公开(公告)号：US20140048981A1

公开(公告)日：2014-02-20

申请号：US13968033

申请日：2013-08-15

Applicant: Stratasys, Inc.

Inventor： S. Scott Crump ,  Dominic F. Mannella ,  William J. Swanson ,  Kevin C. Johnson ,  Ronald G. Schloesser ,  Joseph E. LaBossiere ,  Richard Thomas Anderson ,  Michael D. Bosveld ,  Paul J. Leavitt

IPC: B29C67/00

CPC classification number: B33Y10/00 ,  B29C64/106 ,  B29C64/112 ,  B29C67/0055 ,  B29C67/0092 ,  B29L2031/40 ,  B33Y30/00 ,  B33Y80/00

Abstract: An additive manufacturing system for printing three-dimensional parts, the system comprising a heatable region, a receiving surface, a print head configured to print a three-dimensional part onto the receiving surface in a layer-by-layer manner along a printing axis, and a drive mechanism configured to index the receiving surface along the printing axis such that the receiving surface and at least a portion of the three-dimensional part out of the heated region.

Abstract translation: 一种用于印刷三维部件的添加剂制造系统，该系统包括可加热区域，接收表面，被配置为沿着打印轴逐层打印三维部分到接收表面上的打印头， 以及驱动机构，其构造成沿着所述打印轴向所述接收表面索引，使得所述接收表面和所述三维部分的至少一部分在所述加热区域之外。

公开(公告)号：US20130234366A1

公开(公告)日：2013-09-12

申请号：US13867366

申请日：2013-04-22

Applicant: STRATASYS, INC

Inventor： J. Samuel Batchelder ,  William J. Swanson ,  S. Scott Crump

IPC: B29C41/46

CPC classification number: B29C67/0055 ,  B29C41/46 ,  B29C47/0014 ,  B29C47/0019 ,  B29C47/1054 ,  B29C64/106 ,  B29C67/0088 ,  B29K2025/00 ,  B29K2055/02 ,  B29K2069/00 ,  B29K2077/00 ,  B29K2079/085 ,  B29K2081/06 ,  B29K2105/0032 ,  B29K2105/0044 ,  B29K2105/0067 ,  B29K2105/16 ,  B29L2009/00 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y40/00 ,  B33Y50/02 ,  B33Y70/00

Abstract: A ribbon liquefier comprising an outer liquefier portion configured to receive thermal energy from a heat transfer component, and a channel at least partially defined by the outer liquefier portion, where the channel has dimensions that are configured to receive the ribbon filament, and where the ribbon liquefier is configured to melt the ribbon filament received in the channel to at least an extrudable state with the received thermal energy to provide a melt flow. The dimensions of the channel are further configured to conform the melt flow from an axially-asymmetric flow to a substantially axially-symmetric flow in an extrusion tip connected to the ribbon liquefier.

公开(公告)号：US20200149269A1

公开(公告)日：2020-05-14

申请号：US16188892

申请日：2018-11-13

Applicant: Stratasys, Inc.

Inventor： S. Scott Crump ,  J. Samuel Batchelder ,  Susan M Hayes Jacobson

IPC: E04B1/35 ,  B28B1/00

Abstract: A large-scale additive manufacturing system for printing a structure includes an extrusion system and a knitting system. The extrusion system includes a nozzle configured to receive a supply of structural material and to selectively dispense the structural material in flowable form, and a first gantry configured to move the nozzle along toolpaths defined according to a structure to be printed such that structural material may be dispensed along the toolpaths to print a series of structural layers, wherein the series of structural layers bond together to form all or a portion of the structure. The knitting system includes a tow feeder configured to feed a supply of tow material to a location proximate a current course of loops extending above an upper surface of a current structural layer or extending above a base surface in regions where no structural layer has been printed, and a hooking device configured to engage the tow material and bring it through the current course of loops to form a subsequent course of loops interwoven with the current course of loops. A controller is configured to operate the knitting system to form additional subsequent courses of loops each interwoven with a current course of loops after each of the series of structural layers are printed, wherein the interwoven courses of loops create a reinforcement network of knitted loops embedded in the structure, and wherein the series of structural layers are tied together.

公开(公告)号：US20170136691A1

公开(公告)日：2017-05-18

申请号：US15420771

申请日：2017-01-31

Applicant: Stratasys, Inc.

Inventor： J. Samuel Batchelder ,  William J. Swanson ,  S. Scott Crump

IPC: B29C67/00 ,  B33Y70/00 ,  B33Y50/02 ,  B33Y30/00

CPC classification number: B33Y50/02 ,  B29C47/0014 ,  B29C47/0016 ,  B29C47/0066 ,  B29C47/065 ,  B29C47/822 ,  B29C47/8845 ,  B29C64/106 ,  B29C64/386 ,  B29C69/001 ,  B29K2101/12 ,  B29L2007/007 ,  B32B38/0004 ,  B32B38/185 ,  B32B2038/045 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y40/00 ,  B33Y70/00 ,  D01D5/426 ,  Y10T428/2913 ,  Y10T428/2929 ,  Y10T428/2973

Abstract: A consumable material for use in an extrusion-based digital manufacturing system, the consumable material comprising a length and a cross-sectional profile of at least a portion of the length that is axially asymmetric. The cross-sectional profile is configured to provide a response time with a non-cylindrical liquefier of the extrusion-based digital manufacturing system that is faster than a response time achievable with a cylindrical filament in a cylindrical liquefier for a same thermally limited, maximum volumetric flow rate.

公开(公告)号：US08926882B2

公开(公告)日：2015-01-06

申请号：US13867366

申请日：2013-04-22

Applicant: Stratasys, Inc.

Inventor： J. Samuel Batchelder ,  William J. Swanson ,  S. Scott Crump

IPC: B29C41/02 ,  B29C41/46 ,  B29C67/00 ,  B29C47/00 ,  B29C47/10 ,  B29K25/00 ,  B29K55/02 ,  B29K69/00 ,  B29K77/00 ,  B29K79/00 ,  B29K81/00 ,  B29K105/00 ,  B29K105/16

CPC classification number: B29C67/0055 ,  B29C41/46 ,  B29C47/0014 ,  B29C47/0019 ,  B29C47/1054 ,  B29C64/106 ,  B29C67/0088 ,  B29K2025/00 ,  B29K2055/02 ,  B29K2069/00 ,  B29K2077/00 ,  B29K2079/085 ,  B29K2081/06 ,  B29K2105/0032 ,  B29K2105/0044 ,  B29K2105/0067 ,  B29K2105/16 ,  B29L2009/00 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y40/00 ,  B33Y50/02 ,  B33Y70/00

Abstract: A ribbon liquefier comprising an outer liquefier portion configured to receive thermal energy from a heat transfer component, and a channel at least partially defined by the outer liquefier portion, where the channel has dimensions that are configured to receive the ribbon filament, and where the ribbon liquefier is configured to melt the ribbon filament received in the channel to at least an extrudable state with the received thermal energy to provide a melt flow. The dimensions of the channel are further configured to conform the melt flow from an axially-asymmetric flow to a substantially axially-symmetric flow in an extrusion tip connected to the ribbon liquefier.

Abstract translation: 一种带状液化器，其包括构造成从热传递部件接收热能的外部液化器部分，以及至少部分地由外部液化器部分限定的通道，其中通道具有被配置为接收带状丝的尺寸， 液化器构造成将容纳在通道中的丝带细丝熔化成具有接收的热能的至少可挤压状态以提供熔体流动。 通道的尺寸进一步构造成使得熔融流动从轴向不对称流到连接到带状液化器的挤出尖端中的基本轴向对称的流动。

公开(公告)号：US11148362B2

公开(公告)日：2021-10-19

申请号：US16468928

申请日：2016-12-13

Applicant: STRATASYS, INC.

Inventor： Sydney Crump ,  S. Scott Crump

IPC: B29C64/153 ,  B29C64/241 ,  B29C64/171 ,  B22F12/00 ,  B29C64/112 ,  B29C64/141 ,  B29C64/259 ,  B22F10/10 ,  B29C64/255

Abstract: A rotary additive manufacturing system for producing 3D parts in a layer-wise manner includes a silo support, a tool support, a plurality of silos, and a part developer. The tool support overlays a first side of the silo support, and is configured to rotate about a central axis relative to the silo support. The silos are each attached to the silo support and extend along the central axis from a second side of the silo support that is opposite the first side. The part developer is supported by the tool support, and is configured to build a 3D part within each of the silos in a layer-by-layer manner during rotation of the tool support relative to the silo support.

公开(公告)号：US11124961B2

公开(公告)日：2021-09-21

申请号：US16188892

申请日：2018-11-13

Applicant: Stratasys, Inc.

Inventor： S. Scott Crump ,  J. Samuel Batchelder ,  Susan M Hayes Jacobson

IPC: E04B1/35 ,  B28B1/00 ,  B29C64/106 ,  B29C64/118 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y50/02 ,  B33Y70/00 ,  B33Y80/00 ,  D04B15/48 ,  D04B15/66

Abstract: A large-scale additive manufacturing system for printing a structure includes an extrusion system and a knitting system. The extrusion system includes a nozzle configured to receive a supply of structural material and to selectively dispense the structural material in flowable form, and a first gantry configured to move the nozzle along toolpaths defined according to a structure to be printed such that structural material may be dispensed along the toolpaths to print a series of structural layers, wherein the series of structural layers bond together to form all or a portion of the structure. The knitting system includes a tow feeder configured to feed a supply of tow material to a location proximate a current course of loops extending above an upper surface of a current structural layer or extending above a base surface in regions where no structural layer has been printed, and a hooking device configured to engage the tow material and bring it through the current course of loops to form a subsequent course of loops interwoven with the current course of loops. A controller is configured to operate the knitting system to form additional subsequent courses of loops each interwoven with a current course of loops after each of the series of structural layers are printed, wherein the interwoven courses of loops create a reinforcement network of knitted loops embedded in the structure, and wherein the series of structural layers are tied together.

公开(公告)号：US10889044B2

公开(公告)日：2021-01-12

申请号：US16245710

申请日：2019-01-11

Applicant: Stratasys, Inc.

Inventor： J. Samuel Batchelder ,  S. Scott Crump

IPC: B29C48/30 ,  B29C48/05 ,  B29C64/209 ,  B29C48/92 ,  B29C64/106 ,  B33Y70/00 ,  B33Y40/00 ,  B33Y30/00

Abstract: A method of producing a part printed in a layer-wise manner includes providing a pre-fabricated starter piece with a first course of loops and printing a layer of a part by extruding one or more flowable thermoplastic materials about the existing course of loops such that an upper surface of the layer is at a selected height on the existing course of loops. The method includes knitting a next course of loops to the existing course of loops to form a portion of an internal woven reinforcement network, and printing a next layer of the part by extruding one or more flowable thermoplastic materials about the next course of loops such that an upper surface of the next layer is at a selected height on the next course of loops, wherein the next course of loops extends above the structure being printed and may function as an existing course of loops for subsequent knitting steps. The method includes repeating the knitting and printing steps to create an internal woven reinforcement network within the printed part until the part is completed. The starter piece and the course of loops extending from the second end of the completed part are engaged and heated to a temperature where the material is flowable. The reinforcement network is then placed into tension by applying a force to pull the starter piece and the course of loops in opposite directions from each other. The part is cooled to a temperature where the thermoplastic material solidifies such that the internal woven structure remains in tension.

公开(公告)号：US20200223121A1

公开(公告)日：2020-07-16

申请号：US16245710

申请日：2019-01-11

Applicant: Stratasys, Inc.

Inventor： J. Samuel Batchelder ,  S. Scott Crump

IPC: B29C48/30 ,  B29C48/05 ,  B29C64/209

Abstract: A method of producing a part printed in a layer-wise manner includes providing a pre-fabricated starter piece with a first course of loops and printing a layer of a part by extruding one or more flowable thermoplastic materials about the existing course of loops such that an upper surface of the layer is at a selected height on the existing course of loops. The method includes knitting a next course of loops to the existing course of loops to form a portion of an internal woven reinforcement network, and printing a next layer of the part by extruding one or more flowable thermoplastic materials about the next course of loops such that an upper surface of the next layer is at a selected height on the next course of loops, wherein the next course of loops extends above the structure being printed and may function as an existing course of loops for subsequent knitting steps. The method includes repeating the knitting and printing steps to create an internal woven reinforcement network within the printed part until the part is completed. The starter piece and the course of loops extending from the second end of the completed part are engaged and heated to a temperature where the material is flowable. The reinforcement network is then placed into tension by applying a force to pull the starter piece and the course of loops in opposite directions from each other. The part is cooled to a temperature where the thermoplastic material solidifies such that the internal woven structure remains in tension.

公开(公告)号：US10549517B2

公开(公告)日：2020-02-04

申请号：US15581651

申请日：2017-04-28

Applicant: Stratasys, Inc.

Inventor： S. Scott Crump ,  Dominic F. Mannella ,  William J. Swanson ,  Kevin C. Johnson ,  Ronald G. Schloesser ,  Joseph E. LaBossiere ,  Richard Thomas Anderson ,  Michael D. Bosveld ,  Paul J. Leavitt

IPC: B29C67/00 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y80/00 ,  B29L31/40

Abstract: An additive manufacturing system for printing three-dimensional parts, the system comprising a heatable region, a receiving surface, a print head configured to print a three-dimensional part onto the receiving surface in a layer-by-layer manner along a printing axis, and a drive mechanism configured to index the receiving surface along the printing axis such that the receiving surface and at least a portion of the three-dimensional part out of the heated region.