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    • 3. 发明申请
    • VALVE
    • WO2006075162A1
    • 2006-07-20
    • PCT/GB2006/000105
    • 2006-01-12
    • IMI VISION LIMITEDHOLEC, Henry, VictorGOULET, Douglas, P.CELOTTA, Daniel, W.CZECK, Stephen, J.NIGHY, Richard
    • HOLEC, Henry, VictorGOULET, Douglas, P.CELOTTA, Daniel, W.CZECK, Stephen, J.NIGHY, Richard
    • F16K31/06F16K47/02H01H51/22H01H50/30
    • F16K31/082F16K31/0682F16K47/02Y10T137/7766
    • A valve (100) comprising a magnetic circuit comprising a first member (101) and a pivotably mounted armature (102) the armature being movable between a position in which the valve seal (104) engages the valve seat (105) of valve port (103) to block the valve port (103), and a position away from the first member (101). A coil (106) surrounds the armature (102) which, when supplied with an electric current, creates a magnetic field in the armature (102) attracting the free end to the first member (101). Dampening pads (110) are provided on the armature (102). Each dampener pad (110) comprises a layer of viscoelastic material covered by a protective layer of polyetheretherketone (PEEK). During use, as there is wear between the armature (102) and the first member (101), and/or non magnetic section (107), the dampening pad (110) is compressed on impact by an increasing degree, thus the more worn the valve becomes, the more the dampening and thus the greater the protection against further wear.
    • 一种包括磁路的阀门(100),该磁路包括第一构件(101)和可枢转地安装的衔铁(102),所述衔铁可在阀密封件(104)接合阀口(104)的阀座(105) 103)以阻止阀口(103)和远离第一构件(101)的位置。 线圈(106)围绕电枢(102),当被提供电流时,在电枢(102)中产生吸引自由端到第一构件(101)的磁场。 减震垫(110)设置在电枢(102)上。 每个阻尼垫(110)包括由聚醚醚酮(PEEK)的保护层覆盖的一层粘弹性材料。 在使用过程中,由于电枢(102)和第一部件(101)之间存在磨损,和/或非磁性部分(107),阻尼垫(110)在冲击时被压缩,因此磨损量 阀门变得越多,阻尼越大,因此防止进一步磨损越大。
    • 5. 发明申请
    • ICE SLURRY MACHINE
    • 冰泥浆机
    • WO2007091067A2
    • 2007-08-16
    • PCT/GB2007000434
    • 2007-02-07
    • IMI VISION LTDGOULET DOUGLAS PHOLEC HENRY VICTORFINK ULRICHCZECK STEPHEN JDISCHINGER THOMAS LSCHAUMANN JONATHAN LEE
    • GOULET DOUGLAS PHOLEC HENRY VICTORFINK ULRICHCZECK STEPHEN JDISCHINGER THOMAS LSCHAUMANN JONATHAN LEE
    • A23G9/04A23G9/12A23G9/22F25C1/14
    • A23G9/045A23G9/22A23G9/28F25C1/147
    • An apparatus and method for producing an ice slurry for use as a refrigerant employs a freeze chamber (34) for receiving a refrigerant solution such that, in use, liquid freezes out of the refrigerant solution to form frozen particles on a curved internal circumferential wall of the freeze chamber (34). The frozen particles are sheared from the wall by a vortex induced in the solution with an auger (45) such that the particles are entrained in the solution creating an ice slurry. A cage (56) is free to rotate in the freeze chamber (34) and assist shearing of the frozen particles from the wall. The relative speed of rotation between the auger (45) and cage (56) can be used to control cooling means for forming the frozen particles on the wall such that an ice fraction is produced that is suitable for suitable for use as a refrigerant. The ice slurry refrigerant may be used to cool a beverage product transferred from a bulk storage location to a dispense point, for example to cool beer contained in a beer line between a keg and a dispense tap.
    • 用于制造用作制冷剂的冰浆料的设备和方法使用冷冻室(34),用于接收制冷剂溶液,使得在使用中,液体从制冷剂溶液中冻结出来,以形成冷冻颗粒在弯曲的内周壁上 冷冻室(34)。 通过用螺旋钻(45)在溶液中诱导的涡流使冷冻颗粒从壁上剪切,使得颗粒被夹带在溶液中,产生冰浆。 笼(56)在冷冻室(34)中自由旋转并有助于冷冻颗粒从壁上剪切。 螺旋推运器45和笼56之间的相对旋转速度可以用于控制用于在壁上形成冷冻颗粒的冷却装置,从而产生适合用作制冷剂的冰馏分。 冰浆制冷剂可以用于冷却从大容量储存位置转移到分配点的饮料产品,例如用于冷却容纳在小桶和分配龙头之间的啤酒管线中的啤酒。
    • 6. 发明申请
    • CONTROL VALVE WITH VORTEX CHAMBERS
    • 控制阀与VORTEX CHAMBERS
    • WO2004106792A1
    • 2004-12-09
    • PCT/GB2004/002291
    • 2004-05-28
    • IMI VISION LIMITEDGOULET, Douglas, P.
    • GOULET, Douglas, P.
    • F16K47/08
    • F15D1/0015F15C1/16F16K47/08Y10T137/2093
    • A fluid flow control valve, especially for severe service, e.g. gas and oil power application, comprises a plurality of vortex chambers (9) through each of which fluid flows in substantially vortex fashion between an inlet channel (8) and a pair of opposed outlets (10, 11). Fluid enters each vortex chamber (9) from its associated inlet channel (8) in a substantially tangential direction wherein it splits into two flowpaths, each having both radial and axial components, leading to respective ones of the outlets (10, 11). The dual vortex outlet arrangement serves to further reduce the noise and erosion problems associated with severe service valves.
    • 流体流量控制阀,特别是用于严格服务的流体流量控制阀。 气体和油力应用,包括多个涡流室(9),每个涡流室(9)中的每一个流体以大致涡流的方式在入口通道(8)和一对相对出口(10,11)之间流动。 流体从其相关联的入口通道(8)以大致切线的方向进入每个涡流室(9),其中它分成两个流径,每个流径均具有径向和轴向分量,导致相应的出口(10,11)。 双涡流出口装置用于进一步减少与严重维修阀相关的噪音和侵蚀问题。
    • 7. 发明申请
    • METHOD FOR CONTROLLING A BEVERAGE DISPENSER
    • 控制饮料分配器的方法
    • WO2008119980A1
    • 2008-10-09
    • PCT/GB2008/001130
    • 2008-03-28
    • IMI VISION LIMITEDGOULET, Douglas, P.MANIAM, Balaji
    • GOULET, Douglas, P.MANIAM, Balaji
    • A23G9/04A23G9/28B67D1/00B67D1/08B67D1/12
    • B67D1/0858A23G9/045A23G9/22A23G9/28B67D1/0884B67D1/0888
    • A method of controlling a frozen beverage dispenser having a plurality of refrigerated beverage barrels (4) cooled by a refrigeration circuit (2) having a common compressor (14) is disclosed. The refrigerant is supplied to the circuit of a first beverage barrel to cause a partially frozen beverage to form therein. The ice fraction of the beverage of each subsequent beverage barrel is compared to a predetermined value when the ice fraction of the beverage of the barrel being cooled reaches a maximum value. If the ice fraction of the beverage in any subsequent beverage barrel is below the predetermined value, the flow of the refrigerant is switched from the refrigerant circuit of the barrel being cooled to the refrigerant circuit of a subsequent beverage barrel containing beverage having an ice fraction below the predetermined level until the ice fraction of the beverage of all of said beverage barrels is above the predetermined value. The compressor (14) is switched off when the ice fraction of all of the beverage barrels is above the predetermined value and is switched on to supply refrigerant to a beverage barrel when the ice fraction of the beverage falls below a minimum value that is less than the predetermined value.
    • 公开了一种控制具有由具有公共压缩机(14)的制冷回路(2)冷却的多个冷藏饮料桶(4)的冷冻饮料分配器的方法。 将制冷剂供应到第一饮料桶的回路以使其中形成部分冷冻的饮料。 当被冷却的筒的饮料的冰分数达到最大值时,将每个后续饮料筒的饮料的冰分数与预定值进行比较。 如果任何后续饮料桶中的饮料的冰分数低于预定值,则制冷剂的流量从被冷却的桶的制冷剂回路切换到具有低于下面冰点的饮料的后续饮料桶的制冷剂回路 直到所有饮料桶的饮料的冰分数高于预定值。 当所有饮料桶的冰分数高于预定值时,压缩机(14)被关闭,并且当饮料的冰部分低于低于 预定值。