CN112731062A

CN112731062A - Method for diagnosing low-voltage user power failure by utilizing telecommunication terminal equipment

Info

Publication number: CN112731062A
Application number: CN202011588907.6A
Authority: CN
Inventors: 欧阳卫年; 李响; 谭振鹏; 李高明; 彭飞进; 张文骏; 曾晓丹; 黄红远; 车磊; 邓肃; 王坊钫; 彭程
Original assignee: Foshan Power Supply Bureau of Guangdong Power Grid Corp
Current assignee: Foshan Power Supply Bureau of Guangdong Power Grid Corp
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-04-30
Anticipated expiration: 2040-12-28
Also published as: CN112731062B

Abstract

The invention provides a method for diagnosing low-voltage user power failure by utilizing telecommunication terminal equipment, which carries out fuzzy matching on the position fed back by the telecommunication terminal equipment: the method comprises the steps of setting a fault point as a center, judging a low-voltage user in a certain radius range as suspected low-voltage user power failure, filtering out power failure events such as scheduled maintenance power failure and medium-voltage fault power failure which can be sensed by a system, automatically issuing a low-voltage user power failure fault warning, automatically generating a maintenance work order, and informing a worker to verify and confirm whether a user actually has power failure so as to improve the sensing capability of the office on the low-voltage fault.

Description

Method for diagnosing low-voltage user power failure by utilizing telecommunication terminal equipment

Technical Field

The invention relates to the field of power system fault diagnosis, in particular to a method for diagnosing power failure of a low-voltage user by utilizing telecommunication terminal equipment.

Background

At present, the diagnosis and alarm technology aiming at the power failure fault of a main network and a power distribution network is quite mature, and the effective diagnosis technology aiming at the power failure of a single or a plurality of low-voltage users under a low-voltage power distribution network is not available. When the power supply bureau knows which low-voltage power distribution user area has power failure and then arranges a maintenance plan mainly through a mode that a user reports failure to a power supply customer service, compared with real-time alarm, the mode greatly prolongs the power restoration time, seriously influences the user power consumption experience of a client, and reduces the power consumption satisfaction of the client, so a set of system for performing online diagnosis on the power failure of the low-voltage user and issuing the power failure alarm in real time is needed to solve the problems. The invention realizes the on-line monitoring and diagnosis of the power failure of the low-voltage users by utilizing the telecommunication terminal equipment, defines the power failure range of the low-voltage users by fuzzy matching, confirms the low-voltage users who actually have power failure in the range after verification and issues the power failure fault warning of the low-voltage users.

Because the number of low-voltage users is very large, and the installation and maintenance cost of online monitoring equipment is considered, the power failure fault can not be diagnosed by installing a special fault online monitoring device at each node like a main network and a distribution network, so that the current determination of power failure of the low-voltage users is mainly to inform customer service by the user through telephone, network media and other ways, and the customer service is confirmed and verified and then sends a maintenance work order for processing. The mode has low efficiency and long electricity recovery time, influences the electricity utilization experience of users and needs to be improved urgently. The invention aims at the problem to realize the monitoring and diagnosis of the power failure of the low-voltage user by using the existing telecommunication end equipment (such as a telephone, a data terminal, a microcomputer, a fax machine, a television and the like) of the user end.

Disclosure of Invention

The invention provides a method for diagnosing the power failure of a low-voltage user by utilizing telecommunication terminal equipment, which can improve the sensing capability of a station on low-voltage faults.

In order to achieve the technical effects, the technical scheme of the invention is as follows:

a method for diagnosing low-voltage user power failure by utilizing telecommunication terminal equipment comprises the following steps:

step S1: acquiring internet fault data of a telecommunication broadband user in real time through a telecommunication ANISS system and a network management system; acquiring equipment cascade information, an equipment installation address and a user installation address through a resource system;

step S2: data from an ANISS system and a resource system are subjected to field combing and cleaning conversion (ETL processing), and then the data are integrated together to form data information containing the internal number of the alarm equipment, the name of the equipment, the user corresponding to the equipment, the latitude and longitude of the user of the equipment, the formatted address of the user of the equipment (province/city/town/street/district/street and seat number), the alarm type of the equipment, the alarm state (action/return) of the equipment and the alarm time of the equipment;

step S3: analyzing data by using a data model at a warehouse layer, filtering according to equipment alarm types, filtering out equipment alarm records caused by low-voltage power failure, removing information fields, blanking sensitive fields such as specific user names and equipment names, and forming an alarm output format as follows: the internal number of the alarm device, the latitude and longitude of the user corresponding to the device, the format address (province/city/town/street/cell/street and seat number) of the user corresponding to the device, the alarm state (action/reset) and the alarm generation time, and the process goes to step S4; if the equipment alarm category is not caused by the power supply fault, the power failure alarm information is not output to the power supply bureau, the process is ended, and the next cycle is skipped;

step S4: the telecommunication side alarm information and the power supply station distribution automation system information are combined for judgment: when the power supply bureau is used for low-voltage power failure analysis, a longitude and latitude fault point of fault equipment provided by telecommunication equipment is taken as a center, a suspected low-voltage user power failure is judged at a low-voltage user fire point position within a certain radius range, whether equipment power failure exists on an upstream power supply path is searched from the user fire point, if known medium-voltage switch power failure and medium-voltage distribution transformer power failure exist, the information is discarded, and the next cycle is skipped; if the power failure of the corresponding medium-voltage switch and the power failure of the medium-voltage distribution transformer are not matched, the step S5 is skipped;

step S5: the formatted address of a low-voltage user fire point is matched with a formatted address (province/city/town/street/cell/street and seat number) of a fault device corresponding to a user provided by telecommunication equipment in a fuzzy manner, if the address of a relevant fire point can be matched, whether equipment power failure exists on a power supply path at the upstream is searched from the fire point of the user, if known medium-voltage switch power failure and medium-voltage distribution transformer power failure exist, the information is discarded, and the next cycle is skipped; if the power failure of the corresponding medium-voltage switch and the power failure of the medium-voltage distribution transformer are not matched, the step S6 is skipped;

step S6: and 4, generating an unknown low-voltage user power failure warning by using the fact that the related low-voltage fire drop points with known medium-voltage power failure cannot be matched in the steps 4 and 5, simultaneously outputting information such as failure occurrence time, failure point positions and the number of affected users, automatically generating a maintenance work order, and informing a power supply service worker to verify and confirm whether the user has power failure actually.

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

the method utilizes an ANISS system to monitor the Internet surfing state of a Foshan city power telecommunication broadband user, when a power supply office receives real-time alarm information from the ANISS system, if the fact that batch user offline faults are caused by mains power failure is judged, power failure alarm information is output to the power supply office in real time, then the power supply office combines the telecommunication side alarm information with the power distribution automation system alarm information of the power supply office to judge whether power failure occurs to a low-voltage user, and if the power distribution automation system does not receive the power failure alarm information at the moment, the power failure fault possibly occurs to the low-voltage user is judged. Because the position sent by the telecommunication terminal equipment has a certain deviation from the actual geographic position of the user, fuzzy matching is carried out on the position fed back by the telecommunication terminal equipment: the method comprises the steps of setting a fault point as a center, judging a low-voltage user in a certain radius range as suspected low-voltage user power failure, filtering out power failure events such as scheduled maintenance power failure and medium-voltage fault power failure which can be sensed by a system, automatically issuing a low-voltage user power failure fault warning, automatically generating a maintenance work order, and informing a worker to verify and confirm whether a user actually has power failure so as to improve the sensing capability of the office on the low-voltage fault.

Drawings

FIG. 1 is a flow chart of the method of the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Telecommunication ANISS system: the ANISS monitors network element devices such as an OLT (optical line terminal), an optical splitter, and an MDU (which belongs to an optical network unit) through an access network management system, and generates a network fault alarm once a user connected to a certain device is offline, wherein the reason for the offline fault of the user includes optical fiber interruption, device failure, mains power failure, and the like.

Power supply office GIS system: the GIS system of the power supply office generally uses power grid equipment for modeling, and reflects the positions where the power grid equipment (such as lines, transformers, distribution transformers, towers, switches and the like) are located, the electrical connection relation, the power consumption ignition point information of low-voltage power consumers and the like.

The method comprises the following specific steps:

the method comprises the steps that an ANISS system is utilized to monitor the online state of a mains supply broadband user, when a power supply bureau receives real-time alarm information from the ANISS system, if the fact that batch user offline faults are caused by mains supply power failure is judged, power failure alarm information is output to the power supply bureau in real time, then the power supply bureau combines the telecommunication side alarm information with self power distribution automation system alarm information to judge whether power failure occurs to a low-voltage user, and if the power distribution automation system does not receive the power failure alarm information at the moment, the power failure fault is possibly caused to the low-voltage user. Because the position sent by the telecommunication terminal equipment has a certain deviation from the actual geographic position of the user, fuzzy matching is carried out on the position fed back by the telecommunication terminal equipment: the method comprises the steps of setting a fault point as a center, judging a low-voltage user in a certain radius range as suspected low-voltage user power failure, filtering out power failure events such as scheduled maintenance power failure and medium-voltage fault power failure which can be sensed by a system, automatically issuing a low-voltage user power failure fault warning, automatically generating a maintenance work order, and informing a worker to verify and confirm whether a user actually has power failure so as to improve the sensing capability of the office on the low-voltage fault.

Analytical procedure, as shown in FIG. 1:

The same or similar reference numerals correspond to the same or similar parts;

the positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent;

it should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. A method for diagnosing low-voltage user power failure by utilizing telecommunication terminal equipment is characterized by comprising the following steps:

s1: acquiring internet fault data of a telecommunication broadband user in real time through a telecommunication ANISS system and a network management system; acquiring equipment cascade information, an equipment installation address and a user installation address through a resource system;

s2: carrying out field combing and cleaning conversion on data from an ANISS system and a resource system, and then integrating the data together;

s3: analyzing the data by using a data model at a warehouse layer, filtering according to the equipment alarm category, filtering out equipment alarm records caused by low-voltage power failure, removing information fields, blanking out sensitive fields of specific user names and equipment names, and skipping to the step S4; if the equipment alarm category is not caused by the power supply fault, the power failure alarm information is not output to the power supply bureau, the process is ended, and the next cycle is skipped;

s4: combining the telecommunication side alarm information with the power supply office distribution automation system information for judgment;

s5: the formatted address of the fire point of the low-voltage user is subjected to fuzzy matching by using the formatted address of the fault equipment corresponding to the user provided by the telecommunication equipment;

s6: and (4) generating an unknown low-voltage user power failure warning by failing to match the low-voltage fire point related to the known medium-voltage power failure in the steps S4 and S5, and simultaneously outputting the failure occurrence time, the failure point position and the information of the number of affected users.

2. The method for diagnosing the power failure of the low voltage subscriber by using the telecommunication terminal equipment as claimed in claim 1, wherein in step S2, the data are integrated to form data information including the internal number of the alarm equipment, the name of the equipment, the subscriber corresponding to the equipment, the latitude and longitude of the subscriber corresponding to the equipment, the formatted address of the subscriber corresponding to the equipment, the alarm category of the equipment, the alarm state of the equipment, and the alarm time of the equipment.

3. The method for diagnosing the low voltage subscriber power failure by using the telecommunication terminal equipment as claimed in claim 2, wherein in step S3, after the sensitive fields of the specific subscriber name and the equipment name are blanked, the alarm output is formed in a format of: the internal number of the alarm device, the latitude and longitude of the user corresponding to the device, the formatted address of the user corresponding to the device, the alarm state and the alarm generation time.

4. The method for diagnosing the power failure of the low voltage user by using the telecommunication terminal equipment as claimed in claim 3, wherein the specific process of the step S4 is as follows:

when the power supply bureau is used for analyzing the low-voltage power failure, the longitude and latitude fault points of fault equipment provided by the telecommunication equipment are taken as the center, the position of a fire point of a low-voltage user within a certain radius range is judged as the suspected power failure of the low-voltage user, and whether the equipment has the power failure on the upstream power supply path is searched from the fire point of the user.

5. The method for diagnosing the power failure of the low voltage subscriber by using the telecommunication terminal as claimed in claim 4, wherein in step S4, if there is a known power failure of the medium voltage switch or a known power failure of the medium voltage distribution transformer, the information is discarded and the process goes to the next loop.

6. The method for diagnosing the power failure of the low voltage subscriber by using the telecommunication terminal as claimed in claim 5, wherein in step S4, if there is no corresponding power failure of the medium voltage switch or power failure of the medium voltage distribution transformer, the method goes to step S5.

7. The method for diagnosing low voltage subscriber power failure using telecommunication terminal equipment as claimed in claim 6, wherein in step S5, if the relevant fire drop address can be matched, the subscriber fire drop is searched for whether there is equipment power failure in the upstream power supply path.

8. The method for diagnosing a power failure of a low voltage subscriber using a telecommunication terminal as claimed in claim 7, wherein in step S5, if there is a known power failure of the medium voltage switch or a known power failure of the medium voltage distribution transformer, the information is discarded and the process jumps to the next loop.

9. The method for diagnosing the power failure of the low voltage subscriber by using the telecommunication terminal as claimed in claim 8, wherein in step S5, if there is no corresponding power failure of the medium voltage switch or power failure of the medium voltage distribution transformer, the method goes to step S6.

10. The method for diagnosing the power failure of the low voltage subscriber by using the telecommunication terminal equipment as claimed in claim 9, wherein in step S6, after the information of the number of subscribers is obtained, a maintenance order is automatically generated to inform the power service worker to verify whether there is a power failure of the subscriber.