Abstract: An aging apparatus and method capable of shortening time for removing molded products from an injection molding device and cooling the same, thereby enhancing production efficiency. The aging apparatus includes an injection molding device configured to produce molded products and allow the molded products to be removed and fall therefrom, a guide pipe to guide the molded products falling from the injection molding device therethrough in such a manner that bottoms of the molded products are directed downwards, a tub mounted below the guide pipe, the tub containing water to cool the molded products falling into the tub through the guide pipe and absorb shock applied to the molded products, and a conveying device to convey the molded products cooled by the water in the tub to the outside.
Type:
Grant
Filed:
January 20, 2012
Date of Patent:
June 30, 2015
Assignee:
SAMSUNG ELECTRONICS CO., LTD.
Inventors:
Gyeong Su Kim, Kwang Hee Park, Kyung Mo Kang, Sung Gun Baek
Abstract: A device for molding by impregnation of at least one reinforcing layer constituting a piece to be molded or at least one reinforcing layer covering a piece, with a resin in liquid form. The device includes a mold extending around the reinforcing layer by defining a resin circulation space, an end piece for supplying resin in the circulation space, an end piece for evacuating the surplus resin as well as elements for generating a flow of resin in the circulation space. The mold includes a flexible conduit and elements for mechanically deforming the flexible conduit to shape the circulation space according to the impregnation parameters.
Abstract: A method of forming a tear line of an airbag door using an in-mold blade, may include a) confirming a time point when resin flow in an airbag door tear line portion may be completed in an injection mold, b) transferring a resin arrival signal to a blade operation portion for operating the in-mold blade, c) moving the in-mold blade forward at an in-mold blade forward time point that substantially corresponds to a receiving time of the resin arrival signal, d) completing the forward movement of the in-mold blade when the resin may be intercepted and dwelling starts, e) moving the in-mold blade backward before the dwelling may be completed, and f) completing the backward movement of the in-mold blade after the dwelling may be completed and cooling starts.
Type:
Grant
Filed:
March 30, 2011
Date of Patent:
June 23, 2015
Assignees:
HYUNDAI MOTOR COMPANY, KIA MOTORS CORPORATION
Abstract: The invention relates to a method and a device for producing a moulded body having microstructures from moulding material. The method for producing a moulded body having microstructures on a carrier out of moulding material is effected by inputting a moulding material into a container (10) comprising a mould cavity (14), wherein at least one micro-structured mould (12) is provided in the mould cavity. Furthermore, the centrifugation of a container (10) is carried out until the moulding material has completely entered into the structure of the mould (12). Thereafter, the curing of the moulding material is carried out to form a moulded body having microstructures, which is then removed from the mould (12) and the container (10).
Abstract: Endolumenal prostheses that readily and extensively convert from a delivery configuration to a deployed configuration are disclosed. Endolumenal prostheses may be fabricated from one or more shape memory polymers, a high modulus elastomer, a polymer that is both elastomeric and exhibits shape memory behavior, a hydrogel, or some combination thereof. Polymers used to fabricate the prostheses are selectively synthesized to exhibit desired characteristics such as crystallinity, strain fixity rate, strain recovery rate, elasticity, tensile strength, mechanical strength, cross-linking density, extent physical cross-linking, extent of covalent cross-linking, extent of interpenetrating networks, rate of erosion, heat of fusion, crystallization temperature, and acidity during erosion. The endolumenal prostheses convert to the deployed configuration following delivery to a treatment site, upon exposure to an initiator either present within the body naturally or introduced into the body.
Type:
Grant
Filed:
January 4, 2013
Date of Patent:
April 21, 2015
Assignee:
Synecor LLC
Inventors:
Michael Scott Williams, Yadong Wang, Robert Langer
Abstract: Provided is a pneumatic tire in which the adhesion of a noise absorbing member formed of a porous material is improved. A pneumatic tire according to the present invention includes a resin layer, a noise absorbing member and a locking member. The resin layer is formed of any one of a thermoplastic resin and a thermoplastic elastomeric composition obtained by dispersing an elastomer in a thermoplastic resin, and is formed on at least a part of the inner surface of the tire. The noise absorbing member is formed of a porous material, and is disposed on the resin layer. The locking member is formed of a thermoplastic resin, and is bonded to the resin layer through the noise absorbing member by thermal fusion.
Abstract: A coating die having a shut-off bar positioned to stop the flow of coating material within the flow channel of the die when the shut-off bar is in the closed position. In the closed position, the shut-off bar extends across the material flow channel, blocking flow of coating material therethrough. The shut-off bar moves essentially orthogonal to the direction of material flow. In some embodiments, the flow channel includes a shoulder against which the shut-off bar physically seals, the seal being essentially transverse or orthogonal to the direction of the material flow channel. Coating dies having a shut-off bar are particularly suited for patch coating applications.
Abstract: Methods and systems for manufacturing fiber-reinforced resin parts are disclosed herein. In one embodiment, a method for manufacturing a fiber-reinforced resin part includes positioning a plurality of fibers on a mold surface of a female tool, and covering the fibers with a sealing layer. The method further includes pressing a portion of the covered fibers against an interior transition region (e.g., an internal radius) of the mold surface. While the portion of covered fibers is pressed against the interior transition region, air is removed from between the sealing layer and the mold surface to draw at least a partial vacuum between the sealing layer and the mold surface.
Type:
Grant
Filed:
October 9, 2009
Date of Patent:
March 10, 2015
Assignee:
The Boeing Company
Inventors:
Thomas R. Cundiff, Dennis J. Hanks, Jack A. Woods, Val G. Brustad, Andrew E. Modin
Abstract: An apparatus for casting a patterned surface on both sides of an opaque web. The apparatus includes a first patterned roll, a second pattered roll, and a means for rotating the first and second patterned rolls such that their patterns are transferred to opposite sides of the opaque web while it is in continuous motion. During this process, their patterns are maintained in continuous registration to within at least 100 micrometers.
Type:
Grant
Filed:
May 6, 2014
Date of Patent:
March 3, 2015
Assignee:
3M Innovative Properties Company
Inventors:
John S. Huizinga, John T. Strand, James N. Dobbs, Thomas B. Hunter, William V. Dower, Daniel H. Carlson, Serge Wetzels, Gregory F. King, Olester Benson, Jr., Jeremy K. Larsen, Michael Benton Free, David W. Kuhns
Abstract: Methods of fabricating a polymeric implantable device with improved fracture toughness through annealing are disclosed herein. A polymeric construct is annealed with no or substantially no crystal growth to increase nucleation density. After the annealing, crystallites are grown around the formed nuclei. An implantable medical device, such as a stent, can be fabricated from the polymer construct after the crystallite growth.
Abstract: A device for acting on a material web using ultrasonic includes an ultrasonic unit which has a converter a booster and a sonotrode, and a counter tool. The material web is guided through a gap between the sonotrode and the counter tool and acted upon by the sonotrode. The ultrasonic unit is adjustable relative to the counter tool by way of a movable carriage, and the booster is firmly connected to the carriage. A support supports at least one side surface of the sonotrode and guides the sonotrode in the longitudinal direction thereof.
Abstract: A molding apparatus includes a mold having a long cavity; a pinching member that holds a long metal plate having a pair of longitudinal ends, a pair of lateral ends and a pair of surfaces forming a plate shape by pinching the long metal member, the long metal plate being inserted into the cavity such that the longitudinal direction of the long metal plate is directed to a longitudinal direction of the cavity and the long metal plate is positioned at a position offset from a center of the cross-section of the circumferential surface; and an inlet for pouring a resin material into a space defined between the mold and the pinching member, wherein a shape of the space is such that the amounts of the resin material to be poured around the each side of the pair of surfaces of the long metal plate are equivalent.
Abstract: A correcting apparatus of a seamless belt includes a bottomed cylindrical main body that has an inner peripheral surface formed of mirror surface and that accommodates a seamless belt at a distance from the inner peripheral surface, a lid body detachably attached to the main body, a fixing unit that fixes an upper end and a lower end of the seamless belt to the mirror surface, a pressing unit that presses the seamless belt accommodated in the main body against the mirror surface, and a heating unit that heats the mirror surface.
Type:
Grant
Filed:
June 8, 2010
Date of Patent:
January 27, 2015
Assignee:
Konica Minolta Business Technologies, Inc.
Abstract: The invention relates to a method and a device for producing a molded body having microstructures from molding material. The method for producing a molded body having microstructures on a carrier out of molding material is effected by inputting a molding material into a container (10) comprising a mold cavity (14), wherein at least one micro-structured mold (12) is provided in the mold cavity. Furthermore, the centrifugation of a container (10) is carried out until the molding material has completely entered into the structure of the mold (12). Thereafter, the curing of the molding material is carried out to form a molded body having microstructures, which is then removed from the mold (12) and the container (10).
Abstract: A method for manufacturing a crash pad for a vehicle, may include (a) preparing a die including an upper die and a lower die for forming a first cavity for a Passenger Air Bag (PAB) door and a second cavity for a crash pad body, between the upper die and the lower die, (b) fixing a skin foam on an upper surface of the lower die, (c) moving the upper die in an upward direction in a predetermined distance and filling the first cavity for the PAB door with a first material and the second cavity for the crash pad body with a second material, (d) moving the upper die in a downward direction to compress the first and second materials against the lower die, while the first and second cavities may be filled with the first material and the second material, and (e) extracting a core of the PAB door and the crash pad body integrally formed with the skin foam from the die.
Type:
Grant
Filed:
June 29, 2011
Date of Patent:
December 2, 2014
Assignees:
Hyundai Motor Company, Kia Motors Corporation
Abstract: A method and an apparatus to form a sheet of polymeric material have first and second mold halves which clamp together on a polymeric sheet. A vacuum mechanism draws the sheet into an interior space. The vacuum mechanism has a plurality of controllable vacuum ports positioned about the interior space to direct the vacuum at specific portions of the sheet. Also, the sensing mechanism determines the draw depth of the sheet.
Abstract: Passive stamp alignment system. The system includes a stamp supported by a stamp holder resting on three balls affixed to a top platform. A bottom platform supports a substrate to be aligned with the stamp. Means are provided for moving either the top or the bottom platform and holding the other platform stationary so as to contact the substrate with the stamp whereby the stamp holder is lifted away from each of the balls in sequence resulting in alignment of the stamp and the substrate parallel to each other.
Type:
Grant
Filed:
October 24, 2012
Date of Patent:
September 16, 2014
Assignee:
Massachusetts Institute of Technology
Inventors:
Sourabh Kumar Saha, Martin L. Culpepper
Abstract: A manufacturing method of a color filter substrate includes forming a black matrix on a substrate, the black matrix including first, second, third and fourth openings, forming first, second and third color filter patterns in the first, second and third openings, forming an overcoat layer on the substrate, disposing a soft mold on the organic material layer, the soft mold including first depressed portions and a second depressed portion, the first depressed portions corresponding to the black matrix, and the second depressed portion corresponding to the fourth opening, wherein a first depth of the first depressed portions is larger than a second depth of the second depressed portion, applying pressure to the soft mold such that the first and second depressed portions are filled with the overcoat layer, first curing the overcoat layer, detaching the soft mold from the overcoat layer, and second curing the overcoat layer.
Abstract: This invention discloses bottles and pre-forms prepared by injection-stretch-blow-molding (ISBM) from a composition comprising polypropylene and an inorganic non-sorbitol nucleating agent.
Abstract: There is provided a method of sealing and molding an optical device with resin by employing a die including a top piece, a bottom piece, an intermediate piece, and a mold release film pinched between the bottom and intermediate pieces. Thus, tensioned as prescribed to cover the bottom piece's cavity, when the bottom piece is heated, the mold release film expands and thus closely contacts the cavity's entire surface along the cavity's geometry so that the optical device can be sealed in transparent set resin shaped as desired.