KR101682861B1 - System for managing construction work for shipbuilding offshore plant, and method thereof - Google Patents

Abstract

The present invention relates to a system and a method for managing a site operation for a shipbuilding offshore plant. The system for managing a site operation for a shipbuilding offshore plant comprises: an order company terminal (10); an internet sharing network server (20); a site operator terminal group (30G); and a main antenna (M.A.). The system and the method provide an effect to maintain connectivity of a site operation for a shipbuilding offshore plant which needs tight continuity of an operation even when a site operator is suddenly absent or quits midway through the operation.

Description

Technical Field [0001] The present invention relates to a shipbuilding offshore plant construction management system,

[0001] The present invention relates to a system and method for managing construction work on a shipbuilding offshore plant site, and more particularly, to a system and method for construction work management on a shipbuilding & offshore plant site in order to enable accurate execution of a referral work to a shipbuilding offshore plant by a client .

Generally, in shipyards such as tankers, large vessels, and other shipbuilding yards which are large steel structures, the construction worker is required to carry out work (welding, laying, piping, cube, MC, punch clear, Etc.) and a work space for moving are installed, and work is carried out as a lot of parts and material assemblies.

In this work, the related workers gather to check the drawings by hand, correct the work efficiency due to many work processes such as correcting and supplementing works, and if the worker stops in the middle, Continuity is one of the most important factors.

Korean Patent Application No. 10-1996-0001613 "WORKING STAND FOR BOTH BRIDGE CONSTRUCTION AND MANAGEMENT" Korean Patent Registration No. 10-1183898 entitled " Automatize a work-reporting system based on smart phones for construction management "

The present invention is to provide a shipbuilding marine plant site construction work management system and method for enabling accurate order fulfillment for a shipbuilding offshore plant by a client.

In addition, the present invention is to provide a shipbuilding & offshore plant site construction work management system and method for providing a precise process for an amendment claim request (punch work request), which is a request for modification and supplementation of a client.

In addition, the present invention provides a system and method for construction work management at a shipbuilding offshore plant site so that the continuity of the construction work on the shipbuilding offshore plant where the continuity of work is closely required even in the case of a sudden absence of a construction worker .

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a shipbuilding marine plant construction work management system according to an embodiment of the present invention includes an ordering company terminal 10, an Internet share network server 20, a construction worker terminal assembly 30G, (MA), the construction worker terminal 30 of one of the construction worker terminal sets 30G receives the shipbuilding offshore plant specification information from the ordering company terminal 10 After controlling the communication module 31 to receive the reprocessed processed shipbuilding offshore plant specification information processed by the Internet sharing network server 20, the information on the shipbuilding offshore plant specification information {on the Internet sharing network server 20 After the assignment work is extracted for each construction worker, the information is translated from the foreign language into the native language and re-formed into the three-dimensional stereoscopic direction information in the translated state) to the storage unit 33 Job request receiving module 34-1 that chapter; When the construction worker terminal 30 is connected to the division space p located among the shipbuilding and offshore plants when outputting the processed shipbuilding offshore plant specification information received from the Internet sharing network server 20 through the main antenna MA to the input / ) Receives the machining ship's offshore plant drawing specification information including the request to install the target part (A-1) in the precise coordinate space of the target coordinates (x1, y1, z1) The installation drawing of the target part A-1 and the work content information are outputted from the basic drawing for the space p and the coordinates x1, y1 and z1 and the camera equipment 40 mounted on the safety helmet and the communication module 31 2 from the camera equipment 40 via the Internet sharing network server 20 via the communication module 31 and then transmits the received data to the supervisor 20 via the Internet sharing network server 20, To the construction worker terminal of the worker, And outputs the overlapping installation drawing L-1 of the target part A-1 to the input / output part 35 in the zero image L-2 and the coordinates (x1, y1, z1) (L-1) of the target component (A-1) is overlapped with the work photographing image L-2 on the front side and the coordinates (x1, y1, z1) (L-1) on the front side corresponding to the picture of the screen is transmitted through the Internet sharing network server 20 via the communication module 31 to the worker's worker terminal, (L-2) on the front side, which is the worker imaging screen, by communicating with the construction worker terminal of the superior, so that the construction worker can view the work contents by outputting the overlapped image to the input / output unit 35, And the installation drawing (L-1) which is an administrator picture, the completed image is uploaded to the ordering company terminal 10 which is the requester immediately after completion of the job (The image of the work photographed image (L-2) in the state in which the job is completed)) is implemented by the input / output unit 35, and the outline A second process for performing a process of deleting other lines except for a pre-set working element, a color which is a part of the internal components of the simplified captured image, (The first captured image in the state in which the job is started among the job captured images L-2) prior to the first process process after outputting the schematic configuration diagram to the third process And outputs the construction work request to the input / output unit 35 for the wrong part in the overlapped screen to complete the worker confirmation addition construction. A job output module 34-2 for carrying out a fifth process for performing the matching check again after the process of the seth process, and a sixth process for ending the match process; When receiving a correction claim request (hereinafter referred to as a punch work request), which is a correction supplementary request received from the client terminal 10 through the Internet sharing network server 20 and the main antenna MA in order, After receiving the punch job request data from the ordering company terminal 10, the process of providing the job process is performed so that the job photographed image L-2 ), Compares the punch operation request data, generates position correction information of each component, compares the punch operation request data with the current component position data, A first process of extracting a row / column part (B-1) of the data, a second process of moving the row / column part / A slide-type image is output through the input / output unit 35 as the position correction information of each component to which the other component (A-2) is to be inputted with the row / column before the movement (C-1) A confirmation process by the superior construction worker by the job output module 34-2 through the interface with the job output module 34-2 and a work process for performing the information update to the ordering company terminal 10 Providing module 34-3; When the worker is absent from the construction worker through the input / output unit 35, the work history of the construction worker is extracted from the storage unit 33 to the Internet sharing network server 20 via the main antenna MA, The work output module 34-2 and the work output module 34-2 for locating the work part of the previous construction worker who operates the construction worker terminal 30 when performing the function of transferring the acquired work to the other construction worker terminal 30 ' The completed work and the incomplete work information during the punch request are compared through the comparison between the work photographed image (L-2) on the front side of the process performed by the work process providing module (34-3) and the installation drawing (L-1) Extracts the completed process and the non-completed process information from the process included in the location calibration information of each part and transmits the completed process to the other construction worker terminal 30 'that has been handed over through the Internet sharing network server 20 connected to the main antenna MA To deliver Handover service module to control the new module 31 (34-4); Incomplete work information in the other construction worker terminal 30 'that has received the completed work and the incomplete work information in the punch request, the completed process in the process included in the location correction information of each part and the unfinished process information, A navigation providing module (e.g., a navigation function) for outputting a position guide to a part corresponding to the process information to the input / output unit 35 34-5); An RFID tag, an NFC tag, a QR code, a barcode (bar code) for transmitting a unique code (SN) to each part (each of the parts A-1, C-1 and D- (X1, y1, z1) in the compartment space (p) located in the shipbuilding offshore plant, the position of each component is determined , The installation information of each part or the positional correction information is generated in accordance with the order of the parts located at a close position and then the installation information of the part corresponding to each point of the copper information or the work operation line confirming the completion of the positional correction information Guidance module 34-6; And completion confirmation of the installation information or the positional correction information of the parts is performed in an overlapping manner for image comparison performed by the job output module 34-2.

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The system and method for managing a construction work on a shipbuilding offshore plant site according to an embodiment of the present invention provides an effect that the ordering work for a shipbuilding offshore plant can be performed accurately by a client. In addition, it has the advantage of guiding quick and comfortable work guidance and clearing inspection punches by using RF tags and RF readers attached to structures such as equipment and cables.

In addition, the shipbuilding marine plant site construction work management system and method according to another embodiment of the present invention can provide a precise process for a correction claim request (punch work request), which is a modification and supplement request of a client.

In addition, according to another embodiment of the present invention, the system and method for construction work management at the site of a shipbuilding & offshore plant can be applied to the construction work of a shipbuilding & offshore plant site in the case of sudden absent or mid- Is maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a construction management system for a shipbuilding offshore plant site according to an embodiment of the present invention; FIG.
2 is a block diagram showing the construction of the construction worker terminal 30 in the shipbuilding marine plant construction work management system shown in Fig.
3 is a view showing the concept of the division space p in which the construction worker terminal 30 is located in the shipbuilding marine plant construction work management system of FIG.
4 is a view showing the operation concept of the construction worker (Fig. 4 (a)) operating the construction worker terminal 30 and the input / output unit 35 of the construction worker terminal 30 among the shipbuilding marine plant construction work management system shown in Fig. 1 (FIG. 4 (b)), and a concrete drawing (FIG. 4 (c)) for systematizing the matching operation on the construction worker terminal 30.
5 is a view for explaining a concept of performing a correction and supplementation request performed by the construction worker terminal 30 among the shipyard offshore plant construction work management system of FIG.
FIG. 6 is a view for explaining the concept of work movement guidance performed by the construction worker terminal 30 among the ship construction work management system in the shipbuilding marine plant of FIG.
7 is a flowchart illustrating a method of managing a construction work on a shipbuilding marine plant according to an embodiment of the present invention.
FIG. 8 is a reference view showing a system for communicating portable security such as an RF reader, a PAD, and the like between RF tag-installed devices for a method of managing construction work at a shipbuilding marine plant in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a construction management system for a shipbuilding offshore plant site according to an embodiment of the present invention; FIG. Referring to FIG. 1, the shipbuilding marine plant site construction work management system includes an ordering company terminal 10, an Internet sharing network server 20, a construction worker terminal set 30G, and a main antenna M.A.

Here, the construction worker terminal set 30G may include N (N is a natural number of 2 or more) worker terminals 30. Meanwhile, in the present invention, an identification code 30 'is used for another construction worker terminal to identify a terminal operated by a construction worker who is handed over from one construction worker terminal 30.

Each of the construction worker terminals 30 and 30 'is provided with a computing function as a separately provided handy device such as a PDA so that a work photographed on the front side of the construction worker is input / As shown in FIG.

2 is a block diagram showing the construction of the construction worker terminal 30 in the shipbuilding marine plant construction work management system shown in Fig. 3 is a view showing the concept of the division space p in which the construction worker terminal 30 is located in the shipbuilding marine plant construction work management system of FIG. 4 is a view showing the operation concept of the construction worker (Fig. 4 (a)) operating the construction worker terminal 30 and the input / output unit 35 of the construction worker terminal 30 among the shipbuilding marine plant construction work management system shown in Fig. 1 (FIG. 4 (b)), and a concrete drawing (FIG. 4 (c)) for systematizing the matching operation on the construction worker terminal 30.

5 is a view for explaining a concept of performing a correction and supplementation request performed by the construction worker terminal 30 among the shipyard offshore plant construction work management system of FIG. FIG. 6 is a view for explaining the concept of work movement guidance performed by the construction worker terminal 30 among the ship construction work management system in the shipbuilding marine plant of FIG.

2, the construction worker terminal 30 includes a communication module 31, an RF reader 32, a storage unit 33, and a control unit 34.

The control unit 34 includes a task request receiving module 34-1, a task output module 34-2, a task process providing module 34-3, a takeover handover providing module 34-4, a navigation providing module 34-5 and a work movement guide module 34-6.

Hereinafter, with reference to FIG. 3 to FIG. 6, the construction management system for a shipbuilding offshore plant site construction will be described in detail with reference to the configuration of the control unit 34 shown in FIG.

The work request receiving module 34-1 receives the ship-to-shore off-shore drawing specification information processed and processed by the Internet shar- ing network server 20 that has received shipbuilding offshore plant specification information from the ordering company terminal 10 After controlling the communication module (31), the shipbuilding and ocean plant drawing specification information is stored in the storage unit (33). Here, the specification information of the processing shipbuilding offshore plant is translated from the foreign language to the native language after the assignment work is extracted for each construction worker on the Internet sharing network server 20, and is re-formed into the three- By doing so, each construction worker has the advantage of being able to understand the work exactly 100% and grasp the gist of the work.

The job output module 34-2 outputs the processed shipbuilding marine plant drawing specification information received from the Internet sharing network server 20 via the main antenna M.A. to the input / output unit 35. [ 2, the construction worker terminal 30 requests installation of the target component A-1 in the precise coordinate space of the target coordinates (x1, y1, z1) in the compartment space p located in the shipbuilding offshore plant (X1, y1, z1) of the compartment space (p) and the installation drawing of the target component (A-1) in the coordinate system , And job content information.

Accordingly, the work output module 34-2 connects the data session with the camera device 40 mounted on the helmet and the communication module 31, and transmits the work photographed image L-2 on the front side of the construction worker L- (b)) from the camera device 40, and transmit it to the construction worker terminal of the superior via the Internet sharing network server 20 via the communication module 31 again.

On the other hand, the work output module 34-2 overlaps the installation drawing L-1 of the target part A-1 from the work photographed image L-2 on the front side and the coordinates (x1, y1, z1) (35), thereby inducing correct installation of the target worker (A-1) by the construction worker. In another embodiment of the present invention, the work output module 34-2 is configured to obtain the installation drawing (A-1) of the target component A-1 from the work photographed image L-2 on the front side and the coordinates (x1, L-1) to the superintendent's worker terminal through the Internet sharing network server 20 via the communication module 31. [0050] FIG.

That is, the work output module 34-2 outputs the work photographing image L-2 on the front corresponding to the screen photograph to the input / output unit 35, which overlaps the installation drawing L-1, (L-2) on the front side, which is an operator image pickup screen, and the installation drawing (L-1), which is an administrator picture, by communicating with the construction worker terminal of the superior And uploads the completed image to the ordering company terminal 10, which is a requester immediately, to update the job data.

4 (c), the work output module 34-2 implements the work photographed image on the front side of the construction worker through the camera equipment 40 mounted on the helmet on the input / output unit 35, A matching expression operation can be performed.

That is, the work output module 34-2 performs the first process of performing the simplifying deletion processing by leaving the contour line only in the captured image after implementing the worker imaging image with the input / output unit 35. [ Next, the job output module 34-2 proceeds to a second process of performing a task of deleting the color, which is a part of the internal components, from the simplified captured image, and other lines excluding the preset work elements. Accordingly, the work output module 34-2 outputs a schematic configuration diagram to the input / output unit 35, and then proceeds to a third process of overlapping with the image captured before the first process.

Thereafter, the work output module 34-2 outputs a construction work request to the input / output unit 35 for the wrong part in the overlapped screen, and proceeds to a fourth process of completing the work addition confirmation work, A fifth process for performing confirmation, and a sixth process for ending the match.

The work process providing module 34-3 transmits a correction request (hereinafter, referred to as a punch work request), which is a correction supplement request received through the internet public network server 20 and the main antenna MA in order, from the orderer terminal 10 In the case of receiving, the construction worker carries out the work process providing function so as to perform the work after grasping the accurate punch work, and then carries out the inspection process for the punch work.

That is, when receiving the punch work request data from the orderer terminal 10, the work process providing module 34-3 extracts the current position of each part from the work photograph image L-2 on the front side, After comparing the job request data, position calibration information of each part is generated. More specifically, as shown in FIG. 5, by comparing the punch job request data of FIG. 5 (a) with the current individual part position data of FIG. 5 (b), the parts of the second row / A second process for moving a row of the component C-1 in the first row / second column one row below, a second process for moving the row of the component C- Position correction information of each part for inputting the component A-2 is generated as a slide-type image by the work process providing module 34-3, and is input to the input / output unit 35 through the input / output unit 35 Can be output. In addition, the work process providing module 34-3 performs a confirmation process for each process by a senior worker by the work output module 34-2 through an interface with the work output module 34-2, It is possible to update the information to the ordering company terminal 10.

The acceptance takeover providing module 34-4 transmits the work history to the Internet sharing network server 20 through the main antenna MA when receiving the absent work or the midway leave request through the input / output unit 35 To the other construction worker terminal 30 ', which has received the handover of the handover command, from the storage unit 33.

More specifically, the takeover providing module 34-4 includes a work output module 34-2 and a work process providing module 34-2 for locating work parts of a previous worker who operates the worker terminal 30 (L-2) and the installation drawing (L-1) in the front side of the process performed by the punching process, the completed work and the incomplete work information of the punch request, and the location correction information And transmits the completed process and the unfinished process information to another construction worker terminal 30 'that has received the handover through the Internet sharing network server 20 connected to the main antenna MA ).

On the other hand, the navigation providing module 34-5 of the other construction worker terminal 30 ', which has received the completed work and the incomplete work information during the punch request, the completed process and the unfinished process information included in the location correction information of each part, ) Can perform a navigation function of outputting to the input / output unit 35 the position guidance to the part corresponding to the incomplete work information and the incomplete process information. Here, the navigation function means that the position guidance function is added to the automatic guidance function of the work contents and the contents to be worked on in the future.

Accordingly, a new construction worker can perform a joint work without having to take over in case of a sudden absence after leaving a work center in the middle of a construction worker.

The work copper guide module 34-6 controls the RF reader 32 to extract the position of each component in the partition space p located in the shipbuilding offshore plant. 6, at least one of an RFID tag, an NFC tag, a QR code, and a bar code for transmitting a unique code (SN) must be provided to each of the parts A-1, C-1 and D-4 .

The work movement guide module 34-6 grasps the positions of the respective components about the coordinates (x1, y1, z1) in the partition space p located in the shipbuilding offshore plant and then installs the installation information of each component or the above- After generating the copper line information that determines the turn in the order of the parts located near the information, confirm the installation information of the part corresponding to each point of the copper line information or the completion of the location calibration information. Here, confirmation of completion of the installation information or the positional correction information of the parts can be performed in an overlapping manner for image comparison performed by the job output module 34-2.

7 is a flowchart illustrating a method of managing a construction work on a shipbuilding marine plant according to an embodiment of the present invention. FIG. 8 is a reference view showing a system for communicating portable security such as an RF reader, a PAD, and the like between RF tag-installed devices for a method of managing construction work at a shipbuilding marine plant in accordance with an embodiment of the present invention.

Referring to FIGS. 7 and 8, the construction worker terminal 30 receives the shipbuilding marine plant drawing specification information from the ordering company terminal 10, The drawing specification information is received (S10).

After step S10, the construction worker terminal 30 starts outputting the processed shipbuilding offshore plant specification information received from the Internet sharing network server 20 via the main antenna MA to the input / output unit 35 (S20) .

After the step S20, the construction worker terminal 30 connects the data session through the camera device 40 and the communication module 31 mounted on the safety helmet, The installation drawing L-1 of the target component A-1 is overlapped with the coordinates (x1, y1, z1) included in the plant drawing specification information to output to the input / output unit 35, -1) (S30).

After step S30, the construction worker terminal 30 receives the work photographed image L-2 on the front side of the construction worker from the camera equipment 40 and transmits the work photographed image L- To the construction worker terminal of the superior (S40).

In the present invention, it is advantageous to guide quick and convenient work by using a construction worker terminal 30 such as an RF tag attached to a structure such as a cable, a structure such as a cable and an RF reader recognizing the RF tag, and to inspect and punch completion .

That is, the construction worker terminal 30 transmits and receives information (position, quantity, specification, etc.) of the material and equipment to be operated by wireless communication with various materials including electric wiring and an RF tag attached to the equipment, By quickly grasping the position and the workpiece, the work can be performed efficiently and quickly.

Thus, the shipbuilding marine plant site construction work management system according to the present invention can be realized in various forms such as a program such as a homepage on the Internet, an application on a smart phone, a built-in program on a separate portable terminal, and the like.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device and the like, and also implemented in the form of a carrier wave (for example, transmission over the Internet) .

The computer readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers skilled in the art to which the present invention pertains.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Contractor terminal
20: Internet Sharing Network Server
30, 30 ': Construction worker terminal
MA: Main antenna
31: Communication module
32: RF reader
33:
34:
34-1: Job request PS module
34-2: Operation output module
34-3: Work Process Providing Module
34-4: Takeover Providing Module
34-5: Navigation providing module
34-6: Work line guide module
35: Input / output unit

Claims (8)

A construction management system for a shipbuilding offshore plant site construction including an ordering company terminal (10), an Internet sharing network server (20), a construction worker terminal set (30G), and a main antenna (MA) One of the construction worker terminals 30,
After controlling the communication module 31 to receive the reprocessed processing shipbuilding offshore plant specification information processed by the Internet sharing network server 20 that has received shipbuilding offshore plant specification information from the ordering company terminal 10, Shipbuilding & offshore plant drawing specification information {information formed by repetition of the assignment work for each construction worker on the Internet sharing network server 20, translation from the foreign language to the native language, and rework of the three-dimensional stereoscopic instruction information in the translated state} A work request receiving module (34-1) for storing the work request in the storage unit (33);
When the construction worker terminal 30 is connected to the division space p located among the shipbuilding and offshore plants when outputting the processed shipbuilding offshore plant specification information received from the Internet sharing network server 20 through the main antenna MA to the input / ) Receives the machining ship's offshore plant drawing specification information including the request to install the target part (A-1) in the precise coordinate space of the target coordinates (x1, y1, z1) The installation drawing of the target part A-1 and the work content information are outputted from the basic drawing for the space p and the coordinates x1, y1 and z1 and the camera equipment 40 mounted on the safety helmet and the communication module 31 2 from the camera equipment 40 via the Internet sharing network server 20 via the communication module 31 and then transmits the received data to the supervisor 20 via the Internet sharing network server 20, To the construction worker terminal,
The installation drawing L-1 of the target component A-1 is overlapped with the work photographed image L-2 on the front side and the coordinates (x1, y1, z1) and outputted to the input / output section 35, It induces correct mounting of the target component A-1,
An image overlapping the installation drawing L-1 of the target component A-1 in the front-side work photographed image L-2 and the coordinates (x1, y1, z1) To the construction worker terminal of a superior person through the server 20,
The image overlapped with the upper layer of the installation drawing L-1 is output to the input / output unit 35 so that the construction worker can view the work contents, (L-2) on the front side, which is the operator image pickup screen, and the installation drawing (L-1), which is the manager image, by communicating with the construction worker terminal of the superior, 10 so that the update of the job data is performed,
A first process step of implementing the simplification deletion process by leaving only the outline in the captured image after implementing the operator's imaging image (captured image of the work photographed image (L-2) in the state where the job is completed)) by the input / output unit 35 , A second process of deleting a color which is a part of the internal components of the simplified captured image and other lines except for a predetermined work element, and an input / output unit 35, A third process of overlapping the captured image (the captured image of the first shot taken in the state where the job is started among the shot taken images L-2) prior to the first process, And outputs the request to the input / output unit 35 so as to complete the worker confirmation addition work. Then, A work output module (34-2) for carrying out a fifth process process and a sixth process process ending in a coincident manner;
When receiving a correction claim request (hereinafter referred to as a punch work request), which is a correction supplementary request received from the client terminal 10 through the Internet sharing network server 20 and the main antenna MA in order, After performing the job process providing function to perform the post-determination operation, the inspection process for the punch job is performed,
When receiving the punch job request data from the orderer terminal 10, the position of each component is extracted from the front-side job photographed image (L-2), and after comparing the punch job request data, Generates calibration information,
a first process of extracting the row / column component (B-1) of the current component position data by comparing the punch operation request data with the current component position data, And a second process of moving the slide-type image to the column with respect to the column, and the position correction information of each part to which the other part (A-2) is inserted by the row / column before the movement of the punch application part (C- The process of confirming each process by the supervisor 34-2 through the interface with the job output module 34-2, A work process providing module (34-3) for performing an information update to the orderer terminal (10);
When the worker is absent from the construction worker through the input / output unit 35, the work history of the construction worker is extracted from the storage unit 33 to the Internet sharing network server 20 via the main antenna MA, The work output module 34-2 and the work output module 34-2 for locating the work part of the previous construction worker who operates the construction worker terminal 30 when performing the function of transferring the acquired work to the other construction worker terminal 30 ' The completed work and the incomplete work information during the punch request are compared through the comparison between the work photographed image (L-2) on the front side of the process performed by the work process providing module (34-3) and the installation drawing (L-1) Extracts the completed process and the non-completed process information from the process included in the location calibration information of each part and transmits the completed process to the other construction worker terminal 30 'that has been handed over through the Internet sharing network server 20 connected to the main antenna MA To deliver Handover service module to control the new module 31 (34-4);
Incomplete work information in the other construction worker terminal 30 'that has received the completed work and the incomplete work information in the punch request, the completed process in the process included in the location correction information of each part and the unfinished process information, A navigation providing module (e.g., a navigation function) for outputting a position guide to a part corresponding to the process information to the input / output unit 35 34-5);
An RFID tag, an NFC tag, a QR code, a barcode (bar code) for transmitting a unique code (SN) to each part (each of the parts A-1, C-1 and D- The RF reader 32 is controlled to extract the position of the RF reader 32,
(X1, y1, z1) in the compartment space (p) located in the shipbuilding offshore plant, and then installs the installation information or the positional correction information of each part on the basis of the coordinates A work movement guide module (34-6) for confirming the completion of installation information or positional correction information of the part corresponding to each point of the movement information after generating the information; / RTI >
Wherein the installation information of the parts or the completion confirmation of the positional correction information is performed in an overlapping manner for image comparison performed by the work output module (34-2).
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