KR20190040529A - System for managing equipment of ship and ship having the same - Google Patents

Abstract

The present invention relates to a system for managing tools and materials of a ship, which can easily recognize tools and materials required for maintenance by visualizing and providing state information on tools and materials to lightweight three-dimensional shape information by using three-dimensional designing information designed during shipbuilding, and to a ship having the same. According to an embodiment of the present invention, the system comprises: a lightweight model database for storing three-dimensional shape information in which three-dimensional designing information designed during shipbuilding is converted into a shape structure; and a tool and material management server for associating identification information and arrangement information on tools and materials arranged in a ship with the three-dimensional shape information to store and manage the same in the lightweight model database, storing and managing shape information on the tools and materials, measured by a measuring unit measuring a state of the tools and materials in the lightweight model database, and providing the three-dimensional shape information for a user terminal established with a communication connection through an information communication network, wherein the shape information on the tools and materials is visualized on the three-dimensional shape information to provide the same.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ship management system and a ship having the ship management system.

More particularly, the present invention relates to a ship management system and a ship having the ship management system, and more particularly, to a ship management system, And a ship equipped with the apparatus and the management system.

In general, in order to dry a ship or an offshore structure, it is necessary to start the sales design (design stage) according to the type of ship (quote line, special ship, etc.) Step).

Although the 3D CAD model is created at the ship design / build stage, the shipyard is using this model only for the purpose of creating bill of materials (BOM) or design stage review.

In particular, some ship owners use CMMS (Computer Maintenance Management System), which is a computerized tool for managing ship's parts (parts), because ship owners do not have 3D CAD model information.

Therefore, a system is needed that can easily identify the location of equipment in a ship that requires maintenance and utilize 3D CAD model, which is the property of the shipyard alone, and to identify the problem of the equipment early.

Korean Patent Laid-Open Publication No. 2017-0055718 (2017.05.22) " Maintenance management apparatus of a ship and its maintenance management method &

It is an object of the present invention to provide a vessel material management system and a ship material management system which can visually confirm the state information of the equipment in lightweight three-dimensional shape information using the three- And to provide a ship equipped with the same.

According to an aspect of the present invention, there is provided a lightweight model database for storing three-dimensional shape information converted into a shape structure of three-dimensional design information that is designed when a ship is dried; And a storage unit for storing and managing identification information and layout information of the equipment disposed on the ship in the lightweight model database in association with the three-dimensional shape information, and for storing state information of the equipment measured by the measuring unit, And a device management server for storing and managing the device information in a lightweight model database and providing the three-dimensional shape information to a user terminal that establishes communication connection through an information communication network, and providing state information of the device to the three- The ship's equipment management system is provided.

Wherein the equipment management server is connected to a maintenance management server that manages a plurality of service companies that maintain equipment to be installed in the ship, and the maintenance management server is a maintenance service server The maintenance history of the equipment can be transmitted to the equipment management server together with the identification information of the equipment.

When the request for inquiry is received from the user terminal by the block unit, the work type unit or the specific equipment of the ship, the management server refers to the light weight model database and selects the inquiry block unit or the order type unit or 3 Dimensional shape information, and when the state information of the equipment and the maintenance history of the equipment disposed in the searched three-dimensional shape information are present in the lightweight model database, the state information of the equipment and the status information of the equipment The maintenance history can be visualized and provided to the user terminal.

The equipment management server may charge a fee for the inquiry service requested from the user terminal.

The apparatus management server may notify a result of comparing the status information of the equipment measured by the measurement unit with a threshold value in association with the identification information of the equipment and the measurement information.

The equipment management server receives the replacement history of any equipment through the user terminal and stores and manages the replacement history in the lightweight model database.

The apparatus management system of the present invention may further comprise a collecting unit for collecting the measured status information from the measuring units installed in the equipments arranged on the ship. The collecting unit collects status information of the collected equipment To the equipment management server through a satellite.

According to another embodiment of the present invention, there is provided a ship used in the sea, the ship including a lightweight model database storing three-dimensional shape information obtained by converting three-dimensional design information, Wherein the equipment management server stores and manages the identification information and the arrangement information of the equipment disposed on the ship in the lightweight model database in association with the three-dimensional shape information, and measures the state of the equipment from the measurement unit And the state information of the equipment is stored in the lightweight model database, and the three-dimensional shape information is provided to the user terminal that made the communication connection through the information communication network, And providing the vessel with visualization.

Wherein the equipment management server is connected to a maintenance management server that manages a plurality of service companies that maintain equipment parts disposed on the ship, and the maintenance management server is a maintenance service server And transmits the maintenance history of the equipment to the equipment management server together with the identification information of the equipment, and when the equipment management server receives the inquiry request from the user terminal for each block unit or the unit type of the vessel or the specific equipment, Dimensional shape information including the block unit or the type-of-production unit or specific equipment is requested by referring to the model database, and the state information of the equipment and the maintenance history of the equipment, which are arranged in the retrieved three- If it exists in the lightweight model database, The three-dimensional shape information can be made visible to the maintenance history of the equipment in the status information, and equipment to be provided to the user terminal.

According to the embodiment of the present invention, since the state information of the equipment arranged on the ship is provided in the light-weighted three-dimensional shape information by using the three-dimensional design information designed at the time of ship building, it is possible to easily grasp the equipments requiring maintenance have.

In addition, according to the embodiment of the present invention, the maintenance history of the equipment is received from the maintenance management server and stored and managed in the light weight model database, so that the status information of the equipment and the maintenance history of the equipment are visualized in the three- Thus, it is possible to confirm the information of the equipment placed on the ship by the shipping company through the user terminal connected to the equipment management server.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view for explaining a system of equipment management of a ship according to an embodiment of the present invention; FIG.

It is noted that the technical terms used in the present invention are used only to describe specific embodiments and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be construed in a sense generally understood by a person having ordinary skill in the art to which the present invention belongs, unless otherwise defined in the present invention, Should not be construed to mean, or be interpreted in an excessively reduced sense. In addition, when a technical term used in the present invention is an erroneous technical term that does not accurately express the concept of the present invention, it should be understood that technical terms can be understood by those skilled in the art. In addition, the general terms used in the present invention should be interpreted according to a predefined or prior context, and should not be construed as being excessively reduced.

Furthermore, the singular expressions used in the present invention include plural expressions unless the context clearly dictates otherwise. In the present invention, terms such as " comprising " or " comprising " and the like should not be construed as encompassing various elements or various steps of the invention, Or may further include additional components or steps.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or similar elements throughout the several views, and redundant description thereof will be omitted.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. It is to be noted that the accompanying drawings are only for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the scope of the present invention with reference to the accompanying drawings.

FIG. 1 is a view for explaining a ship equipment management system according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus management system of a ship according to an embodiment of the present invention includes a lightweight model database 31 storing three-dimensional shape information obtained by converting three-dimensional design information, The state information of the equipment and the maintenance history of the equipment are stored and managed. When providing the inquiry result through the user terminal 10, the state information of the equipment and the maintenance history And a device management server 30 for visualizing the device.

The equipment management server 30 may be connected to a CAD system for storing and managing three-dimensional design information such as a three-dimensional CAD model designed at the time of ship building, and may download the three-dimensional design information.

The user terminal 10 establishes a communication connection with the equipment management server 30 through the information communication network 20. The user of the user terminal 10 may be a manager or a ship owner of a ship owner.

The user terminal 10 may include not only a personal computer such as a notebook computer but also a mobile communication terminal capable of wireless Internet communication, but the present invention is not limited thereto.

The information communication network 20 includes an Internet network and an internal network using a TCP / IP protocol that can be connected by wire and a WAP protocol that can be wirelessly connected. Here, the user terminal 10 is communicably connected to the equipment management server 30 through the information communication network 20 (for example, the Internet network).

The equipment management server 30 stores and manages the three-dimensional shape information obtained by converting the three-dimensional design information of the ship being dried in the yard into the shape structure in the lightweight model database 31. [ The three-dimensional shape information includes shape, area, volume, and important points.

The equipment management server 30 stores and manages the arrangement information of the equipment to be placed during the drying of the ship in the lightweight model database 31 in association with the three-dimensional shape information. The equipment to be placed on the ship includes machinery, equipment and materials (parts) placed on the ship.

Since the CAD system has a unique model tree structure, the model tree structure redefined by the model tree structure for visualization is used as a source of the 3D design information, The type of process, the type of work, is mixed.

A measuring part (40) is mounted on the equipment which needs confirmation of the equipment condition information of the ship being dried.

The measurement unit 40 is installed in the equipment, and measures the state information of the equipment. The state information of the equipment measured by the measurement unit 40 can be collected by the collection unit 50 and transmitted to the equipment management server 30 as shown in FIG. 1, but the present invention is not limited thereto .

The equipment management server 30 receives and stores the state information of the equipment measured by the measurement unit 40 mounted on the ship under construction, together with the identification information of the equipment, and is stored and managed in the lightweight model database 31. Here, it is described that the status information of the equipment and the identification information of the equipment are received. However, the status information of the equipment may include a measurement value measuring the status of the equipment and identification information for identifying the equipment.

The weight saving model database 31 stores and manages the placement information of the equipment in association with the identification information of the equipment. Accordingly, when the apparatus management server 30 searches for and provides the three-dimensional shape information in which the block unit, the work type unit, or the specific equipment are located in the lightening model database 31, It is possible to visually present and provide status information of the associated equipment. Because it is 3D shape information rather than 3D design information, high-speed visualization is possible.

The equipment management server 30 may include a lightening model database 31, but may be interlocked with a separately provided lightening model database.

The equipment management server 30 refers to the lightening model database 31 when receiving a request for inquiry about a block unit, a unit type, or a specific equipment from the user terminal 10 that made the communication connection through the information communication network 20 Dimensional shape information in which the inquired block unit, the type of work unit, or the specific equipment is located, and stores the state information of the equipment and the maintenance history of the equipment in the retrieved three-dimensional shape information into the lightening model database 31 If it exists, the status information of the equipment and the maintenance history of the equipment are visualized and provided to the 3D shape information.

The status information of the equipment, the maintenance history of the equipment, or a combination thereof can be visually displayed on the three-dimensional shape information only when it is present in the lightweight model database 31. [

The equipment management server 30 may charge the usage fee for the inquiry service requested from the user terminal 10 to the ship being dried or the ship delivered after drying on a monthly or yearly basis.

On the other hand, the equipment management server 30 is connected to a maintenance management server 60 that manages a plurality of service companies 70 that maintain equipment to be installed on the ship.

The maintenance management server 60 transmits the maintenance history of the equipment maintained by the selected service company among the plurality of service companies 60 to the equipment management server 30 together with the identification information of the equipment.

The service provider 70 provides the maintenance management server 60 with the supplier data managed by the equipment manufacturer, the supplier company, the repair shipyard and the classification society, and the product data supplied from the supplier. The vendor data includes identifiers that identify the vendor, and the product data includes identifiers, specifications, quantity of marine products, and prices that identify the product, e.g., equipment.

When the maintenance management server 60 receives the identification information of the equipment and the status information of the equipment from the equipment management server 30, the maintenance management server 60 primarily determines whether the equipment is to be replaced through the identification information of the received equipment, If it is not the replacement period, it can be judged whether or not the replacement of the equipment is necessary through the status information of the equipment.

The maintenance management server 60 selects a service company that can supply the equipment of the service company 70 when the equipment is to be replaced. If there is a plurality of service companies selected, the maintenance management server 60 requests the service company for an estimate, And receives a purchase request of the equipment from the selected service provider, the maintenance history is generated and transmitted to the equipment management server 30 together with the identification information of the equipment.

In addition, the maintenance management server 60 performs a ship management support service to support the inspection of the ship in addition to the replacement of the equipment. The maintenance management server 60 analyzes the replacement period or the inspection period of the equipment to induce purchase in advance, To a service provider.

In addition, the maintenance management server 60 receives the ship operation data from the AIS (not shown), extracts the ship to arrive at the target area, estimates the arrival date of the extracted ship, and based on the estimated ship survey data Markets can be extended to prospective customers who need to be inspected, and the supply opportunities of domestic maintenance suppliers of overseas shipping companies can be increased. The survey data includes the inspection expiration date of the product or service.

Meanwhile, the equipment management server 30 may receive a maintenance request from the user terminal 10 that has inquired about the maintenance history of the equipment received from the maintenance management server 60 in advance.

The equipment management server 30 receives the maintenance history of the equipment from the maintenance management server 60 but may receive the replacement history of any equipment disposed on the ship through the user terminal 10, The maintenance history of the equipment can be stored and managed in the lightening model database 31. [

The equipment management server 30 preferably provides at least one of a visualization option, that is, a type, a color, and a thickness of a line when visualizing the three-dimensional shape information, and provides the three- It is more preferable that the state information of the equipment and the maintenance history which are arranged in the three-dimensional shape information are visualized so as to be distinguished from the three-dimensional shape information.

Such a material management server 30 is provided on a ship used in the sea. The equipment management server 30 may include the lightening model database 31 described above.

The equipment management server 30 stores and manages the identification information and the placement information of the equipment to be placed on the ship under construction in the lightening model database 31 and measures the state of the equipment in the measurement unit 40 (For example, a sensor) and stores it in the lightweight model database 31 together with the identification information of the equipment.

In the present embodiment, the three-dimensional shape information, the state information of the equipment and the maintenance history of the equipment are stored in the lightening model database 31. However, the present invention is not limited to this, Dimensional shape information, the state information of the equipment, and the maintenance history of the equipment are stored, and the arrangement information of the equipment arranged in the three-dimensional shape information is searched in the database storing the state information of the equipment, Alternatively, the maintenance history of the equipment parts arranged in the three-dimensional shape information can also be retrieved from the database storing the maintenance history of the equipment parts, and can be provided in the form of three-dimensional shape information for visualization.

Accordingly, the maintenance status of the ship being dried or the ship being delivered can be easily grasped by the user terminal 10 having the communication connection to the equipment management server 30. It is possible to request the replacement of the equipment earlier than the predetermined replacement cycle through the user terminal 10 that has grasped the maintenance status of the ship.

The equipment management method using the equipment management system of a ship having such a configuration will be described as follows.

First, the equipment management server 30 stores the three-dimensional shape information, which is the property of only the shipyard, which is designed when the ship is dried, into three-dimensional design information into a shape structure in the lightening model database 31. [

Then, the equipment management server 30 stores the arrangement information and the identification information of the equipment to be placed on the ship during the drying in association with the three-dimensional shape information in the lightening model database 31. [

A measuring part (40) is installed in the equipment which is required to check the status information of the equipment among the equipment to be placed on the ship.

The state information of the equipment measured by the measurement unit 40 is received by the equipment management server 30 and stored in the lightening model database 31 together with the identification information of the equipment.

After the vessel is completely dried and delivered, the equipment management server 30 may request the maintenance management server 60 to perform maintenance for any equipment by replacing equipment or repairing the equipment.

Even after delivering the dried ship, the three-dimensional shape information is provided to the ship owner on the web, and the state information of the equipment measured from the measurement unit 40 installed on the ship's equipment being dried or delivered is referred to as 3 Dimensional shape information, and can be serviced. At this time, a separate satellite network can be used to transmit the state information of the equipment to map the three-dimensional shape information.

The maintenance management server 60 selects a service company 70 that services the equipment requested for maintenance and transmits a maintenance history of the equipment supplied from the selected service company 70 to the equipment management server 30 .

The equipment management server 30 stores and manages the maintenance history of the equipment in association with the identification information of the equipment in the lightening model database 31. [

The three-dimensional shape information stored in the lightweight model database 31, the status information of the equipment, and the maintenance history of the equipment are displayed on the user terminal 10 having the communication connection through the information communication network 20, It is easy to understand the maintenance status of ships or ships delivered and dried. Here, the maintenance history of the equipment is described as being generated and managed after the delivery of the constructed ship, but maintenance of the equipment may occur even during the construction of the ship.

In particular, the equipment management server 30 can compare the status information of the equipment received from the measurement unit 40 installed in the equipment with preset threshold values for each equipment, and provide the abnormal values in a visualized form. As a result, information on equipment inside the hull can be displayed on the web and an alarm can be displayed.

The above-described measuring unit 40 is provided for each of a plurality of pieces of equipment that need to monitor the condition of the equipment in the ship.

The measuring units provided in the equipment are collected by one collecting unit 70 and transmitted to the equipment management server 30 via the satellite. In this manner, the state information of the equipment obtained from the plurality of measurement units 40 installed on the equipment can be collected, and the transmission rate to be transmitted through the satellite can be adjusted to establish an environment capable of communication with a small amount.

The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.

10: user terminal 20: information communication network
30: Equipment management server 31: Lightweight model database
40: measuring unit 50: collecting unit
60: Maintenance management server 70: Service provider

Claims (9)

A lightweight model database for storing three-dimensional shape information obtained by converting three-dimensional design information, which is designed when the ship is dried, into a shape structure; And
Wherein the identification information and the placement information of the equipment disposed on the ship are stored and managed in the lightweight model database in association with the three-dimensional shape information, and the state information of the equipment measured from the measurement unit for measuring the state of the equipment is lightened And a device management server for storing and managing the device information in a model database and providing the three-dimensional shape information to a user terminal establishing communication connection through an information communication network, and providing the state information of the device to the three- , Equipment management system of ship. The method according to claim 1,
The equipment management server is connected to a maintenance management server that manages a plurality of service companies that maintain equipment to be installed on the ship,
Wherein the maintenance management server transmits a maintenance history of equipment maintained by a selected service company among the plurality of service companies to the equipment management server together with identification information of the equipment. The method of claim 2,
When the request for inquiry is received from the user terminal by the block unit, the work type unit or the specific equipment of the ship, the management server refers to the light weight model database and selects the inquiry block unit or the order type unit or 3 Dimensional shape information, and when the state information of the equipment and the maintenance history of the equipment disposed in the searched three-dimensional shape information are present in the lightweight model database, the state information of the equipment and the status information of the equipment And provides the maintenance history to the user terminal by visualizing the maintenance history. The method of claim 3,
And the equipment management server charges a fee for the inquiry service requested from the user terminal. The method according to claim 1,
Wherein the apparatus management server has a threshold value in association with identification information of the equipment to be disposed on the ship and indicates a result of comparing the status information of the equipment measured by the measurement unit with a threshold value, Equipment management system. The method according to claim 1,
Wherein the equipment management server receives and stores a replacement history of an arbitrary equipment through the user terminal, and stores and manages the replacement history in the lightweight model database. The method according to claim 1,
Further comprising a collecting unit for collecting the measured status information from the measuring units installed on the equipments arranged on the ship,
And the collecting unit transmits status information of the collected equipment to the equipment management server through a satellite. As ships used in the sea,
The ship is provided with a material management server including a lightweight model database for storing three-dimensional shape information obtained by converting three-dimensional design information to a shape structure,
Wherein the equipment management server stores and manages identification information and arrangement information of the equipment disposed on the ship in the lightweight model database in association with the three-dimensional shape information, and stores the information of the equipment measured by the measuring unit measuring the condition of the equipment Receiving the state information and storing and managing the state information in the light weight model database; providing the three-dimensional shape information to a user terminal communicating through an information communication network, the state information of the equipment being visualized in the three- The ship. The method of claim 8,
Wherein the equipment management server is connected to a maintenance management server that manages a plurality of service companies that maintain equipment to be installed in the ship,
Wherein the maintenance management server transmits the maintenance history of the equipment maintained by the selected service company among the plurality of service companies to the equipment management server together with the identification information of the equipment,
When the request for inquiry is received from the user terminal by the block unit, the work type unit or the specific equipment of the ship, the management server refers to the light weight model database and selects the inquiry block unit or the order type unit or 3 Dimensional shape information, and when the state information of the equipment and the maintenance history of the equipment disposed in the searched three-dimensional shape information are present in the lightweight model database, the state information of the equipment and the status information of the equipment And providing the maintenance history to the user terminal.

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