序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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61 | Method of making a ball joint linkage | US3763535D | 1971-09-23 | US3763535A | 1973-10-09 | GALLAGHER P |
A connecting rod has a ball formed at an end thereof. A unitary piston is cast about the ball, and upon solidification, irremovably captures the ball within the piston body.
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62 | Method of casting joined ball and socket parts | US28544952 | 1952-05-01 | US2768415A | 1956-10-30 | MORIN LOUIS H |
63 | Method and means for molding articulated articles | US59572132 | 1932-02-29 | US1931585A | 1933-10-24 | JOHN LUTON |
64 | Casting | US57700922 | 1922-07-24 | US1465116A | 1923-08-14 | DEWIRE JOHN A |
65 | Method of making lubricated joints. | US1913809155 | 1913-12-29 | US1155495A | 1915-10-05 | LEAKE JOHN S |
66 | sohweiger | US246347D | US246347A | 1881-08-30 | ||
67 | Improvement in copying-presses | US48217D | US48217A | 1865-06-13 | ||
68 | Improvement in the manner of casting hinges onto their axes | US2043D | US2043A | 1841-04-10 | ||
69 | 금 24k 거북선 | KR2020140008868 | 2014-12-03 | KR2020160002002U | 2016-06-13 | 김현모 |
본발명은복수의순금주물제품을설계단계부터암과수를만들어각각생산된부품을조립하여 99.99% 제품생산. 기존금과금을붙일때는땜 방식을이용했는데금에은 등기타물질을섞어낮은순도를만들어서땜을사용해재사용을할려면별도의정제과정이필요해따로비용이들어갔다. 반면본 발명은애초에땜이안들어가기때문에별도의과정필요없이재사용이가능합니다. | ||||||
70 | 볼-앤드-소켓 조인트의 제조 방법 및 상기 방법에 따라제조된 조인트 | KR1020087001319 | 2006-07-05 | KR101311646B1 | 2013-09-25 | 노르드로흐,알폰스; 그루베,폴커; 에르소이,메틴 |
본 발명은 볼-앤드-소켓 조인트의 제조 방법 및 상기 방법에 따라 제조된 조인트에 관한 것이다. 낮은 토크 및 틸팅 모멘트를 가진 완전히 장착된 볼-앤드-소켓 조인트가 간단히 제조될 수 있어야 한다. 상기 볼-앤드-소켓 조인트는, 조인트 하우징이 사출 성형 또는 주조 방법으로 형성되도록 제조되며, 상기 사출 성형 또는 주조 방법에서는 장착된 베어링 셸을 가진 볼이 금속 재료 또는 플라스틱에 의해 둘러싸인다. 본 발명에 따라, 조인트 셸의 기본적인 구형 디자인이 약간 변형된다. 조인트 셸은 하나 이상의 영역에 성형부를 갖는다. 상기 성형부는 사출 성형 또는 주조 공정 중에 작용하는 압력에 대해 탄성 특성을 가지며, 사출 성형 또는 주조 공정의 종료 후에 외부로 약간 볼록하게 휘어진다. 이로 인해, 조인트 셸의 전체 면이 사출 성형 또는 주조 공정 후에 볼 상에 놓이지 않게 된다. 베어링 셸, 볼, 사출 성형, 주조, 조인트 하우징, 조인트 셸, 성형부. | ||||||
71 | STEERING COLUMN AND METHOD FOR PRODUCING SAME | EP12840514.9 | 2012-10-10 | EP2767453B1 | 2016-10-12 | NAGASAWA, Makoto; SADAKATA, Kiyoshi |
72 | STEERING COLUMN AND METHOD FOR PRODUCING SAME | EP12840514.9 | 2012-10-10 | EP2767453A1 | 2014-08-20 | NAGASAWA, Makoto; SADAKATA, Kiyoshi |
Construction is achieved that is capable of ensuring strength while making the thickness of part of a hollow cylindrical shaped steering column 10b thin. A drawing process is performed on the front-end section of a cylindrical member 19 that is made of an iron alloy to make the inner diameter of the front-end surface smaller than the inner diameter of the portion of the cylindrical member 19 that is located on the inner-diameter side of the portion that forms the rear-end surface of the main body portion 18. A portion near the front end of the cylindrical member 19 is inserted through an insertion hole 25 that is opened in an outside surface 24 of a mold 23, and the portion that is near the front end protrudes inside the mold 23. A molten light metal alloy is fed into the mold 23 to form a main body portion 18. After removing the main body portion 18 from the mold 23, a machining process is performed on the inner circumferential edge of the front-end section that protrudes in the radial direction of the cylindrical member 19 and the inner-diameter side portion of the main body portion 18 to make the inner diameter of at least the portion near the front end of the cylindrical member 19 equal to or greater than the inner diameter of the main body portion 18. |
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73 | WASSERLÖSLICHER SALZKERN MIT FUNKTIONSBAUTEIL | EP07765133.9 | 2007-07-09 | EP2040865B1 | 2010-01-27 | GRÖZINGER, Hans Dieter |
74 | WASSERLÖSLICHER SALZKERN MIT FUNKTIONSBAUTEIL | EP07765133.9 | 2007-07-09 | EP2040865A1 | 2009-04-01 | GRÖZINGER, Hans Dieter |
The invention relates to a water-soluble salt core for producing hollow patterns by casting methods, wherein the salt core comprises at least one mechanical and/or electric/electronic component in a positive connection or in a functional cavity, the component after the casting process being completely or partially displaceably or flexibly connected to the hollow pattern, or wherein the salt core comprises at least one mechanical and/or electric/electronic component in a positive connection or in a functional cavity, the component being substantially or completely enclosed by the salt core, or wherein the salt core comprises at least one mechanical and/or electric/electronic component in a positive connection or in a functional cavity, the component exercising no support function for the core. | ||||||
75 | VERFAHREN ZUR HERSTELLUNG EINER BREMSSCHEIBE UND BREMSSCHEIBE | EP03725113.9 | 2003-04-29 | EP1513636A1 | 2005-03-16 | BOTSCH, Siegfried |
The invention relates to a method for the production of a brake disk (2) and a brake disk (2) which are characterized by the following features: several pairs of inserted bushings (8, 10) other are placed into a core box. The core (14) is closed about the bushings (8,10) in such a way that they form an integral component of the core (14). The core (14) is inserted into a casting tool and the brake disk is cast. After the core (14) is removed, the brake disk chamber (4) and the friction ring (6) are decoupled from each other and can expand in relation to each other without shielding the brake disk (2). | ||||||
76 | METHOD OF MANUFACTURING A BALL JOINT | EP97924335.9 | 1997-06-06 | EP0916858B1 | 2003-11-12 | TAKAHASHI, Kunihisa; YUKI, Noboru; MAKI, Nobuyuki; SUGA, Yoshikazu |
A method for manufacturing a ball joint in which a ball (8) acting as the centre of swivelling of a link mechanism and a holder embracing the ball are swivellingly or rotatably connected to each other, the method comprising a first step of casting molten aluminum alloy into a casting mold in which a ball (8) is inserted as a core so as to cast therefrom a holder (2) covering the ball (8) with a portion to which a shank (1b) is joined uncovered, a second step of heating the holder (2) to melt the aluminum alloy forming the holder (2), a third step of press contacting the shank (1b) against the ball (8) exposed from the holder (2), bringing electrodes (10a, 10b) into abutment with the shank (1b) and the holder (2), respectively, and causing a welding current to flow between the electrodes so as to projection weld the ball (8) and the shank (1b), thereby forming a shank with a ball, and a fourth step of applying an external force to the holder (2) or the shank with a ball so as to form a gap between the ball (8) and the holder (2). | ||||||
77 | METHOD FOR MANUFACTURING A BALL JOINT | EP97924335 | 1997-06-06 | EP0916858A4 | 2000-08-09 | TAKAHASHI KUNIHISA; YUKI NOBORU; MAKI NOBUYUKI; SUGA YOSHIKAZU |
A method for manufacturing a ball joint in which a ball (8) acting as the centre of swivelling of a link mechanism and a holder embracing the ball are swivellingly or rotatably connected to each other, the method comprising a first step of casting molten aluminum alloy into a casting mold in which a ball (8) is inserted as a core so as to cast therefrom a holder (2) covering the ball (8) with a portion to which a shank (1b) is joined uncovered, a second step of heating the holder (2) to melt the aluminum alloy forming the holder (2), a third step of press contacting the shank (1b) against the ball (8) exposed from the holder (2), bringing electrodes (10a, 10b) into abutment with the shank (1b) and the holder (2), respectively, and causing a welding current to flow between the electrodes so as to projection weld the ball (8) and the shank (1b), thereby forming a shank with a ball, and a fourth step of applying an external force to the holder (2) or the shank with a ball so as to form a gap between the ball (8) and the holder (2). | ||||||
78 | Cast metal-polymeric articles | EP94108167.1 | 1994-05-27 | EP0628368B1 | 1998-08-26 | McNamara, James Francis; Pentenburg, David Mark; Miller, Edward Anthony; Raymond, Arnold Wayne |
79 | STEERING COLUMN AND MANUFACTURING METHOD THEREOF | US14348841 | 2012-10-10 | US20140246847A1 | 2014-09-04 | Makoto Nagasawa; Kiyoshi Sadakata |
A steering column has an overall hollow and cylindrical shape at least part of which is formed using a column member. The column member includes a main body portion having one-side end section and the other-side end section and a cylindrical member having one-side end section and the other-side section. The cylindrical member is joined in the axial direction with respect to the main body portion by fitting and fastening the other-side end section of the cylindrical member inside the one-side end section of the main body portion. The inner diameter of the end surface of the other-side end section of the cylindrical member is smaller than the inner diameter of a portion of the other-side end section of the cylindrical member. The portion of the other end section of the cylindrical member constitutes a joined section between the main body and the cylindrical member. | ||||||
80 | UNIVERSAL JOINT AND METHOD FOR MANUFACTURING SAME | US13334733 | 2011-12-22 | US20130160965A1 | 2013-06-27 | Robert J. Irvine |
A universal joint having a hub formed by molding a material around four stub axles which are arranged so that a first and second stub axle are axially aligned and a third and fourth stub axle are axially aligned. Furthermore, the axes of the first and second stub axles are perpendicular to and coplanar with the axes of the third and fourth stub axles. A bearing is positioned around each stub axle. A first yoke is then molded around two aligned stub axle bearings and an end of a first axle while, similarly, a second axle is molded around the bearings on the other pair of stub axles and an end of a second axle. |