Abstract: Provided is a rotating assembly. The rotating assembly is for forming a microstructure, and comprises: a rotating body rotatable about a rotary shaft; a first support member installed on the rotating body so as to be spaced apart from the rotational shaft and having a predetermined viscous composition disposed on an outer surface thereof; and a fluid communicating portion for communicating the inside and the outside of the rotating body, wherein when the rotating body rotates, the viscous composition is pulled in a radially outward direction of the rotary shaft, and the pulled viscous composition is cured through the fluid communicating portion, thereby forming a microstructure.
Abstract: A hot runner nozzle includes a nozzle body, an annular outlet channel in the nozzle body, a source channel upstream of the annular outlet channel in the nozzle body, and a flow transition channel in the nozzle body. The flow transition channel interconnects the source channel with a part-annular segment of the annular outlet channel. The flow transition channel widens in a downstream direction and has a non-uniform cross-sectional channel thickness in either or both of the longitudinal (downstream) and transverse directions. The geometry of the flow transition channel may promote at least one of a uniform velocity profile and a uniform temperature profile in a generated annular or part-annular melt flow.
Type:
Grant
Filed:
November 8, 2017
Date of Patent:
August 31, 2021
Assignee:
Husky Injection Molding Systems Ltd.
Inventors:
Adam Christopher Ulemek, Stephen Daniel Ferenc, Maciej Brelski, Wesley Grove
Abstract: An apparatus and to a method for producing a three-dimensional object built up from at least one material layer by selective solidification of at least one powder raw material applied successively in raw material tracks to a build platform via an application unit of the apparatus. In this case, the apparatus for solidifying the raw material via energy input from a beam has an irradiation unit forming a build group together with the application unit, wherein the irradiation unit having a contiguous group of irradiation elements is rotatably mounted on the application unit.
Abstract: Stereolithography using solid thermoplastic photopolymer plates/sheets/films provides a new technique to make 3D printed objects. In this new additive manufacturing process, objects are built layer-wise using thermoplastic photopolymers and actinic radiation. The thermoplastic photopolymer compositions consist of a thermoplastic photopolymer layer sandwiched between a transparent flexible base without an anchoring layer and a release film. Un-crosslinked portions of the 3D printed object are removed by heat.
Abstract: A three-dimensional shaping apparatus includes a plasticizing portion plasticizing a material to generate a shaping material, a nozzle discharging the shaping material, a first flow path communicating with the plasticizing portion, a second flow path communicating with the nozzle, a through hole provided between the first flow path and the second flow path along a first direction intersecting a direction from the plasticizing portion toward the nozzle, a discharge control mechanism having a third flow path communicable with the first flow path and the second flow path, and configured to be slidable within the through hole, and a control portion controlling the plasticizing portion and the discharge control mechanism to shape the three-dimensional shaping object.
Abstract: A three-dimensional shaping apparatus includes a supply channel through which a shaping material supplied from a melting section flows, a first branch channel and a second branch channel, a coupling section configured to couple the supply channel and the first branch channel and the second branch channel, a first nozzle communicating with the first branch channel, a second nozzle communicating with the second branch channel and having a nozzle diameter larger than a nozzle diameter of the first nozzle, a valve mechanism provided in the coupling section, and a control section.
Abstract: A three-dimensional shaping apparatus includes a material melting portion melting a material to form a shaping material, a supply channel through which the shaping material flows, a rotator that is configured to rotate around a rotation axis and that has a first nozzle configured to communicate with the supply channel and a second nozzle configured to communicate with the supply channel, a flow rate regulating mechanism that is provided in the supply channel and that regulates a flow rate of the shaping material to be supplied to the first nozzle or the second nozzle, and a controller controlling the flow rate regulating mechanism and the rotator so as to eject the shaping material to a table from the first nozzle or the second nozzle, thereby shaping a three-dimensional shaped article, wherein the controller controls rotation of the rotator so as to switch between a first state where the supply channel and the first nozzle communicate with each other and a second state where the supply channel and the second
Type:
Grant
Filed:
December 18, 2019
Date of Patent:
May 11, 2021
Assignee:
SEIKO EPSON CORPORATION
Inventors:
Taki Hashimoto, Kohei Yuwaki, Koichi Saito
Abstract: The present disclosure relates to machines and methods for reaction injection molding. In particular, the present disclosure provides small format reaction injection molding machines having exchangeable molds and reactant material tanks, as well as molds configured for use therein and associated componentry. In one example, a reaction injection molding machine can include a housing, at least one reactant materials tank engagement station in operational engagement with a first reactant material tank, a molding support framework, an injection molding manifold, and an injection molding nozzle engagement station.
Type:
Grant
Filed:
July 13, 2018
Date of Patent:
March 23, 2021
Assignee:
BETAJET, LLC
Inventors:
Joseph W. Pruitt, Jerry V. Foster, Jonathan E. Schweiger, Christopher Statham, Michael D. Field
Abstract: A device for holding a cylindrical element includes a base and a clamp arm coupled with the base. The clamp arm is configured to pivot relative to the base between an open position and a closed position for clamping a cylindrical element against the base, and the clamp arm is resiliently biased toward the closed position. A support feature coupled with the base is configured to support an elongate element while the clamp arm clamps the cylindrical element. The device further includes a stem extending away from the base.