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    • 1. 发明专利
    • Generator by high speed rotation of copper disk
    • 发电机通过高速旋转铜盘
    • JPS59172982A
    • 1984-09-29
    • JP4597383
    • 1983-03-22
    • Sadayuki Yamada
    • YAMADA SADAYUKI
    • H02N11/00H02K31/00
    • H02K31/00
    • PURPOSE:To generate a potential difference between the center and the outside of a copper disk by rotating the disk at a high speed. CONSTITUTION:A copper disk 1 is placed on a base 2 of insulator. The disk 1 can rotate on the base 2. A current collecting needle 3 of good conductor which is contacted with the disk 1 is provided at the center of the disk 2. A metal brush 4 of good conductor is contacted with the outside of the disk 1. When the disk 1 is rotated at a high speed, the needle 3 contacted with the disk 1 is charged to positive, and the brush 4 contacted with the outside is charged to negative, thereby generating a potential difference between the needle 3 and the brush 4.
    • 目的:通过高速旋转磁盘来产生铜盘中心和外部之间的电位差。 构成:将铜盘1放置在绝缘体的基座2上。 盘1可以在基座2上旋转。与盘1接触的良导体的集流针3设置在盘2的中心。良导体的金属刷4与盘外接触 当盘1高速旋转时,与盘1接触的针3被充电为正,并且与外部接触的刷4被充电为负,从而产生针3和针3之间的电位差 刷4。
    • 2. 发明专利
    • Snow tire equipped with vibratory body
    • SNOW TIRE配有振动体
    • JPS59156806A
    • 1984-09-06
    • JP3075683
    • 1983-02-28
    • Sadayuki Yamada
    • YAMADA SADAYUKI
    • B60C11/16
    • B60C11/16
    • PURPOSE:To prevent slippage on a snowy road and prevent damage to a paved road by fitting a hollow vibrational body, filled with air, in a groove of a tire in such a manner as said body is slightly projected from a tread face of the tire. CONSTITUTION:A vibrational body 2 is fitted in a groove 1 of a tire so as to be slightly projected from a tread face of the tire. The vibrational body 2 is hollow and filled with air so that it strains when loaded. Accordingly, at the time of traveling on a snowy road, said body 2 bites into said road and slippage of the tire is prevented. During traveling on a paved road, the vibrational body 2 strains in the groove 1 of the tire and damage to the road is prevented.
    • 目的:为了防止雪路上的滑动,并且通过将填充有空气的中空振动体装配在轮胎的槽中,以使得所述主体从轮胎的胎面稍微突出的方式防止在路面上的滑动 。 构成:将振动体2装配在轮胎的槽1中,以从轮胎的胎面略微突出。 振动体2是空心的并充满空气,使得它在加载时会变形。 因此,在雪路上行驶时,所述车体2咬入所述道路,并且防止了轮胎的滑动。 在铺路的行驶中,振动体2在轮胎的槽1中变形,并且防止对道路的损坏。
    • 3. 发明专利
    • Efficiently power-generating method by low temperature cooling of copper disk in single pole induction
    • 铜电极低温冷却低功率发电方法的有效发电方法
    • JPS61139256A
    • 1986-06-26
    • JP25744984
    • 1984-12-07
    • Sadayuki Yamada
    • YAMADA SADAYUKI
    • H02K31/02H02K31/00
    • H02K31/00
    • PURPOSE:To increase power in single pole induction by supplying free electrons contained in water through leads connected from a water tank. CONSTITUTION:A copper disk 1 of high speed rotation in single pole induction is coated with a hollow insulator 4 except an outside periphery 2 and the peripery 3 of the opened portion at a suitable position of the copper disk 1, low temperatureliquid is poured in the hollow body of the insulator to cool the disk 1, and leads 5 connected from under water increases in a potential difference from leads 7 for connecting a central shaft 6 with the disk 1 by applying a magnetic field to the disk 1. Since free electrons contained in water are supplied through the leads 5 connected from a water tank 8, power in single pole induction can be increased.
    • 目的:通过从水箱连接的引线提供水中包含的自由电子,增加单极感应功率。 构成:单极感应高速旋转的铜盘1在铜盘1的适当位置除了外周2和开口部分的外围3之外还涂有中空绝缘体4,将低温液体倒入 绝缘子的空心体冷却盘1,并且从水下连接的引线5与用于通过向盘1施加磁场来连接中心轴6与盘1的引线7增加电位差。由于自由电子包含 在水中通过从水箱8连接的引线5供应,可以增加单极感应的功率。
    • 5. 发明授权
    • Scroll compressor having positioning means for axially movable
non-orbiting scroll
    • 涡旋压缩机具有用于可轴向移动的非绕动涡旋件的定位装置
    • US5791885A
    • 1998-08-11
    • US682378
    • 1996-07-17
    • Hiroyuki FukuharaSadayuki YamadaNoboru IidaTakeshi Hashimoto
    • Hiroyuki FukuharaSadayuki YamadaNoboru IidaTakeshi Hashimoto
    • F04C18/02F04C23/00F04C18/04
    • F04C23/008F04C2230/603
    • A scroll compressor has a closed vessel, a compression mechanism accommodated in the closed vessel and including a non-orbiting scroll and an orbiting scroll in engagement with each other, and an electric motor for driving the compression mechanism. The non-orbiting scroll includes a frame portion and a non-orbiting end plate axially movable relative to the frame portion. The frame portion has a recess defined therein and a pin secured thereto. The non-orbiting end plate has a cylindrical wall integrally formed therewith and loosely received in the recess, thereby radially positioning the non-orbiting end plate relative to the frame portion. The non-orbiting end plate also has a recess defined therein in which the pin is loosely received, thereby circumferentially positioning the non-orbiting end plate relative to the frame portion.
    • 涡旋式压缩机具有封闭容器,容纳在密闭容器中的压缩机构,并且包括彼此接合的非绕动涡旋件和绕动涡旋件,以及用于驱动压缩机构的电动机。 非轨道运行的涡卷包括框架部分和相对于框架部分可轴向移动的非绕动端板。 框架部分具有限定在其中的凹部和固定到其上的销。 非轨道端板具有与其一体形成并且松动地容纳在凹部中的圆柱形壁,从而相对于框架部分径向定位非轨道端板。 非轨道端板还具有限定在其中的凹部,其中松动地容纳销,从而相对于框架部分周向地定位非轨道端板。
    • 8. 发明申请
    • SCROLL COMPRESSOR
    • 滚动压缩机
    • US20120128518A1
    • 2012-05-24
    • US13388344
    • 2011-06-09
    • Sadayuki YamadaAtsushi SakudaYoshiyuki FutagamiTakashi MorimotoNobuaki OgawaYoshifumi Abe
    • Sadayuki YamadaAtsushi SakudaYoshiyuki FutagamiTakashi MorimotoNobuaki OgawaYoshifumi Abe
    • F04C18/02
    • F04C18/0215F04C23/008F04C29/028F04C2270/701
    • A scroll compressor includes a back pressure chamber oil-feeding path for feeding lubricating oil from a high-pressure region to a back pressure chamber, and a compression chamber oil-feeding path for feeding lubricating oil from the back pressure chamber to a compression chamber. One phase in which the back pressure chamber oil-feeding path is communicated from the high-pressure region to the back pressure chamber and another phase in which the compression chamber oil-feeding path is communicated from the back pressure chamber to the compression chamber are shifted from each other, so that the back pressure chamber oil-feeding path and the compression chamber oil-feeding path are never put into the communicating state simultaneously. Thus, after a halt of the compressor, under-communication oil-feeding of the lubricating oil from the high-pressure region via the back pressure chamber to the compression chamber can be prevented, so that the lubricating oil in the liquid storage section is kept from decreasing and moreover the lubricating oil is kept from being filled into the compression chamber, make it possible to achieve a stable restart-up.
    • 涡旋压缩机包括用于将润滑油从高压区域供给到背压室的背压室供油路径和用于将润滑油从背压室供给到压缩室的压缩室供油路径。 背压室供油路径从高压区域传递到背压室的一个阶段和压缩室供油路径从背压室连通到压缩室的另一个相位被偏移 使得背压室供油路径和压缩室供油路径不会同时进入连通状态。 因此,在压缩机停止之后,可以防止润滑油从高压区域经由背压室向压缩室的不连通供油,从而保持液体存储部分中的润滑油 从而减少润滑油,并且不会将润滑油填充到压缩室中,使得可以实现稳定的重新起动。