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WO2018151355A1 - Système et procédé de sculpture utilisant un scanner 3d et un graveur laser - Google Patents

Système et procédé de sculpture utilisant un scanner 3d et un graveur laser Download PDF

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Publication number
WO2018151355A1
WO2018151355A1 PCT/KR2017/001868 KR2017001868W WO2018151355A1 WO 2018151355 A1 WO2018151355 A1 WO 2018151355A1 KR 2017001868 W KR2017001868 W KR 2017001868W WO 2018151355 A1 WO2018151355 A1 WO 2018151355A1
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WIPO (PCT)
Prior art keywords
scanner
controller
user
engraving
laser
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/KR2017/001868
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English (en)
Korean (ko)
Inventor
정일호
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Onscans Co ltd
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Onscans Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Onscans Co ltd filed Critical Onscans Co ltd
Publication of WO2018151355A1 publication Critical patent/WO2018151355A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B1/00Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled three-dimensionally for making single sculptures or models
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B1/00Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled three-dimensionally for making single sculptures or models
    • B44B1/02Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled three-dimensionally for making single sculptures or models wherein three-dimensional copies are made
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B1/00Artist's machines or apparatus equipped with tools or work holders moving or able to be controlled three-dimensionally for making single sculptures or models
    • B44B1/06Accessories
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation

Definitions

  • the present invention relates to an engraving system, and more particularly, to a engraving system and method using a 3D scanner and a laser engraver for producing sculpture using a 3D image photographed using a 3D scanner.
  • an electronic engraving device uses a 3D scanner and a laser engraver to 3D scan an image of its own shape and inscribe it into a material such as a crystal cube to automatically produce a sculpture.
  • a 3D scanner for photographing a subject and acquire a 3D scanning image file to be a target of engraving, and input a 3D scanning image file obtained by preparing a separate laser engraver. There was an inconvenience to perform the drive.
  • Korean Patent Registration No. 10-0374408 (Registration Date: February 19, 2003), Korean Patent Publication No. 10-1999-0044833 (Publication Date: June 25, 1999), Korean Patent Registration No. 10-0359732 (Registration Date: October 23, 2002) and the like.
  • the conventional 3D scanner has to secure a relatively large shooting space for the subject, there is a limitation that the installation place is large because the volume occupied by the device together with the laser engraver.
  • the present invention has been made to solve the above problems, the present invention is equipped with a conventional 3D scanner and a laser engraver in a single booth, and receives the user's operation through the controller to transfer the material from the generation of 3D scanning image And there is a problem to provide a engraving system and method using a 3D scanner and a laser engraver to perform the overall procedure required until processing to create a sculpture.
  • the present invention is not only a 3D scanning image generated using a 3D scanner, but also a 3D scanner and a laser engraver that can be reflected in the sculpture using a template for applying various image effects or an image file stored in the user's terminal There is a problem to provide a engraving system and method using.
  • the booth is located;
  • a 3D scanner arranged to face the front surface of the subject in the booth and generating a 3D scan image by photographing a body including the subject's face;
  • a laser engraver for generating a 3D shape inside the material by irradiating a laser to a material located in a processing space corresponding to the 3D scan image and input information;
  • a controller for adjusting a photographing state of the subject and generating the input information or controlling the operation of the 3D scanner and the laser engraver in response to a user's operation;
  • a material feeder for mounting a plurality of materials and transferring at least one material to the processing space under the control of the controller.
  • the booth may be provided with a blocking plate that is open at both sides thereof and is disposed to face the rear surface of the photographed subject to block external exposure of light emitted from the 3D scanner.
  • the booth may include a display disposed adjacent to the 3D scanner so as to face the subject and connected to the controller to display the 3D scanned image and input information.
  • the controller includes a recording medium in which an operating program is recorded; An input module for receiving a user's manipulation; Communication module for communicating with an external terminal in a wired or wireless manner; And a display for displaying a screen including the 3D scanner image according to the operation of the operating program, wherein the input information is selected from a plurality of templates provided by the operating program and a user is selected through the input module. One or more texts entered; And an image file received from the external terminal through the communication module.
  • the controller may transmit the 3D scan image to an external terminal connected through the communication module.
  • the operating program may include: a scanner controller which receives the 3D scan image by controlling the 3D scanner; A laser engraver controller for calculating a processing coordinate for the material in response to the 3D scan image and controlling the laser engraver to process the material; A feeder controller for controlling a material feeder to transfer the material into a processing space; An operation processor for controlling driving of each controller; And a database storing the input information, the 3D scanner image, and data necessary for driving the operation processor.
  • At least one camera device is disposed in the processing space to photograph a material located therein, and the operation program determines the alignment state of the material according to the photographing result of the camera to determine the laser irradiation direction of the 3D laser engraver. It may include a correction unit for correcting.
  • the plurality of materials are made of a transparent material and are three-dimensional solid materials having different shapes consisting of a plurality of planes or curved surfaces.
  • the material feeder is divided into a plurality of internal spaces so that materials having the same shape are formed in each partition section. Separately mounted, the controller can supply the material of the shape to the processing space in response to the control.
  • the engraving method using a 3D scanner and a laser engraver according to an embodiment of the present invention, the engraving method using the engraving system described above, the step of adjusting the photographing state of the in- booth photographed photographer; Generating a 3D scan image by photographing a body including the face of the photographed subject located in the booth; And forming a 3D shape inside the material by irradiating a laser to a material located in a processing space in response to the 3D scan image and / or input information.
  • the generating of the input information corresponding to the user's operation may include: selecting one by providing a plurality of templates; Receiving one or more input texts; And receiving one or more images from the external terminal.
  • the method may further include transmitting the 3D scan image to the external terminal.
  • the material is a plurality of materials, made of a transparent material, a three-dimensional solid material having a different shape consisting of a plurality of planes or curved surfaces, before the step of forming the 3D shape, the interior space is divided into a plurality of compartments
  • Each material of the same shape is divided and mounted may include the step of supplying the material of the shape to the processing space.
  • At least one camera device for photographing a material located therein is disposed in the processing space, and prior to the forming of the 3D shape, according to the photographing result of the camera, the alignment state of the material is determined to determine the material. And correcting the processing coordinates.
  • the present invention is equipped with a 3D scanner and a laser printer capable of photographing the subject in the booth, and provides a means for the user to operate through the control device so that the user can photograph themselves as the subject 3D
  • a 3D scanner and a laser printer capable of photographing the subject in the booth
  • the user can easily produce a variety of sculptures desired by the user It works.
  • FIGS. 1A to 1C are perspective views illustrating a whole and a partial structure of an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • FIGS. 2A to 2B are views showing some structures of an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • FIG. 3 is a block diagram illustrating a structure of an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • FIG. 4 is a block diagram illustrating a structure of an operating program of an engraving system using a 3D scanner and a laser engraver according to an exemplary embodiment of the present invention.
  • FIG. 5 is a flowchart illustrating a engraving method using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • FIG. 6 is a view showing a engraving method using a 3D scanner and a laser engraver according to an embodiment of the present invention from the user's point of view.
  • FIGS. 7A to 7D are views illustrating screens provided by an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • both the program and the hardware executed in the system including the terminal may be configured in module units, and may be recorded in one physical memory or distributed between two or more memories and recording media.
  • the user may be the subject himself or another person.
  • FIGS. 1A to 1C are perspective views illustrating a whole and a partial structure of an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • the engraving system 100 using the 3D scanner and the laser engraver of the present invention has an internal space for a user who is a photographer to be secured in the center, and the user in the internal space is hexahedral.
  • the 3D scanner 20 which photographs the body including the booth 10 of the booth 10, and includes the face of the subject in front of the booth 10, and the predetermined display 30 is provided below it.
  • the lower space of the display 30 is provided with a control device (not shown) and a money inlet and a card reader (not shown) capable of inputting money or recognizing a payment means.
  • both sides of the booth 10 is open so that the user can freely enter, the barrier film 40 for blocking the rear view of the engraving system 40 to the rear in the booth 10 may be installed.
  • a material is located at one side of the booth 10, a laser engraver (not shown) for performing a laser processing process is mounted therein, and a processing space 50 for processing and discharging the sculpture is installed. It is.
  • a speaker (not shown) for outputting a voice guide for a procedure that is performed according to the driving of the engraving system 100 may be installed in one area of the booth 10.
  • the user can be seated in the seat (5) prepared in the booth 10, and can start the processing process by performing the payment procedure through the money inlet and card reader.
  • the process is guided through the display 30, and the display 30 provides a predetermined screen and proceeds as the user selects a desired function.
  • a separate motor device (not shown) may be mounted on the seat 5, and the user may appropriately adjust the height of the seat 5 according to the guidance.
  • the controller controls the 3D scanner 30 to select the function displayed on the initial screen of the display 20 to photograph the user, that is, the photographed subject, to generate the 3D scanning image. .
  • control device controls a material feeder (not shown) provided in the booth 10 to transfer the material corresponding to the type selected by the user to the processing space, and processes the material based on the generated 3D scanning image. By doing sculpture will be produced.
  • the opening and closing doors 51 to be moved up and down in front of the closing so as not to be exposed to the outside as the laser is irradiated in the processing space 50 may be disposed
  • the user can directly receive the sculpture in the processing space 50 by opening and closing the door 51.
  • the engraving system 100 using the 3D scanner and the laser engraver has an internal space through which the photographic subject can be located and operated through the booth 10 structure, and the payment means. And a 3D scanner and a laser engraver in the booth 10 to provide a sculpture desired by the user in a limited space.
  • FIG. 3 is a block diagram illustrating a structure of an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • the engraving system 100 is arranged to face the front of the booth in which the shooter is located and the front of the shooter in the booth to photograph a body including the face of the shooter, thereby scanning the 3D scan.
  • 3D scanner 200 for generating an image, 3D scan image and laser engraver 300 to form a 3D shape inside the material by irradiating a laser on a material located in the processing space corresponding to the input information, the photographing of the subject
  • a controller 400 and a plurality of materials are mounted to adjust a state and generate input information or control operations of the 3D scanner and the laser engraver 300 in response to a user's operation, and according to the control of the controller 400.
  • It may include a material feeder 500 for transferring at least one material to the processing space.
  • the 3D scanner 200 takes a role of generating a 3D scanning image by photographing a subject seated in a booth seat under the control of the controller 400.
  • a commercial human scanner may be used as the 3D scanner. Its hardware features include a short measuring time of about 3 seconds to suit the human body measurement where there is movement, and it is harmless to the human body using white light instead of a laser and there is no objection to face shooting. It is preferable that possible apparatus be used.
  • the laser engraver 300 serves to process the material in response to the 3D scanning image generated under the control of the controller 400.
  • the laser engraver 300 forms a shape inside the material by irradiating a laser to the material according to the processing coordinates calculated in response to the 3D scanning image and the input information input by the user by the controller 400. Will be produced.
  • the controller 400 controls the above-described 3D scanner 200 and the laser engraver 300 to create sculptures, and also serves to perform the overall procedure for providing engraving services.
  • An operating program 410 for implementing such a function includes a recording medium.
  • the controller 400 may include an input module 420 for receiving a user's manipulation, a communication module 430 for communicating with an external terminal 900 in a wired or wireless manner through an information communication network, and an engraving system 100. It may include a display 440 for displaying a screen according to the progress of the procedure.
  • the above-described controller 400 may be configured with any commercially available computing device, and as a hardware configuration thereof, the controller 400 may include a central processing unit (CPU), a memory, a mass storage device, and the like. ) May include a mouse and a keyboard, and the communication module 430 may be applied to various wired / wireless communication methods such as wired / wireless LAN, Bluetooth (BLE 4.0), WiFi, and WAN.
  • the display 440 may be a flat panel display device such as an LCD or an OLED, and a touch panel structure may be applied integrally with the input module 420.
  • the material feeder 500 stores a plurality of materials 1 used in the manufacture of sculptures, and serves to transfer the processed material 600 under the control of the controller 400.
  • the material (1) the cube-shaped cube of transparent crystal material is most used, but is not limited to a specific shape, and not only a cube, but also a plurality of planes or curved surfaces, such as cylinders, cones, polygonal pyramids, and stars. Various types of three-dimensional solid objects having a shape may be used.
  • the material feeder 500 may be divided into a plurality of internal spaces so that the material 1 having the same shape may be separately mounted and mounted in each partition section, such as a predetermined conveyor belt connected to the processing space 600. It is provided with a transport means to supply the material 1 of the shape to the processing space 600 under the control of the controller 400.
  • the engraving system 100 of the present invention is formed with a processing space 600 in which the material 1 to be transferred from the material feeder 500 is formed, one or more peripherals 700 for the user's convenience may be provided. Can be.
  • the processing space 600 is a space in which the material 1 transferred from the material feeder 500 is seated therein, and a beam of the laser engraver 300 is disposed therein, where the processing process is performed.
  • the opening of the processing space 600 is provided with a separate opening and closing door to move up and down separately, and the inside is shielded from the outside during the processing process, as the opening and closing door is opened, so that the user can receive the sculpture by themselves do.
  • a separate camera may be provided in the processing space 600.
  • the camera may be connected to the controller 400, and photographs the alignment of the material 1 before starting the processing process and transmits the result to the controller 400.
  • the controller 400 is to improve the quality of the sculpture by correcting the machining coordinates corresponding to the alignment of the material (1).
  • Peripheral device 700 is composed of one or more devices to assist the driving of the engraving system 100 and provide additional functions for the convenience of the user, as an example payment means 710 for recognizing a currency or contact card is inserted ), A speaker 720 for guiding the matter according to the procedure being performed by the engraving system 100 through the voice output and the seat 730 is seated, the seat is provided with a motor that can adjust the height according to its height, etc. It may include.
  • the engraving system of the present invention through the laser engraver using a 3D scan image generated by the user to enter the booth to put money into the booth, and to photograph themselves as a photographic subject through the 3D scanner. You can easily create a sculpture that reflects his appearance.
  • FIG. 4 is a block diagram illustrating a structure of an operating program of an engraving system using a 3D scanner and a laser engraver according to an exemplary embodiment of the present invention.
  • the operating program is an application program executed by the computing device, and controls a 3D scanner from a customer guide function, a banknote input recognition or a card recognition function, a seat height adjustment function according to the height of the inputted photographer, It is a program that implements the function of generating 3D scanning image according to the result of transmission, storing, sensing and transferring of materials under the control of the material feeder, calculating processing coordinates, and controlling the laser engraver.
  • the operating program 410 recorded on the recording medium of the present invention controls the 3D scanner 200 to receive a 3D scan image, and a scanner controller 411 for a material corresponding to the 3D scan image.
  • Laser engraver control unit 412 for controlling the laser engraver 300 to calculate the processing coordinates and processing the material
  • feeder control unit 413 for controlling the material feeder to transfer the material in the processing space
  • each control unit (411 ⁇ 413) May include an operation processor 415 for controlling the driving of the control panel, an input information and a 3D scanner image, and a database 416 for storing data 415 required for driving the operation processor.
  • the scanner controller 411 controls driving of the 3D scanner 200 connected to the controller to photograph the subject and generates a 3D scanning image according to the photographing result.
  • the engraver controller 412 controls the driving of the laser engraver 300 connected to the controller to irradiate the laser according to the processing coordinates to produce a sculpture.
  • the feeder controller 413 performs a function of transferring a material selected by the user to a processing space (600 in FIG. 3) by controlling a transfer means provided therein among the materials mounted in the material feeder 500 connected to the controller. do.
  • the operation processor 415 performs a function of controlling the driving of the scanner controller 411, the engraver controller 412, and the feeder controller 414 according to the driving procedure.
  • the operation processing unit 415 is to control each component for a variety of tasks required in accordance with the progress of the engraving system.
  • the operation processing unit 415 displays the screen when the engraving system is driven through the display 440, and controls the peripheral device to perform the payment and adjust the height of the seat.
  • the processing coordinates corresponding to the 3D scanning image and / or input information is calculated and transmitted to the engraver controller 412.
  • the operation processor 415 may upload the generated 3D scanning image to an external terminal of the user connected to the communication module according to the user's manipulation, and the user may personally utilize the 3D scanning image.
  • the database 416 stores a generated 3D scanning image and input or downloaded input information.
  • the database 416 may store various data necessary for driving the operation system.
  • the engraving system 100 of the present invention may further include a correction unit 417 for correcting the machining process of the laser engraver so that the shape in the sculpture is more precisely formed.
  • the material transferred from the material supplier 500 to the processing space may be out of a position to be originally arranged or may be slightly displaced after the transfer process or completion of the transfer, depending on the transfer of the mechanical method.
  • the engraving system of the present invention includes a predetermined camera 650 in the processing space to photograph the current alignment of the material placed in the processing space, and the correction unit 417 is aligned of the material The state is determined to correct the processing coordinates calculated by the operation processor 415.
  • the operating program of the engraving system can control the devices of each system to produce a high-quality sculpture.
  • FIG. 5 is a flowchart illustrating a engraving method using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • the engraving method is a engraving method using a engraving system, the step of adjusting the photographing state of the booth subjects (S100), the face of the subject is located in the booth subjects Generating a 3D scan image by photographing a body including the step (S110), and irradiating a laser to a material located in the processing space corresponding to the 3D scan image and / or input information to form a 3D shape inside the material ( S120) may be included.
  • the height adjustment may be performed on the initial screen and desired height by the user. If is input, the controller of the system controls the motor provided in the seat to adjust the height.
  • step S110 of generating a 3D scan image by photographing a body including the face of the photographed subject in the booth the controller of the system selects a 3D scanning image.
  • the 3D scan image is generated by controlling the scanner to photograph the subject.
  • step S120 of irradiating a laser on a material located in the processing space corresponding to the 3D scan image and / or input information to form a 3D shape inside the material based on the generated 3D scan image of the controller of the system
  • the step S120 of irradiating a laser on a material located in the processing space corresponding to the 3D scan image and / or input information to form a 3D shape inside the material based on the generated 3D scan image of the controller of the system
  • the controller of the engraving system may reflect not only the 3D scan image but also any one selected from among a plurality of templates stored in the system or text input as input information in the shape of the sculpture as input information.
  • a predetermined image file stored in the mobile terminal can be downloaded in the system and reflected in the shape of the sculpture.
  • FIG. 6 is a view showing a engraving method using a 3D scanner and a laser engraver according to an embodiment of the present invention from the user's perspective.
  • a user who intends to manufacture a sculpture using a engraving system prepares for use by sitting in a seat provided by entering the booth of the engraving system (S200), and inputs a predetermined amount of money into a currency slot or a card. By performing the payment to drive the engraving system (S201).
  • the engraving system provides an initial screen through a display disposed in front of the user, and the user may select a function included in the initial screen (S202).
  • the user may check his photographed appearance shown on the display and adjust the seat to a desired height through manipulation (S203).
  • step S205 the user can select one of the functions provided on the initial screen to generate or download an image used for sculpture production, and since the 3D scanning image does not exist in the operation system at the first operation (S204).
  • the 3D scanning image generation function is selected to start the 3D scanning through the 3D scanner to generate the 3D scanning image.
  • the user can enter the text to be included in the sculpture, or set other backgrounds, in particular, if you want to use an image file stored in a mobile terminal, such as your own smartphone, the external terminal to the system in a wired or wireless manner Can be connected (S206). Accordingly, one or more image files can be downloaded from the external terminal connected as input information (S207). In addition, although not shown, the user may upload a 3D scanning image generated after the step S205 to an external terminal of the user connected to the communication module.
  • the user may repeatedly perform steps S205 to S207 according to the conditions of step S204, and at this time, the user may select the appearance of the desired material.
  • the material selected may be a three-dimensional solid object having a different shape consisting of a plurality of planes or curved surfaces, such as a cylinder, a cone, a polygonal pyramid and a star, as well as a cube.
  • the system transfers the selected material from the material supplier to the processing space.
  • the system captures the alignment of the material and adjusts the direction in which the laser is scanned according to the deviation.
  • the data correction process may be performed (S208).
  • the system drives the laser engraver to perform a machining process on the material, and the user waits until the machining process is completed (S209). While waiting, the user may view advertisement information or instructions displayed on the display of the system.
  • the system will discharge the completed sculpture (S210), the user can receive the sculpture in the processing space. At this time, the user may be informed by voice that the processing process is completed from the speaker provided in the system.
  • FIGS. 7A to 7D are views illustrating screens provided by an engraving system using a 3D scanner and a laser engraver according to an embodiment of the present invention.
  • the engraving system may provide a screen according to driving through a display included in a controller, and may select various functions provided by the system at the beginning of operation after recognizing money input.
  • An initial screen W100 including one or more buttons may be provided.
  • a button provided by the engraving system of the present invention selects a 3D scan photographing button b100 for generating a 3D scan image by photographing a subject using a 3D scanner and a plurality of templates provided by the system. Or a template for inputting text, such as a text that the user wishes to engrave in a sculpture, and a message input button (b120), and an external image that is transmitted to the system so that the image stored in the user's mobile terminal can be reflected in the sculpture. And a download button b130.
  • the photographing screen W110 may be displayed.
  • the photographing screen (W110) may include a picture window (W111) and a guide phrase of the photographed subject in the current state, and the photographed subject checks his photographing form in real time and changes his posture to reflect the desired shape on the sculpture. You can do that.
  • a selection screen W120 when the user selects a template and a message input button (b120 of FIG. 7A) is illustrated, and the selection screen W120 is a predetermined color previously built in the system.
  • a template icon including a pattern, an object or a background, and the like, and a text box W122 for inputting a phrase desired by the user in a text form.
  • the user may select any one of the template icons W121 or input a desired phrase in the text box W122 so that the contents are reflected in the sculpture.
  • the system combines the selected or input content with the 3D scanned image and applies it to the machining coordinates.
  • a download screen W130 for downloading data from an external terminal when the user selects an external image download button b130 is illustrated, and the download screen W130 is a wired or wireless system.
  • the terminal display window (W131) that displays the name or ID of the connected terminal and may include a structure window (W132) for one or more image files stored in the storage in the connected terminal. .
  • the user can check whether his terminal is normally connected through the display window W131, select one or more image files to be transmitted from the rescue window W132, and transmit them to the system so that the 3D scanned images are combined and reflected in the sculpture. can do.
  • the engraving system of the present invention can create a sculpture based on a 3D scan image of a user photographing a body including a face as a photographer, and include a desired template or phrase in the sculpture. Or, you can make a sculpture by using the image stored in your terminal.

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Abstract

La présente invention concerne un système de sculpture et, plus particulièrement, un système et un procédé de sculpture utilisant un scanner 3D et un graveur laser, qui produit une sculpture en utilisant une image 3D capturée au moyen d'un scanner 3D. Selon un mode de réalisation de la présente invention, un système de sculpture est équipé d'une imprimante laser et d'un scanner 3D susceptible de capturer une image d'une personne sujet dans une cabine, et fournit un moyen d'entrée qu'un utilisateur peut utiliser par le biais d'un dispositif de commande, de telle sorte que l'utilisateur puisse facilement produire une sculpture par capture d'une image de lui-même/d'elle-même en tant que personne sujet pour générer une image de balayage 3D et un matériau de traitement sur la base de celle-ci.
PCT/KR2017/001868 2017-02-20 2017-02-21 Système et procédé de sculpture utilisant un scanner 3d et un graveur laser Ceased WO2018151355A1 (fr)

Applications Claiming Priority (2)

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KR10-2017-0022050 2017-02-20
KR1020170022050A KR20180095997A (ko) 2017-02-20 2017-02-20 3d 스캐너 및 레이저 조각기를 이용한 조각 시스템 및 방법

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WO2018151355A1 true WO2018151355A1 (fr) 2018-08-23

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