| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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| 101 | ULTRA-HIGH VOLTAGE ELECTRIC HEAT ENERGY STORAGE DEVICE | EP13794592 | 2013-02-07 | EP2878897A4 | 2016-04-27 | ZHU JIANXIN |
| The present invention discloses an ultra-high voltage electro-thermal energy storage device, comprising a separated heat energy storage body part, a heat exchanger part and an outer thermal insulation layer part. The separated heat energy storage body is composed of an isolation layer, a safety gap, a heat storage module, an electric heating wire, a convection chamber for heat dissipation, an insulating air-duct, a power supply sheath, a back flow air passage, a motor, a front end of a leading wire for a power supply, a tail end of the leading wire for the power supply, and an outer thermal insulation layer. The separated heat energy storage body is a component of the ultra-high voltage electro-thermal energy storage device, and 3(n+1) separated heat energy storage bodies are provided for composing the ultra-high voltage electro-thermal energy storage device with any two adjacent separated heat energy storage bodies being isolated by isolation layers and the electric heating wires of the n separated heat energy storage bodies being connected end to end to be in series. The heat energy storage bodies supply electric power through three phases, and in each phase, n separated heat energy storage bodies are connected in series, so as to address the issue of terminal voltages on terminals of the separated heat energy storage bodies being too high. The present invention can be configured conveniently, and is suitable for various voltage levels above 10 KV, and can be used as a heat storage device having an operating voltage of more than 500 KV. | ||||||
| 102 | SEMI-INSTANTANEOUS MICROWAVE-INDUCED THERMO HEATER | EP12886154.9 | 2012-10-03 | EP2906019A1 | 2015-08-12 | Correa Hidalgo, Diego Jose |
Thermo heater comprising: a tank (1) made of glass, fitted with a cover (7) and a number of magnetrons (3) supported by a belt or a support framework (2) surrounding the tank (1), which offer the magnetrons continued support and which may be arranged inside the tank (1). Each one of the magnetrons (3) is housed on a primary exchanger (5) and this, in turn, on the main exchanger (6). A solenoid (8) is arranged on the cover, as well as a support for a rod thermostat and the water inlets and outlets. A mixing valve (20) is arranged under the cover, connected by a regulator (17) with a cover and operated by means of a piston (15) connected to the solenoid. The mixing valve is a double filter valve. Thanks to the characteristics of the materials used, the following is achieved: almost instant heating, a reduction of energy consumption and effective protection against the proliferation of colonies such as legionella. |
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| 103 | ULTRA-HIGH VOLTAGE ELECTRIC HEAT ENERGY STORAGE DEVICE | EP13794592.9 | 2013-02-07 | EP2878897A1 | 2015-06-03 | ZHU, Jianxin |
The present invention discloses an ultra-high voltage electro-thermal energy storage device, comprising a separated heat energy storage body part, a heat exchanger part and an outer thermal insulation layer part. The separated heat energy storage body is composed of an isolation layer, a safety gap, a heat storage module, an electric heating wire, a convection chamber for heat dissipation, an insulating air-duct, a power supply sheath, a back flow air passage, a motor, a front end of a leading wire for a power supply, a tail end of the leading wire for the power supply, and an outer thermal insulation layer. The separated heat energy storage body is a component of the ultra-high voltage electro-thermal energy storage device, and 3(n+1) separated heat energy storage bodies are provided for composing the ultra-high voltage electro-thermal energy storage device with any two adjacent separated heat energy storage bodies being isolated by isolation layers and the electric heating wires of the n separated heat energy storage bodies being connected end to end to be in series. The heat energy storage bodies supply electric power through three phases, and in each phase, n separated heat energy storage bodies are connected in series, so as to address the issue of terminal voltages on terminals of the separated heat energy storage bodies being too high. The present invention can be configured conveniently, and is suitable for various voltage levels above 10 KV, and can be used as a heat storage device having an operating voltage of more than 500 KV. |
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| 104 | THERMAL STORAGE DEVICE | EP13714889.6 | 2013-03-26 | EP2831688A1 | 2015-02-04 | MCDONALD, Alan |
| An improved thermal store is provided. The thermal decouples the heat output from the thermal store from the energy provided to the heater. | ||||||
| 105 | Bodenheizvorrichtung zur Erwärmung von Bodenflächen | EP11180335.9 | 2011-09-07 | EP2568223A1 | 2013-03-13 | Betzel, Udo |
Eine Bodenheizvorrichtung umfasst ein Plattenträgerbauteil (12), welches wenigstens eine Heizeinrichtung (14; 16) trägt, die wenigstens eine Wärmequelle (18, 20; 44) und umfasst eine Wärmeübertragungsanordnung (28; 48), wobei die Wärmeübertragungsanordnung (28; 48) ein mit der Wärmequelle (18, 20; 44) längs eines Anbringungsabschnitts (24, 26; 46) derselben wärmeübertragungsmäßig gekoppeltes, vom Plattenbauteil (18) gesondert ausgebildetes Wärmeleitungsteil (34; 54) mit einem ersten Material mit einer ersten Wärmeleitfähigkeit und wenigstens ein vom Plattenbauteil (12) gesondert ausgebildetes Wärmekapazitätsteil (36; 56) umfasst, welches mit dem Wärmeleitungsteil (34; 54) längs eines Kopplungsabschnitts (37; 57) des Wärmekapazitätsteils (36; 56) wärmeübertragungsmäßig gekoppelt ist, wobei das Wärmekapazitätsteil (36; 56) ein zweites Material (66) mit einer zweiten Wärmeleitfähigkeit aufweist, welche niedriger ist als die erste Wärmeleitfähigkeit.
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| 106 | SOLARHEIZSYSTEM, KLIMATISIERUNGSSYSTEM UND SPEICHERHEIZPLATTE HIERFÜR | EP10744543.9 | 2010-07-16 | EP2507560A2 | 2012-10-10 | GMEINER, Peter |
| The present invention relates to an accumulator temperature control plate, comprising a panel heating and/or cooling unit and a latent heat accumulator, wherein the base plate is provided with a clay or cement-based plate base material, and to a solar heating system for building, comprising a solar heating element or a photovoltaic cell and at least one accumulator temperature control plate, comprising a panel heating unit that can be heated by the solar heating element and a latent heat accumulator. The invention further relates to a method for air conditioning a building, comprising at least one accumulator temperature control plate. During winter, while the ambient temperatures are cold, a panel heating element of the accumulator temperature control plate is heated, and more particularly is heated by solar energy. After a certain room temperature is exceeded, the latent heat accumulator is charged, and at night, as the building cools down when the heater is not operated, the latent heat accumulator is discharged, and thereby gives off the energy thereof, while in the summer the latent heat accumulator withdraws heat from the building when a certain temperature is exceeded, and thereby contributes to cooling the same and the latent heat accumulator is charged. At night, when the temperatures decline, the latent heat accumulator is discharged by ventilating or cooling the building and by the associated cooling down of the building. | ||||||
| 107 | System for radiant heat transfer elements and heat accumulation obtained by means of recyclable inert material | EP11151832.0 | 2011-01-24 | EP2354725A1 | 2011-08-10 | Mottola, Gianni; Santin, Maurizio |
The present invention provides a radiant system which can be designed for environment and room heating, in which the main component for the transfer of radiant heat to the environment is made using inert materials from the waste products of natural stone. The radiator, through the construction process, described below, is made of recycled inert materials, deriving from the processing waste of natural stone and contains the heating element that generates heat within. The heating elements can be electrically powered (electrical heating elements) or can be transferred by pipes which transport the liquid heated elsewhere. The result is a single body, which includes the radiant system, the heating element, and any heat sinks, to increase the heat transfer and elements to measure and control temperature for the security of the device.
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| 108 | ELECTRICAL MODULE | EP06849330.3 | 2006-12-15 | EP1963754A2 | 2008-09-03 | THRAP, Guy, C.; SOLIZ, Ray; JOHNSTONE, Jeffrey, D.; STANLEY, Steven, J. |
| It is desirable to be able to securely connect individual electrical components within an electrical module. An electrical module is provided in which a plurality of energy storage components are connected together using a clamp instead of wiring or bus bar connections. In one configuration, for example, a first energy storage component comprising a first terminal and second terminal is connected to a second energy storage component comprising a third terminal and a fourth terminal. The first terminal of the first energy storage component is electrically connected to a third terminal of the second energy storage component using a clamp comprising a recess. The recess of the clamp receives at least a portion of the first terminal of the first energy storage component and at least a portion of the third terminal of the second energy storage component. The clamp electrically connects the first terminal of the first energy storage component and the third terminal of the second energy storage component and secures the first energy storage component and the second energy storage component in a generally in line configuration. | ||||||
| 109 | CORPS DE CHAUFFE ELECTRIQUE NOYE DANS UN BLOC ACCUMULATEUR DE CALORIES | EP02794815.7 | 2002-08-14 | EP1417863A1 | 2004-05-12 | Peyronny, Bernard |
| The invention relates to an electric heating unit which is housed in a calorie accumulator block. The invention comprises an accumulator block (2) which is made from light alloy, cast iron, ceramic or another material. Said block houses a flat resistor (1) which is disposed between two high-temperature insulating sheets (6, 7) and which comprises a dished resistive plate or a tape wound on a flat insulating support. In general terms, the invention relates to the industrial and commercial field for the production and distribution of basic and auxiliary heating devices that are intended for all types of locations, such as dwellings, houses, offices, shops and other private or professional locations. | ||||||
| 110 | HEIZKÖRPER UND HEIZANLAGE | EP96929124.4 | 1996-09-16 | EP0851992B1 | 1999-09-01 | Werner, Franz, Stefan; Lackner, Franz |
| The proposal is for a heater consisting of a container with connections for a heating agent circuit for the circulation of a heat conveying medium, in which the container (50, 59) through which the heat conveying medium is to flow is thermally connected to at least one heat store fitted in the heater and preferably in which the container (50, 59) is at least partially fitted in another container (61) of heat-conducting material which can be filled with a heat storage fluid, where the two containers are not in mutual fluid communication and/or the container (50, 59) through which the heat conveying medium flows is at least partly adjacent to a solid heat storage core (20). The invention also relates to a heating installation with heaters of the invention making use of solar power. | ||||||
| 111 | Wärmespeicherstein | EP90121879.2 | 1990-11-15 | EP0439704B1 | 1993-09-29 | Lambrecht, Jürgen, Dipl.-Ing. |
| 112 | Electric furnace with an intense storing capacity | EP81200846 | 1981-07-24 | EP0045548A3 | 1982-02-17 | Andre, Jacques; Colin, Raoul, Ing. |
| 113 | Friction heat generator and method of generating heat in the same | EP79300258.5 | 1979-02-20 | EP0014788A1 | 1980-09-03 | Frenette, Eugene Joseph |
A furnace or space heater (20) is operable at low cost by a small electric motor (45) which rotates an elongated cylindrical drum (51), on a vertical axis, within an elongated cylindrical casing (27) at a clearance of about one eighth of an inch to form an annular chamber (58) therebetween. A supply of light lubricant normally occupies the lower portion of the annular chamber (58) but rises to fill the chamber (58) during rotation of the drum (51). The casing (27) is enclosed in a housing (21), having a fan chamber (36) containing the electric motor (45) and fan or blower (46). The motor shaft (48) may rotate both the fan and the drum (51). |
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| 114 | ULTRA-HIGH VOLTAGE ELECTRIC HEAT ENERGY STORAGE DEVICE | EP13794592.9 | 2013-02-07 | EP2878897B1 | 2018-01-10 | ZHU, Jianxin |
| The present invention discloses an ultra-high voltage electro-thermal energy storage device, comprising a separated heat energy storage body part, a heat exchanger part and an outer thermal insulation layer part. The separated heat energy storage body is composed of an isolation layer, a safety gap, a heat storage module, an electric heating wire, a convection chamber for heat dissipation, an insulating air-duct, a power supply sheath, a back flow air passage, a motor, a front end of a leading wire for a power supply, a tail end of the leading wire for the power supply, and an outer thermal insulation layer. The separated heat energy storage body is a component of the ultra-high voltage electro-thermal energy storage device, and 3(n+1) separated heat energy storage bodies are provided for composing the ultra-high voltage electro-thermal energy storage device with any two adjacent separated heat energy storage bodies being isolated by isolation layers and the electric heating wires of the n separated heat energy storage bodies being connected end to end to be in series. The heat energy storage bodies supply electric power through three phases, and in each phase, n separated heat energy storage bodies are connected in series, so as to address the issue of terminal voltages on terminals of the separated heat energy storage bodies being too high. The present invention can be configured conveniently, and is suitable for various voltage levels above 10 KV, and can be used as a heat storage device having an operating voltage of more than 500 KV. | ||||||
| 115 | SEMI-INSTANTANEOUS MICROWAVE-INDUCED THERMO HEATER | EP12886154.9 | 2012-10-03 | EP2906019B1 | 2017-06-28 | Correa Hidalgo, Diego Jose |
| 116 | ELEKTROSPEICHERHEIZANLAGE | EP15169741.4 | 2015-05-28 | EP2953420A1 | 2015-12-09 | BECKSTEIN, Ewald; BAREUTHER, Helmut; OSTBOMK, Nicolas |
Eine Elektrospeicherheizanlage (2) umfasst einen Speicherkern (12) sowie elektrische Heizstäbe (14) zum Aufladen des Speicherkerns (12), wobei die Heizstäbe (14) in Gruppen (A,B,C) angeordnet sind. Die Beladung erfolgt mit Hilfe eines Ladereglers (16), der durch eine Reglerplatine gebildet ist, auf der mehrere Schaltelemente (22) integriert sind, über die die einzelnen Gruppen (A,B,C) unabhängig voneinander zuschaltbar sind. Zur Bestimmung eines Soll-Ladegrads (LS) ist vorzugsweise oder alternativ zu der Anordnung der Gruppen (A,B,C) die Berücksichtigung von Wetterprognosedaten vorgesehen.
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| 117 | DISPOSITIF DE CHAUFFAGE PAR INDUCTION D'UN CHAUFFE-EAU ET CHAUFFE-EAU MUNI D'UN TEL DISPOSITIF | EP13745836.0 | 2013-08-05 | EP2883006A1 | 2015-06-17 | GASPARD, Jean-Yves |
| The present invention concerns a device for the induction heating of a water heater and a water heater provided with such a device. The water heater (8) is characterised in that the heating means (2, 4, 5, 7) comprise a power generator (7) and an inductive module formed from at least one inductor (2) and at least one load, the inductor (2) being configured to generate a current induced in the load, the inductor (2) and at least one load being submerged in the volume of water to be heated. Application in the field of domestic or professional water heaters. | ||||||
| 118 | CORPS DE CHAUFFE ELECTRIQUE NOYE DANS UN BLOC ACCUMULATEUR DE CALORIES | EP02794815.7 | 2002-08-14 | EP1417863B1 | 2008-07-02 | Peyronny, Bernard |
| The invention relates to an electric heating unit which is housed in a calorie accumulator block. The invention comprises an accumulator block (2) which is made from light alloy, cast iron, ceramic or another material. Said block houses a flat resistor (1) which is disposed between two high-temperature insulating sheets (6, 7) and which comprises a dished resistive plate or a tape wound on a flat insulating support. In general terms, the invention relates to the industrial and commercial field for the production and distribution of basic and auxiliary heating devices that are intended for all types of locations, such as dwellings, houses, offices, shops and other private or professional locations. | ||||||
| 119 | Dispositif de chauffage électrique à inertie | EP05356167.6 | 2005-09-23 | EP1641320A1 | 2006-03-29 | Martinez, Eric |
L'invention concerne un dispositif de chauffage électrique comprenant un carter (1), au moins un bloc accumulateur de chaleur en matériau réfractaire équipé d'au moins une résistance électrique et disposé à l'intérieur du carter (1) et des moyens d'alimentation en électricité de la résistance électrique, caractérisé en ce qu'il comprend, en outre, au moins un diffuseur de chaleur en matériau thermiquement conducteur qui est placé à l'intérieur du carter (1) au contact du bloc accumulateur (10) et qui est conformé pour définir, en association avec le carter (1), au moins un canal (22, 26) de circulation de l'air, en vue d'assurer une diffusion de la chaleur par convection et qui présente une surface supérieure à celle d'une des faces principales du bloc accumulateur, en vue d'assurer une diffusion de la chaleur par rayonnement.
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| 120 | HEIZKÖRPER UND HEIZANLAGE | EP96929124.0 | 1996-09-16 | EP0851992A1 | 1998-07-08 | Werner, Franz, Stefan; Lackner, Franz |
| The proposal is for a heater consisting of a container with connections for a heating agent circuit for the circulation of a heat conveying medium, in which the container (50, 59) through which the heat conveying medium is to flow is thermally connected to at least one heat store fitted in the heater and preferably in which the container (50, 59) is at least partially fitted in another container (61) of heat-conducting material which can be filled with a heat storage fluid, where the two containers are not in mutual fluid communication and/or the container (50, 59) through which the heat conveying medium flows is at least partly adjacent to a solid heat storage core (20). The invention also relates to a heating installation with heaters of the invention making use of solar power. | ||||||
