| 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 | 制造透明封壳的方法 | CN88101873 | 1988-03-31 | CN88101873A | 1988-10-19 | 森敬 |
| 利用一个具有几乎是半球形内表面的下铸塑模和一个具有几乎是半球形外表面的上铸塑模来制造透明封壳。上铸塑模的半径略微小于下铸塑模的半径。在所述下铸塑模和所述上铸塑模之间的空间中的透明树脂被均匀地、逐渐地加热,随后再使之冷却,以便使该透明树脂硬化。此后,将上铸塑模同下铸塑模分开并取出已制成球面形状的透明树脂。 | ||||||
| 2 | 无框架式临时或应急庇护所 | CN201580015474.6 | 2015-03-20 | CN106232911A | 2016-12-14 | 查尔斯·考尔德·布雷 |
| 一种可折叠的无框架式应急庇护所,所述应急庇护所由可弯曲但刚性的板的径向阵列构成,例如泡沫塑料的板的阵列。板拥有具有匹配的凸状地弯曲的轮廓的邻接边缘。通常使用诸如粘接带的柔性的紧固件来将边缘相互固定。在建造期间,平坦的板固有地变形成曲面圆柱状的锥形形状,曲面圆柱状的锥形形状围合出一定的空间。提供有门和可选的地板。庇护所具有刚性的顶帽、门和可选的窗户,顶帽包括用于牵索的孔。 | ||||||
| 3 | Methods and apparatus for fabricating structures | US11844975 | 2007-08-24 | US08113807B2 | 2012-02-14 | Timothy Wilkinson |
| Methods and apparatus for fabricating structures, extrusion units, and structures fabricated using such methods and apparatus are disclosed. The apparatus may include a support configured for rotation about a central axis, a carriage that may move along the support when the support rotates about the central axis such that the carriage may move along a first spiral path about the central axis, and an extrusion unit that may be supported by the carriage and may move along a second spiral path as the carriage moves along the first spiral path. The extrusion units may be configured to extrude a strip of material through an extrusion die as the extrusion unit moves along a previously extruded strip of material such that the extruded strip may be fused onto the previously extruded strip as the extruded and previously extruded strips pass the extrusion die. | ||||||
| 4 | METHODS AND APPARATUS FOR FABRICATING STRUCTURES | US11844975 | 2007-08-24 | US20090051062A1 | 2009-02-26 | Timothy Wilkinson |
| Methods and apparatus for fabricating structures, extrusion units, and structures fabricated using such methods and apparatus are disclosed. The apparatus may include a support configured for rotation about a central axis, a carriage that may move along the support when the support rotates about the central axis such that the carriage may move along a first spiral path about the central axis, and an extrusion unit that may be supported by the carriage and may move along a second spiral path as the carriage moves along the first spiral path. The extrusion units may be configured to extrude a strip of material through an extrusion die as the extrusion unit moves along a previously extruded strip of material such that the extruded strip may be fused onto the previously extruded strip as the extruded and previously extruded strips pass the extrusion die. | ||||||
| 5 | Method of Producing a Polarizing Optical Element | US11677668 | 2007-02-22 | US20080044610A1 | 2008-02-21 | Noemie Lesartre; Dominique Rychel |
| A polarising optical element is produced by firstly forming a polarizing multilayer structure (30) on a support (31). The structure comprises an orienting layer and a polarizing layer having dichroic compounds, the dichroic compounds being oriented by the orienting layer The multilayer structure is then pressed against one surface of the optical element (40) through the support, with a portion of adhesive placed between the structure and the optical element. The support (31) for the structure is then removed, leaving the structure (30) bonded to the optical element (40). | ||||||
| 6 | Method for Producing a Polarizing Optical Element | US11677661 | 2007-02-22 | US20070212518A1 | 2007-09-13 | Cedric Begon; Christelle Defranco; Noemie Lesartre; Dominique Rychel |
| A multilayer polarizing structure is produced on a temporary support. The structure comprises at least one orienting layer and one polarizing layer comprising dichroic dyes, the dichroic dyes having an angular orientation determined by the orienting layer. The multilayer structure is separated from the temporary substrate before being applied onto a surface of an optical element. Applying the structure onto the optical element may be easily carried out while obtaining a quality compatible with many uses of the optical element, in particular ophthalmic use. | ||||||
| 7 | Pumping device, particularly for sports shoes, and method for manufacture thereof | US228634 | 1994-04-18 | US5480287A | 1996-01-02 | Adolfo Pozzebon; Alessandro Pozzobon; Alessandro Morandin |
| Method for manufacturing pumping devices, particularly usable in sports shoes, including the monolithic molding of a body having at least one tubular passage and a first and a second seat for air venting and intake valves. The body furthermore includes at least one chamber with a partially open elastically deformable wall. The method entails the closure of the chamber, whereas the valves and at least one inflatable plenum chamber are associable within the body thus obtained, before closing it. The pumping device thus obtained has optimum functional characteristics as well as very low manufacturing costs. | ||||||
| 8 | Method of casting photographs in dome-shaped structures | US66015 | 1979-08-13 | US4278626A | 1981-07-14 | Marin Atanasovski |
| A process for embedding photographs in dome-shaped transparent castings. Casting material is charged into a mold. A portion of the photograph is applied to the surface. The migration of gases from the casting material is monitored. As the gases migrate from the casting material, the photograph is continually applied over the surface. Subsequently, the mold is charged with additional casting material forming a completely embedded photograph in a dome-shaped casting which is transparent and free from bubbles. | ||||||
| 9 | Process of producing polarizing optical element | JP2007041911 | 2007-02-22 | JP2007241273A | 2007-09-20 | LESARTRE NOEMIE; RYCHEL DOMINIQUE |
| <P>PROBLEM TO BE SOLVED: To provide a process of manufacturing a polarizing optical element in a multilayer structure shape. <P>SOLUTION: The polarizing optical element is produced by firstly forming a polarizing multilayer structure (30) on a support (31). The multilayer structure comprises an orienting layer and a polarizing layer having dichroic compounds being oriented by the orienting layer. The multilayer structure is then pressed against one surface of the optical element (40) through the support, with a portion of an adhesive part placed between the structure and the optical element. The support (31) for the structure is then removed, leaving the structure (30) bonded to the optical element (40) by using the adhesive part. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 10 | 繊維強化複合材料成形品の製造方法と同製品 | JP2004530580 | 2003-08-20 | JPWO2004018186A1 | 2005-12-08 | 高野 恒男; 恒男 高野; 喜春 沼田; 伊藤 彰浩; 彰浩 伊藤; 真仁 田口; 純一 村松 |
| 裁断された各プリプレグ(31〜33)に複数の切り込み又は切り欠き(31b〜33b)を形成してプリプレグごとに少なくとも1組の一部分離片(31c〜33c)と残部(31d〜33d)とを形成する。この各プリプレグの一部分離片(31c〜33c)を位置決め片としてプレス型(10)の所定部位に重ねて配した後、各プリプレグの一部分離片(31c〜33c)を押圧して所望の立体形状とする。次いで、前記一部分離片(31c〜33c)の端縁部に残部(31d〜33d)の端縁部分を重ねてさらに押圧し、全体が所望の立体形状をなす繊維強化複合材料成形品を製造する。このようにして、繊維強化複合材料成形品を、しわを生じることなく安定して、高効率に製造することができる。 | ||||||
| 11 | Method for producing a fiber-reinforced composite material molded article | JP2004530580 | 2003-08-20 | JP4022222B2 | 2007-12-12 | 彰浩 伊藤; 純一 村松; 喜春 沼田; 真仁 田口; 恒男 高野 |
| 12 | Mold assembly for forming opening part in molded object and its molding method | JP23647696 | 1996-09-06 | JPH09109156A | 1997-04-28 | MAIKERU GANNAA JIYONSON; JIYOOJI NOEDORU; JIYOOJI JIYON SHIEBUCHIEKU |
| PROBLEM TO BE SOLVED: To arrange a large number of small opening parts in an arbitrary direction regardless of the moving direction of a mold assembly by forming rod members inserted into a mold cavity from an elastic and bending deformable material in order to arrange the opening parts to a molded object. SOLUTION: An inside housing 6 and a stabilizing plate 8 are connected prior to molding work to form a unit 15. An operation rod pressure plate 10 having elongated rod members 9 is arranged and the elongated rod members 9 are moved in the direction respectively pushed in the corresponding tubular members 7. When the inside housing 6 and an outside housing 1 are connected, the elongated tubular members 7 guide the elongated rod members 9 so as to pass them through the opening parts 4 of the inside housing and a mold cavity to insert them into the opening parts 2 of the outside housing 1. Therefore, the elongated rod members 9 are guided in the direction not parallel to the moving direction of the mold assembly to the rod members. | ||||||
| 13 | Ultrasonic welding device of net for wig core | JP31067586 | 1986-12-27 | JPS63166518A | 1988-07-09 | WATANABE TAKAYUKI; KOBAYASHI HISAO |
| PURPOSE:To make the surface luster of the welded part of each filament-outer surface of a net form to be suppressed by finishing the operating surface of an ultrasonic welding device into rough surface. CONSTITUTION:The net N for a wig core is placed on the operating plate 13 fitted onto the working bench 12 of an ultrasonic welding device 10, and desired ultrasonic welding operation is carried out. Then, while each intersecting point of filaments is welded mutually, simultaneously, the outer surface of the filament of the net form N is also once melted and formed into rugged shape, i.e. said outer surface is imparted with fine corrugation according to the shape of the plastoworked surface 13a of the operating plate 13. Accordingly, the ultrasonic welded part of the filament-outer surface of the net constituting the wig does not reflect light and is fully delustered. The operating plate 13 is made of the hand metal such as titanium alloy, etc., and the surface 13a has preferably the surface-roughness of Rz=15-120 mum. | ||||||
| 14 | Method of molding thermoplastic double plate with support portion | JP220080 | 1980-01-14 | JPS55113522A | 1980-09-02 | KAARU TEO BEHIRENBERUKU |
| 15 | Frameless temporary or emergency shelter | US15127796 | 2015-03-20 | US09951536B2 | 2018-04-24 | Charles Caulder Bree |
| A foldable, frameless emergency shelter is constructed from a radial array of bendable yet rigid panels such as of a foamed plastic. Panels have adjoining edges with matching convexly curved profiles. The edges are always held to each other with a flexible fastener such as an adhesive tape. During erection, a flat panel inherently deforms into a curved cylindrical tapered shape enclosing a space. A door and an optional floor are provided. The shelter has a rigid conical cap including holes for guy ropes, a door and an optional window. | ||||||
| 16 | Method of producing molded article of fiber-reinforced composite material and the molded article | US10525677 | 2003-08-20 | US08790563B2 | 2014-07-29 | Tsuneo Takano; Kiharu Numata; Akihiro Itou; Masato Taguchi; Junnichi Muramatsu |
| A method is presented for stably, highly, and efficiently producing a three-dimensional molded article of a fiber-reinforced composite material having a three-dimensional shape, uniform quality, and free from wrinkles by press molding a plurality of prepregs cut out in a predetermined shape and also to a molded article. | ||||||
| 17 | Method of producing a polarizing optical element | US11677668 | 2007-02-22 | US07727352B2 | 2010-06-01 | Noemie Lesartre; Dominique Rychel |
| A polarizing optical element is produced by firstly forming a polarizing multilayer structure (30) on a support (31). The structure comprises an orienting layer and a polarizing layer having dichroic compounds, the dichroic compounds being oriented by the orienting layer. The multilayer structure is then pressed against one surface of the optical element (40) through the support, with a portion of adhesive placed between the structure and the optical element. The support (31) for the structure is then removed, leaving the structure (30) bonded to the optical element (40). | ||||||
| 18 | Method of producing formed product of fiber-reinforced composite material and the formed product | US10525677 | 2003-08-20 | US20050253294A1 | 2005-11-17 | Tsuneo Takano; Kiharu Numata; Akihiro Itou; Masato Taguchi; Junnichi Muramatsu |
| A method is presented for stably, highly, and efficiently producing a three-dimensional molded article of a fiber-reinforced composite material having a three-dimensional shape, uniform quality, and free from wrinkles by press molding a plurality of prepregs cut out in a predetermined shape and also to a molded article. | ||||||
| 19 | Apparatus and method for reinforcing a pressure vessel | US10731774 | 2003-12-08 | US20040118857A1 | 2004-06-24 | Roger D. Wright; Marcus A. Darais; James A. Yorgason; Alan J. Loveless; Darrel G. Turner; David R. Nelson |
| Pressure vessel end dome reinforcements are placed upon resin-impregnated fiber-wound pressure vessels to improve the strength-to-weight ratio of high performance pressure vessels, such as those that are used as rocket motors, gas generators, and the like. The reinforcement structures are assembled from gore pieces to form gore bodies over dome regions of the pressure vessels. | ||||||
| 20 | Custom prosthetic devices and methods of fabricating them using visible reverse imaging | US955535 | 1997-10-22 | US6136027A | 2000-10-24 | D. K. Jackson |
| An external custom prosthetic device is created and positioned upon a patient such that an area to be covered is matingly engaged with a product that is a simulacrum of the part desired to be replaced due to reversed imaging, by laser photography or laser mapping. A method for creating a silicone based prosthetic, process for generating same with or without an air pocket disposed therein, and products by these processes are likewise taught. | ||||||
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