| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 자체적으로 확장 및 수축된 상태를 가지는 편조된 텍스타일 슬리브 및 그것의 제조 방법 | KR1020177014338 | 2015-10-30 | KR1020170075776A | 2017-07-03 | 파탈라아멜; 파네아아나마리아; 장종화이; 틸지미이.; 가오티앤치; 크라우저리 |
| 텍스타일슬리브및 그것의제조방법이제공된다. 슬리브는양 단부사이에서중심길이방향축을따라길이방향으로연장되는편조된관형벽을포함한다. 벽은길이가감소되고, 단면적이증가된제1 상태및 길이가증가되고, 단면적이감소된제2 상태를가진다. 벽내에서열세팅된얀은벽에편향을부여하며, 편향은벽을외부에서가해진힘 없이제1 및제2 상태각각으로유지시킨다. | ||||||
| 62 | 파운데이션 화장품이 수용되는 내용기의 에어리스펌프 제조방법 및 조립장치 | KR1020130084430 | 2013-07-17 | KR101461516B1 | 2014-11-21 | 이재신 |
| 본 발명은 파운데이션 화장품이 수용되는 내용기에 에어리스펌프 제조방법 및 조립장치에 관한 것으로서, 더욱 상세하게는 에어리스펌프에 적용되는 체크밸브, 내용물 안내부재, 밀폐피스톤, 및 승하강부재를 순차적으로 공급하면서 조립할 수 있도록 하는 파운데인션 화장품이 수용되는 내용기의 에어리스펌프 제조방법 및 조립장치에 관한 것이다.
이를 실현하기 위한 본 발명은 내용기에 결합되는 에어리스펌프의 조립 장치(10)에는 파운데이션 화장품이 수용되는 내용기(110)를 이송시키는 내용기 이송유닛(120) 및 내용기 이송유닛(120)에 의해 이송된 내용기(110)를 테이블(T)에 마련된 내용기 홀더(H)에 안착시킬 수 있도록 하는 내용기공급유닛(130); 상기 내용기 홀더(H)에 안착된 내용기(110)를 감지하는 내용기 감지유닛(140); 상기 내용기(110)에 마련된 에어리스펌프유닛(150)에 수용되는 체크밸브(151)를 이송시키는 체크밸브 이송유닛(160) 및 체크밸브 이송유닛(160)에 의해 이송된 체크밸브(151)를 에어리스펌프유닛(150)에 수용할 수 있도록 하는 체크밸브 공급유닛(170); 상기 에어리스펌프유닛(150)에 수용된 체크밸브(151)를 가압하여 체크밸브하우징(152) 내부로 삽입하기 위한 체크밸브가압유닛(180); 상기 에어리스펌프유닛(150)에 수용되는 내용물안내부재(153)를 이송시키는 내용물안내부재 이송유닛(190) 및 내용물안내부재 이송유닛(190)에 의해 이송된 내용물안내부재(153)를 체크밸브하우징(152) 상단에 안착할 수 있도록 하는 내용물안내부재 공급유닛(200); 상기 에어리스펌프유닛(150)에 수용되는 밀폐피스톤(154)을 이송시키는 밀폐피스톤 이송유닛(210) 및 밀폐피스톤 이송유닛(210)에 의해 이송된 밀폐피스톤(154)을 밀폐피스톤 하우징(156) 상단에 안착시킬 수 있도록 하는 밀폐피스톤 공급유닛(220); 상기 밀폐피스톤 하우징(156) 상단에 위치한 밀폐피스톤(154)을 가압하여 밀폐피스톤 하우징(156)의 내부로 진입하여 밀폐피스톤 하우징(156)의 하단까지 가압시키는 밀폐피스톤 가압유닛(230); 상기 에어리스펌프유닛(150)에 수용되는 승하강부재(157)를 이송시키는 승하강부재이송유닛(240) 및 승하강부재이송유닛(240)에 의해 이송된 승하강부재(157)를 상기 밀폐피스톤 하우징(156)의 상단에 안착시킬 수 있도록 하는 승하강부재공급유닛(250); 상기 밀폐피스톤 하우징(156) 상단에 위치한 승하강부재(157)를 타격하여 승하강부재 하우징(158) 내주연부에 진입시킬 수 있는 승하강부재 타격유닛(260): 상기 내용기(110)의 에어리스펌프유닛(150)에 체크밸브(151), 내용물안내부재(153), 밀폐피스톤(154), 승하강부재(157)를 순차적으로 조립하여 완성된 제품을 다른 공정으로 배출하기 위한 제품배출유닛(280)를 특징으로 한다. |
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| 63 | METHOD FOR PRODUCING FRP PRECURSOR AND DEVICE FOR PRODUCING SAME | US15570998 | 2016-04-27 | US20180345540A1 | 2018-12-06 | Yuji TOSAKA; Yoshinori SATOH; Takeshi SAITOH |
| Provided are a method for producing an FRP precursor and a device for producing an FRP precursor, wherein the method and the device have a good productivity, and under a normal pressure, enable filling of a resin into a bulk gap of an aggregate as well as prevent the resin from spouting out from an edge portion thereof. The method for producing the FRP precursor is to produce the FRP precursor by melt-adhering each of a pair of thermosetting resin films 54 to each of both surfaces 40a and 40b of an aggregate 40 that is in a form of a sheet, the method comprising: an aggregate's surface heating process to heat aggregate's both surfaces, i.e., the both aggregate's surfaces 40a and 40b of the aggregate 40, and a film press-adhering process to obtain the FRP precursor wherein under a normal pressure, one aggregate-side film surface 54a of the pair of the films 54 is press-adhered to one surface of the heated both aggregate's surfaces, and another aggregate-side film surface 54a of the pair of the films 54 is press-adhered to another surface of the heated both aggregate's surfaces. | ||||||
| 64 | METHOD FOR PRODUCING FRP PRECURSOR AND DEVICE FOR PRODUCING SAME | US15570973 | 2016-04-27 | US20180345539A1 | 2018-12-06 | Yuji TOSAKA; Yoshinori SATOH; Takeshi SAITOH |
| Provided are a method for producing an FRP precursor and a device for producing an FRP precursor, wherein the said FRP precursor is excellent in impregnability of a thermosetting resin as well as in heat resistance of the FRP precursor to be obtained. The method for producing the FRP precursor, wherein each of one pair of thermosetting resin films 54 are adhered to each of both surfaces 40a and 40b of an aggregate 40 in a form of a sheet, comprises: an attaching process to attach an organic solvent 13a to the both surfaces 40a and 40b of the aggregate 40; a film press-adhering process wherein under a normal pressure, each of the aggregate-side film surfaces 54a of the pair of the films 54 and 54 is press-adhered to each of the both surfaces 40a and 40b of the soaked aggregate 40 to obtain the FRP precursor 60; and an attached amount adjusting process to adjust amount of the organic solvent 13a that is attached to the soaked aggregate 40. The attaching process comprises soaking of the aggregate 40 into the vessel 13b. | ||||||
| 65 | Machine for forming and filling containers comprising a stabilization area for stabilizing the liquid inside the containers | US15030516 | 2014-10-20 | US10065358B2 | 2018-09-04 | Daniel Diesnis |
| A machine to shape from a preform and fill with liquid successive containers in successive molds. The machine defines a first closed loop and includes a plurality of holding devices adapted to hold a neck of a preform or of a container. The holding devices are distributed along the first closed loop and the machine further includes a conveyor adapted to convey the holding device along the first closed loop. The first closed loop including a forming area along which each holing device is integrated in a forming station. The first closed loop also including one straight portion extending substantially rectilinearly. | ||||||
| 66 | Method for the fabrication of a preform, preform and container | US14414756 | 2013-07-25 | US09987831B2 | 2018-06-05 | Jean-Paul Cerveny; Nicolas Dabrowski; Christian Detrois; Emmanuel Laine; Erik Lupke |
| A method for fabricating a preform (100) by providing a plurality of preform segments (101-103) which each define a portion of a preform (100), positioning said preform segments (101-103) in continuous contact with each other along at least one edge of said preform segments (101-103) such that said plurality of preform segments (101-103) define a cavity (107), and bonding each of said preform segments (101-103) to at least one other preform segment such that said plurality of preform segments (101-103) forms a continuous whole. | ||||||
| 67 | METHOD OF FABRICATING A BLADE PLATFORM OUT OF COMPOSITE MATERIAL WITH INTEGRATED GASKETS FOR A TURBINE ENGINE FAN | US15126982 | 2015-03-05 | US20180117807A1 | 2018-05-03 | Yann Didier Simon MARCHAL; Bruno Jacques Gerard DAMBRINE |
| There is provided a method of fabricating a blade platform out of composite material with integrated gaskets for a turbine engine fan, the platform including a base and a stiffener, the method including using three-dimensional weaving to make a single-piece fiber blank with a plurality of longitudinal yarn layers extending in a direction corresponding to a longitudinal direction of the base of the platform; shaping the fiber blank to form a fiber preform having a first portion forming a base preform and a second portion forming a stiffener preform; positioning platform gaskets at side margins of the first portion of the fiber preform forming a base preform; placing the fiber preform with the gaskets in an injection mold; injecting resin into the injection mold; compacting the assembly; heating the injection mold to solidify the resin; and unmolding the resulting platform. | ||||||
| 68 | Shutter covered on sound hole of loudspeaker module and assembling method thereof, loudspeaker module | US14890224 | 2013-12-13 | US09872099B2 | 2018-01-16 | Shuangshuang Fan; Gang Chen; Dan Han; Yun Yang; Hongwei Du |
| A blocking piece covering the sound hole of a loudspeaker module may be arranged at a position where the sound hole is located on the case of the loudspeaker module and covers the sound hole. The blocking piece may be made of a nonmetallic flexible net. The nonmetallic net-shaped blocking piece and the case may be formed integrally by injection molding. The loudspeaker module and the blocking piece covering the sound hole thereof in the present invention may provide good acoustic performance, high reliability, high space utilization rate and/or high production efficiency. The assembling method for the blocking piece covering the sound hole of the loudspeaker module further makes the assembling of the blocking piece convenient for operation, and improves the assembling efficiency and assembling quality. | ||||||
| 69 | Cables having a conductive composite core and methods of forming the same | US15092098 | 2016-04-06 | US09715954B2 | 2017-07-25 | Gregg R. Szylakowski; Nicholas John Duer; Maisha Makeda Cox |
| A cable including a conductive composite core formed from braided carbonized fibers and fiberglass fibers. At least a portion of the fiberglass fibers are coated with magnetic material to suppress electromagnetic interference noise. Methods of forming such cables is also provided herein. | ||||||
| 70 | PIEZOELECTRICITY PVDF MATERIALS AND METHOD FOR MAKING THE SAME | US14828524 | 2015-08-18 | US20170054069A1 | 2017-02-23 | Mehmet Bayindir; Mehmet Kanik |
| This invention provides kilometer-long, endlessly parallel, spontaneously piezoelectric and thermally stable poly(vinylidene fluoride) (PVDF) ribbons using iterative size reduction technique based on thermal fiber drawing method. The PVDF ribbons are thermally stable and conserve the polar γ phase even after being exposed to heat treatment above the melting point of PVDF. A single PVDF ribbon has an average effective piezoelectric constant as −58.5 pm/V. PVDF ribbons in the invention are promising structures for constructing devices such as highly efficient energy generators, large area pressure sensors, artificial muscle and skin, due to the unique geometry and extended lengths, high polar phase content, high thermal stability and high piezoelectric coefficient. | ||||||
| 71 | METHOD OF MAKING A COMPOSITE PREFORM | US15302583 | 2015-04-06 | US20170028601A1 | 2017-02-02 | Ranvir Kumar Soni; Peter James Zuber |
| A method to form a part can comprise forming a pattern with a commingled yarn (10), wherein the commingled yarn comprises thermoplastic resin filaments (40) formed from a thermoplastic material and reinforcing filaments (20) formed from a reinforcing material, and wherein the reinforcing material has a glass transition temperature and/or a decomposition temperature that is higher than a glass transition temperature of the thermoplastic material; attaching the pattern to a carrier material (76) to form a preform (70); and using the preform to form a part. | ||||||
| 72 | FIBER MANUFACTURING METHOD, NON-WOVEN FABRIC MANUFACTURING METHOD, AND FIBER MANUFACTURING EQUIPMENT | US15231094 | 2016-08-08 | US20160354964A1 | 2016-12-08 | Yukihiro KATAI; Shigehisa SUGIYAMA; Seiji KASAHARA; Yasuhisa SHIMODA; Masahiro ESAKI |
| A fiber manufacturing method includes the following steps of: dissolving a polymer in a solvent to obtain a polymer solution; spraying the polymer solution into a liquid heated to a boiling point of the solvent or higher, and evaporating the solvent to precipitate a fibrous polymer in a sealed precipitation tank, the liquid being immiscible with the polymer and the solvent; conveying the precipitated fibrous polymer in a liquid from the precipitation tank; water-rinsing the fibrous polymer conveyed in the liquid in the conveying step in a sealed water-rinsing tank; conveying the water-rinsed fibrous polymer in a liquid from the water-rinsing tank; and cooling and condensing solvent gas that is generated in the spraying step and the water-rinsing step. | ||||||
| 73 | SYSTEM AND METHOD FOR MANUFACTURING OFF-AXIS PREPREG MATERIAL | US14704804 | 2015-05-05 | US20160325509A1 | 2016-11-10 | Charles R. Prebil; James R. Fox; Randall D. Wilkerson |
| An off-axis prepreg material manufacturing machine may include a robot configured to position a prepreg piece adjacent to an end of a prepreg layer. The machine may additionally include an alignment system configured to sense a position of the prepreg piece relative to the prepreg layer and generate a position signal representative thereof. The machine may also include a controller configured to receive the position signal and cause the robot to adjust the position of the prepreg piece such that an end edge of the prepreg piece and an end edge of the prepreg layer are in substantially abutting contact. | ||||||
| 74 | MULTILAYER STRUCTURAL COMPONENT, METHOD FOR THE PRODUCTION THEREOF AND USE THEREOF | US15023763 | 2014-09-23 | US20160214548A1 | 2016-07-28 | Philipp MÖLLER; Ulrich GROSSER; Thomas GRIMM; Rolf ALBACH; Roland BRAMBRINK; Bernd BREUER |
| The invention relates to a multilayer structural component (84, 110, 120, 170) comprising a first and a second fibre-composite layer (102, 104, 122, 124, 172, 174) and a foam layer (106, 126, 176), arranged in between, made of foamed plastics material, wherein the first and the second fibre-composite layer (102, 104, 122, 124, 172, 174) each have at least one fibrous layer (4, 16, 18, 24) made of a fibre material, said fibrous layer being embedded in a thermoplastic-based matrix (8, 20). The structural component has an anchoring structure (140) for attaching to a force introduction element. The invention furthermore relates to a method for producing a structural component (84, 110, 120, 170), in which a first and a second fibre-composite sheet (2, 12, 48, 52) are provided, wherein the first and the second fibre-composite sheet (2, 12, 48, 52) each have at least one fibrous layer (4, 16, 18, 24) made of a fibre material, said fibrous layer being embedded in a thermoplastic-based matrix (8, 20), in which the first fibre-composite sheet (2, 12, 48, 52) is thermoformed to form a first fibre-composite semifinished product (64, 86, 88) and the second fibre-composite sheet (2, 12, 48, 52) is thermoformed to form a second fibre-composite semifinished product (64, 86, 88), in which the first and the second fibre-composite semifinished product (64, 86, 88) are arranged in a foaming mould (90) such that a cavity (96); is formed between the first and the second fibre-composite semifinished product (64, 86, 88), and in which the cavity (96) is foamed by injection of a foaming plastics material. Furthermore, the anchoring structure (140) is integrated into the structural component. | ||||||
| 75 | BRAIDED TEXTILE SLEEVE WITH SELF-SUSTAINING EXPANDED AND CONTRACTED STATES AND METHOD OF CONSTRUCTION THEREOF | US14634216 | 2015-02-27 | US20160122915A1 | 2016-05-05 | Amel Fathallah; Ana Maria Panea |
| A protective textile sleeve includes a braided, tubular wall extending lengthwise along a central longitudinal axis between opposite ends. The wall has a decreased length, increased diameter first state and an increased length, decreased diameter second state. Heat-set, braided yarns within the wall impart a bias on the wall, wherein the bias causes the first and second states to be bi-stable and self-sustaining. | ||||||
| 76 | HOUSING, ELECTRONIC DEVICE USING SAME, AND METHOD FOR MAKING SAME | US14712166 | 2015-05-14 | US20160118712A1 | 2016-04-28 | CHANG-HAI GU; XIAO-KAI LIU |
| A housing includes a base, a metal strip assembly, and insulating layers. The base has a number of main portions separated by one or more openings formed therein. The metal strip assembly is positioned within the openings. The metal strip assembly is formed by a series of metal strips fixed together by adhering layers. The insulating layers is positioned between the metal strip assembly and the main portions. | ||||||
| 77 | SHUTTER COVERED ON SOUND HOLE OF LOUDSPEAKER MODULE AND ASSEMBLING METHOD THEREOF, LOUDSPEAKER MODULE | US14890224 | 2013-12-13 | US20160088385A1 | 2016-03-24 | Shuangshuang FAN; Gang CHEN; Dan HAN; Yun YANG; Hongwei DU |
| A blocking piece covering the sound hole of a loudspeaker module may be arranged at a position where the sound hole is located on the case of the loudspeaker module and covers the sound hole. The blocking piece may be made of a nonmetallic flexible net. The nonmetallic net-shaped blocking piece and the case may be formed integrally by injection moulding. The loudspeaker module and the blocking piece covering the sound hole thereof in the present invention may provide good acoustic performance, high reliability, high space utilization rate and/or high production efficiency. The assembling method for the blocking piece covering the sound hole of the loudspeaker module further makes the assembling of the blocking piece convenient for operation, and improves the assembling efficiency and assembling quality. | ||||||
| 78 | PLASTIC MOULDING METHOD | US14891354 | 2014-04-04 | US20160082627A1 | 2016-03-24 | Rafael KILIM; Simcha KILIM |
| A method of plastic moulding to form a moulded or extruded article, the method employing a moulding apparatus comprising a barrel containing a screw extending between a feed zone supplied by a feed hopper for plastics material, a compression zone and a metering zone for delivery of molten plastics material to a mould or extrusion die, the method comprising introducing into the feed zone a first plastics material (20) and a single body of a second plastics material (22), the first plastics material (20) having a different physical property to the second plastics material and the second plastics material (22) being introduced into the feed zone in a size and a frequency of delivery relative to the flow of the material through the barrel such that the second plastics material (22) is substantially melted and blended with the first plastics material to form a third plastics material with a different physical property to the first or second plastics material across the whole cross sectional area of the metering zone, the molten plastics material delivered to the mould or extrusion die in a predetermined sequence with each plastics material having different physical properties. | ||||||
| 79 | MANUFACTURING PLASTIC COMPOSITE ARTICLES | US14440922 | 2013-11-11 | US20150336329A1 | 2015-11-26 | Mario Lehmann; Jörg Mayer |
| A method of manufacturing a product includes the steps of providing a first and a second product part, each including a structure of fibers; arranging the first and second product parts relative to one another and against a support; providing a connecting element having a thermoplastic material; pressing the connecting element against the product parts to compress the semi-parts between the connecting element and the support and impinging the connecting element with energy, thereby causing thermoplastic material of the connecting element to become flowable, and causing the connecting element to be pressed into the product parts; and causing the thermoplastic material to re-solidify, thereby connecting the first and second product parts with each other. | ||||||
| 80 | MACHINE FOR BLOWING MOLDING ARTICLES SUCH AS CONTAINERS | US14664173 | 2015-03-20 | US20150266228A1 | 2015-09-24 | Stylianos ELEFTHERIOU |
| A machine is provided for blow-molding articles from a strip of material. The machine has a mount with two frames mounted thereon. Each frame is connected to a movement actuator so as to be movable along a path of the strip between respective positions that are upstream and downstream relative to a travel direction of the strip through the machine. A pipe, a holder member, and a mold are mounted respectively on an item selected from the mount and the frames. A control unit is connected to the movement actuators to control them in such a manner as to generate a sequence of moving the guide pipe and the mold relative to the holder member and of opening and closing the mold in such a manner as to cause the strip to advance along the rectilinear path. | ||||||
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