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    • 1. 发明公开
    • 히트파이프가 내장된 구들장 마루 어셈블리
    • 装有平板式热管的地板总成
    • KR1020160064917A
    • 2016-06-08
    • KR1020140178177
    • 2014-12-11
    • 최영환
    • 최영환
    • F24D7/00F28D15/02
    • Y02B30/24Y02E60/142F24D7/00F28D15/02Y02B10/20
    • 본발명은히트파이프내장을위한장착부가마루본체에형성되어있어시공이편리하고, 특히내장된히트파이프는작동유체충진을위한중공부를갖고, 중공부및 작동유체소통로를둘러싸는하판, 양측판및 상판으로구성된파이프바디가측판보다상판및 하판의치수가더 커서플랫(flat) 타입구조를가져신축건물이나기존건물의리모델링시신규난방시공또는보강난방시공(또는냉방시공)을하는경우건물바닥또는벽체의두께를과도하게늘이지않아도되어쾌적한실내공간의확보가가능한구들장마루어셈블리에관한것이다. 본발명에따른히트파이프가내장된구들장마루어셈블리는하판, 양측판및 상판으로구성되어작동유체충진을위한중공부를형성하고, 양측판의높이보다상판및 하판의폭이더 큰플랫타입파이프바디, 상기파이프바디의하판의내저면에돌출배열되며, 작동유체복귀로를구성하는리턴스트립, 상기파이프바디의양단에구비되어파이프바디의중공부가폐쇄된작동유체소통로를형성하도록하는폐쇄부를포함하는파이프엘리먼트를포함하여이루어진평판형히트파이프; 및상기히트파이프를위한장착부를구비한마루본체;를포함하여이루어진다.
    • 本发明涉及一种易于构造的地板组件,因为用于嵌入热管的安装部分形成在地板体中; 特别地,嵌入式热管具有用于包装工作流体的中空单元,围绕中空单元的下板和工作流体通道,以及平板型结构,其中由两个侧板和上板组成的管体具有 上板和尺寸大于侧板的下板,以便在新建筑物或现有建筑物被改造或建造用于新的加热或加固加热(或空调构造)的情况下,建筑物地板或 墙壁不需要过度延伸,从而能够确保舒适的室内空间。 根据本发明的配有热管的地板组件包括:平板型热管,由平板型管体组成,该平板型管体由两个侧板和上板组成,并形成用于包装工作流体的中空单元,其中 上板和下板的宽度大于两个侧板的高度,该回转条突出并布置在管体的下板的内底表面中,并且由工作流体返回路径组成,并且 管元件,其设置在管体的两端,并且包括封闭件,以形成管体的中空单元关闭的工作流体流动路径; 以及包括用于热管的安装部件的地板本体。
    • 2. 发明公开
    • 복합화력발전 및 지역난방발전 시스템
    • 组合循环和区域加热系统
    • KR1020150037411A
    • 2015-04-08
    • KR1020130116965
    • 2013-09-30
    • 한국전력공사
    • 김범주정훈조종영이철희
    • F24D10/00F24D7/00F02C6/00
    • Y02E20/14F24D10/00F02C6/00F24D7/00
    • 본발명은복합화력발전및 지역난방발전시스템에관한것이다. 일례로, 가스터빈의배가스로부터포집된이산화탄소를고온및 고압의초임계상태로만들어작동유체로서공급하는복합화력발전유닛; 상기복합화력발전유닛으로부터초임계이산화탄소를공급받아수용가의발전용또는난방용으로사용하고, 사용된이산화탄소를 HDR(Hot Dry Rock)으로수송하여초임계상태로만드는지역난방발전유닛; 및상기 HDR에서만들어진초임계이산화탄소를상기복합화력발전유닛으로재순환하는이산화탄소재순환유닛을포함하는복합화력발전및 지역난방발전시스템을개시한다.
    • 本发明涉及一种用于联合循环发电和区域供热的系统。 根据本发明的实施例,组合循环发电和区域供热系统包括:将从燃气轮机的废气中收集的二氧化碳制成超临界状态的联合循环发电单元,使其具有高温 和压力以便将其作为工作流体供应; 接收从联合循环发电单元供应的超临界二氧化碳的区域供热单元,以便将其用于消费者的发电或加热,并将二氧化碳转移到热干燥岩石(HDR)中以使其成为 超临界状态 以及二氧化碳再循环装置,用于将在HDR中制造的超临界二氧化碳再循环到组合循环发电单元。
    • 3. 发明公开
    • 신소재 솔라 촉매를 이용한 고주파 고진공 냉난방시스템
    • 省略
    • KR1020120035967A
    • 2012-04-17
    • KR1020100097580
    • 2010-10-07
    • 임성섭
    • 임성섭
    • F24H9/18F24D7/00
    • F24H9/1818F24D7/00F24D2200/08F24H2250/12
    • 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.
    • 目的:提供一种使用新型太阳能催化剂的高频高真空空调系统,方便使用者自由选择加热用的上身和下体进行冷却和加热。 构成:使用新的太阳能催化剂的高频和高真空空调系统包括加热箱(100)和冷库(400)。 加热箱由上下体(100a,100b)构成。 上下两体相互连接。 钎焊管嵌入上部主体中并连接到冷水入口(130)和热水出口(140)。 下体充满由高频交流加热器(200)加热的热介质组合物。 冷藏箱接收从加热箱的下部排出的空气。
    • 4. 发明公开
    • 태양열 흡열판 및 이를 이용한 태양열 난방장치
    • 太阳能热收集器和使用太阳能热收集器的太阳能加热装置
    • KR1020090019054A
    • 2009-02-25
    • KR1020070083187
    • 2007-08-20
    • 박근노
    • 박근노
    • F24J2/06
    • F24D7/00F24D2200/14
    • A solar heat collector and a solar heating apparatus using the same are provided to transfer solar heat effectively by using a plurality of curved heat absorbing plates arranged across each other. A solar heat collector(100) comprises a first curved member having a curved surface of first direction and a second curved member connected to the first curved member. The second curved member has a curved surface of second direction. The first curved member meets at right angle with the annual traveling direction of the sun and the second curved member meets at right angle with the daily traveling direction of the sun.
    • 提供一种太阳能热收集器和使用该太阳能热收集器的太阳能加热装置,通过使用彼此相互排列的多个弯曲吸热板来有效地传递太阳热。 太阳能集热器(100)包括具有第一方向的曲面的第一弯曲构件和连接到第一弯曲构件的第二弯曲构件。 第二弯曲构件具有第二方向的曲面。 第一弯曲构件与太阳的年度行进方向成直角并且第二弯曲构件与日照的每日行进方向成直角相交。
    • 5. 发明授权
    • BOILER WITH HEATING MEDIUM USING GENERATION HEAT OF MICROORGANISM
    • 具有加热介质的锅炉使用微生物发生热
    • KR100690389B1
    • 2007-02-27
    • KR20060133636
    • 2006-12-26
    • KIM SOO OK
    • KIM SOO OK
    • F24V30/00F24D15/00
    • F24D7/00F24D2200/32F24V30/00F24V99/00
    • A boiler is provided to reduce costs by indirectly heating water through a heat medium heated by a heater and generating heat by the enzyme and microorganism mixed in the water. A supply pipe(12) and a return pipe(13) are arranged in a main body(4) of a boiler so that the supply pipe and the return pipe are communicated to the main body. A tank(15) with a space(14) is arranged in the main body, and a heat exchange pipe(17) is arranged on the outer side the tank. A lid(5) with a heater(8), a tank heater(9), an inlet pipe(6) and a hot water outlet pipe(7) is coupled with the main body of the boiler, so that the heater is inserted in the tank and the tank heater is inserted in the space of the tank. The tank has an interior filled with a heat medium(18) and an exterior filled with heating water(16). Archaebacterium is injected into the heating water so that the mixture contains archaebacterium 33g per heating water 100l.
    • 提供了一种锅炉,通过间接加热水通过加热器加热的热介质并通过混合在水中的酶和微生物产生热量来降低成本。 供给管(12)和回流管(13)设置在锅炉的主体(4)中,使得供给管和回流管与主体连通。 具有空间(14)的罐(15)布置在主体中,并且在外壳上布置有热交换管(17)。 具有加热器(8),罐加热器(9),入口管(6)和热水出口管(7)的盖(5)与锅炉的主体联接,使得加热器插入 在坦克和坦克加热器插入坦克的空间。 该罐具有填充有热介质(18)的内部和装有加热水(16)的外部。 将古细菌注射到加热水中,使得混合物含有33g每加热水100l的古细菌33g。
    • 6. 发明公开
    • 히팅 패널
    • 加热面板
    • KR1020150041860A
    • 2015-04-20
    • KR1020130120339
    • 2013-10-10
    • 박정자
    • 박정자
    • F24D3/12F24D7/00F24D19/00
    • Y02B30/24F24D3/12F24D7/00F24D19/00
    • 본발명은히팅패널에관한것으로서, 이러한히팅패널은중공부가형성되는외관과; 상기외관의중공부에안착되는내관; 및 U자형상으로절곡되게형성되며, 양단은상기외관을관통하여서상기내관과연통되게연결되는순환관으로이루어지고, 상기내관의양단부는폐쇄되며, 상기내관과상기순환관에는열의전달이용이하게이루어지는열확산매체가충진된다. 그리고상기외관의일단부에는나사산이형성되고, 타단에는너트가구비되는구성이다. 이와같은구성에따라, 상기열확산매체가상기순환관과상기내관에빈틈없이충진되므로용존된공기가기화되어서발생하는문제점을해결할수 있고, 특히난방관에손상이발생하는경우에는부분적으로교체가용이하게되는효과가발생하게된다.
    • 本发明涉及加热面板。 加热面板包括具有中空单元的外管; 内管固定在外管的中空单元中; 以及循环管,其弯曲成U形,并且通过两端穿过外管连接到内管。 内管两端封闭。 填充热扩散介质以容易地在循环管中进行热传递。 在外管的一端形成螺纹,另一端装有螺母。 热扩散介质紧密地填充在循环管和内管中。 因此,防止了溶解的空气的蒸发。 特别地,当加热管损坏时,可以部分地更换损坏的管道。
    • 7. 发明授权
    • 대기상태를 가지는 드레인 다운식 밀폐형 태양열 시스템의 제어방법
    • 用于控制具有等待状态的排水型封闭式环形太阳能能量系统的方法
    • KR100990034B1
    • 2010-10-26
    • KR1020100039528
    • 2010-04-28
    • 박종일
    • 박종일
    • F24J2/04F24J2/24
    • Y02E10/44F24D7/00F24D2200/14F24D2220/0207F24D2220/0271F24D2220/042
    • PURPOSE: A drain down type closed solar system having a stand-by mode and a control method thereof are provided to reduce the driving power for a pump and improve the operation stability of the system. CONSTITUTION: A control method of a drain down type closed solar system having a stand-by mode is as follows. The difference between the temperature(T1) measured by a first temperature measuring unit of a solar heat collector and the temperature(T2) measured by a second temperature measuring unit of a heat storage tank is compared with a pre-set temperature difference(S101). When the measured difference is greater than the pre-set temperature difference, a thermal medium is normally circulated(S102,S103). When the measured difference is less than the pre-set temperature difference and the temperature measured by the first temperature measuring unit is over the pre-set maximum temperature, the circulation of the thermal medium is stopped and the thermal medium is collected through a drain down pipe to a thermal medium reservoir(S104). When the temperature measured by the first temperature measuring unit is less lower than the pre-set maximum temperature, a stand-by mode is activated so that only the circulation of the thermal medium is stopped and drain down is not performed.
    • 目的:提供一种具有待机模式及其控制方法的排水式闭式太阳能系统,以减少泵的驱动功率,提高系统的运行稳定性。 构成:具有待机模式的排水型封闭太阳能系统的控制方法如下。 将由太阳能集热器的第一温度测量单元测量的温度(T1)与由储热箱的第二温度测量单元测量的温度(T2)与预设温差进行比较(S101) 。 当测量的差值大于预设温度差时,热介质通常循环(S102,S103)。 当测量的差值小于预设的温差并且由第一温度测量单元测量的温度超过预设的最高温度时,热介质的循环停止,热介质通过排水收集 管道到热介质储存器(S104)。 当由第一温度测量单元测量的温度低于预设的最高温度时,启动待机模式,使得只有热介质的循环停止并且不进行排水。
    • 8. 发明公开
    • Anion hot water low heatino meat
    • ANION热水低热量肉
    • KR20100094670A
    • 2010-08-27
    • KR20090013751
    • 2009-02-19
    • KANG YOUN NAM
    • KANG YOUN NAM
    • F24D19/10F24D3/02F24D3/10
    • F24D13/04A47C21/04F24D7/00Y02B30/10
    • PURPOSE: A hot water mat boiler with a low temperature heating transparent silica tube for anion-generation is provided to prevent fire despite the exposure to ignition material for a long time by the installation of a temperature sensor and a transparent silica low temperature water convert pipe. CONSTITUTION: According to a hot water mat boiler with a low temperature heating transparent silica tube for anion-generation, fire is prevented despite the exposure to ignition material, since a temperature sensor(4) and a transparent silica low temperature water convert pipe are installed. A water shortage sensor is attached so that the temperate can rise despite the use of the small amount of liquid. A body balance safety switch is balanced with an electric room(8). A connector(7) is installed in an infrared ray hot-water heating pipe.
    • 目的:提供用于阴离子发生的具有低温加热透明硅胶管的热水垫锅炉,以通过安装温度传感器和透明二氧化硅低温水转换管长时间暴露于点火材料来防止火灾 。 构成:根据具有用于阴离子产生的低温加热透明硅胶管的热水垫锅炉,由于安装了温度传感器(4)和透明二氧化硅低温水转换管,因此防止了点火材料的火灾。 。 附加了缺水传感器,使得尽管使用少量的液体,但温度可以上升。 身体平衡安全开关与电动室(8)平衡。 连接器(7)安装在红外线热水加热管中。
    • 9. 发明公开
    • 태양열 집열기 및 이를 이용한 난방장치
    • 太阳能收集器和使用太阳能收集器的加热系统
    • KR1020060119089A
    • 2006-11-24
    • KR1020050041648
    • 2005-05-18
    • 유한회사 지오선
    • 이운해
    • F24J2/04F24J2/10H02S10/00
    • Y02E10/44F24D7/00F24D13/00F24D2200/08F24D2200/14F24D2200/32H01L31/042H02S10/30
    • A solar collector and a heating system thereby are provided to maximize heat efficiency by coating a solar collecting pipe with ceramic and supplying electricity from a solar cell absorbing plate to an electric heater, and to cut down expenses by reducing the heat collection area and simply connecting a pipe to a boiler. A solar collector(1) includes a case opening both sides by using a couple of frames(11) and having a collecting glass(15), a solar cell absorbing plate(16) and a thermal insulation member(17), plural solar heating pipes(20) inserted to the solar cell absorbing plate and filled with nitrogen to collect solar heat, a heat medium pipe(30) installed in an upper part of the solar heating pipe by a socket(21) to guide flow of heat medium fluid heated by solar heat condensed by the solar heating pipe, and an auxiliary radiating unit(40) having an electric heater(41) placed in a lower part of the solar heating pipe to supply radiant heat. The solar heating pipe is coated by ceramic, and filled with nitrogen quickly transferring heat.
    • 因此,提供太阳能收集器和加热系统以通过涂覆具有陶瓷的太阳能收集管和从太阳能电池吸收板向电加热器供电来最大化热效率,并且通过减少热量收集区域并简单地连接来降低费用 一个锅炉管。 太阳能收集器(1)通过使用一对框架(11)并具有收集玻璃(15),太阳能电池吸收板(16)和绝热构件(17)两侧的壳体开口,多个太阳能加热 插入太阳能电池吸收板并填充有氮气以收集太阳热的管道(20),通过插座(21)安装在太阳能加热管的上部的热介质管道(30),以引导热介质流体 通过由太阳能加热管冷凝的太阳能加热,以及具有放置在太阳能加热管的下部以提供辐射热的电加热器(41)的辅助辐射单元(40)。 太阳能加热管由陶瓷涂层,填充氮气快速传热。
    • 10. 发明公开
    • 히트파이프 이용 냉난방 시스템
    • 加热/冷却系统使用热管
    • KR1020060014748A
    • 2006-02-16
    • KR1020040063430
    • 2004-08-12
    • 김유관
    • 김유관
    • F24D3/14F24D7/00F24D15/04F24H7/04F24D19/10
    • F24D3/141F24D7/00F24D15/04F24D19/1024F24D2220/0235F24D2220/07F24H7/04
    • 본 발명은 열매체순환관이 히트파이프의 전 길이에 걸쳐 내설되어 순환이 이루어짐으로써 열효율을 증대시키며 시공이 용이하고, 겨울철 난방뿐만 아니라 하절기 냉방장치로의 전환이 자유롭도록 하는 히트파이프 이용 냉난방 시스템에 관한 것이다.
      이를 실현하기 위한 본 발명은 보일러에 설치되는 온수조와 상기 온수조에 연결되며 온돌바닥을 돌아 복귀하는 열매체순환관과 상기 열매체순환관과 연결되는 히트파이프를 포함하여 이루어지는 온돌의 열교환시스템에 있어서, 상기 히트파이프는 내부 하방에 길이 방향으로 열매체순환관이 관통 내설되어 밀봉 결합됨을 특징으로 하는 것으로서, 상기 히트파이프는 양측으로 인출된 열매체관 단부에 관이음수단이 형성된 히트파이프 순환관 유니트로 형성될 수는 있는 한편, 상기 열매체순환관은 상기 온수조와, 압축기와 응축기 및 증발기를 포함하 는 냉각수단이 구비되는 냉수조에 3방밸브를 통하여 연결되어 난방싸이클 및 냉방싸이클로의 전환이 가능토록 구성되는 것이다.