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    • 3. 发明专利
    • Air-conditioning unit and construction method of the same
    • 空调单元及其构造方法
    • JP2014156969A
    • 2014-08-28
    • JP2013028170
    • 2013-02-15
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社Kajima Corp鹿島建設株式会社
    • MATSUMOTO JUNKANEMITSU HIDEAKIYOSHIKAWA TORUKAMEYAMA YUJIROSHIBATA KATSUNORIYOSHIKAWA TAKUMIWATANABE KENICHIHIGASHI HIROOMI
    • F24F13/32E04B9/00
    • PROBLEM TO BE SOLVED: To provide an air-conditioning unit capable of reducing a load required for an operation of unitization and a high place operation on a construction site as much as possible and to provide a construction method of the air-conditioning unit.SOLUTION: An air-conditioning unit 1 installed on a ceiling space of a building includes a floor material unit part 2 and a frame unit part 3 combined on the under side of the floor material unit part 2. Therein, the floor material unit part 2 includes a floor material 10, a small beam 22 attached to a lower surface of the floor material 10, the frame unit part 3 includes a base member 20 on which an air-conditioning apparatus 30 is mounted and a support member 21 attached to the upper surface of the base member 20, and the floor unit part 2 and the frame unit part 3 are combined by joining the lower end 11 of the small beam and the upper end of the support member 21. The air-conditioning apparatus 30 is mounted onto the frame unit part 3, thereafter, the floor material unit part 2 and the frame unit part 3 are combined to form the air-conditioning unit 1, and the air-conditioning unit 1 is lifted and is attached to a large beam 40 of the building 5.
    • 要解决的问题:提供一种能够尽可能地减少在施工现场进行组合操作和高位运行所需的负荷的空调机组,并提供空调机构的施工方法。 :安装在建筑物的天花板空间上的空调单元1包括地板材料单元部分2和组合在地板材料单元部分2的下侧的框架单元部分3.其中,地板材料单元部分2包括 地板材料10,安装在地板材料10的下表面上的小梁22,框架单元部分3包括:基座构件20,安装有空调装置30的基座构件20和安装在上部表面上的支撑构件21 通过将小梁的下端11和支撑构件21的上端接合而组合基座构件20,底板单元部分2和框架单元部分3 3。空调装置30安装在 框架u 此后,地板材料单元部分2和框架单元部分3组合形成空调单元1,并且空调单元1被提升并附接到建筑物5的大梁40 。
    • 4. 发明专利
    • Air conditioning system
    • 空调系统
    • JP2014145528A
    • 2014-08-14
    • JP2013014456
    • 2013-01-29
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • MIKAMOTO IORIKIMIJIMA MASAYUKI
    • F24F5/00
    • PROBLEM TO BE SOLVED: To provide an air conditioning system capable of preventing temperature fluctuation in a target space, compared to the conventional systems, by reducing disturbance to an air supply route.SOLUTION: An air conditioning system includes an air supply route for supplying air temperature-controlled by an air conditioner to a target space, an air return route for returning the air having passed through the target space to the air conditioner, and an outer wall partitioning an interior space containing the target space, the air supply route, and the air return route from an exterior space. The air return route is arranged adjacently to the air supply route between the air supply route and the outer wall.
    • 要解决的问题:提供一种能够防止目标空间中的温度波动的空调系统,与常规系统相比,通过减少对空气供应路线的干扰。解决方案:空调系统包括用于供应空气的空气供应路线 通过空调对目标空间进行温度控制,将通过目标空间的空气返回到空调的空气返回路径,以及分隔包含目标空间的内部空间的外壁,供气路径和 从外部空间返回的空中路线。 空气回流路线与供气路径和外墙之间的供气路线相邻。
    • 6. 发明专利
    • Charge/discharge system
    • 充电/放电系统
    • JP2014125644A
    • 2014-07-07
    • JP2012280901
    • 2012-12-25
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • KATO ATSUSHI
    • C25B9/00C25B5/00H01M8/02H01M8/04H01M8/06H01M8/10
    • Y02E60/566
    • PROBLEM TO BE SOLVED: To secure, by targeting a charge/discharge system using solid-state polymer-type cells equipped with a water electrolyzer function and a fuel cell function, prescribed performances since the start-up stage of a fuel cell operation by effectively using high-temperature, high-humidity oxygen generated at the time of a water electrolyzing operation.SOLUTION: Raw water is fed into the oxygen side of the reversible cell 10 of a cell stack 2 from a vapor-liquid separation tank 43 at the time of a water electrolyzing operation. High-temperature, high-humidity oxygen generated at the time of the water electrolyzing operation is vapor/liquid-separated within the tank 43 and then prompted to absorb humidity within a humidity exchanger 61 and to absorb heat within a heat exchanger 63. Air transmitted to the reversible cell 10 by a fan 64 at the time of a fuel cell operation is heated by the heat exchanger 63 and, following the humidity absorption thereby within the humidity exchanger 61, fed into the reversible cell 10.
    • 要解决的问题:为了通过使用具有水电解槽功能和燃料电池功能的固体聚合物型电池的充电/放电系统来确保燃料电池操作启动阶段的有效性 使用在水电解操作时产生的高温,高湿氧。解决方案:原水在此时从气液分离罐43进入电池组2的可逆电池10的氧气侧 的水电解操作。 在水电解操作期间产生的高温,高湿氧气在罐43内被蒸汽/液体分离,然后促使其吸收湿度交换器61内的湿度并吸收热交换器63内的热量。 在燃料电池运行时由风扇64向可逆电池10供给到可逆电池10,由热交换器63加热,并且随后在湿度交换器61内的湿度吸收进入可逆电池10。
    • 7. 发明专利
    • Heat exchange device of blow waste water
    • 发泡废水热交换装置
    • JP2014105953A
    • 2014-06-09
    • JP2012260700
    • 2012-11-29
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • HASHIMOTO MANABU
    • F22D1/18F22B37/54F24F6/00
    • Y02P80/154
    • PROBLEM TO BE SOLVED: To provide a heat exchange device of blow waste water capable of inexpensively discharging high temperature blow waste water without deteriorating corrosion resistance.SOLUTION: A heat exchange device of blow waste water includes: a water storage tank 2 storing high temperature blow waste water W1 from a steam generating device 100 including a humidifying device constituting an air conditioning equipment or sanitary equipment or an electric water heater; a blow drain pipe 3 into which the blow waste water W1 flows and from which the blow waste water W1 is discharged to a general drain pipe through the water storage tank 2; and a water supply pipe 4 arranged in the state of being brought into contact with an outer peripheral wall of the water storage tank 2 so as to supply makeup water W2 to the steam generating device 100. The blow waste water W1 is cooled to about 50°C by heat exchange between the outer peripheral wall of the water storage tank 2 and the water supply pipe 4, and the makeup water W2 is heated to the predetermined temperature by heat exchange between the outer peripheral wall of the water storage tank 2 and the water supply pipe 4.
    • 要解决的问题:提供一种能够廉价地排放高温吹扫废水而不降低耐腐蚀性的吹风废水的热交换装置。解决方案:吹风废水的热交换装置包括:储存高温吹风的储水箱2 包括构成空调设备或卫生设备或电热水器的加湿装置的蒸汽发生装置100的废水W1; 吹送废水W1流过的吹排管3,吹出废水W1从排水管3通过储水箱2排出到通用排水管; 以及在与储水箱2的外周壁接触的状态下配置的供水管4,以将补水W2供给到蒸汽发生装置100.将废气水W1冷却至约50℃ ℃,通过储水箱2的外周壁与供水管4之间的热交换,补水W2通过储水箱2的外周壁与第一供水管4的热交换而被加热到预定温度 供水管4。
    • 8. 发明专利
    • Supply round chamber
    • 供应圆屋
    • JP2014059082A
    • 2014-04-03
    • JP2012203447
    • 2012-09-14
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • TAKAHASHI HIROYUKIHAYASAKA HITOSHIOZAKI YOSHIO
    • F24F13/02
    • PROBLEM TO BE SOLVED: To provide a high-strength supply round chamber capable of being easily worked.SOLUTION: Characteristically, a supply round chamber includes: a first cylindrical body 2 having a notched part 2A provided on a peripheral surface on the side of one end, and a second cylindrical body 3; a body connecting collar 6 for connecting the first and second bodies 2 and 3 together in the state of making the notched parts 2A and 3A of them face each other; and an equipment connection part 7 arranged in the notched parts 2A and 3A of the first and second bodies 2 and 3 connected together by the body connecting collar 6.
    • 要解决的问题:提供一种能够容易地加工的高强度供应圆室。解决方案:特征在于,供应圆室包括:第一圆柱体2,其具有设置在一侧的圆周表面上的切口部分2A 端部和第二圆筒体3; 在使它们的切口部分2A和3A彼此面对的状态下将第一和第二主体2和3连接在一起的主体连接轴环6; 以及设置在通过主体连接轴环6连接在一起的第一主体2,3和第二主体3的切口部分2A和3A中的设备连接部分7。
    • 9. 发明专利
    • Adsorption system
    • 吸附系统
    • JP2013208598A
    • 2013-10-10
    • JP2012082003
    • 2012-03-30
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • YANO MASAYUKIAKIYAMA TAKAHIROKAWAKAMI RIRYOKAWAOKA MASAYUKI
    • B01D53/26B01D53/06
    • PROBLEM TO BE SOLVED: To provide an adsorption system capable of effectively using exhaust gas discharged from a supply destination of gas from which vapor is adsorbed and removed.SOLUTION: An adsorption system for adsorbing vapor contained in gas supplied to a prescribed supply destination includes: an adsorbing and removing means having an adsorbent capable of adsorbing the vapor, and adsorbing and removing the vapor contained in the gas supplied to the prescribed supply destination; a first regeneration means for recovering the gas supplied to the prescribed supply destination from the specified portion of the prescribed supply destination, and regenerating the adsorbent by allowing the recovered gas to flow through the adsorbent; and a second regeneration means for recovering the gas having vapor concentration lower than the gas recovered by the first regeneration means of the gas supplied to the prescribed supply destination from the portion different from the specified portion of the prescribed supply destination, and regenerating the adsorbent by allowing the recovered gas to flow through the adsorbent after being regenerated by the first regeneration means.
    • 要解决的问题:提供一种能够有效地利用从吸附和蒸发蒸气的气体的供给目的地排出的废气的吸附系统。解决方案:用于吸附供应到规定供给目的地的气体中所含的蒸气的吸附系统包括: 吸附除去装置,具有能够吸附蒸气的吸附剂,吸附除去供给到规定供给目的地的气体中所含的蒸气; 第一再生装置,用于从规定的供给目的地的特定部分回收供给到规定的供给地点的气体,并且通过使回收的气体流过吸附剂来再生吸附剂; 以及第二再生装置,用于从不同于规定供给目的地的特定部分的部分回收具有低于由第一再生装置回收的气体的气体的气体,并且从规定的供给目的地的特定部分开始,再生吸附剂, 允许回收的气体在通过第一再生装置再生后流过吸附剂。
    • 10. 发明专利
    • Manufacturing method of surface temperature sensor
    • 表面温度传感器的制造方法
    • JP2013195409A
    • 2013-09-30
    • JP2012066522
    • 2012-03-23
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社
    • YAMADA TETSUJIIRIBE MASATAKE
    • G01K7/02
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing a surface temperature sensor that is less likely influenced by ambient temperature and is excellent in responsibility.SOLUTION: A manufacturing method of a surface temperature sensor includes the steps of: forming a through-hole on a bottom wall in a protective tube having a bottomed cylindrical shape; inserting a pair of thermocouple element wires forming thermocouple from the open end side of the protective tube, and inserting the tip part of the pair of thermocouple element wires into the through-hole; welding the pair of thermocouple element wires with each other and the bottom wall so as to shield the through hole in a state of inserting the pair of thermocouple element wires into the through-hole; and smoothing the outer surface of the bottom wall.
    • 要解决的问题:提供一种不太可能受环境温度影响的表面温度传感器的制造方法,并且责任性优异。解决方案:表面温度传感器的制造方法包括以下步骤:在 具有有底圆筒形状的保护管中的底壁; 从保护管的开口端插入一对形成热电偶的热电偶元件线,并将一对热电偶元件线的尖端部分插入到通孔中; 将一对热电偶元件线彼此和底壁焊接,以便在将一对热电偶元件线插入通孔的状态下屏蔽通孔; 并平滑底壁的外表面。