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    • 5. 发明申请
    • CYLINDER HEAD GASKET
    • 气缸头垫
    • US20110095492A1
    • 2011-04-28
    • US12737268
    • 2009-07-06
    • Yasumaro TakedaToru TakasuRyosuke FujikiKazuya YoshijimaYoshihiko Masuda
    • Yasumaro TakedaToru TakasuRyosuke FujikiKazuya YoshijimaYoshihiko Masuda
    • F02F11/00
    • F16J15/0831F16J15/0825F16J2015/085F16J2015/0856F16J2015/0862F16J2015/0868
    • A cylinder head gasket 1 is sandwiched between a cylinder head 2 and a cylinder block 3 with a cylinder bore 4 and includes a substrate 10 with a combustion chamber hole 14 drilled at a position of the cylinder bore 4, and seal plates 11 to 13, the substrate 10 and the seal plates are stacked on one another. Fixation members 21 and 22 are secured to the substrate around a periphery of the combustion chamber hole. The seal plate includes an engagement hole 23 formed therein and with which the fixation members are engaged. The engagement hole is engaged with the fixation members. The fixation members are sandwiched between the cylinder head and the cylinder block. The cylinder head and the cylinder block can be firmly coupled together via the fixation members. This allows deformation of the cylinder block caused by explosion pressure in an engine to be suppressed. As a result, possible degradation of sealability can be prevented.
    • 气缸盖垫片1夹在气缸盖2和具有气缸孔4的气缸体3之间,并且包括在气缸孔4的位置处钻有燃烧室孔14的基板10和密封板11至13, 基板10和密封板彼此堆叠。 固定构件21和22在燃烧室孔的周围固定到基板。 密封板包括形成在其中并与固定构件接合的接合孔23。 接合孔与固定构件接合。 固定构件夹在气缸盖和气缸体之间。 气缸盖和气缸体可以通过固定构件牢固地连接在一起。 由此,能够抑制发动机的爆炸压力引起的缸体的变形。 结果,可以防止密封性的降低。
    • 6. 发明申请
    • Metal gasket
    • 金属垫片
    • US20100025940A1
    • 2010-02-04
    • US12311713
    • 2007-12-27
    • Kenji UchidaToru TakasuKazuya Yoshijima
    • Kenji UchidaToru TakasuKazuya Yoshijima
    • F02F11/00
    • F16J15/0825F16J2015/085F16J2015/0862F16J2015/0868F16J2015/0875
    • The effective utilization of the elasticity of a full bead is prevented from being interfered by a thickness portion of the shim plate by providing a shim plate inside a full bead, thereby a lowering of the follow-up performance to head amplitude at the time of combustion is prevented, and the improvement of the sealability is achieved.A metal gasket 10 includes a pair of bead plates 14 and 14 having a cylinder hole 12 corresponding to a cylinder bore and a full bead 22 surrounding the cylinder hole, a first intermediate plate 18 interposed between the pair of bead plates, and a shim plate 16 interposed between the first intermediate plate and one bead plate in an area around the cylinder hole. The shim plate 16 is disposed to overlap with the full bead 22, and the thickness of a contact portion 19 to contact the shim plate 16 of the first intermediate plate changes in the peripheral direction of the cylinder hole.
    • 通过在整个焊道内部设置垫板,防止整个焊道的弹性的有效利用被垫片的厚度部分所干扰,从而降低燃烧时的磁头振幅的跟踪性能 并且可以实现密封性的提高。 金属垫圈10包括一对胎圈板14和14,其具有对应于缸孔的缸孔12和围绕缸孔的全胎22,夹在一对胎圈板之间的第一中间板18和垫板 16插入在第一中间板和一个胎圈板之间的区域中。 垫板16设置成与整个胎圈22重叠,并且接触第一中间板的垫板16的接触部分19的厚度在缸孔的周向方向上变化。
    • 7. 发明授权
    • Loading bridge for air cargo loading
    • US06659704B2
    • 2003-12-09
    • US10132728
    • 2002-04-26
    • Yugo FukuharaToru Takasu
    • Yugo FukuharaToru Takasu
    • B64F1305
    • B64F1/3055
    • In the conventional air cargo transportation system, the transportation of the cargo that is stored inside of the airport terminal building, to the area of the loading/unloading door is normally performed using the package/cargo carts. However, numerous workers were needed to load the cargo and drive the carts, which is very labor intensive and entails high manpower costs. The conventional system is also dangerous as they move along the complex tarmac markings. To solve these problems, this invention discloses a loading bridge which employs a cargo conveyor line comprising a transport means such as a conveyer, which can be extended or retracted, that connects with a rotunda extending from the airport terminal building; a cargo conveyor junction having a means to change the direction of the cargo conveyance by rotating the conveyor surface or changing its angle to alter the direction of the cargo conveyance to match the next conveyor line; and another cargo conveyor line to reach the cargo loading/unloading door of the aircraft, to thereby enable the automated conveyance of cargo for the aircraft from the airport terminal cargo holding area to the cargo door of the aircraft to eliminate the possibility of equipment collisions, to reduce manpower costs, and to shorten the time required for loading the aircraft.
    • 9. 发明授权
    • Air cargo transport system
    • 空运货物运输系统
    • US07343995B2
    • 2008-03-18
    • US10132741
    • 2002-04-26
    • Yugo FukuharaToru Takasu
    • Yugo FukuharaToru Takasu
    • B62D1/24
    • B64F1/368B64F1/00B64F1/3055B64F1/32
    • The cargo transport system according to this invention employs a tow vehicle that can automatically follow and run upon guide lines. The tow vehicle can tow cargo laden equipment such as container dollies to thereby automatically transport the air cargo. The air cargo is conveyed by an underground air cargo conveyor mechanism which has the conveyor line including the guide line installed underground to link the air cargo holding area in the airport terminal building and the aircraft parking area. Further, the system connects the loading/unloading cargo door of the aircraft and the underground loading/unloading position for the underground air cargo conveyor mechanism by an air cargo elevator.
    • 根据本发明的货物运输系统采用能够自动跟随并在导向线上运行的牵引车辆。 牵引车辆可以拖曳货物装载如货柜车从而自动运送空运货物。 空运货物由地下空运货物输送机构输送,该机械具有输送线,该输送线包括地下安装的引导线,以连接机场候机楼大楼的空运货舱区和飞机停放区。 此外,系统通过空运货梯将地下空运货物输送机构的装卸货物门与地下装卸位置连接起来。