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    • 2. 发明授权
    • Semi-molten or semi-solid molding method
    • 半熔融或半固态成型法
    • US08297339B2
    • 2012-10-30
    • US13390322
    • 2010-09-01
    • Masateru YamamotoRyohei DeguchiSatoshi Yamamoto
    • Masateru YamamotoRyohei DeguchiSatoshi Yamamoto
    • A01H5/02B22D27/09
    • B22D17/007B22C9/22B22D17/2272B22D17/229
    • A semi-molten or semi-solid molding method is used to cast a scroll member having a tabular panel, a spiral section and a columnar part. The method includes filling a cavity formed inside of the molding die with semi-molten or semi-solid metal from a section for forming the columnar part via a runner that forms a channel. The cavity forms a space for casting the scroll member. An angle of intersection θ1 between the runner and the section for forming the columnar part is set such that to 97°≦θ1≦135°, and/or a ratio R/√S is set such that 0.12≦R/√S≦0.96. R is a radius of curvature of a chamfered section in which the runner intersects the section for forming the columnar part, and √S is the square root of a cross-sectional area S of the section for forming the columnar part.
    • 半熔融或半固体成型方法用于铸造具有平板状,涡形部分和柱状部分的涡旋件。 该方法包括通过形成通道的流道从用于形成柱状部分的部分填充具有半熔融或半固体金属的成型模具内部的空腔。 空腔形成用于铸造涡旋构件的空间。 设置流道与形成柱状部分的交点和角度之间的距离为1°,设定为97°≦̸& t; 1≦̸ 135°和/或比例R /√S设定为0.12& R /√S≦̸ 0.96。 R是转子与用于形成柱状部的部分相交的倒角部的曲率半径,√S是形成柱状部的截面积的横截面积S的平方根。
    • 3. 发明申请
    • SEMI-MOLTEN OR SEMI-SOLID MOLDING METHOD
    • 半固体或半固体成型方法
    • US20120138254A1
    • 2012-06-07
    • US13390322
    • 2010-09-01
    • Masateru YamamotoRyohei DeguchiSatoshi Yamamoto
    • Masateru YamamotoRyohei DeguchiSatoshi Yamamoto
    • B22D23/00
    • B22D17/007B22C9/22B22D17/2272B22D17/229
    • A semi-molten or semi-solid molding method is used to cast a scroll member having a tabular panel, a spiral section, and a columnar part. The method includes filling a cavity formed inside of the molding die with semi-molten or semi-solid metal from a section for forming the columnar part via a runner that forms a channel. The cavity forms a space for casting the scroll member. An angle of intersection θ1 between the runner and the section for forming the columnar part is set such that to 97°≦θ1≦135°, and/or a ratio R/√S is set such that 0.12≦R/√S≦0.96. R is a radius of curvature of a chamfered section in which the runner intersects the section for forming the columnar part, and √S is the square root of a cross-sectional area S of the section for forming the columnar part.
    • 使用半熔融或半固体成型方法来铸造具有平板状,涡形部分和柱状部分的涡旋构件。 该方法包括通过形成通道的流道从用于形成柱状部分的部分填充具有半熔融或半固体金属的成型模具内部的空腔。 空腔形成用于铸造涡旋构件的空间。 设置流道与形成柱状部分的交点和角度之间的距离为1°,设定为97°≦̸& t; 1≦̸ 135°和/或比例R /√S设定为0.12& R /√S≦̸ 0.96。 R是转子与用于形成柱状部的部分相交的倒角部的曲率半径,√S是形成柱状部的截面积的横截面积S的平方根。
    • 5. 发明授权
    • High-pressure dome type compressor
    • 高压圆顶式压缩机
    • US06652238B2
    • 2003-11-25
    • US09959991
    • 2001-11-14
    • Mikio KajiwaraRyohei DeguchiNobuhiro NojimaKeiji KomoriKazuo IdaMasatoshi Hirano
    • Mikio KajiwaraRyohei DeguchiNobuhiro NojimaKeiji KomoriKazuo IdaMasatoshi Hirano
    • F04B4906
    • F04C28/08F04C29/045F04C2240/403Y10S417/902
    • A high-pressure, dome-type compressor includes a DC motor 5 having a rotor 5a that uses a rare earth/iron/boron permanent magnet having an intrinsic coercive force of 1.7 MA.m−1 or greater in a rotor thereof and has a rated output or 1.9 kW or higher. The motor, which drives a compression element 3 in a casing 2, is disposed in a high pressure, high temperature area 6, which is filled with gas discharged from the compression element. An inverter 10 controls current supplied to the motor such that the motor temperature becomes equal to or less than a predetermined temperature and an opposing magnetic field generated in a stator has a predetermined strength or less. Since the magnet does not reach a high temperature and is not exposed to a strong opposing magnetic field, it is hardly demagnetized. As a result, performance of the motor and of the compressor is stable.
    • 高压圆顶式压缩机包括直流电动机5,该直流电动机5具有转子5a,转子5a使用其转子中具有1.7Ma.m以上的固有矫顽力的稀土/铁/硼永磁体, 额定输出或1.9 kW或更高。 驱动壳体2中的压缩元件3的电动机设置在高压高温区域6中,该高压区域6填充有从压缩元件排出的气体。 逆变器10控制提供给电动机的电流,使得电动机温度变得等于或小于预定温度,并且在定子中产生的相对磁场具有预定的强度或更小。 由于磁体未达到高温并且没有暴露于强烈的相对磁场,所以其几乎不退磁。 结果,马达和压缩机的性能稳定。