子分类:
| 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 | 금속기와용 나사의 제조방법 및 그 제조방법으로 제조된 금속기와용 나사 | KR1020160111061 | 2016-08-30 | KR1020180024592A | 2018-03-08 | 김상훈; 서동인 |
| 본발명은나사의헤드에와셔가일체로구성된금속기와용나사를제조하는방법에관한것이다. 구체적으로는, 와셔의하면에홈부를마련함으로써, 패킹부재(오링)를함께체결하는경우, (a)나사의체결력을증가시키고, (b)외부와의공기를차단하여밀폐를향상시키며, 수분의침투를방지하여방수능력을향상시킬수 있는, 금속기와용나사의제조방법및 그제조방법으로제조된금속기와용나사에관한것이다. 본발명은금속기와용나사를제조하는방법에있어서, (a)헤드금형및 와셔금형을준비하는단계; (b)강선을절단하는단계; (c)상기 (b)단계에서절단된강선의일단을상기 (a)단계에서준비된헤드금형을이용하여 1차압축성형하는단계; (d)상기 (a)단계에서준비된와셔금형으로상기 (c)단계에서 1차압축성형된강선의일단을 2차압축성형함으로써, 상기강선의일단이와셔와헤드가일체된형태가되도록하는단계; (e)상기압축성형된강선의일단의반대일단에절단날을성형하는단계; 및 (f)상기 (e)단계후, 상기강선의외면에나사산을성형하는단계;로이루어지는것을기술적특징으로한다. | ||||||
| 42 | 전기 집진필터 제조방법 및 그 방법에 의해 제조된 전기 집진필터 | KR20160014445 | 2016-02-04 | KR101669391B1 | 2016-10-25 | JEON DONG HYUN; JEON SO YOUNG |
| 본발명은전기집진필터제조방법및 이방법에의해제조된전기집진필터에관한것으로, 이제조방법은틀체(3), 집진전극(5), 방전전극(7), 및방전틀(19)을준비하는준비단계(S10); 상기틀체(3)의상기조립공(18)에상기집진전극(5)을조립하는집진전극조립단계(S20); 상기틀체(3)에절연부재(15)를통해상기방전틀(19)을연결하는방전틀장착단계(S30); 및상기방전틀(19)을통해상기집진전극(5) 내에상기방전전극(7)을축선방향으로배열하여고정하는방전전극조립단계(S40);를포함하여이루어지며, 상기집진전극조립단계(S20)는, 상기틀체(3)의상기조립공(18)에상기집진전극(5)을반경방향으로일시탄성변형시켜삽입하는삽입공정(S21); 및상기조립공(18)에끼워진때 상기판재(11) 외부로돌출되는상기집진전극(5) 양단의상기말단부분(25)을축방향으로가압하여상기판재(11) 표면에압착시킴으로써테두리부(21)를형성하는마감공정(S22);을포함하여이루어지는것을특징으로하며, 따라서집진전극을판재에용접할필요가없으므로, 집진전극의조립을간단하게마무리할수 있고, 집진전극을박판화, 경량화할수 있게되며, 결과적으로, 많은수의집진전극을사용함에도불구하고집진필터의조립및 제작효율성을대폭향상시킬수 있게된다. | ||||||
| 43 | 볼트용 강선 및 볼트, 및 그의 제조 방법 | KR1020147008795 | 2012-10-01 | KR1020140064929A | 2014-05-28 | 지바마사미치; 마츠모토요스케; 스기타이치로; 다니모토마사루 |
| 볼트 성형 후의 담금질, 뜨임 공정을 생략한 비조질 볼트로서, 1200MPa 이상의 인장 강도를 가짐과 더불어 내지연파괴성이 우수한 고강도 볼트에 이용하는 냉간 단조성이 우수한 고강도 볼트용 강선은, C, Si, Mn, P, S, Cr, Al, N, B를 함유하는 것 외에에, Ti, V 및 Nb으로 이루어지는 군으로부터 선택되는 적어도 1종을 함유하고, 잔부가 철 및 불가피 불순물로 이루어지는 강선이며, 페라이트와 펄라이트의 합계 면적률이 98% 이상이고, 펄라이트 라멜라 간격이 250nm 이하이며, 또한 펄라이트의 면적률이 40% 초과 80% 이하인 마이크로 조직을 구비함과 더불어, 인장 강도가 1300MPa 이하인 것을 특징으로 한다. | ||||||
| 44 | WIRE MESH HEAT SHIELD ISOLATOR | PCT/US2006012675 | 2006-04-05 | WO2006108046A2 | 2006-10-12 | GREENWOOD GEORGE |
| A substrate such as a heat shield for a vehicle is provided with a unitary compressed wire mesh bushing or isolator formed in place though a bore in the substrate. The bushing is formed by supporting an uncompressed or partially compressed wire mesh sleeve, optionally including a grommet or spacer, on a mandrel positioned within the bore; the mandrel is surrounded on either side of the bore by outer sleeves forming a molding cavity on each side of the substrate, and a slidable tamp is disposed in each outer sleeve and moved towards each other to compress the mesh within the bore and provide the unitary bushing. | ||||||
| 45 | 배관용 고정구 연속제조장치 | KR1020180035776 | 2018-03-28 | KR101892530B1 | 2018-08-28 | 김장순 |
| 본발명은와이어공급부에서일련적으로공급되는와이어를와이어이송안내수단에의해고정구성형수단인절단부에의해절단되어성형부에서바로배관용 "U"자형의고정구로단시간내에연속적으로손쉽게대량으로양산하도록한 배관용고정구연속제조장치에관한것이다. | ||||||
| 46 | 와이어 메시 리벳 | KR1020117014959 | 2009-11-19 | KR1020110099023A | 2011-09-05 | 그린우드죠지 |
| 차량 배기 시스템용 열 차폐부(7)와 같은 기판의 보어(9) 내에 와이어 메시 절연체(11)를 제조하는데 사용되는 와이어 메시 리벳(13)이 제공된다. 리벳(13)은 칼라(15) 및 섕크(17)를 갖는 단일형 와이어 메시 구조체(19)를 포함한다. 칼라(15)는 섕크(17)보다 높은 밀도를 갖는데, 예를 들어 칼라(15)는 완성된 절연체(11)의 밀도를 갖는다. 리벳(13)은 원래 칼라(15)를 그 형상이 실질적으로 변화하는 것을 억제하면서 제2 칼라를 형성하기 위해 섕크(17)를 압축함으로써 완성된 절연체(11)로 형성된다. 리벳(13)은 기판이 그 지지 구조체에 체결될 때 완성된 절연체(11)의 와이어 메시가 높은 압축 레벨을 경험하는 것을 방지하는 금속 인서트(23)를 포함할 수 있다. 리벳(13)은 분배 스트립(31)에 의해 지지될 수 있고, 그 치수가 몇몇 기판과 이용 가능한 제한된 공간과 적합 가능한 형성 장비(39)를 사용하여 완성된 절연체(11)로 형성될 수 있다.
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| 47 | 바인더용 스프링의 제조장치 | KR1020070048142 | 2007-05-17 | KR100796951B1 | 2008-01-22 | 이기종 |
| A binder spring manufacturing apparatus is provided to be able to promptly produce a binder spring for binding a note in a large quantity, and prevent an injury of the human body due to the cut portion of the binder spring by finishing a cut portion of the binder spring safely. A manufacturing apparatus of a binder spring includes: a feeding part(2) in which a spring workpiece(S) is wound on a roller(20); a transfer part(4) for moving forward a spring workpiece guided through a straight guide member(42) by a rotating a sawtooth plate(44); a holding part(6) for holding the transferred spring workpiece by advancing a jig operated by a first drive unit; a cutting part(8) for cutting the held spring workpiece by advancing a cutter operated by a second drive unit; and a folding part(9) for allowing a pressing member lifted by a third drive unit to fold the cut portion by pressing a cut portion of the spring workpiece. | ||||||
| 48 | 침대 매트리스 고정용 클립의 제조장치 및 그 방법 | KR1020050104052 | 2005-11-02 | KR100663936B1 | 2007-01-04 | 차주현 |
| A manufacturing device for a fixing clip of a bed mattress and a method of the same is provided to reducing the working hours and the labor cost by automatically manufacturing the fixing clip. A manufacturing device for a fixing clip of a bed mattress comprises a hopper(200) feeding a clip provided with a connection groove(110) by pressurizing with a press; a clip sorting unit(300) receiving the clip supplied from the hopper and sorting the clip in the due direction; a clip arranging unit(400) for longitudinally arranging the clip forwardly supplied from the clip sorting unit; a wire feeding unit(500) mounting a wire(120) at the connection groove of the clip longitudinally arranged in the clip arranging unit; a pressurizing unit(600) for pressurizing both sides of the upper end of the clip to fix the wire mounted at the connection groove; and a cutter for cutting the clip combined with the wire to form constant numbers of the fixing clip. | ||||||
| 49 | メートルゆるみ止めタッピングネジ | JP2017093231 | 2017-05-09 | JP6431127B2 | 2018-11-28 | イー チンフォン; ワン フゥイイン; リー シンアン |
| 50 | 金網リベット | JP2015094763 | 2015-05-07 | JP5911627B2 | 2016-04-27 | ジョージ グリーンウッド |
| 51 | Wire mesh rivet | JP2011538637 | 2009-11-19 | JP2012510593A | 2012-05-10 | グリーンウッド,ジョージ |
| A wire mesh rivet (13) is provided which is used to produce a wire mesh isolator (11) in a bore (9) of a substrate such as a heat shield (7) for a vehicle exhaust system. The rivet (13) comprises a unitary wire mesh structure (19) which has a collar (15) and a shank (17). The collar (15) has a higher density than the shank (17), e.g., the collar (15) has the density of the finished isolator (11). The rivet (13) is formed into the finished isolator (11) by compressing the shank (17) to form a second collar, while restraining the original collar (15) from substantially changing its shape. The rivet (13) can include a metal insert (23) which prevents the wire mesh of the finished isolator (11) from experiencing high levels of compression when the substrate is fastened to its supporting structure. The rivets (13) can be carried by a dispensing strip (31) and can be formed into the finished isolator (11) using forming equipment (39) whose dimensions are compatible with the limited space available with some substrates. | ||||||
| 52 | Paper processing equipment | JP2007050275 | 2007-02-28 | JP4784529B2 | 2011-10-05 | 徹 吉江; 和彦 岸 |
| 53 | Bookbinding wire and paper clip with a biodegradable coating | JP2011505411 | 2009-04-20 | JP2011518062A | 2011-06-23 | グローブ,アンドレ; ポエルマン,ペーター; レプラ,アラン |
| 本発明は、バイオプラスチック材料のコーティングを備えるワイヤの、製本ワイヤまたはペーパークリップとしての使用に関する。 このコーティングは、製本ワイヤとして、またはペーパークリップとしての使用時に通常の周囲条件にさらされた場合に、ワイヤに優れた腐食保護をもたらす密閉したコーティングであり、また該ワイヤが該コーティングの分解に適した環境にさらされると、コーティングは分解性、生分解性または堆肥性コーティングとなる。 特に、本発明は、PLAコーティングが備わっている製本ワイヤおよびペーパークリップの使用に、またそれら製本ワイヤおよびペーパークリップに関する。 本発明はさらに、該製本ワイヤおよびペーパークリップのリサイクリングの方法に関する。 | ||||||
| 54 | Method of making a booklet of any paper-size and thickness in Waiyakomu binding | JP2001364928 | 2001-11-29 | JP4358468B2 | 2009-11-04 | リーガー アルベルト; ヒルシュ アレクサンダー; ヘルマン クラウス; シュテーレ クルト; ブレットナー トーマス; ヴュルシュム ハンス−ペーター; ザウム ヘルベルト; ライブル ベルント; リッチェ マリオ; フロイント ミヒャエル |
| 55 | Paper processing device, its controlling method and image forming system | JP2007050276 | 2007-02-28 | JP2008213173A | 2008-09-18 | KISHI KAZUHIKO; YOSHIE TORU |
| <P>PROBLEM TO BE SOLVED: To automatically bind a paper bundle with a spiral coil having a coil diameter in response to the thickness of the paper bundle and constitute a coil binding system usable by a general user. <P>SOLUTION: This paper processing device 100 for binding the paper bundle 3 with the spiral coil 11 formed of a wire 1 with a predetermined thickness includes: a coil forming mechanism 20, which has a circular arcuate part of setting a plurality of kinds of coil diameters and forms the spiral coil 11; a binding mechanism 40 for binding the paper bundle 3 with the spiral coil 11 formed by the coil forming mechanism 20, a paper sensor for detecting the paper bundle 3 and outputting paper information; and a selecting mechanism for selecting and setting one coil diameter corresponding to the thickness of the paper bundle 3 based on the paper information outputted from the paper sensor from among the circular arcuate part for setting a plurality of kinds of coil diameters. The coil forming mechanism 20 is one to form the spiral coil 11 by thrusting the wire 1 into the circular arcuate part selected by the selecting mechanism. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 56 | Coil forming machine and sheet processing device | JP2007050271 | 2007-02-28 | JP2008213168A | 2008-09-18 | YOSHIE TORU |
| <P>PROBLEM TO BE SOLVED: To make it possible to control the pitch of a helical coil, the pitch of which is constant even when the coil diameter of which varies, with favorable reproducibility. <P>SOLUTION: This coil forming machine is equipped with a main body part 21, a coil forming part 28, which has a wire inserting port 274, a coil discharging port 296 and a circular arcuate part for setting a plurality of kinds of the coil diameters and is pivotally mounted to the main body part 21, a wire feeding mechanism 22, which feeds the wire 1 with a predetermined thickness from its wire inserting port 274 to one of the circular arcuate part of the coil forming part 28 to bring into contact and a pitch adjusting mechanism 29, which is provided near the coil discharging port of the coil forming part 28 and formed by a selected circular arcuate part and, at the same time, adjusts the pitch of the helical coil 11 fed out by the wire feeding mechanism 22. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 57 | Wire mesh thermal barrier isolator | JP2008505494 | 2006-04-05 | JP2008536067A | 2008-09-04 | グリーンウッド,ジョージ |
| A substrate such as a heat shield for a vehicle is provided with a unitary compressed wire mesh bushing or isolator formed in place though a bore in the substrate. The bushing is formed by supporting an uncompressed or partially compressed wire mesh sleeve, optionally including a grommet or spacer, on a mandrel positioned within the bore; the mandrel is surrounded on either side of the bore by outer sleeves forming a molding cavity on each side of the substrate, and a slidable tamp is disposed in each outer sleeve and moved towards each other to compress the mesh within the bore and provide the unitary bushing. | ||||||
| 58 | Fastener insert body that is the head stamping cold including selectively removable end piece | JP2002575155 | 2002-03-22 | JP4038433B2 | 2008-01-23 | ジョン エフ カーヴァロ; ウィリアム ジアンナカコス; ロジャー ジトネイ; ジェイ ピーター フェレイラ |
| 59 | Re-peeling type low melt viscosity acrylic pressure-sensitive adhesive | JP51171495 | 1992-12-18 | JP3532565B2 | 2004-05-31 | アイ. エバーアーツ,アルバート; ディー. マルマー,ジェフリー |
| PCT No. PCT/US93/10054 Sec. 371 Date Jun. 4, 1996 Sec. 102(e) Date Jun. 4, 1996 PCT Filed Oct. 20, 1993 PCT Pub. No. WO95/10983 PCT Pub. Date Apr. 27, 1995A process for manufacturing an aneurysm clip (10) having a coil spring (22), a first arm (26) ending in a first clamping jaw, and a second arm (34) ending in a second clamping jaw (40). The method includes: (a) providing a cylindrical starting rod (1) of titanium or titanium alloy; (b) cold drawing the rod to reduce its diameter and increase its strength; (c) cutting the rod to form a single resilient member (12); (d) winding the member about a mandrel to form the coil spring while incorporating the deflection of the arms into the clamping force of the clip; (e) shaping the member into two end sections (16) forming the clamping jaws and two connecting sections (18) forming connecting elements for the jaws; (f) coining the two end sections of the member a temperature between 900 and 1000 degrees F.; and (g) bending the clamping jaws into a position assuring that the clamping jaws are parallel when clamped onto tissue (70). | ||||||
| 60 | Device and method for loosely binding sheetlike printed matter by loop-shaped wire binding element | JP2003149662 | 2003-05-27 | JP2004001525A | 2004-01-08 | FUCHS FERDINAND; REUSCH HARTMUT; WITTE FRITZ; WUERSCHUM HANS-PETER |
| PROBLEM TO BE SOLVED: To provide a method and a device for curving a wire binding element which can be adapted to the pile thickness of a pile of sheetlike printed matter that is different each time, without remodeling the device. SOLUTION: The device for loosely binding the sheetlike printed matter 11 by the loop-shaped wire binding element 41 so as to form a booklet 10 is provided with two C type formers 50 and 50'. The C type former is supported so that it curves the loop-shaped wire binding element being flat at first into an arc-shaped C type one 41c continuously substantially. Two O type formers 60 and 60' are provided and the loop-shaped wire binding element curved into the C type one 41c is curved into a closed-shape one 41o by the O type former. COPYRIGHT: (C)2004,JPO | ||||||
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