CN109686070B - Terminal automatic debugging method of electricity consumption information acquisition system, medium and equipment thereof - Google Patents

Abstract

The invention discloses a terminal automatic debugging method for a power utilization information acquisition system, which comprises the following steps: 1. debugging the terminal which is not on line; 2. verifying whether the acquisition terminal is stably online or not by actively acquiring a terminal clock; 3. automatically generating associated terminal parameters according to the terminal type and the combination parameter scheme, and automatically issuing the associated terminal parameters to the terminal; 4. automatically generating meter reading parameters of the terminal electric energy meter/alternating current sampling device and automatically issuing the parameters to the terminal; 5. the acquisition master station automatically acquires current data on the terminal. The invention combines the actual flow condition of the current manual terminal debugging of the acquisition system, realizes the automatic terminal debugging by adopting an automatic means, monitors the result of the automatic debugging in real time, provides the flow for starting the manual debugging, is simple to realize and has low economic cost, and related functions are correspondingly modified on the basis of the original 'new terminal management function'.

Description

Terminal automatic debugging method of electricity consumption information acquisition system, medium and equipment thereof

Technical Field

The invention belongs to the technical field of power consumption information acquisition of power consumers, and particularly relates to a terminal automatic debugging method of a power consumption information acquisition system, a computer medium and terminal equipment thereof, which can be applied to business links such as online debugging and meter reading of an acquisition terminal.

Background

According to the service adjustment requirement of the power consumption information acquisition terminal debugging, the power consumption information acquisition system (hereinafter referred to as an "acquisition system") of a power consumer gradually cancels the service processes of terminal debugging and the like by manual work, and all the debugging processes are automatically debugged by the acquisition system master station according to the established service rules, so that the workload of system operation and maintenance personnel is reduced, and the timeliness of equipment debugging is improved.

Disclosure of Invention

In order to overcome the defect of manual terminal debugging in the prior art, the invention provides the automatic terminal debugging method for the electricity consumption information acquisition system, which is used for realizing the automatic terminal debugging by adopting an automatic means by combining the actual process condition of the current manual terminal debugging of the acquisition system. The technical scheme adopted by the invention is as follows:

the terminal automatic debugging method of the electricity consumption information acquisition system comprises the following steps:

step 1, terminal online debugging, wherein an acquisition system automatically searches a terminal list meeting automatic debugging conditions, and executes a terminal online debugging process only for terminals which are not online;

2, verifying the terminal on line, namely verifying whether the terminal is stably on line or not and eliminating false on line by actively acquiring a terminal clock at the main station side of the acquisition system aiming at the terminal which successfully completes the on-line debugging process in the step 1;

step 3, sending terminal parameters, aiming at the terminal which successfully completes the online verification process in the step 2, automatically generating relevant terminal parameters by the main station side of the acquisition system according to the terminal type and by combining a set terminal parameter scheme, and then automatically sending the relevant terminal parameters to the terminal;

step 4, issuing the meter reading parameters, namely aiming at the terminal which successfully completes the process of issuing the terminal parameters in the step 3, automatically generating parameter items related to the meter reading parameters of the terminal electric energy meter/alternating current sampling device by the master station side of the acquisition system according to a set service rule, automatically updating the parameter items to the master station side of the acquisition system, then automatically issuing the meter reading parameters of the terminal electric energy meter/alternating current sampling device to the terminal, and recording an issuing result;

step 5, meter reading condition verification, namely acquiring current data on the terminal automatically acquired by the main station side of the system at reasonable time intervals aiming at the terminal which successfully completes the meter reading parameter issuing process in the step 4, and if the data is valid, determining that the meter reading condition verification is successful; and if the data is invalid or no data exists, the meter reading condition is determined to fail to be verified.

Compared with the prior art, the invention has the beneficial effects that:

1) the invention combines the actual flow condition of the current manual terminal debugging of the acquisition system, adopts an automatic means to realize the automatic terminal debugging, and solves the defect of manual terminal debugging.

2) The invention can monitor the result of automatic debugging in real time in the automatic debugging process.

3) Aiming at the unexpected situation of automatic debugging failure, the invention provides a process for starting manual debugging.

4) The invention has simple realization and low economic cost, and the related functions are correspondingly improved on the basis of the original 'new terminal management function'.

Drawings

FIG. 1 is a general logic flow diagram of an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and it is to be understood that the invention is susceptible to various modifications and changes by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

FIG. 1 is a block diagram of the overall logic flow of an embodiment of the present invention. The terminal automatic debugging method of the electricity consumption information acquisition system comprises the following steps:

step 1, terminal online debugging.

The acquisition system automatically searches a terminal list (only debugs the non-online terminal) meeting the automatic debugging conditions, and judges whether the terminal needs to execute the online debugging process of the terminal according to the channel information or the online information of the terminal. The specific execution steps are as follows:

s1.1, the automatic debugging service module regularly scans a terminal debugging task table to obtain a task to be debugged;

s1.2, detecting whether the terminal is on line or not by associating the operation terminal table and the real-time on-line state data table of the terminal, if not, setting an automatic debugging mark of the terminal to be in a debugging state, executing an on-line debugging process of the terminal, turning to the next step, and if the terminal is on line and exits the debugging process.

The on-line debugging process of the terminal comprises the following steps: the acquisition system automatically generates a channel group, a server group and other related parameters to which the terminal belongs according to the information reported by the terminal to be debugged, updates the channel parameters, the server group number and other related parameters of the main station side of the acquisition system, and ensures the stable online of the terminal. The process is suitable for two types of service processes of terminal new installation and terminal replacement.

Further, the established service rule of the terminal online debugging process is as follows:

A. the number of times of automatic debugging of the terminal to be debugged is set to 3, for example: if a certain link from the step S1.1 to the step S1.3 fails, debugging of the link is carried out for 3 times again, if the link still fails, the link is set to fail, and manual debugging is changed into manual debugging through manual cancellation of automatic debugging.

B. And (3) canceling automatic debugging: the automatic debugging service module has the function of manually cancelling automatic debugging, namely, manual suspension of automatic debugging is allowed in the debugging process, the result of the step of completing debugging is updated into the database, and the subsequent steps are not executed.

C. The scanning time interval of the automatic debugging service module regularly scanning the terminal debugging task list is set to be 5-10 minutes.

D. The task to be debugged is finite: the day, namely the creation time of the task to be debugged > is the day zero.

E. The conditions for online debugging are as follows: the channels in the running terminal table are not configured.

F. Terminal types suitable for automatic debugging: and eliminating all the terminals of the electricity utilization information acquisition system of the low-voltage acquisition terminal and the acquisition module.

G. The debugging conditions of the wired network communication mode terminal are as follows: only the master station of the acquisition system is debugged to be the terminal of the server.

And 2, carrying out online verification on the terminal.

Aiming at the terminal which successfully finishes the on-line debugging process of the terminal in the step 1, the main station side of the acquisition system verifies whether the terminal is stably on-line or not and eliminates false on-line by actively acquiring a terminal clock and the like. The method comprises the following specific steps:

s2.1, the automatic debugging service module automatically monitors login port number information reported by the field terminal and automatically matches the terminal address + region code in the port number information with the terminal parameter to be debugged;

s2.2, the automatic debugging service module automatically acquires a clock of the terminal to be debugged;

s2.3, judging whether the terminal is stably online, if the terminal can correctly return a clock, proving that the terminal is stably online, and turning to the next step; if the terminal does not return the clock, the terminal is proved to be in false online or abnormal, and the step S2.1 is carried out.

The process link is suitable for two types of business processes of terminal new installation and terminal replacement.

Further, the terminal online verification time rule is set to 3 times, and a certain time interval (10 seconds or 20 seconds) needs to be considered between 3 times of acquisition. That is, the automatic debugging service module collects the terminal clock information three times at most, if all the terminal clock information fails, the automatic debugging is determined to be failed, and manual debugging is converted into manual debugging through manual cancellation.

And step 3, sending down the terminal parameters.

And (3) aiming at the terminal which successfully completes the online verification process of the terminal in the step (2), according to the set requirement, the acquisition master station automatically generates related terminal parameters according to the data such as the terminal type and the like by combining the set terminal parameter scheme, and automatically issues the related terminal parameters (the configuration parameters of the non-meter-reading parameter terminal electric energy meter/the alternating current sampling device) to the terminal. According to the current service requirement, the terminal parameters needing to be automatically issued comprise power-off parameters and terminal event schemes related to events. The method comprises the following specific steps:

s3.1, automatically matching a terminal event scheme and a power-on stopping parameter scheme by the automatic debugging service module according to attributes such as terminal types, terminal protocols and the like;

s3.2, after the matching is successful, the automatic debugging service module issues the relevant terminal parameters to the terminal;

and S3.3, recording whether the issuing result is successful or failed, if the issuing result is successful, turning to the next step, if the issuing result is failed, automatically recording a mark of the terminal parameter issuing failure by the automatic debugging service module, turning to manual debugging by manually cancelling the automatic debugging so as to facilitate the subsequent manual matching of the relevant terminal parameters, and turning to the next step.

Further, the matching rule for automatically matching the terminal event scheme is as follows: and matching the terminal type and the terminal specification.

The process link is suitable for two types of business processes of terminal new installation and terminal replacement.

And 4, issuing meter reading parameters.

And (3) aiming at the terminal which successfully completes the terminal parameter issuing process in the step (3), the acquisition master station automatically generates parameter items related to the meter reading parameters of the terminal electric energy meter/alternating current sampling device according to the set service rules, automatically updates the parameter items to the acquisition system master station side, then automatically issues the meter reading parameters of the terminal electric energy meter/alternating current sampling device, and records the issuing result. The method comprises the following specific steps:

s4.1, automatically generating related parameters (port number, communication speed, communication address and the like) by the automatic debugging service module according to a generation rule of the meter reading parameters of the terminal electric energy meter/alternating current sampling device;

s4.2, after the parameters are generated, the automatic debugging service module issues the relevant meter reading parameters to the terminal;

and S4.3, recording whether the issuing result is successful or failed, if the issuing result is successful, switching to the next step, if the issuing result is failed (namely, the issuing result does not conform to the rules, the meter reading parameters of the terminal electric energy meter/alternating current sampling device cannot be generated), automatically recording the sign of the issuing failure of the meter reading parameters by the automatic debugging service module, and switching to manual debugging by manually cancelling the automatic debugging so as to facilitate the subsequent manual issuing of the relevant meter reading parameters.

Further, the generation rule of the relevant meter reading parameters is as follows:

communication rate: the low-voltage user electric meter of the concentrator is 9600, and the other low-voltage user electric meters are 2400;

port number: the low-voltage user electric meter of the concentrator is set to be 31, and the other low-voltage user electric meters are set to be 2;

communication address: if the field content length is greater than 12 bits, then 12 bits are taken.

The process link is suitable for three types of business processes of terminal new installation, terminal replacement and terminal debugging.

And 5, verifying the meter reading condition.

Aiming at the terminal which successfully completes the meter reading parameter issuing process in the step 4, the current data on the terminal is automatically acquired by the acquisition master station at a reasonable time interval (for the concentrator, the carrier networking time needs to be considered), and if the data is valid, the meter reading condition is determined to be successfully verified; and if the data is invalid or no data exists, the meter reading condition is determined to fail to be verified. The method comprises the following specific steps:

s5.1, automatically acquiring a current day frozen electric energy indicating value of an electric meter on a terminal by an automatic debugging service module;

and S5.2, judging whether the automatically acquired data of the ammeter is valid, if so, marking the meter reading condition verification as successful verification and ending the terminal automatic debugging process, and if not, marking the meter reading condition verification as failed verification, and turning to manual debugging by manually canceling automatic debugging so as to be convenient for subsequent manual issuing of relevant parameters.

Furthermore, the number of times of meter reading condition verification is set to be 3, namely the automatic debugging service module collects electric energy indicating value data for three times at most, and if all the electric energy indicating value data fail, the electric energy indicating value data fail to be determined. A certain time interval (1 minute or 3 minutes) needs to be considered between the three times.

The process link is suitable for three types of business processes of terminal new installation, terminal replacement and terminal debugging.

In the embodiment of the invention, the program module of the terminal automatic debugging method of the electricity consumption information acquisition system can be stored in a computer medium, so that the automatic debugging method of the invention is realized.

In the embodiment of the invention, the program module of the terminal automatic debugging method of the electricity consumption information acquisition system can be stored in a terminal device, so that the automatic debugging method of the invention is realized. The terminal device can be a server device or a client device, wherein the server or the client device is provided with an automatic debugging service module which can automatically execute the debugging steps.

Claims (14)

1. The terminal automatic debugging method of the electricity consumption information acquisition system is characterized by comprising the following steps of:

step 1, terminal online debugging, wherein an acquisition system automatically searches a terminal list meeting automatic debugging conditions, and executes a terminal online debugging process only for terminals which are not online;

2, verifying the terminal on line, namely verifying whether the terminal is stably on line or not and eliminating false on line by actively acquiring a terminal clock at the main station side of the acquisition system aiming at the terminal which successfully completes the on-line debugging process in the step 1;

step 3, sending terminal parameters, aiming at the terminal which successfully completes the online verification process in the step 2, automatically generating relevant terminal parameters by the main station side of the acquisition system according to the terminal type and by combining a set terminal parameter scheme, and then automatically sending the relevant terminal parameters to the terminal;

step 4, issuing the meter reading parameters, namely aiming at the terminal which successfully completes the process of issuing the terminal parameters in the step 3, automatically generating parameter items related to the meter reading parameters of the terminal electric energy meter/alternating current sampling device by the master station side of the acquisition system according to a set service rule, automatically updating the parameter items to the master station side of the acquisition system, then automatically issuing the meter reading parameters of the terminal electric energy meter/alternating current sampling device to the terminal, and recording an issuing result;

step 5, meter reading condition verification, namely acquiring current data on the terminal automatically acquired by the main station side of the system at reasonable time intervals aiming at the terminal which successfully completes the meter reading parameter issuing process in the step 4, and if the data is valid, determining that the meter reading condition verification is successful; the data is invalid or no data confirms that the meter reading condition is verified to be failed;

the established business rules of the terminal online debugging process are as follows:

A. setting the automatic debugging times of the terminal to be debugged to be 3 times, debugging the link for 3 times at most, if the terminal still fails, setting the terminal to fail, and converting manual debugging into automatic debugging by manual cancellation;

B. and (3) canceling automatic debugging: the automatic debugging service module has the function of manually cancelling automatic debugging, allows manual suspension of automatic debugging in the debugging process, updates the result of the step of completing the debugging into the database, and does not execute the subsequent steps;

C. the scanning time interval of the automatic debugging service module regularly scanning the terminal debugging task table is set to be 5-10 minutes;

D. the task to be debugged is finite: the current day, namely the creation time of the task to be debugged is equal to the zero point of the current day;

E. the conditions for online debugging are as follows: operating the channel unconfigured in the terminal table;

F. terminal types suitable for automatic debugging: excluding all terminals of the electricity utilization information acquisition system of the low-voltage acquisition terminal and the acquisition module;

G. the debugging conditions of the wired network communication mode terminal are as follows: only the master station of the acquisition system is debugged to be the terminal of the server.

2. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 1, wherein the specific implementation steps of the online debugging of the terminal in the step 1 are as follows:

s1.1, the automatic debugging service module regularly scans a terminal debugging task table to obtain a task to be debugged;

s1.2, detecting whether the terminal is on line or not by associating the operation terminal table and the real-time on-line state data table of the terminal, if not, setting an automatic debugging mark of the terminal to be in a debugging state, executing an on-line debugging process of the terminal, turning to the next step, and if so, exiting the debugging process.

3. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 2, wherein the executing of the online debugging process of the terminal comprises: and the acquisition system automatically generates a channel group, a server group and other related parameters of the terminal according to the information reported by the terminal to be debugged, and updates the related parameters of the acquisition system master station side.

4. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 1, wherein the specific steps of the terminal online verification in the step 2 are as follows:

s2.1, the automatic debugging service module automatically monitors login port number information reported by the field terminal and automatically matches the terminal address + region code in the port number information with the terminal parameter to be debugged;

s2.2, the automatic debugging service module automatically acquires a clock of the terminal to be debugged;

s2.3, judging whether the terminal is stably online, if the terminal can correctly return a clock, proving that the terminal is stably online, and turning to the next step; if the terminal does not return the clock, the terminal is proved to be in false online or abnormal, and the step S2.1 is carried out.

5. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 4, wherein the rule of the number of times of online terminal verification is set to 3, and a certain time interval needs to be considered between 3 acquisitions.

6. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 1, wherein the specific steps of issuing the terminal parameters in step 3 are as follows:

s3.1, automatically matching a terminal event scheme and a power-off parameter scheme by the automatic debugging service module according to the terminal type and the terminal protocol;

s3.2, after the matching is successful, the automatic debugging service module issues the related parameters to the terminal;

and S3.3, recording whether the issuing result is successful or failed, if the issuing result is successful, switching to the next step, if the issuing result is failed, automatically recording a mark of the terminal parameter issuing failure by the automatic debugging service module, switching to manual debugging by manually cancelling the automatic debugging, and switching to the next step.

7. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 6, wherein the matching rule for automatically matching the terminal event schema is: and matching the terminal type and the terminal specification.

8. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 1, wherein the specific steps of issuing the meter reading parameters in step 4 are as follows:

s4.1, automatically generating relevant meter reading parameters by the automatic debugging service module according to the generation rules of the meter reading parameters of the terminal electric energy meter/alternating current sampling device: port number, communication rate, communication address;

s4.2, after the meter reading parameters are generated, the automatic debugging service module issues the relevant meter reading parameters to the terminal;

and S4.3, recording whether the issuing result is successful or failed, if the issuing result is successful, switching to the next step, if the issuing result is failed, automatically recording a sign of meter reading parameter issuing failure by the automatic debugging service module, and switching to manual debugging by manually cancelling automatic debugging.

9. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 8, wherein the generation rule of the relevant meter reading parameters is as follows:

communication rate: the low-voltage user electric meter of the concentrator is 9600, and the other low-voltage user electric meters are 2400;

port number: the low-voltage user electric meter of the concentrator is set to be 31, and the other low-voltage user electric meters are set to be 2;

communication address: if the length of the field content is greater than 12 bits, then 12 bits are taken;

the process link is suitable for three types of business processes of terminal new installation, terminal replacement and terminal debugging.

10. The method for automatically debugging the terminal of the electricity consumption information acquisition system according to claim 1, wherein the step 5 of verifying the meter reading condition comprises the following specific steps:

s5.1, automatically acquiring a current day frozen electric energy indicating value of an electric meter on a terminal by an automatic debugging service module;

and S5.2, judging whether the automatically acquired data of the ammeter is valid, if so, marking the meter reading condition verification as successful verification, ending the terminal automatic debugging process, and if not, marking the meter reading condition verification as failed verification, and turning to manual debugging by manually cancelling automatic debugging.

11. The method for automatically debugging a terminal of a power consumption information acquisition system according to claim 10, wherein the number of times of meter reading verification is set to 3, and a certain time interval needs to be considered between 3 times.

12. A computer medium storing a program module of the terminal automatic commissioning method for a power consumption information collection system according to any one of claims 1 to 11.

13. A terminal device, characterized in that the terminal device executes a program module of the terminal automatic debugging method of the electricity consumption information collection system according to any one of claims 1 to 11.

14. The terminal device according to claim 13, wherein the terminal device is a server device or a client device.

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