| 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 | Absorption machine | EP09154258.9 | 2009-03-03 | EP2098807A2 | 2009-09-09 | Santi, Luciano |
Absorption machine which performs a heating cycle in the winter season and a cooling cycle in the summer season in order to heat or cool, respectively, the carrier fluid of a hydronic plant (100). The machine (1) comprises a heat generator (8) for heating the solution composed of water and lithium bromide by means of a gas burner (9), the power of which can be modulated by a logic control unit (32) and which has a chamber (25) for mixing the gas with the air in a substantially stoichiometric quantity so as to form a comburent mixture to be conveyed under pressure by means of an impeller into a combustion chamber (15). The machine (1) comprises a water/fumes exchanger (18) which intercepts the fumes emitted from the burner (9) and has two water connections, i.e. a delivery connection (19) and a return connection (20), each with a three-way deviator valve (21, 22). The two three-way valves (21, 22) connect the exchanger (18) to the hydronic plant (100), when the machine (1) is operating with a heating cycle, and to the user installation (23), in particular for sanitary use, when the machine (1) is operating with a cooling cycle. The user installation (23) has a closed circuit with, connected along it, a pump (24) able to perform circulation of the water for as long as the temperature difference between the delivery and the return of the exchanger (18) is greater than a predefined value ΔT. The burner (9) is modulated by the control unit (32) also in relation to the temperature of the water output from the water/fumes exchanger (18), which represents the temperature of the fumes needed to maintain condensation thereof.
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| 42 | Heat exchanger for high stage generator of absorption chiller | EP02254487.8 | 2002-06-26 | EP1271072B1 | 2008-12-17 | Gupte, Neelkanth s. |
| An absorption cooling machine of the type which uses a refrigerant and an absorbent and which includes a high stage generator (G1), absorber (A), condenser (C), heat exchangers (H), and an evaporator (E) and means for connecting the components to one another to form a closed absorption cooling system. The solution side of the high stage generator (G1) is fluidically divided into two sections (12,14) with a partition plate (16) whereby gas exiting one section (12) at relatively high temperature is further cooled in a second section (14) called a flue gas recuperator (FGR) to improve overall burner efficiency. |
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| 43 | ABSORPTION REFRIGERATING MACHINE | EP00955105 | 2000-08-29 | EP1348919A4 | 2008-04-23 | TAKABATAKE SYUZOU; NAKAZIMA KUNIHIKO; OHISHI OSAMU; SAITOU KENICHI; OHTA MASUOMI |
| A steam type absorption refrigerator which circulates absorption fluid from an absorber(1), through a low-temperature heat exchanger(3), a low -temperature regenerator(4), a high-temperature heat exchanger(6), a steam heating type high-temperature regenerator(7), the high-temperature heat exchanger(6) and the low-temperature heat exchanger(3) in order, back to the absorber(1) comprising, a fluid concentrating boiler(10) which is disposed between the high-temperature regenerator(7) and the high-temperature heat exchanger(6) concentrating the absorption fluid under heat, and a pump(13) which extracts a part or all of the concentrated absorption fluid from the high-temperature regenerator(7) and feeds it to the fluid concentrating boiler(10), wherein the fluid concentrating boiler is connected to the high-temperature heat exchanger (6) so that the absorption fluid concentrated under heat is returned to the heating side of the high-temperature heat exchanger(6) and is also connected to the high-temperature regenerator(7) so that refrigerant steam generated from the absorption fluid at the fluid concentrating boiler is fed as a heating source to the high-temperature regenerator (7). |
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| 44 | IMPROVED AQUA-AMMONIA ABSORPTION SYSTEM GENERATOR UTILIZING STRUCTURED PACKING | EP01964541.5 | 2001-07-30 | EP1305558B1 | 2007-08-29 | SARKISIAN, Paul; KIROL, Lance, D. |
| An aqua-ammonia absorption apparatus comprising an absorber, a generator, a condenser and an evaporator, the generator (10) comprising a boiler section (12), a solution-heated-desorber section (14), an adiabatic desorber (16) or GAX desorber (36) section, and a rectifier section (18), the interior space of at least one of said sections of said generator being substantially filled with structured packing material inert to an aqueous ammonia solution at generator operating temperatures. | ||||||
| 45 | Heat exchanger for high stage generator of absorption chiller | EP02254487.8 | 2002-06-26 | EP1271072A3 | 2003-07-02 | Gupte, Neelkanth s. |
An absorption cooling machine of the type which uses a refrigerant and an absorbent and which includes a high stage generator (G1), absorber (A), condenser (C), heat exchangers (H), and an evaporator (E) and means for connecting the components to one another to form a closed absorption cooling system. The solution side of the high stage generator (G1) is fluidically divided into two sections (12,14) with a partition plate (16) whereby gas exiting one section (12) at relatively high temperature is further cooled in a second section (14) called a flue gas recuperator (FGR) to improve overall burner efficiency. |
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| 46 | Gas absorption cooling apparatus | EP99120576.6 | 1999-10-16 | EP1001231A1 | 2000-05-17 | Leistner, David W. |
A gas absorption refrigeration apparatus combines two or more separate gas absorption cooling systems (A,B). Each cooling system (A,B) consists of a generator (24), a condenser (22), an evaporator (20), an absorber (18) and tubing connecting the parts to form a complete circulation system for a refrigerant, an absorption liquid and an inert gas. The cooling systems (A,B) are mounted to a common cabinet (14) with the evaporators (20) of each system being located within the interior insulated compartment (16) of the cabinet (14). The generator (24) of each cooling system (A,B) shares a common heat source (26,28,30). |
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| 47 | Arrangement for preventing freezing of the working medium in an absorption refrigerating apparatus | EP88850422.2 | 1988-12-14 | EP0323820B1 | 1992-06-17 | Walfridson, Magnus Tell; Färndahl, Stig Herman |
| 48 | OFENSYSTEM ZUM VERBRENNEN VON FLÜSSIGEM BRENNSTOFF, INSBESONDERE ETHANOL | EP10728670.0 | 2010-07-02 | EP2588816A1 | 2013-05-08 | SCHWOERER, Roman; SCHWOERER, Johannes |
| A combustion furnace system (10) serves to burn liquid fuel, in particular ethanol. A combustion chamber (14) is partially surrounded by a wall (16, 18, 20, 22, 24) and has a burner (26) on the floor. The invention proposes providing a self-contained panel (32), the interior (33) of this panel being at a negative pressure and forming a heat-exchanging connection with the hot combustion gases, wherein an adsorbent is accommodated in the interior (33) of the panel (32), said adsorbent absorbing steam and again discharging steam at the temperatures of the combustion gases, wherein the panel (32) is connected to a water condensate container (40). | ||||||
| 49 | Verfahren zum Betrieb einer periodisch arbeitenden Vakuum-Sorptionsvorrichtung | EP05021591.2 | 2005-10-04 | EP1645820B1 | 2009-11-04 | Stricker, Marc Dr. |
| 50 | Gas absorption cooling apparatus | EP99120576.6 | 1999-10-16 | EP1001231B1 | 2003-12-03 | Leistner, David W. |
| 51 | ABSORPTION REFRIGERATING MACHINE | EP00955105.2 | 2000-08-29 | EP1348919A1 | 2003-10-01 | TAKABATAKE, Syuzou; NAKAZIMA, Kunihiko; OHISHI, Osamu; SAITOU, Kenichi; OHTA, Masuomi |
A steam type absorption refrigerator which circulates absorption fluid from an absorber(1), through a low-temperature heat exchanger(3), a low -temperature regenerator(4), a high-temperature heat exchanger(6), a steam heating type high-temperature regenerator(7), the high-temperature heat exchanger(6) and the low-temperature heat exchanger(3) in order, back to the absorber(1) comprising, a fluid concentrating boiler(10) which is disposed between the high-temperature regenerator(7) and the high-temperature heat exchanger(6) concentrating the absorption fluid under heat, and a pump(13) which extracts a part or all of the concentrated absorption fluid from the high-temperature regenerator(7) and feeds it to the fluid concentrating boiler(10), wherein the fluid concentrating boiler is connected to the high-temperature heat exchanger (6) so that the absorption fluid concentrated under heat is returned to the heating side of the high-temperature heat exchanger(6) and is also connected to the high-temperature regenerator(7) so that refrigerant steam generated from the absorption fluid at the fluid concentrating boiler is fed as a heating source to the high-temperature regenerator (7). |
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| 52 | Kältegerät, das vorzugsweise nach dem Absorberprinzip arbeitet, sowie Fahrzeug mit einem derartigen Kältegerät | EP00117067.9 | 2000-08-09 | EP1085281A3 | 2002-01-23 | Lorek, Manfred |
Der Erfindung liegt die Aufgabe zugrunde, ein Absorber-Kühlgerät (2) und ein Fahrzeug anzugeben, bei denen eine Abdichtung des Fahrzeuginnenraums gegenüber dem Luftkanal (50) für einen Gas-Brenner (48) des Absorberkälteaggregat besonders einfach gelöst ist, so daß diese Abdichtung zusätzlich auch beim Einbau des Kühlgeräts in das Fahrzeug durch einen Laien, unter der Annahme der Anwendung einer angemessenen Sorgfalt des Laiens, sichergestellt werden kann. Diese Aufgabe wird erfindungsgemäß dadurch gelöst, daß am Übergang von der Gehäuseoberseite (6) zu einer Gehäuserückseite (8) mindestens ein Einschnitt (28,30) vorgesehen ist, in dem die Leitungen (10 bis 24) ohne Überschreitung der Gehäusehöhe an der Übergangskante (4) von Gehäuseoberseite (6) zur Gehäuserückseite (8) geführt sind. Auf diese Weise ergeben sich an der Übergangskante (4) keine über die dort vorherrschenden Gehäuseabmessungen hinausgehende Überhöhungen durch die dort verlaufenden Leitungen, weil sämtliche dort verlaufende Leitungen (10 bis 24) aufgrund des Einschnitts quasi in diesem Bereich im Gehäuse verlaufend geführt sind. Aus diesem Grund gestaltet sich daher die Abdichtung gerade an dieser besonders sensiblen Stelle nun mehr besonders einfach. |
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| 53 | Kältegerät, das vorzugsweise nach dem Absorberprinzip arbeitet, sowie Fahrzeug mit einem derartigen Kältegerät | EP00117067.9 | 2000-08-09 | EP1085281A2 | 2001-03-21 | Lorek, Manfred |
Der Erfindung liegt die Aufgabe zugrunde, ein Absorber-Kühlgerät und ein Fahrzeug anzugeben, bei denen eine Abdichtung des Fahrzeuginnenraums gegenüber dem Luftkanal für einen Gas-Brenner des Absorberkälteaggregat besonders einfach gelöst ist, so daß diese Abdichtung zusätzlich auch beim Einbau des Kühlgeräts in das Fahrzeug durch einen Laien, unter der Annahme der Anwendung einer angemessenen Sorgfalt des Laiens, sichergestellt werden kann. Diese Aufgabe wird erfindungsgemäß dadurch gelöst, daß am Übergang von der Gehäuseoberseite (6) zu einer Gehäuserückseite (8) mindestens ein Einschnitt (28, 30) vorgesehen ist, in dem die Leitungen (10 bis 24) ohne Überschreitung der Gehäusehöhe an der Übergangskante (4) von Gehäuseoberseite (6) zur Gehäuserückseite (8) geführt sind. Auf diese Weise ergeben sich an der Übergangskante keine über die dort vorherrschenden Gehäuseabmessungen hinausgehende Überhöhungen durch die dort verlaufenden Leitungen, weil sämtliche dort verlaufende Leitungen aufgrund des Einschnitts quasi in diesem Bereich im Gehäuse verlaufend geführt sind. Aus diesem Grund gestaltet sich daher die Abdichtung gerade an dieser besonders sensiblen Stelle nun mehr besonders einfach. |
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| 54 | Heizungsanlage mit einer Absorptionswärmepumpe und Verfahren zu deren Betrieb | EP81108260.1 | 1981-10-13 | EP0050788B1 | 1984-08-01 | Sommers, Hans, Dipl.-Ing.; Jannemann, Theo, Dipl.-Phys. |
| 55 | Improved type aqueous ammonia absorber system generator utilizing a structured packing | JP2002518047 | 2001-07-30 | JP4740520B2 | 2011-08-03 | キロル,ランス,ディー.; サルキシャン,ポール |
| 56 | Absorption chiller | JP2003031240 | 2003-02-07 | JP4247521B2 | 2009-04-02 | 充 児玉; 隆英 杉山; 和秀 石田 |
| There is constructed a constitution including an exhaust heat fired regenerator constituting a heat source by exhaust heat from external machine generating the exhaust heat, a heat fluid flow path for making a fluid having the exhaust heat constituting the heat source or a fluid recovering the exhaust heat flow to the exhaust heat fired regenerator, flow path open/close device provided at the heat fluid flow path for controlling to make the heat fluid flow to the exhaust heat fired regenerator 1 and cut off the fluid therefrom by opening and closing the exhaust fluid flow path, first regenerator temperature detector for detecting temperature of the exhaust heat fired regenerator, a directly fired regenerator constituting a heat source by combustion heat of a burner, second regenerator temperature detector for detecting temperature of the directly fired regenerator, heat medium temperature detector for detecting temperature of a heat medium cooled or heated by an evaporator and controller for controlling to operate the flow path open/close device and the burner, in which a combustion amount of the burner can be increased and reduced and the controller controls to open and close the flow path open/close device and increase and reduce the combustion amount of the burner in accordance with the temperature of the heat medium detected by the heat medium temperature detector and a higher one of temperature of the temperature of the exhaust heat fired regenerator detected by the first regenerator temperature detector and the temperature of the directly fired regenerator detected by the second regenerator temperature detector. | ||||||
| 57 | Absorption chiller | JP2002178206 | 2002-06-19 | JP3966770B2 | 2007-08-29 | エス.グプテ ニールカンス |
| An absorption cooling machine of the type which uses a refrigerant and an absorbent and which includes a high stage generator (G1), absorber (A), condenser (C), heat exchangers (H), and an evaporator (E) and means for connecting the components to one another to form a closed absorption cooling system. The solution side of the high stage generator (G1) is fluidically divided into two sections (12,14) with a partition plate (16) whereby gas exiting one section (12) at relatively high temperature is further cooled in a second section (14) called a flue gas recuperator (FGR) to improve overall burner efficiency. |
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| 58 | High-temperature regenerator | JP295497 | 1997-01-10 | JP3837196B2 | 2006-10-25 | 伯一 久保田 |
| 59 | High-temperature regenerator | JP4469896 | 1996-03-01 | JP3702026B2 | 2005-10-05 | 伯一 久保田 |
| 60 | High-temperature regenerator of the absorption chiller | JP12093696 | 1996-04-17 | JP3600367B2 | 2004-12-15 | 修行 井上; 貞一 望月; 素直 計良 |
| A generator which can prevent deterioration of the chilling performance and corrosion, and can provide a high degree of reliability and long service life is disclosed. The high-temperature generator comprises a combustion chamber for flowing a combustion gas therein, a first tube assembly and a second tube assembly provided in the combustion chamber each of which has a plurality of heat transfer tubes for containing liquid therein. The first tube assembly comprises a plurality of bare tubes and is arranged at an upstream of the second tube assembly. The second tube assembly comprises a plurality of finned tubes provided with fins on the outer surface thereof. The heat transfer tubes are arranged in a staggered manner in a direction of the combustion gas flow within each of the first tube assembly and the second tube assembly. The bare tubes and the finned tubes are arranged aligned to each other in a direction of the combustion gas flow at a boundary area between the first tube assembly and the second tube assembly. | ||||||
