KR20120085221A - Monitoring system for maintenance management of floationg structure - Google Patents

Abstract

PURPOSE: A monitoring system for maintenance of a floating structure is provided to enable a manager to monitor fire alarm or CCTV of the built ship after leaving the office by monitoring the work process from the place, where the build ship locates. CONSTITUTION: A receiver(200) receives the state information about various facilities of a floating structure. An information processor(300) decides if it has a defect by comparing the basic construction information and the received state information when device, tool, and parts of the floating structure are designed. If the defect is existent, the information processor offers the size, the location and the solution of the defect. An output unit(400) periodically outputs the size, the location and the solution of the defect.

Description

Monitoring System for Maintenance Management of Floationg Structure

The present invention is a monitoring system for maintenance of the floating structure, more specifically, a remote monitoring system for maintenance in the marine, commercial vessels.

Up to now, the ship's main equipment and the Ship Management System (SMS) that integrates and manage these facilities are physically separated from each other. Therefore, it is very difficult to check and correct the values indicated by the SMS and the equipment. In order to do this, both the SMS and the installation side must repeat the operation of checking and correcting the values with the radio at the same time. This is inefficient and time consuming because a number of installation checks are carried out in this way on a ship in construction. Most shipyards are commissioned and commissioned to check and inspect the sensors of every piece of equipment on board. A lot of time is spent on this process. In addition, since the radio works in a noise and dust environment, there are many errors due to safety and communication difficulties, and it is difficult to obtain trust because it is difficult to confirm the presence of the owner or the class in the process of setting the sensor value. Prior to the inspection of the facility, the work flow was checked in order to check the line between the inspection equipment (for example, the line between the sensor and the Distributed Processing Unit or the line between the DPU and the monitor) and check the DPU and the monitor respectively. . Therefore, communication error occurred due to noise and communication environment constraint, communication error occurred due to ambient noise, and communication was conducted several times to prevent inaccurate inspection, which required a lot of inspection time. In addition, there was a hassle of having to correct the difference between the magnetic fields due to the generation of magnetic field due to the high-power radio wave during the communication between the facility and the radio. In addition, the quality of the inspection was deteriorated, and thus there was a problem that the trust of the ship owner and the ship was deteriorated. In addition, the communication language was used in Korean for quick setting, leaving room for foreign inspectors to doubt the reliability of the test. In addition, there was no automated monitoring device, so it was difficult to expect automated maintenance in the floating structure. In addition, the related art related art is a technology that does not prevent problems such as the installation of the floating structure, but considers post-management. Easily and conveniently monitor and control any facility on land or at sea is the wish of every inspector. On the land side, many wireless remote control systems have been developed. On the other hand, almost no wireless remote control systems have been developed in ships in an environment where all structures are surrounded by steel plates.

Therefore, there was a problem that can not pro-actively manage the floating structure (pro-active). Therefore, there is an urgent need for a mobile station, a portable inspection device that installs, monitors, and controls sensors directly on site. The present invention is equipped with a system to monitor and control all the matters monitored in the main control room monitor on the mobile device, it is possible to control in the moving or other places instead of the regular control place for maintenance in case of abnormal alarm occurrence This will allow you to set your condition.

The present invention for solving the problems of the prior art, to provide a system that can monitor the machinery, mechanisms, devices, parts, and other equipment of the floating structure for maintenance in the marine, commercial vessels.

According to an embodiment of the present invention for achieving the above object, a monitoring system for the maintenance of the floating structure, the receiving unit for receiving status information on the device, mechanism, machine and parts of the floating structure; When designing the device, mechanism, machine and parts of the first floating structure, the design information about the basic state is compared with the state information received through the receiver to determine whether there is a defect, and if there is a defect, the size and location of the defect. And an information processing unit providing a solution. And an output unit periodically outputting a size, a location, and a solution of the defect provided by the information processing unit.

In addition, the monitoring system for maintenance of the floating structure according to the present invention, if the received state information has a difference more than a predetermined reference value is updated to the state information, it is preferable to transmit the updated state information to the central server of the land Do.

The information processing unit provides a size, a location, and a solution of the defect to the output unit through a wireless access point, wherein the wireless repeater is installed in at least one of an engine room, a deck, and a cabin to be installed in the floating structure. It is desirable to enable communication at.

The wireless access point is preferably integrated with the antenna.

Preferably, the wireless access point is POE (Power over Ethernet).

In addition, according to another embodiment of the present invention, a monitoring method of a monitoring system including a receiver, an information processor and an output unit for maintenance of the floating structure, the status information on the device, mechanism, machine and parts of the floating structure Receiving; By comparing the design information of the basic state in the design of devices, mechanisms, machines and parts of the first floating structure and the state information received through the receiving unit, it is determined whether there is a defect, the size of the defect, Providing a location and a solution; And periodically outputting the size, location, and solution of the defect provided by the information processing unit to an internal server or a user terminal in the floating structure. Is provided.

The providing step provides the size, location and solution of the defect to the output via a wireless access point, the wireless repeater is installed in at least one of the engine room, deck and cabin the floating structure It is desirable to enable communication within the system.

According to the present invention as described above, it is possible to monitor in real time the status of various machines, instruments, devices, and other equipment of the floating structure. In terms of managing a large number of ships and facilities during the shipbuilding process, it is physically time-consuming to traverse and manage a wide range of shipyard yards without the support of a mobile computing environment. However, when using the present invention, it is possible to remotely monitor the field work process in the quay office or the place where the dry ship is located, not only save a lot of time, but also can monitor the fire alarm or CCTV of the dry ship after work at home.

In addition, the existing facility inspection work is a group of two people, one person monitors in the control room and recalls the sensor value to the radio and waits, and the other person performs the sensor site through the radio under adverse conditions such as the noise of the site where the facility is installed. This brings up the Local value and sets the Range and Setting values together. However, according to the present invention, it is possible to check directly in the local area and work alone so that better work can be achieved in shortening time and exposure to dust noise, and as a result, the digital drawings are stored in a mobile station. It can also replace heavy drawings.

In addition, ECC (ENGINE CONTROL CONSOLE) can be unmanned, and inspection time can be shortened by inspection, monitoring and control at the facility. In addition, it is possible to prevent the occurrence of noise due to communication communication, a decrease in reliability related to inspection, and the like. In addition, since the output of the W-LAN (wireless LAN) is minute, it is possible to prevent the magnetic field difference caused by the magnetic field disturbance.

Accordingly, according to the present invention, it is possible to monitor, preventive maintenance / inspection of the status information on the main equipment such as the engine in real time, reducing the total cost of the floating structure operated for about 20 years in terms of the user of the floating structure, and maintain Reduces maintenance costs and maximizes the availability of floating structures. 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 monitoring system for a floating structure, in accordance with an embodiment of the present invention.
2 is a flow chart of a floating structure monitoring system, in accordance with an embodiment of the present invention.
3 is a schematic diagram of a monitoring system 100 and a maintenance system of a floating structure, according to one embodiment of the invention.
Figure 4 is a flow chart for a method of updating the status information of the floating structure between the monitoring system 100 and the maintenance system of the floating structure, according to an embodiment of the present invention.

Hereinafter, various embodiments of the present disclosure 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 about the floating structure includes event information, state information, and design information of the floating structure, wherein the event information means that a defect occurs in a device, a mechanism, a machine, various facilities, or parts of the floating structure. In the case of a failure or when a defect is anticipated, it refers to information including the size, location, and solution of such a defect, wherein the state information refers to the state of a device, apparatus, machine, various equipment or parts of the current floating structure. In this case, the design information refers to information on the basic state in designing the device, mechanism, machine, various equipment or parts of the first floating structure, and compares it with the state information to determine the necessity of repair of the ship. have.

In the present specification, the user refers to a person who has obtained 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 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 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 monitoring system for floating structure maintenance according to an embodiment of the present invention will be described with reference to the drawings.

1 is a schematic diagram of a monitoring system for a floating structure, according to one embodiment of the invention. The monitoring system 100 includes a receiver 200 that checks the state of each facility in facilities such as an engine, an information processor 300 that processes such information and changes it into a form that can be recognized by a user, and outputs such information. It includes an output unit 400. In addition, by connecting the wireless repeater 500 between the information processing unit 300 and the output unit 400, it is possible to access the received event information periodically, preferably in real time, anywhere without any restrictions. The wireless repeater 500 may be manufactured integrally with the antenna. In this case, the wireless repeater 500 may be installed in an engine room, a deck, a cabin, or other places, and serve to create an environment of the USN environment in which many steel plates are floating structures. In addition, the receiver 200, the information processing unit 300, the output unit 400, the wireless repeater 500 may be one or more according to the characteristics of each facility.

In addition, the monitoring system 100 of the floating structure is an internal server provided in the floating structure, if the measured value of the various equipment, devices, instruments, machines or parts of the floating structure is more than a certain value, or less than (Not shown), and such provision can be simultaneously provided to the user.

This facilitates the installation and management of floating structures and reduces antenna cable losses. In addition, preferably, power may not be separately supplied to the wireless repeater 500 using POE (Power over Ethernet). It is also possible to control the receiver remotely. It is also compatible with any monitoring device. Therefore, test inspection is possible without being affected by the surrounding environment. In addition, it is possible to work with a group of people and unmanned ECC (ENGINE CONTROL CONSOLE).

2 is a flow chart of a floating structure monitoring system, in accordance with an embodiment of the present invention. When information on maintenance of the floating structure occurs (S20), the receiver receives the information (S22) and transmits it to the information processing unit wirelessly or by wire (S24). The information processing unit transmits the wireless relay to the output unit (S26), and the output unit outputs it for the user to recognize (S28).

3 is a schematic diagram of a monitoring system 100 and a maintenance system of a floating structure, according to one embodiment of the invention. The event information can be sent to the relevant server in the vessel through the procedure of FIG. The monitoring system 100 of FIG. 1 can be seen as an embodiment of the monitoring system of FIG. In addition to the ones shown in this figure, the user terminal may be connected to a monitoring system and may also be connected to a central server connected to a land maintenance system.

4 is a flowchart of a method for updating status information of a floating structure between the monitoring system 100 and the maintenance system of the floating structure according to an embodiment of the present invention. When event information is generated in various facilities in the monitoring apparatus and the equipment is measured (S42), it is transmitted to the maintenance system, and the transmitted value is compared with the status information (S44). If the status information and the event information have a difference greater than or equal to a preset reference value, the status information is updated. This status information is stored in the maintenance system and can be transmitted to a central server onshore according to the user's or manufacturer's settings.

According to the present invention as described above, it is possible to monitor in real time the status of various machines, instruments, devices, and other equipment of the floating structure. Unmanned ECC (ENGINE CONTROL CONSOLE) is possible, and inspection, monitoring, and control at the place where facilities are available can shorten the inspection time, and it can prevent the occurrence of noise by communication communication and the reduction of reliability mentioned above. . In addition, since the output of the W-LAN (wireless LAN) is minute, it is possible to prevent the occurrence of magnetic flux due to magnetic field disturbance.

Accordingly, according to the present invention, it is possible to monitor, preventive maintenance / inspection of the status information on the main equipment such as the engine in real time, reducing the total cost of the floating structure operated for about 20 years in terms of the user of the floating structure, and maintain Reduces maintenance costs and maximizes the availability of floating structures. 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.

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 gist 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.

Monitoring system: 100
Receiver: 200
Information Processing Department: 300
Output part: 400
Wireless Repeater: 500

Claims (7)

In the monitoring system for the maintenance of the floating structure,
Receiving unit for receiving status information about the device, mechanism, machine and parts of the floating structure;
When designing the device, mechanism, machine and parts of the first floating structure, the design information about the basic state is compared with the state information received through the receiver to determine whether there is a defect, and if there is a defect, the size and location of the defect. And an information processing unit providing a solution. And
And an output unit for periodically outputting the size, location, and solution of the defect provided by the information processing unit. The method according to claim 1,
And if the received state information has a difference greater than or equal to a preset reference value, updates the state information, and transmits the updated state information to a central server on land. The method according to claim 1,
The information processing unit
Providing the size, location and solution of the defect to the output via a wireless access point,
And the wireless repeater is installed in at least one of an engine room, a deck, and a cabin to enable communication in the floating structure. The method according to claim 1,
The wireless access point is
Monitoring system for maintenance of floating structures integrated with antennas. The method according to claim 1,
The wireless repeater (access point) is a monitoring system for maintenance of the floating structure, characterized in that the power over Ethernet (POE). In the monitoring method of the monitoring system including a receiver, an information processor and an output unit for maintenance of the floating structure,
Receiving status information about devices, instruments, machines and components of the floating structure;
By comparing the design information of the basic state in the design of devices, mechanisms, machines and parts of the first floating structure and the state information received through the receiving unit, it is determined whether there is a defect, the size of the defect, Providing a location and a solution; And
And periodically outputting the size, location, and solution of the defects provided by the information processing unit to an internal server or a user terminal in the floating structure. The method of claim 6,
The providing step provides the size, location and solution of the defect to the output via a wireless access point,
And the wireless repeater is installed in at least one of an engine room, a deck, and a cabin to enable communication in the floating structure.

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