CN113364131A - Special maintenance inspection system based on secondary equipment intelligent management and control platform - Google Patents

Abstract

The invention discloses a special maintenance inspection system based on a secondary equipment intelligent control platform, which comprises: the data modeling module is used for modeling a primary equipment special-dimensional level model, a special-dimensional reference value model and the like; the configuration management module is used for configuring the special-dimensional primary equipment parameter, the special-dimensional reference value parameter, the homology comparison parameter, the special-dimensional plan parameter and the special-dimensional parameter; the automatic inspection module is used for automatically reading the special dimensional primary equipment list, the special dimensional inspection options and the special dimensional inspection plan, determining the equipment list needing due inspection according to the special dimensional inspection plan, carrying out special dimensional inspection on the equipment in the list and generating a special dimensional inspection report after the execution is finished; the manual inspection module is used for an operator to select primary equipment needing inspection, trigger the special inspection and generate a special inspection report after the execution is finished; and the human-computer interface display module is used for displaying the special dimension KPI indexes and the special dimension multi-dimension retrieval index contents. The invention can realize more efficient and fine equipment operation and maintenance.

Description

Special maintenance inspection system based on secondary equipment intelligent management and control platform

Technical Field

The invention relates to the technical field of power system relay protection information management, in particular to a special maintenance inspection system based on a secondary equipment intelligent control platform.

Background

In recent years, frequent power grid accidents at home and abroad reflect that the safe and stable operation of a power grid depends heavily on a secondary system, and the main protection, switching and stable control refusal become the maximum threat of the safe and stable operation of the power grid.

The main protection and switch failure gradually become the primary prevention risk of the power grid operation, and can cause multiple direct current simultaneous commutation failure, direct current blocking, system stability damage or even major power failure accidents.

At present, the whole-network special inspection still adopts field manual inspection, inspection projects are various and comprise 16 projects such as fixed value inspection, soft pressing plate inspection, analog quantity inspection, input quantity inspection and the like, and since secondary equipment is comprehensively microcomputer-realized, most major defects on the device can be informed to operation and maintenance personnel through an automation system, the problems found by the manual inspection are few, the special-dimensional input-output ratio is low, and the defect finding rate of the special-dimensional inspection year is less than 5 items/hundred stations.

Disclosure of Invention

The invention aims to solve the technical problem of providing a special maintenance inspection method and a special maintenance inspection system based on a secondary equipment intelligent control platform so as to realize more efficient and precise equipment operation and maintenance.

In order to solve the technical problem, the invention provides a special maintenance inspection system based on a secondary equipment intelligent control platform, which comprises:

the data modeling module is used for modeling a primary equipment special-dimensional level model, a special-dimensional reference value model, a special-dimensional business related expansion model, a checking strategy model and a historical data model;

the configuration management module is used for configuring the special-dimensional primary equipment parameter, the special-dimensional reference value parameter, the homology comparison parameter, the special-dimensional plan parameter and the special-dimensional parameter;

the automatic inspection module is used for automatically reading the one-time special-dimensional equipment list, the special-dimensional inspection options and the special-dimensional inspection plan, determining the equipment list needing due inspection according to the special-dimensional inspection plan, performing various special-dimensional inspection on the equipment in the list, and generating a special-dimensional inspection report after the execution is finished;

the manual inspection module is used for an operator to select primary equipment needing inspection, trigger an extra-dimensional inspection function and generate an extra-dimensional inspection report after execution is finished;

and the human-computer interface display module is used for displaying the special dimension KPI indexes and the special dimension multi-dimension retrieval index contents.

Further, the configuration management module is configured to provide a one-dimensional primary device configuration interface, where the one-dimensional primary device configuration interface includes:

the model tree of the transformer substation and the primary equipment thereof on the left side is used for selecting a whole network, a region and a transformer substation;

the table is positioned above the right side and used for displaying the arrangement condition of the special dimension of the transformer substation according to the transformer substation selected in the model tree;

and the table is positioned below the right side and is used for displaying the primary equipment of the newly selected transformer substation and the special dimension grade of the primary equipment.

Further, the configuration management module is configured to provide a feature-dimensional reference value configuration interface, where the feature-dimensional reference value configuration interface includes:

the tree is positioned on the left side and used for selecting primary equipment needing to be configured with the reference value;

the table is positioned above the right side and used for giving secondary equipment related to the primary equipment selected on the tree, calling fixed values, analog quantities, soft pressing plates and input quantities in batches and storing the calling fixed values, the analog quantities, the soft pressing plates and the input quantities as reference values;

and the table positioned at the lower right part is used for giving and editing the reference value corresponding to the secondary equipment.

Further, the configuration management module is configured to provide an analog quantity homology comparison configuration interface, where the analog quantity homology comparison configuration interface includes:

a tree on the left for selecting a primary device;

a table located at the right side and the upper left for showing a configured list of homologous quantity values;

a table located at the right upper right for showing a secondary device list associated with the primary device;

a table located right and below for showing a data point list of a certain secondary device after the device is selected;

and the table positioned at the lower left of the right side is used for displaying the corresponding source data points to be compared when the table positioned at the upper left of the right side selects the source quantity value.

Further, the analog quantity homology comparison configuration interface further comprises a main protection analog quantity point automatic creation button used for automatically matching according to the name and the type of the protection analog quantity point when the button is clicked, if the button is matched, a homology quantity value is generated, and meanwhile, protection information points are added to a data source of the homology quantity value.

Further, the configuration management module is specifically configured to evenly distribute the device patrol to each day in the cycle according to the special level and the cycle, and automatically set the time when the patrol starts each day.

Further, the period is a month, or a quarter, or a specified number of days.

Further, the configuring of the feature parameter by the configuration management module specifically includes: patrol plan configuration, patrol item configuration, analog patrol configuration, input patrol configuration and pilot channel patrol configuration.

Further, the automatic inspection module is further configured to initialize the special-dimensional device list and the task list after obtaining the device list of the due inspection of the current day, execute device-by-device value checking, analog quantity checking, soft pressure plate checking, channel inspection, configuration checking, historical event analysis, wave recording start report analysis, and external fault analysis on each special-dimensional item, and finally generate an inspection record and a special-dimensional report.

Furthermore, the automatic inspection module is also used for executing special-dimensional basic tasks, wherein the special-dimensional basic tasks at least comprise monitoring calling and analysis for starting wave recording and data collection of pilot channels.

The embodiment of the invention has the beneficial effects that: the operation and maintenance means of the relay protection and self-installation device can be enriched and optimized to a great extent, and special maintenance items are added for the key relay protection and self-installation device, so that more efficient and fine equipment operation and maintenance are realized.

Drawings

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

Fig. 1 is a general framework diagram of a special-dimensional inspection system based on an intelligent secondary device management and control platform according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an execution flow of an extreme dimension automatic patrol task of the extreme dimension patrol system according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a single-day special-dimensional task execution flow of the special-dimensional patrol system according to the embodiment of the present invention.

Fig. 4 is a special dimension function deployment framework diagram of the special dimension patrol system according to the embodiment of the present invention.

Fig. 5 is a manual patrol interface diagram of the multidimensional patrol system according to the embodiment of the present invention.

Fig. 6 is a schematic view of a specific dimension-device configuration interface of the specific dimension patrol system according to the embodiment of the present invention.

Fig. 7 is a schematic view of a specific dimension reference value configuration interface of the specific dimension patrol system according to the embodiment of the present invention.

Fig. 8 is a schematic diagram of an analog quantity homology comparison configuration local interface of the multidimensional tour system according to the embodiment of the present invention.

Fig. 9 is a specific dimension task decomposition diagram of the specific dimension patrol system according to the embodiment of the present invention.

Fig. 10 is a characteristic dimension plan schematic diagram of the characteristic dimension patrol system according to the embodiment of the present invention.

Fig. 11 is a schematic view of a specific dimension parameter configuration interface of the specific dimension patrol system according to the embodiment of the present invention.

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

In order to put an end to the incorrect action of an important protection and self-installation device and prevent the power grid stable damage accident and the power failure accident of a large area of the power grid, the inventor optimizes the operation and maintenance principles of the relay protection and self-installation device according to the management and control thought of differentiated operation and maintenance of equipment on the basis of standardizing the normal operation and maintenance of the relay protection and self-installation device, and adds special maintenance items aiming at the key relay protection and self-installation device so as to realize the operation and maintenance of the equipment with higher standard.

Referring to fig. 1, an embodiment of the present invention provides an intelligent maintenance inspection system based on an intelligent management and control platform of a secondary device, so as to assist operation and maintenance personnel to perform more efficient maintenance inspection work. The special inspection system comprises:

the data modeling module is used for modeling a primary equipment special-dimensional level model, a special-dimensional reference value model, a special-dimensional business related expansion model, a checking strategy model and a historical data model;

the configuration management module is used for configuring the special-dimensional primary equipment parameter, the special-dimensional reference value parameter, the homology comparison parameter, the special-dimensional plan parameter and the special-dimensional parameter;

the automatic inspection module is used for automatically reading the one-time special-dimensional equipment list, the special-dimensional inspection options and the special-dimensional inspection plan, determining the equipment list needing due inspection according to the special-dimensional inspection plan, performing various special-dimensional inspection on the equipment in the list, and generating a special-dimensional inspection report after the execution is finished;

the manual inspection module is used for an operator to select primary equipment needing inspection, trigger an extra-dimensional inspection function and generate an extra-dimensional inspection report after execution is finished;

and the human-computer interface display module is used for displaying the special dimension KPI indexes and the special dimension multi-dimension retrieval index contents.

The data modeling function module of the special dimensional inspection system is mainly responsible for modeling work of a primary equipment special dimensional level model, a special dimensional reference value model, a special dimensional business related expansion model, a checking strategy model and a historical data model.

The execution flow of the automatic patrol function module of the special dimensional patrol system is shown in fig. 2, namely, the special dimensional function reads a special dimensional primary equipment list, a special dimensional patrol option and a special dimensional patrol plan, determines an equipment list needing due inspection according to the special dimensional patrol plan, performs various special dimensional inspections on the equipment in the list, generates a special dimensional patrol record and an abnormal alarm after the execution is finished, and generates a special dimensional patrol report.

Besides the tasks of the execution plan due, some special items also need to monitor some daily operation data of the equipment, and provide basic data for the execution of the special plan, namely 'special basic tasks', wherein the special basic tasks comprise monitoring calling and analysis for starting recording, data collection of pilot channels and the like. For a certain day, the automatic patrol process flow is as shown in fig. 3. After acquiring the equipment list of the due inspection of the current day, the special dimension function initializes a special dimension device list and a task list, executes special dimension items such as fixed value checking, analog quantity checking, soft pressure plate checking, channel inspection, configuration checking, historical event analysis, wave recording start report analysis and outside fault analysis on a device-by-device basis, and finally generates inspection records and special dimension reports.

Further, the feature function includes multiple feature items, and the function deployment is shown in fig. 4 and specifically described as follows:

1) the device soft pressing plate displacement, the opening displacement, the abnormal alarm, the action event, the fault information and the wave recording file are acquired and analyzed through historical inquiry.

2) And the functions of soft pressing plate checking, input amount checking, analog quantity checking, homologous comparison and the like are used for acquiring real-time data of the device on line and comparing the real-time data with a reference value to judge whether the state of the device is normal.

3) The fixed value checking function of the special inspection preferentially obtains the fixed value checking historical data in the special period from the historical database due to the existence of the fixed value checking module, if the fixed value checking historical data does not exist in the special period, the fixed value checking is realized by triggering the fixed value checking module, and the checking result is obtained.

4) The pilot channel inspection is based on historical data comparison of channel characteristic quantities (error code number, lost frame number, channel time delay and … …), so that a channel data recording module is required to be added to record the historical record of a channel, and the special dimensional inspection function module analyzes whether the pilot channel is abnormal or not by reading the historical record.

5) And the configuration verification of the special dimension directly acquires data from the historical record of the configuration verification module, and if the data cannot be acquired, the configuration verification module is not triggered.

6) And (3) directly acquiring data from the history record of the intelligent alarm module by the aid of the out-of-area fault analysis, and if the data cannot be acquired, not triggering the intelligent alarm module.

7) Starting wave recording analysis: the method is realized in a special-dimensional patrol functional module, and a starting wave recording file needs to be monitored and called, and the file is analyzed and a starting report is generated.

The interface of the manual patrol functional module of the special dimensional patrol system is shown in fig. 5, and primary equipment needing to be patrolled can be selected in the interface and the special dimensional patrol function is triggered.

And selecting primary equipment to be patrolled on the left side, clicking a button 'start patrolling' above the middle part, starting to execute the special dimensional patrolling, and clicking a 'cancel patrolling' button to cancel patrolling in the patrolling process.

The 'inspection state' column in the table above the middle displays the inspection progress, one device is double-clicked, the inspection result of the display device is issued, and the detailed information is supported to be checked.

The right side of the interface displays the tour result, clicks the 'view' button in the table, and a detailed tour report of one tour is displayed. And the output of patrol result records and patrol reports is supported. The results of both the automatic patrol and the manual patrol are recorded in tables 1 to 9, respectively, by category.

TABLE 1 channel analog records (HdrFisPilotNaInfo)

Field(s)	Name (R)	Type (B)	Description of the invention
				ID	Unique identification	TYPE_ID
FIS_ANALOGINPUT_ID	Analog quantity ID	TYPE_ID
				TIMESTAMP	Timestamp	DateTime
LNODE_ID	Logical node ID	TYPE_ID
				LDEVICE_ID	Logical device ID	TYPE_ID
IED_ID	IED ID	TYPE_ID
				SUBSTATION_ID	Substation ID	TYPE_ID
TYPE	Type (B)	Int16	Same analog scale
				SUBTYPE	Subtype of the form	Int16	Same analog scale
VALUE	Value of	float

TABLE 2-constant value patrol equipment results record (HDRFIS _ TW _ SETLIST)

TABLE 3 Soft pressboard checking device recording LIST (HDRFIS _ TW _ ENA _ LIST)

TABLE 4-open entry amount check device record table (HDRFIS _ TW _ DIG _ LIST)

TABLE 5 analog Limit check devices recording sheet (HDRFIS _ TW _ ANA _ LIST)

TABLE 6-channel patrol record table (HDRFIS _ TW _ POLT _ LIST)

TABLE 7-Start recording patrol Table (HDRFIS _ TW _ START _ DETAIL)

TABLE 8-Tevwei patrol record table (device HDRFIS _ TW _ IED)

TABLE 9-Tevwei patrol record Table (Primary device HDRFIS _ TW _ DEV)

The configuration management module of the special dimensional inspection system is mainly responsible for flexibly and efficiently configuring the special dimensional primary equipment parameter, the special dimensional reference value parameter, the homology comparison parameter, the special dimensional plan parameter, the special dimensional parameter and other parameters.

Further, as shown in fig. 6, a schematic diagram of a configuration interface of the one-dimensional primary device is shown, and the design idea of the interface layout is as follows:

1) the tree on the left gives the model tree of the substation and its primary equipment. And selecting a whole network, a region and a transformer substation, and displaying the special-dimensional deployment condition of the transformer substation according to the transformer substation (including a non-dimensional station) governed by the left selection object on the table above the right side.

2) The upper right table switches records (substations), and the lower right table shows the primary equipment of the newly selected substation and its special grade.

3) The special grade of the primary equipment of the table below the right side can be modified, and then the special grade of the transformer substation can be modified (meeting the definition requirement of the special grade).

4) After the primary equipment special-dimensional grade is determined, the corresponding secondary equipment special-dimensional grade is also determined actually.

5) It should be noted that some secondary devices may be associated with multiple primary devices (e.g., 3/2 wiring breaker protection, buscouple breaker protection, protection for protecting multiple segments of buses at the same time, etc.), and the secondary devices should be allowed to be recorded repeatedly during calculation, so as to avoid being missed.

Fig. 7 is a schematic diagram of a specific dimension reference value configuration interface, where the interface layout design idea is as follows:

1) the tree is provided on the left side, primary equipment needing to be configured with the reference value can be selected (options can be provided to determine whether non-dimensional stations and non-dimensional equipment need to be displayed), and the reference value configuration is performed on the right side.

2) The table at the upper right side gives the secondary equipment associated with the primary equipment selected on the tree, and the table at the lower right side gives the reference value corresponding to the secondary equipment, paying attention to the fact that duplication removal is needed (a plurality of selected primary equipment are associated with the same secondary equipment), a certain row is selected (table selection is not selected in a checking mode), and the table at the lower right side gives the reference value corresponding to the secondary equipment.

3) And the fixed value, the analog quantity, the soft pressing plate and the input quantity can be called to generate a reference value, and the batch calling of the secondary equipment quantity value is realized through checking a check box of an upper table and a calling quantity value button above the table and is stored as the reference value.

4) The reference value may be generated by importing a constant value list (constant value list batch import may be performed on the pop-up interface).

5) Direct editing of the reference value (editing of the new value field) in the lower right table is supported.

Fig. 8 is a schematic diagram of a local interface configured by analog quantity homology comparison, where the interface layout design idea is as follows:

1) the left tree selects primary equipment, the upper left table on the right shows a configured homologous quantity value list, the upper right of the right is a secondary equipment list associated with the primary equipment, the lower right of the right is a data point list of the equipment after a certain secondary equipment is selected at the upper right, and the lower left of the right is a source data point to be compared corresponding to the homologous quantity value selected at the upper left of the right.

2) The process of manually establishing homologous comparison configuration comprises the following steps: the upper left table on the right side is added with a homologous quantity value record, and the homologous quantity value record means a certain electric quantity which can be measured by a plurality of protections; and selecting one secondary device from the right upper right, displaying the information point of the secondary device from the right lower right, and adding a point to be compared to the homologous quantity value when a certain information point is selected (adding a record in the right lower left table).

3) The number of the homologous quantity value points is large, and the manual configuration workload is large point by point, so that automatic generation by a certain strategy is considered. To this end, a "automatically create master protection analog point" button is provided, and clicking on this button will generate a homology alignment configuration for all master protections of the device at this time (i.e., compare the main homology information in the master protections). The generation logic is: and automatically matching according to the names and types (Ia, Ib, Ic and the like) of the protection analog quantity points, generating a homologous quantity value if matching is carried out, and simultaneously adding the protection information points to a data source of the homologous quantity value. The automatic generation points default to three-phase current and three-phase voltage, and the three-phase current and the three-phase voltage on the high side, the middle side and the low side are also distinguished for the main transformer.

As shown in fig. 9, which is an exploded view of the specific-dimension task, since the specific-dimension job generally generates reports in units of primary devices and stations, it is preferable that the specific-dimension tasks of the same substation and the same primary device can be completed in a shorter time period, for example, the specific-dimension tasks of the individual stations are completed within 1 day. For tasks that are not completed for some reason (e.g., device communication is interrupted, the master has other tasks), it is desirable to complete the tasks as soon as possible when conditions are met. In the invention, a special dimension plan is made for secondary equipment of all special dimension stations by taking a transformer substation and primary equipment as units, and a configuration interface is shown in fig. 10.

There are two ways to generate a multidimensional plan:

1) one-key full-network automatic generation

(a) According to the special level and the period, the equipment patrol is evenly distributed to each day in the period, and the time for starting patrol every day is automatically set. The minimum period is 1 month, the season and the designated days can be used as the patrol period, the realization is simple and convenient, and the allocation task is not considered in the period of 29-31 months and seasons.

(b) Each level is automatically set according to the respective default period.

2) Custom configuration

The object(s) are selected manually, the period (default given in the special dimension level), the start date, the start time of each day (day, time division), the specified date plus a multiple of the period is the tour date of the devices, and the period can be month, season, specified number of days.

When the one-key automatic configuration plan is used for the special maintenance tour, the distribution is carried out by taking the station as a unit. When the configuration is customized, the configuration is distributed by taking primary equipment as a unit, and a plurality of devices under the special primary equipment are not allowed to be split into different patrol plans.

FIG. 11 is a diagram of the configuration of the feature dimension parameters, and the design idea of the interface is as follows:

1) and (3) patrol plan configuration: the method comprises the inspection periods of all levels of special dimensions, the default starting time of each day of inspection and the maximum number of devices for inspection every day.

2) And (3) patrol item configuration: which function items are patrolled by default.

3) Analog inspection configuration: and configuring various threshold values of the analog quantity patrol function.

4) Opening amount patrol configuration: whether to perform the import quantity homology comparison (comparison with the OCS) or not.

5) And (3) pilot channel inspection configuration: including various threshold configurations for dedicated channels, multiplexed channels.

Compared with the prior art, the embodiment of the invention has the advantages that the operation and maintenance means of the relay protection and self-installation device can be enriched and optimized to a great extent, and special maintenance items are added for the key relay protection and self-installation device, so that more efficient and fine equipment operation and maintenance are realized.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. The utility model provides a special dimension system of patrolling based on secondary equipment intelligence management and control platform which characterized in that includes:

the data modeling module is used for modeling a primary equipment special-dimensional level model, a special-dimensional reference value model, a special-dimensional business related expansion model, a checking strategy model and a historical data model;

the configuration management module is used for configuring the special-dimensional primary equipment parameter, the special-dimensional reference value parameter, the homology comparison parameter, the special-dimensional plan parameter and the special-dimensional parameter;

the automatic inspection module is used for automatically reading the one-time special-dimensional equipment list, the special-dimensional inspection options and the special-dimensional inspection plan, determining the equipment list needing due inspection according to the special-dimensional inspection plan, performing various special-dimensional inspection on the equipment in the list, and generating a special-dimensional inspection report after the execution is finished;

the manual inspection module is used for an operator to select primary equipment needing inspection, trigger an extra-dimensional inspection function and generate an extra-dimensional inspection report after execution is finished;

and the human-computer interface display module is used for displaying the special dimension KPI indexes and the special dimension multi-dimension retrieval index contents.

2. The multidimensional patrol system of claim 1, wherein the configuration management module is configured to provide a multidimensional primary device configuration interface, the multidimensional primary device configuration interface comprising:

the model tree of the transformer substation and the primary equipment thereof on the left side is used for selecting a whole network, a region and a transformer substation;

the table is positioned above the right side and used for displaying the arrangement condition of the special dimension of the transformer substation according to the transformer substation selected in the model tree;

and the table is positioned below the right side and is used for displaying the primary equipment of the newly selected transformer substation and the special dimension grade of the primary equipment.

3. The multidimensional patrol system of claim 1, wherein the configuration management module is configured to provide a multidimensional benchmark configuration interface, and the multidimensional benchmark configuration interface comprises:

the tree is positioned on the left side and used for selecting primary equipment needing to be configured with the reference value;

the table is positioned above the right side and used for giving secondary equipment related to the primary equipment selected on the tree, calling fixed values, analog quantities, soft pressing plates and input quantities in batches and storing the calling fixed values, the analog quantities, the soft pressing plates and the input quantities as reference values;

and the table positioned at the lower right part is used for giving and editing the reference value corresponding to the secondary equipment.

4. The multidimensional patrol system of claim 1, wherein the configuration management module is configured to provide an analog quantity homology comparison configuration interface, and the analog quantity homology comparison configuration interface comprises:

a tree on the left for selecting a primary device;

a table located at the right side and the upper left for showing a configured list of homologous quantity values;

a table located at the right upper right for showing a secondary device list associated with the primary device;

a table located right and below for showing a data point list of a certain secondary device after the device is selected;

and the table positioned at the lower left of the right side is used for displaying the corresponding source data points to be compared when the table positioned at the upper left of the right side selects the source quantity value.

5. The multidimensional patrol system of claim 4, wherein the analog quantity homology comparison configuration interface further comprises a main protection analog quantity point automatic creation button, which is used for automatically matching according to the name and type of the protection analog quantity point when clicked, and if matching, generating a homology value, and simultaneously adding the protection information points to the data source of the homology value.

6. The multidimensional patrol system of claim 1, wherein the configuration management module is specifically configured to evenly distribute device patrol to each day of a cycle according to multidimensional levels and cycles, and automatically set a time when patrol starts each day.

7. The multidimensional patrol system of claim 6, wherein the period is a month, or a quarter, or a specified number of days.

8. The multidimensional patrol system of claim 1, wherein the configuring the multidimensional parameters by the configuration management module specifically comprises: patrol plan configuration, patrol item configuration, analog patrol configuration, input patrol configuration and pilot channel patrol configuration.

9. The special dimensional patrol system according to claim 1, wherein the automatic patrol module is further configured to initialize the special dimensional device list and the task list after obtaining the device list of the due inspection on the current day, perform per device special dimensional items such as fixed value checking, analog quantity checking, soft pressure plate checking, channel patrol, configuration checking, historical event analysis, recording start report analysis, and out-of-area fault analysis, and finally generate a patrol record and a special dimensional report.

10. The electrical dimensional patrol system according to claim 9, wherein the automatic patrol module is further configured to perform dimensional basic tasks, the dimensional basic tasks at least including monitoring summons and analysis for initiating recording, and data collection for pilot channels.

Images