| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | HEATER DEVICE AND RELATED METHOD FOR GENERATING HEAT | EP08838394 | 2008-10-10 | EP2215888A4 | 2014-01-22 | NOE NATHAN H; BOYD DAVID A; COX RICHARD M |
| 62 | HEATER DEVICE AND RELATED METHOD FOR GENERATING HEAT | EP08838394.8 | 2008-10-10 | EP2215888A1 | 2010-08-11 | NOE, Nathan, H.; BOYD, David, A.; COX, Richard, M. |
| A method for generating heat includes passing a liquid between electrodes connected to an alternating current power supply. The liquid must have a sufficient level of electrolytes or dissolved minerals so as to be effectively heated. The level of current applied to the electrodes is preferably monitored and controlled. Exothermic, electrochemical reactions occur within the liquid and at the surface of the electrodes. More particularly, the electrodes are comprised of a material that can be oxidized, and the oxidation process during operation of the heater supplies additional current to heat the liquid. | ||||||
| 63 | LIQUID HEATING APPLIANCES | PCT/GB2015000220 | 2015-07-28 | WO2016016600A2 | 2016-02-04 | CAVE PIERS ST JOHN SPENCER |
| The present invention provides a liquid heating appliance for heating water or other liquids, suitably to a target temperature of from 55°C to around boiling point, and which comprises: 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 having 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. | ||||||
| 64 | ELECTRODE BOILER | PCT/EP2010004424 | 2010-07-20 | WO2011009589A2 | 2011-01-27 | SCHNEIDER HELMUT |
| To improve an electrode boiler (10) for generating heat, having a housing (11) arranged in a heating circuit, having at least one feed (13a, b) and a discharge (14a, b) for a fluid heat exchange medium and an ionization chamber (16) arranged in the housing (11), comprising a wall (26) formed as an electrode and an ionizing rod (19) arranged within the wall (26) for ionizing the heat exchange medium as it flows through the housing (11), the housing (11) being formed completely or to a large extent from non-conductive material, in particular from a thermoplastic or thermosetting plastic, preferably PTFE, the invention proposes that a passage duct for liquid, in particular for drinking water, be provided between the surface (29) of the wall (26) that faces the housing (11) and the housing inner wall (28). | ||||||
| 65 | 보일러 | KR1020160089228 | 2016-07-14 | KR1020160091853A | 2016-08-03 | 김인수; 김상현 |
| 본발명은보일러에관한것으로, 더욱상세하게는제1 난방수유입구와제1 난방수배출구가형성된보일러케이스가포함되고, 보일러케이스가벽체에설치되는보일러에있어서, 제1 난방수유입구와연결된제2 난방수유입구와, 제2 난방수배출구가형성된수조를보일러케이스내부의상부에설치하고, 수조에콘트롤러를설치하며, 콘트롤러에제어되며제2 난방수배출구와연결된제3 난방수유입구와, 제3 난방수배출구가형성된순환펌프를보일러케이스내부의하부에설치하고, 콘트롤러에제어되며, 제3 난방수배출구와연결된제4 난방수유입구와, 제1 난방수배출구와연결된제4 난방수배출구가형성된난방수가열기를, 제4 난방수유입구가아래쪽에위치되고제4 난방수배출구가위쪽에위치되도록보일러케이스내부의하부에설치하며, 난방수가열기는상호결합되는하우징및 커버와, 상호결합되는하우징과커버내부에설치되고, 콘트롤러와양극(+)과음극(-)으로번갈아가며각각연결되는전극봉이각각구비된다수개의사각흑연발열체를포함하고, 하우징과커버는사각통형상으로길이방향으로길이가길고, 한쪽이개방되어제1,2내부공간이형성되며, 다수개의사각흑연발열체가길이방향을따라끼워지도록제1,2내부공간의양쪽내면에다수개의제1,2끼움단이형성되며, 다수개제1,2끼움단에끼워지는다수개의사각흑연발열체사이의제1,2내부공간으로난방수가이동할수 있도록사각흑연발열체보다폭이큰 제1,2가이드홈이서로마주보는제1,2내부공간의내면에길이방향을따라지그재그형태로형성되고, 하우징은양단에각각제1내부공간과통하는제4 난방수유입구와제4 난방수배출구가형성되며, 커버는외부로노출되도록각 전극봉의한쪽이끼워지는다수개의제1끼움구멍이형성되고, 난방수가제1,2가이드홈및 각사각흑연발열체사이의제1,2내부공간을따라난방수가열기의아래쪽에서위쪽으로안내되는것을특징으로하는보일러에관한것이다. | ||||||
| 66 | 냉매가열장치 및 그의 제작방법 | KR1020090038884 | 2009-05-04 | KR101617447B1 | 2016-05-02 | 이상헌; 서범수 |
| 본실시예는냉매가열장치에관한것이다. 상기냉매가열장치에는, 냉매가유동되는냉매파이프; 및상기냉매파이프의외면에구비되는가열유닛이포함되고, 상기가열유닛에는, 상기냉매파이프의외면에구비되며, 서로이격되는복수의전극; 및상기복수의전극에전기적으로연결되어공급되는전원에의해서발열하며, 서로이격되어배치되는다수의탄소나노튜브발열체가포함된다. | ||||||
| 67 | 이온전극 열원장치를 이용한 난방장치 | KR1020130012332 | 2013-02-04 | KR1020140099656A | 2014-08-13 | 이호찬 |
| The present invention relates to a heating apparatus using an ion electrode heat source unit, wherein the heating apparatus realized by the ion electrode heat source unit is capable of largely reducing time to allow the temperature of heating water to reach an effective temperature when the heating apparatus is initially operated, thereby improving the efficiency of the heating apparatus, reducing power consumption in the heating apparatus, and easily miniaturizing and moving the heating apparatus. According to the present invention for the above effects, a heating apparatus using an ion electrode heat source unit comprises: the ion electrode heat source unit including at least one first electrode connected to the line terminal of a power supply, a second electrode connected to the neutral terminal of the power source, and a main body filled with heating water; a pipe connected to the ion electrode heat source unit, and allowing the heating water filling the main body to be circulated therein; a circulation pump installed on the pipe, and forcibly circulating the heating water; a radiator formed on one side of the pipe, and performing a heating function; a blowing motor blowing air to the radiator in order to dissipate heat from the radiator to the outside; and a control part controlling the ion electrode heat source unit, the circulation pump, and the blowing motor, wherein the ion electrode heat source unit heats the heating water filling the main body insulated from the first and the second electrode electrically and sealed to be airtight, and the control part operates only the ion electrode heat source unit and the circulation pump until the temperature of the heating water reaches a preheating completion temperature and stops the operation of the blowing motor when the temperature of the heating water is lower than the preheating completion temperature in the case of the initial operation of the heating apparatus. | ||||||
| 68 | 이온전극 열원장치를 이용한 난방시스템 | KR1020130012333 | 2013-02-04 | KR101408694B1 | 2014-06-17 | 이호찬 |
| The present invention relates to a heating system using an ion electrode type heating device, capable of improving heating efficiency and operating a heating system using the ion electrode type heating device. the heating system includes an ion electrode heating device; a pipe circulating heating water by comprising a water discharge pipe, a first manifold, a collecting pipe, and a second manifold; first and second solenoid valves individually installed in the first and second manifolds; a first temperature sensor sensing the temperature of the heating water in the water discharge pipe; a second temperature sensor; a circulation pump; a heat exchanger performing a heating function by being formed in the second manifold; and a control unit controlling the ion electrode heating device, the first and second solenoid valve, and the circulation pump. | ||||||
| 69 | 온수기 | KR1020127026452 | 2011-03-08 | KR1020120135315A | 2012-12-12 | 루,이지안; 루,진헤 |
| 일종의 온수기로서, 하나의 내측 슬리브(1)와 하나의 외측 슬리브(2)를 포함한다. 내측 슬리브(1) 상부에 내측 슬리브(1)의 내부 챔버로 연통되는 절연 급수관(3)이 연결되고, 외측 슬리브(2)는 상기 내측 슬리브(1)의 바깥 둘레를 감싸면서 내측 슬리브에 대하여 축방향으로 이동 가능하며, 내측 슬리브(1)와 외측 슬리브(2)의 일단부에 각각 다른 가열 전극(4)이 연결되고, 내측 슬리브(1)와 외측 슬리브(2)에 각각 출수공(5)이 설치되어, 내외측 슬리브 사이의 중간층 내에 하나의 온수 공급 회로를 형성한다. 내외측 슬리브 사이의 간격을 조절하여 전류를 조절함으로써 수온을 제어한다. 상기 온수기는 구조가 간단하고, 부피가 작고 가벼우며, 생산 원가가 낮을 뿐만 아니라, 신속하게 수온을 조절할 수 있고 에너지를 절약할 수 있다.
|
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| 70 | 발열 보일러 | KR1020080006016 | 2008-01-21 | KR1020090080178A | 2009-07-24 | 김춘환 |
| A heating boiler is provided to offer environmentally-friendly effects by using electricity, and to offer excellent heating efficiency for a short time conveniently and efficiently. A heating boiler(10) includes a sealing outer body(100), an inner body(150), a heating unit installation unit(300), a heating unit(400), a coil pipe(200), and a heating transfer medium(500). The inner body is installed at the inside of the outer body, and forms a vacuum chamber(154). The installation unit is formed on the vacuum chamber. The heating unit is mounted on the heating unit installation unit. The coil pipe is winded on an outer circumference of the inner body. The heating transfer medium is included in the vacuum chamber. | ||||||
| 71 | 热水器 | CN201020127603.5 | 2010-03-10 | CN201607000U | 2010-10-13 | 卢奕坚; 卢金河 |
| 本实用新型涉及一种热水器,包括一内套体和外套体,其特征在于:所述内套体上部连接有一通往内套体内腔的绝缘进水管,所述内套体外设置有包覆其外围并可相对内套体轴向位移的外套体,所述内套体和外套体的一端部分别连接有不同的加热电极,所述内套体和外套体分别设有出水孔,以使进水管在内外套夹层之间形成热水供水回路,通过调节内外套体之间的间隙来调节电流,达到控制水温的效果,不仅结构简单、体积小巧轻便、生产成本低,而且可实现水温的快速调节,节约能源。 | ||||||
| 72 | 一种新型电热膜加热管 | CN01259071.1 | 2001-09-14 | CN2506929Y | 2002-08-21 | 吴聚元; 康秀荣 |
| 一种新型电热膜加热管,由金属传热管(1),瓷釉绝缘层(2),电热膜(3),电极(4),铜环电极(5)组成,其中,金属传热管(1)外表面覆以工业瓷釉绝缘层(2),瓷釉绝缘层(2)上再覆以电热膜(3),在电热膜(3)端部上设置电极(4),并在其上箍以铜环电极(5)。本实用新型热效率高,结构简单,造价低,使用安全可靠,维护修理简易。 | ||||||
| 73 | 전기분해를 이용한 보일러 시스템 | KR1020170086937 | 2017-07-10 | KR101834965B1 | 2018-03-06 | 김병태; 문기준 |
| 본발명의특징에따르면, 물이저장되는수밀한내부공간(111)이형성되고, 내부에서가열된물을순환공급하기위한가열수배출구(112) 및냉수회수구(113)가각각마련된가열챔버(110); +극의구동전원이인가되는양전극부(125)와 -극의구동전원이인가되는음전극부(126)를포함하며, 상기양전극부(125)와음전극부(126)가물에잠기도록상기가열챔버(110)에관통삽입되어인가되는구동전원에따라물을전기분해하며고열을발생시키는전극가열체(120); 상기가열수배출구(112)에연결되어배출되는가열수를난방배관(182)이나온수용열교환기(150) 측으로이송하는가열수이송관(131); 및상기전극가열체(120)에인가되는구동전원을전류제어하여가열온도를조절하는제어모듈(140);을포함하는전기분해를이용한보일러시스템이제공된다. | ||||||
| 74 | 플라스틱 온수 보일러 | KR1020167008513 | 2013-11-29 | KR1020160067105A | 2016-06-13 | 일린안드레이파블로비치 |
| 본발명은증기를생성하기위해전기를사용하여유체가열, 예를들어물을가열하는연소공학에관한것이다. 변형예 1에의하면, 장치의본체(1)는두 개의동일한절반부- 상부절반부(2) 및하부절반부(3)로구성된다 (도 20). 본체(1)의재료는본체구현의일반적인변형예에따르면, 하나이상의동위원소를함유하는내열성중합체이다. 본체(1)의각각의절반부는나머지절반부와동일하게만들어지고타원형단면을가지고있다. | ||||||
| 75 | 하이브리드 전기보일러 장치 및 그에 적합한 가열부 장치 | KR1020140096407 | 2014-07-29 | KR101591917B1 | 2016-02-04 | 김기성 |
| 본발명은, 급속가열이가능한보일러를제공하는것이며, 더욱이, 전기로물을빠른시간내에가열하는보일러이면서도, 물속에다수의전극봉을넣어전기저항으로발열시킴과동시에유도코일의자기유도가열방식을이용한발열을행하는회로의직렬연결로서, 고주파유도방식과전극봉방식을겸한고 효율의순간가열이가능한하이브리드방식이다. 이를위한본 발명의하이브리드전기보일러가열부장치는, 상기전기보일러가열부장치내에서순환되는물 속에전기를통전시켜주는제1 전극봉(5) 및제2 전극봉(6); 순환되는물 속에고주파자기유도를발생시키는코일(4); 상기순환되는물이내부로통수되면서상기코일(4)에의해자기유도된고주파전류가물 속에직접들어올수 있게해주는튜브(8); 상기제1 전극봉과제2 전극봉에전기를인가하여주는인입선(9); 상기제1 전극봉(5), 코일(4) 및제2 전극봉(6)에전압을공급해주는변압기(10); 및상기변압기(10)에고주파전압을인가하여주는고주파인가부(11); 를포함하며, 상기제1 전극봉(5) 및제2 전극봉(6)에의한전기저항가열방식의제1 발열회로과상기코일(4)에의한자기유도가열방식의제2 발열회로를직렬로연결한것을특징으로한다. | ||||||
| 76 | 2중 전극을 갖는 히트파이프 열교환기 및 이를 이용한 전기 보일러 | KR1020130111075 | 2013-09-16 | KR101454558B1 | 2014-10-23 | 신희섭 |
| The present invention relates to a heat pipe type heat exchanger using a dual-electrode as a power source, by which a coolant is easily heated by generating a magnetic field so that a molecular structure of water is split, thereby improving the heat exchange efficiency with small energy, and an electric boiler using the same. The heat pipe type heat exchanger includes a heat exchange chamber having a heat pipe for transferring heat as latent heat generated when a working fluid introduced in a metal chamber of a vacuum state is easily phase-changed to vapor under a low pressure condition; heat exchange pipes penetrating the heat exchange chamber; a channel connecting chamber for connecting ends of the heat exchanger pipes at upper and lower portions of the heat exchange chamber to form a channel; and an electrode portion installed in the heat exchange pipe and having a cylindrical external electrode, a cylindrical internal electrode installed in the external electrode to be rotated in a coaxial manner, and a permanent magnet installed in the internal electrode in a longitudinal direction of the internal electrode. | ||||||
| 77 | 전기 전극봉 보일러 | KR2020130000018 | 2013-01-02 | KR2020140004245U | 2014-07-10 | 서동완 |
| 본 고안은 전기 전극봉 보일러에 관한 것으로, 이러한 보일러는, 내부에 각각 3개의 전극봉이 배치되고 전해질이 함유된 가열 용기가 2개 이상 서로 직렬 또는 병렬로 연결되어 형성된 가열 용기 부재와, 이 가열 용기 부재의 일단부에 연결되고 상기 전해질의 농도를 조절하는 농도 조절 부재와, 이 농도 조절 부재의 타단부에 연결된 열 교환기와, 이 열교환기와 상기 가열 용기 부재 사이에 장착되는 순환 펌프, 및 상기 열교환기에 연결된 냉온수관에 연결된 온수공급 탱크를 포함하는 것을 특징으로 한다. 본 고안은 상기와 같은 구성에 따라, 가열용기인 가열체를 2개 이상 직렬 또는 병렬로 연결하는 구성을 제공함으로써 단시간에 열효율은 상승하고 공간활용도가 향상되어 상품성을 증대시킬 수 있는 효과가 발생한다.
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| 78 | 보일러 | KR1020130012914 | 2013-02-05 | KR101246289B1 | 2013-03-25 | 김인수; 김상현 |
| PURPOSE: A boiler is provided to prevent the reduction of heat efficiency by pre-heating the unused warm water or by heating water by the use of the self-heated heat when warm water is supplied or heating is implemented. CONSTITUTION: A boiler comprises a warm water tank, a heating water tank(20) and a pre-heating graphite rod(30). The warm water tank has multiple warm water graphite rods(11) installed inside with an identical space from each other in every direction, wherein each warm water graphite rod is installed by being alternately connected to an anode and a cathode. The heating water tank has multiple warm water graphite roads(21) installed inside with an identical space from each other in every direction to wrap around the warm water tank and to heat warm water, wherein each heating water graphite rod is installed by being alternately connected to an anode and a cathode. The preheating graphite rod operates simultaneously with the control action of the warm water graphite rods. The preheating graphite rod is installed inside the heating water tank for the electrodes with different poles to be adjacent to each other. | ||||||
| 79 | 히트 파이프 열교환기를 이용한 전기 보일러 | KR1020110082484 | 2011-08-17 | KR1020130020088A | 2013-02-27 | 신희섭; 윤득남 |
| PURPOSE: A high-efficiency boiler using an electrode and electricity with a heat exchanger structure using a heat pipe is provided to maximize the utilization of heat and thermal efficiency as a heat exchanger itself is functioned as a boiler. CONSTITUTION: A high-efficiency boiler using an electrode and electricity with a heat exchanger structure using a heat pipe(22) comprises four chambers, heat exchange pipes(16,17), and heat supply pipes(20,21). Chambers are formed respectively in the upper and lower parts of an electric boiler. The heat exchange pipes and heat supply pipes are embedded in the middle part of the electric boiler. The middle part itself functions as the heat pipe. The heat exchange pipes and heat supply pipes are respectively connected to the chambers and function as a heat transferring passage so that thermal efficiency can be improved. | ||||||
| 80 | 모노크리스탈실리콘 박막을 이용한 순간 온수기 겸용 보일러 장치 | KR1020090092060 | 2009-09-28 | KR1020110034517A | 2011-04-05 | 신태호 |
| PURPOSE: A boiler system which can be used as an instantaneous water heater using a mono crystal silicone thin film is provided to quickly heat water inside a heat-resistant heat pipe by the formation of a monocrystalline silicon thin film. CONSTITUTION: A boiler system used as an instantaneous water heater using a mono crystal silicone thin film comprises a heater(10). The heater comprises a heat-resistant heat pipe(11), a monocrystalline silicon thin film, silver electrodes, a water supply header(15), and a drain header(16). As monocrystalline silicon is vacuum-deposited on the outer surface of the heat-resistant heat pipe by CVD(Chemical Vapor Deposition). A silver electrode is connected to the middle portion of the monocrystalline silicon thin film at regular intervals and is electrically conducted with the monocrystalline silicon thin film. Two or more heat-resistant heat pipes are arranged in parallel. The water supply header and the drain header are fixed water-tight to the upper and lower portions of the heat-resistant heat pipe. | ||||||
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