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    • 1. 发明申请
    • CHILLED ALCOHOLIC BEVERAGE DISPENSER
    • 冷冻酒精饮料分配器
    • WO2013167971A1
    • 2013-11-14
    • PCT/IB2013/001299
    • 2013-04-30
    • MAST-JAGERMEISTER SE
    • CHU, Jimmy
    • B67D3/00B67D1/08B67D1/00
    • B67D3/0009B67D1/0009B67D1/0859
    • A machine dimensioned so as to be placed on the countertop of a bar for dispensing chilled alcoholic beverage includes a housing forming an enclosure with a beverage faucet having a handle mounted on its front outer surface. The enclosure provides a cooled interior section and a noncooled interior section. Heat-generating portions of a refrigeration cooling unit are contained in the noncooled interior portion. The cooled interior portion provides a beverage container mount configured to removably receive a stopper shaft of a bottle stopper which is fluidly connected via a manifold so an inclined beverage container can supply beverage to a beverage storage tank. A portion of an evaporator coil of the refrigeration cooling unit is located within the beverage storage tank for further cooling the alcoholic beverage. Chilled alcoholic beverage is transferred from the beverage storage tank to the beverage faucet via a beverage delivery tube fluidly connecting the beverage storage tank to the beverage faucet.
    • 尺寸为放置在用于分配冷冻酒精饮料的酒吧的台面上的机器包括形成具有安装在其前外表面上的手柄的饮料龙头的外壳的壳体。 外壳提供冷却的内部部分和非冷却的内部部分。 制冷冷却单元的发热部被容纳在非冷却内部。 冷却的内部部分提供了一种饮料容器安装件,其构造成可移除地容纳通过歧管流体连接的瓶塞的止动轴,使得倾斜的饮料容器能够将饮料供应到饮料储存罐。 制冷冷却单元的蒸发器盘管的一部分位于饮料储存罐内,用于进一步冷却酒精饮料。 冷冻酒精饮料通过将饮料储存罐流体地连接到饮料龙头的饮料输送管从饮料储存罐转移到饮料龙头。
    • 2. 发明申请
    • BOTTLED WATER COOLER WITH BUILT-IN OXYGEN GENERATOR AND OXYGEN INJECTION SYSTEM
    • 带内置氧气发生器和氧气注射系统的带水冷却器
    • WO00023384A1
    • 2000-04-27
    • PCT/US1999/024196
    • 1999-10-15
    • F25D11/00A23L2/00B01D53/04B67D1/00B67D1/08B67D3/00C01B13/02C02F1/68C02F1/72C02F9/00B67D5/58
    • C02F9/005B67D1/0058B67D1/0062B67D1/0072B67D1/0859B67D3/0029B67D2210/00007B67D2210/0001B67D2210/00023C02F1/72
    • A bottled water/tap water cooler and compact oxygen generator system (100) combined within a single housing structure (10). The oxygen generator (100) includes an air compressor (300) for generating compressed air having into dual molecular sieve beds (120, 130) one at a time. As a first molecular sieve bed (120) absorbs nitrogen, up to approximately 95 % pure oxygen is allowed to pass therethrough to a flow meter (50) and into a diffuser (30) which passes the oxygen into a purified drinking water reservoir (20) supplied by the bottled water or filtered tap water. After the first molecular sieve bed (120) is full, the second molecular sieve bed (130) activates and starts absorbing nitrogen while allowing oxygen to pass therethrough, simultaneously, nitrogen is vented from the first molecular sieve into the atmosphere. The first and second molecular sieve beds alternate with one another allowing the system to run continuously by using timer controlled dual 3-way valves (113, 115).
    • 瓶装水/自来水冷却器和紧凑型氧气发生器系统(100)组合在单个壳体结构(10)内。 氧气发生器(100)包括空气压缩机(300),用于一次产生具有双分子筛床(120,130)的压缩空气。 作为第一分子筛床(120)吸收氮气,允许高达约95%的纯氧从其中通过到流量计(50)并进入扩散器(30),该扩散器将氧气传递到纯化的饮用水储存器(20 )由瓶装水或过滤的自来水提供。 在第一分子筛床(120)满后,第二分子筛床(130)激活并开始吸收氮气同时允许氧气通过,同时氮气从第一分子筛排放到大气中。 第一和第二分子筛床彼此交替,允许系统通过使用定时控制双向三通阀(113,115)连续运行。
    • 4. 发明申请
    • COOLING SYSTEM FOR FLUIDS
    • 流体冷却系统
    • WO2017080586A1
    • 2017-05-18
    • PCT/EP2015/076166
    • 2015-11-10
    • FRANKE TECHNOLOGY AND TRADEMARK LTD
    • SCHOONEN, Wilhelmus Franciscus
    • F25D31/00B67D1/08F28D1/02F28D7/10
    • F25D31/002B67D1/0859B67D1/0864B67D1/0867F28D1/0213F28D7/10
    • A heat exchanger for fluids is disclosed. The heat exchanger comprises a vessel with an inner space for containing a refrigerant. The inner space is bounded by an inner surface of a first vessel wall, and the vessel comprises an inlet and an outlet for transport of a refrigerant into and out of the inner space. At least one tube has at least one first tube portion inside the inner space. A first end of the first tube portion is fixed to a first orifice of the vessel and a second end of the first tube portion is fixed to a second orifice of the vessel to enable fluid communication into and/or out of the first tube portion through the first orifice and the second orifice. A chamber outside the inner space is arranged to enable heat exchange between fluid inside the chamber and the refrigerant inside the inner space.
    • 公开了一种用于流体的热交换器。 换热器包括具有用于容纳制冷剂的内部空间的容器。 内部空间由第一容器壁的内表面界定,并且容器包括用于将制冷剂输入和输出内部空间的入口和出口。 至少一个管在内部空间内具有至少一个第一管部分。 第一管部分的第一端固定到容器的第一孔口,并且第一管部分的第二端固定到容器的第二孔口,以使流体能够通过第一管部分流入和/或流出第一管部分 第一孔口和第二孔口。 内部空间外部的腔室布置成能够使腔室内的流体与内部空间内的制冷剂进行热交换。
    • 7. 发明申请
    • POINT-OF-USE DRINKING WATER COOLER
    • 使用要点饮用水冷却器
    • WO2009001061A3
    • 2009-07-30
    • PCT/GB2008002146
    • 2008-06-24
    • EBAC LTDWALTON PHILIP ANDREW
    • WALTON PHILIP ANDREW
    • B67D1/08B67D1/00
    • B67D1/0014B67D1/0859B67D1/0869B67D2210/0001C02F1/003C02F2201/006C02F2303/04C02F2307/06F25D31/003
    • The water cooler has a water inlet (4) for receiving treated water from a piped drinking water supply which feeds a thermally insulated chamber (2) containing a cooling element (12) to provide a volume of cooling medium. Residual sanitizing chemicals in the water supply prevent bacterial growth within the chamber (2). Water leaves the chamber (2) via an outlet coupling (10) and enters a filter cartridge (7) which is engaged on a seat (6) incorporating a well (11). The cartridge contains a water filter (20) within a filter housing (17) which is received in the well (11) surrounded by the cooling medium. A manifold (16) in thermal contact with the seat (6), incorporates a connector (19) which sealably engages the coupling (10), flow passages, and a dispense outlet (18). The filter cartridge is cooled to ensure that cooled water can be dispensed on demand, and periodic replacement of the filter cartridge ensures that the filtration components remain sanitized.
    • 水冷却器具有用于从管道饮用水源接收经处理的水的进水口(4),其供给包含冷却元件(12)的隔热室(2)以提供一定体积的冷却介质。 供水中的残留消毒化学品可防止室内的细菌生长(2)。 水通过出口联接器(10)离开室(2)并进入与套在井(11)上的座(6)上接合的滤筒(7)。 滤筒在过滤器壳体(17)内包含一个水过滤器(20),该过滤器壳体(17)被容纳在由冷却介质包围的井(11)中。 与座(6)热接触的歧管(16)包括可密封地接合联接器(10),流动通道和分配出口(18)的连接器(19)。 过滤器滤芯被冷却,以确保可以根据需要分配冷却水,并定期更换滤芯确保过滤组件保持消毒。
    • 8. 发明申请
    • DISPOSITIF ET PROCEDE DE REFROIDISSEMENT DE BOISSONS
    • 用于冷却饮料的装置和方法
    • WO2008101920A1
    • 2008-08-28
    • PCT/EP2008/051986
    • 2008-02-19
    • THIRY, José
    • THIRY, José
    • F25D31/00F25B39/00B67D1/08
    • F25D31/002B67D1/0859F25B39/00F25B2339/0242F25B2400/0401
    • La présente invention concerne un distributeur de boissons (1000) pour la distribution d'une boisson comprenant : un circuit frigorifique (41 ); un réservoir (10) apte à contenir ledit fluide frigorigène sous forme liquide venant de cette première canalisation (20) dans sa partie inférieure et à permettre l' évaporation dudit fluide frigorigène sous forme gazeuse, et apte à contenir ledit fluide frigorigène sous forme gazeuse dans sa partie supérieure; une deuxième canalisation (30) apte à prélever le fluide frigorigène sous forme gazeuse dudit réservoir (10); au moins un conduit (40) apte à faire circuler ladite boisson à distribuer à l'intérieur dudit réservoir (10) et en relation d'échange thermique avec le fluide frigorigène sous forme liquide et/ou gazeuse.
    • 本发明涉及一种用于分配饮料的饮料分配器(1000),其包括:制冷回路(41); 用于容纳来自其下部的第一管道(20)的液体状态的所述冷却剂并将所述冷却剂蒸发成气态,并在其上部容纳气态气体的冷却剂; 用于从所述罐(10)收集处于气态的冷却剂的第二管道(30)。 至少一个用于使要分配的饮料循环到所述罐(10)内并根据与液体和/或气态的冷却剂的热交换关系循环的至少一个管道(40)。