JP6086880B2 - 3D design apparatus, method and program - Google Patents

Description

  The present invention relates to a 3D design apparatus, method, and program for generating a housing design in which design parts are arranged.

2. Description of the Related Art Conventionally, services for providing various products have been provided by allowing users to select or create product designs.
For example, Patent Document 1 discloses a system that stores information on compatible parts that are suitable for each part in association with each other, and designs a product design that is changed to a corrected part when the parts selected by the user are not compatible with each other. Proposed.

JP 2002-222215 A

  However, when the user selects a desired part in the design system, if it is determined that a part that cannot be combined after being placed is selected, the design will be reworked, which makes the operation complicated. It was.

  An object of this invention is to provide the 3D design apparatus, method, and program which can improve a user's convenience.

  A 3D design apparatus according to the present invention includes a template data including information on a designable area on a designated housing, a reading unit that reads design part data having arrangement conditions, and design part data that can be adapted to the arrangement conditions. And a display control unit that displays the extracted design part data in combination with the specified arrangement and enlargement ratio with respect to the specified template data, and the display control unit Controls not to accept designation of an arrangement or enlargement ratio that does not conform to the arrangement conditions.

  The template data and the design part data may include attribute information, and the arrangement condition may include a condition for determining whether or not to combine the attribute information.

  The arrangement condition may include at least one of a size, a position, a rotation, and a time limit for arranging the design part data.

  If the specified design part data placement or enlargement ratio does not match the placement condition, the display control unit deletes any of the design part data that has already been placed to delete the candidate to be adapted to the placement condition. May be presented.

  The 3D design apparatus may include a reception unit that receives input of new design part data.

  The 3D design apparatus includes a storage unit that stores a design pattern in which the template data and the design part data are combined, and the reading unit receives a selection of the design pattern, and the selection is performed instead of the template data. The design pattern may be read out.

  In the 3D design method according to the present invention, a computer control unit reads out template data including designable area information on a specified housing and design part data having arrangement conditions, and the arrangement conditions An extraction step of extracting design part data that can be adapted, and a display control step of displaying the extracted design part data in combination with the specified arrangement and enlargement ratio with respect to the specified template data. And in the display control step, control is performed so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement condition.

  The 3D design program according to the present invention includes a reading step of reading out template data including designable area information on a designated housing and design part data having arrangement conditions to a control unit of a computer, and the arrangement conditions An extraction step of extracting design part data that can be adapted, and a display control step of displaying the extracted design part data in combination with the specified arrangement and enlargement ratio with respect to the specified template data. In the display control step, control is performed so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement condition.

  According to the present invention, user convenience in 3D design is improved.

It is a figure which shows the structure of the 3D design system which concerns on embodiment. It is a figure which shows the function structure of the design server which concerns on embodiment. It is a figure which shows the 1st example of the footstep correction which concerns on embodiment. It is a figure which shows the 2nd example of the addition correction which concerns on embodiment. It is a sequence diagram which shows the process sequence which concerns on embodiment.

Hereinafter, an example of an embodiment of the present invention will be described.
FIG. 1 is a diagram illustrating a configuration of a 3D design system 1 according to the present embodiment.

  The 3D design system 1 includes a design server 10 (3D design device), a user terminal 20, a design DB 30, and an order receiving server 40. These devices are connected to each other via a network.

  The design server 10 is a server device that provides a 3D design service to the user terminal 20 via a network. The 3D design service is a service that provides a user with a design of accessories (for example, a case, a strap, an earphone jack, a stand, etc.) of a portable device such as a smartphone, and provides a 3D printed product. In this embodiment, as an example, a service for designing a case of a smartphone and performing 3D printing will be described.

  The user terminal 20 accesses the design server 10 and displays a design image generated by the design server 10 in response to an operation for creating a product design received from the user.

The design DB 30 is a database that the design server 10 refers to, and stores template data including information on designable areas on the housing of the product and design part data having arrangement conditions.
The design DB 30 may be included in the design server 10.

  The order receiving server 40 receives the product design generated by the design server 10 and processes it as a 3D print order.

FIG. 2 is a diagram illustrating a functional configuration of the design server 10 according to the present embodiment.
The design server 10 includes a reading unit 11, an extraction unit 12, a display control unit 13, a reception unit 14, and a storage unit 15. These functional units are realized by executing a predetermined program by the control unit of the design server 10.

  The reading unit 11 reads, from the design DB 30, template data including designable area information on the case housing that matches the model specified from the user terminal 20 and design part data having arrangement conditions.

  The template data and the design part data include, for example, attribute information for specifying a brand, character, or a type designated by the designer, and the arrangement condition for the design part includes a condition for determining whether or not the attribute information can be combined.

The arrangement conditions include conditions such as size, position, rotation, time limit, etc. when the design parts are arranged on the template.
The size condition means that the thickness and area resulting from enlarging or reducing the design parts are within the allowable range of arrangement on the template (thickness is below a predetermined value, not smaller than the mesh hole, etc.) ).
The position condition is, for example, that the position where the design part is arranged is limited to one of six surfaces or within a predetermined range.
The term of the deadline limits the date and time when the design part can be selected.

  As described above, the arrangement conditions are set in advance for each design part due to physical limitations in the 3D printing process or limitations on the balance of the design (not deviating from the designer's intention). In addition, as an arrangement condition for design parts, for example, when placing a design part on a curved template, it may be registered that addition correction is performed to fill the gap between the design part and the curved surface of the template.

FIG. 3 is a diagram illustrating a first example of the addition correction according to the present embodiment.
When the stamp 51 as a design part is arranged on the curved surface of the case 50 as a template, the legs 52a and 52b for filling the gap are provided perpendicular to the surface where the case 50 and the stamp 51 are in contact with each other. The

FIG. 4 is a diagram illustrating a second example of the addition correction according to the present embodiment.
When a stamp 51 as a design part is arranged in parallel to the reference ground on the curved surface of the case 50 as a template, a gap is formed as shown in (A) according to the positional relationship between the case 50 and the stamp 51. A plurality of footsteps 53a and 53b for filling the surface or a single footstep 54 as shown in FIG.

  In addition, although the number of footsteps is one or two for simplification of description, the shape and number of footsteps may be appropriately adjusted according to the shape of the template and the design part.

  The extraction unit 12 extracts design part data that can be adapted to the arrangement conditions. The extraction unit 12 selects and displays design parts that can be placed on the specified template, and further design parts that are allowed to be combined with templates and design parts that have already been placed, based on the placement conditions. Provided to the control unit 13.

  The display control unit 13 causes the user terminal 20 to display the combined design part data extracted from the template data designated by the user with the designated arrangement and enlargement ratio.

At this time, the display control unit 13 suppresses rework of the design by performing control so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement conditions.
For example, the display control unit 13 performs control such as changing the display color or displaying an error, or restricting the movement of the design part, or printing according to the expiration date as error processing when the layout condition is not met. -Restrict functions such as re-editing and preview.

  In addition, the display control unit 13 may be adapted to the arrangement condition by deleting any of the already arranged design part data if the arrangement or enlargement ratio of the designated design part data does not meet the arrangement condition. In this case, this deletion candidate is presented.

  The receiving unit 14 receives input of new design part data created by the user from the user terminal 20.

The storage unit 15 stores a design pattern in which template data and design part data are combined. The storage area may be included in the design server 10, or may be included in the design DB 30.
When receiving the selection of the design pattern, the reading unit 11 reads out the selected design pattern instead of the template data.

  FIG. 5 is a sequence diagram showing a processing procedure in the 3D design system 1 according to the present embodiment.

  In step S <b> 1, the user terminal 20 receives a specification of a model of a smartphone for creating a case from the user. The user terminal 20 transmits identification data of the designated model to the design server 10.

  In step S2, the design server 10 reads out from the design DB 30 templates and design parts that match the specified model based on the identification data received in step S1.

  In step S <b> 3, the design server 10 causes the user terminal 20 to display an editing screen for case design using the template and design parts read in step S <b> 2. Note that the editing screen may be displayed in 3D display, or may be performed in 2D display in order to simplify the design operation. In the case of 2D display, in order to make it possible to confirm the completed case design, a 3D display screen is provided so as to be switchable together with the edit screen or based on input to the edit screen displayed in 2D. The user may be able to confirm. In the 3D display, the one corrected for the addition is displayed.

  In step S4, the user terminal 20 designates a template and a design part according to a user operation. The user terminal 20 transmits the designated template and design part arrangement data to the design server 10.

  In step S5, the design server 10 determines whether or not the arrangement data received in step S4 meets the arrangement conditions. If this determination is YES, the process proceeds to step S6. On the other hand, if the determination is NO, the process moves to step S3, and an editing screen is displayed on the user terminal 20 together with an error display not accepting the user's designation.

  In step S <b> 6, the design server 10 narrows down design parts that may newly meet the placement conditions according to the designated template and design part placement.

  In step S7, the design server 10 causes the user terminal 20 to display an edit screen for case design using the design parts narrowed down in step S6.

  In step S <b> 8, the user terminal 20 determines whether or not a design decision is instructed by the user. If this determination is YES, the process proceeds to step S9, and if the determination is NO, the process proceeds to step S4. Although the design part designation is described here, it is also possible to accept the deletion of a design part that has already been placed in addition to the design part designation.

  In step S <b> 9, the user terminal 20 transmits instruction data for design determination to the design server 10.

  In step S <b> 10, the design server 10 generates order data based on the determined design and provides it to the order receiving server 40. Thereafter, the user accesses the order receiving server 40 from the user terminal 20 and performs a settlement procedure.

  According to the present embodiment, the design server 10 accepts only the arrangement and enlargement ratio of design parts that meet the arrangement conditions, thereby suppressing rework due to errors after design and improving the convenience for the user.

  The placement conditions include combinations of attribute information, design part size, position, rotation, time limit, and the like, and the design server 10 efficiently presents design candidates that can be placed based on these placement conditions. , User convenience can be improved.

  In addition, when an arrangement or enlargement ratio that does not conform to the arrangement condition is designated, the design server 10 presents deletion candidates so as to conform to the arrangement condition by deleting other design parts that have already been arranged. To do. Thereby, the range of design selection is expanded, and the convenience for the user is improved.

Furthermore, since the design server 10 receives an input of a new design part from the user terminal 20, it is possible to employ a part created by the user and improve the degree of freedom of design.
The design server 10 can store the created design pattern and provide it instead of the template. Therefore, a user can efficiently create a design based on a pattern created by another user or designer.

  As mentioned above, although embodiment of this invention was described, this invention is not restricted to embodiment mentioned above. Further, the effects described in the present embodiment are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are not limited to those described in the present embodiment.

  In the present embodiment, the design server 10 performs layout and display control of design parts based on an instruction from the user terminal 20, but the user terminal 20 may include the above-described functions.

  The 3D design method by the 3D design system 1 is realized by software. When realized by software, a program constituting the software is installed in the information processing apparatus (design server 10 or user terminal 20). These programs may be recorded on a removable medium such as a CD-ROM and distributed to users, or may be distributed by downloading to a computer via a network. Furthermore, these programs may be provided to a computer as a Web service via a network without being downloaded.

1 Design System 10 Design Server (3D design equipment)
DESCRIPTION OF SYMBOLS 11 Reading part 12 Extraction part 13 Display control part 14 Reception part 15 Storage part 20 User terminal 30 Design DB

Claims (8)

A reading unit that reads out template data including information on a designable area on a specified housing and design part data having arrangement conditions;
An extraction unit for extracting design part data that can be adapted to the arrangement conditions;
For the designated template data, selection from the extracted design part data and designation of the arrangement and enlargement ratio are accepted , and the selected design part data is displayed in combination with the designated arrangement and enlargement ratio. A display control unit,
The 3D design apparatus that controls the display control unit so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement condition. The template data and the design part data include attribute information,
The 3D design apparatus according to claim 1, wherein the arrangement condition includes a condition for determining whether or not to combine the attribute information.   The 3D design apparatus according to claim 1, wherein the arrangement condition includes at least one of a size, a position, a rotation, and a time limit for arranging the design part data.   If the specified design part data placement or enlargement ratio does not match the placement condition, the display control unit deletes any of the design part data that has already been placed to delete the candidate to be adapted to the placement condition. The 3D design apparatus according to any one of claims 1 to 3, which presents   The 3D design apparatus according to any one of claims 1 to 4, further comprising a reception unit that receives input of new design part data. A storage unit for storing a design pattern in which the template data and the design part data are combined;
6. The 3D design apparatus according to claim 1, wherein the reading unit receives selection of the design pattern and reads the selected design pattern instead of the template data. 7. The computer controller
A reading step of reading out template data including information on a designable area on a specified housing and design part data having arrangement conditions;
An extraction step of extracting design part data that can be adapted to the arrangement conditions;
For the designated template data, selection from the extracted design part data and designation of the arrangement and enlargement ratio are accepted , and the selected design part data is displayed in combination with the designated arrangement and enlargement ratio. Display control step, and
In the display control step, a 3D design method for performing control so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement condition. In the control part of the computer,
A reading step of reading out template data including information on a designable area on a specified housing and design part data having arrangement conditions;
An extraction step of extracting design part data that can be adapted to the arrangement conditions;
For the designated template data, selection from the extracted design part data and designation of the arrangement and enlargement ratio are accepted , and the selected design part data is displayed in combination with the designated arrangement and enlargement ratio. Display control step, and
In the display control step, a 3D design program for performing control so as not to accept designation of an arrangement or an enlargement ratio that does not conform to the arrangement condition.

Images