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    • 1. 发明授权
    • 무동력 순환구조의 축열식 온풍기
    • 无动力循环结构的存储风扇加热器
    • KR101825332B1
    • 2018-02-02
    • KR1020170095919
    • 2017-07-28
    • 신채훈
    • 신채훈신경재
    • F24H7/04F24H9/18F24H9/14F28D20/00
    • Y02E60/142F24H7/0416F24H9/146F24H9/1863F28D20/0056F28D2020/0078
    • 본발명은간단한구성에의해열전달효율을높임에따라작동초기의온풍대기시간을최소화함과동시에별도의펌프구동이없이자연적으로순환이가능한무동력순환구조의축열식온풍기에관한것이다. 본발명에따르면, 일정길이로연장되도록배열된열교환파이프(22)와, 상기열교환파이프(22)의일측에위치되어에어를송풍하도록된 블로어(23)로구성된열교환유닛(20)과; 상기열교환유닛(20)에연결되어고온의열매체를공급함과동시에열매체의가열상태를지속하도록축열가능한히팅및 축열유닛(30)을포함하며; 상기히팅및 축열유닛(30)은내부에액상의열매체가충전되는케이스(31)와; 상기케이스(31)에내장되어열매체를가열하도록된 히터(34)와; 상기히터(34)에의한가열된열매체를상기열교환파이프(22)에전달하도록상기히터(34)의둘레로권선된전열파이프(35)와; 상기케이스(31) 내에설치되어상기히터(34)와전열파이프(35)를내장하도록된 일정직경의파이프또는통형태로구비된분리하우징(33)과; 상기분리하우징(33)에의해상기히터(34) 및전열파이프(35)와는분리된상태로상기케이스(31) 내에충전되되, 상기히터(34)에의한열이전달되도록구비되어가열상태를일정시간동안지속하도록된 고형의축열재(36)를포함하는무동력순환구조의축열식온풍기가제공된다.
    • 本发明还最小化了用于热空气的操作的等待时间早按照以简单的结构,并在同一时间涉及一种能够非机动循环的自然循环结构的蓄热式风扇而不需要单独的泵驱动提高传热效率。 根据本发明,和布置,以便在一个恒定长度热管22上延伸,所述热交换管22被定位uiil侧热交换单元20由鼓风机23吹空气和的; 它在同一时间和用品,包括一个蓄热可能的加热和储热单元30继续加热介质的加热状态,并且连接到所述高温热介质的热交换单元20; 加热发热体单元(30)包括:壳体(31),液体载热体被填充到该壳体内; 加热器(34),其内置在壳体(31)中并适于加热加热介质; 缠绕在加热器(34)上的传热管(35),用于通过加热器(34)将加热的热介质传递到热交换管(22); 设置在壳体31内并具有预定直径或管形状以容纳加热器34和电热管35的分离壳体33; 壳体34被加热器34产生的热量充满,同时通过分离壳体33与加热器34和传热管35分开, 提供了一种包括固体储热材料36的非自动循环结构的再生式热风扇,该固体储热材料长时间使用。
    • 2. 发明授权
    • 열교환기
    • 换热器
    • KR101632469B1
    • 2016-06-21
    • KR1020127027436
    • 2011-03-21
    • 코스모가스 에스.알.엘.
    • 알레산드리니,알베르토
    • F24H1/43F24H9/14F24H9/02
    • F24H1/43F24H9/02F24H9/14F24H9/146F24H9/148
    • 본발명에따르면, 교환기유닛(20)을가진열교환기(1)가제공되는데, 상기교환기유닛(20)은실질적으로동축구성인감겨진제 1 도관및 감겨진제 2 도관(21-23) 중하나이상을포함하고교환기유닛(20)을수용하기위한케이싱(2)을포함한다. 케이싱(2)은제 1 단부벽(3), 제 2 단부벽(4), 및이 두단부벽(3, 4) 사이에있는주변부(5)를가진다. 각각의도관(21-23)은유입부와배출부를가지며, 제 1 도관(21, 23)의배출부는제 2 도관(22)의유입부에실질적으로직렬로연결된다. 복수의감겨진도관(21-23)은제 3 도관(23)이제 1 도관(21)에의해형성된나선이연장되는나선을형성하도록제 1 도관(21)의턴(turn)의직경보다더 큰직경의턴을가진제 1 유체를위한제 3 도관(23)을포함한다. 제 3 도관(23)은유입부(23a)와배출부(23b)를가지며, 제 3 도관(23)의배출부(23b)는제 1 도관(21)에병렬로제 2 도관(22)의유입부(22a)에연결되고, 제 2 도관(22)은제 1 및제 3 도관(21, 23)의유동단면보다더 큰유동단면을가지는것이바람직하다.
    • 根据本发明,提供了一种具有交换器单元(20)的热交换器(1),其中交换器单元(20)包括一个或多个辊 和用于容纳交换器单元20的壳体2。 壳体2具有第一端壁3,第二端壁4和这两个端壁3,4之间的外围部分5。 每个导管21-23具有入口和出口,并且第一导管21,23的出口基本上串联连接到第二导管22的入口。 多个缠绕管21-23连接到第三导管23,使得由第一导管21形成的螺旋现在可以具有比第一导管21的匝直径更大的直径 以及用于第一流体的第三导管(23)。 第三导管23具有供给部分23a和排出部分23b,并且第三导管23的排出部分23b与第一导管21并联连接至第二导管22的入口 22a和第二导管22优选具有比第一和第三导管21,23的流动横截面更大的流动横截面。
    • 3. 发明授权
    • 열교환유로와 연소실냉각유로가 일체화된 보일러의 연소실냉각구조
    • 锅炉热交换器和热交换器路径的燃烧室冷却结构
    • KR100872965B1
    • 2008-12-08
    • KR1020070084716
    • 2007-08-23
    • 주식회사 경동나비엔
    • 민태식
    • F24H9/18F23M5/08F24H9/14F28D7/00F28D1/053
    • F24H9/1836F23M5/085F24H9/146F28D1/05333F28D7/0041
    • A combustion chamber cooling structure of a boiler is provided to minimize heat loss of the combustion chamber and improve the thermal efficiency of the boiler. A combustion chamber cooling structure of a boiler comprises a first combustion chamber cooling duct which is formed between a first inner plate(112) and a first outer plate(111), where the first inner plate is connected to a first heat exchange duct whose open end is connected to a second inner plate(122); a second combustion chamber cooling duct which is formed between a second inner plate and a second outer plate(121); a second heat exchange duct whose both ends are open and connected to a second inner plate and a third inner plate(132), respectively; a third combustion chamber cooling duct which is formed between the third inner plate and a third outer plate; a third heat exchange duct whose open end is connected to the third inner plate of the third combustion chamber cooling duct in order to serve as a heating water flow path; a fourth heat exchange duct whose both ends are closed, inlet is connected to the outlet of the third heat exchange duct, and outlet is connected to a fourth inner plate(142); and a fourth combustion chamber cooling duct which is formed between the fourth inner plate and a fourth outer plate(141).
    • 提供锅炉的燃烧室冷却结构以使燃烧室的热损失最小化并提高锅炉的热效率。 锅炉的燃烧室冷却结构包括形成在第一内板(112)和第一外板(111)之间的第一燃烧室冷却管道,其中第一内板连接到第一热交换管道,第一热交换管道的开口 端部连接到第二内板(122); 形成在第二内板和第二外板之间的第二燃烧室冷却管道; 第二热交换管道,其两端分别开放并连接到第二内板和第三内板(132); 形成在第三内板和第三外板之间的第三燃烧室冷却管道; 第三热交换管道,其开口端连接到第三燃烧室冷却管道的第三内板,以用作加热水流路; 其两端关闭的第四热交换管道,入口连接到第三热交换管道的出口,出口连接到第四内板(142); 和形成在第四内板和第四外板(141)之间的第四燃烧室冷却管道。
    • 4. 发明公开
    • 온수용 온열기구의 퀵 커넥터
    • 热水加热仪快速连接器
    • KR1020080045919A
    • 2008-05-26
    • KR1020060115176
    • 2006-11-21
    • 주식회사 씨엔텍엠제이보일러씨엔텍 코퍼레이션
    • 최경일
    • F16L37/00
    • F24H9/146F16L37/30
    • A quick connector of a heating instrument for hot water is provided to assemble and disassemble a leading wire simultaneously by installing a signal plug with a first electrode terminal for transmitting/receiving an electrical signal. A quick connector of a heating instrument for hot water comprises a first assembling pipe(104), a second assembling pipe(128), an opening unit, a signal plug, and a signal jack. The first assembling pipe has one end assembled to a supply pipe or a feedback pipe. The second assembling pipe has the other end assembled to the terminal end of a heat exchange pipe in a heat exchange part. The opening unit opens and closes the supply pipe, or the feedback pipe, and the heat exchange pipe by assembling and disassembling the first and second assembling pipes. The signal plug electrically connected to a control part has at least one first electrode terminal for transmitting and receiving an electrical signal at the outer periphery. The signal jack installed at one side of the heat exchange part includes at least one second electrode terminal at the inner periphery to be electrically contacted to the first electrode terminal by inserting the signal plug.
    • 提供用于热水的加热仪器的快速连接器,通过安装具有用于发送/接收电信号的第一电极端子的信号插头来同时组装和拆卸导线。 用于热水的加热仪器的快速连接器包括第一组装管道(104),第二组装管道(128),开放单元,信号插头和信号插座。 第一组装管的一端组装到供应管或反馈管。 第二组装管的另一端组装在热交换部中的热交换管的末端。 打开单元通过组装和拆卸第一和第二组装管来打开和关闭供应管,反馈管和热交换管。 电连接到控制部分的信号插头具有用于在外周发送和接收电信号的至少一个第一电极端子。 安装在热交换部分一侧的信号插座包括在内周上的至少一个第二电极端子,以通过插入信号插头与第一电极端子电接触。
    • 5. 发明授权
    • 온수예열을 위한 보일러 유로 구조
    • 用于水预热的锅炉水道结构
    • KR100755646B1
    • 2007-09-04
    • KR1020060102964
    • 2006-10-23
    • 주식회사 경동나비엔
    • 민태식
    • F24H1/40F24H1/52F24H9/12F24H9/14F24H9/18F24H1/14
    • F24H1/40F24H1/14F24H1/52F24H9/124F24H9/146F24H9/1809
    • A boiler water path structure for preheating water is provided to keep heating water in an expansion tank at a thermally accumulated condition after pre-heating of water in a heating tube. A boiler water path structure for water pre-heating includes a circulation pump(10) for delivering heating water; a main heat exchanger(20) for heat exchange between heating water delivered by the circulation pump and combustion gas; and a three-way valve(30) for selectively delivering heating water passed through the main heat exchanger to one of a hot water supply heat exchanger(60) and a heating tube(40). The heating tube and the circulation pump are connected through a heat recovery tube(123) and a circulation pump connection tube(121). A first expansion tank connection tube(120) connected to one side of an expansion tank(110) is connected to a branch point(125) of the heat recovery tube and the circulation pump connection tube. A second expansion tank connection tube(122) is connected between the other side of the expansion tank and the hot water supply heat exchanger. Heating water in a tube circulates through the expansion tank, the circulation pump, the main heat exchanger and a closed circuit when the three-way valve is set at a hot water mode, and heating water passed through the three-way valve passes through the heating tube, the circulation pump, the main heat exchanger and the closed circuit when the three-way valve is set at a heating mode, to thereby prevent heating water in the expansion tank from being mixed with heating water circulating through the heating tube.
    • 提供一种用于预热水的锅炉水路结构,用于在加热管中预热水之后,在膨胀箱中保持加热水在热累积状态。 用于水预热的锅炉水路结构包括用于输送加热水的循环泵(10) 用于由循环泵输送的加热水和燃烧气体之间进行热交换的主热交换器(20); 以及用于将通过主热交换器的加热水选择性地输送到热水供给热交换器(60)和加热管(40)中的一个的三通阀(30)。 加热管和循环泵通过热回收管(123)和循环泵连接管(121)连接。 连接到膨胀箱(110)的一侧的第一膨胀罐连接管(120)连接到热回收管和循环泵连接管的分支点(125)。 第二膨胀罐连接管(122)连接在膨胀箱的另一侧和热水供应热交换器之间。 当三通阀设置在热水模式时,管中的加热水循环通过膨胀箱,循环泵,主热交换器和闭路,并且通过三通阀的加热水通过 加热管,循环泵,主热交换器和闭路,三通阀设定为加热模式,从而防止膨胀箱中的加热水与加热管中循环的加热水混合。
    • 8. 实用新型
    • 가스보일러용 열교환기의 니플 용접구조
    • 一种用于燃气锅炉的乳头焊接结构的热交换器
    • KR2019980034300U
    • 1998-09-15
    • KR2019960047240
    • 1996-12-10
    • 대우전자주식회사
    • 백성학
    • F24H9/06
    • F24H9/146F24H9/06
    • 본고안은가스보일러의열교환기특히온수열교환기의배관을위한니플(NIPPLE)용접구조에관한것으로서, 보다상세하게는열교환기의핀과니플을상기니플내부에서직접용접되게하므로써, 용접불량방지및 용접용플레이트부품의삭제가가능토록한 가스보일러용열교환기의니플용접구조에관한것이다. 본고안의니플용접구조는온수열교환기핀(11)의통공(18)내주면을상향절곡시켜조립단부(18a)를형성하고, 상기조립단부(18a)의외부로니플(13)을가조립되게하며, 용접링(15)이상기니플(13)의안쪽으로끼워져용접되도록이루어진것을특징으로한다. 이에따라별도의플레이트의설치없이니플의용접이가능하게되고, 용접이니플의안쪽에서이루어지게되어치밀하게스며들어용접불량이방지되며, 또한용접부위가외부로노출되지않아외관의해침이방지되는등의효과를발휘한다.
    • 纸提案涉及防止奶嘴(乳头),用于基于管式热交换器焊接结构,该燃气锅炉,特别是热水热交换器,更具体地通过直接焊接乳头销和热交换器的乳头的内部,焊接缺陷和焊接 本发明涉及一种热交换器的焊接接头结构的燃气锅炉的板部件可以永远的删除。 本文中的乳头焊接结构将被暂时组装到热水热交换器gipin 11 uitong球18.乳头13份令人惊讶的向上弯曲的内周面形成所述组件端部(18A),并且所述组装的端部分(18a),焊接环 15的特征在于,夹在移相器构成,使得乳头13向纸币焊接。 Yiettara变得可以焊接接头,而无需安装单独的板上的,焊接的例子紧紧渗透物在乳头从焊接缺陷防止内完成,并且在焊接部不暴露于外面是haechim外部保护或等 效果会显示出来。