| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 电流控制方式的电极锅炉 | CN201610160773.5 | 2016-03-22 | CN107218718A | 2017-09-29 | 闵成镐; 康民荣 |
| 本发明涉及电流控制方式的电极锅炉。该电流控制方式的电极锅炉是用石化的水作为电解质溶液,为将水管内的水加热,排列电极棒及温水泵,使水从进水管进入,从排水管排出,形成循环,具备这种构造的小型可实施电流控制方式电极锅炉,在水管内部排列多数电极棒,从外部各电热管调节电极棒的面积,来改变电阻,从而控制电流消耗。本发明提供的电流控制方式的电极锅炉,水管内部排列的电极棒可调节,控制各电极棒面积的增减来调节电阻,具有设备费用不增加,设备体积不增大,可以准确简单的控制电流的优点。 | ||||||
| 2 | 分离式虹吸加热装置 | CN201710016861.2 | 2017-01-10 | CN106766136A | 2017-05-31 | 许建忠 |
| 本发明提出一种分离式虹吸加热装置,包括虹吸加热容器和储液容器;所述储液容器用以盛装液体;所述虹吸加热容器上设有低位液孔;所述虹吸加热容器与所述储液容器可分离地设置,且所述虹吸加热容器的低位液孔与所述储液容器内的液体直接接触;所述虹吸加热容器直接通过所述低位液孔通入所述储液容器中的液体至内;所述虹吸加热容器内设有用以加热进入的液体的加热元件;所述虹吸加热容器上还设有高于液面的高位汽孔,所述虹吸加热容器内的液体蒸发并从所述高位汽孔出去;或,所述虹吸加热容器上还设有低于液面的中位液孔,所述虹吸加热容器内的液体通过所述中位液孔引出至外。虹吸加热容器和储液容器之间可分离,且便于分合等。 | ||||||
| 3 | 具有电极单元的电极锅炉 | CN201280077451.4 | 2012-12-05 | CN104822988B | 2016-10-26 | A·P·伊林 |
| 本发明涉及热能工程、动力工程以及液体例如水的电加热领域;它能够用于循环水加热系统和热水供应,以及用作多种电加热器的通用装置。本发明的目的是提高用于模块电极和整个电极加热锅炉的制造的容易性、可制造性和可操作性,提高装置在静态和动态模式中的可靠性。本发明满足装置的延长性能能力、通用性和灵活性、潜在多样性和提高解决特殊问题的适应性的目的。而且,本发明能够提高水加热锅炉中的对流以及降低游渣和铁锈在电极上沉积的均匀性,因此提高加热器有效性能时间。本发明的目的还包括在动态操作过程中提高防止在电极之间的断路、降低相电流负载的不平衡以及防止电极的非均匀变形。本发明的目的还在于在不进行设计和尺寸变化的情况下扩展结构布置能力控制的范围。图2提供了布置在基部(3)上的电极(1)的示意图,该基部(3)布置在壳体(2)内侧,且电极(1)稍微偏离壳体(2)的纵向对称轴线,且在基部上不规则地间隔开,电极纵向轴线彼此偏离较小角度,外部电极端子(4)。 | ||||||
| 4 | 电极式热水及蒸汽锅炉系统 | CN201510983180.4 | 2015-12-24 | CN105571119A | 2016-05-11 | 金仁镐 |
| 本发明涉及一种电极式热水及蒸汽锅炉系统,其包括:电极锅炉;蓄热罐,其与所述电极锅炉连接,并储存由所述电极锅炉加热的热水;热水及蒸汽锅炉,其包括热水排出管线和蒸汽排出管线,所述热水排出管线使得热水排出,所述蒸汽排出管线位于所述热水排出管线的上部并使得蒸汽排出,且热水及蒸汽锅炉部分设置于所述蓄热罐内,从而通过所述蓄热罐进行保温;热交换管子,其设置于所述热水及蒸汽锅炉内;热水循环管线,其与所述蓄热罐、所述热交换管子连接;以及用于循环热水的泵,其设置于所述热水循环管线,且抽送水以便使所述蓄热罐的水向所述热水及蒸汽锅炉的热交换管子强制循环。 | ||||||
| 5 | 制冷剂加热设备及其制造方法 | CN200980112888.5 | 2009-05-04 | CN101999062B | 2013-11-20 | 李相宪; 徐范珠 |
| 本发明涉及一种制冷剂加热设备。该制冷剂加热设备包括制冷剂在其中流动的制冷剂管以及设置在制冷剂管的外表面上的加热单元,其中,所述加热单元包括:多个电极,所述电极设置在制冷剂管的外表面上并相互间隔开;以及多个碳纳米管加热元件,所述碳纳米管加热元件电连接到多个电极,由供给的电力加热,并被相互间隔开地设置。 | ||||||
| 6 | 制冷剂加热设备及其制造方法 | CN200980112888.5 | 2009-05-04 | CN101999062A | 2011-03-30 | 李相宪; 徐范珠 |
| 本发明涉及一种制冷剂加热设备。该制冷剂加热设备包括制冷剂在其中流动的制冷剂管以及设置在制冷剂管的外表面上的加热单元,其中,所述加热单元包括:多个电极,所述电极设置在制冷剂管的外表面上并相互间隔开;以及多个碳纳米管加热元件,所述碳纳米管加热元件电连接到多个电极,由供给的电力加热,并被相互间隔开地设置。 | ||||||
| 7 | 具有顺序欧姆水加热的食物蒸锅容器 | CN200980159101.0 | 2009-08-13 | CN102438487B | 2015-09-09 | 迈克尔·科尔伯恩; 史蒂芬·博格讷; 加文·麦考密克 |
| 一种液体加热系统,包括电流控制器、第一容器和第二容器。第一容器包括第一液体和第一电加热系统。第二容器包括第二液体和第二电加热系统。电流控制器被连接至第一电加热系统并被连接至第二电加热系统。电流控制器被配置为在提供电流至第一电加热系统和提供电流至第二电加热系统之间自动交替,使得当电流控制器提供电流至第一电加热系统时,该电流控制器不提供电流至第二电加热系统,并且当电流控制器提供电流至第二电加热系统时,该电流控制器不提供电流至第一电加热系统。 | ||||||
| 8 | 具有电极单元的电极锅炉 | CN201280077451.4 | 2012-12-05 | CN104822988A | 2015-08-05 | A·P·伊林 |
| 本发明涉及热能工程、动力工程以及液体例如水的电加热领域;它能够用于循环水加热系统和热水供应,以及用作多种电加热器的通用装置。本发明的目的是提高用于模块电极和整个电极加热锅炉的制造的容易性、可制造性和可操作性,提高装置在静态和动态模式中的可靠性。本发明满足装置的延长性能能力、通用性和灵活性、潜在多样性和提高解决特殊问题的适应性的目的。而且,本发明能够提高水加热锅炉中的对流以及降低游渣和铁锈在电极上沉积的均匀性,因此提高加热器有效性能时间。本发明的目的还包括在动态操作过程中提高防止在电极之间的断路、降低相电流负载的不平衡以及防止电极的非均匀变形。本发明的目的还在于在不进行设计和尺寸变化的情况下扩展结构布置能力控制的范围。图2提供了布置在基部(3)上的电极(1)的示意图,该基部(3)布置在壳体(2)内侧,且电极(1)稍微偏离壳体(2)的纵向对称轴线,且在基部上不规则地间隔开,电极纵向轴线彼此偏离较小角度,外部电极端子(4)。 | ||||||
| 9 | 具有顺序欧姆水加热的食物蒸锅容器 | CN200980159101.0 | 2009-08-13 | CN102438487A | 2012-05-02 | 迈克尔·科尔伯恩; 史蒂芬·博格讷; 加文·麦考密克 |
| 一种液体加热系统,包括电流控制器、第一容器和第二容器。第一容器包括第一液体和第一电加热系统。第二容器包括第二液体和第二电加热系统。电流控制器被连接至第一电加热系统并被连接至第二电加热系统。电流控制器被配置为在提供电流至第一电加热系统和提供电流至第二电加热系统之间自动交替,使得当电流控制器提供电流至第一电加热系统时,该电流控制器不提供电流至第二电加热系统,并且当电流控制器提供电流至第二电加热系统时,该电流控制器不提供电流至第一电加热系统。 | ||||||
| 10 | 取暖墙 | CN200910108045.X | 2009-06-09 | CN101922755A | 2010-12-22 | 姜开利; 刘亮; 冯辰; 潜力; 范守善 |
| 本发明涉及一种取暖墙,其包括一墙体、至少一第一电极、至少一第二电极及一热致发声元件。所述墙体具有一表面,所述第一电极、第二电极及热致发声元件设置在所述墙体表面。所述第一电极及第二电极相互间隔且与所述热致发声元件电连接。所述取暖墙在接收到一音频信号时,直接驱动所述热致发声元件即可同时实现发声和发热功能。所述取暖墙的发热与发声功能只由所述热致发声元件完成,无需另外设置扬声器,使该取暖墙结构更简单,布置与维护也比较方便。 | ||||||
| 11 | 用于产生热量的加热器设备和相关的方法 | CN200880119722.1 | 2008-10-10 | CN101889472A | 2010-11-17 | N·H·诺亚; D·A·博伊德; R·M·考克斯 |
| 用于产生热量的方法,包括在连接到交流电源的电极之间传递流体。流体必须具有充分的电解质或溶解矿物质含量以便被有效地加热。优选情况下,施加于电极的电流强度是受监视和控制的。在流体内以及在电极的表面上发生发热电化学反应。更具体而言,电极由包括可以被氧化的材料组成,而在加热器的操作期间的氧化过程提供对流体进行加热的附加的电流。 | ||||||
| 12 | Heating system having plasma heat exchanger | US13671460 | 2012-11-07 | US09322571B2 | 2016-04-26 | Chris Lee |
| Systems and methods for heating a fluid are disclosed. In certain embodiments, plasma is generated and passed through a conduit. A fluid to be heated can be passed over the conduit, thereby inducing a heat transfer from the plasma to the fluid. In certain embodiments, multiple plasma generators and corresponding conduits are provided and the conduits are positioned within a housing, facilitating a more effective heat transfer. In some embodiments, the plasma generator includes an outer shell, an anode, a cathode, and insulating elements, and generates plasma by passing a gas through an electric arc created between the anode and the cathode. | ||||||
| 13 | Water heater | US13583228 | 2011-03-08 | US08649670B2 | 2014-02-11 | Yijian Lu; Jinhe Lu |
| A water heater comprises an inner container (1) and an outer container (2). An upper part of the inner container (1) is connected with an insulating water inlet pipe (3) which communicates with a cavity of the inner container (1); the outer container (2) is provided to encase the inner container (1) and it is axially movable relative to the inner container (1); two different heating electrodes (4) are connected with one end of the inner container (1) and one end of the outer container (2) respectively; water outlet holes (5) are provided on the inner container (1) and the outer container (2). As a result, the insulating water inlet pipe forms a hot water supply circuit in a sandwiched layer between the inner and the outer containers. By adjusting the spaces between the inner and the outer containers to regulate electrical current, water temperature control is achieved. | ||||||
| 14 | Food Steamer Containers with Sequential Ohmic Water Heating | US12542604 | 2009-08-17 | US20120061378A1 | 2012-03-15 | Michael George Colburn; Stephen John Bogner; Gavin McCormick |
| 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. | ||||||
| 15 | Liquid Heating Appliance | US15500311 | 2015-07-28 | US20170306798A1 | 2017-10-26 | Piers St John Spencer Cave |
| 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. | ||||||
| 16 | Apparatus and method for the ohmic heating of a particulate liquid | US14403153 | 2013-05-22 | US09736889B2 | 2017-08-15 | Yoram Zack |
| An electrode for the ohmic heating of a particulate liquid flowing therethrough having an inlet and an outlet 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 for the ohmic heating of a particulate liquid flowing therethrough may have two such electrodes and a dielectric tube that fluidly connects the two electrodes. An apparatus for the ohmic heating of a particulate liquid flowing therethrough may have 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. | ||||||
| 17 | ELECTRODE BOILER WITH ELECTRODES UNIT | US14650213 | 2012-12-05 | US20150316253A1 | 2015-11-05 | Andrey Pavlovich Ilin |
| 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). | ||||||
| 18 | Room heating device capable of simultaneously producing sound waves | US12758117 | 2010-04-12 | US08905320B2 | 2014-12-09 | Kai-Li Jiang; Liang Liu; Chen Feng; Li Qian; Shou-Shan Fan |
| A room heating device includes a supporting body, a thermoacoustic element, a first electrode and a second electrode. The thermoacoustic element is disposed on the supporting body. The first electrode and the second electrode are connected to the thermoacoustic element. The first electrode is spaced apart from the second electrode. | ||||||
| 19 | Food steamer containers with sequential ohmic water heating | US12542604 | 2009-08-17 | US08525081B2 | 2013-09-03 | Michael George Colburn; Stephen John Bogner; Gavin McCormick |
| 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. | ||||||
| 20 | REFRIGERANT HEATING APPARATUS AND METHOD FOR MANUFACTURING THE SAME | US12992431 | 2009-05-04 | US20110069942A1 | 2011-03-24 | Sanghun LEE; Beomsoo Seo |
| 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. | ||||||
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