| 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 | 중공 원통형 나사 부품 및 그 제조 방법 | KR1020147018638 | 2012-12-06 | KR1020140119695A | 2014-10-10 | 데베어다니엘; 지퍼귄터 |
| 본 발명은 나사, 너트, 소켓 부품, 관 플러그, 관 커넥터 등의 환형 횡단면을 갖는 성형 부품(1)을 제조하기 위한 방법에 관한 것이며, 상기 성형 부품(1)은 중공 원통형 본체(2)를 포함하고, 플러그 부품(4)을 밀봉 방식으로 수용하도록 결정된 본체의 내부 채널(3) 내에는 축 방향(XX)으로, 서로 상이한 기능, 더 정확하게 말하면 원주 실링(5, 6)을 안착시키고, 플러그 부품(4)을 직접 또는 간접적으로 파지 및/또는 잠금 고정하고, 및/또는 플러그 부품(4)을 지지 및/또는 안내하는 기능을 갖는 섹센들(A1, A2, A3, A4, A5, A6, A7, A8, A9, AZ)이 서로 나란히 배치되고, 본체(2)는 하나 이상의 암나사부 및/또는 수나사부(10)를 지탱하고, 섬유들(F)을 포함하는 가소화된 폴리머 화합물은 성형 몰드의 하나 이상의 주입 개구부를 통해 성형 몰드의 캐비티 내로 주입되며, 폴리머 화 합물의 응고 후에 성형 부품(1)은 몰드로부터 분리된다. 신뢰성 있는 공정을 보장하고 성형 부품 제조를 기술적으로 간단하게 실행할 수 있는 방식으로 특히 비틀림 강도 또는 인장 강도를 높이기 위해, 캐비티 내로의 주입은, 반경 방향에서 내부 채널(3)로부터 바깥쪽을 향해서, 원주 실링(5, 6)을 안착시키는 용도나 플러그 부품(4)을 파지 및/또는 잠금 고정하는 용도로 이용되지 않는 섹션(A1, A2, A3, A5, A7, A8)에서, 또는 섹션(A1, A2, A3, A4, A5, A6, A7, A8, A9, AZ)의 영역(14, 15)에서 수행되는 점이 제안된다.
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| 62 | 플라스틱 인서트 사출 구조물 및 이를 이용한 사출 방법 | KR1020010049026 | 2001-08-14 | KR1020030014990A | 2003-02-20 | 최오복 |
| PURPOSE: A plastic insert injection structure and its injecting method are provided to reduce the cost by firmly fixing without an additional bumper. CONSTITUTION: A plastic insert injection structure(30) is injected by inserting the structure(30) to be screwed with a screw(2) into a base material(1). The structure has a larger hardness and a larger strength than the base material. A screw hole(30a) is formed in the structure to be penetrated by the screw. A surface expanding device is formed in the structure to widen the surface area to firmly combine with the base material. Thereby, the cost is reduced and the damage of the base material or a component is prevented. Moreover, the durability is improved. | ||||||
| 63 | FIBER-REINFORCED RESIN SCREW | EP15862015.3 | 2015-11-19 | EP3199825A1 | 2017-08-02 | IKADA, Akira; HORIE, Naohiro |
The present invention pertains to a fiber-reinforced resin screw 10, 20 formed using a resin composition wherein reinforcing fibers are included in a resin. The pitch P of the screw thread is 1.5-2 times the standard pitch corresponding to the outer diameter D of a screw thread defined in the standard for a metric coarse thread screw, a unified coarse thread screw, or a unified fine thread screw. The average fiber length of the reinforcing fibers is 1-1/3 times the pitch P, and the content ratio of the reinforcing fibers is 20-80%. Thus, it is possible to provide a fiber reinforced resin screw having improved screw thread strength. |
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| 64 | HOHLZYLINDRISCHES SCHRAUBTEIL UND VERFAHREN ZU SEINER HERSTELLUNG | EP12805654.6 | 2012-12-06 | EP2794225A1 | 2014-10-29 | DE BEER, Daniel; SIEPER, Günter |
| The invention relates to a method for producing a moulded part (1) with an annular cross section, such as a screw, a nut, a socket part, a pipe plug, a pipe connector or the like, wherein the moulded part (1) has a hollow-cylindrical main body (2), in the inner channel (3) of which, intended for receiving a plug part (4) in a sealing manner, there are in series with one another in the axial direction (X-X) portions (A1, A2, A3, A4, A5, A6, A7, A8, A9, AZ) with different functions, to be specific for bearing a circumferential seal (5, 6), for directly or indirectly securing and/or arresting the plug part (4) and/or for supporting and/or guiding the plug part (4), and wherein the main body (2) bears at least one internal thread and/or external thread (10), wherein a plasticized polymeric compound containing fibres (F) is injected through at least one injection opening of a moulding tool into a cavity of the moulding tool and, after the polymeric compound has solidified, the moulded part (1) is removed from the tool. In order to increase in particular the torsional strength or the tensile strength in a way that ensures a reliable process and that the production of the moulded part can be carried out in a technologically simple manner, it is proposed that the injection into the cavity is performed radially from the inner channel (3) outwards in a portion (A1, A2, A3, A5, A7, A8) or in a region (14, 15) of a portion (A1, A2, A3, A4, A5, A6, A7, A8, A9, AZ) that does not serve for bearing a circumferential seal (5, 6) or securing and/or arresting the plug part (4). | ||||||
| 65 | ANTRIEBSKABEL MIT ULTRASCHALLGESCHWEIßTER ABSCHLUSSKAPPE SOWIE VERFAHREN ZUR HERSTELLUNG EINES SOLCHEN ANTRIEBSKABELS | EP13747411.0 | 2013-08-09 | EP2763838A1 | 2014-08-13 | |
| Disclosed is a method for producing a drive cable (1), in particular for use in motor vehicles, such as in pop-up and/or sliding roofs or sun blind rollers, at least one end (11) of the drive cable (1) being provided with a terminal cap (2) and being connected thereto by ultrasonic welding, ultrasound being applied two-dimensionally, substantially across the entire outer surface (9) of the terminal cap (2), and a pitch helix (4) of the drive cable (1) being ground, in particular conically ground, in the region of the drive cable end (11), which is covered by the terminal cap (2), prior to connection to the terminal cap (2). | ||||||
| 66 | MONTAGESCHRAUBE ZUR BEFESTIGUNG VON BESCHLAGTEILEN, INSBESONDERE VON BANDTEILEN AN HOHLKAMMERPROFILEN | EP06818372.2 | 2006-11-04 | EP1948945A1 | 2008-07-30 | BÖGEL-PÖTTER, Jürgen; HERGLOTZ, Tibor |
| The mounting screw (100) for fastening fitting parts, in particular hinge parts to multiple-chamber profiles, having a threaded part which comprises an external thread and is of a length which is greater than the spacing of two adjacent walls of the multiple-chamber profile, comprises a front part (1), as viewed in the screwing-in direction, which comprises a thread (3) and is preferably manufactured from a metallic material, and a rear part (2) which is made from a thermally insulating material, for example plastic. | ||||||
| 67 | VERFAHREN ZUR HERSTELLUNG VON LÄNGLICHEN SPRITZGUSSTEILEN, INSBESONDERE SCHRAUBEN UND GEWINDESTÄBE, AUS LANGFASERVERSTÄRKTEN, THERMOPLASTISCHEN KUNSTSTOFFEN | EP95919988.0 | 1995-04-28 | EP0758291A1 | 1997-02-19 | KRÜDENER, Rudolf |
| The invention pertains to a process for producing oblong injection-molded parts, especially screws and threaded rods, wherein the melt of a long-fiber-reinforced thermoplastics material is injected from an injection molding machine via a gate into, and filling, at least one cavity that has a gate and an overflow, characterized in that the melt is pumped in an even flow beyond the filling process itself, through the overflow and into a melt accumulator until a predominantly axial arrangement of the fibers is produced as a result of shear flows. The invention also pertains to the oblong injection-molded parts per se. | ||||||
| 68 | Method and apparatus for producing screw feeders for a plastic injection-molding machine | EP88304930.6 | 1988-05-31 | EP0293270A3 | 1990-02-07 | Moriyama, Masao |
A system for producing a screw feeder for use in a plastic injection-molding machine, according to which system a molten material is extruded through an extrusion opening of a rotating die (3), the extrusion opening (5) of the die including a groove obliquely with respect to the axis thereof, thereby forming a screw feeder having a shank and a spiral integral lengthwise therewith. |
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| 69 | Method and apparatus for producing screw feeders for a plastic injection-molding machine | EP88304930.6 | 1988-05-31 | EP0293270A2 | 1988-11-30 | Moriyama, Masao |
A system for producing a screw feeder for use in a plastic injection-molding machine, according to which system a molten material is extruded through an extrusion opening of a rotating die (3), the extrusion opening (5) of the die including a groove obliquely with respect to the axis thereof, thereby forming a screw feeder having a shank and a spiral integral lengthwise therewith. |
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| 70 | 複合構造物向けの拡張可能な樹脂充填型ファスナ、ファスナシステム、及び方法 | JP2017086831 | 2017-04-26 | JP2018021660A | 2018-02-08 | レー, クインザオ エヌ.; グレゴール, ロバート ビー.; ウィティング, ブレント エー. |
| 【課題】炭素繊維強化型プラスチック(CFRP)構造物といった複合構造物との電気的接触及び伝導性を改善するファスナシステム、及び方法に関する。 【解決手段】ファスナ10は、ヘッド部を有する第1端部16、ねじ部を有する第2端部18、及び、それらの端部の間のシャフト本体20を有する、細長いシャフト14を含む。少なくとも1つの供給チャネルが、ねじ部42にある開口40からシャフト本体を通って、ヘッド部22の近位で終端するように延在する。シャフト本体は、ファスナが複合構造物内に形成された対応するファスナ孔の中に取り付けられている場合、樹脂充填物が供給チャネル内に加圧注入される際に、径方向に拡張する。径方向に拡張する際に、シャフト本体の外表面は、対応するファスナ孔の内側孔表面に接触し、その結果、ファスナが、複合構造物との電気的接触を提供し、かつ、電流の分配を提供することになる。 【選択図】図1B |
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| 71 | 樹脂成形部品用金型および樹脂成形部品の製造方法 | JP2015003507 | 2015-01-09 | JP2016128234A | 2016-07-14 | 立岩 丈幸 |
| 【課題】中空率の高い樹脂成形部品を製造する新たな技術を提供する。 【解決手段】樹脂成形部品用金型40は、複数の型によりキャビティを構成する。複数の型は、キャビティ42に溶融樹脂を注入するゲート44aが形成されているゲート型44と、キャビティ42にガスを注入するガス注入口46aが形成されているガス注入型46と、キャビティ42から退避する方向に移動可能なコアピン48aが設けられているコアピン型48と、を含む。コアピン型48は、コアピン48aがガス注入口46aと対向するように、配置される。 【選択図】図4 |
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| 72 | 中空円筒型ねじ要素および前記ねじ要素の製造方法 | JP2014547830 | 2012-12-06 | JP2015500754A | 2015-01-08 | デ・ベール,ダニエル; ジーパー,ギュンター |
| 本発明は、リング状の断面を有する成形品(1)例えば、ねじ要素、ナット、ソケット、管差込み具、管継手などを製造する方法であって、成形品(1)は中空円筒型の本体部(2)を有し、インサート部材(4)の封止収容を目的とした前記本体部の内側通路(3)には、軸方向(X−X)に、異なる機能、つまり、シールリング(5,6)と密着する機能、インサート部材(4)を直接または間接に保持および/または固定する機能および/またはインサート部材(4)を支持および/または案内する機能を割り当てられた区域(A1,A2,A3,A4,A5,A6,A7,A8,A9,AZ)が順に並んでおり、本体部(2)は少なくとも1つの雌ねじ部および/または雄ねじ部(10)を設けており、繊維(F)を含んだ可塑化されたポリマー材料が成形金型の少なくとも1つの射出口を通じて前記成形金型のキャビティーに射出され、前記ポリマー材料の固化後に成形品(1)が前記成形金型から取り出されるように構成した方法に関する。高い工程信頼度を確保し、成形品製造の技術的実施を容易にしつつ、特に捩り強度ないし引張り強度を向上させるために、キャビティーへの射出を、シールリング(5,6)の密着またはインサート部材(4)の保持および/または固定に使用されない区域(A1,A2,A3,A5,A7,A8)または区域(A1,A2,A3,A4,A5,A6,A7,A8,A9,AZ)の1領域(14,15)において、射出口を通じて内側通路(3)から径方向外側に向かって行なうようにすることが提案される。 | ||||||
| 73 | Rugs with a screw | JP2005007747 | 2005-09-21 | JP3116897U | 2005-12-22 | 建旭 陳 |
| 【課題】 周知のねじの付いた敷物の多くの欠点を改善し、生産コストを下げ、製品品質を向上することができる、ねじの付いた敷物を提供する。
【解決手段】 ねじの付いた敷物2は、心棒20と、覆い部23とを備えるねじの付いた敷物であって、前記心棒20は第一材料から構成され、前記心棒20の周囲にはねじ部22が設けられ、心棒20の頂端にはヘッド部21が設けられ、前記覆い部23は第二材料から構成され、前記ヘッド部21に覆い被さっていることを特徴とする。 第二材料の柔軟さは第一材料より高い。 ねじ部22によって敷物2を各種電子製品、機器設備または家具の底部にねじ付け、より柔軟な第二材料から構成された敷物2によって、それら電子製品、機器設備または家具を据え置きまたは移動するとき地面または放置面が損害されることを防止できる。 【選択図】 図2 |
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| 74 | Circumscribing of the printed circuit board | JP2001501618 | 2000-05-29 | JP2003501822A | 2003-01-14 | マトス オルソン,; オロフ シモンソン,; ラファエル ポルテラ,; エリク メステル,; パウル ラルソン,; マトス ラルソン, |
| A housing for electronic components is injection molded as a unitary, single-piece, monolithic piece, and includes a front cover, a back cover, and a living hinge. Electronic components, including a PCB, are contained within the housing. A cosmetic cover is secured to the housing over the living hinge, which protrudes from the housing, to make the housing more appealing. | ||||||
| 75 | Resin molded article | JP17372799 | 1999-06-21 | JP2001001364A | 2001-01-09 | TANIGUCHI HIROSHI; IWATA MASAKATSU; KANEKO MASANORI |
| PROBLEM TO BE SOLVED: To provide a resin molded article reducing separate forming and assembling processes of a plurality of parts and capable of easily controlling the clearance between members at a low cost. SOLUTION: First and second members 3, 4 are molded in an incorporated state by inset molding or two-color molding using at least first and second resin materials imcompatible with each other so as to generate a clearance between the first and second members 3, 4. By this constitution, a bearing part, roll part or drive unit constituted by assembling a plurality of parts can be easily formed. | ||||||
| 76 | Fastening tool | JP14584890 | 1990-06-04 | JPH0439333A | 1992-02-10 | KITAGAWA KOJI |
| PURPOSE: To obtain a fastening tool such as bolt having high electrical conductivity to prevent the buildup of static charge and excellent mechanical properties such as tensile strength by compounding a specific carbon fiber to a rigid synthetic resin. CONSTITUTION: Carbon fiber produced by the vapor-phase thermal decomposition of a hydrocarbon using ultrafine powder of high-melting metal and/or its compound as a growth initiation part is compounded to a rigid synthetic resin and the obtained composition is molded to form the objective tool. The synthetic resin is preferably nylon resin. The carbon fiber is e.g. those having a diameter of 0.1-0.5μm and a length of 0.1-1mm and produced by the vapor-phase thermal decomposition of benzene in a furnace at 950-1,300°C using iron powder having particle size of 0.02-0.03μm as the growth initiation part. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 77 | Manufacture of flexible feeder | JP13618987 | 1987-05-29 | JPS63297021A | 1988-12-05 | MORIYAMA MASAO |
| PURPOSE:To efficiently manufacture a flexible feeder at low cost by a method wherein both a shaft part, which is formed by the opening part of a mold, and a spiral part, which is formed by a cutout, are integrally and simultaneously extruded. CONSTITUTION:An extruder is equipped with a screw rotor 2 at the center of a tubular vessel 1, at the delivery port of which a rotating first mold 3 and a fixed second mold 4 are provided. The first mold 3 is rotatingly driven by a chain 7, which engages with a sprocket 6 provided on the outer periphery of the first mold 3. A cutout 8, which is inclined at the predetermined angle in the axial direction, is formed at the opening part 5 of the first mold 3. The second mold 4, the root part of which is fixed to the tubular vessel 1, extends forwards so as to pierce through the opening part 5 of the first mold 3. The direction of rotation of the first mold 3 is indicated with the arrow A so as to form a spiral shape in an extruded material. The speed of rotation is controlled so as to arm at the speed which is determined by the extrusion speed of the material and the angle of inclination of the cutout 8. The plastic formed piece extruded from a device has a spiral part 11, which is integrally formed on the outer periphery of the tubular shaft part 10. | ||||||
| 78 | Manufacture of screw feeder | JP13619087 | 1987-05-29 | JPS63297015A | 1988-12-05 | MORIYAMA MASAO |
| PURPOSE:To produce a screw feeder effectively and at low cost by a method in which plastic material is extruded from a die, while a feeding means and a rotating means are operated, and the plastic is formed into a screw shape around the outer periphery of a core member. CONSTITUTION:Through holes 5, 6 are formed on the same axis of opposite walls in a material reservoir 4, and a long core member 7 passes both through holes 5, 6. A die 8 is provided with the circular opening of a larger diameter than that of the core member, and with a sprocket 9 in its outer periphery. The sprocket is rotated and driven by a chain 10. A cut part 11 inclined by a prescribed angle in the axial direction is formed in the central opening part of this die 8. The die 8 is rotated in the direction of an arrow A so that extruded material forms a screw shape around the core member 7, and its rotation speed is controlled to select the speed determined by the feed rate of the core member 7 and the inclined angle of the cut part 11 of the die as an objective value. A plastic molding extruded from this device has the structure in which a screw part 13 is integrally formed around the outer periphery of the core member 7. | ||||||
| 79 | MOLDED REGENERATED SILK GEOMETRIES USING TEMPERATURE CONTROL AND MECHANICAL PROCESSING | PCT/US2012034401 | 2012-04-20 | WO2012145594A3 | 2012-12-20 | LO TIM JIA-CHING; LEISK GARY G; LI LEI; KAPLAN DAVID L |
| The present disclosure provides methods for fabricating various regenerated silk geometries using temperature control. In addition to temperature control, mechanical processing can be used to enhance properties of the fabricated article. The present disclosure also provides silk foam and paper-like materials molded using freezer processing. | ||||||
| 80 | MOUNTING SCREW FOR FASTENING FITTING PARTS, IN PARTICULAR HINGE PARTS TO HOLLOW-CHAMBER PROFILES | PCT/EP2006010583 | 2006-11-04 | WO2007057106A8 | 2008-05-29 | BOEGEL-POETTER JUERGEN; HERGLOTZ TIBOR |
| The mounting screw (100) for fastening fitting parts, in particular hinge parts to multiple-chamber profiles, having a threaded part which comprises an external thread and is of a length which is greater than the spacing of two adjacent walls of the multiple-chamber profile, comprises a front part (1), as viewed in the screwing-in direction, which comprises a thread (3) and is preferably manufactured from a metallic material, and a rear part (2) which is made from a thermally insulating material, for example plastic. | ||||||
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