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    • 1. 发明公开
    • GAS COMPRESSOR
    • 气体压缩机
    • EP2889486A1
    • 2015-07-01
    • EP13800549.1
    • 2013-05-20
    • Calsonic Kansei Corporation
    • TSUDA, MasahiroSHIMAGUCHI, HirotadaOSAKI, TatsuyaHIRONO, KoujiKANEKO, Shizuma
    • F04C18/344F04C29/02F04C29/12
    • F04C15/06F04C2/22F04C18/3441F04C23/008F04C28/16F04C29/026F04C29/12
    • A compressor (100) comprises: a compressor main body (60) being formed so that one cycle of stroke is performed by a compression room (43) which is partitioned by a rotor (50), cylinder (40), both side blocks (20, 30), and vanes (58) during one revolution of the rotor (50); a cyclone block (70) which separates a refrigerant oil (R) from refrigerant gas (G), wherein a second discharge section (46) which discharge the refrigerant gas (G) when the pressure inside the compression room (43) reaches the discharge pressure before the compression room (43) faces a first discharge section (45) is formed, and a communicating path (39) which connects a discharge chamber (45a) in the first discharge section (45) and a discharge chamber (46a) in the second discharge section (46) is formed on the upper stream side of than the cyclone block (70).
    • 本发明提供一种压缩机(100),其包括:压缩机主体(60),该压缩机主体(60)形成为通过由转子(50),缸体(40),两侧块( 在所述转子(50)的一次旋转期间,所述叶片(58)与所述叶片(58) (R)与制冷剂气体(G)分离的旋风分离器(70),其中,当压缩室(43)内的压力达到排出时,排出制冷剂气体(G)的第二排出部 (45)的排出室(45a)与排出室(46a)连通的连通路(39),形成将压缩室(43)与第一排出部(45) 第二排出部46形成在旋风除尘器70的上游侧。
    • 4. 发明公开
    • GAS COMPRESSOR
    • 气体压缩机
    • EP2857687A1
    • 2015-04-08
    • EP13800804.0
    • 2013-05-30
    • Calsonic Kansei Corporation
    • HIRONO, KoujiSHIMAGUCHI, HirotadaTSUDA, MasahiroKANEKO, ShizumaOSAKI, Tatsuya
    • F04C18/344F04C29/00F04C29/12
    • F04C15/06F01C21/106F04C2/08F04C18/3441F04C29/12F04C2250/102
    • A gas compressor includes at least two first and second discharge ports (45a, 45b) which are provided at an upstream side in a rotation direction of a rotor (50) along a peripheral direction of an inner peripheral surface 40a of a cylinder (40) with respect to a closest area (proximity part (48)) where the inner peripheral surface (40a) of the cylinder (40) and an outer peripheral surface (50a) of the rotor (50) are closest in a range of one revolution of a rotation shaft (51) and configured to discharge the refrigerant gas compressed in compression chambers (43). Of the first and second discharge ports (45a, 45b), on only the first discharge port (45a) closest to the proximity part (48), a cutout groove portion (47) is provided at a downstream-side edge portion of the first discharge port (45a) in the rotation direction of the rotor (50).
    • 一种气体压缩机包括:至少两个第一和第二排出口(45a,45b),其沿圆筒(40)的内周面40a的圆周方向设置在转子(50)的旋转方向的上游侧; 相对于缸体40的内周面40a与转子50的外周面50a最接近的最接近面积(接近部48) 旋转轴(51)并且构造成排出在压缩室(43)中压缩的制冷剂气体。 在第一排出口45a和第二排出口45b中,仅在最靠近接近部分48的第一排出口45a上,在第一排出口45a的下游侧边缘部分处设置有切口槽部分47, 排出口45a在转子50的旋转方向上移动。
    • 7. 发明公开
    • GAS COMPRESSOR
    • 气体压缩机
    • EP2889487A1
    • 2015-07-01
    • EP13831133.7
    • 2013-07-01
    • Calsonic Kansei Corporation
    • SHIMAGUCHI, HirotadaTSUDA, MasahiroHIRONO, KoujiOSAKI, Tatsuya
    • F04C18/344F04C29/00F04C29/12
    • F01C21/10F01C21/0809F01C21/0863F01C21/106F04C18/3441F04C29/12F04C29/128F04C2250/30
    • A compressor body (60) which is formed such that a compression chamber (43A) divided by a rotor (50), a cylinder (40), side blocks (20, 30) and vanes (58) performs only one cycle of intake, compression and discharge in a period of one rotation of the rotor (50), and a housing (10) which covers the compressor body (60) are included, and an outline shape of a cross-section of an inner circumferential surface (41) of the cylinder (40) is formed such that in the period of the one rotation of the rotor (50), (i) a region in which a capacity of the compression chamber 43A rapidly increases, (ii) a region in which the capacity of the compression chamber 43A rapidly reduces, (iii) a region in which a capacity reduction rate of the compression chamber 43A is smaller than a capacity reduction rate of the region (ii), and (iv) a region in which the capacity reduction rate of the compression chamber 43A is larger than a capacity reduction rate of the region (iii) are consecutively provided in order.
    • 压缩机主体60形成为使得由转子50,气缸40,侧块20,30和叶片58分隔的压缩室43A仅进行一个进气循环, 在转子50旋转一周的期间内进行压缩和排出,并且包括覆盖压缩机本体60的壳体10,并且内周面41的横截面的轮廓形状包括: 在所述转子50旋转一周的期间内,形成有所述压缩室43A的容积急剧增加的区域,所述容积为所述容积的区域 (iii)压缩室43A的容积减小率小于区域(ii)的容量减少率的区域和(iv)容积减小率小的区域 压缩室43A的容积减小率大于连续设置区域(iii)的容积减小率 河
    • 10. 发明公开
    • VANE COMPRESSOR
    • VANE压缩机
    • EP2728191A1
    • 2014-05-07
    • EP12803836.1
    • 2012-05-31
    • Calsonic Kansei Corporation
    • OSAKI, TatsuyaTSUDA, MasahiroSHIMAGUCHI, HirotadaMIYAJI, ToshikatsuHIRONO, Kouji
    • F04C18/344
    • F04C18/344F01C21/0845F01C21/0881F04C29/045F04C2240/20F16F1/047F16F1/08F16F1/123
    • A rotor of a vane compressor includes a rotor main body that rotates in a cylinder chamber, vanes that reciprocates in vane slots formed in the rotor main body, coil springs that urge the vanes toward the oval inner wall, and guide members each of which has a press-in end pressed into a bottom of the vane and an accommodated end to be accommodated in an escape hole provided on a bottom of the vane slot and is inserted into the coil spring to prevent the coil spring from bending. When an outer diameter of the guide member is denoted by a , an inner diameter of the coil spring is denoted by b1 , an outer diameter thereof is denoted by b2, and an inner diameter an accommodation hole for the coil spring is denoted by c, an inequality (b1-a)
    • 叶片式压缩机的转子包括:在缸室内旋转的转子主体;在形成于转子主体内的叶片槽内往复运动的叶片;朝向椭圆形内壁推压叶片的螺旋弹簧;以及引导部件,每个引导部件具有 压入叶片底部的压入端和容纳在设置在叶片槽底部的逸出孔中的容纳端,并且插入螺旋弹簧中以防止螺旋弹簧弯曲。 当引导部件的外径由a表示时,螺旋弹簧的内径由b1表示,其外径由b2表示,并且用于螺旋弹簧的容纳孔的内径由c表示, 满足不等式(b1-a)<(c-b2)。 螺旋弹簧的容纳端侧的端部(第一接触部)的第一容纳直径大于压制机侧的螺旋弹簧的端部(第二容纳部)的第二容纳直径 结束。 根据该压缩机,即使在形成导向构件的收容孔的情况下,也能够防止收容孔与导向构件的接触的高精度化。