JP2015127890A - Ship pipe arrangement management apparatus, ship pipe arrangement management method, and ship pipe arrangement management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable management of each pipe divided at a joint and easily identify a pipe on data corresponding to an actual pipe.SOLUTION: A pipe number as identification information is allocated to each pipe divided at a joint to enable management of each pipe. For pipe designation, a pipe attachment state, for example, is displayed as a three-dimensional image as well as peripheral information on a display section so as to be able to identify each pipe on a display screen. If a user identifies one pipe, the pipe number associated with the identified pipe is acquired and a search unit searches a first storage unit with this pipe number used as search information. The first storage unit stores the pipe number of each pipe and pipe information while associating the pipe number with the pipe information. The search unit searches the first storage unit with the pipe number used as the search information, whereby the pipe information on the pipe designated by the user on the three-dimensional image, for example, information on a pipe shape and a size is acquired and the pipe information is displayed on the display screen.

Description

  The present invention relates to a piping management apparatus and management method for managing piping of a ship, and a piping management system.

In general, the management of piping in a ship is difficult to manage in units of individual pipes separated by joints such as flanges and sleeves from the enormous number, and management is performed in units of systems.
Patent Document 1 discloses that maintenance inspection management of a large number of devices and parts in a plant such as a thermal power plant is performed using a system diagram.

JP 2004-355380 A

  However, since the piping of a ship is arranged in a complicated manner with a plurality of piping systems, it is difficult to associate the single piping shown in the system diagram with the actual single piping. For example, there is a single piping that needs to be replaced. There is a problem that it is not possible to specify which piping in the system diagram corresponds to a single item.

  In addition, since the degree of deterioration of pipe inspection and maintenance varies depending on the shape of a single pipe, etc., it is preferable to plan an inspection and maintenance schedule for each pipe. However, in the past, inspection and maintenance schedules have been limited to piping systems.

  The present invention has been made in view of such circumstances, and enables management of individual pipes separated by a joint (for example, a flange, a sleeve, etc.), and actual pipes and pipes on management data. It is an object of the present invention to provide a piping management device and management method for a ship and a piping management system that can be easily associated with a single item.

  1st aspect of this invention is a piping management apparatus which manages piping of a ship, Comprising: Unique identification information is allocated for every piping single item divided | segmented by the joint, The identification information and piping information of the said piping were linked | related First storage means for storing pipe management information, and the three-dimensional image data in which the pipe attachment state can be displayed in three dimensions together with peripheral information, and the pipe identification information is associated with the pipe on the image. When the search information is input from the second storage means, the input means, the display means, and the input means, the first storage means and the second storage means are searched based on the search information, and the search is performed. Search means for extracting information associated with information, and screen creation means for creating a display screen using the search result extracted by the search means, the three-dimensional displayed on the display means On the image, when information specifying a specific pipe is input from the input unit, the search unit uses the identification information associated with the specified pipe as search information from the first storage unit. It is a pipe management device that acquires related pipe information.

According to the pipe management apparatus, the pipe attachment state can be displayed in three dimensions together with the peripheral information, so that the same image as the actual pipe attachment state can be displayed on the display screen. Therefore, it is possible to easily specify a desired pipe on the three-dimensional image. In addition, since each piece of piping displayed on the three-dimensional image is associated with unique identification information, the identification information of the piping is acquired by designating a specific piping on the three-dimensional image. be able to. The first storage means stores pipe management information in which pipe identification information and pipe information are associated with each other. Therefore, the search means searches the first storage means using the pipe identification information input on the three-dimensional image as search information, so that the pipe information of a single pipe specified by the user can be extracted. Then, a predetermined display screen is created by the screen creation means based on the piping information acquired by the search means and displayed on the display means, so that the user can specify detailed information (for example, size, shape) of the piping specified by the user. Etc.) can be confirmed.
The piping information is preferably created using, for example, production design information. Production design information contains sufficient information necessary for manufacturing pipes, so using this information eliminates the need to recreate information and burdens the operator when building a database. Can be reduced. Further, as the three-dimensional image data, for example, three-dimensional CAD data of a pipe attachment diagram at the time of production design can be used.
Here, the piping management information may be provided for each piping system.

In the pipe management device, the pipe information may include information at the time of construction.
Since the information at the time of construction is included in the piping information, by performing construction with reference to this information, the work can be proceeded smoothly, and the work efficiency can be improved.

  The pipe management device includes third storage means for storing caution information in which identification information of the pipe and cautions regarding inspection are associated, and the search means includes the first storage means and the first storage means based on the search information. The third storage unit may be searched.

  For example, it is possible to predict to some extent whether pipe clogging or corrosion is likely to occur due to the shape of the pipe or the fluid flowing through the pipe. Therefore, by registering precautions regarding the inspection in advance according to the shape of the pipe and the fluid flowing through the pipe, it is possible to be careful when checking and to set the inspection time.

  The pipe management device includes fourth storage means in which inspection and maintenance information in which identification information of the pipe and information related to inspection and maintenance are associated is stored, and the search means is configured to store the first storage means based on the search information. The third storage unit and the fourth storage unit may be searched.

  Since the information related to the inspection and maintenance is registered in association with the identification information of the piping, the inspection and maintenance management for each individual pipe can be easily performed. As a result, it is possible to devise an appropriate inspection schedule in accordance with the characteristics of each individual pipe, rather than the exchange of symptomatic therapy.

In the pipe management apparatus, a request means for requesting display of a three-dimensional image of the pipe displayed as the search result may be provided on the display screen on which the search result by the search means is displayed.
As described above, since the display screen on which the piping information and the like are displayed is provided with request means for requesting the display of the three-dimensional image of the pipe, the image of the pipe can be easily operated by operating the request means. Can be displayed.

Moreover, it is good also as designating the said piping by double-clicking on piping on the three-dimensional image containing piping displayed on the said display means.
Thereby, operability can be improved.

  A second aspect of the present invention includes the above-described pipe management device, and a user terminal connected to the pipe management device via a communication medium and capable of bidirectional communication with the pipe management device. When the search information is input from the fifth storage means for storing the pipe management information, the sixth storage means for storing the three-dimensional image data, the input means, the display means, and the input means, Searching the fifth storage means and the sixth storage means based on the search information, using the search means for acquiring information associated with the search information, and the search result acquired by the search means, Screen creating means for creating a display screen, and when the information for designating a specific pipe is input from the input means on the three-dimensional image displayed on the display means, the search means is designated The As the search information identification information associated with the piping and a piping management system for obtaining a pipe relevant information from the fifth storage means.

  In the piping management system, the user terminal can access the first storage unit and the second storage unit of the first piping management device instead of including the fifth storage unit and the sixth storage unit. The search means may acquire information from the first storage means and the second storage means.

  A third aspect of the present invention is a piping management method for managing piping of a ship, wherein unique identification information is assigned to each single pipe separated by a joint, and the identification information of the piping and the piping information are associated with each other. Piping management information and the mounting state of the pipe can be displayed in three dimensions together with peripheral information, and three-dimensional image data in which identification information of the pipe is associated with the pipe on the image is prepared in advance. When information specifying a specific pipe is input on the display screen on which is displayed, the pipe management information is searched using the identification information associated with the specified pipe as search information, and the identification is performed. It is a pipe management method for acquiring the pipe information associated with information, creating a display screen using the acquired pipe information, and displaying the display screen.

  According to the present invention, it is possible to manage each individual pipe separated by a joint (for example, a flange or a sleeve), and it is possible to easily specify a pipe on data corresponding to an actual pipe. .

It is the figure which showed roughly the whole structure of the piping management system which concerns on one Embodiment of this invention. It is the figure which showed an example of the hardware constitutions of the piping management apparatus which concerns on one Embodiment of this invention, and a user terminal. It is a functional block diagram of the piping management device concerning one embodiment of the present invention. It is a functional block diagram of a user terminal concerning one embodiment of the present invention. It is a figure for demonstrating the division of the piping installation shape of piping. It is the figure which showed an example of the search input screen. It is the figure which showed the example of a search input in the case of specifying piping from a three-dimensional image. It is the figure which showed an example of the three-dimensional image. It is the figure which showed an example of the three-dimensional image. It is the figure which showed an example of the three-dimensional image. It is the figure which showed an example of the three-dimensional image. FIG. 12 is a diagram showing an example of a search result display screen when a specific pipe is specified in the three-dimensional image shown in FIG. 11. FIG. 6 is a diagram showing an example of a search result display screen when a conditional search is designated on the search input screen shown in FIG. 5. It is the figure which showed an example of the display screen when the three-dimensional display is requested | required about specific piping in the display screen shown in FIG. It is the figure which showed an example of the display screen of the piping system of a waste disposal pipe. It is the figure which showed an example of the display screen which linked and showed the piping system and the arrangement | positioning division. It is the figure which showed an example of the various management table as a search result.

  Hereinafter, a pipe management device, a management method, and a pipe management system according to an embodiment of the present invention will be described with reference to the drawings. The piping management system according to the present embodiment assigns unique identification information (for example, a pipe number) to each individual pipe separated by a joint (for example, a flange, a sleeve, etc.) in a piping system installed on a ship. By this, the management in a single pipe unit is realized. FIG. 1 is a diagram schematically showing an overall configuration of a pipe management system according to an embodiment of the present invention. As shown in FIG. 1, the piping management system 1 includes a piping management device 2 and a user terminal 3 connected to the piping management device 2 via the Internet. For example, the piping management device 2 is owned by the ship manufacturer, and the user terminal 3 is owned by the ship owner.

  In FIG. 2, an example of the hardware constitutions of the piping management apparatus 2 and the user terminal 3 is shown. As shown in FIG. 2, the pipe management device 2 and the user terminal 3 are general-purpose computers such as personal computers, for example, and include a CPU 11 and a ROM (Read Only Memory) 12 for storing a program executed by the CPU 11. A RAM (Random Access Memory) 13 functioning as a work area when executing each program, a hard disk drive (HDD) 14 as a mass storage device, a communication interface 15 for connecting to a network, and an external storage device 16 An access unit 17 to be mounted, an input unit 18 including a keyboard and a mouse, and a display unit 19 including a liquid crystal display device for displaying data are provided. These units are connected via a bus 20.

  Note that the storage medium for storing the program executed by the CPU 11 is not limited to the ROM 12. For example, other auxiliary storage devices such as a magnetic disk, a magneto-optical disk, and a semiconductor memory may be used.

FIG. 3 is a functional block diagram showing functions provided in the piping management device 2, and FIG. 4 is a functional block diagram showing functions provided in the user terminal.
As illustrated in FIG. 3, the pipe management device 2 includes an input unit 31, a display unit 32, a communication unit 33, a search unit 34, a screen creation unit 35, a first storage unit 36, a second storage unit 37, and a third storage unit. 38, a fourth storage unit 39, and the like.
As shown in FIG. 4, the user terminal 3 includes an input unit 41, a display unit 42, a communication unit 43, a search unit 44, a screen creation unit 45, a fifth storage unit 46, a sixth storage unit 47, and a seventh storage unit 48. The eighth storage unit 49 is provided.

The first storage unit 36 stores pipe management information in which pipe identification information and pipe information are associated with each other. Piping information is mainly information required when manufacturing and installing a pipe.For example, the pipe material, diameter, length, bending angle, penetration, shape, position in the pipe system to which the pipe belongs, and the pipe The information includes information such as the arrangement section in the arranged ship, the type of liquid circulating in the pipe, and the precautions during construction. Generally, since these pieces of information are described in the ship production design information, the production design information may be used as piping information.
This piping management information may be provided for each piping system, for example.

  The second storage unit 37 stores the three-dimensional image data in which the attachment state of the pipe is represented in three dimensions together with the peripheral information, and the identification information of the pipe is associated with the pipe on the image. For example, when a ship is newly constructed, a hull drawing, a comprehensive outfitting diagram, and the like are created using a design device such as a three-dimensional CAD. In the general equipment drawing, the actual assembly state of the piping in the ship is represented in three dimensions together with the peripheral equipment (for example, walls, ceilings, etc.). Therefore, for example, a comprehensive outfitting diagram may be used as the three-dimensional image data. In addition, for example, by preparing three-dimensional image data for each piping system, it is possible to control display / non-display for each piping system. Furthermore, by creating three-dimensional image data for each wall / ceiling and other equipment, it is possible to switch display / display for these. Thereby, it becomes possible to arbitrarily select a combination of parts to be displayed such as parts desired by the user, for example, a pipe and a wall.

  The third storage unit 38 stores caution information in which piping identification information is associated with cautions regarding inspection. For example, as shown in FIG. 5, the pipe installation shape is laterally lowered (see FIG. 5A), laterally raised (see FIGS. 5B and 5D), and laterally bent (FIG. 5C). Etc.), and there are points to be noted according to the shape of the installation. For example, it can be said that the possibility of blockage is higher when compared with other guiding shapes when rising sideways. Also, depending on the type of fluid flowing through the pipe, there are precautions such as being more susceptible to corrosion than other pipes. The precautions regarding inspection are those in which the precautions as described above and their danger levels are registered in advance. Examples of precautions include “bent tube, blockage confirmation”, “branch point, blockage confirmation”, “U-shaped tube, blockage confirmation”, and the like.

  The fourth storage unit 39 stores inspection and maintenance information in which piping identification information and inspection and maintenance data are associated with each other. The inspection and maintenance includes, for example, the past inspection date and inspection content, the scheduled inspection time and inspection content scheduled in the future, and the like.

When search information serving as a keyword for searching for information stored in the first storage unit 36 to the fourth storage unit 39 is input from the input unit 31, the search unit 35 receives the first based on the search information. The matching information is searched from the storage unit to the fourth storage unit 39, and the search result is output to the image creation unit 35.
The image creation unit 35 creates display screen data from the search result by the search unit 35 based on a predetermined algorithm, and outputs the display screen data to the display unit 32.

  The fifth storage unit 46 of the user terminal 3 stores information common to the first storage unit 36 described above. Similarly, the sixth storage unit 47, the seventh storage unit 48, and the eighth storage unit 49 store information common to the above-described second storage unit 37, third storage unit 38, and fourth storage unit 39. Has been. The functions of the search unit 44 and the screen creation unit 45 are the same as those of the search unit 34 and the screen creation unit 35. The communication units 33 and 43 are for enabling bidirectional communication between the pipe management device 2 and the user terminal 3.

  In the user terminal 3, the seventh storage unit 48 and the eighth storage unit 49 may be omitted. Further, instead of providing the fifth storage unit 46 to the eighth storage unit 49 in the user terminal 3, by accessing the first storage unit 36 to the fourth storage unit 39 of the pipe management device 2, it is as if the user terminal 3 It is also possible to show the behavior as if possessing such information. At this time, the third storage unit 38 and the third storage unit 39 of the pipe management device 2 may be configured such that, for example, browsing from the user terminal 3 cannot be performed by providing access authority. By providing access authority in this way, information that is not desired to be presented to the user can be concealed.

  Next, operation | movement of the piping management system 1 provided with the said structure is demonstrated with reference to figures. In addition, although the following operation | movement is demonstrated mainly that input operation is performed from the user terminal 3, also in the piping management apparatus 2, the same input operation and a search result can be obtained.

  For example, when the user terminal 3 is activated, a search input screen as shown in FIG. 6 is displayed on the display unit 42. This search input screen is provided with a parts information input field K1 for inputting keywords related to parts and a service history input field K2 for inputting keywords related to service history information.

For example, in the part information input field K1, an input field for a piping system, a pipe number, and a pipe material is provided. For the pipe number and pipe material, it is also possible to perform forward matching search. The maintenance history input field K2 includes input fields for inspection / repair classification, construction period, reference date, final inspection, parts replacement, and the like. Further, the maintenance history input field K2 is provided with an input field for selecting a search condition such as searching for only the parts requiring attention or searching only for parts exceeding the replacement guideline.
The search input screen is provided with a search type designation field K3 for selecting whether to perform a condition search for displaying a list of condition results or a three-dimensional condition search to be displayed as a three-dimensional image. Further, a display detail selection field K4 for selecting contents to be displayed / hidden is provided as information accompanying the three-dimensional condition search. In the display detail selection column K4, a column for selecting display, semi-transparency, and non-display for each other than the hull and pipe, and whether to display all the piping or only the piping belonging to the selected system is selected. A column for selecting which of the column, perspective method, and plane perspective display method is provided.

In this search input screen, when the user wants to specify the pipe from the three-dimensional image, the user knows information about the pipe in the pipe information input field K1 and specifies the desired condition in the display detail selection field K4. Click “3D condition search” in the type designation column K3.
For example, when water leakage is found in a part of the deck sprinkler pipe of the command room and the pipe is ordered for the water leakage part, the user enters “Deck” in the piping system of the part information input field K1 as shown in FIG. In the display detail selection field K4, select the desired conditions, for example, hull display, non-pigment display, display only selected pipes, perspective, and select the search type designation field K3. Click “3D search”.

  When the above input is made, the search unit 44 stores the three-dimensional image data of the entire ship stored in the sixth storage unit 47, for example, the three-dimensional image data of the general equipment diagram, or the three-dimensional image of the hull structure. The three-dimensional image data obtained by superimposing the data and the three-dimensional image data of the piping system is read, and the read three-dimensional image is displayed on the display unit 42. In the displayed three-dimensional image of the entire ship, the user clicks a section where a pipe to be exchanged is arranged, for example, “command room”. Thereby, for example, a three-dimensional image of the command room as shown in FIG. 8 is displayed on the display unit 42. Here, the display image is an image based on the condition selected in the display detail selection field K4. That is, devices / equipment other than pipes are hidden, and pipes other than deck sprinkler pipes are hidden. In this image, the user can advance the image in a desired direction by clicking a desired position (see FIG. 9).

  In this way, by switching the three-dimensional image step by step, a location that matches the landscape of the water leakage position is displayed (see FIG. 10). Since each pipe individual item in the three-dimensional image displays the pipe number (identification information) of the pipe as shown in FIG. 10, the user can grasp the pipe number of the pipe to be replaced. Further, as shown in FIGS. 8 to 10, a display detail selection field K4 is provided on the display screen of the three-dimensional image, and desired display contents can be switched. For example, by switching the pipe display to “display all” on the screen of FIG. 10 (see reference numeral C1 in FIG. 10), other pipe systems can also be displayed as shown in FIG. This makes it possible to display a 3D image that does not differ from the actual landscape, and to identify the location of the water leak on the 3D image without error by comparing the actual water leak location with the 3D image. Can do.

When the pipe corresponding to the water leakage location is specified in this way, the user double-clicks the pipe, here, the pipe having the pipe number “DH10129”, and designates the pipe. Note that the pipe designation method is not limited to this example.
When a pipe is designated as described above, the search unit 44 searches the fifth storage unit 46, the seventh storage unit 48, and the eighth storage unit 49 using the pipe number “DH10129” of the designated pipe as search information. Then, pipe information associated with the pipe number is extracted. The extracted piping information is output to the screen creation unit 45, and a display screen representing the search result is created by the screen creation unit 45 based on this piping information and displayed on the display unit 42. FIG. 12 shows a display example of the search result. As shown in FIG. 12, piping information, caution information, and inspection and maintenance information of the pipe number “DH10129” designated by the user are displayed as search results. As the piping information, a frame, a pipe material, a diameter, an actual diameter, and a pipe length are shown as examples. In addition, U-shaped locations, water leakage confirmation, etc. are shown as examples of caution information. Further, as maintenance information, replacement guidelines, repair timing, inspection schedule, and the like are shown as examples. In addition, the display screen showing the search result is provided with a button B1 for instructing automatic creation of a construction bill and a button B2 for instructing automatic creation of a construction specification.

  When making a construction request, the user checks the check box of the pipe number “DH10129” in which water leakage has occurred (reference numeral C2 in FIG. 12), and clicks the button B1. Thereby, the construction bill for the piping whose check box C2 is checked is created according to a predetermined algorithm. The contents of the construction invoice are transmitted to the piping management device 2 via the communication unit 43 and the network, whereby the piping construction ordering work to the shipyard is completed.

In addition, instead of sending the above construction invoice, for example, when the ship owner notifies the shipyard of the pipe number “DH10129” and the request for the construction by telephone or the like, It is also possible for the operator to automatically create a construction specification by performing an input operation on the pipe management device 2.
In this case, the piping management device 2 is activated and the search input screen shown in FIG. Subsequently, on this search input screen, “DH10129” is input as the tube number in the component information input field K1 to specify the condition search. As a result, the search unit 34 searches the first storage unit 36, the third storage unit 38, and the fourth storage unit 39 using the tube number “DH10129” as the search information. As a result, the same search screen as FIG. It is displayed on the display unit 32.
On the search result display screen, the user checks the check box of the pipe number “DH10129” in which water leakage has occurred (reference numeral C2 in FIG. 12), and clicks the button B2. As a result, a construction specification for the piping whose check box C2 is checked is created according to a predetermined algorithm. By displaying this construction specification on the display unit 32, it is possible to grasp the precautions during construction and the like, and it is possible to perform replacement work promptly.

  Next, a case will be described in which a check operation plan confirmation operation is performed by the user on the user terminal 3 side on the search input screen shown in FIG. For example, when the user wants to confirm a future inspection and maintenance plan of the filth processing pipe, the user inputs “filth processing pipe” into the piping system of the parts information input field K1 on the search input screen, and enters the reference date of the maintenance history input field K2. Enter an arbitrary date (for example, April 2012) and click the condition search button. As a result, the search unit 44 searches the fifth storage unit 46, the seventh storage unit 48, and the eighth storage unit 49 using “filth disposal pipe” as a keyword, and the search result is displayed in a predetermined manner as described above. Displayed in the format. FIG. 13 shows a display example of the search result. As shown in FIG. 13, pipe information and the like belonging to the filth disposal pipe system is displayed for each pipe unit.

  Specifically, piping information, precautions regarding inspection, and inspection and maintenance information are displayed for each individual pipe. As pipe information, for example, a pipe number, a deck, a frame, a pipe material, a caliber, an actual diameter, and a pipe length are displayed, and as a precaution regarding inspection, a message such as a bent pipe / blockage confirmation message is displayed. Also, as maintenance items, inspection and maintenance information after the time entered as the reference date on the search input screen, that is, after April 2012 is displayed. For example, the intermediate repair time and the annual inspection time are displayed in units of one year. Further, as this display mode, for a pipe that has not been inspected beyond the period registered as an inspection guideline, the pipe may be highlighted. Thereby, a user can be made to recognize the piping which needs to be inspected. In FIG. 13, emphasis is given by applying hatching to the inspection guide column for pipes that have exceeded the inspection guide period.

  In addition, in the search result screen shown in FIG. 13, when the user wants to confirm a pipe shape or the like with a three-dimensional image for a specific pipe, the user checks the check box C2 of the pipe and clicks the three-dimensional display button B3. To do. Thereby, for example, as shown in FIG. 14, the shape of the designated pipe can be displayed as a three-dimensional image. FIG. 14 shows a display example when the check boxes of the tube numbers “DS01176”, “DS01177”, and “DS01178” are checked. Further, in FIG. 13, by clicking the “select / cancel all” button B4, all the waste disposal tubes shown as search results are checked, and by clicking the three-dimensional display button B3, FIG. As shown in Fig. 4, it is possible to display all the systems of the waste disposal pipe. In addition, as described above, the display detail selection field K4 is provided on the image display screen, and the display condition in the display detail selection field K4 can be arbitrarily changed to obtain a three-dimensional image having a desired display mode. Can be displayed on the display unit 42. For example, FIGS. 16 and 17 show another example of the display screen. FIG. 16 is a diagram showing the arrangement of each pipe in the arrangement section and the piping system, and FIG. 17 is a diagram showing a pipe management table. As described above, according to the pipe management system according to the present embodiment, management by a single pipe is possible, and information can be searched, extracted, and displayed for each pipe.

  As described above, according to the piping management apparatus and management method and the piping management system for a ship according to the present embodiment, the mounting state of the piping can be displayed in three dimensions together with the peripheral information. It is possible to display the same image as the attached state on the display screen. Therefore, it is possible to easily specify a desired pipe on the three-dimensional image. In addition, since each piece of piping displayed on the three-dimensional image is associated with unique identification information, the identification information of the piping is acquired by designating a specific piping on the three-dimensional image. be able to. The first storage unit 36 (the fifth storage unit 46) stores pipe management information in which pipe identification information and pipe information are associated with each other. Accordingly, the search unit 34 (44) searches the first storage unit 36 (fifth storage unit 46) using the pipe identification information input on the three-dimensional image as search information, thereby obtaining the pipe information of the desired pipe. Can be acquired. A predetermined display screen is created by the screen creation unit 35 (45) based on the piping information acquired by the search unit 34 (44) and displayed on the display unit 32 (42). Detailed information (for example, size, shape, etc.) of the designated piping can be confirmed.

  The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the invention.

DESCRIPTION OF SYMBOLS 1 Ship piping management system 2 Ship piping management apparatus 3 User terminal 31, 41 Input part 32, 42 Display part 33, 43 Communication part 34, 44 Search part 35, 45 Screen creation part 36 1st memory | storage part 37 2nd memory | storage Unit 38 third storage unit 39 fourth storage unit 46 fifth storage unit 47 sixth storage unit 48 seventh storage unit 49 eighth storage unit

Claims (9)

A piping management device for managing piping of a ship,
Unique storage information is assigned to each individual pipe separated by a joint, and first storage means for storing pipe management information in which the pipe identification information and the pipe information are associated with each other;
A second storage means for storing the three-dimensional image data in which the pipe attachment state can be displayed in three dimensions together with peripheral information and the pipe identification information is associated with the pipe on the image;
Input means;
Display means;
A search unit that searches the first storage unit and the second storage unit based on the search information and acquires information associated with the search information when search information is input from the input unit;
Using a search result obtained by the search means, and a screen creation means for creating a display screen,
On the three-dimensional image displayed on the display unit, when information specifying a specific pipe is input from the input unit, the search unit displays identification information associated with the specified pipe. A pipe management device that acquires related pipe information from the first storage means as search information.   The piping management apparatus according to claim 1, wherein the piping information includes information at the time of construction. Third storage means for storing caution information in which identification information of the piping and cautions regarding inspection are associated;
The piping management device according to claim 1, wherein the search unit searches the first storage unit and the third storage unit based on the search information. A fourth storage means for storing inspection and maintenance information in which the identification information of the piping and information related to inspection and maintenance are associated;
The piping management device according to any one of claims 1 to 3, wherein the search unit searches the first storage unit, the third storage unit, and the fourth storage unit based on the search information.   The request screen for requesting the display of the three-dimensional image of the pipe displayed as the search result is provided on the display screen on which the search result by the search means is displayed. Piping management device according to crab.   The piping management device according to any one of claims 1 to 5, wherein the piping can be specified by double-clicking on the piping on the three-dimensional image including the piping displayed on the display means. A pipe management device according to any one of claims 1 to 6,
A user terminal connected to the pipe management device via a communication medium, and capable of bidirectional communication with the pipe management device;
The user terminal is
Fifth storage means for storing the pipe management information;
Sixth storage means for storing the three-dimensional image data;
Input means;
Display means;
A search means for searching the fifth storage means and the sixth storage means based on the search information and acquiring information associated with the search information when search information is input from the input means;
Using a search result obtained by the search means, and a screen creation means for creating a display screen,
On the three-dimensional image displayed on the display unit, when information specifying a specific pipe is input from the input unit, the search unit displays identification information associated with the specified pipe. A pipe management system for acquiring related pipe information from the fifth storage means as search information.   The user terminal can access the first storage unit and the second storage unit of the first piping management device instead of including the fifth storage unit and the sixth storage unit, and the first storage unit The piping management system according to claim 7, wherein information is acquired from the second storage unit and displayed on the display unit. A piping management method for managing the piping of a ship,
Unique identification information is assigned to each pipe separated by a joint, pipe management information that associates the pipe identification information and pipe information, and the pipe installation state can be displayed in three dimensions together with peripheral information. Are prepared in advance, three-dimensional image data in which the identification information of the pipe is associated with the pipe on the image,
When information specifying a specific pipe is input on the display screen on which the three-dimensional image is displayed, the pipe management information is searched using the identification information associated with the specified pipe as search information. And obtaining the piping information associated with the identification information,
A piping management method for creating and displaying a display screen using the acquired piping information.

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