| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | High efficiency water boiling device | EP11152689.3 | 2011-01-31 | EP2420755A3 | 2014-08-27 | Shun-Chi, Yang; Mao, Hsiung Yang; YANG, Tsung-Chuan; FANG, Ming-Wu; CHENG-YEN, Wu |
A water boiling device (10) includes a heat tank unit (14) received in a machine body (12), a high frequency induction heater (16), and a heat pipe unit (18). Heat tank unit (14) includes first and second heating tanks (34, 35) in communication with each other. Outside water (44) can flow into first and second heating tanks (34, 35). The high frequency induction heater (16) includes a heat pipe induction coil (66) and first and second induction coils (60, 62). The heat pipe unit (18) includes first and second heating pipes (72). An upper section (74) of each heating pipe (72) is received in one of heating tanks (34, 35), and a lower section (76) of each heating pipe (72) extends out of heating tanks (34, 35) and is inserted into heat pipe induction coil (66). The first and second heating tanks (34, 35) will heat up to heat the water (44) in the first and second heating tanks (34, 35) when a high frequency current is passed through the heat pipe induction coil (66) and first and second induction coils (60, 62).
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| 142 | Energy-saving water boiler | EP11152671.1 | 2011-01-31 | EP2388534A3 | 2014-08-27 | Shun-Chi, Yang; Mao, Hsiung Yang; YANG, Tsung-Chuan; FANG, Ming-Wu; CHENG-YEN, Wu |
A water boiler (10) includes a water storage tank (12), a heater (16), and a heat pipe unit (18). The water storage tank (12) includes a heating room (34), an outer water storage room (36), and an inner water storage room (40) between and spaced from the heating room (34) and the outer water storage room (36) in a radial direction. Outside water (56) flows from an inlet pipe (54) to the outer water storage room (36), and water (56) in the outer water storage room (36) flows into the inner water storage room (40) and the heating room (34) for storage. The heater (16) includes an induction coil (78). The heat pipe unit (18) includes a plurality of heat-transfer pipes (84). An upper segment (86) of each heat-transfer pipe (84) is arranged in the heating room (34), while a lower segment (88) of each heat-transfer pipe (84) is received in the induction coil (78). When the induction coil (78) turns ON, heat-transfer pipes (84) are heated to heat the water (56) in the heating room (34).
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| 143 | Anordnung von Raum bildenden Elementen einer Heizvorrichtung | EP11450078.8 | 2011-06-16 | EP2397780A3 | 2014-08-06 | Lobnig, Erwin |
Anordnung von Raum bildenden Elementen 2 einer Heizvorrichtung 1 zur Erwärmung eines an seiner Oberseite eine offene Seite 3 aufweisenden Raumes 4, wobei die Heizvorrichtung 1 eine Wärmequelle 5, einen Diffusor 6 und eine Strömungsvorrichtung 7 zur Bewegung eines Gases in die Nähe der Wärmequelle 5 und mit einer Strömungsgeschwindigkeit durch den zumindest über Teilbereiche des Bodens des Raumes 4 erstreckenden Diffusor 6 mit einer Strömungsrichtung 12 in den Raum 4 umfasst, sodass ein im Raum 4 befindliches kaltes Gas durch das erwärmte Gas verdrängt wird, wobei der Raum 4 durch an den Seitenflächen des Raumes 4 angeordnete Raum bildende Elemente 2 definiert ist, welche Raum bildenden Elemente 2 eine Erstreckung im wesentlichen in vertikaler Richtung aufweisen, sodass ein seitliches Ausströmen der erwärmten Luft aus dem Raum 4 und/oder durch die offene Seite 3 im wesentlichen unterbunden ist.
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| 144 | Klimagerät | EP12193663.7 | 2012-11-21 | EP2594709B1 | 2014-07-23 | Dörr, Rudolf; Süsslin, Jürgen; Schindel, Stefan |
| 145 | Autonomous climate control unit | EP12382296.7 | 2012-07-24 | EP2597379A3 | 2014-06-25 | Sánchez Pérez, Vicente; De Isabel Garcia, Juan Antonio |
The unit is formed by a portable container (1) inside of which there is a high efficiency geothermal heat pump (2) installed, capable of transmitting the heat from the ground or air to be used both for heating and for sanitary hot water, connected to a sanitary hot water collecting deposit (9) and to a climate control inertia deposit (10), with inlets / outlets for the supply of sanitary hot water and climate control water, respectively. The device comprises a water condensation heat exchanger connected to some geothermal wells with a geothermal probe to perform the thermal exchange with the ground, which is connected to a condensation battery connected to the heat pump. The air condensation battery is in turn associated with its respective groups of condensation air admission fans and condensation air exit fans, all of this with an electric panel and a control system that allows using the unit in two operational modes.
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| 146 | BARBEQUE APPARATUS | EP12712366.9 | 2012-03-09 | EP2683280A1 | 2014-01-15 | RHODES, Timothy, Adam; JENKINS, Karen, Katrina |
| A portable barbecue apparatus (1) comprises a base unit (2) adapted to contain a source of heat, a support structure (6) for the base unit by which the base unit (2) can be mounted outdoors for use, and a plurality of cooking units (3, 4, 5) selectively mountable on the base unit for achieving different types of cooking. A user of the barbecue apparatus (1) is able to attach one or more cooking units (3, 4, 5) to the base unit (2) depending on the required cooking activity. One of the selectively mountable cooking units is a kettle unit (3) capable of holding and dispensing water which is heated by the source of heat until it is boiling. | ||||||
| 147 | A SOLAR WATER HEATER | EP09760094.4 | 2009-11-06 | EP2373930B1 | 2013-09-18 | SMYTH, Mervyn |
| The present invention provides a solar water heating apparatus which includes concentric inner and outer vessels defining an annular cavity therebetween, within which cavity a phase change material is located, and which is vaporised when solar radiation is incident on the outer vessel, in order to transfer heat to a water store contained in the inner vessel, this water store being fed fresh unheated water while the heated water is extracted therefrom for domestic or other purposes. | ||||||
| 148 | Portable mobile heat generator | EP11184414.8 | 2011-10-07 | EP2439457A1 | 2012-04-11 | Ciacchi, Claudio |
A description is given of a portable mobile heat generator mounted on wheels (2), which can be connected to at least one hydraulic circuit of a heating system, comprising at least one heat pump with refrigerant circuit (20), at least one hydronic circuit (30) and at least one mixing circuit (40) for sending water, at the proper required temperature, to the heating system, a local control unit (50) suitable for performing an automated procedure of the functioning cycles and for checking the functioning parameters of the generator, and an optional remote control unit (60) in communication with said local unit (50).
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| 149 | High efficiency water boiling device | EP11152689.3 | 2011-01-31 | EP2420755A2 | 2012-02-22 | Shun-Chi, Yang; Mao, Hsiung Yang; YANG, Tsung-Chuan; FANG, Ming-Wu; CHENG-YEN, Wu |
A water boiling device (10) includes a heat tank unit (14) received in a machine body (12), a high frequency induction heater (16), and a heat pipe unit (18). Heat tank unit (14) includes first and second heating tanks (34, 35) in communication with each other. Outside water (44) can flow into first and second heating tanks (34, 35). The high frequency induction heater (16) includes a heat pipe induction coil (66) and first and second induction coils (60, 62). The heat pipe unit (18) includes first and second heating pipes (72). An upper section (74) of each heating pipe (72) is received in one of heating tanks (34, 35), and a lower section (76) of each heating pipe (72) extends out of heating tanks (34, 35) and is inserted into heat pipe induction coil (66). The first and second heating tanks (34, 35) will heat up to heat the water (44) in the first and second heating tanks (34, 35) when a high frequency current is passed through the heat pipe induction coil (66) and first and second induction coils (60, 62).
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| 150 | LIQUID FEEDER AND LIQUID FUEL COMBUSTION DEVICE WITH THE LIQUID FEEDER | EP01271851.6 | 2001-12-20 | EP1347239B1 | 2006-11-22 | TSUDA, Tsutomu; MORIKAWA, Mamoru |
| A liquid feeder stored in an equipment body having an upper surface and feeding liquid to the equipment body according to the operation of the equipment body, comprising a container part (12) detachable from the specified installation position inside the equipment body and capable of storing the liquid, wherein, when the container (12) is installed at the installation position, a container part upper plate (400) closes the opening part provided in the upper surface of the equipment body to store the container part (12), a handle (401) is attached to the container part upper plate (400), and the handle (401) should desirably be so formed as to be raised from the container part upper plate (400) only when used. | ||||||
| 151 | PORTABLE INSTANT HOT WATER HEATER | EP03788270.1 | 2003-07-25 | EP1552225A1 | 2005-07-13 | LONG, Norris, Richard; ISRAEL, Gary |
| A portable instant water heater. Water is delivered to a base unit (22) of the instant hot water heater by a pump (26) that draws water from a reservoir (28) through a flow control valve (90). The water flows into a pre-heater (74) that wraps around a base of the burner and that is heated by the burner (52). Water is heated in a heat exchanger (82) and then exits the bare unit through an outlet spout that swings out from the base unit to dispense water and that may be stored and locked into position in a handle for the base unit. The flow control valve (90) may lower the flow of water through the heat exchanger, so the water has more time to absorb heat and to get hotter. The base unit includes a single control knob (44) that turns an the pump (26) and the burner (52) and operates the flow control valve (90). | ||||||
| 152 | LIQUID FEEDER AND LIQUID FUEL COMBUSTION DEVICE WITH THE LIQUID FEEDER | EP01271851 | 2001-12-20 | EP1347239A4 | 2005-03-23 | TSUDA TSUTOMU; MORIKAWA MAMORU |
| A liquid feeder stored in an equipment body having an upper surface and feeding liquid to the equipment body according to the operation of the equipment body, comprising a container part (12) detachable from the specified installation position inside the equipment body and capable of storing the liquid, wherein, when the container (12) is installed at the installation position, a container part upper plate (400) closes the opening part provided in the upper surface of the equipment body to store the container part (12), a handle (401) is attached to the container part upper plate (400), and the handle (401) should desirably be so formed as to be raised from the container part upper plate (400) only when used. | ||||||
| 153 | Hot water Supply appliance | EP00302152.4 | 2000-03-16 | EP1036998A3 | 2003-01-29 | Middlemast, David John |
An appliance for providing a supply of hot water, the appliance being portable in form and comprising a vessel (10) fitted with an electric immersion heater (22), an inlet (24) for cold water extending to an interior region at or adjacent the bottom of the vessel, and an outlet (30) for hot water at or adjacent the top of the vessel. The appliance is able to provide a supply of hot water on a temporary or emergency basis. |
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| 154 | Hot water Supply appliance | EP00302152.4 | 2000-03-16 | EP1036998A2 | 2000-09-20 | Middlemast, David John |
An appliance for providing a supply of hot water, the appliance being portable in form and comprising a vessel (10) fitted with an electric immersion heater (22), an inlet (24) for cold water extending to an interior region at or adjacent the bottom of the vessel, and an outlet (30) for hot water at or adjacent the top of the vessel. The appliance is able to provide a supply of hot water on a temporary or emergency basis. |
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| 155 | Transportables Heizgerät | EP99102679.0 | 1999-02-13 | EP0936329A2 | 1999-08-18 | Diermann, Gunther; Veit, Eberhard Dr., |
Die Erfindung betrifft ein transportables Heizgerät (4) zum Aufheizen einer in einem Behältnis befindlichen Flüssigkeit, insbesondere zum Aufheizen von im Freien stehenden Schwimm- oder Planschbecken (1). Das Heizgerät (4) hat einen Wärmeerzeuger (9), der als Gas- oder Elektroheizung und vorzugsweise als Durchlauferhitzer (27) ausgebildet ist. Außerdem hat das Heizgerät (4) eine Filtereinrichtung (45) und eine Pumpe (25). Das Heizgerät (4) kann wahlweise als Heizgerät zur Erzeugung von Warmwasser oder bei abgeschaltetem Wärmeerzeuger (9) als Umwälz- oder Filtergerät eingesetzt werden. Ausgewählte Figur ist Figur 4. |
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| 156 | Heizung | EP88106365.5 | 1988-04-21 | EP0290833B1 | 1991-09-25 | Dammers, Dieter; Dammers, Helmut |
| 157 | Apparatus to circulate and heat liquid | EP87850274 | 1987-09-08 | EP0260242A3 | 1988-08-24 | Ekman, Heinz |
Apparatus to circulate and heat liquid, such as water, which apparatus includes an incorporated or separate source of heat (2) and a liquid inlet pipe (10) and a liquid outlet pipe (12), and inside which apparatus is arranged, connected to the outlet pipe (12), a preferably spiral pipe (11) for heating the liquid to its final temperature. In known heating systems, it is not enough to heat the water, also a circulation water pump is needed. With this invention, the need for a circulation water pump is eliminated by that the inlet pipe (10) and the outlet pipe (12) are each equipped with a back-pressure valve (13, 14), and that inside the apparatus, between the inlet pipe (10) and the spiral pipe (11) is installed an element (7) comprising a liquid space (8) with a direct connection to the inlet pipe (10) and the spiral pipe (11) and, connected with said space, a vaporizing space (9) which quickly vaporizes the liquid. |
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| 158 | System and Method of Networked Local Heating | US15866443 | 2018-01-09 | US20190212759A1 | 2019-07-11 | Joseph J. Laski; Nancy H. Chen |
| A system of networked local heating includes a plurality of networked local heating sources, each networked local heating source including a directional infrared (IR) radiation heat source configured to output directional IR radiation toward a remotely located target area, and a local heat source controller configured to activate the directional IP radiation heat source to output the directional IR radiation toward the remotely located target area during short duration radiative heat events. The system also includes a local heat source management system configured to log heat event requests from each of the local heat source controllers. | ||||||
| 159 | OUTDOOR HEATING APPLIANCE WITH GROUND LEVEL HEAT | US16243230 | 2019-01-09 | US20190212034A1 | 2019-07-11 | Eric Hawkinson; Connor Burmeister |
| An outdoor heating appliance for support by a surface may include a top portion configured for arrangement at a distance offset from the surface, a burner arranged in the top portion and configured for supplying a substantially open flame, and a reclaiming portion configured for absorbing energy from the flame, transferring the location of the energy, and emitting the energy in the form of heat at or near the surface. | ||||||
| 160 | HYDRO-FURNACES AND RELATED METHODS FOR VEHICLES | US16324846 | 2017-08-11 | US20190212033A1 | 2019-07-11 | Francesco CONSADORI; Oscar SOLIS MARQUEZ |
| A hydro-furnace for an RV includes a housing, a water inlet and a hot water outlet accessible through the housing, a radiator tank inside a radiator compartment of the housing, a heat exchanger inside a burner compartment of the housing for heating water flowing therethrough, a burner inside the burner compartment to provide heat to the heat exchanger, a heater core inside a recirculating compartment of the housing or heating air flowing therethrough, a blower inside the recirculating compartment for pulling return air through the heater core and delivering heated air outside the housing, and a pump circulating water from the radiator tank through the heat exchanger, through the heater core, and back to the radiator tank. | ||||||
