CN111160574B - Method for tracking whole operation and maintenance process equipment of deep sea detection equipment - Google Patents

Abstract

The invention provides a method for tracking the whole operation and maintenance process equipment of a deep sea detection device. The method adopts the idea of mapping real world things into a software system, maps the in-service structure, in-service list and operation and maintenance service of a submersible, parts and spare parts into the software system based on a submersible tree structure model, and updates the in-service list by service driving, thereby realizing the effect of dynamically synchronizing the in-service list of the submersible with the real submersible in the software system, carrying out 'snapshot' presentation on the current operation and maintenance state of the submersible, and carrying out 'video' tracking on the historical operation and maintenance. Based on the method, a software implementation means is utilized to construct a whole process equipment tracking software system for the operation and maintenance of the deep sea detection equipment. The method provides equipment tracking method support for the operation and maintenance of the deep sea detection equipment, and achieves the purpose of improving the operation safety of the submersible and the normalization of the operation and maintenance process.

Description

Method for tracking whole operation and maintenance process equipment of deep sea detection equipment

Technical Field

The invention relates to a method for tracking equipment in the whole operation and maintenance process of deep sea detection equipment, which is applied to the operation and maintenance process of the deep sea detection equipment and provides equipment tracking method support for the operation and maintenance of the deep sea detection equipment, thereby achieving the purpose of improving the operation safety of a submersible and the normalization of the operation and maintenance process.

Background

The deep sea detection equipment belongs to equipment with extremely high reliability requirements, and meanwhile, as the number of the tasks of the submersible is increased, the task diversity is increased, the submarine operation topography is more complicated, the service duration is increased, the aging phenomenon of the equipment in the application process is increasingly obvious, and faults generated due to the service life of the equipment and parts are increased year by year, so that an equipment tracking method for the whole operation and maintenance process of the submersible is urgently needed to support the operation and maintenance work of the submersible so as to improve the operation and maintenance reliability.

There are some software in the field of equipment operation and maintenance, such as OPUSl0, CATLOC, and SIMLOX, etc. The OPUSlO is software which is focused on the aspect of configuration planning of spare parts, has the functions of spare part optimization, cost efficiency analysis and the like, the CATLOC focuses on the calculation of the guarantee cost, and the SIMLOX focuses on scene simulation. None of the software has the function of equipment tracking for the whole operation and maintenance process, and a method for tracking the whole operation and maintenance process is lacked.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide a method for tracking operation and maintenance whole process equipment of deep sea detection equipment.

The technical scheme adopted for solving the technical problems is as follows: the whole process equipment tracking method for the operation and maintenance of the deep sea detection equipment is characterized by comprising the following steps of:

modeling a tree structure of the submersible: establishing a tree structure model of the submersible according to the membership of each subsystem device of the submersible;

tree structure mapping of parts and spare parts: based on the diving equipment tree structure model, taking a tree structure subset of the diving equipment tree structure model, and mapping to obtain a tree structure of parts and spare parts;

in-service manifest mapping: constructing an in-service inventory of the submersible, the parts and the spare parts based on the tree structures of the submersible, the parts and the spare parts and the uniquely coded equipment;

operation and maintenance service mapping: the modification of the actual operation and maintenance service to the structures of the diving device, the parts and the spare parts is mapped into the record of the operation and maintenance service and the modification of the in-service list;

in-service inventory query: and inquiring an in-service list of the submersible, the parts and the spare parts, and forming an equipment history by using a history change record of the in-service list.

The modeling of the tree structure of the submersible comprises the following steps:

according to the membership of each subsystem device of the submersible, each node in the tree structure is established; configuration of submersible tree node attributes.

The submersible tree structure node attributes include:

whether it belongs to an in-service inventory, whether it belongs to a spare parts inventory, whether it is installable, whether it is a low value node, whether it is only counted.

The tree structure mapping of the spare parts comprises the following steps:

because the tree structures of the parts and the spare parts are the tree structure subset of the diving equipment tree structure, the respective tree structures of the parts and the spare parts are obtained by mapping based on the diving equipment tree structure model.

The in-service list is a combination of in-service structures and operation information of the submersible, the parts and the spare parts;

the operation information is the installation or unloading information aiming at a certain tree node of the submersible, the parts and the spare parts, and comprises an operator, operation time and equipment information;

the device has a unique identification code.

The unique identification code is a three-level code and is divided into an equipment tree code, a manufacturer type number and a running water code;

equipment tree code: the equipment tree code is a code consistent with the tree structure model code, and identifies the position of equipment on the submersible;

manufacturer number: uniquely identifying the manufacturer model corresponding to the equipment tree code;

and (3) a running water code: on the basis of the same equipment tree code and manufacturer type number, the unique identification of the serial number is realized.

The operation and maintenance service is aimed at operation and maintenance contents of the diving device, the parts and the spare parts, and comprises operation information, operation and maintenance places and operation and maintenance image data.

The operation and maintenance service mapping comprises the following steps:

1) Finding an in-service manifest for a parent device

Under the condition of in-service operation and maintenance, directly using the tree structure and operation information of the submersible to form an in-service list of the submersible body;

under the condition of hand operation and maintenance, judging whether the parent equipment has operation information or not; when the device is not operated, no operation information exists; if the parent equipment has the operation information, generating an in-service list according to the tree structure of the parent equipment and the operation information; if the parent equipment has no operation information, acquiring a tree structure taking the equipment as a root node in a submersible tree model structure, and directly initializing an in-service list of the equipment;

2) Searching an in-service manifest of a child device

Under the condition of in-service operation and maintenance and the condition of hand operation and maintenance, searching an in-service list of the sub-equipment;

if the sub-equipment has the operation information, generating an in-service list according to the tree structure and the operation information of the sub-equipment; if the sub-equipment has no operation information, acquiring a tree structure taking the equipment as a root node in a submersible tree structure, and directly initializing an in-service list of the equipment;

3) Mounting or dismounting:

and (3) mounting operation: recursively comparing the tree structure of the child equipment with the tree structure of the parent equipment, if the tree structure of the child equipment is completely consistent with the tree structure of the parent equipment, supplementing an in-service list of the child equipment into the in-service list of the parent equipment, and if the tree structure of the child equipment is inconsistent with the in-service list of the parent equipment, not installing the in-service list;

unloading operation: the in-service list belonging to the child device is directly deleted from the operation information of the parent device, and the child device exists as an independent device and also has an in-service list.

The main equipment and the auxiliary equipment are objects related to operation and maintenance service, namely the main equipment is an installed or uninstalled carrier, and the auxiliary equipment is an uninstalled or installed part and spare part; the unloading process is to unload a plurality of sub-devices from the mother device, and the installing process is to install a plurality of sub-devices onto the mother device.

The operation and maintenance service is divided into in-service operation and in-hand operation and maintenance; the mother equipment in service operation and maintenance is a diving device body, and the mother equipment in hand operation and maintenance is a part and a spare part.

The invention has the following beneficial effects and advantages:

1. the invention provides an operation and maintenance whole process equipment tracking method for covering a submersible, parts and spare parts. The method comprises the steps of modeling a submersible tree structure, mapping the tree structures of parts and spare parts and mapping an in-service list, modeling a digital model of specific equipment of the submersible, the parts and the spare parts, and mapping operation and maintenance service into updating operation of the in-service list, so that the whole operation and maintenance process tracking of snapshot type and video type equipment is realized.

2. The invention provides an operation and maintenance whole process equipment tracking method closely combined with actual operation and maintenance service. The operation and maintenance service mapping part in the method combines and realizes the actual operation and maintenance service in the modes of installation, unloading and the like so as to adapt to the actual service flow such as the assembly and disassembly project, the maintenance project, the assembly joint debugging project and the like.

Drawings

FIG. 1 is a schematic diagram of the design concept of the present invention;

FIG. 2 is an overall algorithm flow chart of the present invention;

FIG. 3 is a flow chart of the installation and removal algorithm of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

The invention adopts the idea of mapping real world things into a software system, maps the tree structure of a submersible, parts and spare parts, an in-service list and operation and maintenance service into the software system based on the submersible tree structure model, and updates the in-service list by service driving, thereby realizing the effect of dynamically synchronizing the in-service list of the submersible with the real submersible in the software system, carrying out 'snapshot' presentation on the current operation and maintenance state of the submersible, and carrying out 'video' tracking on the historical operation and maintenance. The method provides equipment tracking method support for the operation and maintenance of the deep sea detection equipment, and achieves the purpose of improving the operation safety of the submersible and the normalization of the operation and maintenance process.

The deep sea detection device of the embodiment is a submersible.

Modeling a tree structure of the submersible: establishing a tree structure model of the submersible according to the membership of each subsystem device of the submersible;

tree structure mapping of parts and spare parts: based on the diving equipment tree structure model, taking a tree structure subset of the diving equipment tree structure model, and mapping to obtain a tree structure of parts and spare parts;

in-service manifest mapping: constructing an in-service inventory of the submersible, the parts and the spare parts based on the tree structures of the submersible, the parts and the spare parts and the uniquely coded equipment;

operation and maintenance service mapping: the modification of the operation and maintenance service to the structures of the diving device, the parts and the spare parts, such as installation and unloading, is mapped into the record of the operation and maintenance service in the software system and the modification of the in-service list;

in-service inventory query: the 'snapshot' in-service list of the diving device, the parts and the spare parts is visually inquired, and the history change record of the in-service list forms a 'video' equipment history.

Based on the method, the deep sea detection equipment operation and maintenance whole process equipment tracking information system is constructed through five steps of submersible tree structure modeling, in-service structure mapping of parts and spare parts, in-service list mapping, operation and maintenance service mapping, snapshot and video tracking.

A method for tracking the whole process equipment of operation and maintenance of a deep sea detection device comprises the following steps:

(1) Submersible tree modeling

And establishing a tree structure model of the submersible according to the membership of each subsystem device of the submersible.

(2) Tree structure mapping of parts and spare parts

Based on the diving equipment tree structure model, a tree structure subset is taken, and the tree structures of the parts and spare parts are obtained through mapping.

(3) In-service inventory mapping

An in-service inventory of the submersible, the parts, the spare parts is constructed based on the tree structure of the submersible, the parts, the spare parts, and the uniquely encoded devices.

(4) Operation and maintenance service mapping

Modifications, e.g., installation, uninstallation, of the operation and maintenance service to the structure of the submersible, parts, spare parts are mapped to records of the operation and maintenance service in the software system, and modifications to the in-service inventory.

(5) In-service inventory query

The 'snapshot' in-service list of the diving device, the parts and the spare parts is visually inquired, and the history change record of the in-service list forms a 'video' equipment history.

The method comprises the steps of modeling a tree structure of the submersible:

the model building of the tree structure of the submersible takes the submersible as an object, and the model building of the equipment structure is carried out on the submersible by taking the tree structure as an object.

The tree structure modeling of the submersible is configured according to the attributes of whether the node belongs to an in-service list, whether the node belongs to a spare part list, whether the node can be installed, whether the node is a low-value node, whether the node is only counted and the like.

The method comprises the following steps of mapping the tree structure of the spare parts:

the mapping of the tree structures of the parts and spare parts means that the corresponding tree structures of the parts and spare parts are mapped in a software system, and unique coding identification is carried out on each node of the parts and spare parts.

The tree structure of the parts and spare parts is based on the tree structure of the submersible and is described in the form of a subset of the tree structure.

Having an in-service manifest mapping step:

the in-service inventory refers to the combination of the tree structure and the operation information of the submersible, the parts and the spare parts. The operation information includes specific device information. The specific device has a unique identification code.

The unique identification code of the equipment is a three-level code, and is divided into an equipment tree code, a manufacturer number and a running water code.

Equipment tree code: the equipment tree code is a code consistent with the tree structure model code, and identifies the position of equipment on the submersible;

manufacturer number: uniquely identifying the manufacturer model corresponding to the equipment tree code;

and (3) a running water code: on the basis of the same equipment tree code and manufacturer type number, the unique identification of the serial number is realized.

The operation and maintenance service mapping step comprises the following steps:

the operation and maintenance service refers to the installation and the unloading of pointers to the diving equipment, parts and spare parts;

the objects related to the operation and maintenance service include a parent device and child devices, for example, the uninstalling process is to uninstall a plurality of child devices from the parent device, and the installing process is to install a plurality of child devices onto the parent device.

The operation and maintenance service is divided into in-service operation and in-hand operation and maintenance. The master device in service operation is the body of the submersible, the master device in hand operation is some device of the submersible, and the device is not mounted to the submersible.

Has snapshot and video tracking steps:

and updating the in-service equipment list by using the operation and maintenance service mapping, so that the synchronization of the in-service list of the submersible, the parts and the spare parts with the real world is realized, and the effect that the in-service list of the current submersible, the parts and the spare parts, namely the snapshot tracking effect, can be visually checked from a software system is achieved.

And recording the whole process of the operation and maintenance business content and the update history of the in-service equipment list through a software system, thereby forming video tracking.

As shown in fig. 1, the design concept of the present invention is illustrated. The real world is mapped into the virtualized world, and things in the real world are abstracted and simulated by using an algorithm, wherein 'things' comprise operation and maintenance services, and 'things' comprise a submersible body and parts.

In the real world, operation and maintenance services are specific manifestations of driving state changes of a submersible body and parts. In the virtualized world, operation and maintenance service mapping is installation, unloading and the like, the tree structure model of the submersible body is communicated with the tree structure models of the parts and spare parts, and communication records are recorded and saved to form a snapshot-type in-service list of the submersible body and the parts and a video-type electronic record list of the submersible body and the parts.

As shown in fig. 2, an overall algorithm flow diagram of the present invention is shown. The whole algorithm flow comprises five steps, namely, submersible tree structure modeling, spare part and spare part tree structure mapping, in-service list mapping, operation and maintenance service mapping and in-service state mapping.

The modeling of the submersible tree structure comprises the establishment of a subsystem of the submersible, modeling of the submersible tree structure based on the subsystem of the submersible tree structure, and configuration of node attributes of the tree structure. The tree structure is an abstract concept, which is an abstraction of the structure of the submersible. The tree structure node has a unique code, e.g., position 1, the code of the sonar in the device tree is "QB03-SN-01", which has a transducer child node, the code is "QB03-SN-01-HNQ".

The tree structure mapping of the spare parts and the spare parts is based on tree structure modeling, and the tree structure mapping of the diving equipment, the spare parts and the spare parts is carried out, so that modeling of all specific equipment related to operation and maintenance is realized. For example, the position 1 on the submersible is a sonar, the spare parts of the newly purchased spare parts are a sonar, the unloaded old sonar is a sonar, after in-service structure mapping is carried out, the codes are QB03-SN-01, each transducer sub-node is included, and the codes are QB 03-SN-01-HNQ.

The in-service list mapping is an in-service list obtained by combining in-service structure and operation information for a specific device.

The specific equipment coding uses three stages of equipment tree structure coding, manufacturer number and stream code for coding. For example, QB03-SN-01 x 001 x 002, where "QB03-SN-01" indicates the No. 1 position of the acoustic subsystem of the submersible, and "001" indicates a certain manufacturer of the sonar, and "002" indicates the 2 nd of the model purchased from the manufacturer, and one of the two is uniquely identified by the three-level code. The anti-collision sonar transducer is a child node of the anti-collision sonar, for example, the node code is "QB03-SN-01-HNQ", the device code of the transducer purchased independently is for example "QB 03-SN-01-HNQ-001 x 002", but the transducer unloaded from the anti-collision sonar "QB03-SN-01 x 001 x 002" is not purchased independently, has no direct manufacturer and model, and needs to indicate the association relationship between the transducer and the parent device, so that the unique code is generated in a form of generating a four-level false code, for example, "QB03-SN-01 x 001 x 002 x QB03-SN-01-HNQ", which represents the transducer unloaded from the device "QB03-SN-01 x 001 x 002", and after unloading, the transducer performs any other operation in the system by taking the code as a unique identifier.

The in-service manifest mapping is the process that the in-service structure code corresponds to a specific device code. For example, in-service list mapping of spare parts and spare parts anti-collision sonars, namely in-service structure 'QB 03-SN-01' corresponds to 'QB 03-SN-01 x 001', and in-service structure 'QB 03-SN-01' corresponds to 'QB 03-SN-01 x 001 x 002' of the 1 st position anti-collision sonar on the submersible.

The operation and maintenance service mapping is to map specific operation elements of the assembly and disassembly project, the maintenance project and the assembly and debugging project, such as installation, unloading and the like. The operation element mapping is specifically implemented by carrying out service communication such as installation and unloading on the parts in service state and the submersible in service state. For example, unloading the transducer of the No. 1 anti-collision sonar, and reinstalling a new transducer, which is coded as "QB03-SN-01-HN 001 x 002", unloading the transducer in the service structure, "QB03-SN-01 x 002 x QB03-SN-01-HNQ", and installing the new transducer, "QB03-SN-01-HN x 001 x 002", wherein the finally formed code of the No. 1 position anti-collision sonar in the service device structure is "QB03-SN-01 x 001 x 002", and the code of the sub-node transducer is "QB03-SN-01-HN x 001 x 002".

Snapshot and video tracking is the result presentation of the present invention. The device record of each part of the "video recording type" and the device record of the diving equipment. For example, for the anti-collision sonar at position 1, the "snapshot" in-service list is displayed, the code of the "QB03-SN-01 x 001 x 002" is displayed, the code of the child node transducer is "QB03-SN-01-HN x 001 x 002", and the information such as the manufacturer model, the final installation date, the installer and the like corresponding to each code can be visually displayed. In the record of the video-recording type equipment, all marks left in the system by the unique codes of the equipment can be checked to form time dimension information, namely purchase, installation and maintenance information of the anti-collision sonar QB03-SN-01 x 001 x 002, and purchase and installation information of the transducer QB03-SN-01-HN x 001 x 002, and the like.

As shown in fig. 3, a flow chart of a critical setup, load and unload dimension traffic mapping algorithm of the present invention is shown.

The installation and uninstallation algorithm flow is divided into in-service operation and in-hand operation according to operation and maintenance modes. In-service operation and maintenance refers to operation and maintenance services directly performed on the submersible. In hand operation means that a component is operated when it is unloaded from the submersible and when it is in hand or when it is not yet mounted to the submersible. For example, the anti-collision sonar "QB03-SN-01 x 001 x 002" is installed on the submersible, and is in-service operation and maintenance when the anti-collision sonar is directly operated and maintained, and is in hand operation and maintenance when the anti-collision sonar is not installed on the submersible yet and is required to be operated and maintained.

The objects of interest for the install and uninstall algorithm are divided into parent and child devices. A parent device refers to a device that is installed to, or an off-load source. A sub-device refers to a component that is installed or a component that is uninstalled. For example, when one transducer is unloaded from the anti-collision sonar "QB03-SN-01 x 001 x 002", the anti-collision sonar is a parent device, and the unloaded transducer is a child device.

The algorithm flow mainly comprises the following three parts:

1) Finding an in-service manifest for a parent device

Under the condition of in-service operation and maintenance, directly using the tree structure and operation information of the submersible to form an in-service list of the submersible body;

in the case of hand operation, it is necessary to determine whether the device has operation information. When the device is not operating, it does not have any operating information in the software system, such as new purchases, new borrowings, etc. If the parent equipment has the operation information, generating an in-service list according to the tree structure model and the operation information; if the parent equipment has no operation information, acquiring a tree structure subset taking the equipment as a root node in a submersible hierarchical tree model structure, and directly initializing an in-service list of the equipment.

2) Searching an in-service manifest of a child device

In both the commissioning and in the manual operation situation, it is necessary to find the commissioning list of the child device.

If the sub-equipment has the operation information, generating an in-service list according to the in-service structure model and the installation information; if the sub-equipment has no installation information, acquiring a tree structure subset taking the equipment as a root node in a submersible tree model structure, and directly initializing an in-service list of the equipment.

3) Mounting or dismounting:

and (3) mounting operation: and recursively comparing the tree structure model of the child equipment with the tree structure model of the parent equipment to obtain father-child nodes of the tree structure, if the father-child nodes are completely consistent with the father-child nodes of the tree structure model of the parent equipment, supplementing an in-service list of the child equipment into installation information of the parent equipment, and if the in-service list of the child equipment is inconsistent with the father-child nodes of the tree structure model of the parent equipment, not installing the in-service list of the child equipment.

Unloading operation: the in-service list belonging to the child device is directly deleted from the installation information of the parent device, and the child device exists as an independent device and also has a set of in-service lists.

The operation and maintenance service is the operation and maintenance content of the pointer on the diving device, the parts and the spare parts, and comprises operation information, operation and maintenance places, operation and maintenance image data and other information;

the object related to the operation and maintenance service comprises a mother device and a child device, wherein the unloading process is to unload a plurality of child devices from the mother device, and the installation process is to install a plurality of child devices on the mother device.

The operation and maintenance service is divided into in-service operation and in-hand operation and maintenance. The mother equipment in service operation and maintenance is a diving device body, and the mother equipment in hand operation and maintenance is a part and a spare part. In-service operation and maintenance means that parts and spare parts are mounted on a submersible or directly dismounted from the submersible, and in-service operation and maintenance means that parts and spare parts are mounted on target parts and spare parts or dismounted from the parts and spare parts.

Snapshot tracking: and updating the in-service equipment list by using the operation and maintenance service mapping, so that the synchronization of the in-service list of the submersible, the parts and the spare parts with the real world is realized, and the effect that the in-service list of the current submersible, the parts and the spare parts, namely the snapshot tracking effect, can be visually checked from a software system is achieved.

Video tracking: and recording the whole process of the operation and maintenance business content and the update history of the in-service equipment list through a software system, thereby forming video tracking.

Claims (8)

1. The whole process equipment tracking method for the operation and maintenance of the deep sea detection equipment is characterized by comprising the following steps of:

modeling a tree structure of the submersible: establishing a tree structure model of the submersible according to the membership of each subsystem device of the submersible;

tree structure mapping of parts and spare parts: based on the diving equipment tree structure model, taking a tree structure subset of the diving equipment tree structure model, and mapping to obtain a tree structure of parts and spare parts;

in-service manifest mapping: constructing an in-service inventory of the submersible, the parts and the spare parts based on the tree structures of the submersible, the parts and the spare parts and the uniquely coded equipment;

operation and maintenance service mapping: the modification of the actual operation and maintenance service to the structures of the diving device, the parts and the spare parts is mapped into the record of the operation and maintenance service and the modification of the in-service list;

the operation and maintenance service mapping comprises the following steps:

1) Finding an in-service manifest for a parent device

Under the condition of in-service operation and maintenance, directly using the tree structure and operation information of the submersible to form an in-service list of the submersible body;

under the condition of hand operation and maintenance, judging whether the parent equipment has operation information or not; when the device is not operated, no operation information exists; if the parent equipment has the operation information, generating an in-service list according to the tree structure of the parent equipment and the operation information; if the parent equipment has no operation information, acquiring a tree structure taking the equipment as a root node in a submersible tree model structure, and directly initializing an in-service list of the equipment;

2) Searching an in-service manifest of a child device

Under the condition of in-service operation and maintenance and the condition of hand operation and maintenance, searching an in-service list of the sub-equipment;

if the sub-equipment has the operation information, generating an in-service list according to the tree structure and the operation information of the sub-equipment; if the sub-equipment has no operation information, acquiring a tree structure taking the equipment as a root node in a submersible tree structure, and directly initializing an in-service list of the equipment;

3) Mounting or dismounting:

and (3) mounting operation: recursively comparing the tree structure of the child equipment with the tree structure of the parent equipment, if the tree structure of the child equipment is completely consistent with the tree structure of the parent equipment, supplementing an in-service list of the child equipment into the in-service list of the parent equipment, and if the tree structure of the child equipment is inconsistent with the in-service list of the parent equipment, not installing the in-service list;

unloading operation: deleting the in-service list belonging to the child device directly from the operation information of the parent device, wherein the child device exists in the form of an independent device and also has one in-service list;

the operation and maintenance service is divided into in-service operation and in-hand operation and maintenance; the mother equipment in service operation and maintenance is a diving device body, and the mother equipment in hand operation and maintenance is a part and a spare part;

in-service inventory query: and inquiring an in-service list of the submersible, the parts and the spare parts, and forming an equipment history by using a history change record of the in-service list.

2. The deep sea probe device operation and maintenance whole process device tracking method according to claim 1, wherein the submersible tree structure modeling comprises the steps of:

according to the membership of each subsystem device of the submersible, each node in the tree structure is established; configuration of submersible tree node attributes.

3. The deep sea probe device operation and maintenance whole process device tracking method according to claim 2, wherein the submersible tree structure node attribute comprises:

whether it belongs to an in-service inventory, whether it belongs to a spare parts inventory, whether it is installable, whether it is a low value node, whether it is only counted.

4. The deep sea detection equipment operation and maintenance whole process equipment tracking method according to claim 1, wherein the part and spare part tree structure mapping comprises the following steps:

because the tree structures of the parts and the spare parts are the tree structure subset of the diving equipment tree structure, the respective tree structures of the parts and the spare parts are obtained by mapping based on the diving equipment tree structure model.

5. The method for tracking the operation and maintenance whole process equipment of the deep sea detection equipment according to claim 1, wherein the in-service list is a combination of in-service structures and operation information of a submersible, parts and spare parts;

the operation information is the installation or unloading information aiming at a certain tree node of the submersible, the parts and the spare parts, and comprises an operator, operation time and equipment information;

the device has a unique identification code.

6. The method for tracking the whole operation and maintenance process equipment of the deep sea detection equipment according to claim 5, wherein the unique identification code is a three-level code which is divided into an equipment tree code, a manufacturer number and a running water code;

equipment tree code: the equipment tree code is a code consistent with the tree structure model code, and identifies the position of equipment on the submersible;

manufacturer number: uniquely identifying the manufacturer model corresponding to the equipment tree code;

and (3) a running water code: on the basis of the same equipment tree code and manufacturer type number, the unique identification of the serial number is realized.

7. The method for tracking the whole operation and maintenance process equipment of the deep sea detection equipment according to claim 1, wherein the operation and maintenance service is aimed at operation and maintenance contents of a submersible, a part and a spare part, and comprises operation information, operation and maintenance places and operation and maintenance image data.

8. The method for tracking the whole operation and maintenance process equipment of the deep sea detection equipment according to claim 1, wherein the mother equipment and the child equipment are objects related to operation and maintenance services, namely the mother equipment is an installed or uninstalled carrier, and the child equipment is an uninstalled or installed part and spare part; the unloading process is to unload a plurality of sub-devices from the mother device, and the installing process is to install a plurality of sub-devices onto the mother device.