| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 球式接头的制造方法 | CN02119957.4 | 1997-06-06 | CN1180186C | 2004-12-15 | 高桥邦久; 结城升; 真木信行; 菅嘉一 |
| 本发明的涉及球式接头制造方法,该球式接头中,作为连杆机构摆动中心的球8和包覆着该球的保持座2可摆动或可转动地连接着。本发明的方法由4个工序构成。在第1工序,将球8作为芯插入铸造金属模具,将熔融的铝合金铸入该金属模具,铸造出除了柄1b的接合部外包覆该球8的保持座2。在第2工序,加热该保持座2,对形成该保持座2的铝合金进行固溶处理。在第3工序,将柄1b压接在从保持座2露出的球8上,同时,使电极10a、10b分别与柄1b和保持座2相接,在这些电极间导通焊接电流,用凸焊将球8与柄1b接合起来,形成带球柄1。在第4工序,对上述保持座2或带球柄1作用外力,在球8与保持座2之间形成间隙。 | ||||||
| 2 | 球式接头的制造方法 | CN02119957.4 | 1997-06-06 | CN1379190A | 2002-11-13 | 高桥邦久; 结城升; 真木信行; 菅嘉一 |
| 本发明的涉及球式接头制造方法,该球式接头中,作为连杆机构摆动中心的球8和包覆着该球的保持座2可摆动或可转动地连接着。本发明的方法由4个工序构成。在第1工序,将球8作为芯插入铸造金属模具,将熔融的铝合金铸入该金属模具,铸造出除了柄1b的接合部外包覆该球8的保持座2。在第2工序,加热该保持座2,对形成该保持座2的铝合金进行固溶处理。在第3工序,将柄1b压接在从保持座2露出的球8上,同时,使电极10a、10b分别与柄1b和保持座2相接,在这些电极间导通焊接电流,用凸焊将球8与柄1b接合起来,形成带球柄1。在第4工序,对上述保持座2或带球柄1作用外力,在球8与保持座2之间形成间隙。 | ||||||
| 3 | 球头关节连杆的制造方法 | CN201610822985.5 | 2016-09-14 | CN106363152A | 2017-02-01 | 杨开铭 |
| 本发明提供一种球头关节连杆的制造方法,它主要包括制作砂型,然后再浇注钢水,待钢水降温后取掉砂型,用化学方法去除辅助金属后,即得到所需要的球头关节连杆;本发明将球头关节连杆的球头和球头槽同时铸造,铸造完成后,球头就已经到球头槽内,不需要再组装,这样使得球头关节连杆能承受多大的拉力完全取决于球头和球头槽本身的结构,大大提高球头关节连杆的安全性能和抗拉力能力,并且还简化了制造球头关节连杆的生产步骤,提高了生产效率。 | ||||||
| 4 | 转向柱及其制造方法 | CN201280001242.1 | 2012-10-10 | CN103189263B | 2015-08-05 | 长泽诚; 定方清 |
| 本发明实现使中空圆管状的转向柱(10b)的一部分的厚度变薄的同时确保强度的构造。在铁类材料制的圆筒状部件(19)的前端部实施拉深加工,使前端面的内径比圆筒状部件(19)中的位于主体部分(18)的后端面所形成的部分的内径侧的部分的内径小。而且,将圆筒状部件(19)的偏前端部分插入向模具(23)的外侧面(24)开口的插入孔(25),使偏前端部分向模具(23)内突出。将轻合金的熔融金属送入模具(23),并成形主体部分(18)。从模具(23)取出之后,在圆筒状部件(19)中的向径向内侧突出的前端部内周缘和主体部分(18)之间的内径侧部分实施切削加工,使圆筒状部件(19)的至少偏前端部分的内径成为主体部分(18)的内径以上。 | ||||||
| 5 | 转向柱及其制造方法 | CN201280001242.1 | 2012-10-10 | CN103189263A | 2013-07-03 | 长泽诚; 定方清 |
| 本发明实现使中空圆管状的转向柱(10b)的一部分的厚度变薄的同时确保强度的构造。在铁类材料制的圆筒状部件(19)的前端部实施拉深加工,使前端面的内径比圆筒状部件(19)中的位于主体部分(18)的后端面所形成的部分的内径侧的部分的内径小。而且,将圆筒状部件(19)的偏前端部分插入向模具(23)的外侧面(24)开口的插入孔(25),使偏前端部分向模具(23)内突出。将轻合金的熔融金属送入模具(23),并成形主体部分(18)。从模具(23)取出之后,在圆筒状部件(19)中的向径向内侧突出的前端部内周缘和主体部分(18)之间的内径侧部分实施切削加工,使圆筒状部件(19)的至少偏前端部分的内径成为主体部分(18)的内径以上。 | ||||||
| 6 | 用于制造阻尼盘式制动转子的方法 | CN200480023750.5 | 2004-07-15 | CN100379510C | 2008-04-09 | J·弗赖特; M·邓; M·特德斯科; D·桑伯格 |
| 一种用于制造阻尼盘式制动转子的方法,包括:形成砂芯(40),在砂芯中具有至少一个阻尼结构(28),其中阻尼结构具有多个空气通路(72);将具有阻尼结构的砂芯设置在转子模子(42)中;从转子模子(42)和砂芯铸造转子(54),转子具有多个单独的实心制动板支撑件(60);将砂芯从转子移除;以及留下阻尼结构位于各个实心制动板支撑件(60)之间,从而阻尼结构围绕转子基本连续地延伸。在制动过程期间产生的噪音或振动传递到阻尼结构,阻尼结构吸收一部分的噪音和振动以实现安静的制动转子,以及由于阻尼结构铸造期间嵌入在转子,转子以便宜、有效方式制成。如果阻尼结构被损坏或破裂,减轻或防止阻尼结构对邻近制动转子的结构产生影响。 | ||||||
| 7 | 用于形成具有阻尼器的部件的方法和设备 | CN200480023750.5 | 2004-07-15 | CN1839005A | 2006-09-27 | J·弗赖特; M·邓; M·特德斯科; D·桑伯格 |
| 一种用于生产阻尼部件的方法,其中形成具有至少一个阻尼结构的砂芯。该其中具有至少一个阻尼结构的砂芯设置在模子中。从该模子和该砂芯铸造部件。将砂芯从铸造部件移除,留下该至少一个阻尼结构与该部件接触。 | ||||||
| 8 | ステアリングコラム | JP2015136053 | 2015-07-07 | JP5962823B2 | 2016-08-03 | 長澤 誠; 定方 清 |
| 9 | ステアリングコラムの製造方法 | JP2012547204 | 2012-10-10 | JPWO2013054821A1 | 2015-03-30 | 長澤 誠; 誠 長澤; 定方 清; 清 定方 |
| 中空円管状のステアリングコラム10b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。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23の外側面24に開口した挿入孔25に挿通し、前端寄り部分を、金型23内に突出させる。金型23に軽合金の溶湯を送り込み、本体部分18を成形する。金型23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。 | ||||||
| 10 | ステアリングコラムの製造方法 | JP2014179817 | 2014-09-04 | JP2014240278A | 2014-12-25 | NAGASAWA MAKOTO; SADAKATA KIYOSHI |
| 【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 | ||||||
| 11 | Hybrid body of cast metal and non-melting treatable polymer and its production | JP12398994 | 1994-06-06 | JPH079112A | 1995-01-13 | JIEIMUSU FURANSHISU MAKUNAMARA; EDOWAADO ANSONIII MIRAA; DEIBUITSUDO MAAKU PENTENBURUGU; AANORUDO UEIN REIMONDO |
| PURPOSE: To provide a hybrid body of a polymer member which is non-melting treatable at a high temperature at which the polymer member is easily and cost effectively produced and metal. CONSTITUTION: A cast metal member 3 substantially encloses an insert member 1. The insert member 1 is formed with a hole 2 at its center. The outer peripheral surface of the insert member 1 is provided with a holding means 4 for preventing the movement of the insert member 1 along the circumferential direction of the cast metal member 3 for it in the form of a flat part. The insert member 1 consists of the polymer treatable at the temperature of the extent that the melting thereof does not occur in spite of the high temperature. | ||||||
| 12 | JPH0447151B2 - | JP13640684 | 1984-06-30 | JPH0447151B2 | 1992-08-03 | RICHAADO WAAREN ROBAATSU |
| 13 | 볼-앤드-소켓 조인트의 제조 방법 및 상기 방법에 따라제조된 조인트 | KR1020087001319 | 2006-07-05 | KR1020080036990A | 2008-04-29 | 노르드로흐,알폰스; 그루베,폴커; 에르소이,메틴 |
| The invention relates to a method for manufacturing a ball and socket joint and a joint manufactured according to said method. It is intended to permit simple fabrication of a completely mounted ball and socket joint with a low torque and tilting moment. The described ball and socket joint is manufactured here in such a way that the joint housing is produced using an injection molding or casting method in which the ball joint with the fitted-on bearing shell is surrounded by a metallic material or a plastic. According to the invention, the basically spherical design of the joint shell is slightly modified. The joint shell is provided in at least one area with a recessed portion which behaves elastically with respect to the pressure acting during the injection molding or casting process and bulges slightly outwards after the injection molding or casting process. This ensures that the joint shell does not rest on the ball joint over the entire surface after the injection molding or casting process. | ||||||
| 14 | Process for forming a high temperature single crystal canted spring | US13968000 | 2013-08-15 | US09541148B1 | 2017-01-10 | Jeffrey J DeMange; Frank J Ritzert; Michael V Nathal; Patrick H Dunlap; Bruce M Steinetz |
| A process for forming a high temperature single crystal canted spring is provided. In one embodiment, the process includes fabricating configurations of a rapid prototype spring to fabricate a sacrificial mold pattern to create a ceramic mold and casting a canted coiled spring to form at least one canted coil spring configuration based on the ceramic mold. The high temperature single crystal canted spring is formed from a nickel-based alloy containing rhenium using the at least one coil spring configuration. | ||||||
| 15 | Process for manufacturing a ball and socket joint and ball and socket joint manufactured according to the process | US13743820 | 2013-01-17 | US09470259B2 | 2016-10-18 | 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. | ||||||
| 16 | Integrated throttle body for electronic fuel injection system and method of manufacture | US12910438 | 2010-10-22 | US08453621B2 | 2013-06-04 | Carlos F. Damasceno; Vishalsinh Kadam |
| An integrated throttle body for an electronic fuel injection (“EFI”) system and its method of manufacture. The integrated throttle body of the invention comprises a molded throttle body housing in which the throttle valve, shaft, bore and motor housing are all molded in a single shot from a suitable thermosetting resin or thixomolded from magnesium. | ||||||
| 17 | Method to ensure the removability and/or the mobility of an element cast in a sealing compound | US12015072 | 2008-01-16 | US08192786B2 | 2012-06-05 | Johann Schuster; Lothar Schoen; Stefan Stocker |
| In a method to ensure the removability and/or the mobility of at least one element cast in a casting compound for a module of a medical apparatus, wherein the element is coated with a meltable substance before the casting, the meltable substance is melted by heating after the casting in order to remove and/or to produce the mobility of the element. | ||||||
| 18 | METHOD TO ENSURE THE REMOVABILITY AND/OR THE MOBILITY OF AN ELEMENT CAST IN A SEALING COMPOUND | US12015072 | 2008-01-16 | US20080175978A1 | 2008-07-24 | Johann Schuster; Lothar Schoen; Stefan Stocker |
| In a method to ensure the removability and/or the mobility of at least one element cast in a sealing compound for a module of a medical apparatus, wherein the element is coated with a meltable substance before the casting, the meltable substance is melted by heating after the casting in order to remove and/or to produce the mobility of the element. | ||||||
| 19 | Method for manufacturing a ball joint | US147561 | 1999-01-20 | US06098287A | 2000-08-08 | Kunihisa Takahashi; Noboru Yuki; Nobuyuki Maki; Yoshikazu Suga |
| This manufacturing method comprises a first step in which a molten aluminum alloy is cast into casting dies into which a ball 8 forming a ball portion 1a of a ball-shank 1 in corporation with a shank 1b connected to the portion 1a is inserted as a core so that a holder 2 covering the ball portion 1a is formed leaving the connected portion of the shank 1b as it is; a second step in which the aluminum alloy for forming the holder 2 is subjected to a solution heat treatment; a third step in which the shank 1b is brought into pressure contact with the ball 8 exposed from the holder 2, electrodes 10a and 10b are held in contact with the shank 1b and the holder 2, respectively, and the ball 8 and the shank 1b are projection-welded by turning on electricity between electrodes to thereby form the ball-shank 1; and a fourth step in which an external force is applied to the holder 2 or the ball-shank 1 to thereby provide a gap between the ball 8 and the holder 2. | ||||||
| 20 | Method of manufacturing a die-cast wobble plate assembly | US509700 | 1983-06-30 | US4548254A | 1985-10-22 | Richard W. Roberts |
| An improved method of manufacturing a swash plate assembly for use in a compressor, fluid motor or similar device in which a plurality of pistons are connected, by means of connecting rods, to a swash plate which drives (or is driven by) the pistons. A plurality of ball ended rods of a predetermined length having a pair of split die-inserts positioned about the rod, each against one of the balls. The balls are positioned in a die means having a central core 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 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 cast about it. The finished assembly is machined for overall length, surface parallel, and, angular and diametral relationships. | ||||||
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