposing side are memorized, the minimum potential is set at which the opposing side is considered a loser, form and deploy physical models of communication systems, simulate the processes of functioning of communication systems, impact on communication systems, reduce the potentials of the opposing sides after impact on communication systems, compared with the minimum, if necessary, make adjustments to the physical models of objects exposed to impacts, stop the process

modeling. This system, like the patent described above, is only able to simulate the process of occurrence of combat damage to objects (weak, medium, strong and irrecoverable), generate operational failures, simulate the restoration of objects, generate the time of occurrence of operational failures, combat damage and failures of objects and is not capable solve the problems of modeling the processes occurring in devices in working order, as well as read the received information from all devices in real time.

Known patent No. (RU) 2497188 from 2010 for the invention "Device for modeling the process of moving a moving object." The required technical result consists in expanding the functionality in a device containing two Poisson pulse generators, a clock pulse generator, an OR element, two AND elements, two counting flip-flops, and a NOT element. The disadvantage of this method is the rather narrow functionality and ability to function only in the field of space reconnaissance, which makes this invention not applicable to systems of railway automation and telemechanics.

The closest analogs of the present invention are patent No. 2533321 (RU) from 2014 for the invention "A method for adaptive forecasting of the residual service life of complex objects and a device for its implementation." The method includes force action on the surface of the control object, registration of an array of electrical signals of input information by information sensors installed on the control object, while the signals of information sensors are caused by changes in the force effect on the surface of the control object. A device is used that includes information sensors installed at the control object and perceiving changes in the parameters of the control object, electronic filters to increase the signal-to-noise ratio associated with the outputs of the sensors and connected to the inputs of an electronic analog circuit that implements a neural network model of the reliability of the control object, while another group of inputs of the electronic analog circuit is connected to a signal supply unit for retraining the model by wear, and to its output are connected in series a block for approximating the time dependences of arrays of electrical signals, a block for forming a time series of predictions of the reliability of operation of the control object, a block for extrapolating the value of an array of electrical signals at the output of an electronic analog circuit to the limit value and determination of the residual resource, to the input of which the block for setting the extrapolation model is connected. The technical result consists in increasing the reliability of the forecasting results, increasing the versatility of the method, and expanding the area of use. In the present invention, the resource is predicted by the mean time between failures to overhaul using probabilistic models of the theory of reliability and this invention does not find wide practical application due to insufficient reliability of the resource assessment of technical devices, since the resource is taken on the basis of nomenclature reliability indicators, which does not satisfy the requirement on the accuracy of metering devices by determining the actual number of triggerings of railway automation devices to assess their actual resource according to the diagnostic systems.

The problem solved by the present invention is to expand the functionality of the technical maintenance of the equipment by means of counting the number of operation of the equipment and predicting the development of their resource.

The technical result, which is obtained using the claimed method and device, is expressed in increasing the service life of the RAT equipment and ensuring the maximum and uniform development of the resource of the equipment as it is used.

To solve the problem with the achievement of the specified technical results in the method of accounting for the resource development of the ZhAT equipment, which consists in the fact that they form the route plan of the station, determine the list of possible routes through the station, set the characteristics of the station's operational work, determine the number of routes for the selected time interval and the list of sections and traffic lights included in these routes, repeat the operation of the electrical interlocking system (EC) according to the received number of routes, determine the number of operations of each equipment, which switches when implementing specified routes in the electrical interlocking system for a selected time interval, determine the development of the equipment resource in the presence of information on the current number of operations of one type of equipment, the period of operation, the nominal number of operations, and the number of operations at the initial moment of counting.

To solve the problem with the achievement of the specified technical result in the device for recording the resource development of railway automation and telemechanics equipment, containing a module for shunting and train operation of the station, in the form of a computer, it has an information link via a data transmission network with an automated workstation for maintaining technical documentation (ARM-VTD ) and an automated system for maintaining and analyzing the schedule of the executed movement (GID) and connection with the EC system operation module, which is a computer, and containing models of railway automation and telemechanics (RAT) equipment, in turn, the EC system operation module has a connection with a module for counting the number of operations and determining the development of the resource of the ZhAT equipment, made on the basis of the calculator. The module for counting the number of operations and determining the resource development of the ZHAT equipment has an information link via the data transmission network with a complex for metering devices of the repair and technological section (KZ UP RTU).

These advantages, as well as the features of the present invention, are explained using a variant of its implementation with reference to the figures.

FIG. 1 shows a block diagram of the claimed device.

FIG. 2 shows a block diagram of the operation of the device.

FIG. 3 shows a block diagram of an algorithm for predicting the development of the resource of the RAT equipment.

Since the claimed method is implemented directly in the device, its technical essence is described in detail in the section describing the operation of this device.

The device (Fig. 1) accounting for the development of the resource of the equipment contains a module for shunting and train operation of station 2, in the form of a computer, has an information link 1 via a data transmission network with an automated workstation for maintaining technical documentation (AWP-VTD) 1 and an automated system for maintaining and analyzing the schedule of the executed movement (GID) 1 and connection 2 with the module of operation of the EC system 3, which is a computer, and containing the models of the equipment of railway automation and telemechanics (RAT) 4, in turn, the module of operation of the EC system has connection 3 with the counting module the number of operations and the determination of the resource development of the ZhAT 5 equipment, performed on the basis of the calculator. The module for counting the number of operations and determining the development of the resource of the ZhAT 5 equipment has an information link 4 via the data transmission network with a metering complex for devices of the repair and technological section (KZ UP RTU) 6.

The claimed device works (Fig. 1) as follows.

The device is built on a network principle, there is no breakdown by levels.

The set of modules (module for shunting and train operation of station 2, module for operation of the EC 3 system, module for counting operations and forecasting resource depletion 5) forms a method and device for recording the resource depletion of the ZhAT 7 equipment.

In module 2, the route plan of the station is formed, a list of possible routes through the station is determined, the characteristics of the operational work of the station are set, the number of routes for the selected time interval and the list of sections and traffic lights included in these routes are determined. From module 2 to module 3, a list of specified routes for a selected time interval is transmitted. In module 3, the operation of the electrical interlocking (EC) system is repeated according to the received number of routes. From module 3 to module 5, information about the equipment is transmitted, which was switched during the implementation of the list of specified routes for the selected time interval. In module 5, the number of actuations of each equipment is counted, which switches when the specified routes are implemented in the electrical interlocking system, the resource depletion of the equipment is determined if there is information about the current number of actuations of one type of equipment, the period of operation, the nominal number of actuations, and the number of actuations at the initial moment countdown. From module 5, information about the resource depletion is transmitted to the complex of tasks for accounting for devices of the repair and technological section (KZ UP RTU) 6.

The algorithm of the claimed device is shown in FIG. 2.

Block 21 downloads the station plan and the interdependence table from the AWP-VTD. In block 22, the formation of a scale plan of the station is performed and a list of possible routes through the station is determined. After that, the characteristics of the operational work of the station are entered on the basis of the technological process of the station and the technical distribution act of the station: block 23. On the basis of the input initial data, the shunting and train operation of the station is started by the decision block 24. At the output of block 24, the number of routes and a list of sections and traffic lights participating in the routes are obtained. In the case of an error message in the shunting and train operation of the station by the decision block 24, the correctness and completeness of the initial data are checked and the necessary corrections are made by the block 28. Otherwise, an appeal is made for technical support to block 27. In the decision block 25, the error of the results is checked shunting and train operation of the station. In the case when the number of specified routes correlates with their real value with an error of no more than 10%, then the results of shunting and train operation of the station are fed to the input of the model of the EC system. Otherwise, an appeal is made for technical support to block 29. The decision block 30 repeats the operation of the EC system, in the process of which the number of triggering of the equipment participating in the implementation of the routes is counted. But based on the results of the EC system, a protocol is formed on the number of equipment triggerings. If an error is displayed by the decision-making unit 30, an appeal is made for technical support to block 29. In case of successful formation of the protocol, the decision-making unit 31 checks the availability of data on the technical equipment of the station in question and on the operation (the nominal number of operations, the number of operations at the initial moment time) of the considered equipment. In the case of the presence of the specified data, block 32 calculates the resource development of the RAT equipment and the results of the calculation are transmitted by block 33 to the complex of tasks for accounting for devices of the repair and technological section (KZ UP RTU). Otherwise, when a message about the absence of data is output by block 31, data is transmitted to calculate the number of operations in the short circuit of the UE RTU by block 34.

The algorithm for calculating the resource development of the RAT equipment by module 5 (Fig. 1) is shown in Fig. 3.

The launch of the algorithm for predicting the development of the resource of the RAT equipment begins after block 91 has received all the mandatory values of the operational characteristics of the RAT equipment for the selected time interval. The decision block 92 checks the development of the resource of the investigated equipment. If the number of operations of the standard value is exceeded, then block 93 issues a message about the required maintenance / replacement of this equipment. Otherwise, the calculation of the residual number of operations by block 94, the rate of resource depletion by block 95 and the predicted time of depletion of the equipment resource while maintaining the intensity of operation are performed. Then the algorithm goes to a new cycle when receiving data for a new time interval.

Thus, due to the use of the corresponding modules of the device (Fig. 1) accounting for the resource development of the equipment of railway automation and telemechanics (RAT): modules 2, 3, 5, it is possible to ensure the maximum and uniform development of the resource of devices during operation and reduce the number of failures associated with equipment.

On the basis of the claimed method and device for developing the resource of the ZhAT equipment, it is planned to develop an automated system for calculating the resource of devices.

Claims (2)

1. The method of accounting for the resource development of the railway automation and telemechanics (RAT) equipment, which consists in the fact that the station route plan is formed, the list of possible routes through the station is determined, the characteristics of the station's operational work are set, the number of routes for the selected time interval and the list of sections and traffic lights are determined included in these routes, repeat the operation of the electrical interlocking system (EC) according to the received number of routes, calculate the number of operations of each equipment that switches when implementing the specified routes in the electrical interlocking system for the selected time interval, determine the resource depletion of the equipment in the presence of information about the current the number of operations of one type of equipment, the period of operation, the nominal number of operations and the number of operations at the initial moment of counting, they transmit information about the development of the resource to the complex of accounting tasks for the instruments of the repair and technological section (KZ U P RTU). 2. A device for recording the resource development of railway automation and telemechanics (RAT) equipment, containing a module for shunting and train operation of the station in the form of a computer, has an information link via a data transmission network with an automated workstation for maintaining technical documentation (AWP-VTD) and an automated system for maintaining and analysis of the schedule of the executed movement (GID) and connection with the module of the EC system, which is a computer and contains the models of the equipment of railway automation and telemechanics (RAT), in turn, the module of the EC system has a connection with the module for counting the number of operations and determining the resource depletion of the ZHAT equipment, made on the basis of a computer, while the module for counting the number of operations and determining the development of the resource of the ZHAT equipment has an information link via the data transmission network with a metering complex for devices of the repair and technological section (KZ UP RTU).

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