RU182980U1 - The control device, accounting, planning, monitoring and forecasting when improving actions with resources - Google Patents

Abstract

The utility model relates to the field of electric power and can be used in rail transport, for example, for transformers. A device for monitoring, accounting, planning, monitoring and forecasting when improving actions with resources, consisting of a diagnostic object, the parallel outputs of which are connected to a continuous monitoring unit and a unit periodic monitoring of the diagnostic data collection unit, the outputs of the latter are connected to the automatic data collection unit of the diagnostic data collection unit, output after the ice is connected to the diagnostic database unit of the same unit, its output is connected to the unit of the unified information database, the first output of which is connected to the actual data recording unit at the second moment of time of the data input unit at the second moment of time, the second output is connected to the selection and fixing unit data at the first instant of time of the data input unit at the first instant of time, the output of the latter is connected to the receiving and transmitting unit of existing data of the same unit, its output is connected to the fixing unit of existing data at the second time point of the data input unit at the second time moment, the output of which is connected to the existing data recording unit at the first time of the data input unit at the first time moment, the output of the actual data recording unit at the second time point of the data input unit at the second time moment is connected with the node for fixing the actual data at the first moment of time of the data input block at the first moment of time, its output and the output of the node for fixing existing data at the first moment of time of the same block are connected with the node for calculating and comparing the parameters of the existing actual values of the data input unit at the first moment of time, the first output of which is connected to the data storage unit of the same unit, the second output is connected to the data processing and evaluation unit, the third output is connected to the unit for recording differences in the values of the input unit data at the first time, its output and output of the data processing and evaluation unit are connected to the monitoring unit, the first output of which is connected to the data prediction unit, the second output is connected to the receiving unit of solutions, according to the utility model, a statistical data collection unit is additionally introduced, which is made up of parallel connected operation database node, repair database node and maintenance database node, the outputs of which are connected to the statistical database node, the output of which is connected to the unit of a single information database data, passport data collection unit, which is made of parallel connected passport data node and knowledge and rules node, the outputs of which are connected to the unit of a single information database, output q the data forecasting unit is the input of the statistical database unit of the statistical data collection unit, according to the utility model, a monitoring unit is additionally introduced into it, the first input of which is connected to the node for calculating and comparing the parameters of the existing and actual values of the data input unit at the first moment in time, the second input of which connected to the data processing and evaluation unit, the first output of the monitoring unit is connected to the data prediction unit, and the second output of which is connected to the decision making unit, bl to processing and evaluating data, the input of which is connected to the unit for recording differences in values, and its output is connected to the monitoring unit, a statistical data collection unit, which is made up of parallel-connected operation database node, repair database node, maintenance database node, outputs which are the inputs of the node of the database of statistical data, the unit for collecting passport data, which is made of parallel connected node of the database of passport data and the node of the database of knowledge and rules, the outputs of the block of collecting statistical their data and passport data collection unit are connected to a single information block base dannyh.Predlagaemoe device allows to reduce the accident rate by increasing the reliability of the diagnostic control of the technical state devices, increase the life of equipment and reduce the cost of repairs and maintenance to 30%.

Description

The utility model relates to the field of electricity and can be used in rail transport, for example, for transformers.

A known system of accounting, control and forecasting when performing actions with resources, consisting of a data input device at the first moment of time with two inputs, consisting of a block of the planned resource value with one input and output, a block of the actual resource value with input and output, and the output of the block the planned resource value and the output of the actual resource value unit are connected to two inputs of the parameter calculation and comparison unit, and the output of the comparison unit is connected to the unit for fixing differences in the values of resources and resource storage window, its output is connected to one of the inputs of the unit for selecting and fixing the values of the resource, and the data input device at the second moment of time, consisting of a block of the planned value of the resource and a block of the actual value of the resource, the outputs are connected respectively to the inputs of the blocks of the planned value of the resource and the actual the resource value of the data input device at the first moment of time, and the output from the unit for calculating the planned value of the resource according to the given conditions of the device data input at the first time is not connected to the unit of the planned resource value of the data input device at the second moment of time, characterized in that an additional device for monitoring numerical-graphic forecast data, a device for predicting the state of the resource, which consists of blocks for predicting the measured resource and forecasting the planned resource, is additionally introduced into the system, the outputs of these blocks are connected to the device for monitoring the numerical-graphic forecast data, and the inputs of these blocks are connected to the output of the block of the planned value of the resource and the output of the block fa of the physical resource value of the data input device at the first moment of time, moreover, a resource rationing unit is additionally introduced into the data device at the first moment of time according to the measurement model of the object with the input and the first output connected to the block for selecting and fixing the value of the resource, and the second output of the block is connected to the second input of the resource status memory unit is discrete in time of the data input device at the second time instant, and the output of the resource status memory unit is connected to the memory unit of the actual value of the resource of the device a data input for the second time. (RF, Utility Model No. 61906 U1, IPC G06F 17/00, А61В 5/00 publ. March 10, 2007, author Gushchin Andrey Viktorovich, Romanchuk Petr Ivanovich “Accounting, control and forecast system when performing actions with resources”).

The disadvantage of this system is the lack of use of statistical data, decision-making is based only on the source data, the lack of feedback.

A device for monitoring, accounting, planning and forecasting when performing actions with resources, consisting of a unit for reading information from a control object, which is made up of sequentially connected reading unit for identification of objects, data collection and transmission unit, data analysis and integration unit, the last is connected with the first output with a node for fixing the actual value of resources at the second time moment of the data input unit at the second moment in time, the second output is connected to the node for selecting and fixing values of resources at the first time moment of the data input and calculation unit at the first time moment, data input unit at the second time moment, consisting of a unit for fixing the existing resource value at the second time moment, the input of which is connected with the output of the receiving and transmitting unit of the existing information of the input and calculation unit data at the first time moment, and its output is connected to the input of the fixation unit of the planned resource value at the first time moment of the same data input and calculation unit at the first time moment, and the fixation unit I is the actual value of resources at the second moment of time, the input of which is connected to the output of the node for analyzing and integrating information of the information reading unit from the control objects and the output of which is connected to the input of the node for fixing the actual value of resources at the first moment of time of the data input and calculation unit at the first moment of time, block input and calculation of data at the first moment of time, containing a node for fixing the planned value of resources at the first time, the input of which is connected with the output of the node for fixing essentially the actual value of resources at the second time moment of the data input unit at the second moment of time, the node for fixing the actual value of resources at the first time moment, the input of which is connected with the output of the node for fixing the actual value of resources at the second moment of time of the data input unit at the second moment of time, the output of the fixation unit the planned amount of resources at the first moment of time and the output of the unit for fixing the actual value of resources at the first moment of time are connected to the inputs of the node for calculating and comparing pairs three existing and actual values, the first output of which is connected to the input of the unit for recording differences in the values of resources of the same data input and calculation unit at the first moment of time, the second output is connected to the input of the control, accounting, planning, third output of the unit for calculating and comparing the parameters of existing and actual values associated with the input of the node storing information about the resources of the same input and calculation unit at the first time, the output of the latter is connected with the input of the node for selecting and fixing the values of resources at the first moment in time, the input of the latter is the output of the node for analyzing and integrating information of the unit for reading information from control objects, the output of the node for selecting and fixing the values of resources at the first moment of time is the input of the node for receiving and transmitting existing information of the data input and calculation unit at the first moment of time, the output node of the reception and transmission of existing information is the input node of the fixation of the existing value of resources at the second time moment of the data input unit at the second time moment, block control, accounting and planning, the output of which is the input of the node for calculating and comparing the parameters of the existing and actual values of the data input and calculation unit at the first moment of time, characterized in that it additionally includes a unit for collecting information about working personnel, which is made up of series-connected nodes collecting and transmitting data and a node for analyzing the integration of information, the output of the latter is connected to a node for receiving and transmitting existing information of the data input and calculation unit at the first time, to read information from material and technical resources, which is made from a series-connected node for reading identification of objects, a node for collecting and transmitting data and a node for analyzing information integration, the output of the latter is connected to a node for receiving and transmitting existing information of the data input and calculation unit at the first moment in time, a data forecasting unit, the input of which is connected to the output of the control, accounting and planning unit, is made from the unit of forecasting values, the output of the latter is inputs in parallel the connected rating compilation node and the reliability forecasting unit of the material and technical base, the output of the rating compilation node, the first output is connected to the information analysis and integration unit of the information reading unit from the material and technical resources and the second output is connected to the information analysis and integration unit of the information collection block of the personnel information , the output of the node for forecasting the reliability of the material and technical base is the input of the node for analysis and integration of information of the information reading unit with aterialno and technical resources and decision block having an input coupled to the output of the control unit, accounting and planning. (RF, invention No. 2625681 C2, IPC G06Q 10/04, G06Q 10/06, G06F 17/00 publ. 07/10/2016, author Kozmenkov Oleg Nikolaevich, Efremova Irina Anatolyevna “Device for monitoring, accounting, planning and forecasting when improving actions with resources. "

The disadvantage of this device is the inability to use additional data, in addition to read. Known analogues are difficult to use, in a known system it is difficult to trace in time the process of converting input parameters that are planned and actually obtained after any selected time interval.

This technical solution is selected as a prototype.

The technical result of the claimed utility model is to expand the functionality and increase the reliability of the device by carrying out comprehensive work on the diagnostic control of the main operating parameters of the device in real time, assessing the degree of development of defects and the level of danger of emergency situations, localization and identification of malfunctions of the device and its individual structural elements.

The technical result is achieved by the fact that in the control, accounting, planning, monitoring and forecasting device when improving actions with resources, consisting of a transformer (diagnostic object), the parallel outputs of which are connected to the continuous monitoring unit and the periodic monitoring unit of the diagnostic data collection unit, the outputs of the latter connected to the automatic data collection unit of the diagnostic data collection unit, the output of the latter is connected to the diagnostic database unit of the same unit, its output is inen with a unit of a single information database, the first output of which is connected to the unit for fixing the actual data at the second moment of time of the data input unit at the second moment of time, the second output is connected to the node for selecting and fixing data at the first moment of time of the data input unit at the first moment of time, the output of the latter is connected to the receiving and transmitting unit of existing data of the same block, its output is connected to the fixing unit of existing data at the second moment of time of the data input block at the second moment of time, output which is connected to the recording unit of existing data at the first time of the data input unit at the first moment of time, the output of the recording unit of actual data at the second moment of time of the data input unit at the second moment of time is connected to the recording unit of actual data at the first time of the data input unit at the first the moment of time, its output and the output of the unit for fixing existing data at the first moment of time of the same block are connected to the unit for calculating and comparing the parameters of existing actual values n the data input unit at the first moment in time, the first output of which is connected to the data storage unit of the same unit, the second output is connected to the data processing and evaluation unit, the third output is connected to the unit for recording differences in the values of the data input unit at the first time moment, its output and the output of the data processing and evaluation unit is connected to the monitoring unit, the first output of which is connected to the data forecasting unit, the second output is connected to the decision making unit, according to the utility model, an additional statistics collection unit is introduced data, which has been executed and connected in parallel to the node of the operation database, the node of the repair database and the node of the maintenance database, the outputs of which are connected to the node of the statistical database, the output of which is connected to the unit of the unified information database, the passport data collection unit, which is executed from the parallel connected node passport data and the node of knowledge and rules, the outputs of which are connected to the unit of a single information database, the output of the data forecasting unit is the input of the node of the base stat historical data of the statistical data collection unit.

When improving actions with resources, the unit for collecting statistical data, the node for the operation database, the node for the repairs database, the node for the maintenance database, the unit for collecting passport data, the node for the passport data base, and the node for the passport data base knowledge bases and rules will improve the stability of the device by integrating and collecting statistical and passport data for a single information database unit, a monitoring unit, a processing unit, and data evaluation, which allows you to expand the functionality, as well as increase the visibility and accuracy of the incoming information. The connection of the statistical data collection unit and the passport data collection unit with the unified information database unit allows for greater accuracy and adjustment of the incoming information from the diagnostic database node of the diagnostic data collection unit. The scheme is simplified by adding a unit of a single information database, which receives information from the statistical data collection unit, the diagnostic data collection unit and the passport data collection unit, which allows expanding the device’s functionality and ensuring its operation with a lot of interconnected information. An additional monitoring unit has also been introduced, which is connected by feedback to the statistical database node of the statistical data collection unit, there is a cyclical adjustment due to feedback, within which goals and objectives for further development are formed, shortcomings, major problems and directions are identified, for which additional control and assessment. This can be observed both in tabular form and in graphic form, which will give the greatest visibility and openness of this situation. The data processing and evaluation unit allows you to form an overall picture of the diagnostic object.

The introduction of additional blocks and nodes into the device expands the functionality.

The figure shows a device for monitoring, accounting, planning, monitoring and forecasting when improving actions with resources

The device consists of a transformer (diagnostic object) 1, a diagnostic data collection unit 2, consisting of a continuous monitoring unit 3, a periodic monitoring unit 4, an automatic data collection unit 5, a diagnostic database unit 6, a statistical data collection unit 7, consisting of a base unit operation data 8, the repair database node 9, the maintenance database node 10, the statistical database node 11, the passport data collection unit 12, which consists of the passport data base node 13, the knowledge and rights database node l 14, a unified information database unit 15, a data input unit at a second time moment 16, consisting of a data recording unit at a second time point 17, an existing data recording unit at a second time point 18, a data input unit at a first time point 19, consisting of a unit for fixing actual data at the first moment of time 20, a unit for fixing existing data at the first moment of time 21, a unit for fixing differences in values 22, a unit for calculating and comparing parameters of existing and actual values 23, a data storage unit 24, an existing data reception and transmission unit 25, a first-time data selection and fixing unit 26, a monitoring unit 27, a data processing and evaluation unit 28, a data prediction unit 29, a decision making unit 30, an output 31, and exit 32

The device operates as follows.

At time T1, using the continuous monitoring unit 3, which is presented in the form of a set of removal tools (for example, sensors) and the periodic monitoring unit 4, which is presented in the form of a complex of removal tools (for example, sensors), remove the necessary information from the diagnostic object 1, which is understood as a transformer, then the information enters the automatic data collection unit 5 which is presented in the form of a set of accounting tools (for example, software) and then the data is transmitted to the input of the node of the diagnostic data base 6, otorrhea represented as complex accounting means (e.g., ON). The output of the node 6 of the diagnostic database is connected to the unit of a single information database 15, which is designed to collect all incoming information.

The output of the unified information database block 15 is connected to the data selection and fixing unit at the first time moment 26, in which the data is selected and their values are fixed at the first time moment. The fixed information is fed to the input of the data receiving and transmitting unit 25, in which the existing data is determined at the first time moment and transmitted to the existing data fixing unit 18, where the data value is recorded at the second time moment of the block 16.

Information about the fixed amount of resources enters the node 21 fixing the existing data at the first time, and then to the input of the node 23 for calculating and comparing the parameters of existing and actual data. In node 23, the basic parameters of the transformer are calculated and critical data values are determined, then the result is sent to node 22 for recording data differences, where deviations of indicators are recorded using software (or other means). From node 22 for recording data differences, information is simultaneously sent to data storage unit 24, where the results for each work cycle and data processing unit 28 are recorded using software (or other means), where all current information can be visually seen in real time. From the data processing unit 28 and the unit for recording differences of values, information is transmitted to the monitoring unit 27, which is designed to determine the state of parameters in the device, control the processes until the existing parameters are fully consistent and actual by entering the values obtained in the previous cycle in the next cycle of work.

Then, from the output of the monitoring unit 27, the information enters the data forecasting unit 29, which is intended to identify prospects for the development of actions with indicators by comparing data in each work cycle. After analyzing all the information received, a reliability forecast for the transformer is made in the data prediction unit 29, and is fed back to the unit 11 of the statistical database of the unit, which is designed to collect all statistical information. Also, from the output of the monitoring unit 27, information is transmitted to the decision making unit 30, which is designed to process the received data and through communication 32 to implement further actions with the results (for example, a solution to a problem is proposed, recommendations are made, the manager, knowing this information, can make a decision and to plan their actions for the production of repair or installation works).

At time T2, information comes from a parallel-connected operation data node 8, which contains information on transformer operation, a repair data node 9, which contains information on transformer repairs, a maintenance database node 10, which contains information on transformer maintenance , where does the data transfer to the node of the statistical database 11 come from.

In the node of the database of passport data 13, which is information with the technical characteristics of transformers and the node of knowledge and rules 14, which is regulatory information (GOSTs, standards), information for the diagnostic object is automatically selected, the outputs of these nodes are connected to the unit of a single information database 15. From the output of block 15 of the unified information database, the information enters the node 17 of fixing the actual data at the second point in time in which the fixing of the actual data takes place, and then is transmitted to the fixing unit 20 is the actual data for the first time. Further, information about the received data is sent to the node 22 for recording differences of values, after which the node 23 for calculating and comparing the parameters of existing and actual data is transmitted. In node 23, the basic data of the transformers simulated earlier is calculated, and the result is compared with previously received data. If the existing data does not coincide with the actual, then there is a correction of the monitoring unit 27 and, accordingly, the decision unit 30 and the data prediction unit 29. After that, the actual data is received by the data at the first time. If the existing value of the resource coincides with the actual, then in block 27 monitoring does not occur any changes.

The input of the proposed device is the input 8, 9, 10, 13, 14, the output is the output 31 and 32.

The proposed device can reduce the accident rate by increasing the reliability of the diagnostic control of the technical condition of the devices, increase the service life of the equipment and reduce the cost of its repair and maintenance by 30%.

Claims (1)

A device for monitoring, accounting, planning, monitoring and forecasting when improving actions with resources, consisting of a diagnostic object, the parallel outputs of which are connected to the continuous monitoring unit and the periodic monitoring unit of the diagnostic data collection unit, the outputs of the latter are connected to the automatic data collection unit of the diagnostic data collection unit , the output of the latter is connected to the node of the diagnostic database of the same block, its output is connected to the block of a single information database, the first output which is connected to the node for fixing the actual data at the second moment of time of the data input unit at the second moment of time, the second output is connected to the node for selecting and fixing data at the first moment of time of the data input unit at the first moment of time, the output of the latter is connected to the node for receiving and transmitting existing data of the same block, its output is connected to the fixing unit of existing data at the second moment of time of the data input unit at the second moment of time, the output of which is connected to the fixing unit of existing data on the first time point of the data input unit at the first time moment, the output of the actual data recording unit at the second time moment of the data input unit at the second time moment is connected to the actual data fixing unit at the first time of the data input unit at the first time moment, its output and output of the node fixing the existing data at the first moment of time of the same block are connected to the node for calculating and comparing the parameters of the existing actual values of the data input block at the first moment of time, the first output to which is connected to the data storage unit of the same unit, the second output is connected to the data processing and evaluation unit, the third output is connected to the data recording unit of the differences in the data input unit at the first moment of time, its output and the output of the data processing and evaluation unit are connected to the monitoring unit, the first output of which is connected to the data forecasting unit, the second output is connected to the decision making unit, according to the utility model, a statistical data collection unit is additionally introduced, which is made up of parallel connected nodes and the operation database, the repair database node and the maintenance database node, the outputs of which are connected to the statistical database node, the output of which is connected to the unit of the unified information database, the passport data collection unit, which is made from the parallel connected passport data node and knowledge node and rules, the outputs of which are connected to the unit of a single information database, the output of the data forecasting unit is the input of the statistical database node of the statistical data collection unit, characterized in that in in addition, a monitoring unit has been introduced, the first input of which is connected to the unit for calculating and comparing the parameters of existing and actual values of the data input unit at the first time, the second input of which is connected to the data processing and evaluation unit, the first output of the monitoring unit is connected to the data prediction unit, and the second the output of which is connected to the decision-making unit, the data processing and evaluation unit, the input of which is connected to the unit for recording differences of values, and its output is connected to the monitoring unit, the unit for collecting statistical data, which is made of parallel connected operation database node, repair database node, maintenance database node, the outputs of which are inputs of the statistical database node, passport data collection unit, which is made of parallel connected passport data base node and database node knowledge and rules, the outputs of the statistical data collection unit and the passport data collection unit are connected to the unit of a single information database.

Images