| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 장벽 특성을 갖는 탈착가능하게 연결된 용기의 제조 방법 | KR1020087022900 | 2007-02-14 | KR101177604B1 | 2012-08-27 | 헨더슨,에릭,토마스; 미첼스,존,조셉 |
| 적어도 2개의 용기가 채널에 의해 함께 결합된 멀티-팩 용기 조립체의 형성 방법을 제공한다. 이 방법은 장벽 층을 갖는 시트를 제공하는 단계 및 시트를 복수의 용기를 갖는 멀티-팩 용기 조립체로 열성형하는 단계를 포함하며, 여기서 각 용기는 테두리를 포함하고 인접한 용기들의 테두리들은 가공된 연부 영역 또는 채널에 의해서 연결되어 있다. 생성된 용기는 수분이 적고 저장 안정한 즉석 식품용으로 사용될 수 있다. 채널, 멀티-팩 용기 조립체, 장벽 층, 열성형, 폴리올레핀 시트 | ||||||
| 42 | 합성수지재 힌지내피를 구비한 폴더형 휴대용 전자제품을위한 프레임의 인서트 사출방법 | KR1020080000648 | 2008-01-03 | KR100853705B1 | 2008-08-25 | 조성만 |
| An insert-injection molding method for a frame of a folder type mobile electronic appliance having a hinge type inner skin made of a synthetic resin material is provided to prevent the mobile electronic appliance from being damaged due to external impact by employing an alloy having superior brittleness in the mobile electronic appliance. An insert-injection molding method for a frame(F) of a folder type mobile electronic appliance having a hinge type inner skin(Hi) made of a synthetic resin material comprises the steps of injecting molten metal, which is prepared by heating an aluminum alloy for a die casting at 700 to 750°C, into a mold cavity and forming a frame having a hinge(H), and injecting a molten synthetic resin to form a hinge type inner skin. In the step of forming the frame, the aluminum alloy contains 0.100-0.200 weight% of Si, 0.400-0.460 weight% of Fe, 0.060-0.100 weight% of Cu, 0.400-0.460 weight% of Mn, 0.008-0.010 weight% of Sn, Al, and inevitable impurities. | ||||||
| 43 | 금속 중합체 복합물, 그 압출 방법 및 이로부터 제조되는형상화 물품 | KR1020067011547 | 2004-11-12 | KR1020070021112A | 2007-02-22 | 헤이킬라커트이 |
| The invention relates to a metal polymer composite having properties that are enhanced or increased in the composite. Such properties include color, magnetism, thermal conductivity, electrical conductivity, density, improved malleability and ductility and thermoplastic or injection molding properties. The metal polymer composite comprises a specific metal particulate, a polymer phase, and an interfacial modifier. | ||||||
| 44 | 강성부 및 관절부를 포함하는 플라스틱 사출성형품 | KR1020067000056 | 2004-06-30 | KR1020060098423A | 2006-09-18 | 옐트쉬토마스; 크루제크리스티안 |
| The invention relates to a plastic injection-moulded part (10) comprising at least one rigid region (11) and at least one flexible, resilient articulated region (12). Said injection- moulded part is characterised in that is produced in a single cavity from various plastic components that are co-injected at at least one injection point (1) in the vicinity of the rigid region, one component projecting past the rigid region and forming the articulated region. | ||||||
| 45 | 네크부에 형성된 보틀 서스펜딩 부재를 갖는 플라스틱 보틀 | KR1020000043613 | 2000-07-28 | KR1020010049913A | 2001-06-15 | 다무라야스시 |
| PURPOSE: To provide a superior handle formed by an injection molding having a superior durability by a method wherein a bending strength and a flexibility of the hanger integrally molded with a neck are applied by stretch orientation. CONSTITUTION: This is a bottle formed by a blow molding in which a hanger 5 is integrally formed in an upward direction at a lower side surface of a neck 2 when a pre-form of crystalline resin is injection molded. A location 52 connected to the side surface of the neck 2 of the handle 5 is formed at a thin- walled bending section 52a made by tensioning and extension. Both a bending strength and flexibility are applied to the handle 5 in response to the extension and elongation of the bending section 52a and the handle 5 can be bent in an upward or downward direction. | ||||||
| 46 | 자동차용 와이퍼 링크의 힌지부 제조방법 | KR1019980052755 | 1998-12-03 | KR1020000037930A | 2000-07-05 | 박재형 |
| PURPOSE: A method for preparing a hinge portion of a wire link for car is provided which is able to prevent the breakage and improve the structural assembling property by injection molding the coupling structure of a ball pin with synthetic resin materials without coating soft resin around the ball pin. CONSTITUTION: A method for preparing a hinge portion of wire link for car comprises steps of: (i) forming a ball pin(1) by cutting the end of a hinge rod(11) which is projected at one side end of a link; (ii) coating lubricating oil(3) around the ball pin(1) in certain thickness; and (iii) injection molding a ball retainer(2) by inserting the lubricating oil(3) coated ball pin(1) into a mold(4) for injection molding. | ||||||
| 47 | 압출성형된 섬유 힌지 및 그 제조 방법 | KR1019990007878 | 1999-03-10 | KR1019990077739A | 1999-10-25 | 시볼트헤팅가 |
| 본발명에서, 압출성형섬유힌지는섬유힌지부재의적어도몇몇섬유가제 1 및제 2 부재내에매입될수 있도록, 제 1 부재와제 2 부재로써압출성형되는섬유힌지부재로구성된다. 압출캐비티를가진압출기장치는제 1의조정가능한맨드릴를가진제 1 표면과, 제 2 표면과, 제 3 표면및, 섬유힌지를압출성형제조하는데사용되는압출캐비티를형성하기위하여일체적으로되는제 4 표면으로구성된다. 섬유힌지부재는제 1의조정가능한맨드릴와제 2 표면사이에서포획되고, 압출재료는압출기장치의압출입구를통하여압출캐비티내로압출된다. 상기압출재료는섬유힌지부재와일체적으로됨으로써, 상기섬유힌지부재의적어도몇몇의섬유는압출성형섬유힌지의제 1 및제 2 부재내로매입된다. | ||||||
| 48 | 선회식 수동 절단 공구 | KR1019950006281 | 1995-03-24 | KR100136942B1 | 1998-04-24 | 에르키오라비린덴 |
| 한쌍의 스닢과 같은 절단용 수동 공구는 한쌍의 대향된 긴 부재를 포함하고, 상기 각 긴 부재는 전방 단부에서의 죠우와 후방 단부에서의 핸들, 상기 부재가 서로에 대하여 교차하는 중간부를 포함한다. 선회부는 선회부에 대하여 핸들과 죠우의 절단형 운동을 위한 중간부를 일체시키고, 스프링은 핸들과 죠우를 개방위치로 편향시킨다. 해제가능한 록킹 매카니즘은 핸들과 죠우를 폐쇄 위치로 고정하기 위하여 제공된다. 본 발명에 따라서, 상기 부재의 적어도 하나는 죠우의 하나와 후방으로 연장된 탱을 포함하는 전방으로 연장된 블레이드를 가진 금속판을 포함한다. 상기 핸들, 선회부 및, 록킹 매카니즘은 성형가능한 재료로서 금속판 위에서 성형되므로, 상기 핸들의 하나는 금속판의 탱위에 성형되고, 상기 선회부는 금속판 내에서 중앙 구멍을 통하여 연장된다. 상기 성형가능한 재료는 플라스틱으로 제조되는 것이 양호하지만 다른 성형가능한 재료도 사용될 수 있다. | ||||||
| 49 | Stretch blow-molded plastic container, in particular plastic bottle, for compensating volume changes of the filling material, and preform | US15583075 | 2017-05-01 | US10093472B2 | 2018-10-09 | Robert Siegl |
| A stretch blow-molded plastic container, including a container body, one longitudinal end of which is closed by a container bottom and to whose other longitudinal end is connected a shoulder section; and a container neck, which connects to the shoulder section, the shoulder section having at least two hinge-like areas that run in a circumferential direction, and which areas are arranged at a distance (a) from one another and in each case have a wall thickness (v, w) that is reduced compared to the adjoining areas, the stretch blow-molded plastic container having a total stretching ratio of greater than 11 for a longitudinal stretching ratio of 2.5 to 3.5. | ||||||
| 50 | SYSTEM AND METHOD FOR CREATING A FOLD IN A PORTION OF EXPANDABLE MATERIAL | US15503484 | 2015-08-12 | US20170239856A1 | 2017-08-24 | Leslie John SKINNER; Hamish HINGSTON |
| There is described a method of creating a hinge in a body of expandable material, said body being substantially flat and having at least two planar regions connected by said hinge to facilitate folding of the planar regions about said hinge, comprising: expanding said expandable material to form said body; creating a region of excess expandable material in said body adjacent said hinge; and compressing said region of excess expandable material into the hinge of said body after the expandable material has fused to create a hinge having a concentrated volume of expanded material when compared to said at least two planar regions of said body. | ||||||
| 51 | MOLD AND FOLD VEHICLE DISPLAY ASSEMBLY | US14955393 | 2015-12-01 | US20170151874A1 | 2017-06-01 | Daniel P. Tollis; Michael E. Carrel |
| A display assembly for displaying vehicle operating information to an operator of a vehicle is provided. The display assembly includes at least two housing parts selected from the following: a mask, a light housing, and a back cover. The display assembly also includes at least one living hinge connecting the housing parts together. The housing parts and the living hinge(s) are unitarily formed as one piece. A method of forming a display assembly for displaying information to an operator of a vehicle is also provided, which includes unitarily forming the housing parts and hinges as one piece. | ||||||
| 52 | METHOD OF MAKING A SANDWICH-TYPE COMPOSITE PANEL HAVING A CELLULOSE-BASED CORE AND A LIVING HINGE AND PANEL OBTAINED BY PERFORMING THE METHOD | US15355370 | 2016-11-18 | US20170066229A1 | 2017-03-09 | Darius J. Preisler; Christopher A. Heikkila |
| A method of making a sandwich-type composite panel having a cellulose-based core and a living hinge from a stack of material is provided. The stack includes first and second reinforced thermoplastic skins, first and second sheets of thermoplastic adhesive and a cellulose-based cellular core disposed between the sheets and the skins. A pressure is applied to the stack after heating the stack wherein the skins are bonded to the core by the sheets to form the composite panel. A portion of the composite panel is crushed at a predetermined location simultaneously with applying the pressure to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel. The heated first skin stretches during the step of crushing while remaining intact between the two side portions. The skins bond together at the predetermined location to form the living hinge. | ||||||
| 53 | Composite Material | US15035159 | 2014-11-06 | US20160288453A1 | 2016-10-06 | Juan M. Mejia-Ariza |
| A unidirectional elastomeric composite comprises a plurality of fibers generally aligned in a first direction with an elastomer filling the space between fibers. The plurality of fibers may comprise an intermediate modulus carbon fiber. Preferably, the plurality of fibers have an ultimate elongation at failure or tensile failure strain of 1% or greater, a tensile modulus between 200-400 GPa and tensile strength greater than 4 GPa. The resin or matrix may be a passive elastomer that will maintain its mechanical and chemical properties at a specific operational temperature range. Elastomers are polymers with viscoelasticity, generally having low Young's modulus and high failure strain. Methods of manufacturing the unidirectional elastomeric composite include apply the resin to fibers maintained in tension to maintain the fiber alignment. | ||||||
| 54 | METHOD AND MOLD FOR MOLDING A COLLAPSIBLE, FOAM PLASTIC CONTAINER | US15029149 | 2014-10-14 | US20160257042A1 | 2016-09-08 | Carlo Bazzica |
| A method of molding a collapsible, foam plastic container; the method employs two half-molds defining a molding chamber negatively reproducing the container in an erect work configuration, and forms a hinge for each lateral wall of the container when molding the container; each hinge being formed by a parting member which is inserted through the molding chamber at the hinge to be formed, and by a compression member opposite the parting member and which is moved towards the parting member to form, on the lateral wall, a small-section, higher-density portion defining the respective hinge. | ||||||
| 55 | Method of making a sandwich-type composite panel having a living hinge and panel obtained by performing the method | US14632255 | 2015-02-26 | USRE46104E1 | 2016-08-16 | Darius J. Preisler; Christopher A. Heikkila |
| A method of making a sandwich-type composite panel having a living hinge from a stack of material is provided. The stack includes first and second reinforced thermoplastic skins heated to a softening temperature and a thermoplastic cellular core disposed between the skins. The first skin is stretchable when heated to the softening temperature. A pressure is applied to the stack after the step of heating to form the composite panel. A portion of the composite panel is crushed at a predetermined location simultaneously with the step of applying to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions. The first skin stretches during the step of crushing while remaining intact between the two side portions. The skins bond together at the predetermined location to form the living hinge. | ||||||
| 56 | Sandwich board assembly having thermoplastic joining element | US14585460 | 2014-12-30 | US09032693B2 | 2015-05-19 | Colin Clinch; Marcel Aeschlimann; Mario Lehmann; Laurent Torriani |
| An assembly including a joining element and an object, the object having a first outer layer, a second outer layer, and a middle layer between the first and second outer layers. The object has an opening that extends through the first outer layer and the middle layer, and the joining element is anchored in the opening. The joining element includes a proximal end, a distal end, a contact face in the area of the proximal end, a wall anchoring portion, and a tubular portion. The contact face is engaged by a vibrating tool that applies mechanical vibration and axial force to the joining element. The joining element includes a thermoplastic material at least at the circumferential surface of the wall anchoring portion and at the distal end to anchor the joining element to the first and second outer layers, respectively. | ||||||
| 57 | METHOD OF MAKING A SANDWICH-TYPE COMPOSITE PANEL HAVING A CELLULOSE-BASED CORE AND A LIVING HINGE AND PANEL OBTAINED BY PERFORMING THE METHOD | US14603407 | 2015-01-23 | US20150132532A1 | 2015-05-14 | Darius J. Preisler; Christopher A. Heikkila |
| A method of making a sandwich-type composite panel having a cellulose-based core and a living hinge from a stack of material is provided. The stack includes first and second reinforced thermoplastic skins, first and second sheets of thermoplastic adhesive and a cellulose-based cellular core disposed between the sheets and the skins. A pressure is applied to the stack after heating the stack wherein the skins are bonded to the core by the sheets to form the composite panel. A portion of the composite panel is crushed at a predetermined location simultaneously with applying the pressure to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel. The heated first skin stretches during the step of crushing while remaining intact between the two side portions. The skins bond together at the predetermined location to form the living hinge. | ||||||
| 58 | Method for anchoring a joining element in an object and joining element to be used in the method | US14271783 | 2014-05-07 | US08955289B2 | 2015-02-17 | Colin Clinch; Marcel Aeschlimann; Mario Lehmann; Laurent Torriani |
| A method of anchoring a joining element to a hollow core board with the aid of mechanical vibration. The hollow core board has a first and second outer layers and a middle layer disposed between the outer layers. An opening, including a mouth, is provided in the hollow core board, the opening penetrating the first outer layer and the middle layer. The joining element includes a wall anchoring portion situated between a proximal end and a distal end thereof. A distal end of the wall anchoring portion is positioned into or onto the mouth with a sealing portion on a proximal end of the wall anchoring portion. The wall anchoring portion is forced through the mouth by applying mechanical vibration and a force parallel to the joining element axis, whereby thermoplastic material of the wall anchoring portion is liquefied and pressed into the first outer layer. | ||||||
| 59 | METHOD OF MAKING A SANDWICH-TYPE COMPOSITE PANEL HAVING A LIVING HINGE AND PANEL OBTAINED BY PERFORMING THE METHOD | US14444164 | 2014-07-28 | US20140335303A1 | 2014-11-13 | Darius J. Preisler; Christopher A. Heikkila |
| A method of making a sandwich-type composite panel having a living hinge from a stack of material is provided. The stack includes first and second reinforced thermoplastic skins heated to a softening temperature and a thermoplastic cellular core disposed between the skins The first skin is stretchable when heated to the softening temperature. A pressure is applied to the stack after the step of heating to form the composite panel. A portion of the composite panel is crushed at a predetermined location simultaneously with the step of applying to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions. The first skin stretches during the step of crushing while remaining intact between the two side portions. The skins bond together at the predetermined location to form the living hinge. | ||||||
| 60 | HINGING ELEMENT MANUFACTURED ON THE BASIS OF AT LEAST ONE PLANAR STRUCTURE AND A METHOD FOR MANUFACTURING A HINGING ELEMENT BASED ON AT LEAST ONE PLANAR STRUCTURE | US14238794 | 2012-06-09 | US20140317881A1 | 2014-10-30 | Hans-Peter Heim; Nina Lieven; Angela Ries; Dominik Sennhenn |
| A hinge element has at least one planar structure made of a thermoplastic material. Following a stretching process, the thermoplastic material undergoes a shrinking process under the effects of heat. | ||||||
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