| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | LATENT HEAT EXCHANGER AND HOT WATER SUPPLY DEVICE | EP11853992.3 | 2011-11-18 | EP2660530B1 | 2017-08-30 | OTSUBO Shinya; NARUSE Hidekatsu; KOJIMA Yoichi |
| 62 | LATENT HEAT EXCHANGER AND HOT WATER SUPPLY DEVICE | EP11853992 | 2011-11-18 | EP2660530A4 | 2016-01-27 | OTSUBO SHINYA; NARUSE HIDEKATSU; KOJIMA YOICHI |
| 63 | Cooled connecting element for combination of several heat generators | EP07023701.1 | 2007-12-07 | EP1944560A3 | 2013-06-05 | De Sanctis, Guido |
The present invention relates to a primary generator (GP), such as a boiler for space and/or domestic water heating, to which a secondary generator (GS), for example a thermoelectric cogenerator, is connected by way of a connecting element (1) and the head (3) of the secondary generator is cooled by the thermal carrier fluid circulating in the primary generator (GP).
|
||||||
| 64 | Heizungssystem mit zwei Brennern | EP08100476.4 | 2008-01-15 | EP1944561A3 | 2011-04-13 | Plein, Michael Jakob; Dirscherl, Josef |
Die Erfindung betrifft ein Heizungssystem (1) mit einem ersten Brenner (2) der mit einem ersten Brennstoff betreibbar ist, mit einem Wärmetauscher (4) durch den ein flüssiges Medium fließt, welches von der von dem ersten Brenner abgegebenen Wärme erwärmt wird und einem Abführrohr (6), welches ein von dem ersten Brenner (4) erhitztes Gas abführt. Erfindungsgemäß weist das Heizungssystem (1) einen von dem ersten Brenner (2) unabhängig und mit einem gegenüber dem ersten Brennstoff verschiedenen zweiten Brennstoff betreibbaren zweiten Brenner (12) auf, wobei dieser zweite Brenner (12) Wärme wenigstens teilweise an den Wärmetauscher (4) abgibt.
|
||||||
| 65 | DOUBLE-FUELLED TUBELESS BOILER WITH TWO COMBUSTION CHAMBERS | EP05776149.6 | 2005-06-30 | EP1815184B1 | 2009-03-11 | Ozcan, Ali Nizami |
| The new boiler that is subject of the present invention to be used instead of existing solid, liquid, and gas fuelled boilers has been particularly designed to burn solid fuel and liquid fuel or natural gas at the same time, with a high efficiency and it has a different construction from the existing boilers with its improved fully automated grate system driven by engine with reducer that enables continuous coal feed and clinker flow, with its automated lime-fed dry desulphurization system adjustable according to sulphur content ratio in coal, with its special combustion chamber to burn liquid and gas fuels independent from the solid fuel burning chamber, and with its special tubeless design that enables heat transfer via conduction and induction in addition to the radiation based heat transfer, and it is a new type double-fuelled boiler with special tubeless design, which burns coal with fully automated feeding and great ease of operation and without smoke, and which can reduce sulphur dioxide emission thanks to its dry desulphurization system. | ||||||
| 66 | DOUBLE-FUELLED TUBELESS BOILER WITH TWO COMBUSTION CHAMBERS | EP05776149.6 | 2005-06-30 | EP1815184A1 | 2007-08-08 | Ozcan, Ali Nizami |
| The new boiler that is subject of the present invention to be used instead of existing solid, liquid, and gas fuelled boilers has been particularly designed to burn solid fuel and liquid fuel or natural gas at the same time, with a high efficiency and it has a different construction from the existing boilers with its improved fully automated grate system driven by engine with reducer that enables continuous coal feed and clinker flow, with its automated lime-fed dry desulphurization system adjustable according to sulphur content ratio in coal, with its special combustion chamber to burn liquid and gas fuels independent from the solid fuel burning chamber, and with its special tubeless design that enables heat transfer via conduction and induction in addition to the radiation based heat transfer, and it is a new type double-fuelled boiler with special tubeless design, which burns coal with fully automated feeding and great ease of operation and without smoke, and which can reduce sulphur dioxide emission thanks to its dry desulphurization system. | ||||||
| 67 | Wassererhitzer | EP94119552.1 | 1994-12-09 | EP0657704A1 | 1995-06-14 | Philipp, Christian, Dr.-Ing. |
Die Erfindung betrifft einen Wassererhitzer und dient der weiteren Verbesserung der Isolierung, des Korrosionsschutzes, des Wirkungsgrades und der Reduzierung von Masse, Umweltbelastung und Herstellungsaufwand. Die Isolierung ist als selbsttragende Schale (3) um den Grundkörper (1) und mit Abstand zu diesem angeordnet. Durch den Zwischenraum wird Frischluft gedrückt. Die Dichtung (15) der Tür (19) wird mit einer Spannhülse (16) mit gesonderten Spannelementen festgezogen und ist damit von der Tür weitestgehend entkoppelt. Ein Leitblech (24) im Wasserraum wird injektorartig vom Rücklaufwasser überströmt. Der Querschnitt der Rohre (30) ist abschnittsweise abgeflacht, wodurch in Verbindung mit Einbauten eine intensive Durchmischung stattfindet. Mehreren Rohren (30) sind eigene Brennstoffzufuhreinrichtungen (38) zugeordnet. Die Rohre (30) sind abschnittsweise mit Einrichtungen zur Förderung der Verbrennung, der Wärmeübertragung und des Zerstörungsschutzes versehen. Die Steuerung der Zahl der betriebenen Brennstoffzufuhreinrichtungen und der zugehörigen Ventilatorleistung für die Luftzufuhr erfolgt von einem Rechner (40), der mit wenigstens einer Einrichtung (39) zur Messung der Schadstoffe im Rauchgas verbunden ist und eine Minimierung des Schadstoffaustrages ausführt. |
||||||
| 68 | Heizungskessel | EP82105447.5 | 1982-06-22 | EP0068401A2 | 1983-01-05 | Viessmann, Hans, Dr. |
Der Heizungskessel besteht aus einem Festbrennstoffteil und aus einem aufgesetzten Teil für flüssige oder gasförmige Brennstoffe, wobei beide Teile mit rückseitigen Rauchgasabzugsöffnungen versehen sind. Um dafür Sorge zu tragen, daß bei geringem abzugsseitigem Widerstand und weitestgehendem Einbezug der Abzugsseite in die Kesselkonstruktion selbst praktisch keine Asche- oder Feststoffteile in den oberen, für flüssige oder gasförmige Brennstoffe bestimmten Teil gelangen können, ist in der Rauchgassammelkammer (1) des aufgesetzten Teiles (2) eine Abschirmwand (3) mit beidseitigen Abströmöffnungen (4) angeordnet. Die Rauchgasabzugsöffnung (5) des unteren Teiles (2') mündet in einen Kasten (6), der im oberen Bereich mit einem gemeinsamen Rauchgasabzugsstutzen (7) versehen ist. Die Abschirmwand (3) weist mindestens im unteren Bereich der beidseitigen Abströmöffnungen (4) mit sich bis zur Rückwand (8) des Kastens (6) erstreckende seitliche Abschirmfahnen (9) auf. |
||||||
| 69 | Heizkessel | EP80101026.5 | 1980-03-01 | EP0035045A1 | 1981-09-09 | Josef Krammer Chem. Dampfkessel-Reinigung |
Heizkessel (1) für zentrale Heizungsanlagen mit zwei Feuerräumen (2, 3), die von einem doppelwandigen Mantel (6, 7) umgeben sind, in dem Wasser und/oder Wasserdampf als Wärmeträger enthalten ist. Die beiden Feuerräume können mit unterschiedlichen Brennstoffen beschickt werden. |
||||||
| 70 | Heat exchanger with highly flexible use | EP11425007.9 | 2011-01-17 | EP2476986B1 | 2017-04-19 | Angiolini, Gian-Luca |
| A heat exchanger (1a, 1b, 1c, 1d) with highly flexible use, comprising a box-like body (2a, 2b, 2c, 2d) which delimits inside it at least one heat exchange chamber (3, 13, 23) and has at least one inlet (4) and at least one outlet (5) for the passage through the heat exchange chamber (3, 13, 23) of combustion products along a preferred path. More specifically, the box-like body (2a, 2b, 2c, 2d) defines at least partly in its side walls at least one duct for feeding a fluid to be heated and inside the heat exchange chamber (3, 13, 23) heat exchange elements (7) are provided and are associated with the supply duct in order to increase the thermal efficiency of the heat exchanger (1a, 1b, 1c, 1d). The peculiarity of the invention consists in that it comprises a plurality of distinct modular elements (8a, 8b, 8c, 8d, 9a, 9b, 9c, 9d) which are mutually interconnected in order to define the box-like body (2a, 2b, 2c, 2d). Advantageously, each modular element (8a, 8b, 8c, 8d, 9a, 9b, 9c, 9d) comprises at least one portion of the heat exchange elements (7), at least one portion of the supply duct and at least one portion of the heat exchange chamber (3, 13, 23) in order to obtain a heat exchanger (1) of differing dimensions and technical characteristics according to requirements. | ||||||
| 71 | Echangeur de chaleur à condensation comprenant deux faisceaux primaires et un faisceau secondaire | EP08101476.3 | 2008-02-11 | EP1965146B1 | 2015-09-09 | LE MER, Joseph; GIANNONI, Rocco |
| 72 | DOUBLE-FUELLED TUBELESS BOILER WITH TWO COMBUSTION CHAMBERS | EP05776149.6 | 2005-06-30 | EP1815184B8 | 2013-12-11 | Ozcan, Ali Nizami |
| 73 | LATENT HEAT EXCHANGER AND HOT WATER SUPPLY DEVICE | EP11853992.3 | 2011-11-18 | EP2660530A1 | 2013-11-06 | OTSUBO Shinya; NARUSE Hidekatsu; KOJIMA Yoichi |
A latent heat exchanger (1) has a casing (2), a heat-absorbing tube (50) accommodated in the casing (2), an inlet header (60), and an outlet header (70). The casing (2) has a casing main body (10) and a top plate (40) closing an upper opening (16) of the casing main body (10). The back wall (11), the front wall (12), the bottom wall (13), one side wall (14), and the other side wall (15) of the casing main body (10) are formed integrally by draw-processing a single metal plate. |
||||||
| 74 | Modular thermic assembly with modulating burners for condensation boiler. | EP11151075.6 | 2011-01-17 | EP2354702A1 | 2011-08-10 | Rigamonti, Angelo |
A modular thermic assembly is described with modulating burners for condensation boiler, which comprises a single casing (1) with an internal space for the circulation of a useful fluid to be heated, a plurality of heat exchangers (5) accommodated in said internal space for the formation and the circulation of a heat exchange fluid and a burner (10) with independent operation associated with each heat exchanger (5). ( |
||||||
| 75 | BOILER AND METHOD FOR OPERATING SAID BOILER | EP08719172.2 | 2008-02-27 | EP2122245A2 | 2009-11-25 | ABATE, Valerio; BIANCHI, Michela; CONTI, Alberto |
| Boiler comprising a support structure, a burner mounted on said support structure, susceptible to burn a mixture of comburent air and fuel for generating a flow of hot fumes and means for transferring heat from the above-mentioned fumes to a hydraulic circuit of a carrier fluid, water in particular. Such heat transferring means are provided with at least a first heat exchanger and at least a second heat exchanger susceptible to exchange heat with the hot fumes in sequence. The boiler comprises at least one pipe made of ceramic material arranged inside the burner, susceptible to convey the fumes between the first exchanger and the second exchanger, and a plurality of nozzles for introducing the mixture. The nozzles are arranged spaced from each other inside the burner, around the above-mentioned pipe and are susceptible to generate a flame in contact with the outer surface of the pipe. | ||||||
| 76 | HEAT EXCHANGER OF MODULAR STRUCTURE AND METHOD FOR THE FORMATION THEREOF | EP06783828.4 | 2006-07-07 | EP2038586A2 | 2009-03-25 | DECKERS, Jan Hubertus |
| A heat exchanger, comprising a series of members, which members are intercoupled, wherein: the members each comprise a burner chamber with a burner position, a heat exchange area, a flue gas feed-through, a flue gas exhaust and a water-carrying channel with an inlet and an outlet; the members are each arranged for comprising a burner which at least partly extends in the respective burner chamber; the burner chambers of the juxtaposed members are in open connection to one another; and a first, second and third channel are provided, which interconnect the inlets, the outlets and the gas/air inlets of the different members, respectively. | ||||||
| 77 | Cooled connecting element for combination of several heat generators | EP07023701.1 | 2007-12-07 | EP1944560A2 | 2008-07-16 | De Sanctis, Guido |
The present invention relates to a primary generator (GP), such as a boiler for space and/or domestic water heating, to which a secondary generator (GS), for example a thermoelectric cogenerator, is connected by way of a connecting element (1) and the head (3) of the secondary generator is cooled by the thermal carrier fluid circulating in the primary generator (GP).
|
||||||
| 78 | Sectional heating boiler and heating apparatus comprising such boiler | EP97202216.4 | 1997-07-16 | EP0843135B1 | 2002-10-09 | Deckers, Jan Hubertus |
| 79 | Warmwasserbereiter mit katalytischem Brenner | EP93110501.9 | 1993-07-01 | EP0578131A1 | 1994-01-12 | Assmann, Hartmut, Dipl.-Ing.; Busch, Achim, Dipl.-Ing.; Faust, Hans-Joachim, Dipl.-Ing.; Jakob, Rainer, Dipl.-Ing.; Oehlen, Heinrich, Dipl.-Ing.; Shaker, Chaled, Dr.-Ing. |
Bei der katalytischen Verbrennung verbrennt ein Brenngas-Luft-Gemisch durch den Kontakt mit einer Katalysatorschicht. Die Verbrennung erfolgt flammenlos bei Temperaturen zwischen 800 und 1000° C. Für das Einsetzen der Reaktion muß eine Bereitschaftstemperatur von etwa 300 bis 350° C vorhanden sein. Zu diesem Zweck ist das Brenngas-Luft-Gemisch vorzuheizen. Die Vorheizung soll entweder mit einem Gasbrenner (8) erfolgen, dessen Brennraum (7) unter der Verteilkammer (6) des katalytischen Brenners (2) angeordnet ist oder mit einem Vormischbrenner (14 bzw. 15), der in einem inneren Rohr (3) eines katalytischen Spaltbrenners (2) sitzt. Nach dem Vorheizen kann bei geringeren Leistungsanforderungen nur der Spaltbrenner (4) oder bei erhöhter Anforderung zusätzlich auch der Vormischbrenner (14 bzw. 15) betrieben werden. |
||||||
| 80 | Heating boiler with high autonomy of feeding with solid fuel | EP86200226 | 1986-02-15 | EP0193234A3 | 1988-04-20 | Verlucca Moreto, Piero |
57 The boiler is constituted by a combustion chamber (20;120) with oblique side walls. (2, 4; 102, 104) adapted to cause the solid fuel to descend automatically by gravity towards a lower grid (5,105) where combustion takes place. The fuel is introduced through two capacious upper apertures (7,8; 107, 108) provided with smokeproof covers. The fluid to be fed to the heating bodies is heated in a central cylindrical body (14, 114) with flue pipes. The central cylindrical body (14; 114) can be made either in a version for feeding with solid fuel only or in a version for mixed feeding, in which case the boiler is provided with appropriate supports for a conventional burner (17). The main advantage of the boiler is its great autonomy of feeding with solid fuel which is introduced thereinto in considerable amounts - if desired, in the form of large economical pieces of wood logs - which, however, are burned gradually in time. |
||||||
