会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 7. 发明公开
    • A system for air-conditioning an environment, in particular the passenger compartment of a motor vehicle
    • 系统zur Klimatisierung einer Umgebung,insbesondere dem Insassenraum eines Motorfahrzeuges
    • EP1777088A1
    • 2007-04-25
    • EP05425742.3
    • 2005-10-21
    • C.R.F. SOCIETA' CONSORTILE PER AZIONI
    • Magnetto, Daniela C.R.F. Soc. Cons. per Azioni
    • B60H1/32F25B17/00
    • F25B17/12B60H1/3201
    • The air-conditioning system comprises at least one sensor (39, 41) of the thermal comfort of the passenger compartment (6) of a motor vehicle (10), and an apparatus (5) having at least one pair of heat-exchanger units (8, 9), each designed to increase and reduce said temperature at alternating intervals under the control of the sensor (39, 41). Each heat-exchanger unit (8, 9) comprises a substrate (11) having the property of absorbing and releasing heat according to the absorption of a gas. The two substrates are set in two hermetic casings (14) in communication with one another through a compressor (12) and a series of valves (13, 15a, 15b), which can be actuated so as to transfer the gas alternately from one to another of the two substrates (11). Each heat-exchanger unit (8, 9) also comprises an outlet conveyor (26, 27) with an outlet opening (31) to the passenger compartment (6) and another outlet opening (32) towards the outside. The two outlets (31 and 32) are controlled by hatches (33) that can be actuated intermittently so as to send hot air or cold air continuously into the passenger compartment (6).
    • 所述空调系统包括至少一个机动车辆的乘客室的热舒适度的传感器,以及具有至少一对热交换器单元的设备,每个热交换单元被设计成在控制下以交替间隔增加和减少所述温度 的传感器。 每个热交换器单元包括具有根据气体的吸收吸收和释放热量的性质的基板。 两个基板被设置在通过压缩机和一系列阀门彼此连通的两个密封壳体中,该阀门可被致动以便将气体交替地从两个基板中的一个传递到另一个基板。 每个热交换器单元还包括出口输送机,出口开口通向乘客舱,另一个出口开口朝向外部。 两个出口由可以间歇启动的舱口控制,以便将热空气或冷空气连续地送入客舱。
    • 8. 发明公开
    • HEAT PUMP SYSTEM
    • WÄRMEPUMPENSYSTEM
    • EP1550830A1
    • 2005-07-06
    • EP03758705.2
    • 2003-10-02
    • MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD.
    • SUZUKI, MotohiroTERASHIMA, Tetsuo
    • F24H1/00F25B17/12
    • F24H4/02F25B17/12F25B30/00F25B30/02F25B30/04F25B2400/24Y02B30/12
    • In conventional heat-accumulation heat pump systems, a large amount of hot water is stored in a hot water tank while repeating a cycle in which the hot water is circulated and the temperature of hot water is increased by using condensation heat of a high-temperature high-pressure refrigerant gas ejected from a compressor, and the hot water is supplied through a water plug or the like. With such conventional heat-accumulation heat pump systems, there is a problem that a large-capacity hot water tank is required.
      A heat-accumulation heat pump system is provided which has a refrigerant flow passage 1 through which a predetermined heat medium is caused to flow, compressing means 2 of increasing the temperature of the heat medium caused to flow, by using pressure increase, a flow passage 6 for a medium to be heated in which a predetermined medium to be heated is caused to flow, heat release means 3 of increasing the temperature of the medium to be heated that is caused to flow, by using heat exchange with the heat medium caused to flow and having its temperature increased, and refrigerant heating means 8 of increasing, by using a predetermined chemical reaction, the temperature of the heat medium that is caused to flow and/or the temperature of the medium to be heated that is caused to flow.
    • 在传统的蓄热热泵系统中,大量的热水储存在热水箱中,同时重复循环热水循环,并且通过使用高温的冷凝热来增加热水的温度 从压缩机喷出的高压制冷剂气体,通过水塞等供给热水。 对于这种传统的蓄热热泵系统,存在需要大容量热水箱的问题。 提供一种蓄热式热泵系统,其具有制冷剂流路1,通过该制冷剂流动通道1使预定的热介质流动;压缩装置2,其通过使用增压来增加热介质的流动温度 ,用于要加热的预定介质被加热的介质的流动通道6,通过与被加热的热交换使待加热的介质的温度升高的热释放装置3 热介质流动并使其温度升高;以及制冷剂加热装置8,其通过使用预定的化学反应使得要流动的热介质的温度和/或被加热介质的温度为 导致流动。
    • 9. 发明公开
    • ORGANIC HYDRIDE/METAL HYDRIDE HEAT PUMP
    • 有机氢化物及用于金属热泵
    • EP0688417A1
    • 1995-12-27
    • EP94904437.0
    • 1993-12-13
    • UNITED TECHNOLOGIES CORPORATION
    • KESTEN, Arthur, S.
    • F17C11F25B17F28D20
    • F25B17/12F17C11/005F28D20/003Y02E60/142Y02E60/321Y02P20/129
    • A heat pump that includes organic hydride (12) and metal hydride (2) systems cools a conditioned space (6) by transferring heat from the conditioned space to a metal hydride bed (4), thereby decomposing a metal hydride in the bed to form H2. The H2 flows to a vapor space (14) in the liquid hydride system (12) and reacts with a dehydrogenation product at a catalytic surface (32) in the vapor space to form an organic hydride and an exothermic heat of reaction. The heat pump also may be used to upgrade waste heat by transferring heat from a relatively low temperature heat source to decompose the metal hydride. The exothermic heat of reaction may then be removed from the vapor space and used for space heating. In both embodiments, the metal hydride bed (4) may be regenerated by supplying an endothermic heat of reaction to the catalytic surface (32), thereby dehydrogenating the organic hydride to form H2. The H2 flows to the metal hydride bed (4) and reacts with the metal hydride bed to regenerate the metal hydride. Alternately, the metal hydride bed (4) may be regenerated by flowing a liquid mixture that includes the organic hydride into a reaction zone (38) having a dehydrogenation catalyst (42) and supplying an endothermic heat of reaction to the reaction zone, thereby dehydrogenating the organic hydride to form H2. As before, the H2 flows to the metal hydride bed (4) where it regenerates the metal hydride.