| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | recipientes de material de construção | BR112018014972 | 2016-05-12 | BR112018014972A2 | 2018-12-11 | ISMAEL CHANCLON; NICOLA COFELICE; SANTIAGO SARDA; XAVIER ALONSO |
| existe um recipiente de material de construção de impressão 3d (1). o recipiente (1) compreende um reservatório (3) e uma estrutura de reforço (4). o reservatório deve conter material de construção. a estrutura de reforço é anexada ao reservatório em pelo menos um local selecionado. o reservatório e a estrutura de reforço são para permitir a reconfiguração do recipiente de uma configuração relativamente plana para uma configuração em utilização na qual o reservatório pode ser preenchido com material de construção. | ||||||
| 122 | Vorrichtung zum Entfernen eines Werkstoffpulvers von einem unter Verwendung des Werkstoffpulvers generativ gefertigten Formkörper | DE102017200382 | 2017-01-11 | DE102017200382A1 | 2018-07-12 | KOCH RAPHAEL; ALVES BRUNO |
| Die Erfindung betrifft eine Vorrichtung (1,29,41) zum Entfernen eines Werkstoffpulvers (2) von wenigstens einem unter Verwendung des Werkstoffpulvers (2) generativ gefertigten Formkörper (3). Die Vorrichtung (1,29,41) umfasst: wenigstens einen Behälter (4) zur Aufnahme des in das Werkstoffpulver (2) eingebetteten Formkörpers (3), wobei der Behälter (4) eine höhenverstellbare Bauplattform (27) aufweist; wenigstens ein geneigt angeordnetes Rüttelsieb (6) mit einem Aufgabeende (7) und einem geodätisch tiefer als das Aufgabeende (7) angeordneten Übergabeende (8); wenigstens eine Kippeinrichtung (11) zum Kippen des Behälters (4); wenigstens eine sich an das Übergabeende (8) des Rüttelsiebs (6) anschließende Auffangeinheit (13) zum Auffangen des von dem Rüttelsieb (6) abgleitenden Formkörpers (3); ein luftdicht verschließbares, zumindest teilweise transparent ausgebildetes Gehäuse (17), in das der Behälter (4) einbringbar ist und in dem das Rüttelsieb (6) und die Kippeinrichtung (11) angeordnet sind und in dem die Auffangeinheit (13) zumindest teilweise angeordnet ist; und wenigstens eine an dem Gehäuse (17) ausgebildete, mit einem Handschuh (19) luftdicht verschlossene Öffnung (18), wobei die Öffnung (18) und der Handschuh (19) derart ausgebildet und angeordnet sind, dass eine Person über den Handschuh (19) den von der Auffangeinheit (13) aufgefangenen Formkörper (3) ergreifen kann. | ||||||
| 123 | PROCEDE DE TRAITEMENT DE SURFACE POUR OBJETS | FR1654150 | 2016-05-10 | FR3051127B1 | 2018-06-15 | MOREAU CLEMENT; COMTE MYRTILLE |
| 124 | Verfahren zur simulationsbasierten Erkennung thermisch kritischer Bauteilbereiche und Verfahren zur bauteilspezifischen Anpassung einer lokalen Wärmegenerierung bei der additiven Herstellung | DE102016120998 | 2016-11-03 | DE102016120998A1 | 2018-05-03 | PLOSHIKHIN VASILY |
| Verfahren zur simulationsbasierten Erkennung thermisch kritischer Bauteilbereiche bei der additiven Herstellung eines dreidimensionalen Bauteils (10) aus mehreren Bauteilschichten durch mehrfaches inkrementelles, insbesondere schichtweises, Hinzufügen von pulver-, draht- oder bandförmigem, insbesondere metallischem, Bauteilausgangsmaterial und, insbesondere inkrementelles, formgebendes Verfestigen durch jeweiliges selektives Schmelzen und/oder Sintern des Bauteilausgangsmaterials mittels einer durch mindestens eine Energiequelle lokal eingebrachten Wärmemenge, umfassend simulationsbasierte Ermittlung der Verteilung der lokalen Wärmeableitungsfähigkeit in Bauteilschichten des hergestellten Bauteils (10) anhand einer numerischen Berechnung einer Temperaturverteilung im hergestellten Bauteil, und Ermittlung von thermisch kritischen Bauteilbereichen anhand der simulationsbasiert ermittelten lokalen Wärmeableitungsfähigkeiten oder anhand einer Funktion derselben, und Verfahren zur bauteilspezifischen lokalen Anpassung, insbesondere Steuerung oder Regelung, einer lokalen Wärmegenerierung bei der additiven Herstellung eines dreidimensionalen Bauteils aus mehreren Bauteilschichten. | ||||||
| 125 | Fahrzeug | DE102016013232 | 2016-11-05 | DE102016013232A1 | 2017-05-11 | JORDAN MICHAEL |
| Die Erfindung betrifft ein Fahrzeug. Bei einem Fahrzeug, bei welchem eine Ersatzteilherstellung kostengünstig gestaltet ist, ist im Fahrzeuginneren ein 3D-Drucker (11) angeordnet. | ||||||
| 126 | Systems and methods for post additive manufacturing processing | GB201613216 | 2016-08-01 | GB2543382A | 2017-04-19 | MATTHEW DONOVAN; THOMAS J OCKEN; JOSEPH SAMO |
| A system 100 for removing powder from an additively manufactured article includes a powder removal mechanism 101 including a build plate holder 103 configured to hold a build plate at a distal end thereof; a first actuator 105 that is configured to angle/tilt the build plate holder relative to gravity and a second actuator 107 that is configured to rotate the build plate holder 103 about a central axis A of the build plate holder 103. The system may also include a vibration device 109, such as an ultrasonic transducer, to vibrate the build plate holder. Preferably, the first actuator is a piston actuator hingedly mounted to the build plate holder and the second actuator may be a belt drive motor. An air flow system 125 may be provided to direct pressurised air to the build plate holder. A powder recovery system, including a vacuum 121, for recovering and recycling the powder may be provided. Preferably, a control system 127 is operatively connected to the system and may include a part correlation module to move the build plate in accordance with an input part type. A control system configured to be operatively connected to a powder removal mechanism comprising a part correlation module is further disclosed. | ||||||
| 127 | 코딩교육용 3D프린터 교구 | KR1020190075198 | 2019-06-24 | KR102214717B1 | 2021-02-10 | |
| 128 | 3D 프린팅 결과물 조립 장치 및 방법 | KR1020150099541 | 2015-07-14 | KR102006318B1 | 2019-08-01 | |
| 129 | 3D프린팅 프렌차이즈 시스템 및 그 운영방법 | KR1020170145987 | 2017-11-03 | KR101962731B1 | 2019-07-31 | |
| 130 | 3D 프린터 출력물의 원자층 증착 방법 및 장치 | KR1020170039141 | 2017-03-28 | KR101948310B1 | 2019-02-15 | |
| 131 | 변형 방지 노즐 구조를 구비한 3D 프린터 | KR1020170060870 | 2017-05-17 | KR101939155B1 | 2019-01-16 | |
| 132 | IoT가 가능한 광고형 3D 프린터 운영 시스템 | KR1020180025731 | 2018-03-05 | KR1020180106883A | 2018-10-01 | |
| 본발명은네트워크상의플랫폼을운영해, 사물인터넷(IoT) 클라우드데이터환경에서각각의 3D 프린터들을통합관리하고, 3D 프린터들에서의개별광고, 인터넷, 자막방송, 지역방송, 전체광고, 및구역별/업종별광고등이가능한, 광고형 3D 프린터를이용한운영시스템에관한것이다. | ||||||
| 133 | 3D 프린터의 광경화 교육용 교구 | KR20160167368 | 2016-12-09 | KR20180066916A | 2018-06-20 | PARK JONG WON; CHOI UN HA |
| 3D 프린터의광경화교육용교구에관한것으로, 광경화성수지가충진되는수조, 제조하고자하는조형물의형상에대응되도록수조에상기충진된광경화성수지에자외선광을조사하는광조광기, 조사되는자외선광을집광하는집광부, 상기광조광기를 3축방향으로이동시키는구동부그리고상기광조광기의이동속도및 광의세기를조절해서상기광조광기와구동부의구동을제어하는제어부를포함하는구성을마련하여, 자외선 LED를이용해서자외선광을조사하는광조광기를구현함으로써, 3D 프린터의수조광경화적층방식기술의원리를효과적으로교육할수 있다는효과가얻어진다. | ||||||
| 134 | 교육용 3D 프린터 | KR20160184245 | 2016-12-30 | KR20180056338A | 2018-05-28 | HA JAE SANG; PARK HYEON KYU |
| 본발명은교육용 3D 프린터에관한것으로, 보다상세하게는각 블록을조립하여제작할수 있는교육용 3D 프린터에관한것이다. 본발명에따르면, 조립이용이한블록형태를갖고 3D프린터를조립할수 있는효과가있다. 교육을목적으로하는블록형 3D 프린터로서, 누구나원리를쉽게이해하고다룰수 있도록하는데효과가있다. | ||||||
| 135 | 3차원 물체의 생성 | KR1020177005608 | 2014-09-22 | KR1020170047252A | 2017-05-04 | 젱준; 코르테스아이헤름스세바스티아; 화이트스코트에이 |
| 일예에따르면, 적층제조시스템에의한 3차원물체의생성을관리하는시스템이제공된다. 시스템은, 하나또는다수의가상물체를획득하고, 가상빌드볼륨내에가상물체의공간적배치를생성하고, 가상빌드볼륨을처리하도록적층제조시스템을제어하고, 요청에응답하여가상빌드볼륨을변경하고, 변경된가상빌드볼륨을처리하도록적층제조시스템을제어하는프로세서를포함한다. | ||||||
| 136 | 네트워크 기반의 대규모 3D 프린팅 플랫폼 | KR1020150037283 | 2015-03-18 | KR101633221B1 | 2016-06-24 | 이재욱 |
| 일실시예에따른 3D 프린팅시스템은, 네트워크를구성하는 3D 프린터들의정보를식별하고, 상기식별된 3D 프린터들의정보를바탕으로상기 3D 프린터들을등록하는등록부; 상기 3D 프린터들의정보에기반한 3D 분할모델들을생성하고각각의 3D 분할모델에고유 ID를부여하는 3D 모델분할부; 상기 3D 분할모델에부여된고유 ID를상기 3D 프린터의 ID와매칭시키고, 상기 3D 분할모델들을상기 3D 프린터들에할당하는 3D 프린팅장치관리부; 및상기할당된 3D 분할모델을출력하고, 상기출력된 3D 분할모델을조립시키는 3D 모델조립부를포함할수 있다. | ||||||
| 137 | SYSTEMS AND METHODS FOR LOCAL ENHANCED SUBMODELING FOR ADDITIVE MANUFACTURING APPLICATIONS | PCT/US2023027516 | 2023-07-12 | WO2025014484A1 | 2025-01-16 | MOINET AYMERIC; MCCARTHY BRIAN SCOTT |
| A method for implementing communications between a computer aided design (CAD) system and a multiphysics modeling module for use in simulating one or more mechanical physical attributes resulting from an additive manufacturing process of a submodel of a geometric CAD model of an object using a discretization method is disclosed. The method includes applying an inherent strain simulation for the object and applying a submodeling method for each submodel time step S' of the inherent strain simulation of an area of interest defining the submodel. | ||||||
| 138 | A METHOD FOR OBTAINING AT LEAST ONE CERAMIC COMPONENT BY JOINING AT LEAST TWO CERAMIC SIC PREFORMS AND CERAMIC COMPONENTS OBTAINED BY SAID METHOD | PCT/EP2024055091 | 2024-02-28 | WO2024188643A1 | 2024-09-19 | HETTICH PASCAL; KEIM MARTIN; RUDOLF JAN |
| The present invention relates to a method for obtaining at least one ceramic component by joining at least two SiC preforms: - providing at least two porous SiC preforms, such as green or coked parts, each having at least one joining surface; - providing a joining slurry comprising - 40-80 wt%, preferably 50-70 wt% of at least one binding agent, - 2-20 wt%, preferably 5-18 wt%, more preferably 8-15 wt% of silicon carbide particles with a particle size D50 of 10-20 µm, preferably D50 of 11-18 µm, more preferably D50 of 11-16 µm, - 8-25 wt%, preferably 9-20 wt%, more preferably 10-15 wt% of silicon carbide particles with a particle size D50 of 1-10 µm, preferably D50 of 2-8 µm, more preferably D50 of 2-5 µm, -10- 30 wt%, preferably 12-20 wt%, more preferably 13-18 wt% of carbon black, - wherein the sum of all ingredients always adds up to 100 wt%; - pressing the joining surfaces of the at least two SiC preforms together; - drying the at least two SiC preforms; and - heating up the at least two SiC preforms, whereby Si is infiltrated into the SiC preforms including the dried joining slurry to obtain the materially bonded silicon-silicon carbide (SiSiC) ceramic component. | ||||||
| 139 | ADAPTIVE LIGHT SHEET FOR REDUCING OFF-TARGET PHOTOEXCITATION IN VOLUMETRIC PRINTING INCLUDING TWO WAVELENGTHS | PCT/US2023083218 | 2023-12-08 | WO2024124192A3 | 2024-07-25 | SANDERS SAMUEL; TWIETMEYER KAREN |
| The present invention includes methods for reducing photoexcitation of a photoswitchable photoinitiator in volumetric printing including a volume of a photohardenable composition at locations in the volume at which intersection of two wavelengths does not occur; methods of three-dimensional (3D) printing including dual-wavelength photoexcitation of a photohardenable composition included in a volume, the method including photoexcitation by a modified or controllably-sized light sheet including a first wavelength and an optical projection including a second wavelength; and methods for extending the reuse-printing lifetime of a photohardenable composition including a photoswitchable photoinitiator. Preferably the photohardenable composition includes the dual- wavelength photoinitiator and a photohardenable resin component. The present invention also includes a photohardenable composition including a photoswitchable photoinitiator with an improved reuse-printing lifetime. | ||||||
| 140 | A METHOD OF PRODUCING A COMPONENT, AND THE COMPONENT ITSELF | PCT/EP2022081374 | 2022-11-09 | WO2023083922A1 | 2023-05-19 | PAMMER SEBASTIAN; LEONHARDT STEFAN; KRIEGER YANNICK; BRUYAS ARNAUD |
| The present invention relates to a method of producing a component (10, 110, 210) by means of an additive production method, including at least the following steps: - a production plan for the component (10, 110, 210) is generated from digital data; - the component (10, 110, 210) is analyzed regarding its structure and/or its production parameters in respect of the temperature in the component (10, 110, 210) during production; and - a supplementary structure (12, 112, 212) is added to the component (10, 110, 210) at those places where the analysis reveals that the structure and/or the production parameters would result in an inhomogeneous temperature distribution during production. The present invention further relates to a component produced by means of an additive production method. | ||||||
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