| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | LIQUID HEATING DEVICE | EP14787150.3 | 2014-10-20 | EP3062667A1 | 2016-09-07 | BEEKMAN, Jarno; FRAIJ, Fred |
| The present invention relates to a liquid heating device (10) for a hot beverage machine, comprising: -a flow through heater (18, 18'); -a first tank (12) for receiving liquid (24) to be heated; -a second tank (14) for temporarily storing pre-heated liquid (24'); -a liquid outlet (22) for releasing heated liquid; and -a switching unit (20, 20', 20'', 20''') which is configured to switch a liquidflow cycle of the liquid heating device (10) between a pre-heating cycle, in which liquid (24) flows from the first tank (12) through the flow through heater (18, 18') and into the second tank (14) in order to temporarily store pre-heated liquid (24') in the second tank (14), and a end-heating cycle, in which the pre-heated liquid (24') flows from the second tank (14) through the flow through heater (18, 18') to the liquid outlet (22). | ||||||
| 102 | Portable mobile heat generator | EP11184414.8 | 2011-10-07 | EP2439457B1 | 2016-07-27 | Ciacchi, Claudio |
| 103 | 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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| 104 | 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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| 105 | Boiler unit | EP10186215.9 | 2002-07-11 | EP2366962A1 | 2011-09-21 | Chamberlain, Luke |
A boiler assembly 1 comprises a removable domestic boiler unit 2 detachably connected to a manifold unit 4, the arrangement being such that the manifold unit 4 provides the boiler unit 2 with a connection interface to a heating pipework system (not shown). The boiler unit 2 may be quickly and simply removed from the manifold unit 4 and taken away to be serviced or repaired. In order that the heating system may be used while the servicing is being carried out a replacement boiler unit is connected to the manifold unit 4. The boiler unit 2 comprises a plurality of removable panels 8; 10, 12; 14; 16 and 18. The front panel 8 comprises a security lock 22. A timer 28 is also provided for turning the boiler unit 2 on and off and to indicate when a service is due or to indicate a fault.
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| 106 | A BOILER UNIT | EP09760965.5 | 2009-11-26 | EP2364512A2 | 2011-09-14 | DEVRIENDT, James; EVANS, Christopher John; MORGAN, Robert; BARNARD, Paul; GIRVAN, Bruce |
| A boiler unit (100) housed in an enclosure, the boiler unit (100) configured to receive a solid state combined heat and power generating device (130). The boiler unit (100) comprises a heating device (110) to produce heat; and a control unit (120) to independently control each of the heating device (110) and the solid state combined heat and power generating device (130). The boiler unit (100) is operable without the solid state combined heat and power generating device (130) being present. | ||||||
| 107 | High-efficiency water boiler | EP10250167.3 | 2010-02-01 | EP2354675A1 | 2011-08-10 | Shun-Chi, Yang; Mao, Hsiung Yang; YANG, Tsung-Chuan; FANG, Ming-Wu; CHENG-YEN, Wu |
A high-efficiency water boiler (10) includes a shell (12) and a heating unit (14) located in the shell (12). The heating unit (14) includes a heating tank (28) filled with fuel (30) and a heater (34) for heating the fuel (30). A containing unit (15) includes a container (38) provided around the heating tank (28). A heat conduction unit (16) includes heat conduction pipes (42) leading to the container (38) from the heating tank (28) to transfer heat to the container (38) from the heating tank (28). A cooling unit (18) includes a heat exchanger (70) for cooling the fuel (30) going therein from the heating tank (28). An inlet pipe (24) extends through the heat exchanger (70) and includes an end connected to a leading section (381) of the container (38) so that water (25) can go into the container (38) through the inlet pipe (24). An outlet pipe (26) is connected to a tailing section (382) of the container (38) so that the water (25) can leave the container (38) through the outlet pipe (26).
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| 108 | Boiler unit | EP02254899.4 | 2002-07-11 | EP1275910B1 | 2011-03-09 | Chamberlain, Luke |
| 109 | PORTABLE HEAT TRANSFER UNIT | EP06810910.7 | 2006-09-29 | EP1930666A1 | 2008-06-11 | Okayasu, Kenji |
The present invention relates to a portable heat transfer apparatus designed to supply heat to an external heat load, such as a space-heating unit or a heating garment, in a manner to be usable in outdoor and other environments where it is difficult to receive a supply of electricity or fuel gas, and allows a ratio of LPG and air to be controlled so as to perform combustion in desirable conditions. The portable heat transfer apparatus of the present invention is adapted to ignite a mixture supplied from a fuel-gas supply unit and a fuel gas-air air-fuel unit having air-fuel ratio adjustment mechanism, using a piezoelectric ignition unit, so as to induce a flame burning in a combustion chamber of a burner, and drive a heat-drive pump disposed relative to burner while interposing a heat-collecting container therebetween, by heat generated from the flame burning, so as to transfer heat to an external heat load, while controlling the air-fuel ratio adjustment mechanism by using a spring-type timer adapted to be moved by a control lever, or by activating the air-fuel ratio adjusting temperature sensor installed in the heat-collecting container. |
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| 110 | 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). | ||||||
| 111 | Boiler unit | EP02254899.4 | 2002-07-11 | EP1275910A3 | 2003-10-22 | Chamberlain, Luke |
A boiler assembly 1 comprises a removable domestic boiler unit 2 detachably connected to a manifold unit 4, the arrangement being such that the manifold unit 4 provides the boiler unit 2 with a connection interface to a heating pipework system (not shown). The boiler unit 2 may be quickly and simply removed from the manifold unit 4 and taken away to be serviced or repaired. In order that the heating system may be used while the servicing is being carried out a replacement boiler unit is connected to the manifold unit 4. The boiler unit 2 comprises a plurality of removable panels 8; 10, 12; 14; 16 and 18. The front panel 8 comprises a security lock 22. A timer 28 is also provided for turning the boiler unit 2 on and off and to indicate when a service is due or to indicate a fault. |
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| 112 | 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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| 113 | Heizung | EP88106365.5 | 1988-04-21 | EP0290833B1 | 1991-09-25 | Dammers, Dieter; Dammers, Helmut |
| 114 | Hochdruckreinigungsgerät | EP88104133.9 | 1988-03-16 | EP0283909B1 | 1990-08-16 | Schulze, Werner; Gassert, Helmut |
| 115 | Hochdruckreinigungsgerät | EP88104133.9 | 1988-03-16 | EP0283909A1 | 1988-09-28 | Schulze, Werner; Gassert, Helmut |
Um bei einem Hochdruckreinigungsgerät mit einem Verbrennungsmotor, der über Getriebemittel eine Hochdruckpumpe (3) antreibt, über welche eine Reinigungsflüssigkeit unter Druck an eine Spritzeinrichtung (33) abgegeben wird, einen besonders kompakten Aufbau und eine möglichst verlustfreie Leistungsübertragung auf die Hochdruckpumpe (3) zu erreichen, wird vorgeschlagen, daß die Hochdruckpumpe (3) am Motor (1) derart angeordnet ist, daß die Ausgangswelle (2) des Verbrennungsmotors (1) oder eine Verlängerung derselben in das Gehäuse (4) der Hochdruckpumpe (1) hineinragt, daß zwischen dem Verbrennungsmotor (1) und dem Pumpengehäuse (4) ein Zwischenraum (6) vorhanden ist und daß in diesem Zwischenraum (6) eine drehfest mit der Ausgangswelle (2) des Motors verbundene Riemenscheibe (17) angeordnet ist, die über einen Transmissionsriemen (18) einen elektrischen Generator (21) zur Versorgung des Motors mit elektrischer Zündenergie antreibt. |
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| 116 | Water Supply and Heating System with Flexible Tank and Heating Carpet | US16027013 | 2018-07-03 | US20180347853A1 | 2018-12-06 | Alex Harel |
| A water supply and heating system that includes a flexible water tank, a flexible heating carpet and an electrical connection mechanism. The water tank includes a flexible outer layer and separable inflatable and collapsible water bag. The water bag is equipped with a water inlet and outlet hoses for receiving supplying water. The water bag is positioned inside the outer layer and is designed to remain collapsed when and to inflate when filled with water. The outer layer too is designed to inflate when the water bag is filled with the water and to deflate when the water is drained from the water bag. A dry space is defined between the outer layer and the water bag in which the heating carpet is positioned. The heating carpet includes flexible flat electrical heating strips that are connected to the electrical connection mechanism. | ||||||
| 117 | WATER SYSTEM WITH A CONTINUOUS FLOW HEATER AND A FLUSHING STATION | US15805198 | 2017-11-07 | US20180135870A1 | 2018-05-17 | Tobias Theile; Robin Diekmann |
| The present invention relates to a water system with a warm water line (3) for supplying at least one first consumer (4, 4a, 4b) connected thereto with warm water and a continuous flow heater (1), in which cold water introduced into the latter is heatable, connected to said warm water line (3). In case warm water remains in the continuous flow heater, because it is only partially consumed, limescale deposit can reduce the performance and the service life of the continuous flow heater. Limescale deposit is particularly likely to happen in stagnant warm water. The present invention aims to solve aforesaid problem in that a flushing station (2) connected to said warm water line (3) is provided, by way of which stagnant water in said warm water line can be drained in a chronological sequence until the water contained in said continuous flow heater (1) is below a predetermined setpoint temperature. | ||||||
| 118 | FLUID HEATING SYSTEM AND INSTANT FLUID HEATING DEVICE | US15822644 | 2017-11-27 | US20180080682A1 | 2018-03-22 | Sergiu Gabriel MIHU; Eric R. JURCZYSZAK; Chris HAYDEN |
| A fluid heating system may be installed for residential and commercial use, and may deliver fluid at consistent high temperatures for cooking, sterilizing tools or utensils, hot beverages and the like, without a limit on the number of consecutive discharges of fluid. The fluid heating system is installed with a tankless fluid heating device that includes an inlet port, an outlet port, at least one heat source connected with the inlet port, and a valve connecting the at least one heat source to the outlet port. A temperature sensor is downstream of the at least one heat source and connected to the valve. Another temperature sensor is on the heat source to enable it to be kept at an elevated temperature. The valve is operated so that an entire volume of a fluid discharge from the fluid heating system is delivered at a user-specified temperature on demand, for every demand. | ||||||
| 119 | MULTI-TEMPERATURE OUTPUT FLUID HEATING SYSTEM | US15596089 | 2017-05-16 | US20170248325A1 | 2017-08-31 | Sridhar Deivasigamani; Sivaprasad Akasam |
| A multi-temperature output fluid heating system including an input for receiving a fluid supply, a single heating source, a first output, a second output and a bypass path. The first output is fluidly connected to the input, where the first output is adapted for control by a first control device and to receive heat from the single heating source to achieve a first temperature at the first output. The bypass path fluidly connects the input and the second output. The input is adapted to empty a first portion of the fluid supply into the first output and a second portion of the input into the bypass path. The second output is adapted to receive an output from the first output and an output from the bypass path to achieve a second temperature. | ||||||
| 120 | Multi-temperature output fluid heating system | US14602248 | 2015-01-21 | US09719687B2 | 2017-08-01 | Sridhar Deivasigamani; Sivaprasad Akasam |
| A multi-temperature output fluid heating system including an input for receiving a fluid supply, a single heating source, a first output, a second output and a bypass path. The first output is fluidly connected to the input, where the first output is adapted for control by a first control device and to receive heat from the single heating source to achieve a first temperature at the first output. The bypass path fluidly connects the input and the second output. The input is adapted to empty a first portion of the fluid supply into the first output and a second portion of the input into the bypass path. The second output is adapted to receive an output from the first output and an output from the bypass path to achieve a second temperature. | ||||||
