CN110941842A - Ship systematized comprehensive guarantee information system - Google Patents

Abstract

The invention discloses a ship systematized comprehensive guarantee information system, which comprises: the upper-level administrative department comprehensive support information system is used for performing data interaction and data updating with the port comprehensive support information systems deployed in all ports and uniformly managing the comprehensive support information of all ports of subordinate ships in the life cycle; the port comprehensive guarantee information system is used for performing data interaction and data updating with the ship-level comprehensive guarantee information system and uniformly managing comprehensive guarantee information of the whole life of each subordinate ship of each squad; the ship-level comprehensive guarantee information system is used for providing technical state information of each ship and technical data information of each related device for a crew according to data of the comprehensive guarantee information system of the superior administrative department, and storing newly-added fault processing information and information related to spare part management on the ship. The invention gives consideration to the requirements of all levels of personnel through systematic information management, and facilitates the control of all levels of personnel on the technical states of ships and the equipment.

Description

Ship systematized comprehensive guarantee information system

Technical Field

The invention relates to a ship electronic technology, in particular to a ship systematized comprehensive guarantee information system.

Background

At present, the number of ships is numerous in China, the technical states are different, the ships belong to different shore-based ports, guarantee information between the ports cannot be effectively and conveniently shared, a crew on the ship generally uses paper materials to record information such as fault information and spare parts, related information is inquired by using paper completion data, and a means for comprehensively managing information such as related repair, change and assembly of various ships in each port and checking the information such as faults, spare parts and completion data of the ships by the crew is lacked. In addition, due to the dispersion of comprehensive guarantee data of each port, the superior administrative department also lacks a management means for data informatization of ships of different models governed by each port; for equipment units and scientific research institutions of ships, an information management means for guaranteeing data of ships in the whole life period is lacked. Therefore, a ship systematic integrated support information system is provided, a systematic integrated support information management platform is jointly constructed through a superior department of charge integrated support information system, a port integrated support information system and a ship-level integrated support information system, information such as ship technical state information, equipment information, repair and change information, fault information, spare part information, long-range voyage support, equipment faults and the like is comprehensively managed, and meanwhile, information sharing and data information comprehensive integrated application among ports, ships and superior departments can be realized through an information interaction module according to relevant necessary information.

Disclosure of Invention

The invention aims to solve the technical problem of providing a ship systematized comprehensive guarantee information system aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a ship systematized integrated safeguard information system includes:

a superior director integrated support information system (including integrated support information database), a port integrated support information system (including port integrated support information database) and a ship-level integrated support information system (including ship-level integrated support information database)

The upper-level administrative department comprehensive support information system is used for performing data interaction and data updating with the port comprehensive support information systems deployed at all ports and uniformly managing the comprehensive support information of all ports of subordinate ships in the whole life, wherein the comprehensive support information comprises ship technical state information, maintenance plan information, year-round repair and reinstallation information, equipment history information, fault information and long-range support information;

the initial data of the comprehensive guarantee information system of the superior department of charge is the technical state, repair, replacement, spare parts and existing fault information of various ships and equipment obtained by collection;

the port comprehensive support information system is used for performing data interaction and data updating with the ship-level comprehensive support information system, and uniformly managing comprehensive support information of the whole life of subordinate ships of each squad, wherein the comprehensive support information comprises technical state information of the subordinate ships, repair and reloading information of the past year, current repair and reloading work arrangement, spare part condition of the ships and equipment fault information;

the ship-level comprehensive guarantee information system is used for providing information such as technical state information, spare part information, long-range navigation guarantee information, equipment history information, historical fault and processing measure, work arrangement, technical data of relevant equipment and the like of each ship to a crew according to data of a superior administrative department comprehensive guarantee information system, and storing information related to management of newly-added faults and spare parts on the ship.

According to the scheme, the comprehensive guarantee information system of the superior administrative department comprises a configuration management module, an information interaction module, a data storage analysis module and a security confidentiality module;

the configuration management module is used for establishing all ship work decomposition extension structures and codes, recording configuration information of all ships and controlling change conditions of configuration items, wherein each device for ship decomposition corresponds to a unique identification code, and the corresponding unique identification code is stored in a two-dimensional code or an NFC card configured by the device or the spare part;

the information interaction module is used for providing data for interaction among the upper-level administrative department comprehensive guarantee information system, the port comprehensive guarantee information system and the ship-level comprehensive guarantee information system, realizes sharing of guarantee information, and has functions of data packaging and updating and data importing and exporting;

the data storage and analysis module is used for storing, sorting and analyzing data in the comprehensive guarantee information system of the upper administrative department;

and the security module is used for ensuring the security of the related data information.

According to the scheme, the comprehensive guarantee information system of the superior department of charge further comprises the following functional modules:

the work guarantee overview module is used for providing an overview interface and intensively displaying the reloading work of all ships in the current year;

the historical information overview module is used for showing the reloading work of all ships in the past year in a time axis mode and checking a repair reloading scheme and a project table;

the information query module is used for providing a function of querying related guarantee information in a multi-dimensional mode including ship models and repair types;

the maintenance plan overview module is used for providing the condition of repairing, replacing and installing a single ship in the whole life cycle;

the equipment history information module is used for checking the guarantee conditions (dismantling, installing, replacing and repairing states) of each piece of equipment in the ship through different identifiers and checking the technical state information of each piece of equipment;

the repair project database module is used for providing a project table, repair contents and repair plan information of each repair;

the system comprises a reloading project database module, a project planning module and a project planning module, wherein the reloading project database module is used for providing reloading schemes, undertaking units, project attributes, project periods, project expenses and belonging plan information of each time;

the long-range navigation support information module is used for providing fault prediction and processing mode information required by each device in the long-range navigation process;

and the fault information management module is used for providing fault phenomena, fault time, processing modes and fault photo information of the equipment.

According to the scheme, the port comprehensive guarantee information system functional module comprises:

the work guarantee overview module is used for providing an overview interface and intensively displaying the current-year repair, refit and reloading work of the ship to which the port belongs;

the historical information overview module is used for showing the reloading work of each ship subordinate to the port in the past year in a time axis mode and checking a repair reloading scheme and a project table;

the information query module is used for querying the guarantee information in a multi-dimensional mode including ship models and repair types;

the maintenance plan overview module is used for providing the condition of repairing, replacing and loading a single ship under the port in the whole life cycle;

the equipment history information module is used for checking the guarantee conditions (dismantling, installing, replacing and repairing states) of each piece of equipment in the subordinate ship through different identifiers and checking the technical state information of each piece of equipment;

the repair project database module is used for providing information such as a project table, repair contents and a repair plan of each repair;

the system comprises a reloading project database module, a project planning module and a project planning module, wherein the reloading project database module is used for providing information such as reloading schemes, undertaking units, project attributes, project periods, project expenses, affiliated plans and the like of all times;

the spare part information management module is used for managing the information such as the number, the model and the pictures of spare parts in various ships and ports under the port as a whole and providing a function of inquiring related information;

the technical data management module is used for providing a query function for electronic completion data of equipment of various ships;

the long-range navigation support information module is used for providing information such as fault prediction, processing modes and the like required by each device in the long-range navigation process;

the fault information management module is used for providing information such as fault phenomena, fault time, processing modes, fault pictures and the like of the equipment;

and the security module is used for ensuring the security of the data information.

According to the scheme, the ship-level comprehensive guarantee information system functional module comprises:

the information interaction module is used for interacting information with the port comprehensive guarantee information system;

the technical data management module is used for providing completion files of related equipment, and is convenient for sailors to look up:

the fault information module is used for providing query of related information of the existing fault, recording a new fault in a text and photographing mode, and recording information such as running time and running state of each device;

the equipment history information module is used for providing information such as technical state information, equipment pictures and the like of equipment in the ship, is mutually associated with the technical document module and the fault information module, and can quickly inquire technical documents and related faults of related equipment;

the spare part information management module is used for providing overall management of spare parts on the ship and facilitating inquiry of information such as the number, the positions and pictures of the spare parts of each device;

the long-range navigation support information module is used for providing information such as fault prediction, processing modes and the like required by each device in the long-range navigation process;

the equipment operation parameter monitoring module is used for recording operation parameters of key equipment in the boat in the sailing process;

the working log module is used for recording the time and date of fixed inspection in advance and recording a working plan and the completion condition of daily work;

the memory storage module is used for temporarily storing relevant information such as equipment faults, spare parts and the like on the ship;

and the security module is used for ensuring the security of the data information.

The comprehensive security information server of the upper administrative department is provided with a comprehensive security information system (comprising a comprehensive security information base) of the upper administrative department, the comprehensive security information server of the port is provided with a comprehensive security information system (comprising a comprehensive security information database), and the personal terminal of the crew is provided with a ship-level comprehensive security information system (comprising a ship-level comprehensive security information database). The crew personal terminal is connected with the port comprehensive guarantee information server, can periodically transmit and update the collected and recorded information related to equipment faults, spare parts and the like to the port comprehensive guarantee information database, and can also periodically update the information such as the equipment faults and the like uploaded by other ports issued by the upper administrative department comprehensive guarantee information database through the port comprehensive guarantee information database, so that the sharing of the comprehensive guarantee information among different ports is realized.

The invention has the following beneficial effects: the system of the invention provides management of technical state information of ships in the whole life, so that a superior competent department and port personnel can conveniently check the technical state information of subordinate ships and information of repair, change, assembly and the like in the authority range, visual management is realized by a three-dimensional model of equipment, an equipment picture, a spare part picture and a picture in the case of equipment failure, personnel on the ships can inquire information such as technical document information, equipment failure related information, spare part related information and long-range guarantee of each equipment on the ships at any time through a personnel personal terminal of the ship, and the personnel on the ships can upload and synchronize the equipment failure and spare part related information collected on the ships to a port comprehensive guarantee information system. And sharing of related guarantee knowledge such as ship equipment faults and the like can be realized through the port comprehensive guarantee information system. The systematized comprehensive guarantee information system provides a systematized management mode, gives consideration to different requirements of all levels of personnel, and facilitates the simultaneous control of the technical states of ships and the equipment to which the personnel at all levels belong.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a hardware configuration diagram of a system integrated safeguard information system according to an embodiment of the present invention;

FIG. 2 is a diagram of a system architecture for the integrated safety and information system according to an embodiment of the present invention;

FIG. 3 is a block diagram of a system of integrated support information for systems according to an embodiment of the present invention;

FIG. 4 is a data interaction flow diagram of the integrated support system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 3, the invention provides a ship systematized integrated support information system and a design method thereof, and the integrated management of the ship comprehensive support information in the whole life cycle is realized by constructing a superior competent department integrated support information system, a port integrated support information system and a ship-level integrated support information system. Meanwhile, an information interaction flow is designed, and cross-system integration of data of a ship-level comprehensive guarantee information system, a port comprehensive guarantee information system and a superior administrative department comprehensive guarantee information system is achieved.

A ship systematized integrated safeguard information system comprises an upper-level administrative department integrated safeguard information system (comprising an integrated safeguard information database), a port integrated safeguard information system (comprising a port integrated safeguard information database) and a ship-level integrated safeguard information system (comprising a ship-level integrated safeguard information database), and is characterized in that each component module is as follows:

the design scheme of the systematic comprehensive guarantee information system comprises the following steps: the integrated safeguard information database is used as the core of the systematic safeguard system, is the source of data of the systematic integrated safeguard information system, uniformly gathers data in the integrated safeguard information system of the upper administrative department, the port integrated safeguard information system and the ship-level integrated safeguard information system, provides technical state information, safeguard information, spare part information, long-range voyage safeguard information, repair and reinstallation information, historical faults and processing measures, work arrangement and the like of various ships of the upper administrative department, the port integrated safeguard information system and the ship-level integrated safeguard information system, and realizes the uniform management of technical documents related to various ship equipment; and the big data concept is applied to carry out data analysis, and guarantee information of the whole life of various ships and technical state information of ship-associated equipment are fully mastered.

The design scheme of the port comprehensive guarantee information system is as follows: providing technical state information, guarantee information, spare part information, long-range voyage guarantee information, repair and reinstallation information, historical faults, processing measures, work arrangement and the like of various types of ships under each port, realizing unified management on technical documents related to various types of ship equipment under each port, and storing related data in a port comprehensive guarantee information database;

the design scheme of the ship-level comprehensive guarantee information system is as follows: providing information such as technical state information, spare part information, long-range navigation guarantee information, equipment historical information, historical faults, processing measures, work arrangement, technical data of all related equipment and the like of all affiliated ships, storing newly-added fault and spare part management information, and storing related data in a ship-level comprehensive guarantee information database;

further, the integrated safeguard information database comprises a configuration management module S1, an information interaction module S2, a data storage analysis module S3 and a security module S4, and is used for interacting and updating the data of the port integrated safeguard information system deployed in each port.

S1, a configuration management module is used for establishing all ship work decomposition expansion structures and codes, recording configuration information of all ships and controlling change conditions of configuration items, wherein each device for ship decomposition corresponds to a unique identification code, and the corresponding unique identification code is stored in a two-dimensional code or an NFC card configured in a device or a spare part;

s2, an information interaction module, which is used for providing data for a superior department of charge comprehensive guarantee information system, a port comprehensive guarantee information system and a ship-level comprehensive guarantee information system, realizing the sharing of guarantee information and having the functions of data packing, updating and importing and exporting data;

s3, a data storage and analysis module, which is used for storing, sorting and analyzing data in the systematized comprehensive guarantee information system;

and S4, a security module for ensuring the security of the related data information.

The upper administrative department comprehensive guarantee information system:

the data of the comprehensive support information system of the superior administrative department is derived from a comprehensive support information database, and the comprehensive support information of the whole service life of all subordinate ships of the port is managed in a unified manner, wherein the comprehensive support information comprises ship technical state information, maintenance plan information, past year repair and reloading information, equipment history information, fault information, long-range navigation support information and the like.

Further, the comprehensive guarantee information system of the upper administrative department further comprises the following functional modules:

s5: the work guarantee overview module provides an overview interface and intensively displays the reloading work of all ships in the current year;

s6: the historical information overview module displays the reloading work of all ships in the past year in a time axis mode, and can check the repair reloading scheme and the project table;

s7: the information query module can query relevant guarantee information in a multi-dimensional mode such as ship model, repair type and the like;

s8: the maintenance plan overview module is used for providing the condition of repairing, replacing and installing a single ship in the whole life cycle;

s9: the equipment history information module can check the guarantee conditions (dismantling, installing, replacing and repairing states) of each equipment in the ship through different identifiers, and can check the technical state information of each equipment;

s10: the repair project database module is used for providing information such as a project table, repair contents and a repair plan of each repair;

s11: the system comprises a reloading project database module, a processing unit, a project attribute module, a project period module, a project expense module, an affiliated plan module and a database module, wherein the reloading project database module provides information such as reloading schemes, undertaking units, project attributes, project periods, project expenses and affiliated plans of all times;

s12: the long-range navigation support information module: providing information such as fault prediction, processing modes and the like required by each device in the long-range navigation process;

s13: the fault information management module is used for providing information such as fault phenomena, fault time, processing modes, fault pictures and the like of the equipment;

s14: and the security module is used for ensuring the security of the data information.

Port integrated safeguard information system:

the port comprehensive guarantee information system is provided with a port comprehensive guarantee information database, data are derived from the comprehensive guarantee information database, comprehensive guarantee information of the whole life of subordinate ships of each squad is managed in a unified mode, and the comprehensive guarantee information comprises technical state information of the subordinate ships, repair and reloading information of the past year, current repair and reloading work arrangement, spare part conditions of ships, equipment fault information and the like; and uniformly managing related technical document data of equipment of various ships. The ship navigation system has a multi-dimensional information query function, and is convenient for summarizing and analyzing the technical states of various ships.

Further, the port comprehensive security information system is configured with an information interaction module S15 for packing and updating data of the port comprehensive security information system and interacting with the upper administrative department comprehensive security information system and the ship-level comprehensive security information system.

Further, the port comprehensive guarantee information system function module comprises:

s16: the work guarantee overview module provides an overview interface and intensively displays the repair, change and assembly work of the ship to which the port belongs in the current year;

s17: the historical information overview module displays the change and outfit work of each ship in the past year in a time axis mode, and can check the repair change and outfit scheme and the project table;

s18: the information query module can query relevant guarantee information in a multi-dimensional mode such as ship model, repair type and the like;

s19: the maintenance plan overview module is used for providing the conditions of repairing, replacing and installing the subordinate single ships in the whole life cycle;

s20: the equipment history information module can check the guarantee conditions (dismantling, installing, replacing and repairing states) of each piece of equipment in the subordinate ship through different identifiers and can check the technical state information of each piece of equipment;

s21: the repair project database module is used for providing information such as a project table, repair contents and a repair plan of each repair;

s22: the system comprises a reloading project database module, a processing unit, a project attribute module, a project period module, a project expense module, an affiliated plan module and a database module, wherein the reloading project database module provides information such as reloading schemes, undertaking units, project attributes, project periods, project expenses and affiliated plans of all times;

s23: spare part information management module: the method comprises the following steps of managing information such as the number, the model and the picture of spare parts in various subordinate ships and ports, and providing a function of inquiring related information;

s24: the technical data management module: providing the function of inquiring the electronic finished data of equipment of various ships;

s25: the long-range navigation support information module: providing information such as fault prediction, processing modes and the like required by each device in the long-range navigation process;

s26: the fault information management module is used for providing information such as fault phenomena, fault time, processing modes, fault pictures and the like of the equipment;

s27: and the security module is used for ensuring the security of the data information.

The security modules S4, S14 and S27 use the same encryption and decryption mechanism, i.e. data can only be displayed and data exchanged in the device equipped with the security module.

Ship-level comprehensive guarantee information system:

ship-level comprehensive guarantee information system: providing inquiry and retrieval service for various electronic documents of equipment; providing a whole-life data management platform such as spare part information of the boat; providing an interactive electronic manual for retrieval; the information comprehensive management based on the two-dimensional code and the NFC card means is provided, wherein the two-dimensional code and the unique identification code of the storage device information or the spare part information in the NFC card can quickly locate corresponding data in the technical data management module, the fault information module or the spare part information management module through the identification code. The fault information, maintenance treatment measures, spare part information and the like collected by the ship-level comprehensive support information systems can be collected and summarized by the port comprehensive support information system, so that the knowledge transfer and communication between ships and between different ports are facilitated, and the operation state of equipment on the ships can be fully mastered by industrial departments.

Further, the ship-level integrated safeguard information system is configured with an information interaction module S28 for information interaction with the port integrated safeguard information system.

Further, the ship-level integrated safeguard information system function module comprises:

s29: technical data management module provides the completion file of relevant equipment, and the crew of being convenient for consults:

s30: the fault information module is used for inquiring the related information of the existing fault, recording a new fault in a text and photographing mode, and simultaneously recording the running time, running state and other information of each device;

s31: the equipment history information module provides information such as technical state information and equipment pictures of equipment in the ship, is mutually associated with the technical document module and the fault information module, and can quickly inquire technical documents and related faults of related equipment;

s30: spare part information management module: the overall management of spare parts on the ship is provided, and the number, the positions, the pictures and other information of the spare parts of each equipment can be conveniently inquired;

s32: the long-range navigation support information module: providing information such as fault prediction, processing modes and the like required by each device in the long-range navigation process;

s33: equipment operation parameter monitoring module: the operation parameters of key equipment in the boat can be recorded in the sailing process;

s34: a working log module: the time and date of the fixed inspection can be recorded in advance, and the work plan and the completion condition of the daily work can be recorded;

s35: the memory storage module is used for temporarily storing relevant information such as equipment faults, spare parts and the like on the ship;

s36: and the security module is used for ensuring the security of the data information.

Furthermore, the three systems are developed by adopting a B/S module architecture, a unified development framework is adopted, later maintenance and upgrading are facilitated, and corresponding contents of different user roles can be checked according to requirements and information query and management are facilitated according to different authority settings.

The implementation of the method of the invention is based on a system hardware architecture, the system architecture is shown in figure 1 and figure 2, and the system architecture comprises a comprehensive guarantee information server of a superior administrative department, a port comprehensive guarantee information server and a crew personal terminal. The comprehensive guarantee information server of the superior administrative department is deployed in the superior management department, the port comprehensive guarantee information server is deployed in the port guarantee department, and the crew personal terminal is deployed on the corresponding ship. The crew personal terminal can be connected to the port comprehensive security information server in a wired mode to update data synchronously, and information recorded on the ship is stored in the port comprehensive security information server, so that overall management and checking are facilitated. Different ports can share information such as ship equipment faults through the information interaction module, so that other ports can conveniently prevent and learn the faults and share knowledge by using ships of the same model.

In the superior department of administration and the port department of support, the personnel responsible for managing the comprehensive support starts the superior department of administration comprehensive support information server and the port comprehensive support information server, starts the browser to enter the system login interface, and logs in the system through the allocated account number to perform the query management of the relevant information, and the specific information module is shown in fig. 3, wherein the specific information module comprises historical information overview, information query, spare part information management, maintenance plan overview, support overview, equipment historical information, technical data management, fault information management, long-distance voyage support information management and repair, and a database of refit and change equipment.

On a ship, a crew starts a crew personal terminal, a system-based integrated safeguard information system application is started to jump to a system login interface, and can log in to a system through an allocated account number to perform inquiry management of safeguard information, recording of fault and spare part information, wherein a specific information module on the crew personal terminal is shown in fig. 3 and comprises technical file data, equipment technical state information, equipment running state information, equipment fault information, spare part information, long-range safeguard information and a working log.

In the present invention, the information flow of the systematized integrated safeguard information system is shown in fig. 4: firstly, information such as technical states, repair, replacement, spare parts, existing faults and the like of various ships and equipment is collected by a superior department of charge and is used as initial data to be distributed to a port comprehensive guarantee information system and a crew personal terminal; after relevant data such as maintenance support and the like are input by a crew through a crew personal terminal, relevant information is temporarily stored in a ship-level comprehensive support information database deployed at the crew personal terminal, data is periodically exported through an information interaction module and imported into a port comprehensive support information system through an information interaction module deployed in the port comprehensive support information system, each crew personal terminal is connected to a port comprehensive support information server, and the data is synchronously updated through a built-in information interaction module; the port comprehensive guarantee information system exports data through the information interaction module, and the upper-level administrative department comprehensive guarantee information system aggregates the data exported by each port comprehensive guarantee information system through the information interaction module, so as to complete the updating of the comprehensive guarantee information base. The comprehensive guarantee information system of the superior administrative department shares updated information such as equipment faults and the like to each port through the information interaction module, and after a crew connects a crew personal terminal to the comprehensive guarantee information server of the port, data in the ship-level comprehensive guarantee information system is automatically updated through the built-in information interaction module. In the invention, the working process of collecting and inputting fault information on a ship by a crew is as follows: firstly, when a crew finds that equipment has faults on a ship, information such as the names of the fault equipment, fault finding time and fault phenomena is input into a fault information module of a ship-level comprehensive security information system on a crew personal terminal, and multi-directional photographing recording is carried out on the fault parts through a camera of the crew personal terminal. After troubleshooting, relevant information about the troubleshooting, such as part replacement or direct repair, repair personnel, repair time, etc., is recorded in the system module. Meanwhile, the operation state information of each device can be recorded on the personal terminal of the crew, and information such as maintenance guarantee prediction of each device is pushed to the crew according to the fault and the operation state of the device. The recorded relevant information of the fault and the spare parts is temporarily stored in the personal terminal of the crew. After the crew logs in the system, the crew can check the document data of each corresponding authority device in the technical document module according to the authority; the information and the fault information of the related equipment spare parts can be inquired, and the service condition of the spare part module can be registered in the spare part management module; and information such as equipment long-range navigation guarantee can also be inquired.

The design method for data interaction of the ship-level comprehensive security information system and the port comprehensive security information system comprises the following steps: the crew can take the crew personal terminal to the port support department at a certain time interval to be connected with the port comprehensive support information server, the temporarily stored data is imported to the port comprehensive support information system, and simultaneously, the fault information of other newly added equipment on the ship in the port comprehensive support information database can be downloaded and updated;

the design method for interaction of the port comprehensive guarantee information system data and the upper administrative department comprehensive guarantee information system data comprises the following steps: the port comprehensive guarantee information system collects data of individual terminals of crews, generates a data packet, and guides the data packet to a comprehensive guarantee information database deployed on a comprehensive guarantee information server of a superior administrative department to complete updating. And the superior administrative department packs the information such as equipment faults in the comprehensive guarantee information database regularly and sends the information to the port comprehensive guarantee information database deployed in each port comprehensive guarantee information server.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (5)

1. A ship systematized integrated safeguard information system is characterized by comprising:

a superior competent department comprehensive support information system, a port comprehensive support information system and a ship-level comprehensive support information system;

the upper-level administrative department comprehensive support information system is used for performing data interaction and data updating with the port comprehensive support information systems deployed at all ports and uniformly managing the comprehensive support information of all ports of subordinate ships in the whole life, wherein the comprehensive support information comprises ship technical state information, maintenance plan information, year-round repair and reinstallation information, equipment history information, fault information and long-range support information;

the initial data of the comprehensive guarantee information system of the superior department of charge is the technical state, repair, replacement, spare parts and existing fault information of various ships and equipment obtained by collection;

the port comprehensive support information system is used for performing data interaction and data updating with the ship-level comprehensive support information system, and uniformly managing comprehensive support information of the whole life of subordinate ships of each squad, wherein the comprehensive support information comprises technical state information of the subordinate ships, repair and reloading information of the past year, current repair and reloading work arrangement, spare part condition of the ships and equipment fault information;

the ship-level comprehensive support information system is used for providing technical state information, spare part information, long-range navigation support information, equipment history information, historical fault and processing measure, work arrangement and technical data information of all relevant equipment for a crew according to data of a superior administrative department comprehensive support information system, and storing newly-added fault processing information and spare part management related information on a ship.

2. The marine systematized integrated safeguard information system according to claim 1, wherein the superior competent department integrated safeguard information system includes a configuration management module, an information interaction module, a data storage analysis module, and a security confidentiality module;

the configuration management module is used for establishing all ship work decomposition extension structures and codes, recording configuration information of all ships and controlling change conditions of configuration items, wherein each device for ship decomposition corresponds to a unique identification code, and the corresponding unique identification code is stored in a two-dimensional code or an NFC card configured by the device or the spare part;

the information interaction module is used for providing data for interaction among the upper-level administrative department comprehensive guarantee information system, the port comprehensive guarantee information system and the ship-level comprehensive guarantee information system, realizes sharing of guarantee information, and has functions of data packaging and updating and data importing and exporting;

the data storage and analysis module is used for storing, sorting and analyzing data in the comprehensive guarantee information system of the upper administrative department;

and the security module is used for ensuring the security of the related data information.

3. The marine systematized integrated safeguard information system according to claim 1, wherein the upper-level department of authority integrated safeguard information system further includes the following functional modules:

the work guarantee overview module is used for providing an overview interface and intensively displaying the reloading work of all ships in the current year;

the historical information overview module is used for showing the reloading work of all ships in the past year in a time axis mode and checking a repair reloading scheme and a project table;

the information query module is used for providing a function of querying related guarantee information in a multi-dimensional mode including ship models and repair types;

the maintenance plan overview module is used for providing the condition of repairing, replacing and installing a single ship in the whole life cycle;

the equipment history information module is used for providing guarantee conditions for checking each equipment in the ship through different identifiers and checking the technical state information of each equipment;

the repair project database module is used for providing a project table, repair contents and repair plan information of each repair;

the system comprises a reloading project database module, a project planning module and a project planning module, wherein the reloading project database module is used for providing reloading schemes, undertaking units, project attributes, project periods, project expenses and belonging plan information of each time;

the long-range navigation support information module is used for providing fault prediction and processing mode information required by each device in the long-range navigation process;

and the fault information management module is used for providing fault phenomena, fault time, processing modes and fault photo information of the equipment.

4. The marine systematized integrated safeguard information system according to claim 1, wherein the port integrated safeguard information system function module includes:

the work guarantee overview module is used for providing an overview interface and intensively displaying the current-year repair, refit and reloading work of the ship to which the port belongs;

the historical information overview module is used for showing the reloading work of each ship subordinate to the port in the past year in a time axis mode and checking a repair reloading scheme and a project table;

the information query module is used for querying the guarantee information in a multi-dimensional mode including ship models and repair types;

the maintenance plan overview module is used for providing the condition of repairing, replacing and loading a single ship under the port in the whole life cycle;

the equipment history information module is used for checking the guarantee condition of each equipment in the subordinate ship through different identifiers and checking the technical state information of each equipment;

the repair project database module is used for providing a project table, repair contents and repair plan information of each repair;

the system comprises a reloading project database module, a project planning module and a project planning module, wherein the reloading project database module is used for providing reloading schemes, undertaking units, project attributes, project periods, project expenses and belonging plan information of each time;

the spare part information management module is used for managing the quantity, the model and the picture information of spare parts in various ships and ports under the port and providing a function of inquiring related information;

the technical data management module is used for providing a query function for electronic completion data of equipment of various ships;

the long-range navigation support information module is used for providing fault prediction and processing mode information required by each device in the long-range navigation process;

the fault information management module is used for providing fault phenomena, fault time, processing modes and fault picture information of the equipment;

and the security module is used for ensuring the security of the data information.

5. The marine systematized integrated support information system according to claim 1, wherein the marine-level integrated support information system function module includes:

the information interaction module is used for interacting information with the port comprehensive guarantee information system;

the technical data management module is used for providing completion files of related equipment, and is convenient for sailors to look up:

the fault information module is used for providing query of related information of the existing fault, recording a new fault in a text and photographing mode, and recording the running time and running state information of each device;

the equipment history information module is used for providing technical state information and equipment picture information of equipment in the ship, is mutually associated with the technical document module and the fault information module, and can quickly inquire technical documents and related faults of related equipment;

the spare part information management module is used for providing overall management of spare parts on the ship and facilitating the inquiry of the number, the positions and the picture information of the spare parts of each device;

the long-range navigation support information module is used for providing fault prediction and processing mode information required by each device in the long-range navigation process;

the equipment operation parameter monitoring module is used for recording operation parameters of key equipment in the boat in the sailing process;

the working log module is used for recording the time and date of fixed inspection in advance and recording a working plan and the completion condition of daily work;

the memory storage module is used for temporarily storing related information of equipment faults and spare parts on the ship;

and the security module is used for ensuring the security of the data information.

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