KR20120085223A - Automated maintenance management system for floationg structure - Google Patents

Abstract

PURPOSE: An automated maintenance system of a floating structure is provided to be able to sell, analyze, and process the information, by transmitting periodically information collected from inside server to the central server and by managing the information. CONSTITUTION: A monitoring devices and inside servers(200A, 200B) are installed in plural floating structure. The central server(100) receives the information about maintenance and repair from the inside server. The central server selects repair company according to the selection of the user. The central server reflects the parts, which the user importantly thinks, to the repair. The monitoring device offers monitored information to the inside servers.

Description

Automated Maintenance Management System for Floationg Structure

The present invention is a system for automating the maintenance management of the floating structure, more specifically, the information of the floating structure for maintenance in the offshore, commercial vessels, the internal server of the floating structure and the central server outside the floating structure It can be managed in connection with the system.

The floating structure maintenance market continues to grow in size and costs more than the construction of floating structures. As the cost difference increases according to the maintenance management of floating structures, ship owners aim to minimize the operating costs by finding the optimal maintenance management method. The present invention aims to minimize maintenance costs, which is the biggest goal of these ship owners, and is provided to respond pro-actively.

In the prior art, only for some marine products, the maintenance and maintenance of equipment was integrated, and in the case of merchant ships, some equipment was managed through the SMS (Ship Management System). In the case of marine products, only the hull and rig separate systems were partially operated. In addition, there is no integrated service system for the maintenance of floating structures, and the management of floating structures was managed passively (Re-active) by managing the floating structures according to the status rather than preventing the management of the floating structures. There was no service system to maintain the floating structure in optimal condition, and each ship was managed in an independent way.

In the prior art, a database for a monitoring device (for example, an alarm monitoring system), a database for a ubiquitous sensor network (USN), and a database for a server are separately constructed and managed separately. In this case, a problem occurs such that additional resources are input for interworking between different models. For this reason, there is a need for a comprehensive floating structure maintenance management system that centrally manages all databases.

Prior art related to the method and apparatus for maintenance management of floating structures include Korean Patent Registration No. 0936931 (Han Jang Sup, method and apparatus for optimal management of floating structure maintenance by vessel route), Korean Patent Publication No. 2003-0012274 ( TOSCO Corporation, ship management system).

However, in the case of such a prior art, the central management of the database was not made, and the automated monitoring device was not provided, so it was difficult to expect the automated maintenance in the floating structure, and there was a problem that required more manpower. In addition, it was not a technology to prevent problems such as the installation of floating structures, but a technology that was designed for after-care. Therefore, there was a problem that can not pro-actively manage the floating structure (pro-active).

The present invention for solving the problems of the prior art, a system that can manage the information of the floating structure in connection with the internal server of the floating structure and the central server outside the floating structure for maintenance in the marine, commercial vessels field Is to provide.

According to an embodiment of the present invention for achieving the above object, in the maintenance management system for automating the maintenance management of the floating structure, a monitoring device and an internal server provided in each of the plurality of floating structures, and A land-based central server capable of receiving information on maintenance from an internal server and reflecting the importance of the user in selecting a repair company and selecting the repair company according to a user's selection, wherein the monitoring device includes a floating structure It is provided in devices, mechanisms, machines and parts located in the inside, and monitors whether there is an abnormality, repaired or whether the user set the situation, and provides information on the monitored maintenance to the internal server, the internal server is the monitoring The monitoring is located inside the floating structure to be connected with the device Information about the maintenance provided from the mobile station is periodically collected and transmitted to the central server of the land, and the central server of the land receives repair company information from a plurality of repair companies, updates the received repair company information, and updates the plurality of repair companies. Among the information about the maintenance transmitted from the internal server of the floating structure that needs to be maintained among the floating structures, the route, type, location of the repair company, repair cost and availability of the floating structure, and the user's selection According to the selection of the optimal repair company, and receiving a notification that the repair is possible from the selected repair company is provided a maintenance structure management system of the floating structure, characterized in that notifying the selected optimal repair company to the internal server .

The internal server transmits information about maintenance of the floating structure to the user, and the land central server transmits the selected repair company information to the user terminal of the corresponding user at the user's request. Alternatively, it is preferable that the land central server receives the price of the selected part, the quality of the part, and whether the repair is selected from the user.

It is preferable that the central server of the land integrates parts information necessary for maintenance by region and floating structure through processing and analysis of maintenance information.

The floating structure is preferably a vessel such as a bulk cargo ship, a container ship, a passenger ship or an offshore plant moored at a point on the sea.

The central server on the shore compares basic information and state information when maintenance information is generated, changed, destroyed, or corrected from the internal server. It is desirable to update the information on maintenance.

In addition, according to another embodiment of the present invention, the monitoring device and the internal server provided in each of the plurality of floating structures, and receiving the maintenance information from the internal server, according to the user's selection of the repair company selection and the repair company A maintenance management method for automating the maintenance management of a floating structure including a central server on land capable of reflecting a portion of importance of the user at the time of selection, comprising: a device located in the floating structure by the monitoring device; Providing the internal server with information on the monitored maintenance by monitoring whether there are any abnormalities, repairs, and conditions set by the user, by the internal server, provided by the internal server from the monitoring device; Periodically aggregate the information on maintenance, the central west of the land And transmitting to the burr, by the central server of the land, receiving repair company information from a plurality of repair companies, updating the received repair company information, and performing maintenance of the floating structures that require maintenance. Selecting an optimal repair company according to the route, type, location of repair company, repair cost and availability of the floating structure among information on maintenance transmitted from the internal server, and the user's selection; Notifying, by the central server of the selected repair company that repair is possible from the selected repair company, the internal repair server comprising the step of notifying the selected optimal repair company. This is provided.

The transmitting may include transmitting, by the internal server, information on maintenance of the floating structure to the user, and the selecting may be performed by the central server of the land on request of the user. Transmitting the selected repair company information to a user terminal of a corresponding user; And receiving, by the land central server, a price of a part selected from the user, a quality of the part, and whether or not it is repaired.

In the selecting step, when the maintenance information is generated, changed, destroyed, or corrected from the internal server, the basic information is compared with the state information to maintain the floating structure when the difference is more than a predetermined reference value. It is preferable to include the step of updating the information on the reward.

According to the present invention as described above, the information aggregated by the internal server of the floating structure is periodically transmitted to the central server of the land and integrated management, and the information can be analyzed, processed, and sold. In addition, it is possible to sell the most efficient maintenance management methods and information by route and floating structure, and to link ship owners, repair shipyards and repair companies in the most cost-effective way.

According to the present invention as described above, through the maintenance information processing and analysis business, it is possible to substitute for the purchase order (POR) by integrating the parts information necessary for maintenance by region, floating structures. In addition, it is possible to carry out procurement business and to carry out SCM (Supply Chain Management) business for maintenance materials. In addition, the project can be carried out by directly supporting engineers in charge of maintenance by using a shuttle method.

Accordingly, according to the present invention, it is possible to reduce the total cost of the floating structure operated for about 20 years in terms of the user of the floating structure, reduce maintenance costs, and maximize the availability of the floating structure. In terms of floating structure manufacturers, it is possible to efficiently build floating structures by utilizing information needed by customers throughout the life cycle, and to build floating structures in consideration of manufacturing and maintenance of floating structures.

1 is a schematic diagram of a maintenance management system of a floating structure, according to an embodiment of the present invention.
Figure 2 is a schematic diagram showing the relationship between the monitoring device of the floating structure and the server inside the floating structure, according to an embodiment of the present invention.
3 is a flow chart of a maintenance management system viewed in a relationship between a floating structure internal server and a central server, according to an embodiment of the invention.
4 is a flow chart of a maintenance management system seen in a relationship between a repair company and a central server, in accordance with an embodiment of the present invention.
5 is a flow chart of a maintenance management system for periodically updating information regarding maintenance of a floating structure, according to an embodiment of the present invention.
6 is a flowchart of a maintenance management system for periodically updating information of a repair company, according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings. The accompanying drawings and the following description are only intended to illustrate the present invention to those skilled in the art to which the present invention pertains, and therefore, the accompanying drawings and description are intended to cover the scope of the present invention. It should not be construed as limiting.

Before describing the embodiments through the drawings, terms described in the following embodiments will be outlined.

In the present specification, the floating structure is a concept including all kinds of vessels such as bulk cargo ships, container ships, passenger ships, and the like, and an offshore plant such as oil FPSO, which is usually used while mooring at one point of the sea.

In the present specification, the information on the floating structure includes event information, state information, and design information of the floating structure. Here, the event information refers to information including the size, location, and solution of such a defect when a defect occurs in a device, mechanism, machine, various equipment or parts of a floating structure, or when a defect is expected. Here, the status information means information on the status of devices, mechanisms, machines, various facilities, or parts of the current floating structure. Here, the design information refers to information on the basic state in the design of the device, mechanism, machine, various equipment or parts of the first floating structure, and can compare it with the state information to determine the need for repair of the ship.

In the present specification, the integrated management of information about the floating structure means that the event information, status information, and design information about the floating structure are collectively managed in one database, and the central management means that only one server is used. It does not mean that it is managed through, but means to manage the facilities in the floating structure as a solution.

In the present specification, the information about the maintenance of the floating structure includes event information and state information of the floating structure, and for each part used in the floating structure, a unique number, a drawing, a size, a lifespan, It is necessary to maintain the floating structures in the current state, including the parts information of the floating structures, such as prices, and the floating structures including the blueprints, ships information, classification information, parts information, repair details, etc. All information can be included.

In the present specification, the central server is located outside of the floating structure, and collects information processed by the internal server of each floating structure, in conjunction with the repair company information, maintenance of the floating structure is costly, time aspect In the end, it means a server that aims to link one floating structure and one repair company so that it can be efficiently performed.

In the present specification, the internal server of the floating structure is located inside the floating structure, and collects information on maintenance of the floating structure collected by the monitoring device, and transmits the information to the central server periodically or in real time. Means the server.

Repair company information herein means all information about the repair company, including the name of the floating structure repair company, location, repairable parts, parts in stock, repair time.

In the present specification, the user refers to a person who obtains permission from the server regarding maintenance and management of a floating structure such as a ship owner, a ship owner, a ship, etc. registered in the server.

In the present specification, the user terminal refers to a terminal capable of transmitting and receiving information through a PDA, a PC, a mobile phone, or a wired or wireless connection.

In the present specification, the monitoring device includes an AMS (Alarm Monitoring System), and is attached to or placed on various facilities of the floating structure, and checks all states of the floating structure to check periodic or real-time event information of the floating structure. Sends to the server.

In the present specification, the term “period” does not mean a physically constant time interval, but means a schedule defined by a user or other person who manages facilities, and preferably means that the event information is identified or generated in real time.

The definitions of the terms stated above are not limited to names, and mean concepts easily understood by those skilled in the art, and the scope of the invention is not defined by the terms.

Hereinafter, a floating structure maintenance management system according to an embodiment of the present invention will be described with reference to the drawings. The illustrated drawings and the following descriptions are merely exemplary embodiments of the present invention, and various modifications and changes may be made without departing from the gist of the present invention.

1 is a schematic diagram of a maintenance management system of a floating structure, according to an embodiment of the present invention. 2 illustrates a process of receiving event information from the floating structure internal server 200 according to an exemplary embodiment of the present invention.

First, when the monitoring device 220 of the floating structure detects the occurrence of information (eg, event information) related to maintenance of the floating structure, the floating structure internal server 200 is notified of this. This process is performed at a predetermined time according to a predetermined period or when requested by the user inside the floating structure server 200. The information on the maintenance of the floating structures thus obtained is transmitted periodically or at the request of the central server to the central server. The information about the maintenance of the floating structure may be event information or may be information on the floating structure updated by the server inside the floating structure. The updated information refers to information stored later on the floating structure in addition to the information about the floating structure stored at the time of manufacture of the initial floating structure, and the update process is as shown in FIG. 5.

Although FIG. 1 shows two floating structure internal servers 200, this is according to an embodiment of the present invention, and the number of floating structure internal servers is not limited. The central server 100 obtains information on maintenance of the floating structure from the servers inside the various floating structures, and manages them in one piece. The information on the maintenance of this unit-managed floating structure is based on the route, type, repair company's location, repair cost and availability of the floating structure. In the central server 100, whether or not repair is possible with a minimum cost and a minimum time is made. To this end, the repair company periodically updates the repair company's information to the central server, and the updated repair company information is periodically updated to the central server. This update process is shown in FIG. In addition, the information of the internal server or the central server or the repair company of the floating structure can be provided to the user at the user's request. In the case of providing the information to the user 400, the situation may be processed according to the selection of the user 400. That is, the central server can select the repair company according to the user's selection, and can reflect the part that the user considers important when selecting the repair company. In addition, according to the user's choice, the repair company can determine the price of the parts, the quality of the parts, whether or not to repair. Although FIG. 1 shows two repair companies, this is in accordance with an embodiment of the present invention, and the number of repair companies is not limited.

2 is a schematic diagram illustrating a relationship between the monitoring device 220 of the floating structure and the server 200 inside the floating structure according to an embodiment of the present invention. Various equipments, devices, apparatuses, machines, or parts of the floating structures are equipped with a monitoring device 220, and monitors whether there is an abnormality, repair needs, and other conditions set by the user, periodically or This serves to inform the server 200 of the floating structure in real time. The monitoring device 220 of the floating structure may be, for example, an alarm monitoring system (AMS), or may be a device for observing a state of a facility of another floating structure. In addition, the monitoring device 220 of the floating structure, if the measured value of the various equipment, devices, instruments, machines or parts of these structures of the floating structure is more than a predetermined value, or less than, it is a server inside the floating structure 200 May be provided to the user 400 at the same time.

3 is a flow chart of a maintenance management system seen in a relationship between a floating structure internal server and a central server, according to an embodiment of the invention. When the information about the maintenance of the floating structure occurs (S310), the internal server 200 of the floating structure grasps the generated information and transmits it to the central server 100 (S320). The central server 100 reflects the user's request based on the repair company information according to the information transmitted from the internal server 200 of the floating structure, and whether the floating structure should be repaired by which repair company. In order to determine the comparative analysis between repair companies (S330). As a result of the comparative analysis, the optimum repair conditions are determined, the user is notified of this, and the user and the repair company are connected (S340). Finally, the optimal repair period determined is notified to the internal server of the floating structure (S350).

4 is a flow chart of the maintenance management system seen in a relationship between a repair company and a central server, according to an embodiment of the invention. When the information on the maintenance of the floating structure is received (S410), the information grasped by the internal server 200 of the floating structure is transmitted to the central server 100. The central server compares the transmitted information with the repair company's information, and selects the optimal repair company. In this case, the user may be notified of various selectable matters, and an optimal repair company may be determined (S420). When the optimal repair company is selected and notified to the repair company, and the repair company notifies that repair is possible (S430), the internal server of the floating structure is notified of this (S440).

5 is a flowchart of a maintenance management system for periodically updating information about maintenance of a floating structure according to an embodiment of the present invention. The system may be pre-populated with information about the maintenance of the floating structure. After that, when information on maintenance of the floating structure occurs, changes, disappears, or corrections are made, the basic information is compared with the state information, and the maintenance of the floating structure when the difference is greater than the preset reference value. The information on is updated. This update can be updated after transmission to the central server via the internal server of the floating structure.

6 is a flowchart of a maintenance management system for periodically updating information of a repair company, according to an embodiment of the present invention. The basic information of the repair company may be input to the system in advance. Then, when information about the repair company is generated, changed, destroyed, or corrections are made, the information about the repair company is updated, which is transmitted to the central server to update the information.

According to the present invention, the user can more actively cope with the maintenance management of the floating structure through the link of class information. In addition, it can be managed according to the predicted external environment change. For example, if an engine heating lamp is expected, the repair company may arrange for maintenance of the cooling system. This pro-active facility management can provide on-line drawing information related to the production of floating structures needed throughout the life cycle, so that users such as ship owners can easily maintain and manage the system. something to do.

Although one embodiment of the present invention has been described above with reference to the drawings, the present invention is not limited to the above-described specific embodiments, and the present invention is not limited to the specifics of the present invention without departing from the gist of the present invention. Anyone can make various modifications, and such modifications will fall within the claims described below.

Central server: 100
Server inside floating structure: 200, 200A, 200B
Repair company: 300, 300A, 300B
User: 400
Floating structure monitoring device: 220
Maintenance system for floating structures: 10

Claims (8)

In the maintenance management system for automating the maintenance management of the floating structure,
A monitoring device and an internal server provided in each of the plurality of floating structures;
On-site central server capable of receiving information on the maintenance from the internal server and reflecting the user's importance in selecting a repair company and the selection of the repair company according to the user's selection,
The monitoring device is provided in devices, mechanisms, machines and parts located in the floating structure, and monitors whether there is an abnormality, repair, and whether the situation is set by the user to provide information about the monitored maintenance to the internal server and ,
The internal server is located inside the floating structure so as to be connected to the monitoring device and periodically collects information about the maintenance provided from the monitoring device and transmits it to the central server of the land,
The on-site central server receives repair company information from a plurality of repair companies, updates the repair company information received, and receives maintenance from the internal server of the floating structure requiring maintenance among the plurality of floating structures. According to the information on the route, type, location of the repair company, repair cost and availability of the floating structure, and the user's choice, the optimal repair company is received. The maintenance management system of the floating structure, characterized in that notifying the internal server the selected optimal repair company. The method according to claim 1,
The internal server transmits information about maintenance of the floating structure to the user,
The land central server transmits the selected repair company information to the user terminal of the corresponding user at the request of the user.
The internal server or the central server of the land, the maintenance management system of the floating structure, characterized in that for receiving the price, quality and repair of the parts selected from the user. The method according to claim 1,
Wherein the central server of the land through the processing and analysis of the maintenance information maintenance management system of the floating structure, characterized in that to integrate the parts information necessary for maintenance by region and floating structure. The method according to claim 1,
The floating structure is a maintenance structure system of the floating structure, characterized in that the marine plant mooring on a vessel or a point such as bulk cargo ship, container ship, passenger ship. The method according to claim 1,
The central server on the shore compares basic information and state information when maintenance information is generated, changed, destroyed, or corrected from the internal server. A maintenance management system for a floating structure, characterized by updating information on maintenance. The monitoring device and the internal server provided in each of the plurality of floating structures, and receiving the maintenance information from the internal server, according to the user's selection to select the repair company and the selection of the repair company the user's important part A maintenance management method for automating the maintenance management of a floating structure including a central server on land that can be reflected,
The monitoring device monitors whether there are any abnormalities, repairs, and conditions set by the user, and provides information on the monitored maintenance to the internal server. Steps,
Periodically collecting, by the internal server, information about maintenance provided from the monitoring apparatus and transmitting the collected information to the central server on the land;
Receiving repair company information from a plurality of repair companies by the central server of the land, updated with the received repair company information, and the maintenance transmitted from the internal server of the floating structure requiring maintenance of the plurality of floating structures Selecting an optimal repair company according to the route, type, location of the repair company, repair cost and availability of the floating structure, and the user's selection;
Maintaining, by the central server of the land, a notification that the selected optimal repair contractor is received from the selected repair contractor, the internal server, wherein the selected optimal repair contractor is maintained. How to manage. The method of claim 6,
The transmitting step
Transmitting, by the internal server, information regarding the maintenance of the floating structure to the user,
The step of selecting
Transmitting, by the land central server, the selected repair company information to the user terminal of the corresponding user at the request of the user; And
And receiving, by the central server of the land, the price of the selected part, the quality of the part, and whether or not the repair is selected from the user. The method of claim 6,
The step of selecting
When information on maintenance is generated, changed, destroyed or corrected from the internal server, basic information and state information are compared, and when there is a difference above a predetermined reference value, information on maintenance of the floating structure is displayed. The maintenance management method of the maintenance management system of the floating structure comprising the step of updating.

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