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    • 44. 发明申请
    • AUTOMATIC CONDENSATE DRAIN DEVICE
    • 自动冷凝水排水装置
    • WO01077557A1
    • 2001-10-18
    • PCT/US2001/011787
    • 2001-04-10
    • A62C35/62A62C35/64A62C35/68F16K17/04
    • A62C35/64A62C35/62A62C35/68Y10T137/3105Y10T137/7976
    • A pressure operated normally closed control valve (40) operates to open at a predetermined pressure between the system minimum and maximum pressures to open the valve (40) and allow the discharge of condensate from the system which has a source of pressure (16) to provide a minimum and a maximum pressure. The system is subject to the formation of condensate. There is an inline filter (36) at the inlet end of the valve (40) and a discharge nozzle at the outlet end of the valve (40). The entrance to the discharge nozzle may also have a filter (45). The assembly can also be arranged so that the control valve (40) is normally open and operates to open at a predetermined pressure at or below the system minimum pressure whereby condensate is removed, and to close the valve (40) and prevent the discharge of condensate from the system when the pressure falls below the predetermined pressure.
    • 压力操作的常闭控制阀(40)操作以在系统最小和最大压力之间的预定压力下打开阀(40)并允许从具有压力源(16)的系统排出冷凝物至 提供最小和最大压力。 该系统会形成冷凝水。 在阀(40)的入口端有一个在线过滤器(36)和在阀门(40)的出口端处的排放喷嘴。 排出喷嘴的入口也可以具有过滤器(45)。 组件也可以被布置成使得控制阀(40)是常开的并且在系统最小压力或低于系统最小压力下的预定压力下操作,由此冷凝物被去除并且关闭阀(40)并且防止排出 当压力低于预定压力时,来自系统的冷凝物。
    • 45. 发明申请
    • AUTOMATIC DRAIN VALVE
    • 自动排水阀
    • WO00000764A1
    • 2000-01-06
    • PCT/US1999/014567
    • 1999-06-28
    • F16K51/00F16T1/14F16K17/04
    • F16K51/00F16T1/14Y10T137/3105Y10T137/86413
    • A drain valve (38) removes liquid from a compressed air system (20) whenever cycling pressure of the system (20) reaches either a preselected high drain pressure or a preselected low drain pressure at an inlet port (39) of the valve (38). An inlet face (79) of a piston (78) of an adjustable pressure valve assembly within a valve body normally seals the inlet port (39) when there is no pressure. The piston (78) is located within a portion of a central cavity of the valve (38). The piston's inlet face (79) is of a size which allows the force of the adjustable pressure valve assembly to be overcome by a pre-selected high drain pressure at the inlet port (39).
    • 只要系统(20)的循环压力达到预先选择的高排水压力或阀(38)的入口(39)处的预选的低排水压力,排水阀(38)就从压缩空气系统(20)中去除液体 )。 阀体内的可调节压力阀组件的活塞(78)的入口面(79)在没有压力时通常密封入口(39)。 活塞(78)位于阀(38)的中心腔的一部分内。 活塞的入口面(79)具有允许可调节压力阀组件的力通过入口端口(39)处的预先选择的高排水压力来克服的尺寸。
    • 46. 发明申请
    • AUTOMATIC VALVE DRAIN
    • 自动阀排水
    • WO98046464A1
    • 1998-10-22
    • PCT/US1998/006166
    • 1998-03-30
    • B60T15/00B60T15/18B60T17/00F16T1/14
    • B60T17/004B60T15/18Y10T137/3105Y10T137/86919
    • An improved relay valve (10) having a supply port (16), a delivery port (18), an exhaust port (20), a control port (17), a relay piston (14) controlling communication between the supply port (16), the delivery port (18), and the exhaust port (20) in response to a pneumatic signal applied to the control port (17) and including a passage (40) extending through the piston (14) to the exhaust port (20) for draining to atmosphere moisture and other contaminants which build up on the top of the piston (14). A diaphragm element (30) having a cylindrical protrusion portion (36) is disposed in the piston (14) above the passage (40) to act as a check valve and seal the passage (40) when a pneumatic signal is applied to control port (17). The diaphragm element includes a top resilient portion (32) which serves as a spring to open the drain passage when no signal is applied to control port (17). Two flat areas (34) are provided on the top resilient portion (32) which prevents the diaphragm element (30) from prematurely sealing the drain hole (40). The cylindrical protrusion (36) keeps the diaphragm element (30) properly aligned in the tapered bore (44) leading to drain hole (40). A retaining ring (42) keeps diaphragm element (30) within the bore (44).
    • 一种改进的继动阀(10),其具有供给口(16),输送口(18),排气口(20),控制口(17),继电器活塞(14) ),输送端口(18)和排气口(20),响应于施加到控制端口(17)的气动信号并且包括延伸穿过活塞(14)到排气口(20)的通道(40) )排放到大气中的水分和积聚在活塞(14)顶部的其他污染物。 具有圆柱形突起部分(36)的隔膜元件(30)设置在通道(40)上方的活塞(14)中,以当将气动信号施加到控制端口时用作止回阀并密封通道(40) (17)。 隔膜元件包括顶部弹性部分(32),当没有信号施加到控制端口(17)时,顶部弹性部分(32)用作弹簧以打开排水通道。 在顶部弹性部分(32)上设有两个平坦区域(34),防止隔膜元件(30)过早地密封排水孔(40)。 圆柱形突起(36)将隔膜元件(30)保持正确对准在通向排水孔(40)的锥形孔(44)中。 保持环(42)将隔膜元件(30)保持在孔(44)内。
    • 47. 发明申请
    • CONDENSATE TRAP
    • 冷凝夹
    • WO2013055216A1
    • 2013-04-18
    • PCT/NL2012/050712
    • 2012-10-11
    • THERMASS INNOVATIONS B.V.BARTHOLOMEUS, Titus Maria Christiaan
    • BARTHOLOMEUS, Titus Maria Christiaan
    • F16T1/14F16T1/16F16T1/22
    • F16T1/14F16T1/16F16T1/22Y10T137/3084Y10T137/3105
    • A condensate trap is provided with a liquid supply hole (1) and a liquid discharge hole (9), as well as a vapour discharge hole (6) located in the upper side of the casing (2). A cylindrical chamber (12) is located in the casing (2) in which chamber an expansion piston (3) can move. A hollow piston rod (13) is attached to the lower side of the expansion piston. The liquid supply hole (1) communicates with the chamber around the piston rod (13). The wall of the piston rod (13) has throttling ports (4) which extend in tangential direction. A siphon (7) is located in the piston rod underneath the throttling ports (4). In the piston rod underneath the siphon is located a further throttling port (8), which can be made to communicate with the liquid discharge hole (9) in that the expansion piston (3) moves up. The space in a further chamber (10) underneath the bottom of the piston rod communicates via a channel (11) with the liquid discharge hole (9).
    • 凝结阱具有液体供给孔(1)和液体排出孔(9),以及位于壳体(2)的上侧的蒸汽排出孔(6)。 一个圆柱形的腔室(12)位于壳体(2)中,膨胀活塞(3)可以在其中移动。 中空的活塞杆(13)附接到膨胀活塞的下侧。 液体供应孔(1)与活塞杆(13)周围的腔室连通。 活塞杆(13)的壁具有沿切线方向延伸的节流口(4)。 虹吸管(7)位于节流口(4)下方的活塞杆上。 在虹吸管下方的活塞杆上设有另一个节流口(8),其可以与膨胀活塞(3)向上移动而与液体排放孔(9)连通。 在活塞杆底部下方的另一个室(10)中的空间经由通道(11)与液体排出孔(9)连通。