CN115118579A - Equipment data processing method of electric power marketing system - Google Patents

Abstract

The invention provides a data processing method of power marketing system equipment, belonging to the technical field of data scheduling and comprising the following steps: the scheduling module receives the data and directs the data to the corresponding processing chain for completing the processing of the data by the plurality of processing chains. And the scheduling module determines which processing chains are in an idle state, receives the data with the corresponding specification, guides the data to the processing chains in the idle state, and finally transmits the data after the data processing is finished. The scheduling module determines which processing chains are in a fault state, the scheduling module delivers the data to be processed to other systems for processing, and the scheduling module receives the data processed by other systems and guides the data to the next processing chain. The data processing method of the power marketing system equipment provided by the invention avoids the untimely data processing caused by faults and other reasons, simultaneously avoids the waste of resources to the maximum extent, improves the utilization rate of the resources and ensures the normal operation of the power marketing system.

Description

Equipment data processing method of electric power marketing system

Technical Field

The invention belongs to the technical field of data scheduling, and particularly relates to a data processing method of power marketing system equipment.

Background

The electricity consumption of the user relates to more than ten electric equipment, and the electricity marketing system needs to record detailed information of the equipment and the relation between the equipment. Many informatization systems are built for provincial dispatching and local dispatching of each power grid company according to the needs of the company to provide support for power grid operation management, but application functions are dispersed and are independently deployed and maintained, and information interaction is mainly carried out between each business system and between provincial dispatching and local dispatching through telephone, electronic document and other modes.

With the continuous expansion of the scale of the power grid, the informatization construction of each power grid company is in a high-speed development process, and massive power grid operation and scheduling management data are formed, which puts higher requirements on the scheduling management of the power grid operation.

The existing power system data method cannot fully utilize resources, cannot fully exert the processing capacity after expensive data processing equipment is purchased, and has low resource utilization rate. And when some components are in failure, a long time is needed to wait for completing repair, so that data processing is untimely.

Disclosure of Invention

The invention aims to provide a data processing method of power marketing system equipment, and aims to solve the problems that the resource utilization rate is low, and when some components are in failure, the data processing is untimely due to the fact that long time is needed to wait for completing repair.

In order to achieve the purpose, the invention adopts the technical scheme that: the method for processing the equipment data of the power marketing system comprises the following steps:

dividing the equipment into a plurality of units, wherein each unit comprises a plurality of processing chains;

the scheduling module receives data and guides the data to the corresponding processing chains, and the scheduling module is used for finishing the processing of the data by the processing chains;

determining, by the scheduling module, which processing chains are in an idle state, the scheduling module receiving data of a corresponding specification and directing the data to the processing chains in the idle state, and finally transmitting the data after the data processing is completed;

and the scheduling module determines which processing chains are in a fault state, the scheduling module hands the data to be processed to other systems for processing, and the scheduling module receives the data processed by other systems and guides the data to the next processing chain.

In one possible implementation, the scheduling module receiving data and directing the data to the corresponding processing chain includes:

a plurality of data access ports are arranged between the unit and the scheduling module;

the unit receives data to be processed through the data access port; the different data access ports correspond to different processing chains.

In one possible implementation, the processing chain in which the scheduling module receives data of a corresponding specification and directs the data to an idle state includes:

the scheduling module judges the processing chain in an idle state through the data access port;

and the scheduling module receives data corresponding to the processing chain in the idle state through a communication module and uploads the processed data by means of the communication module.

In a possible implementation manner, before the scheduling module receives data and directs the data to the corresponding processing chain, the method further includes:

and calibrating different codes of the processing chains, and binding data with the codes of the processing chains needing to be processed before data guiding.

In one possible implementation, the code numbers of the plurality of processing chains that need to be processed for binding data before data guiding include:

sequencing the code numbers according to the sequence of data processing;

and the scheduling module guides data to the corresponding processing chains in sequence according to the plurality of sequenced codes.

In a possible implementation manner, the dividing the device into a plurality of units, where each unit includes a plurality of processing chains includes:

combining a plurality of element devices into one unit, and carrying out data transmission between different units through the scheduling module; and the components form the corresponding processing chain.

In one possible implementation, the including a plurality of processing chains in each unit includes:

and calibrating corresponding identification codes for the components, wherein the identification codes form the corresponding processing chain.

In one possible implementation, the determining, by the scheduling module, which of the processing chains are in the failure state includes:

setting a standard library in the scheduling module

A data outlet is arranged between the unit and the scheduling module, and the scheduling module compares the data of the data outlet and the data of the data access port according to the standard library;

when the data transmitted by the data outlet exceeds the standard specified by the standard library, the corresponding processing chain is determined to be in a fault state.

In a possible implementation manner, after the determining, by the scheduling module, which processing chains are in the failure state further includes:

sending test data to each of the processing chains within the unit by the scheduling module; and judging the identification code which breaks down and the corresponding component according to the standard library.

In a possible implementation manner, the determining, according to the standard library, the identifier code that has a fault and the corresponding component include:

when the processing chain is judged to be in a fault state, all the identification codes and the corresponding components contained in the processing chain are set to be in a to-be-determined fault state;

when the processing chain is judged to be normal through the test data, all the identification codes and the corresponding components contained in the processing chain are normal;

if the component is in different processing chains, when one of the processing chains is normal, the component is normal.

The method for processing the equipment data of the power marketing system has the advantages that: compared with the prior art, the data processing method of the power marketing system equipment divides the equipment into a plurality of units, each unit comprises a plurality of processing chains, the scheduling module is used for receiving the data and guiding the data to the corresponding processing chains, and the plurality of processing chains finish the processing of the data by means of the scheduling module.

When the processing chain is in a space state, the scheduling module receives data of a corresponding specification, completes processing of the data by the idle processing chain, and transmits the data after the processing is completed. When the processing chain is in a fault state, the scheduling module delivers the data which is not processed by the processing chain in the fault state to other systems for processing, and after the other systems finish the processing of the data, the scheduling module guides the data to the processing chain in the next normal state.

In the application, the scheduling module is used for scheduling each processing chain, so that untimely data processing caused by reasons such as faults is avoided, waste of resources is avoided to the maximum extent, the resource utilization rate is improved, and normal operation of the power marketing system is guaranteed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flowchart of a data processing method of a power marketing system device according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a method for processing data of the power marketing system device according to the present invention will now be described. The data processing method of the power marketing system equipment comprises the following steps:

the device is divided into a plurality of units, and each unit contains a plurality of processing chains.

The scheduling module receives the data and directs the data to the corresponding processing chain for completing the processing of the data by the plurality of processing chains.

And the scheduling module determines which processing chains are in an idle state, receives the data with the corresponding specification, guides the data to the processing chains in the idle state, and finally transmits the data after the data processing is finished.

The scheduling module determines which processing chains are in a fault state, the scheduling module delivers the data to be processed to other systems for processing, and the scheduling module receives the data processed by other systems and guides the data to the next processing chain.

The method for processing the equipment data of the power marketing system has the advantages that: compared with the prior art, the data processing method of the power marketing system equipment divides the equipment into a plurality of units, each unit comprises a plurality of processing chains, the scheduling module is used for receiving the data and guiding the data to the corresponding processing chains, and the plurality of processing chains finish the processing of the data by means of the scheduling module.

When the processing chain is in a space state, the scheduling module receives data of a corresponding specification, completes processing of the data by the idle processing chain, and transmits the data after the processing is completed. When the processing chain is in a fault state, the scheduling module delivers the data which is not processed by the processing chain in the fault state to other systems for processing, and after the other systems finish the processing of the data, the scheduling module guides the data to the processing chain in the next normal state.

In the application, the scheduling module is used for scheduling each processing chain, so that untimely data processing caused by reasons such as faults is avoided, waste of resources is avoided to the maximum extent, the resource utilization rate is improved, and normal operation of the power marketing system is guaranteed.

In some embodiments of the power marketing system equipment data processing method provided by the present application, the receiving and directing of the data by the scheduling module to the respective processing chain comprises:

a plurality of data access ports are arranged between the unit and the scheduling module.

The unit receives data to be processed through the data access port; different data access ports correspond to different processing chains.

In the equipment in the electric power marketing system, data is processed in a linear mode, namely the data needs to flow through a plurality of units and is finally output by a scheduling module after the last unit completes data processing. The data processing flow is convenient to design but has a corresponding problem that, when one of the units fails, the subsequent units cannot operate normally or cannot receive correct data, and thus, correct data processing results cannot be generated.

In this application, be provided with the selection of a plurality of processing chains in the scheduling module, be provided with the access mouth and the data export of a plurality of data between unit and the scheduling module promptly. Different data flow directions are respectively corresponding to different inlets and different data outlets.

Compared with the traditional linear data flow, a plurality of processing chains can be arranged in a single device, and under the condition of reasonable arrangement, the two processing chains are independent from each other and can be performed simultaneously.

In some embodiments of the power marketing system equipment data processing method provided by the present application, the process chain for the scheduling module to receive data of the corresponding specification and direct the data to the idle state includes:

and the scheduling module judges the processing chain in an idle state through the data access port.

The scheduling module receives data corresponding to the processing chain in the idle state through the communication module and uploads the processed data by means of the communication module.

With the increasing of network speed, the interconnection of everything becomes a very important development direction, each area is provided with a corresponding power system, and because the devices used by the power systems are approximately the same, data assistance operation can be performed between different areas, so that the resource consumption and the purchase cost of the devices are greatly reduced.

In the present application, the scheduling module determines the processing chains used by different data, and the scheduling module can learn which processing chains are currently in use and which processing chains are in idle states. When some processing chains are in an idle state, other data capable of being processed can be transmitted to the scheduling module, the data operation is completed by means of the connection relation among the scheduling module units, and the processed data are transmitted back to the data provider after the operation is completed.

Through the design, the electric power marketing system in partial areas can ensure effective operation of data without spending a large amount of equipment acquisition cost, so that resources required by electric power operation are reduced.

In some embodiments of the power marketing system equipment data processing method provided by the present application, before the scheduling module receives the data and directs the data to the corresponding processing chain, the method further includes:

and marking different codes for a plurality of processing chains, and binding the data with the codes of the plurality of processing chains needing processing before data guiding.

Generally, the number of the scheduling modules is small, most scheduling modules are one, an auxiliary scheduling module is arranged on one side of the main scheduling module in a part of scenes, and the auxiliary scheduling module is used for completing part of work of the main scheduling module. A plurality of units are arranged around the scheduling module, different processing chains are arranged in each unit, and each processing chain can complete the processing of corresponding data.

The scheduling module in the present application mainly functions to guide data input to the scheduling module into a reasonable processing chain, and usually, a group of data needs to call different processing chains of different units to complete final operation.

In some embodiments of the power marketing system equipment data processing method provided by the present application, the code number of the plurality of processing chains to be processed by binding the data before data guiding comprises:

and sequencing the plurality of codes according to the sequence of data processing.

And the scheduling module guides the data to the corresponding processing chains in sequence according to the sequenced code numbers.

The specific implementation manner is that, in order to facilitate the scheduling module to rapidly guide the data into the corresponding processing chain, before the data does not enter the scheduling module, the code numbers of the multiple processing chains are marked at the front end of the data, and the code numbers corresponding to the multiple required processing chains are sequenced according to the sequence. And the scheduling module transmits data among different processing chains according to the sequence of the codes.

After the data is guided to complete the processing of one processing chain, the scheduling module can remove the corresponding code number at the front end of the corresponding processing chain, and then the data is guided according to the next code number.

When all the codes are eliminated, the scheduling module can output the processed data.

In some embodiments of the method for processing data of equipment in a power marketing system provided by the present application, dividing the equipment into a plurality of units, each unit containing a plurality of processing chains therein includes:

combining a plurality of element devices into one unit, and carrying out data transmission between different units through a scheduling module; a plurality of components make up a corresponding processing chain.

Generally, there are many components in the power equipment, and there are very many and complicated data transmission relations between components, and after a component breaks down, the states of corresponding other components also change. Most of the traditional equipment detection methods are used for deducing faults occurring in equipment according to experience, but the method cannot rapidly and accurately judge the components which actually fail.

In the prior art, which component of the equipment has a fault is judged by an analysis method such as neural operation, probability inference and the like, but the method has certain probability, and sometimes the fault occurrence point can be determined by the experience of maintenance personnel.

It should be noted that some components do not participate in the operation but have little influence on the result, but some components have a larger influence on the final result if a fault occurs, and the application aims to find out the deficiency of the operation of the key components.

In the application, the device is firstly divided into a plurality of units, a plurality of components of the device are combined and set as one unit by taking functions as standards under a common condition, and at the moment, the unit usually comprises a plurality of components.

In some embodiments of the method for processing data of equipment in a power marketing system provided by the present application, the inclusion of multiple processing chains in each unit comprises:

marking corresponding identification codes for the multiple components, and forming a corresponding processing chain by the multiple identification codes.

When the equipment is divided into a plurality of units by taking the function as a standard, the corresponding unit codes are marked on the plurality of units, one unit receives the data of the previous unit, then the data is conveyed to the next unit after operation, and the unit code of the unit is attached to the data during conveying to indicate that the data is operated by the corresponding unit. Each component also has its own identification code, and after one component is operated by corresponding data, its own identification code is attached to the corresponding data, and the unit code at this time is composed of multiple identification codes.

If one unit does not complete the data operation, the corresponding unit code is not attached, and if one component does not complete the data processing, the corresponding identification code does not exist in the unit code, so that the faulty component can be identified more quickly by checking.

The components and parts contained in each processing chain are fixed, when one processing chain is normal, all corresponding components and parts are normal, the corresponding identification codes can be removed, after all processing chains are detected, the remaining identification codes are the components and parts which are possibly broken down, and the components and parts are mainly checked.

In some embodiments of the power marketing system equipment data processing method provided herein, determining, by the scheduling module, which processing chains are in the fault state comprises:

and setting a standard library in the scheduling module.

A data outlet is arranged between the unit and the scheduling module, and the scheduling module compares the data of the data outlet with the data of the data access port according to the standard library.

When the data transmitted by the data outlet exceeds the standard specified by the standard library, the corresponding processing chain is judged to be in a fault state.

The scheduling module is internally provided with a standard library, after the scheduling module guides data to a processing chain in a unit, the unit can perform corresponding operation on the data, and after the operation is completed, the data after the operation is completed can be returned to the scheduling module. And the dispatching module performs preliminary comparison on the data processed by the unit according to the standard library, and if a component with a fault is arranged in the unit, the type and specification of the output data are inevitably changed greatly or even the output of the data cannot be completed.

At this time, a maintenance worker needs to process the faulty component, but a certain time is required in the process, and at this time, the scheduling module can upload data before the faulty unit is input, that is, data which is not processed by the faulty unit to the network, and transmit the data to other devices through the network for processing. After the other devices complete the processing, the other devices transmit the processed data back to the scheduling module through the network, so that the data can be processed effectively.

More importantly, the method avoids the problem that data cannot be processed in time due to long waiting time.

In some embodiments of the method for processing data of equipment in a power marketing system, determining, by a scheduling module, which processing chains are in a fault state further comprises:

sending test data to each processing chain in the unit by a scheduling module; and judging the identification code with the fault and the corresponding component according to the standard library.

When data cannot be processed normally, then the corresponding unit is a faulty cell. At the moment, the dispatching module sends test data to the fault unit, and if no fault component exists in one processing chain, the processed result of the test data inevitably meets the requirement. If a faulty component is in a processing chain, no processed data is transmitted or the result of the processed data does not meet the requirement, and at the moment, each component in the processing chain can be calibrated to be in a state to be maintained.

In this application, at first divide equipment into a plurality of units to every unit all corresponds there is the unit code, contains a plurality of components and parts in the unit, and every component and part all corresponds there is the identification code. The components which possibly have faults in the equipment are calibrated by setting the unit codes and the hundred identification codes, so that data processing and fault troubleshooting are facilitated.

By the method, the maintenance range is greatly shortened, and the maintenance efficiency is improved to a certain extent.

In some embodiments of the power marketing system device data processing method provided by the present application, determining the identification code and the corresponding component that have failed according to the standard library includes:

when the current processing chain is judged to be in the fault state, all the identification codes and the corresponding components are set to be in the to-be-determined fault state.

And when the current processing chain is judged to be normal through the test data, all the identification codes and the corresponding components contained in the current processing chain are normal.

If the component is in different processing chains, when one of the processing chains is normal, the component is normal.

When the number of components in one unit is large, the number of corresponding processing chains is large, and if screening is not performed, the maintenance efficiency is low inevitably, but it needs to be pointed out that one component may belong to a plurality of processing chains, and the component detection range can be greatly reduced through judgment of different processing chains.

In a specific embodiment, when a processing chain is in a normal state, all components in the processing chain may be considered to be in a normal state, and when a processing chain is in an abnormal state, components in the processing chain may be partially normal and partially abnormal. Because the relevance is more between the components, through detecting other processing chains this moment, when other processing chains are normal to partial components in the fault processing chain has been used, this partial components can be deemed normal so. That is to say, when a component belongs to two processing chains, one processing chain is abnormal, and the other processing chain is normal, this component can be determined to be normal at this moment, and what made the processing chain abnormal is other components, and this has just undoubtedly shortened the detection range to each component in the fault handling chain. And repeating the steps until all the processing chains are tested, and obtaining the final fault component and the component which cannot be detected. The processing chain is composed of unit codes and a plurality of identification codes, so that the identification codes which are possibly failed can be determined by testing the processing chains, and corresponding components can be locked through the identification codes.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The equipment data processing method of the power marketing system is characterized by comprising the following steps:

dividing the equipment into a plurality of units, wherein each unit comprises a plurality of processing chains;

the scheduling module receives data and guides the data to the corresponding processing chains, and the scheduling module is used for finishing the processing of the data by the processing chains;

determining, by the scheduling module, which processing chains are in an idle state, the scheduling module receiving data of a corresponding specification and directing the data to the processing chains in the idle state, and finally transmitting the data after the data processing is completed;

and the scheduling module determines which processing chains are in a fault state, the scheduling module hands the data to be processed to other systems for processing, and the scheduling module receives the data processed by other systems and guides the data to the next processing chain.

2. The power marketing system equipment data processing method of claim 1, wherein the scheduling module receiving data and directing data to the respective processing chain comprises:

a plurality of data access ports are arranged between the unit and the scheduling module;

the unit receives data to be processed through the data access port; and different data access ports correspond to different processing chains.

3. The power marketing system equipment data processing method of claim 2, wherein the scheduling module receiving data of the respective specification and directing the data to the processing chain of an idle state comprises:

the scheduling module judges the processing chain in an idle state through the data access port;

and the scheduling module receives data corresponding to the processing chain in the idle state through a communication module and uploads the processed data by means of the communication module.

4. The power marketing system equipment data processing method of claim 1, further comprising, before the scheduling module receives and directs data to the respective processing chain:

and marking different codes for the processing chains, and binding the data with the codes of the processing chains needing to be processed before data guiding.

5. The electricity marketing system equipment data processing method of claim 4, wherein said binding data to the code numbers of a plurality of the processing chains requiring processing before data guidance comprises:

sequencing the code numbers according to the sequence of data processing;

and the scheduling module guides data to the corresponding processing chains in sequence according to the plurality of sequenced codes.

6. The power marketing system equipment data processing method of claim 2, wherein the dividing of the equipment into a plurality of units, each unit containing a plurality of processing chains comprises:

combining a plurality of element devices into one unit, and carrying out data transmission between different units through the scheduling module; and the components form the corresponding processing chain.

7. The method of power marketing system equipment data processing of claim 6, wherein said containing within each cell a plurality of processing chains comprises:

and calibrating corresponding identification codes for the components, wherein the identification codes form the corresponding processing chain.

8. The power marketing system equipment data processing method of claim 7, wherein said determining, by said scheduling module, which of said processing chains are in a fault state comprises:

setting a standard library in the scheduling module

A data outlet is arranged between the unit and the scheduling module, and the scheduling module compares the data of the data outlet and the data of the data access port according to the standard library;

when the data transmitted by the data outlet exceeds the standard specified by the standard library, the corresponding processing chain is determined to be in a fault state.

9. The power marketing system equipment data processing method of claim 8, wherein said determining by said scheduling module which of said processing chains are in a fault state further comprises:

sending test data by the scheduling module to each of the processing chains within the unit; and judging the identification code with the fault and the corresponding component according to the standard library.

10. The data processing method for the power marketing system equipment of claim 9, wherein the determining the identification code and the corresponding component that have failed according to the standard library comprises:

when the processing chain is judged to be in a fault state, all the identification codes and the corresponding components contained in the processing chain are set to be in a to-be-determined fault state;

when the processing chain is judged to be normal through the test data, all the identification codes and the corresponding components contained in the processing chain are normal;

if the component is in different processing chains, when one of the processing chains is normal, the component is normal.

Images