| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Apparatus for enhancing the performance of a heat pump and the like | US138715 | 1987-12-28 | US4761964A | 1988-08-09 | Jerry J. Pacheco |
| Apparatus for enhancing the performance of a heat pump which includes first and second auxiliary coils that are operatively connected to the heat pump. Each auxiliary coil has a radiant quartz heating element disposed internally thereof and a fan is disposed in closely adjacent spaced relation to the second auxiliary coil and exteriorly thereof. A pair of thermostats selectively actuate the radiant quartz heating elements and the fan at preselected environmental ambient temperatures to achieve increased heat pump efficiency. | ||||||
| 42 | Heat pump system and a method of operating same | US865173 | 1986-05-20 | US4718243A | 1988-01-12 | Winfried Buschulte; Lutz Mardorf |
| The invention relates to a method of operating a heat pump system in an absorption heat pump mode and/or boiler heating mode. According to this method, a solution of a refrigerant in a solvent is heated in a boiler, the evaporated refrigerant is delivered either directly to an absorber through a condenser, a throttle and an evaporator when the system is operated in the heat pump mode, or directly to an absorber when the system is in the boiler heating mode. The refrigerant is combined with the solvent that is drawn, low in refrigerant, from the boiler. The rich solution thus obtained is redirected to the boiler. To shut down the system, the heating of the boiler is turned off. In order to accelerate the return to operation, the invention provides that the flow line connecting the boiler with the absorber is additionally closed when the shutdown is effected and the refrigerant line from the boiler to the absorber is opened for a short time when the pressure in the boiler exceeds a predetermined maximum value, until the pressure in the boiler drops back below the maximum value. | ||||||
| 43 | ヒートポンプ、熱ポンプ方法およびヒートポンプシステム | JP2015512047 | 2013-05-15 | JP6342889B2 | 2018-06-20 | ゼドラク,ホルガー; クニッフラー,オリヴァー |
| 44 | E−1,3,3,3−テトラフルオロプロペンと少なくとも1つのテトラフルオロエタンとの組み合わせおよび加熱のためのそれらの使用 | JP2016232204 | 2016-11-30 | JP2017071792A | 2017-04-13 | コンスタンティノス・コントマリス |
| 【課題】低い地球温暖化係数、低いオゾン層破壊係数の作動流体の提供。特に、十分な加熱能力を達成しながらより高い凝縮器温度でHFC−134a向けにデザインされた既存のヒートポンプ機器の運転を可能にする流体の提供。 【解決手段】作動流体中のE−CF3CH=CHF対E−CF3CH=CHFとC2H2F4との総量の重量比が約0.01〜0.70であるという条件で;(a)E−CF3CH=CHFと(b)式C2H2F4を含む蒸気作動流体を凝縮器で凝縮させ、それによって液体作動流体を生成する工程を含む加熱を行う方法。 【選択図】なし |
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| 45 | ヒートポンプ、および自由冷却モードでの熱ポンプ方法 | JP2015512047 | 2013-05-15 | JP2015520351A | 2015-07-16 | ゼドラク,ホルガー; クニッフラー,オリヴァー |
| 【課題】【解決手段】ヒートポンプは、蒸発器吸入口(10a)および蒸発器排出口(10b)を有する蒸発器(10)と、蒸発器(10)で蒸発された動作液を圧縮する圧縮機(32)と、圧縮機(32)で圧縮された蒸発動作液を凝縮する凝縮器(12)とを備え、凝縮器(12)は凝縮器吸入口(12a)および凝縮器排出口(12b)を備え、蒸発器吸入口(15b)が加熱対象領域(16)からの戻り(16b)に接続され、凝縮器吸入口(12a)が冷却対象領域からの戻り(14b)に接続される。【選択図】図1 | ||||||
| 46 | JPH0333984B2 - | JP18180883 | 1983-09-29 | JPH0333984B2 | 1991-05-21 | PIITAA ERU KYAN |
| 47 | Reversible refrigeration circuit and its operating method | JP18180883 | 1983-09-29 | JPS5984065A | 1984-05-15 | PIITAA ERU KIYAN |
| 48 | ヒートポンプ、および自由冷却モードでの熱ポンプ方法 | JP2018071258 | 2018-04-03 | JP2018136118A | 2018-08-30 | ゼドラク,ホルガー; クニッフラー,オリヴァー |
| 【課題】より効率的なヒートポンプを提供する。 【解決手段】ヒートポンプは、蒸発器吸入口10aおよび蒸発器排出口10bを有する蒸発器10と、蒸発器10で蒸発された動作液を圧縮する圧縮機と、圧縮機で圧縮された蒸発動作液を凝縮する凝縮器12とを備え、凝縮器12は凝縮器吸入口12aおよび凝縮器排出口12bを備え、蒸発器吸入口10aが加熱対象領域16からの戻り16bに接続され、凝縮器吸入口12aが冷却対象領域14からの戻り14bに接続される。 【選択図】図1 |
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| 49 | L字部品用シース、および、L字部品用シースを有する空気調和装置とヒートポンプ式湯沸し器 | JP2016522245 | 2014-07-01 | JP2016529447A | 2016-09-23 | フアン,ウェイチュアン |
| L字部品用シース、および、L字部品用シースを有する空気調和装置とヒートポンプ式湯沸し器が開示されている。L字部品用シースは、L字型のアセンブリを受け取るように構成された受け取り部分(20)を備えたL字部品用シースの第1の端部(12)と、L字部品用シースの第1の端部(12)とは反対側にあり、内部に窪んだ部分(101)を有する第2の端部(10)を含む。内部に窪んだ部分(101)には貫通孔(13)が設けられている。L字部品用シースは、既存のL字型シースはL字型アセンブリに対する保護効果に乏しいという技術的な問題を効果的に解決し、かつ、導管部分と小さなL字型部分は崩壊かつ変形しやすいという技術的問題を解決するのに役立つ。【選択図】図3 | ||||||
| 50 | 電力変換装置内蔵モータ、このモータを内蔵した空気調和機、給湯器、および換気送風機器 | JP2014519784 | 2012-06-08 | JPWO2013183168A1 | 2016-01-28 | 倫雄 山田; 篠本 洋介; 洋介 篠本; 洋樹 麻生; 石井 博幸; 博幸 石井; 隼一郎 尾屋 |
| 外部電源の電圧を高周波電圧に変換してステータ3へ供給する半導体モジュール(インバータIC2)が実装されたプリント基板1を有する電力変換装置60を内蔵したモータ61であって、基板には、インバータIC2の高圧主回路系のパワーグランドである高圧回路グランドGPと半導体モジュールの低圧回路である制御回路系のグランドである低圧回路グランドGSとが設けられ、高圧回路グランドと低圧回路グランドとは、抵抗体Rgを介して一点で接続されている。 | ||||||
| 51 | 電力変換装置内蔵モータ、このモータを内蔵した空気調和機、給湯器、および換気送風機器 | JP2014519784 | 2012-06-08 | JP5791798B2 | 2015-10-07 | 山田 倫雄; 篠本 洋介; 麻生 洋樹; 石井 博幸; 尾屋 隼一郎 |
| 52 | Heat suitable for the implementation of the method and the method for driving the heat Ponpuyunitsuto Ponpuyunitsuto | JP11096286 | 1986-05-16 | JPH0621733B2 | 1994-03-23 | BINFURIITO BUSHURUTE; RUTSU MARUDORUFU |
| 53 | Method of driving heat pump unit and heat pump unit proper to execution of said method | JP11096286 | 1986-05-16 | JPS61272564A | 1986-12-02 | BINFURIITO BUSHIYURUTE; RUTSU MARUDORUFU |
| 54 | PREHEATING DEVICE FOR COMPRESSORS | EP15868365 | 2015-12-04 | EP3232137A4 | 2018-07-25 | ISHIZEKI SHINICHI; DOUMAE HIROSHI; KISHIWAKI YUUSUKE; FUJIWARA MASAHIDE; IKEDA MOTONOBU |
| A preheater for a compressor that is capable of heating a lubricant oil efficiently with smaller power is provided. A preheater (50) for a compressor (15) includes: a capacitive oil surface sensor (46) that is provided at a compressor (15) used in a refrigerating cycle, and detects an oil surface of a lubricant oil A in the compressor (15); and a power supply unit (45) that applies high-frequency voltage to the oil surface sensor (46). | ||||||
| 55 | Kombination einer Hochtemperatur-Brennstoffzelle mit einer Adsorptionswärmepumpe | EP08018132.4 | 2008-10-16 | EP2056038A2 | 2009-05-06 | Badenhop, Thomas; Berg, Joachim; Götz, Klaus; Kohlhage, Jörg; Kraus, Matthias; Oerder, Bodo; Paulus, Jochen |
Kombination einer Hochtemperatur-Brennstoffzelle (1) mit einer wasserdampfführenden Anodenabgasleitung (2) und einer trockenen Kathodenabgasleitung (3) mit einer Adsorptionswärmepumpe (4), wobei die Kathodenabgasleitung (3) der Hochtemperatur-Brennstoffzelle (1) mit dem Adsorber / Desorber (5) der Adsorptionswärmepumpe (4) verbunden ist.
|
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| 56 | CONTROL SYSTEM FOR A LINEAR VIBRATION MOTOR | EP03764200.6 | 2003-07-15 | EP1509994A1 | 2005-03-02 | UEDA, Mitsuo; NAKATA, Hideki; YOSHIDA, Makoto |
| A motor driving apparatus (101) for driving a linear vibration motor (100) is privided with an order output determining unit (3) for determining a motor output required of the linear vibration motor (100), and a driving frequency determining unit (2) for determining a driving frequency of the linear vibration motor (100) on the basis of the determined motor output, and an amplitude-fixed AC voltage (Vd) having a frequency equal to the determined driving frequency is applied to the linear vibration motor (100), whereby the output of the linear vibration motor (100) can be controlled without changing the amplitude value of the driving voltage applied to the linear vibration motor (100). | ||||||
| 57 | VORRICHTUNG UND VERFAHREN ZUR VEREISUNGSVERMEIDUNGSREGELUNG FÜR WÄRMEPUMPENVERDAMPFER | EP13708157.6 | 2013-03-08 | EP2822790B1 | 2018-08-01 | SCHMITZ, Engelbert; HEYL, Peter; GRAAF, Marc; REBINGER, Christian; SCHROEDER, Dirk |
| 58 | GAS HEAT-PUMP SYSTEM | EP16184344.6 | 2016-08-16 | EP3150938A1 | 2017-04-05 | CHOI, Minhwan |
Provided is a gas heat-pump system. The gas heat-pump system according to an embodiment of the present invention includes an air-conditioning system including a compressor, an outdoor heat exchanger, an expander, an indoor heat exchanger and a refrigerant pipe; an engine configured to provide power for an operation of the compressor, and in which a mixed fuel in which a fuel and air are mixed is burned; a cooling water pump which compels a flow of cooling water for cooling the engine; a cooling water pipe connected to the cooling water pump, and configured to guide the flow of the cooling water; an auxiliary heat exchanger in which heat exchange between the cooling water flowing through the cooling water pipe and a refrigerant flowing through the refrigerant pipe is performed; a hot water heat exchanger in which heat exchange between the cooling water flowing through the cooling water pipe and a fluid supplied from a hot water supply tank is performed; and a plurality of flow switching parts installed at the cooling water pipe, and controlled so that the cooling water discharged from the engine is guided to the auxiliary heat exchanger or the hot water heat exchanger.
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| 59 | ELBOW SHEATH AND AIR CONDITIONER AND HEAT PUMP WATER PUMP HAVING SAME | EP14819573 | 2014-07-01 | EP3018397A4 | 2017-02-22 | HUANG WEICHUAN |
| Disclosed are an elbow sheath, and an air conditioner and a heat pump water heater having same. The elbow sheath comprises: a first end (12) of the elbow sheath which has a receiving portion (20) configured to receive an elbow assembly, and a second end (10) which is opposite to the first end (12) of the elbow sheath and has an inwardly recessed portion (101). The inwardly recessed portion (101) is provided with a through hole (13). The elbow sheath effectively solves the technical problem that the existing elbow sheath has a poor protective effect on the elbow assembly, and helps to solve the technical problem that the copper pipe parts and small elbow parts are apt to collapse and be deformed. | ||||||
| 60 | USE FOR HEATING OF COMBINATIONS OF E-1,3,3,3-TETRAFLUOROPROPENE AND CHF2CHF2 | EP11807811.2 | 2011-12-14 | EP2652064B1 | 2016-07-20 | KONTOMARIS, Konstantinos |
| Disclosed herein is a method for producing heating comprising condensing a vapor working fluid comprising (a) E-CF3CH═CHF and (b) at least one tetrafluoroethane of the formula C2H2F4. Also disclosed herein is a heat pump apparatus containing a working fluid comprising (a) E-CF3CH═CHF and (b) at least one tetrafluoroethane of the formula C2H2F4. Also disclosed herein is a method for raising the maximum feasible condenser operating temperature in a heat pump apparatus suitable for use with HFC-134a, comprising charging the heat pump with a working fluid comprising (a) E-CF3CH═CHF and (b) at least one tetrafluoroethane of the formula C2H2F4. Also disclosed herein is a method for replacing HFC-134a refrigerant in a heat pump designed for HFC-134a comprising providing a replacement working fluid comprising (a) E-CF3CH═CHF and (b) at least one tetrafluoroethane of the formula C2H2F4. | ||||||
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