| 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 | Method of manufacturing a die cast wobble plate assembly | EP84303747.4 | 1984-06-04 | EP0130703A1 | 1985-01-09 | Roberts, Richard Warren |
An improved method of manufacturing a swash plate assembly (50) for use in a compressor, fluid motor or similar device in which a plurality of pistons (30) are connected, by means of connecting rods (10), to a swash plate (40) which drives (or is driven by) the pistons. A plurality of ball (12,13) ended rods (10) of a predetermined length having a pair of split dieinserts (14,15) positioned about the rod, each against one of the balls. The balls are positioned in a die means (51) having a central core (52) to locate their position and which die means securely maintains the inserts against each of the ball ends. About one ball end of the rod, a piston (30) with or without a slot is cast and the opposite ball end, which is positioned in a mating swash plate socket, has a swash plate (40) cast about it. The finished assembly is machined for overall length, surface parallel, and, angular and diametral relationships. |
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| 42 | ステアリングコラムの製造方法 | JP2014179817 | 2014-09-04 | JP5835438B2 | 2015-12-24 | 長澤 誠; 定方 清 |
| 43 | ステアリングコラム | JP2015136053 | 2015-07-07 | JP2015180572A | 2015-10-15 | 長澤 誠; 定方 清 |
| 【課題】中空円管状のステアリングコラムの一部の厚さを薄くしつつ、強度の確保を図れる構造を実現する。 【解決手段】鉄系材料製の円筒状部材19の前端部に絞り加工を施して、前端面の内径を、円筒状部材19のうち、本体部分18の後端面を形成する部分の内径側に位置する部分の内径よりも小さくする。そして、円筒状部材19の前端寄り部分を金型21の外側面22に開口した挿入孔23に挿通し、前端寄り部分を、金型21内に突出させる。金型21に軽合金の溶湯を送り込み、本体部分18を成形する。金型21から取り出した後に、円筒状部材19のうちの径方向内方に突出した前端部内周縁と、本体部分18との内径側部分に切削加工を施して、円筒状部材19の少なくとも前端寄り部分の内径を、本体部分18の内径以上とする。 【選択図】図1 |
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| 44 | Spherical bearing and a method of manufacturing the same | JP16785387 | 1987-07-07 | JPH0612127B2 | 1994-02-16 | TERAMACHI HIROSHI |
| 45 | Spherical bearing and manufacture thereof | JP16785387 | 1987-07-07 | JPS6412118A | 1989-01-17 | TERAMACHI HIROSHI |
| PURPOSE:To improve the reliability and life by casting an outer race by a casting mold in which an inner race coated with a liner is assembled, and joining a resin liner where a metal mesh partially bit by the inner peripheral surface portion of the outer race is buried to the outer race. CONSTITUTION:A liner body 21 is formed by burying a metal mesh member 22 in resin excellent in heat and the inner peripheral portion of an outer race 3 is partially bit in the mesh member 22 to make the connection of the liner body 21 and the outer race rigid. This manufacture comprises the steps of bringing the liner body 21 where the mesh member 22 into close contact with the whole periphery of the outer surface of an inner race 1 to be assembled in a casting mold, and pouring molten metal into the mold to form the outer race 3. Further, after the outer race is taken out of the casting mold, the external force is applied to the outer race 3 inward in the radial direction to ben and stretch the liner body 21, thereby forming a very small gap between the liner body and the outer surface of the inner race 1. Accordingly, the reliability, load-resisting ability and cooling efficiency can be increased to make the life longer. | ||||||
| 46 | Manufacture of inclined plate assembly | JP3883480 | 1980-03-26 | JPS55135261A | 1980-10-21 | EDOMANDO JIYOSEFU KURIMETSUKU |
| 47 | Method of making article having cast support portion | JP9791777 | 1977-08-17 | JPS5323821A | 1978-03-04 | JIEEMUZU EICHI KOTSUHO; RICHIYAADO EI RITSUTSUENTAARA |
| 48 | JPS4845433A - | JP8438972 | 1972-08-23 | JPS4845433A | 1973-06-29 | |
| 49 | Steering column and manufacturing method thereof | US14348841 | 2012-10-10 | US09321102B2 | 2016-04-26 | 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. | ||||||
| 50 | PROCESS FOR MANUFACTURING A BALL AND SOCKET JOINT AND BALL AND SOCKET JOINT MANUFACTURED ACCORDING TO THE PROCESS | US13743820 | 2013-01-17 | US20140199113A1 | 2014-07-17 | Alfons NORDLOH; Volker GRUBE; Metin ERSOY |
| A process for manufacturing a ball and socket joint and a joint manufactured according to that process are provided for a simple manufacture of a completely assembled ball and socket joint with a low torque and overturning moment. The joint housing is manufactured in an injection or casting process, in which the joint ball with the bearing shell placed on it is surrounded by a metallic material or a plastic. The joint shell is provided with a bulge, which behaves elastically with respect to the pressure acting during the injection or casting process and arches slightly outwardly after the conclusion of the injection or casting process. It is achieved as a result that the joint shell does not lie over its entire area on the joint ball after the injection or casting process. | ||||||
| 51 | Universal joint and method for manufacturing same | US13334733 | 2011-12-22 | US08590594B2 | 2013-11-26 | 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. | ||||||
| 52 | Method for the production of a brake disk and brake disk | US10518856 | 2003-04-29 | US07467694B2 | 2008-12-23 | Siegfried Botsch |
| A method for the production of a brake disk and a brake disk which are characterized by the following features: several pairs of bushings inserted into each other are placed into a core box. The core is closed about the bushings in such a way that they form an integral component of the core. The core is inserted into a casting tool and the brake disk is cast. After the core is removed, the brake disk hub and the friction ring are decoupled from each other and can expand in relation to each other without shielding the brake disk. | ||||||
| 53 | Process for Manufacturing a Ball and Socket Joint and Ball and Socket Joint Manufactured According to that Process | US11996149 | 2006-07-05 | US20080193208A1 | 2008-08-14 | Alfons Nordloh; Volker Grube; Metin Ersoy |
| A process for manufacturing a ball and socket joint and a joint manufactured according to that process are provided for a simple manufacture of a completely assembled ball and socket joint with a low torque and overturning moment. The joint housing is manufactured in an injection or casting process, in which the joint ball with the bearing shell placed on it is surrounded by a metallic material or a plastic. The joint shell is provided with a bulge, which behaves elastically with respect to the pressure acting during the injection or casting process and arches slightly outwardly after the conclusion of the injection or casting process. It is achieved as a result that the joint shell does not lie over its entire area on the joint ball after the injection or casting process. | ||||||
| 54 | Method for the production of a brake disk and brake disk | US10518856 | 2003-04-29 | US20060175159A1 | 2006-08-10 | Siegfried Botsch |
| 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). | ||||||
| 55 | Method and apparatus for forming a part with dampener | US10622921 | 2003-07-18 | US06945309B2 | 2005-09-20 | John Frait; Michael Dunn; Marcello Tedesco; Daniel Sandberg |
| A method for producing a damped part where a sand core is formed with at least one dampening structure with the sand core. The sand core with the at least one dampening structure therein is located in a mold. A part is cast from the mold and the sand core. The sand core is removed from the cast part leaving the at least one dampening structure in contact with the part. | ||||||
| 56 | Apparatus for casting an article in multiple portions | US691171 | 1996-08-01 | US5762969A | 1998-06-09 | Dennis S. Shimmell |
| A mold assembly for casting or molding a multiple portion article in sequential shots without opening the mold assembly. The mold assembly includes a movable mold insert that permits the portions to be interconnected as an integral part of the casting process. The mold insert includes a first or male void for defining a male end and a second or female void for defining a female end. In operation, the mold insert is placed in a first position and molten material is introduced into a first cavity portion to form a first portion with a male end. The mold insert is then placed in a second position with the female portion surrounding the male end of the first portion. Molten material is introduced into a second cavity portion to form a second portion with a female end at least partially surrounding the male end of the first portion. | ||||||
| 57 | Method of manufacturing a spherical bearing | US323346 | 1989-03-14 | US4903386A | 1990-02-27 | Hiroshi Teramachi |
| A spherical bearing comprises an outer ring and an inner ring located inside the outer ring to be slidable, the outer ring is prepared by casting molten metal around a resin-made sheet to be coated on the inner ring. A liner disposed between the inner and outer ring comprises a liner body and a metallic mesh member embedded in the liner body, and the molten metal is filled in meshes in the mesh member so as to partially bite the inner peripheral portion of the outer ring to achieve the firm engagement of the liner with the outer ring. | ||||||
| 58 | Spherical bearing and production method thereof | US214744 | 1988-07-01 | US4846590A | 1989-07-11 | Hiroshi Teramachi |
| A spherical bearing comprises an outer ring and an inner ring located inside the outer ring to be slidable, the outer ring is prepared by casting molten metal around a resin-made sheet to be coated on the inner ring. A liner disposed between the inner and outer ring comprises a liner body and a metallic mesh member embedded in the liner body, and the molten metal is filled in meshes in the mesh member so as to partially bite the inner peripheral portion of the outer ring to achieve the firm engagement of the liner with the outer ring. | ||||||
| 59 | Method of making an article having a cast-in place bearing | US863717 | 1977-12-23 | US4179313A | 1979-12-18 | James H. Koch; Richard A. Ritzenthaler |
| A composite part having freely movable components is manufactured by casting one component around the other to form an essentially locked unit and then freeing the components by thermal treatment. | ||||||
| 60 | Method of producing rotating joint member by casting | US3786543D | 1972-04-26 | US3786543A | 1974-01-22 | SATO S |
| A spherical element whose external peripheral surface is coated with a thin heat resisting resin film and said spherical element is set into the inside of a metal mold provided with a molding chamber for casting a socket for embracing the spherical element, and then a molten metal is poured into the metal mold for forming the socket and is solidified to cast the socket that embraces the spherical element and this cast socket is removed from the metal mold and the heat resisting resin film remaining on the external peripheral surface of the spherical element is removed mechanically or chemically thereby forming a clearance that permits the free rotation of the spherical element with respect to the socket in the external peripheral surface of the spherical element and the inner surface of the socket.
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