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    • 11. 发明专利
    • Field emission type x ray generator
    • 场发射型X射线发生器
    • JP2013114964A
    • 2013-06-10
    • JP2011261523
    • 2011-11-30
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社Onizuka Glass:Kk株式会社鬼塚硝子
    • INABA HITOSHIONIZUKA YOSHIHIRONAKAMURA TOMONOBUSADATSUKA ATSUOKOIKE TAKAHISA
    • H01J35/16H01J35/06H01J35/08
    • PROBLEM TO BE SOLVED: To prevent discharge between a glass tube housing a cold cathode element and a housing located at the outer side of the glass tube thereby extending lives of the cold cathode element and the X ray generator compared to conventional X ray generators and realizing the stable operations in the X ray generator using the field emission type cold cathode element.SOLUTION: A housing 2 is grounded. A cold cathode element 5, which is subject to a voltage applied from a direct current power source 7 to discharge electrons, is housed in a glass tube 4, and a lower end part 4a of the glass tube 4 is supported by an insulation material 3 in the housing 2. A target 8 and a window part 9 discharging X rays generated by the target 8 to the exterior part are provided at the upper end part side of the glass tube 4. A peripheral part 4b of the lower end part 4a in the glass tube 4 is covered by the insulation material 3 and a surface of the insulation material 3 is covered by a grounded conductor.
    • 要解决的问题:为了防止容纳冷阴极元件的玻璃管和位于玻璃管外侧的壳体之间的放电,从而延长了与常规X射线相比的冷阴极元件和X射线发生器的寿命 使用场发射型冷阴极元件实现在X射线发生器中的稳定操作。

      解决方案:外壳2接地。 受到来自直流电源7施加的电压进行放电的冷阴极元件5容纳在玻璃管4中,玻璃管4的下端部4a被绝缘材料3支撑 在玻璃管4的上端部侧设置有将目标物8产生的X射线向外部排出的靶8和窗口部分9.下端部4a的周边部4b 玻璃管4被绝缘材料3覆盖,绝缘材料3的表面被接地导体覆盖。 版权所有(C)2013,JPO&INPIT

    • 12. 发明专利
    • Heat exchange panel
    • 热交换面板
    • JP2013096613A
    • 2013-05-20
    • JP2011238255
    • 2011-10-31
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • ISHII SHUICHIUCHIDA KATSUYAISHIKAWA HIROMITSU
    • F28F3/12F24S10/50F24S10/55
    • Y02B10/20Y02E10/44
    • PROBLEM TO BE SOLVED: To provide a heat exchange panel which has high efficiency of heat exchange.SOLUTION: There is provided a heat exchange panel 1 in which a heating medium absorbs and radiates radiant heat, and exchanges heat between the heating medium and gas through heat transfer. The heat exchange panel includes a plurality of heat exchange panel members 10 each having at least one built-in heating medium flow passage 11, wherein a recessed part 12 in a narrow opening shape is provided to one of both end parts of a heat exchange panel member 10 along a direction in which the heating medium flows, a projection part 13 which can be fitted in the recessed part 12 of a heat exchange panel member to be connected is provided to the other end part, and the recessed part 12 and projection part 13 are fitted to each other to connect the heat exchange panels 10 to each other.
    • 要解决的问题:提供一种具有高效热交换的热交换面板。 解决方案:提供一种热交换面板1,其中加热介质吸收和辐射辐射热,并且通过热传递在加热介质和气体之间交换热量。 热交换面板包括多个热交换面板构件10,每个热交换面板构件具有至少一个内置的加热介质流路11,其中,在热交换面板的两个端部之一上设置有窄开口形状的凹部12 构件10沿着加热介质流动的方向,在另一端部设置有能够安装在待连接的热交换面板构件的凹部12中的突出部13,并且凹部12和突出部 13彼此配合以将热交换面板10彼此连接。 版权所有(C)2013,JPO&INPIT
    • 13. 发明专利
    • Operation method and construction method of air conditioning system
    • 空调系统的运行方法与构造方法
    • JP2013002770A
    • 2013-01-07
    • JP2011136394
    • 2011-06-20
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • ISHII SHUICHISATO KENJIMORIYA MITSURU
    • F24F11/02F24F5/00F25B1/00
    • PROBLEM TO BE SOLVED: To carry out air conditioning with a high energy-saving effect using outside air even in midsummer with a high cooling load while making effective use of an existing heat storage tank when constructing a building multi-air conditioning system by renovating an air conditioning facility that uses water in the heat storage tank as a central heat source type cold heat source.SOLUTION: When constructing the building multi-air conditioning system by renovating the air conditioning facility that uses water in the heat storage tank 1 as the central heat source type cold heat source, the existing heat storage tank is used as it is as a heat storage tank 1 of a new air conditioning system. At night, water in the heat storage tank 1 is cooled by a cooling tower 4 using outside air. During daytime cooling operation, a refrigerant circulated between an outdoor unit 11 and an indoor unit 12 is heat-exchanged beforehand with water in the heat storage tank 1 by a refrigerant-water heat exchanger 21.
    • 要解决的问题:即使在具有高冷却负荷的仲夏中也可以使用外部空气进行高效节能的空调,同时在构建建筑多空调系统时有效利用现有的储热箱 通过将在储热罐中使用水的空调设备改造为中央热源式冷热源。

      解决方案:通过将在蓄热箱1中使用水的空调设备改造为中央热源式冷热源来构建建筑多空调系统,将现有的蓄热箱原样使用 新的空调系统的储热罐1。 在晚上,蓄热箱1中的水由外部空气的冷却塔4冷却。 在白天制冷运转中,在室外机11和室内机12之间循环的制冷剂通过制冷剂 - 水热交换器21在蓄热箱1中预先用水进行热交换。(C)2013, JPO和INPIT

    • 14. 发明专利
    • Self-power generation type vav air conditioning equipment
    • 自动发电型VAV空调设备
    • JP2012255574A
    • 2012-12-27
    • JP2011127851
    • 2011-06-08
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • URUSHIYA MASAMITAKEUCHI YOSHIKI
    • F24F11/76F24F13/14
    • PROBLEM TO BE SOLVED: To provide self-power generation type VAV (variable air volume) air-conditioning equipment that can reduce a work man-day required for wiring work and operation regulation of a VAV damper.SOLUTION: Air-conditioning equipment 1 supplies air SA produced by an air-conditioner 10 into a room 14 through ducts 11, 12, 13, and the equipment includes: a VAV damper 35 disposed in each duct 12, 13; an impeller 45 disposed downstream the VAV damper 35 and driven by the supplied air SA blown in the ducts 12, 13; a power generator 47 generating electric power by the rotation of the impeller 45; and a driving device 40 driven by the power obtained by the generator 47 and adjusting an opening of the VAV damper 35 on the basis of the temperature in the room 14. Since the opening of the VAV damper 35 can be adjusted by the power obtained from the supplied air SA blown in the ducts 12, 13, power source work for the VAV damper 35 can be alleviated and the man-day can be reduced.
    • 要解决的问题:提供能够减少VAV阻尼器的接线工作和操作调节所需的工作日的自发电型VAV(可变风量)空调设备。 解决方案:空调设备1通过管道11,12,13将由空调10生产的空气SA供应到房间14中,并且设备包括:设置在每个管道12,13中的VAV阻尼器35; 设置在VAV阻尼器35下游并由吹送在管道12,13中的供给空气SA驱动的叶轮45; 通过叶轮45的旋转产生电力的发电机47; 以及由发电机47获得的动力驱动的驱动装置40,并根据室内的温度调节VAV减震器35的开度。由于VAV减震器35的开度可以通过从 在风管12,13中吹出的供给空气SA能够缓和VAV减震器35的动力源,能够减轻人造日。 版权所有(C)2013,JPO&INPIT
    • 15. 发明专利
    • Method for desalting and system for desalting
    • 脱盐方法和脱盐系统
    • JP2012217943A
    • 2012-11-12
    • JP2011087063
    • 2011-04-11
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • ISHIDA KOZOOKAMURA NORIAKIOKAMOTO HIDEYUKI
    • C02F1/469B01D61/44B01D65/08C02F1/46
    • Y02A20/131Y02A20/134
    • PROBLEM TO BE SOLVED: To prevent slime formation on the surface of an ion-exchange membrane or in channels of concentrate brine and desalted water of an electrodialysis apparatus without using a specific sterilizing agent used conventionally in desalting treatment at a low concentration and a low salt rejection rate.SOLUTION: In desalting treatment raw water such as well water and drainage from an infrastructure by using an electrodialysis cell 1, the concentrate brine from the electrodialysis cell 1 is subjected to electrolysis in an apparatus 42 for generating water by electrolysis to produce electrlytic formed acid water, which is introduced into a desalted water circulation system and a concentrate brine circulation system of the electrodialysis cell 1 or a treatment raw water system. Because the electrolytic fromed acid water has a proper sterilizing power, a chemical agent for slime prevention and a supply system thereof are not necessary to be especially prepared.
    • 要解决的问题:为了防止离子交换膜的表面或电渗析装置的浓缩盐水和脱盐水的通道中形成粘泥,而不使用常规用于低浓度脱盐处理的特定灭菌剂,以及 低盐排除率。 解决方案:在通过使用电渗析池1对来自基础设施的原水进行脱盐处理和从基础设施引流的处理中,来自电渗析池1的浓缩盐水在用于通过电解产生水的装置42中进行电解以产生电解 形成酸性水,其被引入电解水池1的脱盐水循环系统和浓缩盐水循环系统或处理原水系统中。 由于电解酸性水具有适当的消毒能力,因此不需要特别制备用于防止粘液的化学试剂及其供应系统。 版权所有(C)2013,JPO&INPIT
    • 16. 发明专利
    • Method and system for measuring individual calorie consumption
    • 用于测量个人卡路里消费的方法和系统
    • JP2012197963A
    • 2012-10-18
    • JP2011061410
    • 2011-03-18
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • YAMADA TETSUJISHIBATA KATSUHIKO
    • F24F11/02
    • PROBLEM TO BE SOLVED: To provide a technology to enable accurate measurement of individual calorie consumption of each water source heat pump unit in an individual air conditioning system using the water source heat pump unit.SOLUTION: The individual calorie consumption measuring method measures the individual calorie consumption of a water source heat pump unit 3 based on a heat source water flow Qw supplied to a heat exchange coil 62 and a heat source water temperature difference ΔTHw before and after heat exchange with a heat medium. An inlet side temperature sensor and an outlet side temperature sensor are installed at an inlet side branch pipe 21 and an outlet branch pipe 22 respectively. Using an inlet side temperature waveform and outlet side temperature waveform obtained from each temperature sensor during no load period when the compressor 50 of the water source heat pump unit 3 is under suspension, synthetic instrument difference specific processing is performed to determine the synthetic instrument difference ΔIE between the two temperature sensors by obtaining at least one of the maximum value and minimum value thereof. This processing is implemented prior to processing for a heat source water temperature difference.
    • 要解决的问题:提供一种能够使用水源热泵单元在单独的空调系统中精确测量每个水源热泵单元的个体卡路里消耗的技术。 解决方案:单个卡路里消耗测量方法基于供应到热交换盘管62的热源水流Qw和前后的热源水温差ΔTHw来测量水源热泵单元3的个体卡路里消耗量 与热介质进行热交换。 入口侧温度传感器和出口侧温度传感器分别安装在入口侧分支管21和出口支管22上。 在水源热泵机组3的压缩机50处于暂停状态的情况下,使用从各温度传感器得到的入口侧温度波形和出口侧温度波形,进行合成仪器差分特定处理,以确定合成仪器差ΔIE 在两个温度传感器之间获得其最大值和最小值中的至少一个。 在处理热源水温差之前实施该处理。 版权所有(C)2013,JPO&INPIT
    • 19. 发明专利
    • Solvent recovery device
    • 溶剂回收装置
    • JP2012101187A
    • 2012-05-31
    • JP2010252574
    • 2010-11-11
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • KUMAGAI HIROHIDETANAKA YUZO
    • B01D5/00B01D53/44B01D53/74B01D53/81
    • PROBLEM TO BE SOLVED: To provide a solvent recovery device which suppresses a running cost by reducing a thermal load of a refrigerator to the minimum.SOLUTION: The solvent recovery device 1 which recovers a solvent from air containing solvent vapor comprises: a first cooler 6 which condensates the solvent vapor contained in the air by bringing the air into contact with a coil in which a cooling medium cooled by cooling equipment flows in a tube; a heater 7 which heats the air by bringing the air passing through the circuit cooler 6 into contact with the coil in which cooling water supplied from a cooling tower flows in the tube; and a second cooler 5 which cools the air before flowing to the first cooler 6 by bringing the air into contact with the coil in which the cooling water supplied from the cooling tower and passing through the inside of the tube of the coil of the heater 7 flows in the tube.
    • 要解决的问题:提供通过将冰箱的热负荷降低到最小来抑制运行成本的溶剂回收装置。 解决方案:从含有溶剂蒸气的空气中回收溶剂的溶剂回收装置1包括:第一冷却器6,其使包含在空气中的溶剂蒸气通过使空气与其中冷却了 冷却设备流入管中; 通过使通过电路冷却器6的空气与从冷却塔供给的冷却水在管内流动的线圈接触来加热空气的加热器7; 以及第二冷却器5,其通过使空气与从冷却塔供给的冷却水通过加热器7的线圈的内部的线圈接触而流入第一冷却器6之前冷却空气 流入管中。 版权所有(C)2012,JPO&INPIT
    • 20. 发明专利
    • Steam supply apparatus and steam supply system using solar heat
    • 使用太阳能热水器的蒸汽供应装置和蒸汽供应系统
    • JP2012087989A
    • 2012-05-10
    • JP2010235354
    • 2010-10-20
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • ISHII SHUICHI
    • F24S90/00F22B3/04F24S10/70
    • Y02B10/22Y02E10/44Y02P80/24
    • PROBLEM TO BE SOLVED: To provide a steam supply apparatus and a steam supply system capable of stably generating steam.SOLUTION: The apparatus for supplying steam to a heating apparatus 3 includes an accumulator 33 accumulating steam boiled by solar heat, a steam pipe 36 for supplying the steam accumulated in the accumulator 33 to the heating apparatus 3, and a vacuum pump 61 reducing the pressure in the steam pipe 36 to induce a boiling state. The vacuum pump 61 reduces the pressure in the steam pipe 36 only when a boiling point of steam is lower than a boiling point at atmospheric pressure. Thus, steam can be always stably supplied to the heating apparatus 3.
    • 要解决的问题:提供能够稳定地产生蒸汽的蒸汽供应装置和蒸汽供应系统。 解决方案:用于向加热装置3供应蒸汽的装置包括:蓄积器33,蓄积由太阳能热沸腾的蒸汽;蒸汽管36,用于将累积在蓄能器33中的蒸汽供给到加热装置3;以及真空泵61 降低蒸汽管36中的压力以引起沸腾状态。 只有当蒸汽的沸点低于大气压下的沸点时,真空泵61才能降低蒸汽管36中的压力。 因此,可以始终将蒸汽稳定地供给到加热装置3.版权所有(C)2012,JPO&INPIT