KR20160024019A - Apparatus which supports a simulation process about a turret mounting status - Google Patents

Abstract

The present invention relates to a turret mounting simulation (TMS) supporting apparatus, which comprises: a data processing for accepting TMS request information; a data processing module for extracting TMS basic scenario information; a data processing module for generating TMS executing scenario information; and a data processing module for inducing to output a TMS image frame through a manager information device.

Description

[0001] The present invention relates to a turret mount simulation support apparatus,

[0001] The present invention relates to an apparatus for supporting a virtual simulation procedure of a turret loading situation, and more particularly, to a turret mount simulation (TMS : Turret Mounting Simulation) Based on the image frame, various scene conditions that may occur when the turret is mounted (for example, a situation where various sub-structures constituting a turret collide with surrounding sub-assemblies constituting a floating structure, The situation where the structures collide with each other, the situation where the various accessories forming the turret can not be smoothly combined with each other, the situation where the various accessories forming the turret can not be smoothly combined with the peripheral accessories forming the floating structure) , And to encourage them to prepare corresponding flexible measures in advance The present invention relates to a TMS support apparatus capable of effectively guiding the removal of various physical and / or human damage caused by interruption of an unexpected turret loading operation.

Recently, a variety of floating types such as drill ship, jack-up rig, semi-submersible drilling rig, FPSO (Floating Production Storage Off-loading), FSRU (Floating Storage and Re- Demand for offshore structures has surged, and turret demand for stable anchoring and resource harvesting has also been on the rise.

For example, Japanese Laid-Open Patent No. 10-2000-68136 (titled Turret System of Ship) (published on Nov. 25, 2000), Korean Patent No. 10-701398 (entitled " LNG re- And a method for preventing deformation of a hull using the spray device), Korean Patent Laid-Open No. 10-2013-36578 (entitled " Outer turret system for truss structure applied truss structure " (Hereinafter, referred to as a " cantilever ") issued on Apr. 12, 2013 and a domestic registered patent No. 10-1307571 Is disclosed in more detail.

On the other hand, since the above-mentioned turret is very large in size and its structure is also very complicated, it can be used in a required area of a floating floating structure (e.g., drill ship, jack-up rig, semi-submersible drill rig, FPSO, FSRU, In order to mount it properly, not only a considerable period of work but also a large amount of equipment / manpower will be required.

Of course, under such a situation that a considerable period of work and a large amount of equipment / manpower is required to mount the turret, unexpected site conditions (for example, various sub- The turret collides with each other, the situation where the turrets do not smoothly interlink with each other, and the various accessories that make up the turret, (For example, a floating offshore structure operator, a turret operator, or the like) can not normally proceed with the turret loading operation and can not stop the turret loading operation in a serious phase A serious phase in which equipment / personnel must stop its operation at one time) , After all, it is forced to take intact a variety of physical / human damage caused thereby.

Of course, in order to adequately block such material and human damage, it is inevitably required to anticipate the various situations that may arise when the turret is mounted, and to prepare corresponding countermeasures in advance.

However, as described above, since the size of the turret is very large and its structure is also very complicated, it is very difficult to anticipate in advance the actual situation of the site on the loading stage. As a result, (For example, a floating type floating structure operator, a turret operator, etc.), the turret is always subject to great difficulty in effectively mounting the turret on the floating structure.

Korean Patent Laid-Open No. 10-2000-68136 (Title: Turret System of Ship) (Published November 25, 2000) Korean Registered Patent No. 10-701398 (Name: Spray apparatus for preventing deformation of hull installed in turret of LNG regasification vessel and method of preventing deformation of hull using the spray apparatus) (2007.3.28 issued) Korean Patent Laid-Open No. 10-2013-36578 (Title: Cantilever for Outer Mooring Turret System of Vessel with Truss Structure) (April 12, 2013) Domestic Registered Patent No. 10-1307571 (Name: Dual Turret Mooring System) (Published in September 12, 2013)

Therefore, an object of the present invention is to provide a computerized module capable of receiving TMS request information including information on a turret subject to be simulated by communicating with an administrator information device in a communication pipeline of an administrator information device, an operating entity, <After reading the information on the turret subject to be simulated, information on the turret mounting order, details of the sub-structure and sub-sub-structure necessary for the turret mounting procedure, and the turret are loaded from the information based on the previously stored turret mount simulation (TMS) The computerized module capable of extracting the TMS basic scenario information including the structural information of the floating offshore structure, the information about the turret related to the simulation and the TMS scenario information, and then the turret corresponding to the read- The order of installation of the turret, the details of the sub-structure and sub-structure necessary for the installation procedure of the turret, and the turret A computational module capable of generating TMS execution scenario information including the structural information of the floating ocean structure to be created, and extracting the image source information from the previously stored TMS-based information after reading the generated TMS execution scenario information A computer module capable of generating a TMS image frame corresponding to the TMS execution scenario information, transmitting the generated TMS image frame to the manager information device, and guiding the TMS image frame to be outputted through the manager information device, etc. (For example, a floating body of floating structures, a turret operator, etc.), on the basis of the TMS image frame, various kinds of site conditions (e.g., turrets) The situation in which the various sub-structures constituting the turret collide with the surrounding sub-assemblies constituting the floating sea structure, The situation where the adjoining structures collide with each other, the situation where the various accessories forming the turret can not be smoothly combined with each other, the situation where the various accessories forming the turret are not smoothly combined with the peripheral parts of the floating structure) And to provide flexible countermeasures corresponding to these, so as to guide effectively to avoid various physical and personal damages caused by the interruption of the unexpected loading of the turret.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

In order to achieve the above object, the present invention provides a TMS supporting apparatus for controlling a Turret Mounting Simulation (TMS) procedure while communicating with an administrator information device or an operating subject system server connected to a wired / A TMS request information reception module for communicating with the manager information device via the wired / wireless on-line network to receive TMS request information including the turret related information to be simulated; Related information included in the TMS request information, and then, based on the previously stored TMS-based information, the order of mounting the turret, the structure of the sub-structure required for the installation procedure of the turret, the details of the sub- A TMS basic scenario information extraction module for extracting TMS basic scenario information including structural information of an offshore structure; The turret-related information to be simulated, and the TMS scenario information are read out, then the order of mounting the turret corresponding to the turret-related information to be simulated, the details of the subsidiary structure and the subassemblies necessary for the installation procedure of the turret, A TMS execution scenario generation module for generating TMS execution scenario information including structure information of a structure; After reading the TMS execution scenario information, it extracts image source information from previously stored TMS-based information, generates a TMS image frame corresponding to the TMS execution scenario information, and transmits the generated TMS image frame to the manager information device And a TMS executable module for allowing the TMS image frame to be output through the manager information device.

In the present invention, in a communication pipeline of an administrator information device, an operating subject system server, and the like, a <computation module capable of receiving TMS request information including information related to a turret subject to be simulated by communicating with an administrator information device> After the related information is read out, information on the turret mounting order, information on the sub-structures and subassemblies necessary for the turret mounting procedure, information on the turret mounting system to be mounted on the turret, The computerized module capable of extracting the TMS basic scenario information including the structural information of the structure, the information about the turret related to the simulation and the TMS scenario information, The details of the sub-structure and the sub-structure required for the installation procedure of the turret, the floating type on which the turret is to be mounted A computerized module capable of generating TMS execution scenario information including structure information of both structures, < extracts image source information from previously stored TMS-based information after reading the generated TMS execution scenario information, A computerized module capable of generating a TMS image frame corresponding to scenario information, transmitting the generated TMS image frame to the manager information device, and guiding the TMS image frame to be outputted through the manager information device, (TMS) image frame, it is possible to realize various types of scenes that can occur when the turret is mounted on the side of the operator (for example, floating body of floating structures, The situation (eg, the various sub-structures that make up the turret are the surrounding sub- The situation of collision, the collision of various sub-structures that make up the turret, the situation where the various attachments that make up the turret can not be smoothly combined with each other, and the various attachments that make up the turret are smoothly combined with the surrounding sub- It is possible to anticipate the situation in which the turret is not able to be predicted in advance and to provide a flexible countermeasure corresponding thereto in advance so that it is possible to effectively eliminate various physical and personal damages caused by the interruption of the loading operation of the unexpected turret .

1 is an exemplary diagram conceptually showing a communication environment of a TMS supporting apparatus according to the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a TMS supporting apparatus,
FIG. 3 is an exemplary view conceptually showing a publishing state of a TMS guide frame according to the present invention; FIG.
FIG. 4 is an exemplary diagram conceptually illustrating a detailed function execution procedure of a TMS supporting apparatus according to the present invention; FIG.
FIG. 5 is an exemplary view conceptually showing an output screen of a TMS image frame according to the present invention; FIG.

Hereinafter, a TMS supporting apparatus according to the present invention will be described in more detail with reference to the accompanying drawings.

As shown in FIG. 1, a drill ship, a jack-up rig, a semi-submersible drilling rig, a floating production storage off-loading (FPSO), a floating storage and re- The turret 2 (turret) necessary for stable anchoring, resource harvesting, etc. is installed / installed in various floating marine structures 1 such as a ship.

In this case, the turret 2 may comprise, for example, a swivel stack (approximately 300 tonnes), a manifold module (approximately 3200 tonnes), a gantry structure (approximately 1,300 tonnes Various sub-structures 2a such as a collar structure (about 2000 tons scale), a Bogie support (about 1000 tons scale), a lower turret (about 2200 tons scale) (Such as bearings, wheels, guidewires, rings, etc.) for forming these sub-structures 2a, or for joining them (of course, the sub-sub-structures 2b Detailed size / type, detailed size / type of sub-structure, etc. can be varied depending on the situation).

Since the turret 2 is very large in size and its structure is also very complicated, it is possible to use the floating structure 1 (for example, drill ship, jack-up rig, semi-submersible drill rig, FPSO, FSRU, It is necessary to have not only a considerable period of work but also a large amount of equipment / manpower to be mounted at a proper level in the required area.

Of course, under such a situation that a large amount of equipment / manpower is required for a considerable period of time in the installation of the turret 2, unexpected site conditions (for example, various subsidiary structures 2a, 2b of the turret 2 collide with the surrounding sub-assemblies constituting the floating marine structure 1 and the various subsidiary structures 2a and 2b constituting the turret 2 collide with each other, 2b of the turret 2 can not be smoothly combined with the surrounding sub-assemblies constituting the floating structure 1 due to the situation in which the turbulators 2a and 2b are not smoothly coupled to each other, Etc.), it is necessary to stop the loading operation of the turret 2 on the side of the operating entity (for example, the floating type floating structure operator, the turret operating entity, etc.) The workforce must stop the operation at a time. Forced to face the serious aspect) and, in the end, it is forced to take intact a variety of physical / human damage caused thereby.

Under this sensitive situation, in the present invention, the status of the installation of the turret 2 is set up in the communication pipeline of the manager information device 10, the operating subject system server 20 and the like connected to the wired / The present invention provides a TMS support unique to the present invention that anticipates various site conditions that may occur when the turret 2 is mounted and prepares corresponding countermeasures in advance (The TMS supporting apparatus 100 inherent to the present invention may, of course, take a structure that is dependent on the program block of the operating subject period system server 20, depending on the situation) have).

At this time, the operating subject system server 20 communicates with the manager information device 10 via the wired / wireless on-line network 30 to install and operate the floating offshore structure 1, Store / distribute various information (e.g., site information, equipment information, manpower information, in-house distribution information, communication infrastructure information, etc.) related to installation, operation, and the like. Here, the manager information device 10 is a device for managing information of a desktop computer, a notebook computer, a tablet PC, a PDA, a smart phone, etc. owned by a manager belonging to an operating entity (for example, a floating marine structure operator, Processing equipment.

2, the TMS supporting apparatus 100 according to the present invention includes an administrator information device 10, an operating subject period system server 10, A TMS based information storage module 104, a TMS request information reception module 105, a TMS basic scenario information extraction module 106, a TMS base scenario information extraction module 106, ), A TMS execution scenario generation module 107, a TMS execution module 108, a virtual accident situation processing module 109, a virtual accident situation processing reference information storage module 110, an accident avoidance guide information support module 111, a TMS The reference information support module 112, and the TMS-based information update support module 113 are tightly combined.

In this case, the operation information storage module 102 may store various operation information required for the TMS service according to the present invention, for example, registration information of the administrator information device 10, The registration information of each manager, the infrastructure information for connecting the communication session, the program information for performing the functions of the respective computation modules, and the content information for configuring / implementing the table / character / figure / , And assists the TMS service according to the present invention to proceed normally without any problem.

In the TMS-based information storage module 104, various types of base information required for the TMS service according to the present invention, for example, graphic / video / audio setting information for the simulation progress, The information on the sub structure 2b necessary for the installation procedure of each type of turret 2 and the details of the sub structure 2b necessary for the mounting procedure of the turret 2 for each type, The structure information of the floating ocean structure 1 on which the turret 2 is mounted, the registration information of the floating ocean structure 1 on which the turret 2 is mounted, the image source information (for example, A character image / a picture, and the like, which are sequentially imbedded with the shape of the sub structure 2b constituting the sub structure 2b or the sub structure 2b constituting the turret 2, (2), and the information (For example, the outer circumference of the ring constituting the lower turret of the XX type is located at the position XX, <Guide the diameter of the ring to be reduced by XX> when colliding with the YY chair of the marine structure 1>, the outer ring of the first ring constituting the lower type turret of XX type is located at the XX position, Guide information that &quot; reduce the diameter of the first ring by XX &quot; in case of collision, &quot; when the outer ring of the ring constituting the lower turret of the XX type can not be combined with the YY design of the floating structure 1 at the XX position , Guide information of inserting an AA fixture at the YY position of the ring, and the like), so that the TMS service according to the present invention can be performed normally without any problem.

In addition, the virtual accident situation processing reference information storage module 110 may store various reference information for determining / processing a virtual accident situation that may occur in the mounting process of the turret 2 in its information storage area, for example, < &Quot; a collision accident occurs when the outer periphery of the ring constituting the lower turret of the type is close to the SS at the position YY of the floating structure 1 and at the XX position, < XX type bottom A virtual accident situation processing reference information that a collision occurs when the outer ring of the first ring constituting the turret is close to the lower turret AA part by ZZ at the XX position, And the virtual occasion condition processing standard information that the ring can not be combined with the YY chairman of the floating marine structure 1 at the XX position when the number of the rings is equal to or less than KK, It plays a role of assisting normal progress without problems.

Further, the TMS guide frame support module 103 communicates with the administrator information equipment 10 via the interface module 101, the online / offline online network 30, When a paging message for use of a service is transmitted, communication with the operation information storage module 102 is performed, and the operation information previously stored in the information storage area is extracted. Then, based on the extracted TMS, The guide frame 200 is generated and the created TMS guide frame 200 is transmitted to the manager information equipment 10 to help the TMS service according to the present invention proceed normally without any problem.

Of course, under the situation where the TMS guide frame 200 is posted through the manager information device, a menu item included in the TMS guide frame 200 is displayed on the side of the operating entity (for example, the floating marine structure management entity, the turret management entity, It is possible to simulate the mounting situation of the turret 2 with a series of images in advance by an extremely simple computer operation to be operated.

4, the TMS request information receiving module 105 receives the request from the administrator information device 10 via the interface module 101, the wired / wireless on-line network 30, and the like, (For example, the type information of the simulation target turret 2, the mounting zone information of the simulation target turret 2, and the information of the simulation target turret 2) from the manager information device 10 side (E.g., information on the subject of carrying-in), etc., is transmitted.

In this situation, the administrator side carries out computation work using the TMS guide frame 200 to acquire information about the turret subject to be simulated (for example, type information of the turret 2 to be simulated, (TMS) request information including the information on the installation area of the robot 2, the information on the installation area of the robot 2, the subject information of the loading subject of the simulation subject turret 2, and the like) is transmitted, the TMS request information reception module 105 transmits / 30, and the interface module 101, and temporarily stores the received / received TMS request information in its own information storage area, so that the TMS service according to the present invention can proceed normally without any problem (See FIG. 4).

In this way, the TMS request including the simulation target turret-related information (for example, type information of the simulation subject turret 2, mounting zone information of the simulation subject turret 2, mounting subject information of the simulation subject turret 2, The TMS basic scenario information extraction module 106 communicates with the TMS request information reception module 105 to receive the simulation target turret related information included in the TMS request information (for example, the simulation target turret 2), the information on the mounting area of the simulation subject turret 2, the information on the subject of the loading subject of the simulation subject turret 2, and the like) (see FIG. 4).

(For example, the type information of the simulation subject turret 2, the mounting area information of the simulation subject turret 2, and the loading task of the simulation subject turret 2) included in the TMS request information through the above- The TMS base scenario information extracting module 106 communicates with the TMS-based information storage module 104 and extracts the turret 2 from the TMS-based information previously stored in the information storage area 104 The information on the sub structure 2b necessary for the installation procedure of each type of turret 2 and the details of the sub structure 2b necessary for the mounting procedure of the turret 2 for each type, The TMS basic scenario information including the structural information of the floating ocean structure 1 to be mounted and the registration information of the floating offshore structure 1 on which the turret 2 is to be mounted, Reference).

In this way, information on the installation order of each type of turret 2, details of the subsidiary structure 2a necessary for the mounting procedure of each type of turret 2, information on the subsidiary structures 2b ) History information, the TMS basic scenario information including the structural information of the floating offshore structure 1 on which the turret 2 will be mounted, the registration information of the floating offshore structure 1 on which the turret 2 is to be mounted, The TMS execution scenario generation module 107 communicates with the TMS basic scenario information extraction module 106 and proceeds to the process of reading the extracted TMS basic scenario information, (For example, the type information of the simulation target turret 2, the mounting zone information of the simulation target turret 2, and the simulation target information) To proceed with the process of reading the charge of the subject information, and the like) of (2) (see Fig. 4).

The type of the turret 2 to be simulated, the loading zone information of the to-be-simulated turret 2, the loading subject of the to-be-simulated turret 2, and the TMS base scenario information, The TMS execution scenario generation module 107 proceeds to a series of information generation routines to make the details of the loading sequence of the turret 2 corresponding to the information on the turret subject to be simulated, The TMS execution including the details of the subsidiary structure 2a necessary for the procedure, the details of the subassemblies 2b necessary for the loading procedure of the turret 2, and the structure details of the floating ocean structure 1 on which the turret 2 is to be mounted, The process of generating the scenario information proceeds (see FIG. 4).

In this way, the details of the mounting sequence of the turret 2 corresponding to the information of the turret relating to the simulation, the details of the subsidiary structure 2a necessary for the mounting procedure of the turret 2, The TMS execution scenario generating module 107 generates the TMS execution scenario information on the side of the TMS execution module 108 under the situation that the TMS execution scenario information including the details of the structure of the floating offshore structure 1 on which the turret 2 is to be loaded, (For example, the details of the mounting sequence of the turret 2 corresponding to the information on the to-be-simulated turret, the details of the accessory structure 2a necessary for the loading procedure of the turret 2, The structure details of the floating structure 1 to be loaded with the turret 2, etc.) and then communicates with the TMS-based information storage module 104, T < RTI ID = 0.0 > (For example, the details of the mounting sequence of the turret 2 corresponding to the information on the to-be-simulated turret, the details of the accessory structure 2a necessary for the mounting procedure of the turret 2, the mounting procedure of the turret 2) (For example, turret 2 for each type) for the implementation of the TMS image corresponding to the details of the sub-subsidiary structure 2b necessary for the turret 2, the structural details of the floating ocean structure 1 on which the turret 2 is to be mounted, A content information for constructing / implementing a unit image frame, a table / character / picture / image, etc. in which the appearance of the sub-structure 2b or the sub-sub-structure 2b constituting the sub-structure 2b is sequentially embedded) (See FIG. 4).

The image source information for implementing the TMS image corresponding to the TMS execution scenario (for example, the mounting state of the subsidiary structure 2a or sub subsidiary structure 2b constituting the turret 2 for each type) is sequentially The content information for constructing / implementing a table / character / picture / image, etc.)> is extracted, the TMS execution module can display the graphic for the simulation progress / Video / sound setting information > to proceed with a series of image frame generation routines to generate a TMS image frame corresponding to the TMS execution scenario information (see FIG. 4).

In this way, when the TMS image frame corresponding to the TMS execution scenario information is generated, the TMS execution module 108 transmits the TMS image frame to the manager information device 10 via the interface module 101, the online / (For example, the details of the order of loading of the turret 2 corresponding to the information on the turret related to the simulation, the accessory structure 2a necessary for the loading procedure of the turret 2) and the TMS execution scenario information And a procedure for transmitting the TMS image frame corresponding to the details of the sub-substructure 2b necessary for the loading procedure of the turret 2, the structure details of the floating ocean structure 1 on which the turret 2 is mounted, etc.) (See FIG. 4).

Through the above procedure, the TMS execution scenario information (for example, the details of the mounting sequence of the turret 2 corresponding to the information on the turret related to the simulation, the details of the subsidiary structure 2a necessary for the mounting procedure of the turret 2, The TMS image frame corresponding to the details of the sub subsidiary structure 2b necessary for the installation procedure of the turret 2 and the structure details of the floating offshore structure 1 on which the turret 2 is to be mounted, The TMS image frame received / received is output as shown in FIG. 5. As a result, at the manager (or the operator) side, the turret 2 And the sub-subsidiary structure 2b constituting the sub-subsidiary structure 2b are successively mounted in accordance with the predetermined installation procedure, while closely observing various scene conditions that may occur when the turret 2 is mounted and, And measures corresponding thereto can be prepared in advance.

As described above, in the present invention, communication with the manager information device 10 is performed in the communication pipeline of the manager information device 10, the operating entity system server 20, and the like to obtain TMS request information including the turret- Based on the stored TMS-based information, the sub-structure 2a necessary for the order of loading the turret 2, the sub-structure 2a for the loading procedure of the turret 2, and the sub- A computer module capable of extracting TMS basic scenario information including structure information of the sub-subsidiary structure 2b, the floating ocean structure 1 on which the turret 2 is to be mounted, < Information of the sub structure 2b necessary for the loading procedure of the turret 2 and the details of the subsidiary structure 2b necessary for the loading procedure of the turret 2 and the order of loading of the turret 2 corresponding to the read- ) Float to be mounted A computation module capable of generating TMS execution scenario information including the structural information of the offshore structure (1), &lt; extracting the image source information from the stored TMS base information after reading the generated TMS execution scenario information Generates a TMS image frame corresponding to the TMS execution scenario information, and transmits the generated TMS image frame to the manager information device 10 to induce the TMS image frame to be outputted through the manager information device 10 (TMS) image frame without any difficulty on the side of the operator (for example, a floating marine structure operator, a turret operator, etc.) under the implementation environment of the present invention, (For example, various subsidiary structures 2a and 2b constituting the turret 2 form the floating structure 1), which may occur when the turret 2 is mounted, A situation in which the various subsidiary structures 2a and 2b constituting the turret 2 collide with each other and the various accessories 2a and 2b constituting the turret 2 are not smoothly coupled to each other A situation in which the various accessories 2a and 2b constituting the turret 2 can not be smoothly combined with peripheral accessories forming the floating structure, etc.) So that it is possible to effectively eliminate various kinds of physical and personal damage caused by the interruption of the loading operation of the turret 2 which is not predicted.

2, in the program block of the TMS supporting apparatus 100 according to the present invention, in addition to the above-described various computation modules, a virtual accident situation processing module 109, an accident avoidance guide information support module A TMS reference information support module 112, a TMS based information update support module 113, and the like.

At this time, under the situation that the TMS image frame is outputted through the manager information device 10 by performing the function of the above-described TMS execution module 108, the virtual incident situation processing module 109 generates a virtual incident situation processing reference information storage module 110), and the virtual incident situation processing reference information (for example, < XX type, the outer periphery of the ring constituting the lower turret is stored in the YY chair of the floating structure (1) Quot; XX &quot; position, the collision accident occurs when &quot; proximate to the SS &quot;, < &lt; XX type outer circumference of the first ring constituting the lower turret, , &Quot; a collision accident occurs &quot;, &lt; &lt; XX &gt;, when the outer diameter of the ring constituting the lower turret is KK or less, Combined with the chair If not> to proceed to virtual accident situation procedure for reading out the processing based on information and the like) that (see Fig. 4).

In this way, under the situation where the virtual incident situation processing reference information previously stored in the information storage area of the virtual accident situation processing reference information storage module 110 is read, the virtual incident situation processing module 109 side executes the TMS execution module 108, And detects whether or not a virtual incident situation defined in the virtual incident situation processing reference information has occurred during the virtual loading process of the turret by detecting the TMS image frame based on the virtual incident situation processing reference information while communicating with the virtual incident situation processing reference information (See FIG. 4).

Under the TMS image detection situation, the virtual accident situation processing module 109 detects the virtual accident situation processing standard information (for example, the outer circumference of the ring constituting the lower turret of the XX type is the YY chair of the floating type floating structure 1 &Lt; &lt; XX &gt; > < XX &apos; near the SS, a collision occurs. &Lt; < XX & &Lt; &lt; XX &gt; &gt; &lt; &lt; XX &gt;, when the outer diameter of the ring constituting the lower turret is KK or less, If it is judged that the virtual accident situation defined in the virtual accident situation processing reference information such as &quot; can not be combined with the YY chairman &quot;, etc.), a series of message generating routines are executed, Notification messages the accident situation to proceed the process to generate (e. G., <Claim the outside of the first ring part and the lower turret AA collision in the position XX> such as notification messages)>.

When a virtual accident situation occurrence notification message (e.g., a notification message such as &quot; the outer ring of the first ring collides with the lower turret AA part at the XX position &quot;, etc.) corresponding to the virtual accident situation is generated through the above procedure, The virtual incident situation processing module communicates with the administrator information device 10 via the interface module 101 and the wired or wireless online network 30 to transmit the generated virtual incident situation occurrence notification message to the administrator information device 10, (Refer to FIG. 4).

In this way, when the virtual incident situation occurrence notification message corresponding to the virtual incident situation is transmitted / received, the manager information device 10, as shown in FIG. 5, transmits the message notification object 200c (For example, a notification message such as &quot; an outline of the first ring collides with the lower turret AA part at the XX position &quot;, etc.) corresponding to the virtual accident situation is output / displayed, As a result, if the turret loading operation is carried out under the present conditions, the outer ring of the first ring is moved to the lower turret AA part and the XX position It is possible to easily recognize / understand the fact that &quot; can collide with &quot;

Meanwhile, on the side of the accident avoidance guide information support module 111 that operates in conjunction with the preceding computer modules, a virtual accident situation occurrence notification message corresponding to the virtual accident situation is transmitted through the message notification object 200c arranged in the TMS image frame Communication with the administrator information device 10 via the interface module 101, the wired / wireless on-line network 30 or the like and sends an accident avoiding guide information request It is checked whether or not the message has been transmitted (see FIG. 4).

At this time, when it is determined by the administrator that the menu item posted in the TMS guide frame 200 is computationally operated and that an accident avoiding guide information providing request message is transmitted from the manager information device 10, the accident avoiding guide information supporting module 111) communicates with the TMS-based information storage module 104 and stores the accident avoiding guide information (for example, the outer circumference of the ring constituting the lower type turret of the XX type is stored in the information storing area of the floating type Guide information that &quot; reduce the diameter of the ring by XX &quot; when colliding with the YY chair of the marine structure 1 &gt;, the outer ring of the first ring constituting the lower type turret of XX type collides with the lower turret AA part at the XX position , The outer circumference of the ring constituting the lower turret of the XX type does not engage with the YY chair of the floating type floating structure 1 at the XX position, Guide information such as inserting an AA fixture at the YY position of the ring &quot;, etc.), and proceeds to the process of extracting the accident avoiding guide information corresponding to the corresponding virtual accident situation (see FIG. 4 ).

In this way, when accidental avoidance guide information corresponding to the virtual accident situation (for example, the outer edge of the ring constituting the lower turret of the XX type collides with the YY seat of the floating type floating structure 1 at the XX position, The guide information providing module 111 is connected to the manager information device 10 via the interface module 101, the online / offline online network 30, and the like, Communication is performed, and the extracted accident prevention guide information is transmitted to the manager information equipment 10 side (refer to FIG. 4).

Through the above procedure, when the accident avoiding guide information has been transmitted / received, the manager information device 10, through the message notification object 200a disposed in the TMS image frame as shown in FIG. 5, (For example, when the outer periphery of the ring constituting the lower turret of the XX type collides with the YY chair of the floating type floating structure 1 at the XX position, the diameter of the ring is reduced by XX) The user can easily recognize / grasp a series of accident avoiding guide information by an extremely simple procedure of watching the administrator information device 10 without any difficulty on the side of the administrator or the operator .

On the other hand, in the TMS reference information support module 112 operating in conjunction with the above-described respective computation modules, under the situation where the TMS image frame is outputted through the administrator information device 10 by performing the function of the TMS execution module 108 The management information device 10 communicates with the manager information device 10 via the interface module 101 and the wire / wireless online network 30 to determine whether the TMS reference information provision request message is transmitted from the manager information device 10 (See FIG. 4).

At this time, if the administrator computes the menu item posted in the TMS guide frame 200 and determines that the TMS reference information provision request message is transmitted from the manager information device 10, the TMS reference information support module 112 Side information reception module 105 to acquire the simulation target turret-related information (for example, the type information of the simulation target turret 2, the mounting zone information of the simulation target turret 2, The subject information of the loading subject of the target turret 2, etc.) (see Fig. 4).

In this way, when the information about the simulation target turret (for example, the type information of the simulation target turret 2, the mounting zone information of the simulation target turret 2, the mounting subject information of the simulation target turret 2, The TMS reference information support module 112 communicates with the TMS-based information storage module 104 and transmits TMS reference information (for example, TMS reference information) stored in the information storage area thereof to the floating ocean structure 1 Information on necessary equipment for mounting the turret 2, cost information necessary for mounting the turret 2, period information required for mounting the turret 2, etc.) The TMS reference information corresponding to the simulation target turret-related information (for example, the type information of the simulation subject turret 2, the mounting zone information of the simulation subject turret 2, the mount subject information of the simulation subject turret 2, It will proceed to extract (see Fig. 4).

TMS reference information (e.g., registration information of the floating offshore structure 1 on which the turret 2 is to be mounted, workforce information necessary for mounting the turret 2) (E.g., equipment information necessary for mounting the turret 2, cost information required for mounting the turret 2, and period information necessary for mounting the turret 2) is extracted from the TMS reference information support module 112, 101 and the wired / wireless on-line network 30, and transmits the extracted TMS reference information to the manager information apparatus 10 (refer to FIG. 4) ).

When the TMS reference information is transmitted / received, the manager information device 10 side, as shown in FIG. 5, transmits the message notification object 200b arranged in the TMS image frame to the simulation target turret- (For example, the registration information of the floating offshore structure 1 on which the turret 2 is to be mounted, the workforce information necessary for mounting the turret 2, the equipment information necessary for mounting the turret 2, ) Of the manager information device 10 and the time information necessary for the installation of the turret 2), and eventually displays a very simple procedure of watching the manager information device 10 without any difficulty on the manager / (For example, the registration information of the floating offshore structure 1 on which the turret 2 is to be mounted, the manpower information necessary for mounting the turret 2), information on the position of the turret 2 Equipment required for mounting , So that the turret (2) period required for the information with the cost information, the turret (2) required for the mounting of the like) can easily recognize / identify.

On the other hand, the TMS-based information update support module 113, which operates in cooperation with each of the above-described computation modules, is provided with an administrator information device 10 via an interface module 101, a wire / wireless online network 30, It is checked whether or not the TMS update information for updating the previously stored TMS-based information has been transmitted from the manager information device 10, the operating subject system server 20, or the like while communicating with the server 20 (See FIG. 4).

At this time, if it is determined that the TMS update information for updating the previously stored TMS-based information has been transmitted from the manager information device 10, the operating subject system server 20, etc., the TMS-based information update support module 113 Receives and / or receives the TMS-based information from the TMS-based information storage module 104 via the interface module 101, the online / offline online network 30, and the like, communicates with the TMS-based information storage module 104, TMS-based information (for example, graphic / image / sound setting information for simulation progress, mounting order history information of each type of turret 2, history information of the subsidiary structure 2a necessary for the mounting procedure of each type of turret 2) The detailed information of the subassembly 2b necessary for the installation procedure of each type of turret 2, the structure information of the floating type ocean structure 1 on which the turret 2 is to be mounted, the floating ocean structure 1 on which the turret 2 is to be mounted, (1), the image for implementing the TMS image Source information, workforce information necessary for mounting the turret 2, equipment information necessary for mounting the turret 2, cost information necessary for mounting the turret 2, period information necessary for mounting the turret 2, Information, etc.) according to the TMS update information, so that the administrator and the operator can always maintain / manage the TMS-based information in the latest state.

The present invention exhibits a generally useful effect in various fields requiring management of a turret.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

1: Floating marine structure 2: Turret 2a: Sub-structure 2b: Sub-sub-structure
10: Manager information device 20: Operator Subject period server
30: Online / wireless online network 100: TMS support device
101: Interface module 102: Operation information storage module
103: TMS guide frame support module 104: TMS based information storage module
105: TMS request information reception module 106: TMS basic scenario information extraction module
107: TMS execution scenario generation module 108: TMS execution module
109: Virtual incident situation processing module 110: Virtual incident situation processing reference information storage module
111: Accident avoidance guide information support module 112: TMS reference information support module
113: TMS-based information update support module

Claims (5)

A TMS support apparatus for controlling a TMS (Turret Mounting Simulation) procedure while communicating with an administrator information device connected to a wired / wireless on-line network or an operating subject system server,
A TMS request information reception module for communicating with the manager information device via the wired / wireless on-line network to receive TMS request information including the turret related information to be simulated;
Related information included in the TMS request information, and then, based on the previously stored TMS-based information, the order of mounting the turret, the structure of the sub-structure required for the installation procedure of the turret, the details of the sub- A TMS basic scenario information extraction module for extracting TMS basic scenario information including structural information of an offshore structure;
The turret-related information to be simulated, and the TMS scenario information are read out, then the order of mounting the turret corresponding to the turret-related information to be simulated, the details of the subsidiary structure and the subassemblies necessary for the installation procedure of the turret, A TMS execution scenario generation module for generating TMS execution scenario information including structure information of a structure;
After reading the TMS execution scenario information, it extracts image source information from previously stored TMS-based information, generates a TMS image frame corresponding to the TMS execution scenario information, and transmits the generated TMS image frame to the manager information device And a TMS executable module for allowing the TMS image frame to be output through the manager information device. The method as claimed in claim 1, further comprising the steps of: detecting the TMS image frame on the basis of previously stored virtual incident processing reference information in a situation where the TMS image frame is outputted through the manager information device; Monitoring whether or not a virtual incident situation defined in the virtual incident situation processing reference information has occurred and communicating with the TMS execution module when it is determined that a virtual incident situation defined in the virtual incident situation processing reference information has occurred, Further comprising a virtual incident situation processing module for allowing a virtual incident occurrence notification message corresponding to the virtual incident situation to be attached to the TMS image frame outputted through the manager information device. The method according to claim 2, further comprising: searching for accidentally-saved guide information previously stored in the TMS image frame outputted through the manager information device in a situation where a virtual accident situation occurrence notification message corresponding to the virtual accident situation is attached, An accident avoiding guide information corresponding to a virtual accident situation is extracted and the extracted accident avoiding guide information is transmitted to the TMS execution module side so that accident avoidance corresponding to the virtual accident situation And an accident avoiding guide information supporting module for allowing guide information to be attached to the TMS supporting device. The method according to claim 1, further comprising the steps of: reading information related to the turret subject to be simulated in a situation where the TMS image frame is outputted through the manager information device; TMS reference information including information on equipment necessary for loading a turret, information on a time required for loading a turret, and period information necessary for loading a turret, extracts the extracted TMS reference information to the TMS execution module, And a TMS reference information supporting module for allowing the TMS reference information to be attached to the TMS image frame. The method according to claim 1, further comprising: updating the TMS-based information previously stored from the manager information device or the operating entity system server side, while communicating with the manager information device or the operating subject system server through the wired / And a TMS-based information update support module for receiving the TMS update information and changing the previously stored TMS-based information according to the received TMS update information when the TMS update information for the TMS update information is transmitted, Supported devices.

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