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    • 1. 发明授权
    • Dehumidifier water heater structure and method
    • 除湿机热水器结构及方法
    • US4823557A
    • 1989-04-25
    • US117044
    • 1987-11-05
    • Edward W. Bottum, Jr.Edward W. Bottum
    • Edward W. Bottum, Jr.Edward W. Bottum
    • F24F3/14F24H4/04F25B29/00F25B27/02
    • F24F3/1405F24H4/04F25B29/003
    • Dehumidifier water heater structure and method. The structure includes an outer, air permeable enclosure and a vertical stack positioned centrally thereof, a heat pump circuit including a compressor centrally of the enclosure, a condenser heat exchanger, within and extending axially of the vertical stack, an expansion device connected to the bottom of the condensor heat exchanger and an evaporator coil within the enclosure surrounding the compressor and connected between the compressor and expansion device. A fan for forcing air form the enclosure through the stack, insulation surrounding the condenser heat exchanger and a pump for passing water to be heated through the condenser heat exchanger may also be provided. In the method, the air to be dehumidified is passed through the enclosure so that moisture in the air will condense on the evaporator and dehumidified air is passed out of the stack by convection or may be assisted by a fan while water to be heated is passed upwardly through the condenser heat exchanger due to the thermal siphon principal or may be pumped. In another embodiment of the invention, the temperature of the evaporator is selectively varied above and below the dew point of the ambient air by varying the air flow over the evaporator or the refrigerant flow through the evaporator as by parallel expansion devices, one of which is selectively closeable to selectively provide a dehumidifier water heater or a heat pump water heater.
    • 除湿机热水器结构及方法。 该结构包括外部可透气的外壳和位于其中心的垂直叠层,包括外壳中心的压缩机的热泵回路,在垂直叠层内并在轴向延伸的冷凝器热交换器,连接到底部的膨胀装置 的冷凝器热交换器和围绕压缩机并连接在压缩机和膨胀装置之间的外壳内的蒸发器盘管。 用于迫使空气通过堆叠形成外壳的风扇,围绕冷凝器热交换器的绝缘体和用于使待加热的水通过冷凝器热交换器的泵。 在该方法中,要被除湿的空气通过外壳,使得空气中的水分将在蒸发器上冷凝,并且除湿空气通过对流从堆叠中排出,或者可以由风扇辅助,同时待加热的水通过 由于热虹吸管本身或向上通过冷凝器热交换器,或者可以泵送。 在本发明的另一个实施例中,蒸发器的温度通过改变蒸发器上的空气流量或通过蒸发器的制冷剂流通过平行膨胀装置而选择性地变化到高于和低于环境空气露点的温度,其中之一是 选择性地关闭以选择性地提供除湿热水器或热泵热水器。
    • 2. 发明授权
    • Suction accumulator and sight glass structure associated therewith
    • 抽吸蓄能器和观察玻璃结构相关联
    • US5247813A
    • 1993-09-28
    • US840045
    • 1992-02-24
    • Edward W. Bottum
    • Edward W. Bottum
    • F25B41/00F25B43/00
    • F25B41/006F25B43/006
    • This invention is directed to a sight glass structure positioned in conduit means connecting a suction accumulator and compressor in a refrigeration system. The sight glass structure herein provided may take the form of bushing means rigidly attached to the conduit means and threadably or otherwise receiving an axially passaged sight glass member providing visual communication with the interior of the conduit means, thereby permitting the detection or observation of any slugs of vaporized refrigerant passing from the suction accumulator to the compressor. Another form of the invention includes diametrally opposed bushing means affixed to the conduit means, and each bushing means is similarly equipped with sight glass members of like construction. Either form of the invention, if desired, may include within the sight glass member means impeding movement of the slugs or droplets, thereby improving the detection or observation thereof.
    • 本发明涉及一种位于连接抽吸蓄能器和制冷系统中的压缩机的导管装置中的观察镜结构。 本文提供的视镜结构可以采用刚性地附接到导管装置的衬套装置的形式,并且螺纹地或以其他方式接收轴向传送的观察镜构件,其提供与导管装置内部的视觉连通,从而允许检测或观察任何lug s 蒸发的制冷剂从吸入器传递到压缩机。 本发明的另一种形式包括固定在导管装置上的直径相对的衬套装置,并且每个衬套装置同样配备有类似构造的观察玻璃构件。 如果需要,本发明的任何形式可以包括在观察玻璃构件内的装置阻止lug或液滴的移动,从而改善其检测或观察。
    • 5. 发明授权
    • Sight glass structure and method of installing the same
    • 视镜结构及其安装方法
    • US5076198A
    • 1991-12-31
    • US620578
    • 1990-12-03
    • Edward W. Bottum
    • Edward W. Bottum
    • B23K1/002B23K1/18F25B41/00G02B7/00
    • B23K1/002B23K1/18F25B41/006G02B7/007
    • This invention is directed to a novel method of removably securing a sight glass member to a refrigeration vessel in hermetically sealed relation therewith. In accordance with the method concept, a ferrule or like tubular mounting means is fixedly attached to the vessel through an opening therein, and one end of the sight glass is located within the ferrule. Brazing metal is then positioned in contact with the sight glass member and ferrule, and the metal, member, and ferrule are heated by electromagnetic induction to melt the brazing metal and form a hermetic bond between the ferrule and sight glass member. By this method, leakage associated with threaded connections, and damage to the sight glass and extreme difficulty of removing the sight glass member when resistance or arc welding methods are used, are herein substantially entirely eliminated.
    • 本发明涉及一种将视镜玻璃构件以与其密封的密封关系可拆卸地固定到制冷容器的新方法。 根据该方法的概念,套管或类似的管状安装装置通过其中的开口牢固地附接到容器,并且观察窗的一端位于套圈内。 然后将钎焊金属与观察玻璃构件和套圈定位,并且通过电磁感应加热金属,构件和套圈以熔化钎焊金属并在套圈和观察镜构件之间形成气密接合。 通过这种方法,在使用电阻或电弧焊接方法时,与螺纹连接相关的泄漏以及对观察玻璃的损坏以及去除观察玻璃构件的极大困难在这里基本上被完全消除。
    • 8. 发明授权
    • Method of assembing a suction accumulator
    • 组合抽吸蓄能器的方法
    • US5075967A
    • 1991-12-31
    • US562336
    • 1990-08-03
    • Edward W. Bottum
    • Edward W. Bottum
    • F25B43/00
    • F25B43/006F25B2400/03Y10T29/49394Y10T29/49826
    • A method of assembling suction accumulators is provided. A suction accumulator as employed in a refrigeration system conventionally comprises a cylindrical casing, a pair of end closures therefor, an inlet tube, an outlet tube, and a stand pipe. In applicant's assembly process, the inlet and outlet tubes are constructed essentially of copper. The assembly method of this invention is practiced by securing the stand pipe with end cap attached to the top end closure, preferably furnace brazing the end closures to the cylindrical casing, inspecting the metering orifice in the end cap of the stand pipe by viewing the same through the open top end of the stand pipe, and inserting the inlet and outlet tubes through openings in the top end closure and brazing them to said closure by induction or furnace brazing techniques. The disclosed assembly method may also be practiced with a heat exchanger--suction accumulator combination.
    • 提供了组装抽吸蓄能器的方法。 用于制冷系统的抽吸蓄能器通常包括圆柱形壳体,一对端盖,入口管,出口管和立管。 在申请人的组装过程中,入口管和出口管基本上由铜构成。 本发明的装配方法是通过将端盖固定在顶端封闭件上来固定立管,优选地将端盖封闭在圆柱形壳体上,通过观察立管的端盖检查计量孔 通过立管的敞开的顶端,并将入口管和出口管插入顶端封闭件中的开口,并通过感应或熔炉钎焊技术将其钎焊到所述封闭件。 所公开的组装方法也可以用热交换器 - 抽吸蓄能器组合来实施。
    • 9. 发明授权
    • Heat pump
    • 热泵
    • US4277946A
    • 1981-07-14
    • US66046
    • 1979-08-13
    • Edward W. Bottum
    • Edward W. Bottum
    • F25B30/06F25B27/00F25B27/02F25D23/12
    • F25B30/06F24J3/084Y02E10/125
    • An earth type heat pump having a heat exchanger including an evaporator coil and a compressor, condenser, receiver and expansion valve in series with the evaporator coil for delivering heat picked up at the heat exchanger from the condenser, and heat pickup tubes positioned vertically in the earth and connected with the heat exchange structure for passively supplying heat from the earth to the heat exchanger by means of a refrigerant passing between the heat pickup tubes and heat exchange structure, and the corresponding method of supplying heat from an earth type heat pump. In one modification the heat of the earth is supplemented by a solar heating system including a collector and heater tubes connected to the collector positioned vertically and interspersed with the heat pickup tubes of the heat pump. In another modification of the invention, heat transfer between the vertically positioned tubes is promoted by structure for and the method of moistening the earth around the vertical heat pickup tubes and the heater tubes.
    • 一种具有包括蒸发器盘管和压缩机,冷凝器,接收器和与蒸发器盘管串联的膨胀阀的热交换器的地球式热泵,用于将从热交换器从冷凝器传来的热量传送, 并且与热交换结构相连,用于通过在热传感管和热交换结构之间通过的制冷剂从地球向热交换器被动地供热,以及从地球式热泵提供热量的相应方法。 在一个修改中,地球的热量由包括收集器和加热器管的太阳能加热系统补充,该收集器和加热器管连接到垂直放置的收集器并散布在热泵的热采集管中。 在本发明的另一变型中,垂直放置的管之间的热传递是通过结构和围绕垂直导热管和加热器管润湿地球的方法来促进的。