| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 전자파를 이용한 보일러 | KR1020140155951 | 2014-11-11 | KR1020160056057A | 2016-05-19 | 정강희 |
| 본발명은마이크로웨이브를이용한보일러에관한것으로, 더욱상세하게는수조의상면또는하면에전자파가조사되는도파관을형성하되, 수면에서전자파가모두흡수될수 있도록형성되고, 조사되는전자파는소멸되어역류하지않음으로써간단하면서도안정성과효율성을높인전자파를이용한보일러에관한것이다. 본발명의전자파를이용한보일러에의하면경사도파관에의해서전자파가진행하면서소멸되면서도수면으로는완전하게흡수되기때문에전자파의역류가거의발생하지않고, 수조에전면적으로전자파를조사하지않고, 수면일부나하부일부에전자파를조사하여물분자를활성화시키기때문에수조전체로물이유동하면서가열되어매우안전하며, 전자파발진기의주변에워터제킷을형성하고, 펌프에의해서수조의물을재순환시킴으로써장치가간단해지고, 전자파발생으로인한에너지의소모를열에너지로회수할수 있는등의효과가발생하는등의효과가발생한다. | ||||||
| 22 | 표준 및 방폭형 제습용 마이크로파 재활성화 시스템 | KR1020137000096 | 2011-05-26 | KR1020140015234A | 2014-02-06 | 카지아노,마리오 |
| 본 발명은 제습 장비에 관한 것으로, 더욱 구체적으로는 위험장소 및/또는 응용에서 이용되는 방폭형 제습 시스템뿐만 아니라 종래의 제습에 이용하기 위한 마이크로파 재활성화 시스템 및 신규한 건조제 제습 시스템 및 건조제 회전자의 재활성화/재생 방법에 관한 것이다. 제습 시스템은 캐비닛 내에 위치된 건조제 회전자 조립체 및 상기 캐비닛 내부에 회전가능하게 장착된 회전자를 포함한다. 건조제 회전자 코어는 제습 유형 물질에 함침된다. 기계식 수단은 캐비닛 내에서 건조제 회전자를 회전시키기 위하여 제공된다. 마이크로파 시스템 및 재활성화 방법은 건조제 회전자에 축적된 수증기의 분위기 내로 방출하기 위하여 제습 유닛의 재활성화 구역에서 요구되는 열 및 온도 상승의 간접적이고 안전한 에너지 효율적인 공급원을 제공하도록 설계되어 있다. 이 마이크로파 재활성화 시스템 및 방법은 폐루프 코일 조립체를 통해서 펌핑되는 가열된 유체로부터 발생된 열 전달에 기초하고 있다. 이 폐루프 코일 조립체는 제습 시스템 내의 재활성화/재생 구역과 마이크로파 구역의 분리된 가열실의 양쪽을 통해서 위치되고 가동된다. 재활성화 흡입구 구역을 통과하는 기류는 코일 조립체에 접촉하여, 건조제 회전자에 도달하기 전에 목적으로 하는 온도로 가열된다. 특정 공간 내에 둘러싸인 제습 방법 및 건조제 회전자 조립체로 구성된 건조제 제습 시스템이 또한 본 문서에 기재되어 있다.
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| 23 | A air cone and heater for microwave | KR20100115310 | 2010-11-17 | KR20120053443A | 2012-05-25 | OM JAE PUNG; BAEK JONG HO; JANG JUNG HOON; LEE DONG YUL |
| PURPOSE: A cooler and a heater using microwaves is provided to improve the efficiency without CO2 by using microwaves instead of compressors and using a check valve and a coolant circulation pump in an inlet of refrigerants. CONSTITUTION: One side of a heating unit(23) of a cooler and a heater using microwaves is connected to an inlet of a heat medium circulation pump with pipe-fittings. An outlet of the heat medium circulation pump(49), a solenoid valve(49), and the other side of T square of installed suction pipes(11) are connected with the pipe-fittings in series. A middle portion of the solenoid valve, the middle portion of the heat medium circulation pump, solenoid valve(55), and the upper side of the heat medium oil tank(57) are connected with the pipe-fittings in series. A part between the heat medium circulation pump and a heating unit, the solenoid valve, and a lower part of the heat medium oil tank are connected in series. | ||||||
| 24 | 히터조립체 및 보일러 | KR1020110011186 | 2011-02-08 | KR101059984B1 | 2011-08-26 | 김동규 |
| PURPOSE: A heater assembly and a boiler are provided to increase the efficiency of the heat radiation by forming a cut groove in the heat radiation blade and multiplying the contact surface of the water. CONSTITUTION: A boiler comprises a water storage tank, a heater module(100), and a fluid activating unit. The water storage comprises an inlet port, a reservoir water space, and an outlet port. The reservoir water space accepts the water flowing from the inlet port. The water of the reservoir water space is exhausted through an outlet port. The heat radiation pipe surrounds the heater. The radiation blade is touched with the outer circumference of the heat radiation pipe and emits the heat delivered from the heater to the heat radiation pipe to the outside. The fluid activating unit activates the molecule of the water of the reservoir water space. | ||||||
| 25 | 나트륨 진공 발열기를 이용한 원적외선 튜브 히터 시스템 | KR1020090023686 | 2009-03-19 | KR1020100104939A | 2010-09-29 | 이상교 |
| PURPOSE: A far infrared heater tube system using a sodium vacuum heater is provided to achieve high heating value with the minimum electricity by continuously circulating a heating medium through the tube. CONSTITUTION: A far infrared heater tube system comprises a sodium vacuum heater, one or more heating tubes(300), a circulation motor(130), a safety valve(140), and a control box(120). The sodium vacuum heater heats a sodium furnace in an electric heater so as to heat a heating medium in the sodium furnace. The heated medium is provided into a heating tube to emit heat outside. The circulation motor circulates the heating medium in the sodium vacuum heater infinitely. When the pressure of the heating medium of the sodium vacuum heater is higher than the set value, the safety valve supplements the heating medium from a sub tank(150) through the circulation motor until the pressure of the heating medium reaches the set value. The control box controls the operations of the electric heater, the circulation motor, and the safety valve. | ||||||
| 26 | 마이크로 웨이브파 온수보일러 | KR1020080087947 | 2008-09-05 | KR1020100028966A | 2010-03-15 | 박동혁 |
| PURPOSE: A hot water boiler of microwave electron wave is provided to improve the efficiency of a boiler by generating friction heat with electromagnetic generating coil and exchanging heat to a water through a heat induction pipe. CONSTITUTION: A microwave hot water boiler includes a hot water tank(1), a heating induction pipe(2), an electromagnetic wave emitting pipe(8), and electromagnetic wave generating coil wire(4). A partition is installed inside the hot water tank to flow a hot water upwardly. The electromagnetic wave generating coil is formed by winging the coil wound tube with a coil. The electromagnetic wave generating tube is inserted within heating induction pipe. The electromagnetic wave generating coil is connected to the output beam of microwave oscillators(6,6'). | ||||||
| 27 | 마이크로파를 이용한 보일러 장치 | KR1020080060857 | 2008-06-26 | KR1020100001084A | 2010-01-06 | 전진주 |
| PURPOSE: A boiler using microwave is provided to heat hot water efficiently by microwave by improving a heat exchanger structure. CONSTITUTION: A boiler using microwave comprises a heat exchanger(20) which heats hot water and magnetron(30) which oscillates microwave. The heat exchanger has a main body(21) and a heating pipe(25). The heating pipe heats hot water by microwave. A gap between an output of the magnetron and the upper end of the main body inside is maintained at a certain interval. A gap between the center of the heating pipe and the bottom end of the main body inside is maintained at a certain interval. | ||||||
| 28 | 복합난방장치 | KR1020050023014 | 2005-03-21 | KR1020060101571A | 2006-09-26 | 김태명 |
| 본 발명은 전자파와 전기히터를 이용한 복합난방장치에 관한 것이며, 좀더 상세하게는 전자파발생기에서 발생된 전자파로 물을 가열함으로써 단시간 내에 온수를 만들 수 있으며, 전자파를 이용하기 때문에 가스보일러를 사용할 때 발생하는 가스 누출로 인한 화재 및 인명사고 등의 위험 요소를 배제시킬 수 있으며, 기름보일러를 사용할 때 발생되는 환경문제와 고가의 원료구입 비용을 절감할 수 있고, 또한, 온수만 사용할 시에는 전기히터로 냉수를 가열시켜 온수를 사용할 수 있게 한 난방장치를 제공하는 것이다. 난방장치, 전자파발생기, 전기히터, 전열관, 수위조절장치 | ||||||
| 29 | 전자파를 이용한 보일러 | KR1020140155984 | 2014-11-11 | KR1020160056431A | 2016-05-20 | 정강희 |
| 본발명은전자파를이용한보일러에관한것으로, 더욱상세하게는수조의내부에쐐기형상의프레임에테프론이감싸져서형성되는매치드로드부가형성되고, 상기매치드로드부에는전자파발진기와연결된도파관이연결되어전자파가조사되어수조내부의물 전체에사면으로전자파가조사됨으로써빠르고안전하게온수를얻을수 있도록한 전자파를이용한보일러에관한것이다. 본발명의전자파를이용한보일러에의하면매치드로드부에의해서전자파의파장에따라서진행되는방향으로높이가낮아지게되므로써수면으로전자파가거의모두흡수되기때문에전자파의역류가거의발생하지않고, 수조에전면적으로전자파를조사하지않고, 수면일부나하부일부에전자파를조사하여물분자를활성화시키기때문에수조전체로물이유동하면서가열되어매우안전하며, 전자파발진기의주변에워터제킷을형성하고, 펌프에의해서수조의물을재순환시킴으로써장치가간단해지고, 전자파발생으로인한에너지의소모를열에너지로회수할수 있는등의효과가발생하는등의효과가발생한다. | ||||||
| 30 | 유전가열식 가열장치 및 이를 이용한 유전가열식 가열방법 | KR1020130128360 | 2013-10-28 | KR1020140007777A | 2014-01-20 | 이한석 |
| The present invention relates to a ceramic heating element composite, dielectric heating apparatus, and dielectric heating method using the same. The dielectric heating method comprises the following steps: packing the ceramic heating element composite with heat resistant fibers; inserting the ceramic heating element composite packed with heat resistant fibers into a heat container of the dielectric heating apparatus; filling the heat container with thermal fluid oil; applying electric power to a magnetron; radiating microwaves to the ceramic heating element composite and heat container and heating the same; and transferring heat generated from the ceramic heating element composite and heat container to the thermal fluid oil. The dielectric heating apparatus mixes graphite with one among silicon carbide, silicon nitride, and polysilicon and use the same as ceramic heating element composite. The dielectric heating apparatus can increase the heating rate since it generates heat from the heat container as well as from the ceramic heating element composite, reduce the generation of hot spot by making the ceramic heating element composite react in the thermal fluid oil, increase the heat storing time, and be used in a heater, fan heater, water heater, and heating apparatus for an electric vehicle. | ||||||
| 31 | 마이크로파를 이용한 보일러 | KR1020110122558 | 2011-11-22 | KR1020130056790A | 2013-05-30 | 정희원; 이영근; 심원보; 서덕동; 유정훈 |
| PURPOSE: A boiler using microwave is provided to maximize energy efficiency by reducing electricity usage over 90% and to easily control and automate by introducing an electrical control system. CONSTITUTION: A boiler comprises a main body(21), a fluid heating unit(22), a fluid inlet(23), and a fluid outlet(24). The fluid heating unit includes a microwave generating unit(25), an inner room(26), a heating unit(27), and a circulating pipe(28). The inner room delivers microwave generated from the microwave generating unit to the heating unit. The heating unit generates heat by receiving the microwave delivered in the inner room. The circulating pipe is positioned inside the heating unit. | ||||||
| 32 | 유전가열식 가열장치 | KR1020110121945 | 2011-11-22 | KR1020130056379A | 2013-05-30 | 이한석 |
| PURPOSE: A dielectric heating device is provided to smoothly flow heat transfer fluid while enlarging area for heat exchanging of the heat transfer fluid and to easily replace a dielectric substance to be suitable for use of a heater. CONSTITUTION: A dielectric heating device comprises a heat exchange chamber(100), a heat exchanger(200), and a magnetron(400). The heat exchanger includes a plurality of heat exchange units forming a layer by arranging in parallel with a gap. The magnetron is installed in the inner surface of the heat exchange chamber to be radiated in the direction in which the heat exchange units pass. A dielectric substance(300) is filled in a space between the heat exchange units and delivers heat of the dielectric substance to heat transfer fluid passing through the inner space. The dielectric substance is dielectric-heated by microwave radiated from the magnetron. | ||||||
| 33 | 신소재 솔라 촉매를 이용한 고주파 고진공 냉난방시스템 | KR1020100097580 | 2010-10-07 | KR1020120035967A | 2012-04-17 | 임성섭 |
| PURPOSE: A high-frequency and high-vacuum air conditioning system using a new solar catalyst is provided to conveniently perform cooling and heating by enabling a user to freely select an upper body for heating and a lower body for cooling. CONSTITUTION: A high-frequency and high-vacuum air conditioning system using a new solar catalyst comprises a heating tank(100) and a cold storage tank(400). The heating tank is composed of upper and lower bodies(100a,100b). The upper and lower bodies are connected to each other. A brazing pipe is embedded in the upper body and is connected to a cold water inlet(130) and a hot water outlet(140). The lower body is filled with a heat medium composition heated by a high-frequency AC heater(200). The cold storage tank receives air exhausted from the lower body of the heating tank. | ||||||
| 34 | AN HOT-WATER AND HEATING ELECTRIC BOILER USING A ULTRASONIC VIBRATOR, MICROWAVE AND CARBON HEATING UNIT | KR20090052867 | 2009-06-15 | KR100932179B1 | 2009-12-16 | KYUNG KI SOO |
| PURPOSE: A hot-water and heating electric boiler using an ultrasonic vibrator, a magnetron wave guide pipe and a carbon heating member is provided to operate with a small capacity of water tank and small electric capacity. CONSTITUTION: A hot-water and heating electric boiler using an ultrasonic vibrator, a magnetron wave guide pipe and a carbon heating member comprises an ultrasonic oscillator(10), a magnetron waveguide(20), and a carbon heating member(30). The ultrasonic oscillator is installed in the inner lower side of an electric boiler(1) and generates air bubbles by controlling the pressure of water. The magnetron waveguide is installed in the inner upper side of the electric boiler and irradiates microwave to the air bubbles so that the water molecules are vibrated or rotated and heat is generated. The carbon heating member is charged in a metal case and irradiates light to the water molecules to increase temperature. The carbon heating member is composed of fiber and activated carbon at the mass ratio of 20:80. | ||||||
| 35 | 마이크로파를 이용한 온수 급가열 장치 및 방법 | KR1020070137169 | 2007-12-26 | KR1020090069485A | 2009-07-01 | 김인석; 백영남; 허유; 주효석 |
| An apparatus and a method for heating water using microwave are provided to prevent the loss of heat generated in a heater and enhance heat exchange effect by surrounding the heater with a casing. An apparatus for heating water using microwave comprises a water feed pipe(100) letting water pass through, a heater which is installed on the outside surface of the water feed pipe and made of a material generating heat by absorbing microwave, a casing(400) that surrounds the heater so as to divide the space in which the heater is arranged from outside, and a microwave generating unit(200) which is fixed to the casing and radiates microwave toward the heater. | ||||||
| 36 | 마이크로파를 이용한 냉각방법 및 그 장치 | KR1019990018792 | 1999-05-25 | KR1020000074682A | 2000-12-15 | 정정규 |
| PURPOSE: A cooling method and system using microwave is provided to reduce electric power consumption and achieve improved cooling efficiency by allowing a magnetron to generate wet steam needed for evaporation. CONSTITUTION: A method comprises the steps of supplying a refrigerant to a heating area; oscillating a magnetron by sensing the refrigerant supplied to the heating area, and heating the refrigerant by the generated microwave to allow the refrigerant to become wet steam state; allowing the wet steam refrigerant generated from the heating area to pass through an evaporator and cooling an object by a latent heat of vaporization caused by a throttling action; recovering to the compressor the refrigerant which is vaporized as passing through the evaporator, and liquefying the refrigerant by pressure while generating pressure difference for evaporator; and supplying again the liquefied refrigerant to the heating area. | ||||||
| 37 | 태양전지와 마그네트론을 이용한 온수 보일러 | KR1020140123641 | 2014-09-17 | KR1020150142567A | 2015-12-22 | 유대형 |
| 본발명은태양전지와마그네트론을이용한온수보일러에관한것으로특히, 햇빛이비치는낮에태양광 에너지를전기에너지로변환시켜주는복수의태양전지와; 상기태양전지들에서출력되는직류전압을인버터를통해교류전압으로변환한다음온수가열장치에구비된마그네트론들에고전압을인가시켜줌은물론온수보일러의구동에따른제어기능을수행하는보일러구동부와; 물유입관과온수배출관이보온탱크의하부및 상부에각각연결된형태를갖고보일러구동부에서고전압이출력되면복수의마그네트론이구동되며발생하는마이크로파에의해유도가열되는유도가열형히팅관들의내부를흐르는보온탱크내 물이유도가열된후 다시보온탱크측으로자동대류되도록하는온수가열장치와; 밀폐된원통형상을갖되, 일측상,하부는상기온수가열장치의물 배출구및 물유입구와각각관통되게연결되고, 타측상,중,하부에는증기배출관과온수공급관및 직수유입관이연결된형태를갖고상기온수가열장치측으로물을지속적으로공급시켜줌과동시에상기온수가열장치를통해가열된후 배출되는온수의온도가저하되지않도록보온및 보관하였다가사용자에게제공하는보온탱크;로구성한것을특징으로한다. 따라서, 고가의화석연료나상용교류전압을이용하지않고낮에태양전지를통해얻어지는태양광발전전압을이용하여온수가열장치에설치되어있는마그네트론들을구동시키는방식을통해유도가열형히팅관들을유도가열시켜많은량의온수를지속적으로생산하여저장할수 있게해 줌으로써사용자의경제적인부담을크게줄일수 있고, 불필요한자원낭비를방지할수 있으며, 주변의전기소모량에무관하게지속적으로온수를생산하여사용할수 있으므로제품자체의상품성과신뢰도를대폭향상시킬수 있고, 특히온수가열중염소(Cl) 성분이발생하더라도흑색탄화규소파우더에서염소등에의한화학반응이전혀일어나지않게되므로염소등으로인한유도가열형히팅관의손상을방지할수 있음은물론유도가열형유도가열형히팅관자체의수명을대폭연장할수 있다. | ||||||
| 38 | 하이브리드 열풍기 및 이의 작동방법 | KR1020130131092 | 2013-10-31 | KR1020150049912A | 2015-05-08 | 전유헌; 이건화 |
| 본발명은하이브리드열풍기에관한것으로, 수조의물을무화기로무화시켜나노물입자를발생시키는무화부; 통과하는나노물입자를간접가열하는발열체및, 발열체를가열하는마이크로파발진기가구비된가열부;를포함하여이루어짐으로써, 마이크로파발진기로발열체를초고온으로가열시키고, 이발열체에서발산되는고온의열로나노물입자를간접가열함으로써, 단시간에실내공기층이고르게가열되므로난방시간이단축되고, 가열된발열체의축열기능이오래도록유지되므로기기운전에필요한전기에너지비용이감소되므로난방비용이절감되도록한 것이다. | ||||||
| 39 | 전자파발열체에 의한 열공급장치 | KR1020130108267 | 2013-09-10 | KR1020150029296A | 2015-03-18 | 승현창; 김오흠 |
| 본 발명은 전자파발열체에 의한 열공급장치에 관한 것으로, 더욱 상세하게는 탄화규소가 포함된 전자파발열체에 전자파를 조사하여 열이 발생할 수 있도록 하고, 유동장치를 통하여 공기와 전자파발열체가 서로 열교환이 이루어지도록 하여 낮은 전력량으로도 충분한 열량을 가진 공기를 공급할 수 있도록 한 전자파발열체에 의한 열공급장치에 관한 것이다.
본 발명의 전자파발열체에 의한 열공급장치에 의하면 전력소모량을 최소화할 수 있는 전자파발열체를 가열수단으로 사용하기 때문에 전력소모량이 현저히 낮고, 전자파발진기에 전원만을 공급하고, 온도의 상승을 위해서 전자파의 세기를 조절하면 되므로 장치가 매우 간단하며, 전력소모량이 적으면서도 높은 열량을 낼 수 있으므로 시설유지비 및 제품단가를 현저히 낮출 수 있는 등의 효과가 발생한다. |
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| 40 | 전자파발열체에 의한 보일러 | KR1020130108268 | 2013-09-10 | KR101444288B1 | 2014-09-26 | 승현창; 김오흠 |
| The present invention relates to a boiler using a microwave heat generator and, more specifically, to a boiler using a microwave heat generator which beams microwave to a microwave heat generator having silicon carbide to generate heat and instantly heat water passing in a heat exchanging pipe provided inside the microwave heat generator so that the heat can be instantly applied even with low wattage. According to the present invention, enough quantity of heat can be acquired as long as a microwave oscillator receives power in the simple device, and enough hot water can be provided by using low wattage. In addition, hot water can be promptly provided because the microwave heat generator can instantly generate heat by adjusting the level of the microwave. Especially, the boiler has environmental friendly effects as the boiler can be used with environmental friendly facilities such as a solar power generator and a wind turbine while reducing the usage of fossil fuel which generates environmental pollution. | ||||||
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