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    • 53. 发明公开
    • VALVE WITH A CERAMIC DISC
    • 带有陶瓷盘的阀门
    • EP3193053A1
    • 2017-07-19
    • EP16151761.0
    • 2016-01-18
    • Siemens Schweiz AG
    • Eggert, DominikEvertz, Jörg
    • F16K11/065F16K27/04
    • F16K1/42F16K1/46F16K3/20F16K11/0655F16K25/005F16K27/02F16K27/044
    • Valve with a ceramic disc. A valve assembly for modulating flow of a fluid through a valve, the valve assembly comprising a plunger (9), a flange (1) with an orifice (4), a first disc (2) with an orifice (6) and a second disc (7), a gasket (5, 5a, 5b) in contact with the flange (1) and in contact with the first disc (2), three bearing members (3a, 3b, 3c) disposed between the first disc (2) and the flange (1), the three bearing members (3a, 3b, 3c) define the position and the orientation of the first disc (2) with respect to the flange (1), the three bearing members (3a, 3b, 3c) separate the first disc (2) from the flange (1), thereby defining a gap between the flange (1) and said disc (2), the plunger (9) displaces the second disc (7) surfaces from a first position to a second position.
    • 带陶瓷盘的阀门。 1。一种用于调节流体流过阀的流量的阀组件,所述阀组件包括柱塞(9),具有孔口(4)的法兰(1),具有孔口(6)的第一盘(2) 与所述凸缘(1)接触并且与所述第一盘(2)接触的垫圈(5,5a,5b),设置在所述第一盘(2)和所述第二盘(2)之间的三个轴承构件(3a,3b,3c) )和凸缘(1),三个轴承件(3a,3b,3c)限定了第一盘(2)相对于凸缘(1)的位置和方向,三个轴承件(3a,3b, 3c)将第一盘(2)与凸缘(1)分开,由此在凸缘(1)和所述盘(2)之间限定间隙,柱塞(9)将第二盘(7)表面从第一位置 到第二个位置。
    • 56. 发明公开
    • ANORDNUNG ZUR STEUERUNG EINES VOLUMENSTROMS AUS ARBEITSMITTELDAMPF MIT HOHEM DRUCK
    • 安排用于控制与高压力下工作设备蒸汽流速
    • EP3128137A1
    • 2017-02-08
    • EP16182840.5
    • 2016-08-04
    • Mahle International GmbH
    • BUCHER, MichaelGÜNTHER, MirkoHÖTGER, Michael
    • F01K7/36F01L15/00F01B3/10F16K11/065F02G5/02F02G5/00
    • Ein Anordnung (40, 140) zur Steuerung eines Volumenstroms aus Arbeitsmitteldampf zwischen einer Arbeitsmitteldampf-Quelle (18) und dem Einlassbereich (44, 76) einer Expansionsmaschine (24), ist gekennzeichnet durch eine Zufuhrleitung (22) für ankommenden Arbeitsmitteldampf; einen Verbindungsbereich (90, 190) zwischen Zufuhrleitung (22) und Einlassbereich (44, 76); einen Bypasskanal (84, 86; 186), welcher vom Verbindungsbereich (90, 190) ausgehend an dem Einlassbereich (44; 76) vorbei geführt ist; einen im Verbindungsbereich (90, 190) lateral zum Einlassbereich (76) und dem Bypasskanal (86) zwischen einer Betriebsstellung und einer Leerlaufstellung verschiebbar geführten Flachschieber (82) wenigstens zwei Durchgängen (42, 84, 88; 142, 188) oder Verbindungskanälen im oder am Flachschieber (42; 142) und/oder Gehäuse (74; 174), die derart positioniert sind, dass ein Durchgang (42; 142) im Flachschieber (82) in der Betriebsstellung eine Verbindung zwischen dem Verbindungsbereich (90; 190) und dem Einlassbereich (76) herstellt; und ein Durchgang (88; 188) oder Verbindungskanal in der Leerlaufstellung eine Verbindung zwischen dem Verbindungsbereich (90; 190) und dem Einlassbereich (76) herstellt, während ein anderer Durchgang (84; 142) oder Verbindungskanal eine Verbindung zwischen dem Verbindungsbereich (90; 190) und dem Bypasskanal (86; 186) herstellt.
    • 用于控制工作工作介质的蒸汽源(18)和所述入口部分(44,76)的膨胀机(24),其特征在于通过供给管线(22),用于进入的工作介质的蒸汽之间介质蒸汽的体积流量的组件(40,140); 的连接之间供给管线(22)和入口部分(44,76)部分(90,190); 一个旁路通道(84,86; 186),其从连接部(90,190)开始于所述入口区域(44; 76)被引导越过; 在横向于入口区域(76)和一工作位置和一停止位置之间的旁路通道(86)的连接区域(90,190)一个可移动地引导扁平滑动件(82)的至少两个通道(42,84,88; 142,188)或在连接通道或 扁平滑动件(42; 142)和/或壳体(74; 174)被定位成使得一个通道(42; 142)在操作位置中的扁平滑动件(82)的连接部之间的连接(90; 190)和所述 入口区域(76)产生; 和一个通道(88; 188)或连接通道处于怠速位置的连接部分(90; 190)之间的连接和所述入口区域(76)产生,而另一个通道(84; 142)或连接通道的连接区域之间的通信(90; 190)和旁路管(86; 186)准备。
    • 59. 发明公开
    • SPOOL VALVE, HYDRAULIC MACHINE, AND WIND TURBINE POWER GENERATING APPARATUS
    • 瑞典斯德哥尔摩水力发电机组(HYDRAULIKMASCHINE UND WINDTBBINENSTROMERZEUGUNGSVORRICHTUNG)
    • EP3029325A1
    • 2016-06-08
    • EP15177525.1
    • 2015-07-20
    • MITSUBISHI HEAVY INDUSTRIES, LTD.
    • NOMAGUCHI, HiroyukiYUGE, Atsushi
    • F04B53/10F16K11/065
    • F04B53/10Y02E10/72
    • A spool valve (30) is used in a hydraulic machine including a hydraulic chamber (34), a high-pressure oil line (12) and a low-pressure oil line (14). The spool valve (30) includes: a casing (31) which includes a hydraulic-chamber port (35) communicating with the hydraulic chamber (34), a high-pressure port communicating with the high-pressure oil line (12), and a low-pressure port communicating with the low-pressure oil line (14); a spool (60) configured to a switch a state of the hydraulic machine between a first state in which the hydraulic chamber (34) and the high-pressure oil line (12) are in communication and a second state in which the hydraulic chamber (34) and the low-pressure oil line (14) are in communication, by moving in an axial direction of the spool inside the casing (31); and a pair of damper chambers (80, 82) disposed between respective end surfaces (63, 66) of the spool (60) and respective side plates of the casing (31) which face the end surfaces (63, 66), and configured to decelerate the spool (60) when the spool (60) reaches a position immediately before a stroke end.
    • 在包括液压室(34),高压油路(12)和低压油路(14)的液压机中使用滑阀(30)。 滑阀(30)包括:壳体(31),包括与液压室(34)连通的液压室端口(35),与高压油路(12)连通的高压端口,以及 与低压油路(14)连通的低压口; 一个阀芯(60),其被构造成在所述液压室(34)和所述高压油管(12)连通的第一状态之间切换所述液压机的状态;以及第二状态,其中所述液压室 34)和所述低压油路(14)通过在所述壳体(31)内的所述卷轴的轴向移动而连通。 以及设置在所述卷轴(60)的相应端面(63,66)和面向所述端面(63,66)的所述壳体(31)的相应侧板之间的一对阻尼室(80,82),并且构造 当阀芯(60)到达行程结束之前的位置时,使阀芯(60)减速。
    • 60. 发明公开
    • LEVER TYPE SWITCHING VALVE
    • 杠杆操作控制阀
    • EP3006792A1
    • 2016-04-13
    • EP14800983.0
    • 2014-04-04
    • Xiamen Solex High-Tech Industries Co., Ltd.Zhou, Huasong
    • ZHOU, HuasongHAN, JunWU, YuzhiHU, LihongCHEN, Bin
    • F16K11/044F16K27/02F16K11/065
    • F16K31/602F16K11/044F16K11/07F16K11/0712
    • A lever type switching valve comprises a switching chamber (10) divided into three sections in the axial direction. The three sections are two water outlet chambers (11, 13) provided at two ends and a water inlet chamber (12) provided at the middle section. Each water outlet chamber (11, 13) has a sliding section (14, 15) at the outer end in the axial direction. Inner convex rings (19) are provided between both ends of the water inlet chamber (12) and the two water outlet chambers (11, 13). The switching chamber also comprises a spindle (20) which is axially slidable within the switching chamber (10) and is divided into three sections in the axial direction. The three sections are two pistons (21, 23) provided at the two ends and a flow section (22) provided at the middle section. The two pistons (21, 23) each has a large outer end and a small inner end. The axial lengths of the water outlet chambers (11, 13) are longer than the axial lengths of the pistons (21, 23), and the axial length of the flow section (22) is longer than the axial lengths of the water inlet chamber (12). The flow section passes through the inner convex rings (19) and is provided with a flow channel to the inner convex rings (19). The water inlet chamber (12) is communicated with a water inlet, and both water outlet chambers are communicated with a water outlet respectively. An end of the spindle (20) is movably connected with an end of the lever through a moving part. The lever type switching valve saves switching forces and has balanced switching forces, and the spindle (20) has a shorter stroke.