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    • 1. 发明授权
    • Fe based hard magnetic alloy having super-cooled liquid region
    • Fe基硬磁合金具有超冷却液体区域
    • US06280536B1
    • 2001-08-28
    • US09047739
    • 1998-03-25
    • Akihisa InoueKouichi FujitaKatsuhiro Fujita
    • Akihisa InoueKouichi FujitaKatsuhiro Fujita
    • H01F1057
    • B82Y25/00H01F1/0571H01F1/0579
    • The present invention provides a Fe based hard magnetic alloy having a very wide temperature interval in the super-cooled liquid region, having a hard magnetism at room temperature, being able to be produced thicker than amorphous alloy thin films obtained by conventional liquid quenching methods, and having a high material strength, wherein the Fe based hard magnetic alloy comprises Fe as a major component and containing one or a plurality of elements R selected from rare earth elements, one or a plurality of elements M selected from Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W and Cu, and B, the temperature interval &Dgr; Tx in the super-cooled liquid region represented by the formula of &Dgr; Tx=Tx−Tg (wherein Tx and Tg denote a crystallization initiation temperature and glass transition temperature, respectively) being 20° C. or more.
    • 本发明提供一种在超冷却液体区域中具有非常宽的温度区间的Fe基硬磁合金,其在室温下具有硬磁性,能够制造得比通过常规液体淬火方法获得的非晶态合金薄膜厚, 并且具有高的材料强度,其中所述Fe基硬磁合金包含Fe作为主要成分,并且含有选自稀土元素的一种或多种元素R,选自Ti,Zr,Hf中的一种或多种元素M, V,Nb,Ta,Cr,Mo,W和Cu,B为由DELTA Tx = Tx-Tg表示的超冷却液体区域中的温度区间DELTA Tx(其中Tx和Tg表示结晶起始温度 和玻璃化转变温度)分别为20℃以上。
    • 6. 发明授权
    • Scroll compressor having different tip clearances for spiral bodies having different heights
    • 具有不同高度的螺旋体的螺旋压缩机具有不同的顶端间隙
    • US06659745B2
    • 2003-12-09
    • US10198992
    • 2002-07-22
    • Katsuhiro FujitaMakoto Takeuchi
    • Katsuhiro FujitaMakoto Takeuchi
    • F04C1804
    • F04C18/0276
    • An object of the present invention is to provide a scroll compressor which can improve the decrease in the compression ratio due to the leakage of compressed gas via a tip clearance between adjacent compression chambers, which can be assembled with fewer processes, and which can be manufactured at a low cost. In order to achieve the object, the present invention provides: a scroll compressor comprising a fixed scroll member which is fixed in position and has a spiral wall body provided on one surface of an end plate; an orbiting scroll member which has a spiral wall body provided on one surface of an end plate, being supported by engaging the spiral wall bodies so as to orbit and revolve around the fixed scroll member without rotation; the spiral wall bodies of the fixed scroll member and the orbiting scroll member each comprise a step portion which divides a top edge of the spiral wall body into plural parts forming a low top edge at the center and a high top edge at the outer end of the spiral wall body; and the end plates of the fixed scroll member and the orbiting scroll member each comprise a step portion which divides the end plate into a high part at the center and a low part at the outer end of the end plate; wherein at least one of a clearance between the high part of the end plate of the fixed scroll member and the low top edge of the spiral wall body of the orbiting scroll member, and a clearance between the high part of the end plate of the orbiting scroll member and the low top edge of the spiral wall body of the fixed scroll member is a fixed value.
    • 本发明的目的是提供一种涡旋式压缩机,其能够通过相邻的压缩室之间的顶端间隙而导致由于压缩气体的泄漏而导致的压缩比的降低,该压缩室可以以较少的工艺组装,并且可以被制造 以低成本。 为了达到上述目的,本发明提供一种涡旋式压缩机,其特征在于,包括:固定涡旋部件,其固定在适当的位置,并具有设置在端板的一个面上的螺旋壁体; 旋转涡旋构件,其具有设置在端板的一个表面上的螺旋壁体,其通过使螺旋壁体接合而不旋转地围绕固定涡旋构件进行轨道旋转; 固定涡旋构件和绕动涡旋构件的螺旋壁体各自包括台阶部分,该台阶部分将螺旋壁体的顶部边缘分成多个部分,形成中心处的低顶部边缘, 螺旋壁体; 并且固定涡旋构件和绕动涡旋构件的端板各自包括台阶部分,其将端板分成中心处的高部分和在端板的外端处的低部分; 其中所述固定涡旋构件的端板的高部分与所述绕动涡旋构件的螺旋壁体的低顶部之间的间隙中的至少一个以及所述旋转涡旋构件的所述端板的高部分之间的间隙 涡旋构件和固定涡旋构件的螺旋壁体的低顶部边缘是固定值。
    • 7. 发明授权
    • Scroll compressor sealing
    • 涡旋压缩机密封
    • US06585501B2
    • 2003-07-01
    • US09985493
    • 2001-11-05
    • Makoto TakeuchiTakahide ItohYasuharu MaruiwaHiroshi YamazakiTakayuki HagitaTetsuzou UkaiKatsuhiro Fujita
    • Makoto TakeuchiTakahide ItohYasuharu MaruiwaHiroshi YamazakiTakayuki HagitaTetsuzou UkaiKatsuhiro Fujita
    • F04C1804
    • F04C18/0276F04C18/0269F04C27/005
    • A scroll compressor including a fixed scroll having a spiral-shaped wall body, and a swiveling scroll which has a spiral-shaped wall body and revolves while linking together the two wall bodies. The wall bodies have steps, and side faces of two end plates have high and low bottom faces in correspondence with the steps. A tip seal is provided along a join edge which connects top edges on different sides of each step, and a mechanism is provided therebetween to prevent the tip seals from becoming removed from the join edges. Furthermore, in the same scroll compressor, tip seals are provided respectively in two grooves, and join paths are provided respectively between a high-pressure compression chamber, which is formed with the bottom faces as one section, and the two grooves. The pressure inside the high-pressure compression chamber is used as a pressing force for the tip seals.
    • 一种涡旋式压缩机,包括具有螺旋状壁体的固定涡旋件和具有螺旋状壁体的旋转涡旋件,并且将两个壁体连结在一起。 壁体具有台阶,两个端板的侧面具有与台阶对应的高低底面。 沿着连接边缘设置尖端密封件,该连接边缘连接每个台阶的不同侧面的顶部边缘,并且在其间设置有机构以防止末端密封件从接合边缘移除。 此外,在同一涡旋压缩机中,末端密封件分别设置在两个槽中,并且连接路径分别设置在形成有作为一个部分的底面的高压压缩室与两个槽之间。 高压压缩室内的压力用作顶端密封件的压力。
    • 10. 发明授权
    • Scroll compressor having an allowable angle of rotation
    • 具有允许旋转角度的涡旋压缩机
    • US08038421B2
    • 2011-10-18
    • US12442579
    • 2008-02-04
    • Takayuki KuwaharaTetsuzou UkaiKatsuhiro FujitaKazuhide WatanabeTomohisa Moro
    • Takayuki KuwaharaTetsuzou UkaiKatsuhiro FujitaKazuhide WatanabeTomohisa Moro
    • F03C2/00F03C4/00
    • F04C18/0215F01C21/007F04C27/006F04C27/007F04C2270/17
    • A scroll compressor includes a fixed scroll and an orbiting scroll, each including a spiral wrap protruding from an end plate and having the same tooth thickness (Tr) and the same base-circle radius (b) defining an involute surface. The fixed scroll and the orbiting scroll are offset from each other by an orbiting radius (ρ) and mesh such that the respective wraps face each other with a phase shift of 180°. The orbiting scroll revolves/orbits along a circular orbit with the orbiting radius (ρ) to compress a gas while a rotation-preventing mechanism prevents rotation of the orbiting scroll. The relationship between the involute surfaces of the spiral wraps of the two scrolls and the dimensions, dimensional tolerance, and assembly standards of the rotation-preventing mechanism are determined so that the median value of an allowable angle of rotation (φ) agrees with an upright position of the orbiting scroll.
    • 涡旋压缩机包括固定涡旋件和绕动涡旋件,每个涡卷机包括从端板突出并具有相同齿厚(Tr)和限定渐开线表面的相同基圆半径(b)的螺旋形涡卷。 固定涡旋件和绕动涡旋件相互偏移轨道半径(&rgr;)并进行啮合,使得相应的卷绕件以180°的相位彼此面对。 绕动涡旋盘绕轨道运动的圆形轨道旋转/绕轨道运动,以便在旋转阻止机构防止绕动涡盘旋转的同时压缩气体。 确定两个涡卷的螺旋形涡卷的渐开线​​表面与旋转防止机构的尺寸,尺寸公差和组装标准之间的关系,使得允许的旋转角度(&phgr)的中值与 绕动涡卷的直立位置。