| 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 | プラスチック温水ボイラ | JP2016535050 | 2013-11-29 | JP2016538523A | 2016-12-08 | アンドレイ, パヴロヴィッチ イリン, |
| 蒸気を生成するために電気を使用して、流体加熱、例えば、水を加熱する燃焼工学に係り、変形例1によれば、装置の本体1は、2つの同一な半部−上半部2及び下半分部3から構成される(図20)。本体1の材料は、本体具現の一般的な変形例によれば、1以上の同位元素を含む耐熱性重合体である。本体1の各半部は、残りの半部と同一に作られ、楕円形断面を有している。【選択図】図1 | ||||||
| 42 | パルス信号反転による電気化学スケール除去 | JP2016505909 | 2014-03-27 | JP2016521441A | 2016-07-21 | フリース,ヨーハネス ホトゼ ベルンハルト デ; ウィールストラ,イトセン; アルノルデュス ミュルデル,ベルナルド; フリース−アレントセン,ニーンケ コルネリー デ |
| 本発明は、液体を加熱する加熱装置及び方法を提供する。前記加熱器は、加熱要素を有し、前記方法は、(i)前記加熱器の中の前記液体を加熱するステップであって、前記加熱要素は、前記液体と接触する、ステップと、(ii)前記加熱要素と対極との間に電位差を印加するステップであって、前記電位差は、AC成分を有し、前記AC成分により、前記電位差は0.01乃至100Hzの範囲のAC周波数と共に変化し、前記電位差は、サイクル時間及びデューティサイクルを有し印加され、前記電位差は、前記サイクル時間の第1の部分の間に符号を有し、該符号は、前記サイクル時間の第2の部分の間の前記電位差の符号と逆であり、前記サイクル時間の前記第1の部分及び前記サイクル時間の前記第2の部分のうちの1又は複数の間に、前記電位差は時間的に符号を変える、ステップと、を有する。 | ||||||
| 43 | 加熱・音響装置 | JP2013039995 | 2013-02-28 | JP5685614B2 | 2015-03-18 | 開利 姜; 亮 劉; 辰 馮; 力 潜; ▲ハン▼ 守善; 守善 ▲ハン▼ |
| 44 | Water heater | JP2012556371 | 2011-03-08 | JP5503754B2 | 2014-05-28 | 盧奕堅; 盧金河 |
| 45 | Thermoacoustic device | JP2010102237 | 2010-04-27 | JP2010288270A | 2010-12-24 | JIANG KAILI; LIU LIANG; FENG CHEN; QIAN LI; FAN FENG-YAN |
| <P>PROBLEM TO BE SOLVED: To provide a thermoacoustic device using a carbon nanotube. <P>SOLUTION: A thermoacoustic device includes a first electrode, a second electrode, and a thermoacoustic element. The first and second electrodes are mutually separated at a predetermined distance while being electrically connected with the thermoacoustic element respectively. The thermoacoustic element includes a carbon nanotube structure and is fixed onto a support body. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 46 | Apparatus and method for the ohmic heating of a particulate liquid | EP12382193.6 | 2012-05-23 | EP2667684B1 | 2017-07-12 | Zack, Yoram |
| An electrode (10) for the ohmic heating of a particulate liquid flowing therethrough comprises an inlet (11; 12) and an outlet (12; 11) that are fluidly connected and are arranged in such a way that there is a change of direction of 60°-120° between the inlet and the outlet. A cell (50) for the ohmic heating of a particulate liquid flowing therethrough comprises two such electrodes and a dielectric tube (20) that fluidly connects the two electrodes. An apparatus for the ohmic heating of a particulate liquid flowing therethrough comprises six such cells that are fluidly connected in series and are electrically connected to a triphasic power supply, so that the increase of temperature of the liquid at any cell is substantially the same. | ||||||
| 47 | WATER HEATER | EP11752826 | 2011-03-08 | EP2554921A4 | 2017-01-25 | LU YIJIAN; LU JINHE |
| A water heater comprises an inner sleeve (1) and an outer sleeve (2). The upper part of the inner sleeve (1) is connected with an insulating water inlet pipe (3) leading to the inner chamber of the inner sleeve (1). The outer sleeve (2) surrounds the periphery of the inner sleeve (1) and can move axially relative to the inner sleeve (1). One end part of the inner sleeve (1) and one end part of the outer sleeve (2) are respectively connected with different heating electrodes (4). The inner sleeve (1) and the outer sleeve (2) are respectively provided with water outlet holes (5) so that a hot water supply loop is formed in the interlayer between the inner and outer sleeves. The clearance between the inner and outer sleeves is adjusted for regulating current so as to control water temperature. The water heater has a simple structure, small volume, light weight and low production cost, and can regulate the water temperature quickly in an energy-saving mode. | ||||||
| 48 | FOOD STEAMER CONTAINERS WITH SEQUENTIAL OHMIC WATER HEATING | EP09845041.4 | 2009-08-13 | EP2429351B1 | 2016-02-10 | COLBURN, Michael; BOGNER, Stephen; MCCORMICK, Gavin |
| 49 | Apparatus and method for the ohmic heating of a particulate liquid | EP12382193.6 | 2012-05-23 | EP2667684A1 | 2013-11-27 | Zack, Yoram |
An electrode (10) for the ohmic heating of a particulate liquid flowing therethrough comprises an inlet (11; 12) and an outlet (12; 11) that are fluidly connected and are arranged in such a way that there is a change of direction of 60°-120° between the inlet and the outlet. A cell (50) for the ohmic heating of a particulate liquid flowing therethrough comprises two such electrodes and a dielectric tube (20) that fluidly connects the two electrodes. An apparatus for the ohmic heating of a particulate liquid flowing therethrough comprises six such cells that are fluidly connected in series and are electrically connected to a triphasic power supply, so that the increase of temperature of the liquid at any cell is substantially the same.
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| 50 | REFRIGERANT HEATING DEVICE AND MANUFACTURING METHOD THEREOF | EP09841277 | 2009-05-04 | EP2287546A4 | 2012-09-19 | LEE SANG-HUN; SEO BEOM-SOO |
| The embodiment relates to a refrigerant heating apparatus. The refrigerant heating apparatus includes: a refrigerant pipe in which a refrigerant flows; and a heating unit that is provided on an outer surface of the refrigerant pipe, wherein the heating unit includes: a plurality of electrodes that are provided at an outer surface of the refrigerant pipe and are spaced from each other; and a plurality of carbon nanotube heating elements that are electrically connected to the plurality of electrodes, are heated by an applied power, and are disposed to be spaced from each other. | ||||||
| 51 | FOOD STEAMER CONTAINERS WITH SEQUENTIAL OHMIC WATER HEATING | EP09845041.4 | 2009-08-13 | EP2429351A1 | 2012-03-21 | COLBURN, Michael; BOGNER, Stephen; MCCORMICK, Gavin |
| A liquid heating system includes an electric current controller, a first container, and a second container. The first container includes a first liquid and a first electric heating system. The second container includes a second liquid and a second electric heating system. The electric current controller is connected to the first electric heating system and to the second electric heating system. The electric current controller is configured to automatically alternate between providing electric current to the first electric heating system and to the second electric heating system such that when the electric current controller is providing the current to the first electric heating system the electric current controller provides no electric current to the second electric heating system and when the electric current controller is providing the current to the second electric heating system the electric current controller provides no electric current to the first electric heating system. | ||||||
| 52 | ELECTRODE BOILER WITH ELECTRODES UNIT | EP12889526.5 | 2012-12-05 | EP2929242B1 | 2018-10-24 | ILIN, Andrey, Pavlovich |
| The invention relates to heat engineering, power engineering and the field of electric heating of liquids, water for instance; it can be used in circulation water heating systems and hot water supply, and as a universal device for diverse electric heaters. An object of the invention are to enhance the ease of fabrication, fabricability, and operability for block electrodes and electrode heating boilers on the whole, to increase the reliability of device both in static and dynamic modes ones. The invention meets an object of extended performance capabilities, versatility and flexibility of the device, potential diversification and enhancement of adaptability in solving particular problems. Moreover, the invention allows improvement of convection in water heating boilers and reduction of uniformity of sludge and rust deposition on electrodes thus increasing the heater effective performance time. The invention object comprises an improvement of protection against breakdowns between the electrodes as well, phase current load imbalance reduction, electrode protection against non-uniform deformation during operation in dynamic conditions. It is also an object of the invention to extend i the range of constructional capacity control without design and dimensional changes. FIG. 2 provides a schematic of electrodes (1) arrangement on the basis (3) located on the inner case (2) side with electrodes (1) slightly deviating from the longitudinal symmetric axis of the case (2) and irregularly spaced on the basis, electrode longitudinal axes deviating from each other at small angles. (4)—outer electrode terminals (1). | ||||||
| 53 | REFRIGERANT HEATING DEVICE | EP09841277.8 | 2009-05-04 | EP2287546B1 | 2018-08-15 | LEE, Sang-Hun; SEO, Beom-Soo |
| The embodiment relates to a refrigerant heating apparatus. The refrigerant heating apparatus includes: a refrigerant pipe in which a refrigerant flows; and a heating unit that is provided on an outer surface of the refrigerant pipe, wherein the heating unit includes: a plurality of electrodes that are provided at an outer surface of the refrigerant pipe and are spaced from each other; and a plurality of carbon nanotube heating elements that are electrically connected to the plurality of electrodes, are heated by an applied power, and are disposed to be spaced from each other. | ||||||
| 54 | PROCÉDÉ D'INHIBITION DU DÉVELOPPEMENT DE MICROORGANISMES | EP16730457.5 | 2016-05-26 | EP3303225A1 | 2018-04-11 | XAVIER, Pascal; ANGELIDIS, Jean; CHAMBEROD, Eric; RAULY, Dominique; MARTINS, Jean; VINCE, Erwann; BELBACHIR, Hakima; PAIN, Xavier |
| The invention relates to a device and a process for inhibiting the development of microorganisms, such as bacteria, in a medium, and in particular a liquid medium. More specifically, the process comprises the application of a voltage to the liquid medium, the frequency of said voltage varying, in a lower time interval, between a minimum frequency and a maximum frequency, it being possible for the maximum frequency to be at least two times or at least ten times higher than the minimum frequency. | ||||||
| 55 | PLASTIC HOT WATER BOILER | EP13898075 | 2013-11-29 | EP3074700A4 | 2018-04-04 | ILIN ANDREY PAVLOVICH |
| Combustion engineering, fluid heating, for example, water heating, using electricity to generate steam. The body of the device has of two identical halves—the upper and the lower. The material of the body is heat-resistant polymer containing one or more isotopes according to the general variant of body implementation. Each half of the body is made identical to the other half and has an elliptical cross-section. | ||||||
| 56 | LIQUID HEATING APPLIANCES | EP15774945.8 | 2015-07-28 | EP3194860A2 | 2017-07-26 | Cave, Piers St. John Spencer Galliard |
| A liquid heating appliance for heating water or other liquids, suitably to a target temperature of from 55° C. to around boiling point, includes a primary heat chamber or body (heat source chamber) that is thermally insulated and which in use contains a high thermal density heat storing liquid or solid; and a secondary chamber alongside the primary chamber through which a liquid to be heated is passed in use. The appliance has a heat transfer feature to selectively transfer thermal energy from the heat-storing liquid or solid to the liquid to be heated in the secondary chamber. The secondary chamber is preferably a conduit through which the liquid to be heated is able to flow and the thus heated liquid can be delivered to a tap as hot water for a range of uses. Water may also be heated for a central heating system for space heating. | ||||||
| 57 | PLASTIC HOT WATER BOILER | EP13898075.0 | 2013-11-29 | EP3074700A1 | 2016-10-05 | ILIN, Andrey, Pavlovich |
| Combustion engineering, fluid heating, for example, water heating, using electricity to generate steam. The body of the device has of two identical halves—the upper and the lower. The material of the body is heat-resistant polymer containing one or more isotopes according to the general variant of body implementation. Each half of the body is made identical to the other half and has an elliptical cross-section. | ||||||
| 58 | ELECTRODE BOILER WITH ELECTRODES UNIT | EP12889526 | 2012-12-05 | EP2929242A4 | 2016-07-20 | ILIN ANDREY PAVLOVICH |
| The invention relates to heat engineering, power engineering and the field of electric heating of liquids, water for instance; it can be used in circulation water heating systems and hot water supply, and as a universal device for diverse electric heaters. An object of the invention are to enhance the ease of fabrication, fabricability, and operability for block electrodes and electrode heating boilers on the whole, to increase the reliability of device both in static and dynamic modes ones. The invention meets an object of extended performance capabilities, versatility and flexibility of the device, potential diversification and enhancement of adaptability in solving particular problems. Moreover, the invention allows improvement of convection in water heating boilers and reduction of uniformity of sludge and rust deposition on electrodes thus increasing the heater effective performance time. The invention object comprises an improvement of protection against breakdowns between the electrodes as well, phase current load imbalance reduction, electrode protection against non-uniform deformation during operation in dynamic conditions. It is also an object of the invention to extend i the range of constructional capacity control without design and dimensional changes. FIG. 2 provides a schematic of electrodes (1) arrangement on the basis (3) located on the inner case (2) side with electrodes (1) slightly deviating from the longitudinal symmetric axis of the case (2) and irregularly spaced on the basis, electrode longitudinal axes deviating from each other at small angles. (4)—outer electrode terminals (1). | ||||||
| 59 | ELECTRODE BOILER WITH ELECTRODES UNIT | EP12889526.5 | 2012-12-05 | EP2929242A1 | 2015-10-14 | ILIN, Andrey, Pavlovich |
| The invention relates to heat engineering, power engineering and the field of electric heating of liquids, water for instance; it can be used in circulation water heating systems and hot water supply, and as a universal device for diverse electric heaters. An object of the invention are to enhance the ease of fabrication, fabricability, and operability for block electrodes and electrode heating boilers on the whole, to increase the reliability of device both in static and dynamic modes ones. The invention meets an object of extended performance capabilities, versatility and flexibility of the device, potential diversification and enhancement of adaptability in solving particular problems. Moreover, the invention allows improvement of convection in water heating boilers and reduction of uniformity of sludge and rust deposition on electrodes thus increasing the heater effective performance time. The invention object comprises an improvement of protection against breakdowns between the electrodes as well, phase current load imbalance reduction, electrode protection against non-uniform deformation during operation in dynamic conditions. It is also an object of the invention to extend i the range of constructional capacity control without design and dimensional changes. Fig.2 provides a schematic of electrodes (1) arrangement on the basis (3) located on the inner case (2) side with electrodes (1) slightly deviating from the longitudinal symmetric axis of the case (2) and irregularly spaced on the basis, electrode longitudinal axes deviating from each other at small angles. (4) - outer electrode terminals (1). | ||||||
| 60 | FOOD STEAMER CONTAINERS WITH SEQUENTIAL OHMIC WATER HEATING | EP09845041 | 2009-08-13 | EP2429351A4 | 2014-04-30 | COLBURN MICHAEL; BOGNER STEPHEN; MCCORMICK GAVIN |
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