CN110751420A - Intelligent virtual inspection method and system for urban comprehensive pipe gallery - Google Patents

Abstract

The application discloses an intelligent virtual inspection method and system for a city comprehensive pipe gallery. And sending the work order of the inspection equipment to be maintained to corresponding operation and maintenance personnel by using the inspection report. This application can let fortune dimension personnel can be more clear understanding utility tunnel current operation safety and health status, in time discovers the problem of fortune dimension in-process to in time take measures to solve. In order to reduce fortune dimension personnel intensity of labour on the one hand, on the other hand can both be accurate and can guarantee the real-time of monitoring utility tunnel to automatically, generate the work order and dispatch to relevant fortune dimension personnel, in addition, the work order is with relevant accurate problem or trouble, fortune dimension personnel can accurate positioning problem place according to work order content, and in time solve the problem of involving, make utility tunnel can the safe and healthy operation.

Description

Intelligent virtual inspection method and system for urban comprehensive pipe gallery

Technical Field

The application relates to the technical field of comprehensive pipe galleries, in particular to an intelligent virtual inspection method and system for an urban comprehensive pipe gallery.

Background

An urban underground comprehensive pipe gallery (hereinafter referred to as a "pipe gallery") is a tunnel space built underground in a city, and is a structure and an accessory facility integrating electric power, communication, gas, heat supply, water supply and drainage and various engineering pipelines. According to the different nature of engineering pipeline, the different cabins are divided to the piping lane, and each cabin is kept apart each other, forms the passageway that can supply personnel and vehicle to march in every cabin along the length direction of engineering pipeline. As shown in fig. 1, the longitudinal section of the urban underground utility tunnel is a cross-sectional view, and the tunnel can be divided into a natural gas cabin 100, a utility cabin 200, an electric power cabin 300 and a thermal cabin 400 by taking four cabins as an example. As shown in fig. 2, the cross section of city utility tunnel's transverse section cross section, be equipped with a plurality of subsystems in every cabin of piping lane respectively, this subsystem is responsible for monitoring the piping lane for the healthy operation of piping lane, including multiple check out test set in the subsystem, lighting system, ventilation system, drainage system, fire extinguishing system, access control system (prevent fire door), power supply and distribution system, monitored control system, alarm system, communication system, electronic tags, prevent invading subsystem, camera monitored control system, humiture monitoring system, oxygen, methane, hydrogen sulfide concentration monitoring sensor, facilities such as level gauge. The pipe gallery is segmented in partitions, typically 200 meters per partition. And in order to guarantee that engineering pipelines and equipment instruments can both enter the pipe gallery, a lifting hole and an escape opening are arranged at intervals, and the lifting hole and the personnel escape opening are generally arranged at a flower bed in the middle of a road and do not occupy the road.

City utility tunnel is at the fortune dimension in-process, in order to guarantee the safety and the stability of piping lane fortune dimension, the testing data of various equipment, instrument must be real-time and accurate, just can effectively guarantee the safe effective operation of piping lane, when these equipment and instrument testing data are inaccurate or when the deviation appears, will mislead piping lane fortune dimension personnel to make the misjudgement, will produce dangerous consequence when serious. Therefore, regular inspection and maintenance of the equipment are of great importance, and only by ensuring stable operation of the equipment and the instrument and ensuring accuracy and precision of detection data, the safe and stable operation and maintenance of the pipe gallery can be effectively ensured. At present, operation and maintenance inspection of a comprehensive pipe gallery mainly depends on manual subjective observation, on one hand, efficiency is low, and on the other hand, errors caused by subjective factors are easily brought, such as missing inspection, untimely inspection, inspection result laying and the like.

Therefore, how to make the pipe gallery inspection efficient and the inspection result accurate becomes the problem to be solved urgently in the industry.

Disclosure of Invention

The application provides an intelligent virtual inspection method and system for an urban comprehensive pipe rack, and aims to solve the problems that the inspection efficiency of the pipe rack is low and the inspection result is inaccurate.

In a first aspect, the application provides an intelligent virtual inspection method for an urban comprehensive pipe gallery, which comprises the following steps:

acquiring routing inspection line information;

determining routing inspection equipment according to the routing inspection line information;

acquiring a polling result of polling equipment, and determining the running state of the polling equipment according to the polling result;

generating a polling report according to the running state of polling equipment;

generating a work order according to the inspection report, and determining the information of operation and maintenance personnel;

and sending the work order to terminal equipment of operation and maintenance personnel.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the routing inspection line information includes inspection equipment information and an inspection path, the inspection equipment information includes inspection equipment types or subsystem information, and the inspection path includes pipe rack information, cabin information, and partition information.

With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the determining, according to the patrol line information, an patrol device includes:

converting the routing inspection path into a routing inspection path partition chain, wherein the nodes of the routing inspection path partition chain consist of pipe gallery numbers, cabin numbers and partition numbers;

and screening the inspection equipment on the inspection path partition chain according to the inspection equipment information.

With reference to the second possible implementation manner of the first aspect, in a third possible implementation manner of the first aspect, an obtaining order of inspection results of the inspection equipment is determined according to the following steps:

generating an equipment list table of the inspection equipment according to the node sequence of the inspection path partition chain;

and determining the acquisition sequence of the inspection results of the inspection equipment according to the sequence of the inspection equipment in the equipment list table.

With reference to the first aspect, in a fourth possible implementation manner of the first aspect, the step of obtaining an inspection result of the inspection device includes:

the routing inspection line information also comprises routing inspection time or routing inspection frequency;

and acquiring the inspection result of the inspection equipment according to the inspection time or the inspection frequency.

With reference to the first aspect or the fourth possible implementation manner of the first aspect, in a fifth possible implementation manner of the first aspect, the step of obtaining an inspection result of the inspection device includes:

if the inspection equipment is equipment provided with a fault detection device, acquiring a detection code, wherein the detection code is an inspection result of the inspection equipment;

and if the inspection equipment is not equipment provided with a fault detection device, acquiring equipment operation data, wherein the equipment operation data is an inspection result of the inspection equipment.

With reference to the first aspect, in a sixth possible implementation manner of the first aspect, the generating a work order according to the inspection report includes:

acquiring fault equipment information in the routing inspection report;

and determining a work order according to the fault equipment information.

With reference to the first aspect, in a seventh possible implementation manner of the first aspect, the step of determining the operation and maintenance staff information includes:

the work order comprises the type of the fault equipment and the information of the subsystem to which the fault equipment belongs;

and determining the information of the operation and maintenance personnel according to the type of the fault equipment and the information of the subsystem to which the fault equipment belongs.

In a second aspect, the application provides an intelligent virtual inspection system for an urban comprehensive pipe gallery, which comprises a data processing subsystem and an inspection management subsystem;

the data processing subsystem comprises an equipment state monitoring module, and the inspection management subsystem comprises an inspection management module, a decision module and a work order module;

the inspection management module is used for acquiring inspection line information; determining routing inspection equipment according to the routing inspection line information;

the equipment state monitoring module is used for acquiring the inspection result of the inspection equipment;

the routing inspection management module is also used for receiving the routing inspection result of the routing inspection equipment sent by the equipment state detection module and sending the routing inspection result of the routing inspection equipment to the decision module;

the decision module is used for determining the running state of the inspection equipment according to the inspection result; generating a polling report according to the running state of polling equipment;

generating a work order according to the inspection report, and determining the information of operation and maintenance personnel;

and the work order module is used for receiving the operation and maintenance personnel information and the work order sent by the decision module and sending the work order to the terminal equipment of the operation and maintenance personnel.

With reference to the second aspect, in a first possible implementation manner of the second aspect, the data processing subsystem further includes a device management module;

the equipment management module is used for storing equipment information, belonging pipe gallery information, belonging cabin information and belonging partition information.

According to the technical scheme, the intelligent virtual inspection method and system for the urban comprehensive pipe gallery provided by the embodiment of the application can automatically perform inspection tasks according to the inspection line information, determine the running state of inspection equipment and generate an inspection report. And sending the work order of the inspection equipment to be maintained to corresponding operation and maintenance personnel by using the inspection report. This application embodiment can let fortune dimension personnel can be more clear understanding utility tunnel current operation safety and health status, in time discovers the problem of fortune dimension in-process to in time take measures to solve. In order to reduce fortune dimension personnel intensity of labour on the one hand, on the other hand can both be accurate and can guarantee the real-time of monitoring utility tunnel to automatically, generate the work order and dispatch to relevant fortune dimension personnel, in addition, the work order is with relevant accurate problem or trouble, fortune dimension personnel can accurate positioning problem place according to work order content, and in time solve the problem of involving, make utility tunnel can the safe and healthy operation.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

FIG. 1 is a longitudinal cross-sectional view of an urban underground utility tunnel;

FIG. 2 is a cross-sectional view of a transverse section of an urban underground utility tunnel;

fig. 3 is a flowchart of an intelligent virtual inspection method for an urban comprehensive pipe gallery according to the embodiment of the application;

fig. 4 is a flowchart of an intelligent virtual inspection method for an urban comprehensive pipe gallery according to still another embodiment of the present application;

fig. 5 is a flowchart of an intelligent virtual inspection method for an urban comprehensive pipe gallery according to another embodiment of the present application;

fig. 6 is a schematic structural diagram of an intelligent virtual inspection system for an urban comprehensive pipe gallery according to still another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

The piping lane is according to professional technical requirement needs such as water supply, power supply, air feed, heat supply, distribute these professional pipelines in corresponding cabin according to professional technical requirement, and install various instrumentation, equipment as required, in order to guarantee the normal work of supply transmission line, but in order to make these instruments, equipment remain steady operation all the time, it is accurate to detect, just need arrange the operation and maintenance personnel regularly to maintain the instrument, equipment, need a large amount of manpowers, and need personnel subjective judgement trouble and input the result of patrolling and examining, also be difficult to guarantee the accuracy of data like this, on the one hand, it is inefficient to patrol and examine, on the other hand can appear lou examining, patrol and examine untimely and patrol and examine the result and lay the subjective error that brings in such as affair, finally influence the safe and stable operation and maintenance of utility tunnel.

Aiming at the problems in the prior art, the embodiment of the application shows an intelligent virtual inspection method for an urban comprehensive pipe gallery, which comprises the following steps as shown in fig. 3:

s100, acquiring routing inspection line information;

specifically, because among the prior art, utilize the direct equipment of patrolling and examining of fortune dimension personnel, probably cause a lot of unfavorable condition, so this application embodiment, according to actual conditions, preset patrols and examines circuit information. Then, according to the inspection line information, the running state of the inspection equipment is automatically acquired, manual intervention is not needed, and the running condition of the inspection equipment is more accurately known.

S200, determining inspection equipment according to the inspection line information;

in one possible implementation, the routing inspection line information includes inspection equipment information and an inspection path, the inspection equipment information includes inspection equipment type or subsystem information, and the inspection path includes pipe gallery information, cabin information, and partition information.

Specifically, the routing inspection line information in the embodiment of the application is equipment which needs to be subjected to routing inspection in order to indicate, and the routing inspection path comprises all partitions to be inspected along the path. However, there are many devices in the partition, so the inspection device is determined by the type of the inspection device or the subsystem information.

For convenience of description of the partition, the partition is comprehensively described by using the pipe gallery information, the cabin information and the partition information in the embodiment of the present application, for example, the pipe gallery information is a first pipe gallery, the cabin information is a natural gas cabin, and the partition information is a first partition, and at this time, the partition may be determined as a first partition in the natural gas cabin in the first pipe gallery. The routing inspection path includes a plurality of partitions, each of which may be determined using the tube lane information, the cabin information, and the partition information.

The inspection equipment comprises a fan, a water pump and/or an oxygen concentration sensor and the like, and is not limited to the contents described above. The equipment type of patrolling and examining can be one, also can be multiple combination, for example patrolling and examining the equipment type and including the fan, under another kind of circumstances, patrolling and examining the equipment type and can including fan and water pump. When the types of the inspection equipment comprise the fans, all the fans in all the partitions in the inspection path are determined as the inspection equipment, and when the types of the inspection equipment comprise the fans and the water pumps, all the fans and the water pumps in all the partitions in the inspection path are determined as the inspection equipment.

The inspection equipment information can further comprise subsystem information, the subsystem information can be a first subsystem, and the subsystem comprises multiple kinds of equipment. And when the inspection equipment information is the subsystem information, all equipment in the subsystem is determined as the inspection equipment.

In a possible implementation manner, as shown in fig. 4, the step of determining the inspection equipment according to the inspection line information includes:

step S201, converting the routing inspection path into a routing inspection path partition chain, wherein the nodes of the routing inspection path partition chain consist of pipe gallery numbers, cabin numbers and partition numbers;

and S202, screening the inspection equipment on the inspection path partition chain according to the inspection equipment information.

Specifically, in order to facilitate description of the partition and not drop the device to be patrolled, the embodiment of the application converts the patrol path into the patrol path partition chain. This application embodiment, for the equipment serial number of patrolling and examining in the subregion and the subregion of every piping lane serial number, the cabin serial number of every piping lane, the cabin, every equipment of patrolling and examining all has affiliated piping lane, affiliated cabin, affiliated subregion, affiliated subsystem, wherein the subsystem includes: the system comprises an environment monitoring subsystem, a video monitoring subsystem, an intrusion detection subsystem, an entrance guard subsystem, a fire alarm subsystem and the like.

Table 1 shows the equipment names, equipment numbers, numbers of the belonging pipe corridors, numbers of the belonging cabins, numbers of the belonging partitions and numbers of the belonging subsystems of different inspection equipment.

Device name	Device numbering	Belonging pipe gallery number	Number of the cabin	Number of the belonging partition	Belonging subsystem
						Fan blower	FAN_0001	T_01	C_01	A_001	S_02
Water pump	PUMP_0005	T_01	C_01	A_001	S_02
						Temperature and humidity sensor	TH_0006	T_01	C_03	A_003	S-01
…	…	…	…	…	…
						Oxygen concentration sensor	OX_0001	T_02	C_01	A_002	S_01
Hydrogen sulfide concentration sensor	H2S_0004	T_01	C_02	A_001	S_01
						Optical fiber telephone	PH_0005	T_03	C_03	A_019	S_06
Camera head	VID_0008	T_04	C_04	A_023	S_05

For example, the inspection path is an inspection path composed of a pipe corridor number, a cabin number and a partition number, wherein each node is represented by a pipe corridor number, a cabin number and a partition number, such as { (T _01, C _02, a _001), (T _01, C _02, a _002), (T _01, C _02, a _003), (T _01, C _02, a _004), (T _02, C _01, a _007), (T _02, C _01, a _008), (T _02, C _01, a _009) … }, and the inspection path includes all partitions to be inspected along the way, and the partitions form a partition chain of the inspection path.

And screening the inspection equipment on the inspection path partition chain according to the inspection equipment information.

Specifically, according to the information of the inspection equipment, the inspection equipment is screened out from a plurality of equipment on the nodes of the inspection path partition chain.

S300, acquiring a polling result of the polling equipment, and determining the running state of the polling equipment according to the polling result;

in the embodiment of the application, the inspection result of the inspection equipment is automatically acquired. And determining the running state of the inspection equipment according to the inspection result, wherein the running state of the inspection equipment can be normal or fault.

In a possible implementation manner, since the number of the inspection equipment may be multiple, in order to sort the operation results of the inspection equipment, the acquisition order of the inspection results of the inspection equipment according to the embodiment of the application is determined according to the following steps:

generating an equipment list table of the inspection equipment according to the node sequence of the inspection path partition chain;

and determining the acquisition sequence of the inspection results of the inspection equipment according to the sequence of the inspection equipment in the equipment list table.

In the embodiment of the application, the sequence of the inspection equipment in the equipment list table of the inspection equipment is determined, and the sequence of the operation result of the inspection equipment is obtained.

In a possible implementation manner, the step of obtaining the inspection result of the inspection device includes:

the routing inspection line information also comprises routing inspection time or routing inspection frequency;

and acquiring the inspection result of the inspection equipment according to the inspection time or the inspection frequency.

Specifically, because the result of patrolling and examining of equipment is patrolled and examined for automatic acquisition in this application embodiment, can be based on the time of patrolling and examining of predetermineeing or patrol and examine the frequency and obtain during automatic acquisition. For example, the patrol time may be three points, five points, and others. The polling frequency can be the number of polling each day, three times a day or five times a day.

In a possible implementation manner, as shown in fig. 5, the step of obtaining the inspection result of the inspection device includes:

s301, if the inspection equipment is equipment provided with a fault detection device, acquiring a detection code, wherein the detection code is an inspection result of the inspection equipment;

step S302, if the inspection equipment is not equipment provided with a fault detection device, acquiring equipment operation data, wherein the equipment operation data is an inspection result of the inspection equipment.

Specifically, equipment in the piping lane divide into two kinds, one kind is equipment is from taking fault detection means, so only need read its fault detection code can confirm the running state who patrols and examines equipment, judges whether equipment breaks down of patrolling and examining, and another kind is equipment self does not possess the fault detection function, needs to set for some diagnostic criteria to the fault detection who patrols and examines equipment this moment, predetermines equipment normal operating data, contrast equipment operating data and equipment normal operating data, confirms the running state who patrols and examines equipment. In addition, the embodiment of the application stores the inspection result.

S400, generating a polling report according to the running state of polling equipment;

specifically, the operation state of each inspection device is determined, and an inspection report is generated, wherein the inspection report comprises the operation state of each inspection device.

S500, generating a work order according to the inspection report, and determining information of operation and maintenance personnel;

in a possible implementation manner, the step of generating a work order according to the inspection report includes:

acquiring fault equipment information in the routing inspection report;

and determining a work order according to the fault equipment information.

Specifically, if the routing inspection equipment with faults exists in the routing inspection report, the work order is determined according to the routing inspection equipment with faults. In addition, if the routing inspection equipment with faults does not exist in the routing inspection report, the work order is not generated.

In a possible implementation manner, the step of determining the operation and maintenance personnel information includes:

the work order comprises the type of the fault equipment and the information of the subsystem to which the fault equipment belongs;

and determining the information of the operation and maintenance personnel according to the type of the fault equipment and the information of the subsystem to which the fault equipment belongs.

Specifically, the fault equipment types comprise a fan, a water pump and/or an oxygen concentration sensor and the like, and the subsystem information comprises an environment monitoring subsystem, a video monitoring subsystem, an intrusion detection subsystem, an entrance guard subsystem, a fire alarm subsystem and the like. And determining the operation and maintenance personnel to be assigned by the work order according to the specific content in the work order because the different operation and maintenance personnel have different professions.

And S600, sending the work order to terminal equipment of operation and maintenance personnel.

And sending the work order to an operation and maintenance worker, and maintaining the fault equipment by the operation and maintenance worker through the work order. Therefore, in the embodiment of the application, the operation and maintenance personnel only need to maintain the fault equipment after receiving the work order, and do not need to go to the detection equipment on the spot to obtain the specific condition of the equipment.

The method and the device for processing the work order further comprise the step of tracking the work order process, but after the operation and maintenance personnel receive the work order, whether the fault in the work order is solved or not is needed.

According to the embodiment of the application, the UI interface is provided for the user to specify the routing inspection line information. After the setting is finished, the system automatically activates and appoints the routing inspection task according to the routing inspection time or the routing inspection frequency, intelligent virtual routing inspection is carried out, all instruments and equipment on the way along the route are subjected to fault diagnosis, a routing inspection report is automatically generated according to the diagnosis result, whether a work order is dispatched or not is automatically judged according to the routing inspection report result, and the work order is dispatched to the work staff of the relevant technology on duty to carry out maintenance processing.

In a second aspect, an embodiment of the present application provides an intelligent virtual inspection system for an urban comprehensive pipe gallery, as shown in fig. 6, including a data processing subsystem 100 and an inspection management subsystem 200;

the data processing subsystem 100 comprises an equipment state monitoring module 101, and the patrol management subsystem comprises a patrol management module 201, a decision module 201 and a work order module 203;

the inspection management module 201 is used for acquiring inspection line information; determining routing inspection equipment according to the routing inspection line information;

the equipment state monitoring module 101 is used for acquiring an inspection result of the inspection equipment;

the routing inspection management module is also used for receiving the routing inspection result of the routing inspection equipment sent by the equipment state detection module and sending the routing inspection result of the routing inspection equipment to the decision module;

the decision module is used for determining the running state of the inspection equipment according to the inspection result; generating a polling report according to the running state of polling equipment;

generating a work order according to the inspection report, and determining the information of operation and maintenance personnel;

and the work order module is used for receiving the operation and maintenance personnel information and the work order sent by the decision module and sending the work order to the terminal equipment of the operation and maintenance personnel.

In one possible implementation, the data processing subsystem further includes a device management module;

the device management module 102 is configured to store device information, belonging pipe gallery information, belonging cabin information, and belonging partition information. The system further comprises a database 300, the database 300 being connected to the device management module.

According to the technical scheme, the intelligent virtual inspection method and system for the urban comprehensive pipe gallery provided by the embodiment of the application can automatically perform inspection tasks according to the inspection line information, determine the running state of inspection equipment and generate an inspection report. And sending the work order of the inspection equipment to be maintained to corresponding operation and maintenance personnel by using the inspection report. This application embodiment can let fortune dimension personnel can be more clear understanding utility tunnel current operation safety and health status, in time discovers the problem of fortune dimension in-process to in time take measures to solve. In order to reduce fortune dimension personnel intensity of labour on the one hand, on the other hand can both be accurate and can guarantee the real-time of monitoring utility tunnel to automatically, generate the work order and dispatch to relevant fortune dimension personnel, in addition, the work order is with relevant accurate problem or trouble, fortune dimension personnel can accurate positioning problem place according to work order content, and in time solve the problem of involving, make utility tunnel can the safe and healthy operation.

In a specific implementation manner, the present application further provides a computer storage medium, where the computer storage medium may store a program, and when the program is executed, the program may include some or all of the steps in each embodiment of the city utility tunnel intelligent operation and maintenance health monitoring and evaluation method provided by the present application. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM) or a Random Access Memory (RAM).

Those skilled in the art will clearly understand that the techniques in the embodiments of the present application may be implemented by way of software plus a required general hardware platform. Based on such understanding, the technical solutions in the embodiments of the present application may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the embodiments or some parts of the embodiments of the present application.

The same and similar parts in the various embodiments in this specification may be referred to each other. Especially, for the embodiment of the intelligent guiding system of the urban underground comprehensive pipe gallery, the description is simple because the embodiment is basically similar to the embodiment of the method, and relevant points can be referred to the description in the embodiment of the method.

The above-described embodiments of the present application do not limit the scope of the present application.

Claims (10)

1. The intelligent virtual inspection method for the urban comprehensive pipe gallery is characterized by comprising the following steps:

acquiring routing inspection line information;

determining routing inspection equipment according to the routing inspection line information;

acquiring a polling result of polling equipment, and determining the running state of the polling equipment according to the polling result;

generating a polling report according to the running state of polling equipment;

generating a work order according to the inspection report, and determining the information of operation and maintenance personnel;

and sending the work order to terminal equipment of operation and maintenance personnel.

2. The method of claim 1, wherein the inspection line information includes inspection equipment information including inspection equipment type or subsystem information and an inspection path including piping lane information, cabin information, and partition information.

3. The method of claim 2, wherein the step of determining the inspection equipment based on the inspection line information includes:

converting the routing inspection path into a routing inspection path partition chain, wherein the nodes of the routing inspection path partition chain consist of pipe gallery numbers, cabin numbers and partition numbers;

and screening the inspection equipment on the inspection path partition chain according to the inspection equipment information.

4. The method according to claim 3, wherein the order of obtaining the inspection results of the inspection equipment is determined according to the following steps:

generating an equipment list table of the inspection equipment according to the node sequence of the inspection path partition chain;

and determining the acquisition sequence of the inspection results of the inspection equipment according to the sequence of the inspection equipment in the equipment list table.

5. The method of claim 1, wherein the step of obtaining inspection results of the inspection equipment comprises:

the routing inspection line information also comprises routing inspection time or routing inspection frequency;

and acquiring the inspection result of the inspection equipment according to the inspection time or the inspection frequency.

6. The method according to claim 1 or 5, wherein the step of obtaining inspection results of the inspection equipment comprises:

if the inspection equipment is equipment provided with a fault detection device, acquiring a detection code, wherein the detection code is an inspection result of the inspection equipment;

and if the inspection equipment is not equipment provided with a fault detection device, acquiring equipment operation data, wherein the equipment operation data is an inspection result of the inspection equipment.

7. The method of claim 1, wherein the step of generating a work order from the inspection report comprises:

acquiring fault equipment information in the routing inspection report;

and determining a work order according to the fault equipment information.

8. The method of claim 1, wherein the step of determining the operation and maintenance personnel information comprises:

the work order comprises the type of the fault equipment and the information of the subsystem to which the fault equipment belongs;

and determining the information of the operation and maintenance personnel according to the type of the fault equipment and the information of the subsystem to which the fault equipment belongs.

9. An intelligent virtual inspection system for an urban comprehensive pipe gallery is characterized by comprising a data processing subsystem and an inspection management subsystem;

the data processing subsystem comprises an equipment state monitoring module, and the inspection management subsystem comprises an inspection management module, a decision module and a work order module;

the inspection management module is used for acquiring inspection line information; determining routing inspection equipment according to the routing inspection line information;

the equipment state monitoring module is used for acquiring the inspection result of the inspection equipment;

the routing inspection management module is also used for receiving the routing inspection result of the routing inspection equipment sent by the equipment state detection module and sending the routing inspection result of the routing inspection equipment to the decision module;

the decision module is used for determining the running state of the inspection equipment according to the inspection result; generating a polling report according to the running state of polling equipment;

generating a work order according to the inspection report, and determining the information of operation and maintenance personnel;

and the work order module is used for receiving the operation and maintenance personnel information and the work order sent by the decision module and sending the work order to the terminal equipment of the operation and maintenance personnel.

10. The system of claim 9, wherein the data processing subsystem further comprises a device management module;

the equipment management module is used for storing equipment information, belonging pipe gallery information, belonging cabin information and belonging partition information.

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