| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | ワイヤハーネス部材のモールド方法 | JP2014043103 | 2014-03-05 | JP6409160B2 | 2018-10-24 | 山口 敦吉 |
| 2 | MOULDING PROCESS | US15572053 | 2017-01-19 | US20180085972A1 | 2018-03-29 | Janne Tuomas KYTTANEN; Eduard Willem ZANEN |
| The invention is directed to a method of forming a moulded item said method comprising the steps of (a) providing a mould former comprising an indentation having an inner surface and a bottom face and made of plastics and manufactured by a 3-dimensional printing process, said mould former being shaped to form a mould having (i) an indentation corresponding to the desired shape of said moulded item; and (ii) a series of holes extending between the inner surface and the bottom face of the mould former, (b) forming a mould in said mould former from a plastics material; (c) positioning an elongate member in said mould; (d) introducing a volume of liquid into said indentation; (e) positioning a cover over said mould and sealing it thereto; (f) causing said liquid to solidify. | ||||||
| 3 | 3D PRINTER WITH REMOVEABLE RELEASE LAYER | US15195888 | 2016-06-28 | US20170368749A1 | 2017-12-28 | ULRIK PILEGAARD; TIMOTHY GRAHAM |
| Disclosed is a 3D printer with a build platform configured to quickly and easily release a build object with no damage to the object. The build platform comprises a rigid frame; an adhesion surface configured to detachably attach to the upper side of the rigid frame; and rack assembly configured to attach to the bottom side of the rigid frame. The rigid frame includes a substantially planar plate of steel, while the adhesion surface comprises a flexible sheet material with an inherent concave curvature with the center biased toward the steel plate. Sets of clips and tabs integral to either the rigid frame or adhesion surface may be employed to releasable lock the frame and adhesion surface together. Sets of protrusions and dimples integral to either the rigid frame or adhesion surface may be employed to releasable lock the frame and adhesion surface together. To release a printed object, the user need only detach the adhesion surface from the rigid frame, and then twist the adhesion surface. | ||||||
| 4 | Method for forming a composite structure | US382595 | 1989-07-21 | US5059377A | 1991-10-22 | Larry J. Ashton; Todd H. Ashton |
| A method of forming a three-dimensional composite structure. Uncured portions of the composite structure are first assembled between a initially rigid heat-softening inner layer of ABS plastic and a hard outer mold surface. Prior to curing of the composite structure, pressure and heat is applied to the ABS layer to soften the layer. Thereafter, pressure is applied to the side of the ABS layer opposite from the composite structure, thereby to compact the uncured portions of the composite structure against the hard outer mold. Stiffening beams may be incorporated into the composite structure, so as to yield a lightweight, strong composite structure that can be used as a pressure vessel in an aerospace vehicle. | ||||||
| 5 | MATRIX-PRODUCTION CARRIER | US15469629 | 2017-03-27 | US20170274562A1 | 2017-09-28 | David Tumey; Derek Cox; Jessica Bills |
| Based on dimensions and configurations of a dermal wound on a patient, a carrier is custom-made, preferably by 3D printing, to include a cavity that is duplicative of the specific wound. When the custom-made carrier is used to contain slurry, and the slurry-containing carrier undergoes processing steps (such as freeze-drying in a lyophilization chamber), a matrix is formed that, when removed from the carrier and put into the wound of the patient for whom the carrier was custom-made, fills the wound volume. | ||||||
| 6 | THREE-DIMENSIONAL PRINTER SYSTEMS AND METHODS | US15029197 | 2014-10-15 | US20160236408A1 | 2016-08-18 | Erick Packard Wolf; Felisa Gamboa; Phillip Joseph Trenerry; Miles Tyler Craig |
| Disclosed are embodiments of a three-dimensional (3D) printer for building 3D objects with layer based, additive manufacturing techniques. The 3D printer can have an extrusion assembly including a hot end for heating consumable material and depositing the consumable material in layers on a printing bed. The hot end can be moved in a horizontal plane parallel the printing bed while the printing bed can be moved perpendicular to the horizontal plane to print the 3D object. | ||||||
| 7 | METHOD TO PRODUCE IN-MOULD HELMETS AND IN-MOULD HELMETS ACCORDING TO THE METHOD | US11972572 | 2008-01-10 | US20080172774A1 | 2008-07-24 | Stefan Ytterborn; Jan Woxing |
| The invention concerns an in-mould helmet, comprising a shell (1) and a blow-moulded layer of shock absorbing material (2) inside the shell. The in-mould helmet is provided with penetration protection (3), at least partially, between the shell (1) and the shock absorbing layer (2). The invention also concerns a method to produce an in-mould helmet, comprising the steps of vacuum forming a shell (1), arranging penetration protection (3) inside the shell (1), and blow-moulding shock absorbing material (2) inside the shell (1). | ||||||
| 8 | Apparatus for forming a composite structure | US382600 | 1989-07-21 | US5137071A | 1992-08-11 | Larry Ashton; Todd H. Ashton |
| An apparatus used to form a three-dimensional composite structure is disclosed having an initially rigid heat-softenable layer of ABS plastic wherein uncured portions of the composite structure are first assembled between the layer of ABS plastic and a hard mold surface. Prior to curing of the composite structure, pressure and heat are applied to the ABS layer to soften the layer and thereafter compact the uncured portions of the structure against the hard mold surface. The ability to pre-shape the ABS layer allows stiffening beams to be incorporated into the structure so as to yield a lightweight, strong composite structure that can be used as a pressure vessel in an aerospace vehicle. | ||||||
| 9 | A METHOD OF MANUFACTURING A MICROFLUIDIC DEVICE | US15561905 | 2015-03-27 | US20180126375A1 | 2018-05-10 | Vittorio SAGGIOMO; Aldo Hendrikus VELDERS |
| A method of manufacturing a microfluidic device, said method comprising placing a length of material in a liquid polymer, configuring the length of material to define the path of a microfluidic channel, curing or setting the polymer liquid to form a solid polymer around the configured length of material, and dissolving the configured length of material with a solvent to provide a microfluidic channel in the solid polymer. | ||||||
| 10 | THREE-DIMENSIONAL PRINTER SYSTEMS AND METHODS | US15616798 | 2017-06-07 | US20170355139A1 | 2017-12-14 | Erick Packard Wolf; Jowell Randall |
| Disclosed are embodiments of a three-dimensional (3D) printer for building 3D objects with layer based, additive manufacturing techniques. The hot end can be moved in a horizontal plane parallel a planar printing surface of the printing bed while the printing bed can be moved perpendicular to the planar printing surface to print a 3D object. The hot end can be part of an extrusion guide assembly. The 3D printer can auto-level the printing bed. | ||||||
| 11 | SYSTEM AND METHOD FOR MONITORING BIOMETRIC SIGNALS | US14702129 | 2015-05-01 | US20150230719A1 | 2015-08-20 | James Berg; Hamid Butt; Dhananja Jayalath |
| A system for monitoring biometric signals of a user comprising: a garment configured to be worn by the user and comprising a mounting module having an array of connection regions; a set of biometric sensors coupled to the garment and configured to communicate with the array of connection regions to receive and transmit biometric signals indicative of muscle activity of the user; and a portable control module configured to couple to the garment in a first configuration and to decouple from the garment in a second configuration and comprising: a housing comprising an array of openings; a set of contacts, each including a first region that seals at least one of the array of openings and couples to at least one of the array of connection regions in the first configuration, and an electronics subsystem coupled to the housing and in communication with a second region of each contact. | ||||||
| 12 | ワイヤハーネス部材のモールド方法 | JP2014043103 | 2014-03-05 | JP2015168105A | 2015-09-28 | 山口 敦吉 |
| 【課題】ハーネス装着部品に応じて安価に多品種少量生産に対応できるワイヤハーネス部材のモールド方法を提供する。 【解決手段】ワイヤハーネス部材のモールド方法は、ワイヤハーネスの外周にハーネス装着部品を成形するためのキャビティ17とハーネス収容部43とを備え、ハーネス収容部43を形成する内面45にキャビティ17が形成される上樹脂型31及び下樹脂型33を、それぞれマスター金型で成形する樹脂型成形工程と、ハーネス収容部43にワイヤハーネスの中間部を収容し、溶融した熱可塑性樹脂をキャビティ17に低圧射出することにより、型締装置により型締めされた上樹脂型31及び下樹脂型33でワイヤハーネスの外周にハーネス装着部品を低圧射出成形する部品成形工程と、を含む。 【選択図】図6 |
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| 13 | Method and apparatus for forming composite structure | JP18961790 | 1990-07-19 | JPH0365317A | 1991-03-20 | RARII JIEDO ASHIYUTON; TOTSUDO HANTAA ASHIYUTON |
| PURPOSE: To form a part showing precise tolerance, lightweightness and excellent strength by forming an uncured composite structure between a first mold means and a thermally softenable second mold means and applying pressure to the second mold means. CONSTITUTION: The reference surface 24 of a first outer mold means 12 is turned upwardly and the thermally softenable second inner mold means 30 is formed on the reference surface 24 and the mold means 30 comprises a thermally deformable ABS plastic layer 32. The ABS layer 32, an envelope bag body 46 and a set-back material 52 are assembled to form a glas fiber lining material 54 to the top part of the cured envelope bag body 46. Next, a clamb shell 16 and the set-back material 52 are removed from the surface 34 of a mold and the uncured part 66 of a composite structure is assembled so as to adjacent to the surface 34 of the mold. The ABS layer and the periphery of the edge part of the clamb shell 14 are enclosed by the envelope bag body 46 and pressure is applied to the back surface of the ABS layer 32 and the softened ABS layer and the composite structure are further compressed with respect to a clamb shell reference surface. COPYRIGHT: (C)1991,JPO | ||||||
| 14 | METHOD AND APPARATUS FOR FORMING A COMPOSITE STRUCTURE | EP90201979 | 1990-07-19 | EP0409354A3 | 1991-07-31 | ASHTON, LARRY JED; ASHTON, TODD HUNTER |
| 15 | MOULDING PROCESS | EP17703664.7 | 2017-01-19 | EP3405321A1 | 2018-11-28 | KYTTANEN, Janne, Tuomas; ZANEN, Eduard, Willem |
| The invention is directed to a method of forming a moulded item said method comprising the steps of (a) providing a mould former comprising an indentation having an inner surface and a bottom face and made of plastics and manufactured by a 3-dimensional printing process, said mould former being shaped to form a mould having (i) an indentation corresponding to the desired shape of said moulded item; and (ii) a series of holes extending between the inner surface and the bottom face of the mould former, (b) forming a mould in said mould former from a plastics material; (c) positioning an elongate member in said mould; (d) introducing a volume of liquid into said indentation; (e) positioning a cover over said mould and sealing it thereto; (f) causing said liquid to solidify. | ||||||
| 16 | Method and apparatus for forming a composite structure | EP90201979.3 | 1990-07-19 | EP0409354A2 | 1991-01-23 | Ashton, Larry Jed; Ashton, Todd Hunter |
A method of forming a three-dimensional composite structure is disclosed wherein uncured portions of the composite structure are first assembled between an initially rigid heat-softenable layer of ABS plastic (32) and a hard mould surface (14). Prior to curing of the composite structure, pressure (92) and heat are applied to the ABS layer to soften the layer and thereafter compact the uncured portions of the structure against the hard mould surface. The process may be used to incorporate stiffening beams in the structure so as to yield a lightweight, strong composite structure that can be used as a pressure vessel in an aerospace vehicle. An apparatus for use in the method is also disclosed. |
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| 17 | 폐 비닐을 이용한 합성수지 판재 및 그 제조방법 | KR1020050110832 | 2005-11-18 | KR1020070052976A | 2007-05-23 | 김영성; 정한석 |
| 본 발명은 농촌의 심각한 환경문제로 대두되고 있는 농촌의 폐비닐을 이용하여 판재를 얻고자 하는 것으로, 기존의 농촌 폐 비닐속에 함유된 이물질 ,흙 등을 별도의 세척, 선별과정을 거치지 아니하고 일정 크기로 절단하여 고온, 고압의 압출기로 압출시켜 판재기판을 얻고 그 기판의 표면에 원하는 강화수지나 강화섬유재를 표면에 압출시켜 이루어지는 수지복합판재 및 그 제조 방법에 관한 것이다. 즉, 본원의 플라스틱재 판재는 폐 비닐을 수거하여 세척하지 않은 상태에서 일정크기로 컷팅하여 벌크 크기로 용융, 압출시켜 판상의 기판(substrate)을 성형하고, 상기 기판의 일측면 또는 기판의 상하 양측면 각각에 수지강화층이나 섬유강화층 중에서 선택되는 강화시트층을 적층시켜 다층구조를 이루도록 하는 것이며, 상기 수지강화층은 폴리에틸렌이나 폴리프로필렌 또는 ABS 수지 중에서 선택되어 사용되고, 섬유강화층은 폴리에스테르계열의 부직포나 매트, 불포화폴리에스테르, 유리섬유, 에폭시수지 중에서 선택되어 사용되는 것을 특징으로 하는 폐 비닐을 이용한 플라스틱재 판재를 제공한다. 폐 비닐수지, 수지강화층, 섬유강화층, 3중 내지 5중구조의 수지판재. | ||||||
| 18 | 우드그레인 층을 포함하는 스티어링 휠 제조방법 | KR1020030102163 | 2003-12-31 | KR1020040010505A | 2004-01-31 | 표억선; 이대일; 김희덕 |
| PURPOSE: A method for manufacturing a steering wheel including a woodgrain layer is provided to partially form the woodgrain layer at a rim portion without a water-pressure transferring process. CONSTITUTION: A method for manufacturing a steering wheel(10) including a woodgrain layer(11) comprises the steps of: partially forming a woodgrain film at a rim portion(7) by thermoforming; inserting the formed woodgrain film into a cavity of a steering wheel mold; locating rim core(13) in the cavity; and injecting thermoplastic resin into a space between the woodgrain film and the rim core. | ||||||
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