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    • 1. 发明公开
    • 동파방지를 위한 가스 보일러의 제어방법
    • 用于控制用于防止冷冻冲击的气体锅炉的方法
    • KR1020010003837A
    • 2001-01-15
    • KR1019990024316
    • 1999-06-25
    • 대우전자주식회사
    • 박재경
    • F24H9/20
    • PURPOSE: A method for controlling a gas boiler for preventing freeze-burst is provided to more safely prevent freeze-burst because an operation of a pump is maintained but only the operation of a fan is stopped even though ignition is failed. CONSTITUTION: A method for controlling a gas boiler for preventing freeze-burst includes the steps of operating a fan and a pump if a temperature is lower than 2 deg.C, trying to igniting, performing combustion if the ignition is performed normally, checking whether or not the inside temperature of a boiler rises to a prescribed temperature, stopping the combustion if the temperature reaches the prescribed temperature, operating the fan and the pump during a prescribed period of time if the ignition is failed while continuously trying ignition in fixed intervals before the prescribed period of time is expired, and stopping the operation of the fan and continuously operating the pump after the prescribed period of time.
    • 目的:提供一种用于控制燃气锅炉防止冻结的方法,以更安全地防止由于维持泵的操作而仅在点火失败的情况下停止风扇的操作而导致的冻结。 构成:用于控制燃气锅炉防止冻结的方法包括如果温度低于2℃,操作风扇和泵的步骤,试图点燃,如果点火正常进行,执行燃烧,检查是否 或者锅炉的内部温度不升高到规定温度,如果温度达到规定温度,则停止燃烧,如果点火失败,则在规定的时间段内操作风扇和泵,同时在固定间隔内连续尝试点火 规定的时间段到期,并停止风扇的运转,并在规定的时间后持续运行泵。
    • 2. 发明公开
    • 가스 보일러의 팬과 펌프의 제어방법
    • 燃气锅炉风机控制方法
    • KR1020010003833A
    • 2001-01-15
    • KR1019990024312
    • 1999-06-25
    • 대우전자주식회사
    • 박재경
    • F24H1/00
    • PURPOSE: A method for controlling a fan and a pump of a gas boiler is provided to reduce the power loss and extend the life of the parts by continuously controlling the driving of the fan and the pump in a hot water mode within the set time. CONSTITUTION: A method for controlling a fan and a pump of a gas boiler includes the steps of stopping burning in a hot water mode according as a user stops to use hot water and transmitting a signal to a next step(S11), driving RPM of the fan at the highest speed according to the signal and transmitting a signal to a next step(S12), driving maximum RPM until 15 seconds passes and transmitting a signal to a next step if the set time passes without using hot water(S13), rotating the fan with ignition RPM and transmitting a signal to a next step(S15), driving the fan with ignition RPM for 15 seconds and transmitting a signal to a next step if the set time passes without using hot water(S16), driving RPM of the fan at the lowest speed and transmitting a signal to a next step(S18), stopping the driving of the pump and transmitting a signal to a next step(S19), driving the fan with the lowest RPM for 90 seconds transmitting a signal to a next step if the set time passes without using hot water for completing the performing of the hot water mode(S16).
    • 目的:提供一种用于控制燃气锅炉的风扇和泵的方法,以在设定的时间内连续控制风扇和泵的热水模式,从而减少功率损耗并延长部件的使用寿命。 构成:用于控制燃气锅炉的风扇和泵的方法包括以下步骤:根据用户停止使用热水并将信号传送到下一步骤(S11),以热水模式停止燃烧,驱动RPM 根据信号以最高速度将风扇传送到下一步骤(S12),如果设定的时间过去而不使用热水(S13),则驱动最大RPM直到15秒通过并将信号传送到下一步骤, 用点火转速旋转风扇并将信号传送到下一步骤(S15),用点火转速驱动风扇15秒钟,如果设定的时间过去而不使用热水(S16),则将信号传送到下一步骤(S16),驱动RPM 的风扇,并将信号传送到下一步骤(S18),停止泵的驱动并将信号传送到下一步骤(S19),以最低的RPM驱动风扇90秒钟,发送信号 如果设定的时间过去而不使用热水,则进入下一步 用于完成热水模式的执行(S16)。
    • 3. 实用新型
    • 가스 보일러의 센서 설치용 니플
    • 燃气锅炉传感器安装用接头
    • KR2020000013889U
    • 2000-07-15
    • KR2019980027156
    • 1998-12-29
    • 대우전자주식회사
    • 박재경
    • F24H9/00
    • 본 고안은 과열방지센서의 설치부를 경사지게 형성하여 보수 점검시 편리하게 과열방지센서를 분해 조립할 수 있게 하여 작업자에게 편의를 제공할 수 있도록 하는 가스 보일러의 센서 설치용 니플에 관한 것이다.
      이러한 본 고안은 연소실의 열 교환기(15) 일 측에 설치되는 한편, 상부 또는 상부의 일 측면에는 과열방지센서(15b)가 부착되고, 중단부에는 온도감지센서가 부착되는 니플을 구성함에 있어서, 상기 과열방지센서(15b)의 안착부(152)를 경사지게 형성하여서 되는 것으로, 과열방지센서를 니플의 경사진 안착부에 결합함으로써, 보일러 본체와 센서 연결 단자와의 거리가 멀어지게 되어 내전압 불량을 방지할 수 있음과 아울러 분해 조립이 용이하여 보수 점검이 편리하게 수행될 수 있는 효과가 있는 것이다.
    • 4. 实用新型
    • 가스 보일러 연통의 역구배 감지 장치
    • 燃气锅炉连接的逆向梯度检测
    • KR2020000011588U
    • 2000-07-05
    • KR2019980024172
    • 1998-12-04
    • 대우전자주식회사
    • 박재경
    • F24H9/00
    • 본 고안은 연통의 단부가 상부 방향으로 위치하는 것을 감지하여 사용자에게 경고토록 함으로써, 연통을 원래의 위치로 신속하게 복원시킬 수 있도록 하는 가스 보일러 연통의 역구배 감지 장치에 관한 것이다.
      이러한 본 고안은 마주보는 판상의 홀더(311)가 형성되는 한편, 이 홀더(311)의 내부 중앙에 끼움 돌기(312)가 돌출 되어 형성되고, 상기 연통(210)의 급기관(230) 일 측에 고정 설치되는 브래킷(310)과, 내부에 수은(321)이 위치하는 한편 양측면에 끼움홈(325)이 형성된 캡(324)이 수밀 되게 결합되고, 어느 일 측의 상,하부에 가스 보일러를 제어하는 마이콤과 전기적으로 연결되는 전극(322)(323)이 설치되며, 상기 캡(324)의 끼움홈(325)에 상기 홀더(311)의 끼움 돌기(312)가 삽입되어 결합되는 수은관(320)을 포함 하는 것으로, 연통의 역구배시 사용자에게 경고의 표시를 하게 되어 연통을 원래의 위치로 복원되게 함과 동시에 배기 가스의 응축수가 연소실로 역류하는 것을 미연에 방지하여 연소실이 손상되어 수명이 단축되는 것을 방지할 수 있는 효과가 있는 것이다.
    • 5. 发明公开
    • 가스보일러의 난방 제어방법
    • 控制加热锅炉的方法
    • KR1020000038193A
    • 2000-07-05
    • KR1019980053088
    • 1998-12-04
    • 대우전자주식회사
    • 박재경
    • F24H1/00
    • PURPOSE: A method for controlling the heating of gas boiler is provided to prevent the temperature increase more than necessary and the excessive heat of heat exchanger and to save fuel cost by setting up the flux of the initial combustion gas low and increasing the flux of combustion gas in steps. CONSTITUTION: A device is composed of a control unit, a gas flux control unit, a set-up time lapse unit, an ignition unit and a temperature comparison unit. In an ignition step, a gas valve is opened, and gas is erupted through a burner installed inside a heating part. The erupted gas is ignited to heat a heat exchanger since a flame is generated by a transfer, and a signal is sent to a first gas flux control step. In the first gas flux control step, it is controlled with a low flux in order to increase the flux of combustion gas in steps, and the signal is sent to a set-up time lapse step. In the gas flux increase step, the gas flux burned in the burner is increased by one step, and a heating mode is driven. Further, in a set-up temperature arrival judgement step, it is judged that it reaches the temperature set up by a user via the set-up time lapse step. When not reaching the set up temperature, a process to increase the gas flux one step more is repeated via the gas flux increase step.
    • 目的:提供一种控制燃气锅炉加热的方法,以防止温度升高超过必要的温度和热交换器的过热,并通过将初始燃烧气体的通量设置得较低并增加燃烧通量来节省燃料成本 气体在步骤。 构成:设备由控制单元,气体通量控制单元,设置时间推移单元,点火单元和温度比较单元组成。 在点火步骤中,打开气阀,通过安装在加热部件内的燃烧器喷出气体。 喷射的气体被点燃以加热热交换器,因为通过转移产生火焰,并且将信号发送到第一气体通量控制步骤。 在第一气体流量控制步骤中,以低通量控制,以逐步增加燃烧气体的通量,并将该信号发送到建立时间步长。 在气体通量增加步骤中,燃烧器中燃烧的气体通量增加一步,驱动加热模式。 此外,在设定温度到达判定步骤中,判断为达到使用者通过设定时间流逝步骤设定的温度。 当没有达到设定温度时,通过气体通量增加步骤重复增加一步以上的气体通量的过程。
    • 6. 发明公开
    • 보일러의 물 보충 시스템의 고장 감지 방법 및 그 장치
    • 检测锅炉及其设备中水补充系统故障的方法
    • KR1020000034561A
    • 2000-06-26
    • KR1019980051931
    • 1998-11-30
    • 대우전자주식회사
    • 박재경
    • F24H1/00
    • PURPOSE: A method for detecting trouble of the water supplement system in a boiler and apparatus therefor is provided to solve problems that heating water in a water reservoir is insufficient or water supply to the water reservoir through a water supplement line is continued in spite of any troubles of a water level sensor or a supplement water valve. CONSTITUTION: A method for detecting the trouble of a water supplement system in a boiler comprises following steps: (a) a step for detecting the water level of a water reservoir; (b) a step for controlling the supply of supplement water to the water reservoir in response to the water level detected from the step (a); (c) a step for detecting an amount of water overflowing from the water reservoir; and (d) a step for determining whether or not the water supplement system is troubled, based on the water level detected from the step (a), the amount of overflowing water detected from the step (c), and the control state in the step (c). An apparatus for detecting the trouble of a water supplement system in a boiler comprises a water reservoir, a water supplement pipe, a supplement water valve, a pipe for discharging heating water, a pipe for collecting heating water, an overflow pipe, an overflow sensor, a water level sensor, and a control unit. The control unit determines that the water supplement system is in trouble if any one of the water level sensor and the supplement water valve is disorder.
    • 目的:提出一种用于检测锅炉及其设备中的补水系统故障的方法,以解决蓄水器中的加热水不足或通过补水管线向蓄水池供水的问题,尽管如此 水位传感器或补水阀的故障。 构成:一种用于检测锅炉中补水系统故障的方法,包括以下步骤:(a)检测蓄水池水位的步骤; (b)响应于从步骤(a)检测到的水位来控制向储水器供应补给水的步骤; (c)检测从储水器溢出的水量的步骤; 以及(d)基于从步骤(a)检测到的水位,从步骤(c)检测到的溢出水的量以及在步骤(a)中检测到的溢出水的量)来确定补水系统是否困扰的步骤 步骤(c)。 一种用于检测锅炉中的补水系统故障的装置,包括储水器,补水管,补水阀,排水加热管,收集加热水管,溢流管,溢流传感器 ,水位传感器和控制单元。 如果任何一个水位传感器和补充水阀无序,则控制单元确定补水系统处于故障状态。
    • 7. 实用新型
    • 가스 보일러용 연통의 상향 굴곡 감지 장치
    • 燃气锅炉通信用向上曲率传感装置
    • KR2020000010227U
    • 2000-06-15
    • KR2019980022425
    • 1998-11-17
    • 대우전자주식회사
    • 박재경
    • F24H9/00
    • 본 고안은 실외에 위치하는 연통의 끝단부가 상향 위치에 놓이는 것을 감지하여 사용자에게 인식토록 함으로써, 응축수 및 빗물이 열교환기내로 유입되는 것을 방지할 수 있도록 하는 장치에 관한 것이다.
      이러한 본 고안은 배기관(120)의 입구측 바닥면과, 급기관(110)의 바닥면에 끼움 구멍(126)이 형성되고, 배기관(120)의 끼움 구멍(126) 주변을 함몰지게하여 안착부(122)가 형성되는 연통(100)과, 끼움홀(148)이 형성되고, 끼움 구멍(126)을 협지하는 링(142,144)이 형성되며, 끼움 구멍(126)의 내주면이 삽입되는 끼움홈(146)이 형성되는 실링 부재(140)와, 실링 부재(140)들의 끼움홀(148)에 협지되고, 배기관(120)의 내부에 위치하는 한편, 제어부(132)와 전기적으로 연결되어 역류되는 배기 가스의 응축수가 접촉되면, 감지 신호를 제어부를 통해 룸콘에 표시되게 하는 감지봉으로 되는 것으로, 배기관의 입구측에 설치된 안착부에 응축수가 고이게 되고, 고이는 양에 따라 감지봉에 접촉되면, 제어부에 신호를 보내 실내의 룸콘에 표시하게 됨으로써, 사용자가 신속하게 연통의 위치를 교정하게 되어 열교환기의 손상을 미연에 방지할 수 있는 효과가 있는 것이다.
    • 8. 发明公开
    • 3 방향밸브 고장시 보일러 제어방법
    • 当三角阀不符合要求时控制锅炉的方法
    • KR1020000032720A
    • 2000-06-15
    • KR1019980049274
    • 1998-11-17
    • 대우전자주식회사
    • 박재경
    • F24H9/20
    • PURPOSE: A controlling method of a boiler is provided to control the operation mode of a boiler even when a three-way valve is out of order, to prevent damage of a heat exchanger by displaying the error and to make a user recognize the error of a boiler. CONSTITUTION: A boiler(100) is operated in hot water generating mode and in heating mode by the setting of a user. In the heating mode, a three-way valve is converted to the heating mode, a gas valve(105) is opened and gas is ignited in a burner installed in a heating part(102). Thus the temperature of the water passing a heat exchanger(101) rises. The heating water is flowed into the heat exchanger by a pump(107) along the direction A, and returns to an expansion tank(103) via a heating water return pipe after circulating respective rooms with heater supply pipes along the direction C. In the hot water generating mode, the three-way valve is converted to the hot water generating mode, the heating water is circulated in the boiler by the pump along the direction B, and flowed into the heat exchanger via a direct water pipe. Thus, the water is erupted via a hot water supply pipe after being increased in its temperature. If the mode is not converted due to the disorder or the inability of operation of the three-way valve while operating, a set up temperature(Tp) is compared to a measured temperature(Ts). If the set up temperature is higher than the measured temperature, the error is displayed on a display window of a room controller. Thereby, the damage of the heat exchanger is prevented.
    • 目的:提供一种锅炉的控制方法,即使在三通阀故障时也能控制锅炉的运行模式,通过显示误差来防止热交换器的损坏,并使用户识别出错误 一个锅炉。 构成:锅炉(100)通过用户的设置在热水生产模式和加热模式下运行。 在加热模式中,将三通阀转换为加热模式,打开燃气阀(105),并在安装在加热部件(102)中的燃烧器中点燃气体。 因此,通过热交换器(101)的水的温度升高。 加热水通过泵(107)沿着方向A流入热交换器,并沿着方向C使加热器供给管循环相应的房间后通过加热水回流管返回到膨胀箱(103)。在 热水生成模式,三通阀转换为热水生成模式,加热水沿泵B沿锅炉循环循环,通过直接水管流入热交换器。 因此,在其温度升高之后,水通过热水供应管喷出。 如果由于操作时三通阀的无序或不能操作而不转换模式,则将设定温度(Tp)与测量温度(Ts)进行比较。 如果设置温度高于测量温度,则错误显示在房间控制器的显示窗口上。 由此,能够防止热交换器的损坏。
    • 9. 发明公开
    • 가스보일러의 착화 방법
    • 点火燃气锅炉的方法
    • KR1020000032714A
    • 2000-06-15
    • KR1019980049268
    • 1998-11-17
    • 대우전자주식회사
    • 박재경
    • F23Q1/00
    • PURPOSE: An igniting method of a gas boiler is provided to improve igniting performance by gradually regulating supply amount of gas and rotational frequency of an exhaust fan when igniting a gas boiler. CONSTITUTION: A residual gas in a burner is discharged at the first stage of driving a boiler. A rotational frequency of a fan is set up to be higher one step than reference rotational frequency. The ignition of flames of gas is sensed by igniting an ignition plug by feeding power supply. If the gas is not ignited, the rotational frequency of the fan is decreased to the reference rotational frequency and the supply amount of gas is increased to reference supply amount. Then, the ignition is sensed after elevating the concentration of gas. If the gas is not ignited secondly, the rotational frequency of the fan is decreased one step than the reference rotational frequency and the supply amount of gas is increased one step than the reference supply amount. Then the ignition is sensed after elevating the concentration of gas. If the gas is ignited, the power supplied to the ignition plug is cut off and gas is burned continuously. If the gas is not ignited at third igniting step, the failure in ignition is decided. Thus, the first igniting step is performed repeatedly after a certain period.
    • 目的:提供燃气锅炉的点火方法,通过逐渐调节燃气锅炉点燃气体供应量和排风扇转速,提高点火性能。 构成:燃烧器中的残留气体在驱动锅炉的第一阶段排出。 风扇的转速设定为高于参考转速的一步。 通过馈送电源点燃火花塞来感测燃气火焰点火。 如果气体没有被点燃,则风扇的旋转频率降低到参考旋转频率,并且气体的供应量增加到参考供给量。 然后,在升高气体浓度后检测点火。 如果气体二次不点燃,风扇的旋转频率比参考旋转频率降低一步,并且气体的供给量比参考供给量增加一步。 然后在升高气体浓度后感测点火。 如果气体点燃,则切断供给火花塞的电力,并连续燃烧气体。 如果气体在第三次点火步骤中没有点燃,则确定点火失效。 因此,在一段时间后重复执行第一点火步骤。
    • 10. 发明公开
    • 빨림현상 발생시 안정적인 착화를 위한 팬회전수 제어 방법
    • 控制倾倒状态下稳定点火风扇旋转频率的方法
    • KR1020000032713A
    • 2000-06-15
    • KR1019980049267
    • 1998-11-17
    • 대우전자주식회사
    • 박재경
    • F24H1/00
    • PURPOSE: A controlling method of the rotational frequency of a fan for stable ignition is provided to perform ignition easily even when a suction state occurs by controlling the rotational frequency of an exhaust fan properly after sensing the suction state when a suction state occurs in the initial ignition of a gas boiler. CONSTITUTION: A rotational frequency of an exhaust fan is sensed while the power supplied to the exhaust fan is cut off in the initialized state before the operation of a boiler. If the exhaust fan rotates, a suction state is decided, but if the exhaust fan does'n't rotate, a normal state is decided. If a suction state is not decided, the voltage for driving a fan is set up to igniting voltage after finishing free purge and a gas valve and an ignition plug are driven. Thereby an ignition stroke is performed. And if a suction state is decided, the fan driving voltage is set up to igniting voltage without regard to the rotational frequency of the exhaust fan after finishing free purge. Then the fan driving voltage is gradually reduced until the rotational frequency of the exhaust fan becomes the rotational frequency in the igniting step. Thereafter, the gas valve and the ignition plug are driven and the ignition stroke is performed.
    • 目的:提供用于稳定点火的风扇的旋转频率的控制方法,即使当在初始时产生吸入状态时感测到吸入状态之后适当地控制排气风扇的转速也能够容易地进行点火 点燃燃气锅炉。 构成:在锅炉运行之前,在初始化状态切断供给到排风扇的电力时,检测出排风扇的旋转频率。 如果排风扇旋转,则决定吸入状态,但是如果排风扇不旋转,则判定为正常状态。 如果未决定吸入状态,则在完成自由吹扫之后,将风扇驱动电压设定为点火电压,并且驱动燃气阀和火花塞。 由此进行点火行程。 如果确定了抽吸状态,则风扇驱动电压被设置为点火电压,而不考虑排气风扇在完成自由吹扫之后的转速。 然后,风扇驱动电压逐渐降低,直到排气扇的旋转频率在点火步骤中变为旋转频率。 之后,驱动燃气阀和火花塞,进行点火行程。