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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1 | 金属烧结体的制造方法 | CN00129053.3 | 2000-08-18 | CN1287897A | 2001-03-21 | 下平贤一; 林纯一 |
本发明提供能够容易地进行切削加工、材料选择范围宽、能够得到具有高烧结密度的金属烧结体的金属烧结体的制造方法。在本发明的金属烧结体的制造方法中,例如,经过使用粉浆浇注法制造包含金属粉末的成形体的工序(1)、对该成形体进行切削加工的工序(2)、以及烧结已加工的成形体得到烧结体的工序(3)而制成成形体。 | ||||||
2 | 一种超精密摩擦驱动机构 | CN201410589690.9 | 2014-10-29 | CN104405837A | 2015-03-11 | 顾国刚; 钟君 |
本发明公开了一种超精密摩擦驱动机构,该机构主要包括驱动部分,辅助支撑部分、施压部分和偏心施压部分,其中通过驱动部分提供稳定、精确的回转定位,力矩电机与摩擦驱动轴直接连接,减少中间传动环节带来的传动误差,圆光栅连接在驱动轴另一端,测量驱动轮转角精度,辅助支撑部分减小了从动杆末端的挠度变形,保证从动杆的位置精度,起到辅助支撑和微调定位的作用,其中压力簧片将偏心轮结构输出的位移转化成压紧力,并通过预压轮系将驱动轮系和摩擦导杆压紧,偏心施压部分可以为压力簧片提供准确的位移输出,能够方便的调整压紧力的大小,并通过安装在偏心轮从动部件上的压力传感器实时监测压紧力的变化,满足对压紧力可控性的要求。 | ||||||
3 | Production of metallic sintered body | JP23269599 | 1999-08-19 | JP2001059103A | 2001-03-06 | SHIMODAIRA KENICHI; HAYASHI JUNICHI |
PROBLEM TO BE SOLVED: To facilitate cutting working, to widen the width of material selection and to obtain high sintered density by forming a molded body by a slip casting method using a mixture contg. fine metal powder and an organic binder and having fluidity, subjecting the molded body to cutting working and thereafter executing sintering. SOLUTION: An organic binder and water are added to metal powder to form into slurry. As to this metal powder, the average grain size is desirably controlled to ≤150 μm, particularly to about 0.5 to 80 μm, the optional one such as the one having high hardness, high m.p., difficulty in alloying, or the like, e.g. of a metal such as Fe and Ni or the alloy thereof is used, and its concn. in the slurry is desirably controlled to 70 to 97 wt.%, particularly to about 80 to 95%. Moreover, as the organic binder, PVA, starch, or the like, is used, and its concn. in the slurry is desirably controlled to 0.2 to 5%, particularly to about 0.2 to 3%. The slurry is molded by a slip casting method, the molded body is subjected to cutting working such as engraving and is thereafter subjected to sintering accompanying degreasing treatment to obtain a metallic sintered body having <7% porosity and high sinetred density. COPYRIGHT: (C)2001,JPO | ||||||
4 | Differential planetary reduction gear | JP11252985 | 1985-05-25 | JPS61270539A | 1986-11-29 | ADACHI JUNJI |
PURPOSE:To enable stable formation of oil film by etching a spiral oil groove in large diameter planetary roller and moving lubricant along said groove. CONSTITUTION:Large diameter section 23 for positioning the small diameter section 22 between the large diameter section 21 is provided on a planetary roller 2 while spiral oil grooves 5, 5 are made in the outercircumferential faces of the large diameter sections 21, 23. Upon rotation of the planetary roller 2, lubricant in said grooves 5, 5 will move along the groove 5 to be fed to the contacting section between the large diameter sections 21, 23 and the rotary shaft 1 and between the large diameter section 21 and the outer ring 11. Consequently, the lubricant can be circulated well during operation thus to never break the oil film. | ||||||
5 | Speed reduced driven turbocharger | US14885781 | 2015-10-16 | US09879597B2 | 2018-01-30 | Jared William Brown; Tom Waldron; Ryan Sherrill |
Disclosed is a speed reduced driven turbocharger that utilizes a step-down roller that is coupled to a turbo shaft with a traction interface. Either a flat or a shaped traction interface can be used. The step-down roller mechanically actuates either a mechanical or hydraulic transmission, or can be mechanically coupled to an electric motor/generator. | ||||||
6 | Production of low velocity motion | US3427898D | 1964-05-19 | US3427898A | 1969-02-18 | MAYER FERDY |
7 | Control apparatus | US35874564 | 1964-04-10 | US3267755A | 1966-08-23 | ISELY WILLIAM H |
8 | Control device for coaxial members | US11770361 | 1961-06-16 | US3256743A | 1966-06-21 | VALLIERE PIERRE FRANCOIS DE |
9 | Gearless transmission | US11865861 | 1961-06-21 | US3227005A | 1966-01-04 | JOHNSON ALLAN S |
10 | Frictional gearing | US24374627 | 1927-12-30 | US1750167A | 1930-03-11 | RICHARD ERBAN |
11 | karl and b | US1400500D | US1400500A | 1921-12-13 | ||
12 | Transmission mechanism. | US1913773696 | 1913-06-14 | US1136644A | 1915-04-20 | BESSERDICH WILLIAM A |
13 | 摩擦ローラ式伝動装置 | JP2009550518 | 2009-01-20 | JPWO2009093570A1 | 2011-05-26 | 淳弘 森; 永悟 坂上 |
クランクシャフト41の回転による制御下で摩擦ローラ32を摩擦ローラ31に向け径方向へ押し付け、これらローラ31,32間でのトルク伝達を可能にする。ローラ間径方向押し付け反力がベアリングサポート23,25で内力として消失し、ハウジング11に入力されることがない。ベアリングサポート23,25の両端軸受嵌合部間における中央部に、ローラ間径方向押し付け反力に対する支持剛性を低下させるための括れ部を設ける。 | ||||||
14 | Friction disc gearing | JP26785686 | 1986-11-12 | JPS62118154A | 1987-05-29 | MARINUSU PIETERU KOSUTAA; HERUMANUSU MATEIASU YOHANUSU R; MARINUSU YOSEFUSU YAKOBUSU DON |
15 | JPS4913821B1 - | JP988367 | 1967-02-17 | JPS4913821B1 | 1974-04-03 | |
16 | 減速機械式ターボ過給機 | JP2015208907 | 2015-10-23 | JP2016084815A | 2016-05-19 | ジャレッド ウィリアム ブラウン; トム ウォルドロン; ライアン シェリル |
【課題】本発明の一目的は、エンジンシステム用の改善した機械式ターボ過給機を提供することである。 【解決手段】トラクション接触部を用いてターボ軸に連結される逓減ローラーを使用する減速機械式ターボ過給機が開示される。平坦か又は形状加工されたトラクション接触部を用いることができる。逓減ローラーは、機械的伝達装置若しくは油圧式伝達装置のいずれかを機械的に作動させるか、又は電気モーター/発電機に機械的に連結することができる。 【選択図】図1A |
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17 | Friction roller type transmission | JP2009550518 | 2009-01-20 | JP5263173B2 | 2013-08-14 | 淳弘 森; 永悟 坂上 |
18 | Power augmentation machine | JP4612984 | 1984-03-10 | JPS60192159A | 1985-09-30 | SATOU RIYUUICHI |
PURPOSE:To step up the augmentation rate of an output by using a gear and pulleys jointly to transmit strong force to a wheel. CONSTITUTION:A gear 37 and pulleys 23, 33 are used jointly to intensify the pressure applied to the inner wall of a cylinder 8 by a wheel 25. Thus, this reaction is composed with input to compensate friction loss, so that the augmentation rate of an output is stepped up. | ||||||
19 | FRICTION ROLLER TYPE POWER TRANSMISSION DEVICE | EP09704737.7 | 2009-01-20 | EP2246593A1 | 2010-11-03 | MORI, Atsuhiro; SAKAGAMI, Eigo |
Under control of rotation of a crankshaft 41, a friction roller 32 is pressed against a friction roller 31 in a radial direction, so as to achieve torque transmission between the rollers 31, 32. An inter-roller radial pressing reaction is canceled as an internal force in bearing supports 23, 25, with no input to a housing 11. Each bearing support 23, 25 is formed with a constricted portion at a center section of the bearing support between bearing-fitting portions at end sections of the bearing support, for lowering support stiffness of the bearing support against the inter-roller radial pressing reaction. |
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20 | Method of producing metal sintered compacts | EP00117932.4 | 2000-08-21 | EP1077099A2 | 2001-02-21 | Shimodaira, Kenichi, c/o Injex Corporation; Hayashi, Junichi, c/o Injex Corporation |
A method of producing a metal sintered compact, comprising the steps of: preparing a fluid mixture including at least one kind of metal powder; producing a green body using the fluid mixture by slip casting; performing carving on the produced green body; and sintering the green body on which the carving has been performed to obtain a metal sintered compact. According to the method described above, it is possible to produce high density metal sintered compacts on which fine and precise patterns and/or letters and the like can be formed and indicated, or which have a precise complicated shape. Further, it is also possible to produce metal products such as large size metal products and custom-made metal products and the like, since in the method such metal products are produced by the slip casting. |