JP2004264993A - System and method for supporting integration of component for repair - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system and a method for supporting integration of components for repair which display relations of components to facilitate integrating work of the components. <P>SOLUTION: The system for supporting integration of components for repair is provided with; a database (32) into which CAD component drawings (three-dimensional CAD component drawings) of components constituting a product and a three-dimensional assembly drawing (virtual vehicle drawing) of the product, which is created as a set of CAD component drawings are stored; a display part (12) for displaying the three-dimensional assembly drawing and CAD component drawings; and an arithmetic part (11) which recognizes integration object components to be integrated, on the three-dimensional assembly drawing in response to input of a user (a component integration implementing person 15) and controls the display part to change the display of integration object components so as to make them distinguishable. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a repair parts integration support system and a repair parts integration support method, and more particularly to a repair parts integration support system and a repair parts integration method that support work for integrating parts that need to be kept in stock as repair parts. Regarding support methods.
[0002]
[Prior art]
When producing and selling a product, the producer may have an obligation to hold the repair parts for a certain period of time. In the case of automobiles and motorcycles, there are many grades and specifications for each product, and there are cases where different parts of the same type are used. Specifically, there are differences between the paint in the cold district and the normal paint, and a slight change in the shape to comply with the laws and regulations of each exporting country. Furthermore, automobiles and motorcycles are managed as combinations of thousands of parts.
[0003]
In a mass production system, even if there are many specifications and types for each part, there is a case where there is no problem in efficiency or cost due to the large number of manufactured parts. However, in the case where the mass production system is finished and maintenance parts are to be held, it is sometimes inefficient to manufacture and hold a large number of specifications and types of parts in small amounts.
[0004]
For this reason, it is preferable to integrate components of the same type but different specifications.
Specifically, if there is a difference in paint or material between parts of the same shape and export specifications and domestic specifications, repair parts that satisfy both specifications or multiple parts are included. By retaining the parts that can be made, the types of repair parts in stock can be reduced.
In particular, in the case of parts that are not in the mass production system, there are cases where the smaller the number of types of parts to be manufactured, the more efficient the manufacturing. Also, the smaller the number of types of parts in stock, the smaller the number of stocks as a whole. Furthermore, inventory management is easier when the types of parts in stock are smaller.
[0005]
Therefore, it is desired to integrate the repair parts.
In the operation of integrating components, the component integration implementer needs to select a component to be integrated, compare paper drawings of the components, and examine whether integration is possible.
Further, in the work of examining whether a part can be integrated, the part integration implementer needs to confirm the related part of the part. The related component is exemplified by a component connected to the component or a component that may interfere. There may be many related parts for one part.
[0006]
If there is a part that can be used comprehensively with other parts among a plurality of parts of the same kind, the plurality of parts are integrated into the part.
[0007]
However, since the component integration implementer needs to confirm a plurality of component drawings to be integrated and many related components, the integration study may take time and man-hours. Furthermore, in the operation of selecting a related component to be checked, the component integration implementer needs to know, from experience, which component is the relevant component with respect to the component to be integrated. Further, when confirming the shape of the component to be integrated in a paper drawing, a space is required for a plurality of paper drawings to be spread. Further, in the comparison on the paper drawing, the component integration implementer may miss the difference between the integration destination component and the integration source component. Further, the component integration implementer may have empirically determined which of a plurality of integration target components is to be integrated with which component to have a large effect or work efficiency is high.
[0008]
For this reason, a system and a method that can easily ascertain a related component to be examined for a component to be integrated are desired. Further, a system and method that can easily grasp the difference between a component at the integration destination and a component at the integration source without the experience of the component integration implementer are desired. Further, there is a need for a system and method that allows the user to view the drawing on a monitor without unfolding the paper drawing and that does not require space. Further, a system and method that can indicate which of the plurality of integration target components should be integrated into which component to achieve a greater effect or work efficiency is desired.
[0009]
Using a three-dimensional CAD system for designing a product to be assembled, an assembly information data creating unit for setting assembly information in the designed three-dimensional CAD data, a design support computer having a display device and input means, and an artificial reality An assembly process data creation unit for performing a simulation experience of an assembly operation on a virtual space model, a manual assembly process execution unit for performing a manual assembly process, and an automatic assembly process execution unit for performing an automatic assembly process. , An assembling process editor that edits the created assembling process and assembly process, and an assembling process design support computer with a display device and input means. A video display device that creates a stereoscopic effect using binocular parallax, which is an input / output device, a video display device control unit that controls the video display device, and a position that detects a three-dimensional position and orientation. A posture detector, a position / posture detector control unit for controlling the posture detector, a hand movement detector for detecting the movement of the hand of the experienced person, a hand movement detector control unit for controlling the hand movement detector, and each of these controls A virtual space processing computer having a virtual space processing data management unit for managing the parts, a three-dimensional CAD database, an assembly information database, a manufacturing information database, an assembly process connection path database, and an assembly process database. A technique of an assembly process design support device is disclosed (for example, Patent Document 1).
[0010]
[Patent Document 1]
JP-A-09-016550
[0011]
[Problems to be solved by the invention]
An object of the present invention is to provide a repair parts integration support system and a repair parts integration support method that display integration target parts and related parts on a three-dimensional assembly drawing and facilitate integration work.
It is another object of the present invention to provide a repair component integration support system and a repair component integration support method that facilitate comparison of a plurality of integrated repair components.
[0012]
[Means for Solving the Problems]
The means for solving the problem will be described below using the numbers and symbols used in [Embodiments of the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Embodiments of the Invention]. It should not be used to interpret the technical scope of the described invention.
[0013]
The repair parts integration support system according to the present invention converts a CAD part drawing (three-dimensional CAD part drawing) of parts constituting a product and a three-dimensional assembly drawing (virtual vehicle drawing) of a product created as a set of CAD part drawings. A database (32) to be stored, a display unit (12) capable of displaying a three-dimensional assembly drawing and a CAD part drawing, and an integration target for performing integration in response to a user (part integration operator 15) input And an operation unit (11) for recognizing the component on the three-dimensional assembly drawing and controlling the display unit to change the display of the integration target component to be identifiable.
By displaying the integration target component on the three-dimensional assembly drawing in an identifiable manner, the component integration operator can visually grasp the position of the integration target component and the relationship between the integration target component and surrounding components.
[0014]
The repair parts integration support system according to the present invention converts a CAD part drawing (three-dimensional CAD part drawing) of parts constituting a product and a three-dimensional assembly drawing (virtual vehicle drawing) of a product created as a set of CAD part drawings. A database (32) to be stored, a display unit (12) capable of displaying a three-dimensional assembly drawing and a CAD part drawing, and an integration target for performing integration in response to a user (part integration operator 15) input And an operation unit (11) for recognizing the component on the three-dimensional assembly drawing and controlling the display unit to change the display of the integration target component to be identifiable.
The three-dimensional assembly drawing includes information indicating the relationship between components included in the three-dimensional assembly diagram, and is displayed on the three-dimensional assembly diagram in a series (65) indicating a part of the relationship between the components included in the three-dimensional assembly diagram. ) Is displayed.
By displaying the series display (65), the part integration implementer (15) can more easily understand the relationship between the parts.
[0015]
Further, the operation unit (11) of the repair parts integration support system of the present invention can identify the display of the part on the series display (65) by selecting a predetermined part on the three-dimensional assembly drawing. The display unit (12) is controlled so as to change to.
By changing the display of the selected component on the series display (65), the component integration implementer (15) can easily grasp the identifier of the selected component.
[0016]
Further, the operation unit (11) of the repair parts integration support system of the present invention can hide the display of parts that do not need to be displayed on the three-dimensional assembly drawing in response to the input of the user (15). it can.
By switching the display of parts on the three-dimensional assembly drawing to non-display, necessary parts can be seen.
[0017]
The operation unit (11) of the integrated repair parts support system of the present invention displays a CAD part drawing of the part selected on the three-dimensional assembly drawing in response to the input.
Since a part can be selected from the three-dimensional assembly drawing and a CAD part drawing can be displayed, selection of the drawing is easy.
[0018]
Further, the operation unit (11) of the repair component integration support system of the present invention extracts related components in a connection relationship or a positional relationship that may interfere with the integration target component, and changes the display of the related component to be identifiable. The display unit (12) can be controlled so as to perform the operation.
Since the related parts are automatically extracted, in the integration work, the number of steps for extracting the related parts whose relationship with the integration target parts is to be confirmed can be reduced, and the related parts can be prevented from being overlooked.
[0019]
Further, the operation unit (11) of the repair parts integration support system of the present invention compares a plurality of CAD parts drawings relating to the same kind of integration target parts, and controls the display unit (12) so that the different parts are identifiably displayed. can do.
Since the different parts of the plurality of CAD part drawings are automatically displayed, the part integration implementer 15 can easily recognize the different parts to be considered in the integration, and furthermore, the different parts to be considered Oversight can be prevented.
[0020]
Further, the operation unit (11) of the repair parts integration support system of the present invention incorporates the same type of integration target parts on the three-dimensional assembly drawing, and displays the mismatched part or the interference part so as to be identifiable. Can be controlled.
By incorporating the integration destination component on the three-dimensional assembly drawing of the integration source component, it is possible to confirm whether or not interference or mismatch occurs when the integration is performed.
[0021]
Further, the storage unit of the integrated repair part support system of the present invention further stores part data (32), and the part data (32) is an identifier (41) of the part and a type of regulation applied to the part. (51) and information relating the identifier.
The calculation unit (11) controls the display unit (12) to display the type of regulation in response to the selection of the integration target component.
By automatically displaying the types of regulations to be considered for integration, the part integration implementer (15) can reduce the number of steps for checking the applicable regulations, and also prevent the applicable regulations from being overlooked. it can.
[0022]
Further, the identifier (41) includes item information (41a) indicating the type of the item of the part.
The operation unit (11) searches the component data (40) and extracts the identifier (41) of the same item as the selected integration target component.
By extracting the identifier (41) of the same item as the part to be integrated, the part to be considered as the part to be integrated can be automatically extracted.
[0023]
The component data (32) includes a plurality of specifications of each component.
The operation unit (11) may, in response to the user selecting one or more of the plurality of specifications, group the identifiers extracted as the same item into groups having the same selected specification. it can.
The parts to be integrated are grouped into parts having the same specification, so that the part integration implementer (15) can examine candidates that can be integrated in advance.
[0024]
The repair parts integration support method of the present invention includes the following steps.
A step of selecting a first repair part and a second repair part similar to the first repair part.
Displaying the first repair part on the three-dimensional assembly drawing created as the electronic data so as to be identifiable;
A step of displaying, on the three-dimensional assembly drawing, related parts that are connected to or close to the first repair part.
Changing the display so that the relationship between the first repair part and the related part can be recognized.
Confirming the relationship between the different parts and the related parts.
Displaying a part drawing of the first repair part and a part drawing of the second repair part;
A step of comparing the part drawing of the first repair part with the part drawing of the second repair part to detect a different part.
Since the integration target component is displayed on the three-dimensional assembly drawing so as to be identifiable, the component integration implementer (15) can visually grasp the position of the integration target component and the relationship with the surrounding components. .
[0025]
The repair parts integration support method of the present invention further includes the following steps.
A step of examining whether one of the first repair part and the second repair part can be applied to the other based on a relationship with the related parts.
It becomes easy to examine the applicability from the relationship with the related parts visually confirmed.
[0026]
The repair parts integration support method of the present invention further includes the following steps.
After the step of considering the application, the step of confirming that the applied part satisfies the applicable regulations of the product in which the part is used.
In integrating parts, it is desirable to ensure that applicable laws and regulations are met.
[0027]
The repair parts integration support method of the present invention further includes the following steps.
Further, a step of hiding the display of the selected component so that the integration target component can be identified on the screen or the related component can be identified on the three-dimensional assembly drawing.
By switching the display of parts on the three-dimensional assembly drawing to non-display, necessary parts can be seen.
[0028]
The step of displaying the related parts of the repair parts integration support method of the present invention includes automatically selecting a part having a connection relationship with the first repair part by selecting the first repair part, and And displaying the part so as to be identifiable.
By automatically extracting components that are connected to the integration target component and displaying them as related components, the related components to be considered can be easily recognized, and the related components to be considered can be overlooked. Can be prevented.
[0029]
Further, the three-dimensional assembly drawing includes movable information including the movable range of the movable part, and the step of displaying the related parts automatically extracts the parts that may cause interference due to the movement and sets the related parts as related parts. And displaying it in an identifiable manner.
It is preferable to be able to automatically confirm the presence or absence of interference based on the information of the movable part in order to surely confirm the interference of parts.
[0030]
The repair parts integration support method of the present invention further includes the following steps.
And displaying CAD component diagrams of a plurality of integration target components including the first repair component and the second repair component.
It is preferable that the CAD part drawing of the part to be integrated can be easily selected and displayed on the display unit (12) because a space for expanding the paper drawing is not required.
[0031]
The repair parts integration support method of the present invention further includes the following steps.
Further, a step of comparing a plurality of CAD part drawings and changing the display so that the different parts can be identified.
It is preferable to automatically display the different parts of the plurality of drawings so as to be identifiable, since the number of steps for extracting the different parts for examining the integration can be reduced. Furthermore, it is preferable because oversight of a different portion can be prevented.
[0032]
The repair parts integration support method of the present invention further includes the following steps.
Further, a plurality of CAD parts drawings are compared, and a group is created for each of the parts having the same designated specification.
It is preferable to create a group in which specific specifications are the same to facilitate integration work.
[0033]
【The invention's effect】
The repair parts integration support system and the repair parts integration support method of the present invention can display the relationship between the parts and facilitate the integration work.
The repair component integration support system and the repair component integration support method of the present invention can facilitate comparison of repair components to be integrated.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of a repair parts integration support system and a repair parts integration support method according to the present invention will be described below with reference to the accompanying drawings.
[0035]
Referring to FIG. 1, the configuration of a repair parts integration support system according to the present invention will be described.
The repair parts integration support system includes a terminal 10, a drawing management server 20, a drawing database 22, a parts management server 30, and a parts database 32 used by the parts integration implementer 15. The terminal 10, the drawing management server 20, and the parts management server 30 are connected via the Internet, an intranet, or a LAN so that data can be transmitted and received. The drawing database 22 is connected to the drawing management server 20 so that data can be written and read. The parts database 32 is connected to the parts management server 30 so that data can be written and read. Note that the terminal 10 may include the drawing database 22 and the parts database 32. In addition, a combination of systems that can be created by a party may be used.
[0036]
The terminal 10 is exemplified by a personal computer. The terminal 10 includes a calculation unit 11, a display unit 12, and an input unit 13. The calculation unit 11 is exemplified by a computer main body including a calculation device including a CPU. The display unit 12 is exemplified by a display device exemplified by a display. The input unit 13 is exemplified by an input device exemplified by a keyboard and a mouse.
The drawing management server 20 is exemplified by a server that reads and writes data from and to the drawing database 22. Further, the drawing management server 20 may create a three-dimensional assembly drawing from the three-dimensional CAD part drawing.
The drawing database 22 includes a parts drawing database and a virtual drawing database. The part drawing database includes a three-dimensional CAD part drawing of the part. The three-dimensional CAD part drawing is created at the design stage as a part drawing using CAD, and is stored as electronic data. The virtual drawing database includes a three-dimensional assembly drawing of a product or a predetermined unit created as a set of three-dimensional CAD part drawings. The three-dimensional assembly drawing includes or is associated with information indicating a relationship between components included in the three-dimensional assembly drawing. Further, each part included in the three-dimensional assembly drawing has an attribute for specifying the part. Therefore, by specifying a part on the three-dimensional assembly drawing with a pointer, the part can be specified. A three-dimensional assembly drawing is also created and stored at the design stage.
The parts management server 30 is exemplified by a server that reads and writes data from and to the parts database 32.
The parts database 32 includes a parts list and parts information. The part information is information on the part associated with the part identifier.
[0037]
FIG. 2 shows an example of the parts list 40. The parts list 40 includes a part number 41, an item 42, an applicable vehicle type 43, a specification 44, an age 45, an applicable country 46, a material 47, a maker 48, a cost 49, a drawing number 50, a legal regulation type 51, and stock information 52. .
The part number 41 is an identifier for specifying a part. The part number 41 may include item information 41a, model information 41b, and derivative information 41c. The item information 41a is exemplified by an identifier indicating the item or type of the part. The model information 41b indicates a lower-order classification of the item information 41a. The derivative information 41c indicates a lower-order classification of the model information 41b.
The item 42 indicates the item of the part. Specifically, it is a character or symbol indicating a right front door, a driver's seat, or the like.
The applicable vehicle type 43 indicates an identifier of a vehicle type in which the part is used. There are a plurality of applicable vehicle types 43 in some cases.
The specification 44 is described when a specification in which the component is used is specified. Specifically, examples include a cold district specification, a salt damage countermeasure specification, and a sports specification. In addition, there are cases where specifications are defined for each component.
The age 45 includes information on the age when the part was used. Specifically, it is exemplified in the description "1995 type to 1999 type".
The applicable country 46 includes information on the name of the country from which the product in which the component was used was exported.
The material 47 includes the main material of the component and the specification of the material.
The maker 48 includes information of a maker who manufactured the part.
The cost 49 includes information on the production cost of the part.
The drawing number 50 includes an identifier such as a drawing number of a three-dimensional CAD part drawing of the part.
The type of legal regulation 51 includes the type of legal regulation to which the part is applied. Specifically, the types of collision safety regulations that differ in each country and the types of specific exhaust gas regulations are shown.
The stock information 52 indicates the current stock number and the number and period to be held as stock.
[0038]
Next, with reference to FIG. 3, the procedure of the repair parts integration support method will be described.
The component integration implementer 15 selects a component to be integrated (St1). The integration target parts are a plurality of repair parts of the same type to be integrated, and include an integration destination part and an integration source part. Integration parts are parts that are integrated and will be used in the future. The integration source component is a component that is integrated into the integration destination component and will no longer be used.
Further, the component integration implementer 15 temporarily determines the integration destination component and the integration source component (St2).
Using the terminal 10, the component integration implementer 15 reads out the three-dimensional assembly drawing of the integration target component, which is the integration destination component or the integration source component, from the virtual drawing database via the drawing management server 20, and displays it on the display unit 13. Display. Here, the three-dimensional assembly drawing is a virtual vehicle diagram in which a completed vehicle including the specified part is displayed in three dimensions.
Further, the part integration implementer 15 disassembles the virtual vehicle diagram on the screen and confirms the integration target parts and the related parts having a connection relation or an interference relation with the integration target parts (St3). The component integration implementer 15 can select an integration target component on the displayed virtual vehicle diagram, or can select an integration target component by inputting an identifier of the component or selecting it with a pointer. Further, the display of the selected component can be changed so that it can be identified, or the selected component can be hidden. Further, changing the display color of the selected integration target component is preferable in that the component integration operator 15 recognizes the position of the integration target component.
[0039]
Further, the arithmetic unit 11 reads connection information of each component included in the virtual vehicle diagram, movable information of the movable unit, and position information on a specific coordinate axis included in the virtual vehicle diagram according to the designation from the component integration implementer 15 and In some cases, related parts having connection and interference relations can be automatically extracted, and the related parts can be displayed on the virtual vehicle diagram by changing the display color. Alternatively, the calculation unit 11 may be able to list related components.
[0040]
Here, an example in which the integration target component and the related component are displayed on the virtual vehicle diagram is shown with reference to FIGS. 4 to 9. In this example, the case where the lock portion of the door is considered as the confirmation portion 62 when the right rear door is set as the integration target component is shown.
FIG. 4 shows an example of a screen 70 on which the virtual vehicle diagram 60 is displayed and the vicinity of the integration target component is enlarged.
On the screen 70, a component series display 65 indicating a series of components is displayed. The component series display 65 is a display in which identifiers of components included in the virtual vehicle diagram 60 are displayed in a tree shape. When the part in the virtual vehicle diagram 60 is selected, the calculation unit 11 may automatically change the display of the selected identifier in the part series display 65. Furthermore, by selecting an identifier of a part on the part series display 65, the calculation unit 11 may change the display of the part on the virtual vehicle diagram 60. The part series display 65 is switched between display and non-display by selection from a menu (not shown). Information for the part series display 65 is included in the parts list or the virtual vehicle diagram 60.
Further, on the screen 70, a non-display button 66 for hiding the selected component, a return button 67 for displaying the hidden component, and a component diagram display button for displaying a three-dimensional CAD component diagram of the selected component 68, a rotation button 69 for rotating the display direction of the virtual vehicle diagram 60 may be displayed. The component integration implementer 15 can change the display using each button. Further, there may be a button (not shown) or a menu (not shown) for instructing enlargement / reduction.
[0041]
FIG. 5 shows an example of a screen 71 in which the component integration operator 15 selects the outer plate 61 of the door unit with a pointer or the like so as to make the confirmation portion 62 visible, and hides it.
FIG. 6 shows a screen 72 in which the vicinity of the confirmation portion 62 is further enlarged and displayed.
FIG. 7 is a screen 73 on which the virtual vehicle diagram 60 is rotated on the screen so as to make the confirmation portion 62 easy to see, and the confirmation portion 62 and the vehicle body side outer plate as the related component 63 can be confirmed.
FIG. 8 shows a screen 74 on which the confirmation portion 63 is not displayed and the attachment portion of the confirmation portion 62 on the vehicle body side outer plate can be confirmed.
FIG. 9 shows a screen 75 on which the shape of the mounting member 64 under the vehicle body side outer plate can be checked while the vehicle body side outer plate 63 is further hidden.
As described above, since the parts of the virtual vehicle diagram 60 can be displayed or hidden so as to be disassembled on the screen, the part integration implementer 15 can check the parts to be integrated, the confirmation part 62, and the related parts 63, 64. Can be visually recognized.
[0042]
Further, the part integration implementer 15 reads out the three-dimensional CAD part drawing of the part to be integrated and the related part from the part drawing database and displays it on the display unit 12.
FIG. 10 shows an example of a screen 76 on which a three-dimensional CAD part diagram of the door part, which is the part to be integrated, is displayed. When a part further included in the door is selected on the three-dimensional CAD part drawing of the door, a three-dimensional CAD part drawing of the part may be displayed.
FIG. 11 shows an example of a three-dimensional CAD part drawing of a door attachment part as a related part.
The component integration implementer 15 can display the three-dimensional CAD component diagram of the integration destination component and the integration source component on the display unit 12, compare them, and confirm the difference. In addition, the component integration implementer 15 can display a three-dimensional CAD component diagram of the related component of the integration destination component and the related component of the integration source component on the display unit 12, compare the components, and confirm the difference.
Since the three-dimensional CAD part drawing is stored as electronic data, the operation unit 11 can automatically or by instruction compare the plurality of target three-dimensional CAD part drawings and display the different parts in an identifiable manner. it can.
Since the drawing can be displayed on the screen of the display unit 12, a space for expanding the drawing is not required. Furthermore, since the different part can be automatically extracted and displayed by the arithmetic part 11, it is possible to prevent the component integration operator 15 from overlooking the different part.
[0043]
The part integration implementer 15 examines whether the shape can be integrated with reference to the three-dimensional CAD part drawing of the integration destination part and the integration source part (St4). Specifically, it is confirmed whether the integration destination component includes the integration source component. Further, when there are a plurality of components to be integrated, the component integration implementer 15 may compare and compare different components to determine which component should be the integration destination component.
If integration is possible, the process proceeds to the next step (St5). If the integration is not possible, the process returns to step (St1), and the integration target component is changed and considered again, or the integration of the components is finished.
[0044]
If integration is possible, the component integration implementer 15 confirms that there is no legal or various regulatory problem even if the integration source component is integrated into the integration destination component (St5).
More specifically, in response to the input from the component integration implementer 15, the arithmetic unit 11 searches the type of the regulation of the integration source component from the parts list 40 and displays it on the display unit 12.
The part integration implementer 15 checks the contents of the applicable regulations and the like, and confirms that there is no problem even if the integration is performed. If conditions such as laws and regulations are stored in the database, the calculation unit 11 may be configured to check whether the conditions are satisfied.
If there is a problem in the case of integration due to regulations or the like, the process returns to step (St1) and the integration target component is changed and considered again, or the integration study is ended. If there is no problem in the case of integration in accordance with laws and regulations, the process proceeds to the next step (St6).
[0045]
Further, the component integration implementer 15 finally determines the integration destination component and the integration source component. This is because, when integrating a plurality of parts, there is a case where the part to be integrated is changed while studying. Furthermore, the part integration implementer 15 checks the effect of integrating the integration target parts that can be integrated using the parts list 40 and other parts information. Specifically, it is checked whether the inventory reduction amount and the cost effect by the integration are effective (St6). If there is no effect due to the integration, the process returns to step (St1), the integration target component is changed, and the examination is performed again. If there is an effect of the integration, the integration is determined, and an integration notification indicating information to be integrated is issued to the relevant department (St7). Thus, the integration work is completed.
[0046]
As described above, it is preferable to disassemble the virtual vehicle diagram on the screen and visually confirm the integration target component and the related component in order to more reliably confirm the related component. Further, it is preferable that the three-dimensional CAD part drawing can be displayed on the display unit 12 to perform the checking operation because the space for expanding the drawing can be reduced. Furthermore, it is preferable that the calculation unit 11 compares a plurality of three-dimensional CAD part drawings and extracts a different part in order to prevent oversight of the different part.
[0047]
Next, with reference to FIGS. 12 to 14, a procedure of a repair part integration support method of another embodiment will be described. The repair component integration support method of the present embodiment includes an integrated component selection stage (Sa), an integration study stage (Sb), and an integrated component confirmation stage (Sc).
[0048]
FIG. 12 shows a flow of the integrated component selection step (Sa).
FIG. 13 shows the flow of the integration study stage (Sb).
FIG. 14 shows the flow of the integrated component confirmation stage (Sc).
[0049]
First, the integrated component selection step (Sa) will be described with reference to FIG.
The component integration implementer 15 selects an item of a component that is likely to produce an effect by integration as an item of a component to be integrated (Sa1). Specifically, it is an item of a part for which an integration request is made, a part with many derived types, or a part with many model versions.
Using the terminal 10, the part integration implementer 15 searches the part list 40 for the same item as the selected integration target part but with a different model or a derived part (Sa 2). The searched parts are considered for integration.
[0050]
Alternatively, a search for a part having a different model or a derivative is performed by the part integration implementer 15 by selecting one or more of the item 42, the specification 44, the item information 41a of the part number 41, the model information 41b, and the derivative information 41c of the part list 40. May be specified and executed.
Further, any one or a plurality of specifications including the item 42, the specification 44 of the parts list 40, the item information 41a of the part number 41, the model information 41b, the derivative information 41c, and the like are selected by the component integration operator 15 and the operation unit 11 In some cases, parts may be searched and listed for each group having the same specification or the like. It is preferable to be listed for each of the same specifications or the like in order to determine in advance whether integration is possible.
Specifically, if components having the same other specifications but different coating specifications are extracted, it can be determined that there is a high possibility that the extracted components can be integrated.
Furthermore, the part information stored in the parts database 32 includes integrated information between specifications and models that are highly likely to be integrated, and the calculation unit 11 searches for integrated parts by referring to the integrated information. In some cases, it is possible to create a list by sequentially extracting components that are likely to be integrated. In this case, the integration can be examined in descending order of the possibility of the integration, and the working efficiency is improved, which is preferable.
[0051]
The part integration implementer 15 confirms the number of types of the searched parts (Sa3). When the number of component types is small, it is determined that the effect of integration is small, and the process may return to the selection of the integration target component (Sa1). If the number of component types is large, it is determined that the effect of integration is large, and the process may proceed to the next step.
Using the terminal 10, the component integration implementer 15 searches the part list for the application date of the extracted integration target component and displays it on the display unit 12 to confirm (Sa4). The part integration implementer 15 may be able to confirm a period during which the effect of integration occurs or a stock holding period depending on the age.
[0052]
Further, the component integration implementer 15 provisionally determines an integration destination component to be integrated from the extracted plurality of integration target components (Sa5). In some cases, a new age component is selected as the integration destination component. Alternatively, a high-grade part or a part having a shape including other parts is selected. In each of the examination stages, the integration destination component and the integration source component may be changed.
The component integration implementer 15 lists integration source components for integration destination components. This list may be listed for each selected specification or the like. The component integration implementer 15 can use the terminal 10 to select an integration destination component and list the integration source components.
Next, the process proceeds to the integration examination stage (Sb).
[0053]
With reference to FIG. 13, the integration study stage (Sb) will be described.
Using the terminal 10, the component integration implementer 15 displays a virtual vehicle diagram, which is a three-dimensional assembly diagram including the integration destination component, on the display unit 12 (Sb1). Specifically, when the component integration implementer 15 specifies the identifier (part number 41) of the integration destination component using the terminal 10, the specification information is transmitted from the terminal 10 to the drawing management server 20. . The drawing management server 20 accesses the parts management server 30 and searches the applicable parts type 43 from the parts list 40. Further, the drawing management server 20 searches the virtual drawing database for the vehicle type from the virtual drawing database and sends it to the terminal 10.
The terminal 10 displays the virtual vehicle map on the display unit 12.
Note that a virtual vehicle diagram of the integration source component or both virtual vehicle diagrams may be displayed instead of the virtual vehicle diagram of the integration destination component.
[0054]
The part integration implementer 15 confirms the integration destination part, the related parts of the integration destination part, and the relationship between them, based on the virtual vehicle diagram displayed on the display unit 12.
The method of confirming the relationship between the integration destination component and the related component of the integration destination component is the same as that described with reference to FIGS.
According to the above method, the component integration implementer 15 can visually check the related component, and can easily check the relationship between the integration destination component and the related component.
[0055]
Further, the component integration implementer 15 uses the terminal 10 to read out the three-dimensional CAD part drawing of the integration destination part or the related part from the part drawing database and to display it on the display unit 12 (Sb3). The display examples are the same as those in FIG. 10 and FIG. 11 described above, and a description thereof will be omitted.
[0056]
Further, the component integration implementer 15 selects the integration source component from the list created in step Sa6, and displays a three-dimensional CAD component diagram of the integration source component.
The part integration implementer 15 can compare the three-dimensional CAD part drawing of the integration destination part and one or a plurality of integration source parts selected from the list with the three-dimensional CAD part drawing of the integration destination part, and can confirm the difference. . In addition, the component integration implementer 15 can display a three-dimensional CAD component diagram of the related component of the integration destination component and the related component of the integration source component on the display unit 12, compare the components, and confirm the difference. In displaying the three-dimensional CAD part drawing, in response to the specification of the part identifier by the part integrating operator 15, the calculation unit 11 refers to the part list 40, extracts the drawing number 50 of the identifier, and This is performed by reading the CAD part drawing from the part drawing database. The component identifier specified by the component integration operator 15 may be the component displayed in the three-dimensional assembly drawing, but other specification methods such as character input are also possible.
Since the three-dimensional CAD part drawing is stored as electronic data, the calculation unit 11 can compare the plurality of three-dimensional CAD part drawings and display the different parts in an identifiable manner.
[0057]
Furthermore, the calculation unit 11 may recognize the difference, and may be able to display the possibility of integration by referring to the integration availability determination information included in the part information. When the integration possibility information is different, the integration availability determination information includes information on a portion having a high integration possibility and a portion having a low integration possibility.
Specifically, the calculation unit 11 has no difference in the outer frame shape of the compared integrated material part, and only includes a changeable specification such as a welding specification or a coating specification, or is included in the part. If only the members are different or the materials are different, it is indicated that there is a high possibility of integration.
Alternatively, if there is a difference in a part that cannot be integrated due to a difference in outer frame shape due to a relationship with another part (a part that is unlikely to be integrated), it is displayed that the possibility of integration is low.
[0058]
The component integration implementer 15 checks the difference between the integration destination component and the integration source component (Sb5). If there is no difference, the process proceeds to step Sb7. If there is a difference, it is determined whether one of the components includes the other and whether one is applicable to the other, in consideration of the relationship with the related component (Sb6). If integration is not possible, the process returns to step Sb4 to select a different integration source part.
[0059]
Further, there is a case where the calculation unit 11 calculates an efficient order of considering the integration.
Specifically, the calculation unit 11 creates a combination of groups having a high possibility of integration for each specification from a plurality of integration source parts and integration destination parts. The combination of groups having a high possibility of integration is created from the information of the different part with reference to the integration possibility determination information. When the integration possibility information is different, the integration possibility determination information includes information on a part or specification with high integration possibility and a part or specification with low integration possibility.
Further, the operation unit 11 may automatically calculate the effect of integration using the cost 49 and the stock information 52 of the parts list 40 for each combination of the created groups.
Since the component integration implementer 15 can examine from the combination having a high possibility of integration, the work efficiency is improved. Alternatively, the component integration implementer 15 can perform the examination in the descending order of the integration effect.
[0060]
Further, the calculation unit 11 may automatically compare the three-dimensional CAD part drawings of the integration source part and the integration destination part, and automatically determine which part should be changed least if integration of the parts is considered. Specifically, the calculation unit 11 may extract the same outer frame shape from a plurality of three-dimensional CAD part drawings and divide them into groups. Grouping the same outer frame shape is preferable because the integration work can be grouped together and the amount of work can be reduced in some cases.
[0061]
Furthermore, when applying the integration destination component to the integration source component, the component integration executor 15 checks whether there are any laws and regulations or other restrictions. The component integration implementer 15 can specify the identifier of the integration source component or the integration destination component, search the parts list 40 for laws and regulations applied to the component, and confirm the type of regulation to be checked ( Sb7).
If there is a problem with integration due to laws and regulations, the flow returns to step Sb4, and a different integration source part is selected.
As described above, it is examined whether a plurality of listed integration source components can be integrated with the integration destination component.
An integrated component confirmation step Sc is performed on the integration source component that can be integrated.
[0062]
With reference to FIG. 14, the integration study stage (Sc) will be described.
Using the terminal 10, the component integration implementer 15 can apply and display the three-dimensional CAD part diagram of the integration destination component to the virtual vehicle of the integration source component to be integrated (Sc1). The calculation unit 11 can automatically confirm whether there is no problem even if the integration destination component is applied to the virtual vehicle of the integration source component (Sc2). More specifically, the information includes the presence / absence of interference, the consistency of connection points, the movable state of the movable unit, and the like.
[0063]
If there is any problem in the interference, connection, and movement, the process returns to step Sb6 of the integration study step Sb.
[0064]
If there is no problem in the interference, connection, and movement, the component integration implementer 15 checks the effect of performing the integration (Sc3). The parts integration implementer 15 searches the parts list 40 for the cost 49, stock information 52, and other information of the integration source parts and the integration destination parts and displays them on the display unit 12 to confirm the effect of the integration.
By selecting the integration destination part and the integration source part, a program is created so that the operation unit 11 automatically calculates and displays the cost effect and the inventory reduction effect using the cost 49 and the stock information 52. And let it run. It is preferable to create a plurality of integration cases and to automatically calculate and compare the cost effect and the inventory reduction effect for each of them, in order to enhance the integration effect.
[0065]
If there is no effect due to the integration, the examination is terminated or the integration source part is determined again to examine the integration. The case where there is no effect due to the integration is exemplified when there is no merit in terms of cost when considering the number of manufactured parts and the number of inventories when integrating the parts into high-grade parts.
[0066]
If there is an effect of the integration, the component integration implementer 15 issues an integration notification to the relevant department.
This is the end of the integrated component confirmation step Sc.
[0067]
As described above, by automatically retrieving the integration target parts from the parts list, it is possible to reliably extract the study target. Further, it is possible to reduce the man-hour for the component integration implementer 15 to extract the study target.
Further, by confirming the number of types of components to be integrated, the component integration implementer 15 can examine components having a large number of types with a large integration effect.
Further, as described above, it is preferable to disassemble the virtual vehicle diagram and visually confirm the integration target component and the related component in confirming the related component.
Further, it is preferable that the three-dimensional CAD part drawing can be displayed on the display unit 12 to perform the checking operation, because a space for expanding the drawing is not required. Further, it is preferable that the calculation unit 11 extract the different part of the three-dimensional CAD part drawing in order to reduce the number of steps and to prevent the difference part from being overlooked.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a repair component integration support system.
FIG. 2 is a diagram illustrating an example of a parts list 40;
FIG. 3 is a flowchart illustrating a procedure of a repair parts integration support method.
FIG. 4 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 5 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 6 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 7 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 8 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 9 is an example of a screen on which a virtual vehicle diagram is displayed.
FIG. 10 is a diagram illustrating a screen on which a three-dimensional CAD part diagram of a door unit, which is a part to be integrated, is displayed.
FIG. 11 is a diagram showing a screen on which a three-dimensional CAD part diagram of a door attachment part, which is a related part, is displayed.
FIG. 12 is a flowchart showing a procedure of a repair part integration support method of another embodiment.
FIG. 13 is a flowchart illustrating a procedure of a repair parts integration support method according to another embodiment.
FIG. 14 is a flowchart illustrating a procedure of a repair parts integration support method according to another embodiment.
[Explanation of symbols]
10 terminals
11 Operation part
12 Display
13 Input section
15 Parts integration implementer
20 drawing management server
22 Drawing database
30 Parts management server
32 parts database
40 Parts list
41 Part number
42 items
43 Applicable models
44 Specifications
45s
46 Applicable countries
47 materials
48 Manufacturer
49 costs
50 drawing number
51 Types of laws and regulations
52 Stock Information
60 Virtual Vehicle Diagram
61 Door panel
62 Confirmation part
63 Related Parts
64 Related Parts
65 Parts series display
66 Hidden button
67 Return button
68 Parts drawing display button
69 rotation button
70-75 screen

Claims (11)

A database storing CAD part drawings of parts constituting the product, and a three-dimensional assembly drawing of the product created as a set of the part drawings;
A display unit capable of displaying the three-dimensional assembly drawing and the CAD part drawing;
An operation unit that, in response to the input, recognizes an integration target component to be integrated on the three-dimensional assembly drawing and controls the display unit to change the display of the integration target component to be identifiable;
Comprising,
Repair parts integration support system. A database storing CAD part drawings of parts constituting the product, and a three-dimensional assembly drawing of the product created as a set of the part drawings;
A display unit capable of displaying the three-dimensional assembly drawing and the CAD part drawing;
An operation unit that, in response to the input, recognizes an integration target component to be integrated on the three-dimensional assembly drawing and controls the display unit to change the display of the integration target component to be identifiable;
With
The three-dimensional assembly drawing includes information indicating a relationship between components included in the three-dimensional assembly diagram, and is displayed on the three-dimensional assembly diagram in a series showing a part of the relationship between the components included in the three-dimensional assembly diagram. Is displayed,
The arithmetic unit controls the display unit in response to a predetermined part being selected on the three-dimensional assembly drawing, so that the display of the part on the series display is identifiably changed.
Repair parts integration support system. Further, in response to the input, the arithmetic unit controls to hide the display of parts that do not need to be displayed on the three-dimensional assembly drawing, and displays the CAD part drawing of the part selected on the three-dimensional assembly drawing. Control to display, control to control the display unit so as to extract a related component having a connection relationship or a positional relationship that may interfere with the integration target component and change the display of the related component to be identifiable, or Incorporating at least one of the following: the integration destination part is integrated on the three-dimensional assembly drawing of the integration source part to be integrated; Do,
The repair parts integration support system according to claim 1 or 2. In response to the input, the computing unit displays the CAD part drawing of the part selected on the three-dimensional assembly drawing, and further compares the CAD part drawing of a plurality of integration target parts of the same type, Controlling the display unit to display the different part in an identifiable manner,
A repair parts integration support system according to claim 1. Furthermore, the storage unit stores component data including data that associates the component identifier with information of the component,
The component data includes information for associating the type of regulation applied to the component with the identifier, and the arithmetic unit responds to the selection of the component by displaying the display unit so as to display the type of regulation. Control to control, or
The part data includes the identifier, data for associating item information indicating the type of the item of the part indicated by the identifier with the specification of the part, and the arithmetic unit responds to the selection of the part, and Retrieving data, extracting the identifier of the same item as the selected part, and further extracting the identifier as the same item in response to a user selecting one or several of the specifications. , Grouping by the same selected specification,
Control at least one of
A repair parts integration support system according to any one of claims 1 to 4. Selecting a first repair component and a second repair component of the same type as the first repair component,
Displaying the first repair part on the three-dimensional assembly drawing created as electronic data so as to be identifiable;
Displaying a related part having a connection relation or a close relation with the first repair part on the three-dimensional assembly drawing;
Changing the display so that the relationship between the first repair parts and the related parts can be recognized,
Confirming the relationship between the different part and the related part,
Displaying a component diagram of the first repair component and a component diagram of the second repair component,
Comparing the part drawing of the first repair part and the part drawing of the second repair part, and detecting a different part,
From the relationship with the related parts, one of the first repair part and the second repair part, the other, to determine whether it is applicable,
including,
Repair parts integration support method. After the step of determining whether or not the part can be applied, the method further includes, after the application, a step of confirming that the part satisfies applicable regulations of a product in which the part is used.
A repair parts integration support method according to claim 6. Further, on the three-dimensional assembly drawing, hiding the display of the selected component so that the integration target component can be identified on a screen or the related component can be identified, including,
A repair parts integration support method according to claim 6. The step of displaying the related parts is such that, when the first repair parts are selected, parts having a connection relationship with the first repair parts are automatically extracted and displayed so as to be identifiable as the related parts. Including the step of
A repair parts integration support method according to any one of claims 6 to 8. Further, the three-dimensional assembly drawing includes movable information including a movable range of a movable part, and the step of displaying the related part automatically extracts a part which may cause interference due to movement, and Including a step of identifiably indicating the relevant part
A repair parts integration support method according to any one of claims 6 to 9. Displaying CAD component diagrams of a plurality of integration target components including the first repair component and the second repair component;
Comparing a plurality of the CAD parts drawings, and changing the display so that a different part between the first repair parts and the second repair parts can be identified;
Comparing a plurality of the CAD parts drawings and creating a group for each having the same designated specification;
The repair component integration support method according to any one of claims 6 to 10, further comprising:

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