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    • 1. 发明授权
    • System of ordering and delivering merchandise in electronic mall and method thereof
    • 电子商城订购和交付商品的制度及方法
    • US06985874B1
    • 2006-01-10
    • US09604246
    • 2000-06-27
    • Toru EbiharaKazuhiro Endoh
    • Toru EbiharaKazuhiro Endoh
    • G06F17/60
    • G06Q10/08G06Q30/0635G06Q30/0641
    • A system of ordering and delivering merchandise by accepting order of merchandise from any customer through a home page or a virtual store concerning sales of merchandise and constructed on a network by a sales merchant and through the network and delivering the ordered merchandise to a delivery destination designated by the customer on the basis of map information. A map having a dealer of a neighborhood of the delivery destination is retrieved on the basis of the address information of the customer in response to customer's selection of the dealer as a delivery destination when order of the merchandise is accepted from the customer. The dealer is determined as a delivery destination of the merchandise by the customer while the retrieved map is displayed on the home page or the virtual store.
    • 通过从任何客户通过主页或虚拟商店订购和交付商品的系统,涉及销售商品并由销售商通过网络在网络上构建并且将订购的商品交付给指定的交货目的地的商品 由客户根据地图信息。 基于客户的地址信息,根据客户的选择,当从客户接受商品的订单时,根据客户的经销商的选择作为发货目的地,检索具有交货目的地的邻域的经销商的地图。 当检索到的地图显示在主页或虚拟商店时,经销商被确定为客户的商品的传送目的地。
    • 3. 发明授权
    • Heat-pump hot water supply apparatus
    • 热泵热水供应装置
    • US07603872B2
    • 2009-10-20
    • US11339790
    • 2006-01-26
    • Taichi TanaamiMasahiko GommoriKazuhiro EndohJunichi TakagiKouichi Fukushima
    • Taichi TanaamiMasahiko GommoriKazuhiro EndohJunichi TakagiKouichi Fukushima
    • F25B27/00
    • F24D19/1054F25B2500/26
    • A heat-pump hot water supply apparatus, for dissolving problems of delaying in heating rise-up time when re-starting, and ill influences upon starting characteristics, due to liquid refrigerant residing in an evaporator when the operation is stepped, within a heat-pump circuit thereof, comprises a heat-pump refrigerant circuit, in which a compressor, a water/refrigerant heat exchanger, a refrigerant adjusting valve, and an evaporator, in series, through refrigerant pipes, a direct hot-water supply circuit, into which is supplied hot water heated, obtained by heating water supplied from an outside via a water pipe by means the water/refrigerant heat exchanger, and a compressor operation controller means for stopping the compressor and also closing the refrigerant adjusting valve when the compressor stops the operation thereof, and for re-starting the compressor after opening the refrigerant adjusting valve when the compressor starts the operation, again, wherein the refrigerant within the evaporator is collected to the compressor side when the operation is stopped, and after stopping, front and back of the evaporator is brought into a sealed condition by means of a refrigerant adjusting valve and a back-flow preventing valve, thereby preventing the refrigerant from residing within the evaporator.
    • 一种热泵热水供给装置,其用于解决在重新起动时延迟加热上升时间的问题,并且由于在操作阶梯状态时驻留在蒸发器中的液体制冷剂在起动特性方面产生不良影响, 其泵电路包括通过制冷剂管,串联的压缩机,水/制冷剂热交换器,制冷剂调节阀和蒸发器的热泵制冷剂回路,直接热水供应回路,其中 供给被加热的热水,其通过水/制冷剂热交换器经由水管从外部供给的水进行加热,以及压缩机运转控制装置,用于在压缩机停止运转时停止压缩机并关闭制冷剂调节阀 并且当压缩机开始操作时打开制冷剂调节阀之后重新启动压缩机,再次,其中t内的制冷剂 当操作停止时,蒸发器被收集到压缩机侧,并且在停止之后,蒸发器的前后通过制冷剂调节阀和防逆流阀进入密封状态,从而防止制冷剂 位于蒸发器内。
    • 6. 发明授权
    • Air-conditioning hot-water supply system, and heat pump unit
    • 空调热水供应系统和热泵机组
    • US09003817B2
    • 2015-04-14
    • US13389024
    • 2010-02-25
    • Kazuhiro EndohTatsuo Fujii
    • Kazuhiro EndohTatsuo Fujii
    • F25B7/00F25B29/00F24D11/02F24F3/06F24D17/00F24D17/02F25B13/00
    • F25B29/003F24D11/0221F24D17/0021F24D17/02F24D2200/123F24D2200/14F24F3/06F25B7/00F25B13/00F25B2339/047F25B2600/11F25B2600/21Y02B10/20Y02B10/70Y02B30/125
    • A discharged warm/cold heat of a refrigerant circuit is effectively utilized in order to attain high energy efficiency. Appropriate operation control is executed when a hot-water supplying operation and an air cooling operation are simultaneously performed, whereby high energy efficiency is attained.When an air cooling operation by an air temperature adjusting refrigerant circuit and a hot-water supplying operation by a hot-water supplying refrigerant circuit are executed, the air temperature adjusting refrigerant circuit, and the hot-water supplying refrigerant circuit are controlled such that a target evaporation temperature of the hot-water supplying refrigerant circuit or a target condensation temperature of the air temperature adjusting refrigerant circuit is attained, the target evaporation temperature or the target condensation temperature being set based upon an air cooling capacity and an evaporation temperature of the air temperature adjusting refrigerant circuit and a hot-water supplying capacity and a condensation temperature of the hot-water supplying refrigerant circuit.
    • 为了获得高能量效率,有效地利用制冷剂回路的排出的热/冷热。 当同时执行热水供应操作和空气冷却操作时,执行适当的操作控制,从而实现高能量效率。 当执行通过空气温度调节制冷剂回路的空气冷却操作和通过热水供应制冷剂回路的热水供应操作时,控制空气温度调节制冷剂回路和热水供应制冷剂回路, 达到热水供给制冷剂回路的目标蒸发温度或空调温度调节用制冷剂回路的目标冷凝温度,基于空气冷却能力和空气的蒸发温度来设定目标蒸发温度或目标冷凝温度 温度调节制冷剂回路和热水供给能力以及供热制冷剂回路的冷凝温度。
    • 10. 发明授权
    • Scroll fluid machine, scroll member and processing method thereof
    • 滚动流体机,滚动件及其加工方法
    • US5554017A
    • 1996-09-10
    • US368712
    • 1995-01-03
    • Hirokatsu KohsokabeHiroshi IwataKazuhiro EndohYasuhiro Oshima
    • Hirokatsu KohsokabeHiroshi IwataKazuhiro EndohYasuhiro Oshima
    • F01C1/02F01C1/04
    • F01C1/0246Y10T29/49236
    • A scroll fluid machine in which, even if volute bodies on the orbiting side and on the fixed side are different in material from each other, the volute bodies can be brought to their respective strengths equal to each other, dimension can be miniaturized or reduced, and internal leakage is reduced so that an attempt can be made to improve performance. In the scroll fluid machine, a curve of either one of an orbiting outward curve and a orbiting inward curve of a volute body on the orbiting side is formed by an algebraic spiral expressed by the following equation in the form of polar coordinates r=a.multidot..theta..sup.k (here, r: radius vector, .theta.: angle of deviation, a: coefficient, k: exponent). This curve and any one of a fixed outward curve and a fixed inward curve of the volute body on the fixed side are arranged with a phase difference of about 180 degrees. Thicknesses of respective volute walls on the orbiting side and on the fixed side are adequately or suitably changed.
    • 一种涡旋流体机械,其中,即使旋转侧和固定侧的涡卷体在材料上彼此不同,也可使蜗壳体的各自的强度彼此相等,尺寸可以小型化或减小, 并且内部泄漏减少,从而可以尝试提高性能。 在涡旋流体机器中,绕轨道侧的涡卷体的轨道向外曲线和轨道内弯曲中的任一个曲线由以下等式表示的代数螺旋形成,该曲线以极坐标r = k(这里,r:半径向量,θ:偏差角,a:系数,k:指数)。 该曲线和固定侧的蜗壳体的固定向外曲线和固定向内曲线中的任一个布置有大约180度的相位差。 旋转侧和固定侧的蜗壳壁的厚度充分或适当地改变。