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    • 21. 发明申请
    • COMPRESSOR
    • 压缩机
    • US20080159878A1
    • 2008-07-03
    • US11951686
    • 2007-12-06
    • Makoto OnoWataru Sakuma
    • Makoto OnoWataru Sakuma
    • F04B49/00
    • F04B27/1036F04B27/10F04B27/1054F04B27/1081F04B49/06F04B49/103F04B2201/1206
    • This compressor includes housing members that form a body; a drive shaft linked to a drive power source via an electromagnetic clutch; movable members moving in cooperation with the drive shaft and carrying out the compression of a fluid; a detected body moving in cooperation with the drive shaft; a drain bolt screwed into a drain bolt hole provided in a housing member in proximity to the detected body; and a detecting device detecting the rotation state of the drive shaft by the detected body. The drain bolt is provided with a permanent magnet, the detecting device is structured by a magnetic sensor that includes a magnetic impedance element, and the magnetic sensor is provided at the head portion of the drain bolt. Thereby, it is possible to provide a rotation detecting mechanism by using an existing drain bolt, without requiring the machining of a hole in the compressor body.
    • 该压缩机包括形成主体的壳体部件; 通过电磁离合器连接到驱动电源的驱动轴; 可移动构件与驱动轴协作移动并执行流体的压缩; 与驱动轴协作移动的检测体; 一个排放螺栓,螺纹连接到靠近被检测体的壳体构件中的排水螺栓孔; 以及检测装置,通过检测到的身体检测驱动轴的旋转状态。 排水螺栓设置有永磁体,检测装置由包括磁阻抗元件的磁传感器构成,磁传感器设置在排水螺栓的头部。 因此,可以通过使用现有的排水螺栓来提供旋转​​检测机构,而不需要在压缩机主体中加工孔。
    • 24. 发明授权
    • Compressor with rotation detecting device
    • 带旋转检测装置的压缩机
    • US4701109A
    • 1987-10-20
    • US850554
    • 1986-04-11
    • Tamotsu Daikohara
    • Tamotsu Daikohara
    • F04B27/14F04B25/04F04B27/08F04B27/10F04B39/00F04B49/00F04B49/06F04B49/10F04D27/00G01P3/488F04B1/14
    • F04B27/1036F04B49/103F04B2201/1206
    • A rotation detecting device for a wobble plate type compressor comprises a rear thrust race (23) disposed on the rear surface of the wobble plate (8) and moveable therewith. The rear thrust race has two nail portions (231, 232) and a projecting portion (233). A magnetic pickup (24) is mounted on the cylindrical housing (2) of the compressor and is positioned thereon opposite a locus of movement of projecting portion (233). Magnetic flux leaking from an electromagnetic clutch mounted on the compressor flows to rear thrust race (23) through a drive shaft (17) and bevel gear (14). When projecting portion (233) passes opposite magnetic pickup (24), a magnetic flux is produced. Magnetic pickup (24) detects the magnetic flux and thus detects movement of wobble plate (8). Thus the connection between the compressor and the driving source can be quickly interrupted in the event of compressor malfunction.
    • 用于摆盘式压缩机的旋转检测装置包括设置在摆盘(8)的后表面上并随其移动的后推力座(23)。 后推力座具有两个钉部(231,232)和一突出部分(233)。 磁性拾取器(24)安装在压缩机的圆柱形壳体(2)上并且位于与突出部分(233)的运动轨迹相对的位置。 从安装在压缩机上的电磁离合器泄漏的磁通通过驱动轴(17)和锥齿轮(14)流向后推力座圈(23)。 当突出部分233相对磁性拾取器24通过时,产生磁通量。 磁性拾取器(24)检测磁通量,从而检测摆盘(8)的移动。 因此,在压缩机故障的情况下,压缩机与驱动源之间的连接可以快速中断。
    • 26. 发明申请
    • Compressor and method of using compressor
    • 压缩机及压缩机使用方法
    • US20060171817A1
    • 2006-08-03
    • US11312589
    • 2005-12-21
    • Makoto OnoWataru Sakuma
    • Makoto OnoWataru Sakuma
    • F04B49/00
    • F04B27/1036F04B27/0895F04B27/1054F04B27/1081F04B49/103F04B2201/1206
    • A compressor of the present invention is provided with a plurality of housing members (a front housing, a cylinder block, and a rear housing) that forms a body, a fastener (a bolt member) for coupling the plurality of the housing members to one another, a drive shaft inserted through the body and coupled to a power source via an electromagnetic clutch, a movable member (a piston) that moves in association with the drive shaft to compress a fluid, a detection body that moves in association with the drive shaft, and detection means for detecting a rotational state of the drive shaft by means of the detection body. A magnetic sensor having a magnetic impedance element constitutes the detection means. The magnetic sensor is provided on an outer lateral face side of the body and in proximity to the fastener.
    • 本发明的压缩机设置有形成主体的多个壳体构件(前壳体,气缸体和后壳体),用于将多个壳体构件连接到一个壳体的紧固件(螺栓构件) 另一种是驱动轴,其插入穿过主体并通过电磁离合器联接到动力源;可移动部件(活塞),其与驱动轴相关联地移动以压缩流体;检测体,其与驱动器相关联地移动; 轴和用于通过检测体检测驱动轴的旋转状态的检测装置。 具有磁阻抗元件的磁传感器构成检测装置。 磁传感器设置在主体的外侧面上并且靠近紧固件。
    • 27. 发明授权
    • Refrigerant compressor with rotation detecting means
    • 具有旋转检测装置的制冷压缩机
    • US5749710A
    • 1998-05-12
    • US651774
    • 1996-05-22
    • Kazuya KimuraYoshihiro Makino
    • Kazuya KimuraYoshihiro Makino
    • F04C28/00F04B27/08F04B27/10F04B49/10F04C28/28F16D27/112H01F7/02F04B49/02
    • F04B49/103F04B27/0895F16D27/112F04B2201/1206
    • A refrigerant compressor having a drive shaft for driving a compressing mechanism and driven by a drive power transmitted from an external drive power source, and a rotation detecting unit for detecting the rotating speed of the compressor by detecting a change in the magnetic flux leaking from the solenoid clutch and circulating through a predetermined magnetic circuit. The change in the magnetic flux is caused by rotation of a magnetic plate-like element having at least one cutout which moves past the magnetic detecting unit, and a permanent magnet fixedly held by the housing assembly of the compressor is arranged so as to increase the density of the magnetic flux circulating through the predetermined magnetic circuit whereby the change in the magnetic flux caused by the rotation of the magnetic plate-like element becomes rapid.
    • 一种制冷剂压缩机,具有用于驱动压缩机构并由外部驱动电源传递的驱动力驱动的驱动轴,以及旋转检测单元,用于通过检测压缩机的转速来检测压缩机的转速, 电磁离合器并循环通过预定的磁路。 磁通量的变化是由具有移动经过磁检测单元的至少一个切口的磁性板状元件的旋转引起的,并且由压缩机的壳体组件固定地固定的永磁体被设置为增加 通过预定磁路循环的磁通的密度,由此由磁板状元件的旋转引起的磁通量的变化变得快。
    • 29. 发明授权
    • Compressor and method of using compressor
    • 压缩机及压缩机使用方法
    • US07785079B2
    • 2010-08-31
    • US11312589
    • 2005-12-21
    • Makoto OnoWataru Sakuma
    • Makoto OnoWataru Sakuma
    • F04B49/00
    • F04B27/1036F04B27/0895F04B27/1054F04B27/1081F04B49/103F04B2201/1206
    • A compressor of the present invention is provided with a plurality of housing members (a front housing, a cylinder block, and a rear housing) that forms a body, a fastener (a bolt member) for coupling the plurality of the housing members to one another, a drive shaft inserted through the body and coupled to a power source via an electromagnetic clutch, a movable member (a piston) that moves in association with the drive shaft to compress a fluid, a detection body that moves in association with the drive shaft, and a detection part for detecting a rotational state of the drive shaft by means of the detection body. A magnetic sensor having a magnetic impedance element constitutes the detection part. The magnetic sensor is provided on an outer lateral face side of the body and in proximity to the fastener.
    • 本发明的压缩机设置有形成主体的多个壳体构件(前壳体,气缸体和后壳体),用于将多个壳体构件连接到一个壳体的紧固件(螺栓构件) 另一种是驱动轴,其插入穿过主体并通过电磁离合器联接到动力源;可移动部件(活塞),其与驱动轴相关联地移动以压缩流体;检测体,其与驱动器相关联地移动; 以及用于通过检测体检测驱动轴的旋转状态的检测部。 具有磁阻抗元件的磁传感器构成检测部。 磁传感器设置在主体的外侧面上并且靠近紧固件。