JP2009294804A - Molding manufacturing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a three-dimensional manufacture molding manufacturing system for manufacturing a three-dimensional molding model such as geography and a building designated by a user based on the information of a user by simple configurations. <P>SOLUTION: This molding manufacturing system 10 is provided with terminal equipment 110 for acquiring user information and a molding manufacturing center 200 for receiving user information from the terminal equipment through a network, wherein the terminal equipment 110 is provided with an input part 120 for inputting user information and a communication part 130 for transmitting user information input by the input part through the network to the molding manufacturing center. The molding manufacturing center 200 is provided with a communication part 210 for receiving user information from the terminal equipment; a processing part 230 for creating molding data based on the user information received by the communication part 210; a molding part 241 for manufacturing a three-dimensional molding model based on the molding data created by the processing part 230; and a shipping part 250 for providing the three-dimensional molding model created by the molding part 241 to the user. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a modeling production system for producing a three-dimensional modeling model based on user information, and in particular, a modeling production system for producing a three-dimensional modeling model at a modeling production center via a network from terminal devices arranged in various places. It is about.

Conventionally, for example, a three-dimensional modeling model in which a topographic map or a building is three-dimensionalized is purchased as an off-the-shelf product displayed at a store, or one that is exhibited in mail order or online shopping.
In addition, a humanoid three-dimensional modeling model that imitates the user can be produced by using, for example, a three-dimensional modeling machine.

  Furthermore, the eyeglass frame is selected from among the commercially available ones having an appropriate size and a desired design in consideration of the user's own facial contours, inter-pupil distance, and the like.

  However, in the case of a three-dimensional model of a topographic map, it is limited to famous mountains, for example, and there are few types, and it is difficult to obtain a three-dimensional model of a desired area.

  In addition, in the case of a 3D model of a building, it is limited to famous buildings, for example. If you want to obtain a 3D model of your home, it will be an expensive custom-made item or your own work, and it is generally difficult to obtain it. It is.

  Furthermore, in the case of a humanoid 3D modeling model, a measuring machine that acquires 3D data of the entire human body is large and expensive, and the 3D modeling machine is also expensive, making it easy for individuals. It was impossible to use.

  In addition, since the eyeglass frame is selected based on the design and size from among the ready-made products, it is difficult to select a size that is perfect for the user himself. Met.

  In view of the above points, the present invention is based on the user's information with a simple configuration, for example, the terrain specified by the user, the building or the user's own three-dimensional modeling model, or the size that fits the user exactly An object of the present invention is to provide a three-dimensional modeling production system capable of producing a three-dimensional modeling model such as a spectacle frame.

  The above object, according to the present invention, is arranged in various places, has a terminal device that obtains user information and a modeling production center that receives user information from the terminal device via a network, A modeling production system that generates modeling data based on user information from a terminal device, generates a three-dimensional modeling model from the modeling data, and provides the model to the user. The terminal device inputs the user information. And a communication unit that transmits the user information input at the input unit to the modeling production center via the network, and the modeling production center is used from the terminal device via the network. A communication unit that receives the user information, a processing unit that generates modeling data based on the user information received by the communication unit, and a three-dimensional modeling model based on the modeling data generated by the processing unit. And shaping part of making the Le, is a three-dimensional molded model manufactured by the shaping part is achieved by shaping preparation system, characterized in that it comprises a and a dispatch unit to provide to the user.

  In the modeling production system according to the present invention, preferably, the user information is modeling target identification information specified by the user and user identification information specifying the user, and the processing unit of the modeling manufacturing center is a modeling target. Based on the identification information, modeling data to be modeled is generated, and the sending unit of the modeling production center provides the user with the three-dimensional modeling model based on the user identification information.

  In the modeling manufacturing system according to the present invention, preferably, the processing unit of the modeling manufacturing center reads modeling data from the modeling data server via the network based on the modeling target identification information.

  In the modeling manufacturing system according to the present invention, preferably, the user information is measurement information related to the user and user identification information for specifying the user, and the processing unit of the modeling manufacturing center performs modeling based on the measurement information. The target modeling data is created by calculation, and the modeling unit creates a three-dimensional modeling model based on the modeling data, and further, based on the measurement information, at least a part of the surface of the three-dimensional modeling model. An image is formed, and the sending unit of the modeling production center provides a three-dimensional modeling model to the user based on the user identification information.

  In the modeling production system according to the present invention, preferably, the modeling object identification information includes designation information selected by the user, and the processing unit of the modeling production center corresponds to the designation information based on the designation information of the modeling object identification information. The second modeling data to be read is read out and added to the modeling data to generate new modeling data, and the sending unit of the modeling production center provides the user with the three-dimensional modeling model based on the user identification information.

  In the modeling manufacturing system according to the present invention, preferably, the processing unit of the modeling manufacturing center reads the second modeling data from the modeling data server via the network.

  In the modeling production system according to the present invention, preferably, the user information is measurement information related to the user, designation information selected by the user, and user identification information for identifying the user, and the modeling production center Has a processing part and an assembly part that incorporates the processed part processed by the processing part into the 3D modeling model, the processing part processes the processed part based on the specified information, and the assembly part is processed by the processing part. The part is incorporated into the three-dimensional modeling model produced by the modeling unit, and the dispatch unit of the modeling production center provides the user with the three-dimensional modeling model based on the user identification information.

  In the modeling production system according to the present invention, the terminal device is preferably arranged in the store, and the shipping unit delivers the three-dimensional modeling model to the store used by the user or the store designated by the user.

  According to the above configuration, when the user information is input from the input unit of the terminal device, the communication unit of the terminal device transmits the user information to the modeling production center via the network. Thereby, the communication part of a modeling production center receives the user information sent via a network from a terminal device, and outputs it to the process part. And the processing part of a modeling production center produces | generates modeling data of a three-dimensional modeling model based on this user information, and outputs it to a modeling part.

  The modeling unit of the modeling manufacturing center generates a three-dimensional modeling model corresponding to the user information based on the modeling data, and sends it to the shipping unit. Finally, the dispatch unit of the modeling production center provides the completed three-dimensional modeling model to the user by delivery or the like.

  Thus, the user can obtain a three-dimensional modeling model corresponding to the user information created at the modeling production center by inputting the user information from the terminal device.

  Therefore, the user does not need to perform modeling data generation processing for creating the three-dimensional modeling model or modeling by the three-dimensional modeling machine, and can easily obtain the three-dimensional modeling model.

  The user information is modeling object identification information specified by the user and user identification information for specifying the user, and the processing unit of the modeling production center generates modeling data of the modeling object based on the modeling object identification information. When the sending unit of the modeling production center provides the user with the three-dimensional modeling model based on the user identification information, the user can identify the modeling target such as terrain or building by using the input unit of the terminal device. In addition to specifying information, user identification information is input. Thereby, a terminal device transmits modeling object identification information and user identification information with respect to a modeling production center via a network.

  In response to this, the processing unit of the modeling production center generates modeling data such as the terrain that is the modeling target and the building based on the modeling target identification information, and the modeling unit of the modeling manufacturing center generates the terrain based on the modeling data. Create a 3D modeling model of a building. Therefore, the user can easily obtain a three-dimensional modeling model such as a desired terrain or a building.

  When the processing unit of the modeling production center reads the modeling data from the modeling data server via the network based on the modeling target identification information, the modeling data of the modeling target such as terrain and building is registered in the modeling data server in advance. This eliminates the need for the modeling production center itself to register these modeling data in the storage unit, thereby reducing the burden on the modeling production center.

  The user information is measurement information related to the user and user identification information for identifying the user, and the processing unit of the modeling production center creates modeling data for modeling based on the measurement information, and performs modeling. The part creates a three-dimensional modeling model based on the modeling data, and further forms an image of the user on at least a part of the surface of the three-dimensional modeling model based on the measurement information. When providing a 3D modeling model to the user based on the user identification information, for example, by inputting measurement information such as 3D data of the user's body from the input unit of the terminal device, the user While creating a 3D modeling model that embodies itself easily, an image of the user's own face is formed on a part of the 3D modeling model, for example, the face portion, and the so-called FIG. It is possible to fabricate a AMODEL.

  The modeling target identification information includes the designation information selected by the user, and the processing unit of the modeling production center reads the second modeling data corresponding to the designation information based on the designation information of the modeling target identification information, and creates the modeling data. In addition to generate new modeling data, when the shipping unit of the modeling production center provides the user with a three-dimensional modeling model based on the user identification information, for the user's own figure model, For example, a ficure model such as a character or an animal can be added based on the designation information.

  When the processing unit of the modeling production center reads the second modeling data from the modeling data server via the network, for example, the second modeling data relating to various characters registered in the modeling data server is easily acquired. Can do.

  User information is measurement information about the user, specified information selected by the user, and user identification information for specifying the user, and the fabrication part is processed by the processing unit and the processing unit. A three-dimensional modeling model in which the processing unit processes the processed part based on the designation information, and the assembly unit processes the processed part processed by the processing unit by the modeling unit. When the 3D modeling model is provided to the user based on the user identification information, for example, from the lens data that gives the user's head shape etc. and appropriate corrected visual acuity Based on the measurement information and the design information of the spectacle frame based on the measurement information and designation information of the user's head shape etc. A spectacle frame as a 3D modeling model that exactly matches the contour of the user's face is created, and the processing unit processes the lens selected according to the lens data according to the spectacle frame, and the assembly unit forms the spectacle frame. Glasses are completed by incorporating processed lenses. Therefore, the user can obtain glasses having a desired design and matching the contour of his / her face.

  When the terminal device is placed in the store and the shipping unit delivers the 3D modeling model to the store used by the user or the store designated by the user, the user goes to the store and goes to the terminal By inputting user information from the input unit of the device, a 3D modeling model can be ordered and a completed 3D modeling model can be received at a store.

  In this way, according to the present invention, based on the user information with a simple configuration, for example, the terrain specified by the user, the building or the user's own 3D modeling model, or the size that fits the user exactly 3D modeling models such as eyeglass frames can be made.

Hereinafter, the present invention will be described in detail based on the embodiments shown in the drawings.
[First embodiment]
FIG. 1 shows a configuration of a first embodiment of a modeling production system according to the present invention.

  In FIG. 1, the modeling production system 10 includes a modeling production system 200 and a map providing center 400 as a modeling data server, and the user 100 uses these via the terminal device 110 and the network 300. In FIG. 1, only one user 100 is illustrated, but the number is not limited to one.

  The network 300 is a general public line network or dedicated line network including an Internet, an analog and a digital mobile phone, a wireless network that connects the modeling production center 200 and the map providing center 400 and the terminal device 110 of each user 100 to each other. A network such as a LAN, specifically a network that provides an Internet connection service under a predetermined protocol environment such as TCP / IP, and provides the Internet connection service.

The user 100 accesses the map providing center 400 using the terminal device 110, selects a modeling preparation target such as a terrain or a building to be modeled, and the modeling modeling center 200 performs a three-dimensional modeling model on the selected modeling preparation target. Can access the modeling preparation center 200 and the map providing center 400 via the network 300, and can access the Web site provided by the modeling preparation center 200 and the map providing center 400.
Here, as the terminal device 110, various information terminal devices including a personal computer, a mobile phone, and a PHS can be used.

  The terminal device 110 includes an input unit 120 such as a keyboard and a mouse and a communication unit 130 for connecting to the network 300 in addition to a main body and a display unit (not shown). Then, the terminal device 110 displays the map providing Web page on the display unit by accessing the map providing center 400 via the network 300.

  Here, when a certain position on the Web page is clicked by the user 100, the map providing center 400 transmits position information 401 regarding the position to the terminal device 110 via the network 300. The terminal device 110 transmits this position information as modeling object identification information 111 to the modeling production center 200 via the network 300.

  At that time, the terminal device 110 transmits the user identification information 112 to the modeling production center 200 at the same time as transmitting the modeling object identification information 111. The user identification information 112 is information for identifying the user such as the name and address of the user 100 and includes at least information necessary for receiving the completed three-dimensional modeling model.

  The map providing center 400 is composed of information processing devices such as workstations and servers provided at appropriate locations, and an existing map providing site can be used.

  The map providing center 400 provides a map as a web page to the terminal device 110 of the user 100 who has accessed via the network 300, and corresponds to the command from the terminal device 110 and the location and The map screen is transmitted to the terminal device 110 of the user 100 via the network 300 at a reduced scale.

  Further, the map providing center 400 transmits position information 401 corresponding to the clicked position to the terminal device 110 of the user 100 via the network 300 based on the selection by clicking from the terminal device 110.

  The modeling production center 200 includes information processing apparatuses such as workstations and servers provided at appropriate locations, and includes a communication unit 210, a storage unit 220, a processing unit 230, a modeling unit 240, and a shipping unit. 250.

  The processing in the management center 200 is executed by a computer such as a server or workstation controlled by a program, and a recording medium such as a magnetic disk, a semiconductor memory, or any other computer-readable medium is used. Is done. In addition, the program recorded on the recording medium may be read by the computer directly by mounting the recording medium on the computer, or may be read by the computer via various networks.

  The communication unit 210 transmits the input guidance information 211 registered in advance to the terminal device 110 of the user 100 that has accessed via the network 300, and presents it on the screen of the display unit of the terminal device 110. The modeling object identification information 111 and the user identification information 112 sent from the terminal device 110 are received and registered in the storage unit 220 and sent to the processing unit 230. The input guidance information 211 may be registered in the communication unit 210 or may be registered in the storage unit 220 described later.

  Here, the input guidance information 211 includes input fields for items such as user identification information 112 such as the name, address, and telephone number of the user 100 and an e-mail address. By being transmitted to 100 terminal devices 110, it is presented on the screen of the display unit of the terminal device 110.

  Then, on the screen of the display unit of the terminal device 110, each input column of the input guidance information 211 is input from the input unit 120 by the user 100. Thereby, the terminal device 110 transmits the input contents of these input items, that is, the user identification information 112 to the modeling production center 200 via the network 300 together with the modeling target identification information 111.

  When the processing unit 230 of the modeling production center 200 receives the modeling target identification information 111 from the communication unit 210, based on the modeling target identification information 111, modeling data 231 such as terrain or building that is a modeling target by data conversion, for example, Three-dimensional CAD data is generated.

  At that time, the processing unit 230 accesses the map providing center 400 via the communication unit 210 and the network 300 as necessary, and reads the contour line data of the terrain necessary for generating modeling data. Alternatively, the processing unit 230 may access the data provider related to the building via the communication unit 210 and the network 300 as necessary, and read the detailed data of the building. The topographic contour data and the detailed building data described above may be registered in advance in the storage unit 220 of the modeling production center 200.

  Subsequently, the processing unit 230 of the modeling production center 200 outputs the generated modeling data 231 to the modeling unit 240. As a result, the modeling unit 240 creates a three-dimensional modeling model 241 such as a terrain or a building to be modeled based on the three-dimensional CAD data as the modeling data 231 and conveys it to the sending unit 250.

  The shipping unit 250 reads the corresponding user identification information 112 from the storage unit 220 with respect to the 3D modeling model 241 created by the modeling unit 240 and creates a shipping slip 251, and the 3D modeling based on the shipping slip 251. The model is shipped to the user 100. In this case, the delivery destination may be the home of the user 100 or a place designated by the user 100, or a delivery place such as a store prepared on the modeling production center 200 side.

The modeling production system 10 according to the embodiment of the present invention is configured as described above, and the operation thereof will be described with reference to the flowchart of FIG.
First, in step ST <b> 1, the user 100 accesses the map providing center 400 via the network 300 using the terminal device 110.
In step ST <b> 2, the user 100 displays a map including a desired terrain while viewing the screen displayed on the display unit of the terminal device 110. Here, in step ST <b> 3, the user 100 clicks a desired terrain portion for which a three-dimensional modeling model is desired.

  Subsequently, in step ST <b> 4, the map providing center 400 transmits position information 401 regarding the clicked terrain portion to the terminal device 110 of the user 100 via the network 300.

  In response to this, after receiving the position information 401 described above, the user 100 accesses the modeling production center 200 via the network 300 in step ST5, and receives input from the modeling production center 200 in step ST6. In accordance with the guidance screen based on the guidance information 211, input is made in the respective input fields.

  In step ST <b> 7, the terminal device 110 transmits the position information 401 as the modeling target identification information 111 and the input information in each input column of the guidance screen as the user identification information 112 to the modeling manufacturing center 200 via the network 300. .

  In step ST8, the communication unit 210 of the modeling manufacturing center 200 associates the modeling target identification information 111 from the terminal device 110 of the user 100 and the user identification information 112 and registers them in the storage unit 220, and in step ST9, the modeling target identification. Information 111 is sent to the processing unit 230.

  In step ST10, the processing unit 230 of the modeling production center 200 performs data conversion based on the modeling target identification information 111, and generates modeling data 231 such as terrain and buildings that are modeling targets, that is, for example, three-dimensional CAD data. To the modeling unit 240.

  In response to this, in step ST <b> 11, the modeling unit 240 of the modeling production center 200 performs the three-dimensional modeling of a modeling target such as a terrain or a building designated by the user 100 based on the three-dimensional CAD data as the modeling data 231. A model 241 is produced and conveyed to the shipping unit 250.

Finally, in step ST <b> 12, the dispatch unit 250 of the modeling production center 200 reads the corresponding user information 112 from the storage unit 220 regarding the three-dimensional modeling model 241 from the modeling unit 240, and based on the user information 112. The shipping slip 251 is prepared, and the shipping slip is attached to the three-dimensional modeling model 241 and shipped to the user 100.
As described above, the 3D modeling model 251 to be modeled such as the terrain and the building selected by the user 100 is delivered to the user 100.

[Second Embodiment]
FIG. 3 shows the configuration of the second embodiment of the modeling production system according to the present invention.
In FIG. 3, the modeling production system 20 has the same configuration as the modeling production system 10 shown in FIG. 1, and the same components are denoted by the same reference numerals and description thereof is omitted.

  Here, the modeling production system 20 includes a terminal device 510 in a store 500 of a store 500 provided at an appropriate place, instead of the terminal device 110 of the modeling production system 10 shown in FIG. 200 includes a finishing unit 260 and the map providing center 400 is omitted, and the configuration is different from that of the modeling production system 10 in FIG.

  The terminal device 510 of the store 500 includes an input unit 520 such as a keyboard and a mouse and a communication unit 530 connected to the network 300 as well as the terminal device 110 in the modeling production system 10 of FIG. 540.

  The measurement unit 540 acquires, for example, three-dimensional data 541 of the whole body of the user 100 as measurement information of the user 100 by, for example, laser scanning or the like, and images of the whole body of the user 100 by, for example, a CCD camera. Data 542 is imaged.

  Subsequently, the terminal device 110 transmits the three-dimensional data 541 and the image data 542 obtained by the measurement unit 540 to the modeling production center 200 via the network 300 as the modeling target identification information 111.

  The processing unit 230 of the modeling production center 200 generates modeling data 231 that is three-dimensional CAD data by data conversion based on the three-dimensional data 541 in the modeling target identification information 112 obtained via the communication unit 210.

  Further, the modeling unit 240 of the modeling manufacturing center 200 generates a three-dimensional modeling model 241 of the whole body image (figure) of the user 100 that is a modeling target based on the modeling data 231.

The finishing unit 260 of the modeling production center 200 applies, for example, a photosensitive agent to at least a part thereof, for example, a face part, and uses the three-dimensional modeling model 241 produced by the modeling unit 240 based on the corresponding image data 542, for example. Image data of at least a part of the person 100, for example, a face part is prepared, an image based on the image data is irradiated on the face part of the three-dimensional modeling model 241, and a photosensitive agent is exposed and developed.
Thereby, the face photograph of the user 100 is provided on the face portion of the three-dimensional modeling model 241.

  In addition, by applying a photosensitizer to the entire 3D modeling model 241 and irradiating the 3D modeling model 241 with an image of a whole body photograph of the user 100, the entire 3D modeling model 241 is exposed to the user 100. You may make it provide a whole body photograph including clothes.

  Next, operation | movement of the modeling preparation system 20 mentioned above is demonstrated with reference to the flowchart of FIG.

  In FIG. 4, first, in step ST <b> 21, the user 100 goes to the store 500, and the three-dimensional data 541 and image data 542 of the whole body of the user 100 are acquired by the measurement unit 540 of the terminal device 510.

  In step ST22, the user 100 accesses the modeling production center 200 via the network 300 using the terminal device 510, and inputs each of them according to the guidance screen by the input guidance information 211 sent from the modeling production center 200 in step ST23. Fill in the fields.

  Thereby, in step ST24, the terminal device 510 uses the three-dimensional data 541 and the image data 542 as the modeling object identification information 111, and the input information in each input column of the guidance screen as the user identification information 112 via the network 300. To the modeling production center 200.

  In step ST25, the communication unit 210 of the modeling manufacturing center 200 registers the modeling target identification information 111 and the user identification information 112 from the terminal device 510 of the store 500 in association with each other in the storage unit 220, and in step ST26, the modeling target. The identification information 111 is sent to the processing unit 230.

  Subsequently, in step ST27, the processing unit 230 of the modeling production center 200 performs data conversion based on the modeling target identification information 111, and the modeling data 231 of the whole body of the user 100 that is the modeling target, that is, for example, three-dimensional CAD. Data is generated and sent to the modeling unit 240.

  In response to this, in step ST <b> 28, the modeling unit 240 of the modeling manufacturing center 200 generates and finishes the three-dimensional modeling model 241 of the user 100 itself based on the three-dimensional CAD data as the modeling data 231. To the unit 260.

  Next, in step ST <b> 29, the finishing unit 260 of the modeling production center 200 relates to the three-dimensional modeling model 241, which is a whole body image of the user 100 created by the modeling unit 240, with a photosensitive agent on at least a part thereof, for example, the face portion. Apply.

  Subsequently, in step ST <b> 30, the finishing unit 260 of the modeling production center 200 creates image data of at least a part of the user 100, for example, a face part, based on the corresponding image data 542.

  After that, in step ST31, the finishing unit 260 of the modeling production center 200 irradiates the face portion of the three-dimensional modeling model 241 with an image based on this image data, and exposes and develops the photosensitive agent. Thereby, the face photograph of the user 100 is provided on the face portion of the three-dimensional modeling model 241. Then, the finishing unit 260 conveys the infected 3D modeling model 241 to the shipping unit 250.

Finally, in step ST <b> 32, the sending unit 250 of the modeling production center 200 reads the corresponding user information 112 from the storage unit 220 regarding the three-dimensional modeling model 241 from the finishing unit 260, and based on this user information 112. The shipping slip 251 is prepared, and the shipping slip is attached to the three-dimensional modeling model 241 and shipped to the user 100.
As described above, the three-dimensional modeling model 251 that is a whole body image of the user 100 is delivered to the user 100.

  In the modeling production system 20 described above, the case where the three-dimensional modeling model 251 of the whole body image of the user 100 is produced has been described, but as this application example, the whole body image of the user 100 and, for example, an image of a caclata are arranged side by side. It is also possible to produce an integrated three-dimensional modeling model 251.

  In this case, the user 100 designates a desired character using the input unit 520 of the terminal device 510 of the store 500, and the network 300 uses the designation information 511 as the modeling target identification information 111 together with the three-dimensional data 541 and the image data 542. To the modeling production center 200.

  Further, based on the designation information 511, the processing unit 230 of the modeling production center 200 accesses a modeling data server (not shown) that is the provider of the caclata via the storage unit 220 or the network 300, and the character The modeling data (second modeling data) 232 is read out.

  Then, the processing unit 230 of the modeling production center 200 adds the second modeling data 232 to the modeling data 231 relating to the whole body image of the user 100 itself, and outputs the new modeling data 231 to the modeling unit 240. To do. Thereby, the modeling part 240 produces the three-dimensional modeling model 241 in which the whole body image of the user 100 and the character image are combined.

  Further, the shipping unit 250 of the modeling production center 200 sends the completed three-dimensional modeling model 241 to the home of the user 100 or a place designated by the user 100 based on the user identification information 112, or to the user. Ships to the store 500 where the 100 goes. Therefore, the user 100 can obtain the three-dimensional modeling model 251 in which the whole body image of the user 100 and the desired character are aligned and integrated.

[Third embodiment]
FIG. 5 shows the configuration of the third embodiment of the modeling production system according to the present invention.
In FIG. 5, the modeling production system 30 has the same configuration as the modeling production system 20 shown in FIG. 3, and the same components are denoted by the same reference numerals and description thereof is omitted.

  Here, the modeling production system 30 is different from the modeling production system 20 shown in FIG. 3 in the following points. That is, the measurement unit 540 in the terminal device 510 of the store 500 generates the measurement information 541 by measuring the detailed shape of the head of the user 100, that is, the contour of the face, the shape of the nose, and the like. In addition, the input unit 520 of the terminal device 510 includes specification data 511 including separately measured lens data that gives an appropriate corrected visual acuity of the user 100, the distance between pupils, and the like, and the design and color of the eyeglass frame specified by the user 100. Is entered as

  On the other hand, the processing unit of the modeling production center 200 accesses a modeling data server (not shown) that is a provider of the spectacle frame design via the storage unit 220 or the network 300 based on the designation information 511. Then, the numerical data 233 relating to the spectacle frame corresponding to the designation information 511 is read.

Then, the processing unit 230 of the modeling production center 200 performs calculation in consideration of the inter-pupil distance and the measurement information 511 included in the designation information 511 based on the numerical data 233 to generate the modeling data 231, and the modeling unit Output to 240.
As a result, the modeling unit 240 creates a spectacle frame as the three-dimensional modeling model 241 based on the modeling data 231.

  Furthermore, the modeling production center 200 includes a processing unit 270 that processes the spectacle lens, and an assembly unit 280 that incorporates the spectacle lens into the spectacle frame, instead of the finishing unit 260. The processing unit 270 processes the spectacle lens based on the lens data included in the designation information 511 and conveys the spectacle lens to the assembly unit 280.

  In addition, the assembly unit 280 of the modeling production center 200 performs assembly adjustment as glasses by incorporating the spectacle lens processed by the processing unit 270 with respect to the spectacle frame as the three-dimensional modeling model manufactured by the modeling unit 240. Transport to shipping section 250.

  Next, operation | movement of the modeling preparation system 30 mentioned above is demonstrated with reference to the flowchart of FIG.

  First, in step ST41, the user 100 goes to the store 500, and the three-dimensional data 541 relating to the head shape of the user 100 is acquired by the measurement unit 540 of the terminal device 510.

  In step ST42, the user 100 accesses the modeling production center 200 by the terminal device 510 via the network 300. In step ST43, the user 100 follows the guidance screen based on the input guidance information 211 sent from the modeling production center 200. In addition to inputting into each of the input fields, lens data that gives an appropriate corrected visual acuity and design information 511 such as the design and color of the spectacle frame are input.

  In step ST44, the terminal device 510 uses the three-dimensional data 541 as the modeling object identification information 111, and the input information in each input column of the guidance screen as the user identification information 112 and the designation information 511, thereby creating the modeling via the network 300. Send to center 200.

  Therefore, the communication unit 210 of the modeling production center 200 registers the modeling target identification information 111, the user identification information 112, and the designation information 511 from the terminal device 510 of the store 500 in association with each other in the storage unit 220 in step ST45. In step ST46, the modeling object identification information 111 and the designation information 511 are sent to the processing unit 230.

  In step ST <b> 47, the processing unit 230 of the modeling production center 200 acquires numerical data of the spectacle frame that is a modeling target from a modeling data server (not shown) based on the modeling target identification information 111, performs data conversion, and performs three-dimensional conversion. Modeling data 231 that is CAD data is generated and sent to the modeling unit 240.

  In response to this, in step ST <b> 48, the modeling unit 240 of the modeling manufacturing center 200 generates a three-dimensional modeling model 241 of the eyeglass frame suitable for the user 100 based on the modeling data 231 and transports it to the assembling unit 280. To do.

  On the other hand, in step ST <b> 49, the processing unit 270 of the modeling production center 200 processes the eyeglass lens 271 based on the lens data included in the designation information 511 and conveys it to the assembly unit 280.

  Subsequently, in step ST50, the assembling unit 280 of the modeling production center 200 incorporates the spectacle lens 271 processed by the processing unit 270 into the spectacle frame of the three-dimensional modeling model 241 manufactured by the modeling unit 240, and performs assembly adjustment. And the glasses as the completed three-dimensional modeling model 241 are conveyed to the shipping unit 250.

  Finally, in step ST <b> 51, the dispatch unit 250 of the modeling production center 200 reads the corresponding user information 112 from the storage unit 220 regarding the three-dimensional modeling model 241 from the assembly unit 280, and based on this user information 112. The shipping slip 251 is prepared, and the shipping slip is attached to the three-dimensional modeling model 241 and shipped to the user 100.

As described above, the glasses (three-dimensional modeling model 251) by the glasses frame having the design and color designated by the user 100 are delivered to the user 100. When shipping the completed glasses to the store 500, when the user 100 comes to receive the glasses, it is possible to check the wearing state of the user 100 and make finer adjustments.
In this way, custom-made glasses that fit the user's 100 face can be produced.

  The present invention can be implemented in various forms without departing from the spirit of the present invention.

  For example, in the second embodiment described above, the whole body image of the user 100 is created as the three-dimensional modeling model 241. However, the present invention is not limited to this, and a half-body image or a chest image may be created as the three-dimensional modeling model. Is possible.

  In the second embodiment described above, as an application example, the three-dimensional modeling model 241 is created by integrating the user 100 itself and the image of the caclata. However, the present invention is not limited to this, for example, the user 100 itself. It is also possible to create a three-dimensional modeling model by integrating images of pets and the like owned by the user 100.

In any of the above-described embodiments, the three-dimensional data stored in the storage unit 220 is preferably deleted each time it belongs to personal information, but can also be stored as an archive.
For example, in the case of the first embodiment, if 3D data of a well-known building is stored in another server (not shown) and can be output appropriately, a movie set including this building can be easily created. It is. Also, if 3D data such as a part of a highly versatile house is stored in another server (not shown) and can be output as appropriate, a 3D modeling model of a fictitious house can be created by combining them. .

  As described above, according to the present invention, based on the user information, for example, the terrain designated by the user, the building, the user's own three-dimensional modeling model, or the user can be obtained with a simple configuration. Three-dimensional modeling models such as sized eyeglass frames are provided.

It is a block diagram which shows the structure of the modeling production system of 1st embodiment. It is a flowchart which shows operation | movement of the modeling production system of FIG. It is a block diagram which shows the structure of the modeling production system of 2nd embodiment. It is a flowchart which shows operation | movement of the modeling production system of FIG. It is a block diagram which shows the structure of the modeling production system of 3rd embodiment. It is a flowchart which shows operation | movement of the modeling production system of FIG.

Explanation of symbols

10, 20, 30 Modeling production system 100 User 110 Terminal device 111 Modeling object identification information 112 User identification information 120 Input unit 130 Communication unit 200 Modeling production center 210 Communication unit 211 Input guidance information 220 Storage unit 230 Processing unit 231 Modeling data 232 Second modeling data 233 Numerical data 240 Modeling unit 241 Three-dimensional modeling model 250 Shipping unit 251 Shipping slip 260 Finishing unit 270 Processing unit 280 Assembly unit 300 Network 400 Map providing center 401 Location information 500 Store 510 Terminal device 511 Specification information 520 Input unit 530 Communication unit 540 Measuring unit 541 Three-dimensional data 542 Image data

Claims (8)

There are terminal devices that are arranged in various places and acquire user information, and a modeling production center that receives user information from the terminal devices via a network, and the modeling manufacturing center is used from the terminal devices. A modeling production system that generates modeling data based on the user information, creates a three-dimensional modeling model from this modeling data, and provides the model to the user,
The terminal device includes an input unit for inputting user information, and a communication unit that transmits the user information input in the input unit to the modeling production center via a network,
The modeling production center
A communication unit that receives user information sent from the terminal device via a network;
A processing unit that generates modeling data based on the user information received by the communication unit;
A modeling unit that creates a three-dimensional modeling model based on the modeling data generated by the processing unit;
A dispatch unit that provides the user with the three-dimensional model created by the modeling unit;
A modeling production system characterized by comprising: The user information is modeling target identification information specified by the user and user identification information for specifying the user,
The processing unit of the modeling production center generates modeling data of a modeling target based on the modeling target identification information,
The modeling manufacturing system according to claim 1, wherein a sending unit of the modeling manufacturing center provides a three-dimensional modeling model to the user based on the user identification information.   The modeling manufacturing system according to claim 2, wherein the processing unit of the modeling manufacturing center reads modeling data from a modeling data server via a network based on the modeling target identification information. The user information is measurement information related to the user and user identification information for identifying the user,
The processing unit of the modeling manufacturing center generates modeling data to be modeled by calculation based on the measurement information,
The modeling unit creates a three-dimensional modeling model based on the modeling data, further forms an image of the user on at least a part of the surface of the three-dimensional modeling model based on the measurement information,
The modeling manufacturing system according to claim 1, wherein a sending unit of the modeling manufacturing center provides a three-dimensional modeling model to the user based on the user identification information. The modeling target identification information includes designation information selected by the user,
The processing unit of the modeling production center reads the second modeling data corresponding to the designation information based on the designation information of the modeling target identification information, adds the modeling data to generate new modeling data,
The modeling manufacturing system according to claim 4, wherein the dispatch unit of the modeling manufacturing center provides a three-dimensional modeling model to the user based on the user identification information.   The modeling manufacturing system according to claim 5, wherein the processing unit of the modeling manufacturing center reads out the second modeling data from the modeling data server via the network. The user information is measurement information related to the user, designation information selected by the user, and user identification information for identifying the user,
The modeling production center includes a processing unit and an assembly unit that incorporates a processed part processed by the processing unit into the three-dimensional modeling model,
The processing unit processes a processed part based on the specified information,
The assembly unit incorporates a processed part processed by the processing unit into a three-dimensional modeling model manufactured by the modeling unit,
The modeling manufacturing system according to claim 1, wherein a sending unit of the modeling manufacturing center provides a three-dimensional modeling model to the user based on the user identification information. The terminal device is arranged in a store,
8. The modeling production according to claim 1, wherein the shipping unit delivers the three-dimensional modeling model to a store used by the user or a store specified by the user. system.