KR20170007944A - Apparatus and mehtod for generating and managing subdistrict box of subregion - Google Patents
Apparatus and mehtod for generating and managing subdistrict box of subregion Download PDFInfo
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Abstract
The present invention relates to an apparatus and method for creating and managing a zone box in a subregion capable of generating at least one zone box in a sub-region selected from a zone tree of an object arc.
According to an embodiment of the present invention, there is provided a method of generating a zone box of a sub-area, which is a production management unit of a structure, comprising: receiving an object line from a user; Displaying a zone tree on a first screen, which is previously partitioned, if the selected zone tree of the object line exists in the zone database; Displaying three-dimensional model information of the selected sub-region on the second screen; And providing the zone box interface on a pre-partitioned third screen in accordance with the registration request of the zone box and setting the zone coordinate information in the selected small zone through the provided zone box interface to create a zone box of the small zone The method comprising the steps of:
Description
The present invention relates to an apparatus and method for generating and managing a zone box in a sub-area, and a method and apparatus for creating and managing a zone box in a sub-zone, which can generate at least one zone box in a sub- .
In general, the shipyard will draw up a Zone Division drawing for ease of work and process planning in the construction of the ship. The Zone Division divides the target line into Level-I, Level-II, and Level-III, and draws it out as a drawing. .
Particularly, the production work in the trailing process is composed of the subculture unit. The work schedule for day, week, and month is followed up by reviewing the work remaining amount for the area completion and the work plan for the commissioning (by system) In production management, the quantity calculation standard required for carrying out the main tasks is ultimately the unit of the sub-sector.
Korean Patent Publication No. 2005-82919 (method of linking production schedule and production schedule of a ship) discloses a method of linking production schedule and production schedule of a ship. According to this, the drawing schedule of the design and the block production schedule of the production are linked to each other to establish the production design schedule reflecting the production plan, and the production department can know the operation state of the design, It exists only as a drawing and is not managed as a computer.
In order for the zone information to be properly managed in a computerized manner, a subject must define coordinates for the zone, and the association between the defined zone and the design model, BOM, material, plan, and performance information must be well managed and managed in the ERP system In general, however, frequent design changes should be made for various reasons in the construction of the wire, and the revised management should be done accordingly, and related information should be automatically updated in the system.
However, it is very difficult to integrate and manage systematically the information necessary for the construction of the line including the information of the area because there are many variables in the line construction, especially in the case of the marine line.
Furthermore, even if there is a system for computerizing the zone information, it is necessary to ensure that the data input subject is ambiguous, that the amount is too large to be digitized to the subregion unit, and that the zone data is reliable and up- it's difficult.
For these reasons, there is no global shipyard where zone information is properly managed in a computerized manner up to the sub-sector. Only the information up to the central zone is managed in the ERP system. It is only used.
In such an environment, it is necessary to calculate the amount of material necessary for production control or production work by hand using the drawings. This is a factor that hinders productivity, and it is difficult to manage fine work, .
It is an object of the present invention to provide an apparatus and method for creating and managing a zone box in a small area, which is capable of generating at least one zone box in a sub-zone selected from the zone tree of the object arc.
According to an aspect of the present invention, there is provided a method of generating a zone box of a sub-area, which is a production management unit of a structure, comprising: receiving an object line from a user; Displaying a zone tree on a first screen, which is previously partitioned, if the selected zone tree of the object line exists in the zone database; Displaying three-dimensional model information of the selected sub-region on the second screen; And providing the zone box interface on a pre-partitioned third screen in accordance with the registration request of the zone box and setting the zone coordinate information in the selected small zone through the provided zone box interface to create a zone box of the small zone The method comprising the steps of:
The generating step generates the zone box by receiving the zone coordinate information through the zone box interface or by changing the size by dragging the edit point with the mouse on the surface of the zone box provided on the second screen to set the zone coordinate information You can create a zone box.
Wherein the generating step comprises: converting the set area coordinate information into shipbuilding coordinate information; And reflecting the converted shipboard coordinate information to the three-dimensional model information on the second screen.
The method according to an embodiment of the present invention may further include: after the reflecting step, determining whether or not storage of a zone box has been requested from the user; And storing the zone coordinate information of the zone box in association with the corresponding three-dimensional model information in the zone database when the storing of the zone box is requested as a result of the determining step.
Further, the method according to an embodiment of the present invention may further include, after the reflecting step, determining whether or not modification of the zone box is requested when storage of the zone box is not requested as a result of the determining step; And modifying the zone coordinate information via the zone box interface if modification of the zone box is requested.
Further, the method according to an embodiment of the present invention may further include: after the storing, determining whether deletion or additional creation of the zone box has been requested; And to delete the zone box from the zone database when deletion of the zone box is requested, and when the addition of the zone box is requested, And moving the process to a step of displaying on the screen.
According to another embodiment of the present invention, there is provided an apparatus for generating and managing a zone box of a sub-area, which is a production management unit of a structure, when a zone tree of an object line selected by a user exists in a zone database, A structure information providing unit displaying the structure information; Model information providing means for displaying three-dimensional model information of a sub-region selected from the zone tree on a second screen which is previously divided; And providing a zone box interface on a pre-partitioned third screen in response to a registration request of the zone box, setting a zone coordinate information in the selected small area through the zone box interface and generating a zone box of the small zone An apparatus is provided which is characterized in that it comprises a part.
The first to third screens may be partitioned on one screen.
The zone box generating unit receives the zone coordinate information through the zone box interface and generates a zone box or changes the size of the zone box by dragging an editing point on the surface of the zone box provided on the second screen to set zone coordinate information You can create a zone box.
The zone box generation unit may convert the set zone coordinate information into the shipbuilding coordinate information, and reflect the converted shipbuilding coordinate information to the three-dimensional model information on the second screen.
Wherein the zone box generation unit determines whether or not the storage of the zone box is requested by the user, and when the storage of the zone box is requested as a result of the determination, the zone box generation unit associates the zone coordinate information of the zone box with the corresponding three- Can be stored.
Further comprising a zone box manager for determining whether modification of the zone box is requested if the storage of the zone box is not requested and modifying the zone coordinate information through the zone box interface if modification of the zone box is requested can do.
The zone box management unit may delete the zone box from the zone database when deletion of the zone box is requested.
The zone box generating unit may display on the second screen the three-dimensional model information of the sub-region in which the zone box is to be further generated when the zone box is additionally requested to be generated.
According to another embodiment of the present invention, there is provided a zone box management method for a sub-area, which is a production management unit of a structure, comprising the steps of: receiving a user selection of a sub- Registering zone coordinate information of a zone box existing in a lower node below a selected zone in the bounding box list of the selected small zone if the zone box of the selected small area exists; Loading a bound model file list in a directory specified by a work model file and loading a bounding box of a work model when registration of the bounding box list is completed; And extracting zone coordinate information of the zone box from the registered bounding box list and visualizing a work model corresponding to the extracted zone coordinate information.
Further, the method according to another embodiment of the present invention may further include, after the step of visualizing, calculating a necessary quantity in the selected small area based on the absent position and absent member name of the visualized model of work .
The method according to another embodiment of the present invention is characterized in that, before the step of visualizing, if the option of the zone is a full inclusion option and the bounding box of the work model is completely contained in the zone coordinate information of the zone box, If a model file is loaded and included in the subregion and the option of the zone is an option including part and the bounding box of the work model is at least partially included in the zone coordinate information of the zone box, To the selected sub-region.
According to the embodiment of the present invention, at least one zone box in the sub-region selected from the zone tree of the object line can be generated. Accordingly, the planning for production can be planned in units of small towns, furthermore, it is possible to manage fine work in units of small towns, and it is possible to provide an environment in which the units can be managed in a computerized manner.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an integrated management system to which a quantity calculating apparatus according to an embodiment of the present invention is applied;
FIG. 2 is a block diagram for explaining a water amount calculating apparatus shown in FIG. 1;
FIG. 3 is a flowchart illustrating a method of generating a zone box of a small area using a quantity calculating apparatus according to another embodiment of the present invention. FIG.
FIG. 4 is a flow chart for explaining a method of calculating a quantity of water in a quantity calculating apparatus according to another embodiment of the present invention;
5 is a diagram illustrating a block tree,
6 is a diagram illustrating a section tree,
7 is a diagram illustrating an inquiry mode and an edit mode of a zone box,
Figure 8 illustrates a zone box defining zones;
9 is a view showing three-dimensional modeling information corresponding to a specific sub-region among three-dimensional modeling information of an object arc line, and
10 is a view showing a PE / Block structure definition file and a work type model file;
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a view showing an integrated management system to which a quantity calculation device according to an embodiment of the present invention is applied, and FIG. 2 is a block diagram for explaining a quantity calculation device shown in FIG.
1, an integrated management system to which a quantity calculation device according to an embodiment of the present invention is applied includes a
The above-described
2, the
The zone function control menu controlled by the zone
5) for providing the necessary three-dimensional model information such as PE / Block / Artifact / Assembly / member unit to the model
The model
The zone
The zone
The zone
The zone
The zone
The zone
A zone box interface capable of creating, inquiring, or editing a zone box is shown in Figs. 7A and 7B, Fig. 7A is a zone box interface in the inquiry mode, (B) is a zone box interface in edit mode.
When a specific zone is selected in the zone tree of the structure
The information displayed in the zone box includes a zone name, a description, a zone registration (editing) person, and zone coordinate information indicating the location of the zone. The zone registrant information (zone editor information) is linked with the in-house messenger of the
It is possible to define using the shipbuilding coordinate system when the zone is edited by using the zone box, and by supporting the fast input mode, the
The zonal coordinate information in the zone box defining the arbitrary zone is well shown in Fig. 8, and the zonal coordinate information includes X-axis coordinate value and offset value, Y-axis coordinate value and offset value, Z-axis coordinate value and offset value, and x An axis maximum coordinate value and a maximum offset value, a Y axis maximum coordinate value and a maximum offset value, and a Z axis maximum coordinate value and a maximum offset value.
On the other hand, when registering or editing a zone, it is possible to create several zone boxes in one small unit. This is because the working space is not limited to a hexahedron but rather a polyhedron. The coordinate value can be designated through the zone box provided in the zone
In the zone
In order to calculate the quantity, a model must be loaded. Whether the model tree is used in the provision area of the model
When the operator calls up the required model, the zone box is also displayed on the second screen by the model
In this way, the model
Whether to include the model partially included (spanning) in the zone of the model on the screen when performing the zone filtering in the zone
By associating the calculated quantity of water with the design data in the
In order to load the line model into the model
In the PE / Block structure definition file, if a line is selected using the line selection menu in the zone
In this way, the ship coordinate system file is loaded together for the coordinate transformation between the model coordinate system and the ship coordinate system. The ship coordinate system file can be obtained in the form of a dump file in the
In the work model file, the shape information of the design model and a predefined zone box (zone box which is the maximum / minimum coordinate of the work model) are included. When the work model file is loaded by the
In order to perform the work necessary for calculation of the quantity of goods by using the area information retrieved from the section tree displayed in the model
The zone information is defined in the
FIG. 9 shows a part of a design model of a line segmented by a small unit. The procedure of creating a zone box selects a design model (corresponding to A in Fig. 9) of a subregion where the user will create a zone box, as shown in Fig. You can then select the lower hierarchy node in the section tree of the design model. Next, a window (zone box interface) for creating zones on the zone
The creation area is displayed and visualized on the model
The user can input the area coordinate information indicating the zone through the model information providing unit 43 (coordinate input by dragging the coordinates as described above) or zone
There can be more than one zone box in a small area, and an additional zone box can be created. Also, if you need to modify and delete the zone box during the creation of the zone box, you can modify / delete it if you have selected the corresponding zone box. When the creation / modification / deletion of the zone box is completed, the zone coordinate information of the zone box can be stored in the
When the creation of the zone box is completed in this way, the work model of the zone tree related to the volume of the small unit to be calculated prior to calculating the quantity should be loaded with logical connection.
(Hull, Pipe, Equip, STRUCT) related to the quantity of water based on the small area are loaded in the structural
When the model is loaded in the structure
When the zone list is completed, the zone box of the work model is loaded in the directory specified by the work model file.
The water
In particular, when the zone box is registered in a specific node, the
At this time, based on the completed member list, the members that are not in the member list can be removed from the three-dimensional model information and removed from the region tree to visualize the members not on the member list on the screen. As a result, the quantity of the units in the small area unit is calculated based on the zone list and the member list.
A method of generating a zone box of a small area by using a water quantity calculating apparatus having such a configuration will be described with reference to FIG. At least one zone box in the sub-region can be created, and the zone coordinate information of the generated zone box is stored and managed in the
3 is a flowchart illustrating a method of generating a zone box of a small area using a quantity calculating device according to another embodiment of the present invention.
Referring to FIG. 3, the zone
The zone
If the zone tree is stored in the
If it is determined in step S103 that the zone tree is not stored in the
Thereafter, the zone
The zone
The zone
The above-described step S109 and step S111 are not limited to this order. If the zone box interface is displayed on the third screen before the step S113 described below and the three-dimensional model information of the selected small area on the second screen is displayed It can be implemented.
The zone
The zone
The zone
Thereafter, the zone
If it is determined in step S119 that the storage is requested, the zone
If it is determined in step S119 that the storage is not requested, the
If it is determined in step S122 that modification is requested, the zone
If it is determined in step S122 that modification is not requested, the zone
After the step S121, the zone
If it is determined in step S124 that deletion is requested, the zone
If it is determined in step S124 that the additional generation is requested, the zone
Through the process described above, at least one zone box in the sub-zone is created and the zone coordinate information of the generated zone box is stored and managed in the
Hereinafter, a method of calculating the quantity of water in the unit of the area will be described.
FIG. 4 is a flow chart for explaining the method of calculating the quantity of water in the quantity calculating apparatus according to another embodiment of the present invention.
Referring to FIG. 4, the structure
The
The
If the zone box does not exist in the lower node of the selected zone as a result of the determination in step S205, the
If the zone box exists in the lower node of the selected zone as a result of the determination in step S205, the
Then, the
If it is determined in step S209 that the next node is selected, the
If it is determined in step S209 that the next node is not selected, the
When the creation of the member list according to the option including the zones is completed, the
Then, the quantity of
By doing this, it is possible to calculate the quantity of the unit of the zone based on the position and the member name of the member included in the three-dimensional model information of the object line corresponding to the area coordinate information of the zone box in the small area, In addition to enabling job management and work order creation, it is possible to utilize the quantity of small-unit units in the process management in the post-production department, thereby improving the overall production quality.
In the above description, when an arbitrary region is selected in the section tree, the 3D model information of the selected region is displayed on the second screen, and it is determined whether there is a section box at a lower node of the selected section. Dimensional modeling information having the coordinate information coinciding with the coordinate information of the three-dimensional modeling information, and the position of the member. However, in another embodiment, the quantity of the product can be calculated through visualization of the model.
Prior to calculating the quantity, the work model has a logical connection to the section tree associated with the quantity of the small unit to be calculated.
The method of calculating the quantity of goods through modeling of an industrial model selects an arbitrary node to which an industrial model (Hull, Pipe, Equip, Struct) is to be loaded by loading a block model of the object row provided by the structural
10 shows the definition file of the PE / Block structure of the object line and the work type model file of each block. In FIG. 10, 102 blocks are selected and the work model file of the selected PIPE is selected from among the selected 102 block types, that is, HULL, EQUIP, STRUCT and PIPE.
If the option in the corresponding zone is a complete include option and the bounding box of the working model is completely included in the zone coordinate information of the zone box, the option file is satisfied. In other cases, if the option of the corresponding zone is not completely included and the bounding box of the working model is at least partially included in the zone box information of the zone box, the option file is added to the file open list.
In other cases, that is, when the bounding box of the working model is not completely included even though the area option is completely included. If the bounding box of the working model is not included in the area coordinate information of the area box, Do not add model files.
If the zone coordinate information of the zone box exists in the bounding box list of the model, the zone coordinate information of the zone box is extracted again on the bounding box list of the model, and if the next work type file exists on the work type file list, The process of loading the bounding box of the work model is repeated.
When this process is repeated, the work type file added to the file open list is loaded and the work type model loaded on the second screen is visualized. In this case, since the logical connection relation between the work type model and the zone box is defined, the quantity of the selected node can be calculated based on the member name and the position of the member of the work model corresponding to the zone coordinate information of the zone box.
The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.
10: CAD system 20: Lightweight model converter
30: Zone database 40: Quantity calculation device
41: zone function control unit 42: structure information providing unit
43: Model information providing unit 44: Zone box generating unit
45: Zone information providing unit 46: Quantity calculation unit
47: Zone box management unit 50: ERP system
Claims (17)
Selecting an object line from a user;
Displaying a zone tree on a first screen, which is previously partitioned, if the selected zone tree of the object line exists in the zone database;
Displaying three-dimensional model information of the selected sub-region on the second screen; And
Providing the zone box interface on a pre-partitioned third screen in response to a registration request of the zone box, and setting zone coordinate information in the selected small zone through the zone box interface to generate a zone box of the small zone ≪ / RTI >
The generating step
A zone box is created by receiving the zone coordinate information through the zone box interface or by changing the size of the zone box by dragging the edit point with the mouse on the surface of the zone box provided on the second screen to generate zone box information ≪ / RTI >
The generating step
Converting the set area coordinate information into shipbuilding coordinate information; And
And reflecting the converted shipboard coordinate information to the three-dimensional model information on the second screen.
After the reflecting step,
Determining whether a storage of the zone box has been requested from the user; And
Further comprising the step of storing the zone coordinate information of the zone box in association with the corresponding three-dimensional model information in the zone database when the storing of the zone box is requested as a result of the determining step.
After the reflecting step,
Determining whether the modification of the zone box has been requested if the storage of the zone box is not requested as a result of the determining step; And
Modifying the zone coordinate information via the zone box interface when modification of the zone box is requested.
After the storing step,
Determining whether deletion or further creation of the zone box has been requested; And
Dimensional model information of a sub-region to be further generated when the zone box is requested to be deleted from the zone database when the zone box is requested to be deleted, ≪ / RTI > further comprising the step of moving the process to a step of displaying on the screen.
A structure information providing unit for displaying a zone tree on a first screen, which is previously partitioned, if a zone tree of an object line selected by the user exists in the zone database;
Model information providing means for displaying three-dimensional model information of a sub-region selected from the zone tree on a second screen which is previously divided; And
Providing a zone box interface on a pre-partitioned third screen in response to a request for registration of the zone box, setting zone coordinate information in the selected small area through a zone box interface and generating a zone box of the small zone Lt; / RTI >
Wherein the first to third screens are partitioned on one screen.
The zone box generating unit receives the zone coordinate information through the zone box interface and generates a zone box or changes the size of the zone box by dragging an editing point on the surface of the zone box provided on the second screen to set zone coordinate information And generates a zone box.
Wherein the zone box generating unit converts the set zone coordinate information into the shipbuilding coordinate information, and reflects the converted shipbuilding coordinate information to the three-dimensional model information on the second screen.
Wherein the zone box generation unit determines whether or not the storage of the zone box is requested by the user, and when the storage of the zone box is requested as a result of the determination, the zone box generation unit associates the zone coordinate information of the zone box with the corresponding three- And storing the data.
Further comprising a zone box manager for determining whether modification of the zone box is requested if the storage of the zone box is not requested and modifying the zone coordinate information through the zone box interface if modification of the zone box is requested Lt; / RTI >
Wherein the zone box management unit deletes the zone box from the zone database when deletion of the zone box is requested.
Wherein the zone box generator displays on the second screen the three-dimensional model information of the sub-zone in which the zone box is to be further generated when the zone box is additionally requested to be generated.
Selecting a subregion from which a work model is to be loaded;
Registering zone coordinate information of a zone box existing in a lower node below a selected zone in the bounding box list of the selected small zone if the zone box of the selected small area exists;
Loading a bound model file list in a directory specified by a work model file and loading a bounding box of a work model when registration of the bounding box list is completed; And
Extracting zone coordinate information of the zone box from the registered bounding box list and visualizing a work model corresponding to the extracted zone coordinate information.
After the visualizing step,
Further comprising the step of calculating a necessary quantity of the selected small area based on the member position and member name of the visualized model of work.
Prior to the step of visualizing,
If the option of the zone is a full inclusion option and the bounding box of the working model is fully included in the zone coordinate information of the zone box, then the work model file is loaded into the open file list and included in the subregion, And loading the work model file into the file open list and including the work model file in the selected small sector if the bounding box of the work model is at least partially included in the zone coordinate information of the zone box.
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KR1020150099000A KR20170007944A (en) | 2015-07-13 | 2015-07-13 | Apparatus and mehtod for generating and managing subdistrict box of subregion |
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KR1020150099000A KR20170007944A (en) | 2015-07-13 | 2015-07-13 | Apparatus and mehtod for generating and managing subdistrict box of subregion |
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KR1020170055200A Division KR101818527B1 (en) | 2017-04-28 | 2017-04-28 | Mehtod for managing subdistrict box of integrated information management system |
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KR1020150099000A KR20170007944A (en) | 2015-07-13 | 2015-07-13 | Apparatus and mehtod for generating and managing subdistrict box of subregion |
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KR20190019501A (en) * | 2017-08-18 | 2019-02-27 | 구대근 | 3D model design device and method |
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KR20050082919A (en) | 2004-02-20 | 2005-08-24 | 대우조선해양 주식회사 | Connecting method between producting design schedule and producting schedule of vessel |
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KR20050082919A (en) | 2004-02-20 | 2005-08-24 | 대우조선해양 주식회사 | Connecting method between producting design schedule and producting schedule of vessel |
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KR20190019501A (en) * | 2017-08-18 | 2019-02-27 | 구대근 | 3D model design device and method |
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