CN112749814A - Control method and system for totally-enclosed fully-insulated ring network switch cabinet and storage medium - Google Patents

Abstract

The application relates to a management and control method of a totally-enclosed all-insulated ring network switch cabinet, relates to the field of power transmission and distribution equipment, and solves the problem that the reason that the current or the voltage exceeds the preset range is not known, and the problem that the appropriate person is selected to be maintained correspondingly based on the reason of the fault cannot be eliminated, and the management and control method comprises the following steps: analyzing faults of the totally-enclosed fully-insulated ring network switch cabinet; and constructing a cooperative person and a cooperative mode required by maintaining the corresponding fault based on the confirmed fault, and sending information for notification. Whether the totally-enclosed fully-insulated ring network switch cabinet has a fault or not can be timely acquired, and when the totally-enclosed fully-insulated ring network switch cabinet has a fault, the best cooperation mode and cooperation personnel processing are timely determined, so that the maintenance of the totally-enclosed fully-insulated ring network switch cabinet can be completed as soon as possible.

Description

Control method and system for totally-enclosed fully-insulated ring network switch cabinet and storage medium

Technical Field

The application relates to the field of power transmission and distribution equipment, in particular to a control method and a control system for a totally-enclosed fully-insulated ring network switch cabinet and a storage medium.

Background

At present, solid insulation ring network switch equipment is widely used in distribution stations and box-type substations of load centers such as urban residential districts, high-rise buildings, large public buildings, factory enterprises and the like due to the advantages of simple structure, small volume, low cost and power supply safety.

The existing totally-enclosed fully-insulated ring network switch cabinet is internally provided with a voltage sensor for detecting the internal voltage condition of the switch cabinet and a current transformer for detecting the internal current condition of the switch cabinet, and only when the internal voltage of the switch cabinet is not within a preset voltage range or the internal current of the switch cabinet is not within a preset current range, corresponding reminding can be performed.

In view of the above-mentioned related art, the inventor believes that there is a problem that the reason why the current or voltage exceeds the preset range is not known, and a suitable person cannot be selected for corresponding maintenance based on the reason of the fault.

Disclosure of Invention

In order to obtain whether the totally-enclosed fully-insulated ring network switch cabinet fails or not in time and determine the best cooperation mode and cooperation personnel processing in time when the totally-enclosed fully-insulated ring network switch cabinet fails so as to complete maintenance of the totally-enclosed fully-insulated ring network switch cabinet as soon as possible, the application provides a management and control method, a management and control system and a storage medium of the totally-enclosed fully-insulated ring network switch cabinet.

In a first aspect, the application provides a control method for a totally-enclosed and fully-insulated ring network switch cabinet, which adopts the following technical scheme:

a control method for a totally-enclosed fully-insulated ring network switch cabinet comprises the following steps:

acquiring voltage information and current information of a shunt circuit inside a totally-enclosed fully-insulated ring network switch cabinet;

analyzing faults of the totally-enclosed and totally-insulated ring network switch cabinet based on a result of comparing voltage information of branches inside the totally-enclosed and totally-insulated ring network switch cabinet with preset safe voltage of each corresponding branch and a result of comparing current of the branches inside the totally-enclosed and totally-insulated ring network switch cabinet with preset safe current of each corresponding branch;

and constructing cooperative personnel required for maintaining the corresponding fault and sending information in a cooperative mode for notification based on the confirmed fault.

By adopting the technical scheme, the possible faults of the totally-enclosed fully-insulated ring network switch cabinet can be effectively analyzed based on the conditions of shunt voltage and current inside the totally-enclosed fully-insulated ring network switch cabinet, whether other people are needed to cooperate can be determined based on the conditions of the faults, and the required cooperation personnel can be timely notified, so that the timely and effective maintenance of the totally-enclosed fully-insulated ring network switch cabinet is guaranteed.

Optionally, the analysis steps of the fault of the totally-enclosed fully-insulated ring network switch cabinet are as follows: and searching out the fault condition corresponding to the totally-enclosed and fully-insulated looped network switch cabinet under the condition of comparing the current shunt voltage and current from a preset first database in which the shunt voltage and current comparison condition and the fault corresponding to the corresponding shunt voltage and current comparison condition are stored.

By adopting the technical scheme, the faults which possibly occur in the closed fully-insulated ring network switch cabinet can be timely acquired by inquiring the first database according to the comparison condition of the acquired shunt voltage and the shunt current.

Optionally, the construction steps of sending information to notify by the collaborators and the collaboration mode required by the corresponding fault are as follows:

inquiring and acquiring the collaborators and the collaboration modes required by the corresponding faults by taking the corresponding faults as inquiry objects from a preset second database in which the faults and the collaborators and the collaboration modes required by the corresponding faults are stored;

if only one collaborator is needed for the corresponding fault, selecting the maintenance personnel with the shortest overall time consumption for notification;

and if a plurality of the cooperative personnel required by the corresponding fault are needed and the cooperative personnel are needed to be started and maintained on site at the same time, selecting the cooperative personnel with the shortest overall time consumption for notification.

By adopting the technical scheme, required cooperative personnel and a cooperative mode can be reversely analyzed based on the fault condition, so that the maintenance of the totally-enclosed fully-insulated ring network switch cabinet can be better guaranteed.

Optionally, if only one collaborator is needed for the corresponding fault, the screening step of the maintenance personnel with the shortest overall time consumption is as follows:

the method comprises the steps that maintenance time of different maintenance personnel of corresponding fault types is inquired according to the fault types from a preset third database which stores the fault types which can be completed by only one person and the maintenance time of different maintenance personnel of corresponding types of faults, and the driving speed of the corresponding maintenance personnel is searched out synchronously from a preset fourth database which stores the maintenance personnel and the driving speed of the corresponding maintenance personnel;

acquiring the position of a totally-enclosed and fully-insulated ring network switch cabinet and the position of a maintenance worker maintaining a corresponding fault, planning a shortest path from the maintenance worker to the position of the totally-enclosed and fully-insulated ring network switch cabinet and acquiring the distance of the shortest path, taking the distance of the shortest path as a dividend and the driving speed of the corresponding maintenance worker as a divisor, acquiring the driving time of the maintenance worker, and taking the sum of the driving time of the maintenance worker and the maintenance time of the corresponding maintenance worker as the whole time of the maintenance worker;

and screening out the maintenance personnel with the shortest overall time consumption as the cooperative personnel required by the corresponding fault.

By adopting the technical scheme, under the condition that only one cooperative person is needed for corresponding faults, the maintenance person with the least overall consumed time can be selected as the cooperative person needed for the corresponding faults based on the overall consumed time of each maintenance person reaching the totally-closed and fully-insulated ring network switch cabinet and completing maintenance.

Optionally, if a plurality of collaborators are needed for corresponding faults and the collaborators need to be started and maintained on site at the same time, the screening step of the collaborators which consumes the shortest time overall is as follows:

the method comprises the steps of combining and matching preset time for completing maintenance of a plurality of faults needing to be maintained by a plurality of cooperative personnel and needing to be maintained by the cooperative personnel on site at the same time and different maintenance personnel with corresponding types of faults;

acquiring the travelling time of each maintenance worker in different combinations when the maintenance worker reaches the totally-enclosed and totally-insulated ring network switch cabinet, taking the travelling time consumed by the maintenance worker with the most travelling time of each combination as the time consumed by the corresponding maintenance worker combination when the maintenance worker reaches the site, and adding the time of completing maintenance by the corresponding maintenance worker combination and the total time consumed by the maintenance worker combination;

and screening out the maintenance personnel combination with the least total maintenance time as the cooperative personnel with the shortest overall time consumption.

By adopting the technical scheme, the time spent when each cooperative person of each team reaches the totally-enclosed and fully-insulated ring network switch cabinet can be screened out when the number of the cooperative persons required by corresponding faults is multiple and the cooperative persons need to arrive at the site for start-up and maintenance at the same time

Optionally, if a plurality of collaborators are needed for corresponding faults and the collaborators need to be started and maintained on site at the same time, the step of notifying after confirming the collaborators with the shortest overall time consumption is as follows:

the driving time consumption of each member in the cooperative personnel with the shortest overall time consumption is obtained, the consumed time of the maintenance personnel with the largest time consumption is taken as the number to be subtracted one by one, the driving time consumption of the rest members is taken as the number to be subtracted, and the difference time obtained one by one is taken as the notification time for notifying the maintenance personnel with the largest time consumption to each corresponding member after delaying;

and according to the notification time of notifying each corresponding member after the maximum maintenance personnel consumed the notification is delayed, and after the maximum maintenance personnel consumed the notification is completed, sending information notifications one by one.

By adopting the technical scheme, under the condition that a plurality of cooperative personnel are needed to be in failure and the cooperative personnel need to be on site for maintenance at the same time, the notification opportunity of each member can be timely confirmed, so that each member can arrive in expected time without waiting for others.

Optionally, if a plurality of collaborators are needed for corresponding faults and the collaborators need to be started and maintained on site at the same time, the step of notifying after confirming the collaborators with the shortest overall time consumption further comprises the step of, after confirming the notification time of each maintainer and before sending the information notification:

the method comprises the steps that the frequency of processing the current fault history problem and the corresponding problem by the corresponding maintenance personnel is found out from a preset fifth database which stores the maintenance personnel and the corresponding maintenance personnel for processing the problems which are caused by different faults in history, and the notes existing in the corresponding faults are found out from a preset sixth database which stores the faults and the notes in the corresponding fault maintenance process synchronously;

comparing the notice items existing in the corresponding faults with the problems which are processed by the corresponding maintenance personnel, screening out the same parts, sorting the parts in the same parts, then sorting the parts in the same parts according to the frequency of processing the problems which are processed by the corresponding maintenance personnel, and loading the result of the problem sorting into the short message which needs to be sent.

By adopting the technical scheme, the matters required to be noticed by the maintenance personnel can be effectively and reasonably sequenced based on the notice matters of the fault and the frequency of the problems which are caused by different maintenance personnel about the fault history, so that the maintenance personnel can be better ensured to avoid the corresponding problems after arriving at the site.

In a second aspect, the application provides a control system of a totally-enclosed all-insulated looped network switch cabinet, which adopts the following technical scheme:

a control system of a totally-enclosed and totally-insulated ring main unit, comprising a memory, a processor and a program stored in the memory and capable of running on the processor, wherein the program can be loaded and executed by the processor to realize the control method of the totally-enclosed and totally-insulated ring main unit according to any one of the preceding claims.

By adopting the technical scheme, through the calling of the program, the possible faults of the totally-enclosed totally-insulated ring network switch cabinet can be effectively analyzed based on the conditions of shunt voltage and current inside the totally-enclosed totally-insulated ring network switch cabinet, whether other people are needed to cooperate can be determined based on the conditions of the faults, and the required cooperators are timely notified, so that the timely and effective maintenance of the totally-enclosed totally-insulated ring network switch cabinet is guaranteed.

In a third aspect, the present application provides a computer storage medium, which adopts the following technical solutions:

a computer storage medium, comprising a program capable of being loaded and executed by a processor to implement the management and control method of the totally enclosed and fully insulated ring main unit as claimed in any one of the preceding claims.

By adopting the technical scheme, through the calling of the program, the possible faults of the totally-enclosed totally-insulated ring network switch cabinet can be effectively analyzed based on the conditions of shunt voltage and current inside the totally-enclosed totally-insulated ring network switch cabinet, whether other people are needed to cooperate can be determined based on the conditions of the faults, and the required cooperators are timely notified, so that the timely and effective maintenance of the totally-enclosed totally-insulated ring network switch cabinet is guaranteed.

To sum up, the beneficial technical effect of this application does:

1. whether the totally-enclosed fully-insulated ring network switch cabinet breaks down or not can be effectively analyzed, the fault condition can be effectively analyzed, and the personnel and the cooperation mode which need to cooperate with the corresponding fault can be solved.

2. The method and the system can timely send the matters to be noticed by the cooperative personnel to the cooperative personnel when the cooperative personnel are determined, and avoid errors of the cooperative personnel in cooperation.

Drawings

Fig. 1 is a schematic overall step diagram of a control method of a totally-enclosed and fully-insulated ring network switch cabinet according to an embodiment of the application.

Fig. 2 is a schematic diagram of the construction steps of the cooperative personnel required for the corresponding fault and the cooperative mode sending information for notification, which are mentioned in step S300 in fig. 1.

Fig. 3 is a schematic diagram of the screening step of the maintenance personnel with the shortest overall time consumption if only one cooperative personnel is required for the corresponding fault as mentioned in step S3B0 in fig. 2.

Fig. 4 is a schematic diagram of the screening step of the collaborators with the shortest overall time consumption if there are multiple collaborators required for the corresponding fault and the collaborators need to be simultaneously on site for maintenance, as mentioned in step S3B0 in fig. 2.

FIG. 5 is a schematic diagram of the steps of FIG. 2, wherein if there are multiple collaborators required for corresponding failure and the collaborators need to be on-site and maintained at the same time, the collaborators with the shortest overall time consumption are identified and then notified.

Fig. 6 is a schematic diagram of the steps mentioned in fig. 1 after confirming the notification timing of each serviceman and before sending the information notification.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, a method for managing and controlling a totally-enclosed and fully-insulated ring network switch cabinet includes steps S100 to S300.

In step S100, voltage information and current information of the internal shunt of the totally-enclosed and fully-insulated ring network switch cabinet are obtained.

The obtaining manner of the voltage information of the shunt circuit inside the totally-enclosed and totally-insulated ring main unit mentioned in step S100 may be detected and obtained through a voltage sensor arranged in each shunt circuit, and similarly, the current information of the shunt circuit inside the totally-enclosed and totally-insulated ring main unit mentioned in step S100 may be detected and obtained through a current transformer arranged in each shunt circuit.

In step S200, a fault of the totally-enclosed and totally-insulated ring network switch cabinet is analyzed based on a result of comparing the voltage information of the inside shunt of the totally-enclosed and totally-insulated ring network switch cabinet with the preset safe voltage of each corresponding shunt, and a result of comparing the current of the inside shunt of the totally-enclosed and totally-insulated ring network switch cabinet with the preset safe current of each corresponding shunt.

The step S200 of analyzing the fault of the totally-enclosed and totally-insulated ring network switch cabinet specifically includes the following steps: and searching out the fault condition corresponding to the totally-enclosed and fully-insulated looped network switch cabinet under the condition of comparing the current shunt voltage and current from a preset first database in which the shunt voltage and current comparison condition and the fault corresponding to the corresponding shunt voltage and current comparison condition are stored.

For example, if the voltage of one of the branches exceeds a predetermined voltage and the current of one of the branches is lower than a predetermined current, a fault a may be detected, and if the voltage of the other branch exceeds the predetermined voltage and the current of the other branch is lower than the predetermined current, a fault b may be detected.

In step S300, a collaborator and a collaboration mode transmission message required for repairing the corresponding fault are constructed based on the confirmed fault and notified.

Referring to fig. 2, the construction steps of the cooperative personnel required for the corresponding failure and the cooperative mode transmission information notification mentioned in step S300 include steps S3a0 to S3B 0.

In step S3a0, the collaborator and the collaboration mode required by the corresponding fault are obtained by querying with the corresponding fault as a query object from a preset second database in which the fault and the collaborator and the collaboration mode required by the corresponding fault are stored.

In step S3B0, if only one collaborator is needed for the corresponding fault, the maintenance person with the shortest overall time consumption is selected for notification; and if a plurality of the cooperative personnel required by the corresponding fault are needed and the cooperative personnel are needed to be started and maintained on site at the same time, selecting the cooperative personnel with the shortest overall time consumption for notification.

Referring to fig. 3, if only one collaborator is required for a corresponding fault in step S3B0, the screening step of the service personnel with the shortest overall time consumption can be divided into steps S3Ba to S3 Bc.

In step S3Ba, the maintenance time of the different maintenance personnel with the corresponding fault type is searched for by the fault type from a third database in which the fault type that can be completed by only one person and the maintenance time of the different maintenance personnel with the corresponding type of fault are stored, and the driving speed of the corresponding maintenance personnel is searched for synchronously from a fourth database in which the maintenance personnel and the driving speed of the corresponding maintenance personnel are stored.

In step S3Bb, the location of the totally-enclosed and totally-insulated ring network switch cabinet and the location of the maintenance staff maintaining the corresponding fault are obtained, the shortest path from the maintenance staff to the location of the totally-enclosed and totally-insulated ring network switch cabinet is planned and the distance of the shortest path is obtained, the distance of the shortest path is used as a dividend, the driving speed of the corresponding maintenance staff is used as a divisor, the driving time of the maintenance staff is obtained, and the sum of the driving time of the maintenance staff and the maintenance time of the corresponding maintenance staff is used as the overall time of the maintenance staff.

In step S3Bc, the maintenance personnel with the shortest overall time consumption are screened out as the collaborators required for the corresponding fault.

For example, for the same fault, three maintenance personnel, namely a maintenance personnel A, a maintenance personnel B and a maintenance personnel C can complete the fault resolution, and the assumed time for driving the vehicle A is 30 minutes, the time for maintaining the fault is 10 minutes, and the overall time for maintaining the fault is 40 minutes; the driving time of the second vehicle is 20 minutes, the fault maintenance time is 15 minutes, and the overall time of the second vehicle is 35 minutes; the third driving time is 25 minutes, the time for repairing the fault is 8 minutes, the overall third driving time is 33 minutes, and the screened repairing personnel are third based on the analysis result.

Referring to fig. 4, if there are multiple collaborators required for corresponding failure and the collaborators need to be simultaneously on site for maintenance in step S3B0, the overall screening process of the collaborators consuming the shortest time can be divided into steps S3BA to S3 BC.

In step S3BA, the time for completing the maintenance is stored from the preset time when there are a plurality of failures requiring the collaborators to go to the site for maintenance and the corresponding types of failures are combined and matched by different maintenance personnel.

In step S3BB, the running time of each maintenance person in different combinations when the maintenance person reaches the totally-enclosed and fully-insulated ring main unit is obtained, the running time consumed by the maintenance person with the largest running time of each combination is taken as the time consumed by the corresponding maintenance person combination when the maintenance person reaches the site, and the sum of the time consumed by the corresponding maintenance person combination for completing maintenance is taken as the total maintenance time of the corresponding maintenance person combination.

In step S3BC, the collaborator whose combination of maintenance personnel that consumes the least total time for maintenance is selected as the one that consumes the least time as a whole.

Referring to fig. 5, further, if there are a plurality of collaborators required for corresponding failures and the collaborators need to be simultaneously on site for maintenance, the steps of notifying after confirming the collaborator with the shortest overall time consumption may be divided into steps Sa00 to Sb 00.

In step Sa00, the travel time of each member of the collaborators that consumes the shortest overall time is obtained, the travel time of the maintenance person that consumes the most time is taken as the number to be decremented one by one, the travel time of each remaining member is taken as the number to be decremented, and the difference time obtained one by one is taken as the notification time for notifying the maintenance person that consumes the most time to each corresponding member after a delay.

In step Sb00, the notification time for notifying each corresponding member is delayed according to the maximum number of maintenance staff when the notification is completed, and the information notifications are sent one by one after the maximum number of maintenance staff when the notification is completed.

For example, if the maintainer who takes the most time to drive is a, the other maintainers are b and c, the driving time of the a is 10 minutes more than that of the b, and the driving time of the a is 20 minutes more than that of the c, the b is notified 10 minutes after the a is notified, and the c is notified 20 minutes after the a is notified.

Referring to fig. 6, further, if there are a plurality of collaborators required for corresponding failures and the collaborators need to go to the site for maintenance at the same time, the step of notifying after confirming the collaborator with the shortest overall time consumption further includes the steps of notifying after confirming the notification timing of each of the maintenance personnel and before sending the information notification, which can be divided into steps SA00 to SB 00.

In step SA00, the frequency of the corresponding serviceman handling the current fault history and the corresponding problem is found out from a preset fifth database storing the serviceman and the corresponding serviceman history handling the problems posed by the different faults, and the notes of the corresponding fault are found out synchronously from a preset sixth database storing the faults and the notes in the corresponding fault maintenance process.

In step SB00, the notice of the corresponding fault is compared with the corresponding service personnel to process the problem posed by the corresponding fault, the same parts are screened out and prioritized, and then the results of the problem ranking are loaded in the short message to be sent according to at least more than one order of the frequency of the corresponding service personnel to process the problem posed by the current fault.

For example, if the current fault service personnel history is A, B, C for a problem and the corresponding fault notice is A, then A is ranked first, B and C are ranked after A, and the A is ranked again by at least more than one according to the frequency.

An embodiment of the present invention provides a computer-readable storage medium, which includes a program capable of being loaded and executed by a processor to implement any one of the methods shown in fig. 1-6.

The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Based on the same inventive concept, an embodiment of the present invention provides a sponge city construction management system, which includes a memory and a processor, wherein the memory stores a program that can be run on the processor to implement any one of the methods shown in fig. 1 to 6.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, a module or a unit may be divided into only one logical function, and may be implemented in other ways, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: u disk, removable hard disk, read only memory, random access memory, magnetic or optical disk, etc. for storing program codes.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. A control method for a totally-enclosed fully-insulated ring network switch cabinet is characterized by comprising the following steps:

acquiring voltage information and current information of a shunt circuit inside a totally-enclosed fully-insulated ring network switch cabinet;

analyzing faults of the totally-enclosed and totally-insulated ring network switch cabinet based on a result of comparing voltage information of branches inside the totally-enclosed and totally-insulated ring network switch cabinet with preset safe voltage of each corresponding branch and a result of comparing current of the branches inside the totally-enclosed and totally-insulated ring network switch cabinet with preset safe current of each corresponding branch;

and constructing a cooperative person and a cooperative mode required by maintaining the corresponding fault based on the confirmed fault, and sending information for notification.

2. A control method for a totally-enclosed and totally-insulated ring network switch cabinet is characterized in that the analysis steps of faults occurring in the totally-enclosed and totally-insulated ring network switch cabinet are as follows: and searching out the fault condition corresponding to the totally-enclosed and fully-insulated looped network switch cabinet under the condition of comparing the current shunt voltage and current from a preset first database in which the shunt voltage and current comparison condition and the fault corresponding to the corresponding shunt voltage and current comparison condition are stored.

3. A control method for a totally-enclosed fully-insulated ring network switch cabinet is characterized in that the construction steps of sending information for notification by cooperative personnel and a cooperative mode required by corresponding faults are as follows:

inquiring and acquiring the collaborators and the collaboration modes required by the corresponding faults by taking the corresponding faults as inquiry objects from a preset second database in which the faults and the collaborators and the collaboration modes required by the corresponding faults are stored;

if only one collaborator is needed for the corresponding fault, selecting the maintenance personnel with the shortest overall time consumption for notification;

and if a plurality of the cooperative personnel required by the corresponding fault are needed and the cooperative personnel are needed to be started and maintained on site at the same time, selecting the cooperative personnel with the shortest overall time consumption for notification.

4. The control method of the totally-enclosed and totally-insulated ring main unit according to claim 3, characterized in that: if only one collaborator is needed for the corresponding fault, the screening step of the maintenance personnel with the shortest overall time consumption is as follows:

the method comprises the steps that maintenance time of different maintenance personnel of corresponding fault types is inquired according to the fault types from a preset third database which stores the fault types which can be completed by only one person and the maintenance time of different maintenance personnel of corresponding types of faults, and the driving speed of the corresponding maintenance personnel is searched out synchronously from a preset fourth database which stores the maintenance personnel and the driving speed of the corresponding maintenance personnel;

acquiring the position of a totally-enclosed and fully-insulated ring network switch cabinet and the position of a maintenance worker maintaining a corresponding fault, planning a shortest path from the maintenance worker to the position of the totally-enclosed and fully-insulated ring network switch cabinet and acquiring the distance of the shortest path, taking the distance of the shortest path as a dividend and the driving speed of the corresponding maintenance worker as a divisor, acquiring the driving time of the maintenance worker, and taking the sum of the driving time of the maintenance worker and the maintenance time of the corresponding maintenance worker as the whole time of the maintenance worker;

and screening out the maintenance personnel with the shortest overall time consumption as the cooperative personnel required by the corresponding fault.

5. The control method of the totally-enclosed and totally-insulated ring main unit according to claim 4, characterized in that: if a plurality of collaborators are needed for corresponding faults and the collaborators need to be started and maintained on site at the same time, the screening step of the collaborators which consumes the shortest time overall is as follows:

the method comprises the steps of combining and matching preset time for completing maintenance of a plurality of faults needing to be maintained by a plurality of cooperative personnel and needing to be maintained by the cooperative personnel on site at the same time and different maintenance personnel with corresponding types of faults;

acquiring the travelling time of each maintenance worker in different combinations when the maintenance worker reaches the totally-enclosed and totally-insulated ring network switch cabinet, taking the travelling time consumed by the maintenance worker with the most travelling time of each combination as the time consumed by the corresponding maintenance worker combination when the maintenance worker reaches the site, and adding the time of completing maintenance by the corresponding maintenance worker combination and the total time consumed by the maintenance worker combination;

and screening out the maintenance personnel combination with the least total maintenance time as the cooperative personnel with the shortest overall time consumption.

6. The control method of the totally-enclosed and totally-insulated ring main unit according to claim 4, characterized in that: if a plurality of cooperative personnel required by corresponding faults need to be simultaneously on site for maintenance, the steps of notifying after confirming the cooperative personnel with the shortest overall time consumption are as follows:

the driving time consumption of each member in the cooperative personnel with the shortest overall time consumption is obtained, the consumed time of the maintenance personnel with the largest time consumption is taken as the number to be subtracted one by one, the driving time consumption of the rest members is taken as the number to be subtracted, and the difference time obtained one by one is taken as the notification time for notifying the maintenance personnel with the largest time consumption to each corresponding member after delaying;

and according to the notification time of notifying each corresponding member after the maximum maintenance personnel consumed the notification is delayed, and after the maximum maintenance personnel consumed the notification is completed, sending information notifications one by one.

7. The control method of the totally-enclosed and totally-insulated ring main unit according to claim 6, characterized in that: if a plurality of cooperative personnel required by corresponding faults are needed and the cooperative personnel need to be started and maintained on site at the same time, the step of notifying after confirming the cooperative personnel with the shortest overall time consumption further comprises the steps of after confirming the notification time of each maintenance personnel and before sending the information notification:

the method comprises the steps that the frequency of processing the current fault history problem and the corresponding problem by the corresponding maintenance personnel is found out from a preset fifth database which stores the maintenance personnel and the corresponding maintenance personnel for processing the problems which are caused by different faults in history, and the notes existing in the corresponding faults are found out from a preset sixth database which stores the faults and the notes in the corresponding fault maintenance process synchronously;

comparing the notice items existing in the corresponding faults with the problems which are processed by the corresponding maintenance personnel, screening out the same parts, sorting the parts in the same parts, then sorting the parts in the same parts according to the frequency of processing the problems which are processed by the corresponding maintenance personnel, and loading the result of the problem sorting into the short message which needs to be sent.

8. The utility model provides a management and control system of totally closed all insulation looped netowrk cubical switchboard which characterized in that: the fully enclosed and fully insulated ring main unit management and control method comprises a memory, a processor and a program stored on the memory and capable of running on the processor, wherein the program can be loaded and executed by the processor to realize the management and control method of the fully enclosed and fully insulated ring main unit according to any one of claims 1 to 7.

9. A computer storage medium, characterized in that: the control method comprises a program which can be loaded and executed by a processor to realize the control method of the totally enclosed and totally insulated ring main unit as claimed in any one of claims 1 to 7.

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