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81. 发明授权

KR101528810B1 무선 네트워크를 기반으로 한 온도 및 부식 모니터링 장치 有权
标题翻译：基于无线网络的热和腐蚀监测装置
公开(公告)号：KR101528810B1
公开(公告)日：2015-06-15
申请号：KR1020140138136
申请日：2014-10-14
申请人： 한국남동발전 주식회사 , 티텍 주식회사
发明人： 김용택 , 이착표 , 박호진 , 이선동 , 구길본 , 윤주태
IPC分类号： F24H9/20 , F22B33/00 , F24D19/10
CPC分类号： F24H9/2007 , F22B33/00 , F24D19/1006 , F24D2220/042
摘要： 본발명은무선네트워크를기반으로한 온도및 부식모니터링시스템에관한것으로, 상세하게는온도모니터링센서와부식모니터링센서(110)를다수개 포함하여구성되는센서부(100), 상기센서부(100)와무선네트워크를통해연결되며, 상기센서부(100)로부터전달받은센싱정보를외부로전달하는통신관리부(200) 및상기통신관리부(200)와네트워크를통해연결되며, 상기통신관리부(200)를통해서전달받은센싱정보를이용하여온도, 열유속(heat flux)을분석하거나, 부식정도(corrosion rate)를분석하여외부로전달하는통합분석부(300)를포함하여구성되는것을특징으로하는무선네트워크를기반으로한 온도및 부식모니터링시스템에관한것이다.
摘要翻译：本发明涉及一种基于无线网络监测温度和腐蚀的装置。更具体地，用于基于无线网络监测温度和腐蚀的装置包括：传感器单元（100），被配置为包括多个温度监测传感器和腐蚀监测传感器（110）; 通过无线网络与传感器单元（100）连接并将从传感器单元（200）接收的感测信息发送到外部的通信管理单元（200）以及通过网络与通信管理单元（200）连接的综合分析单元（300），并使用通过通信管理单元（200）接收的感测信息将分析的腐蚀速率或分析的温度和热热通量发送到外部，。

82. 发明授权

KR101433084B1 캐스케이드 보일러 시스템의 제어방법 有权
标题翻译：锅炉系统控制方法
公开(公告)号：KR101433084B1
公开(公告)日：2014-08-25
申请号：KR1020130059018
申请日：2013-05-24
申请人： 주식회사 경동원
发明人： 류성훈
IPC分类号： F24H9/20 , F24D19/10
CPC分类号： F24H9/2007 , F24D3/1091 , F24D19/1006 , F24D2200/043 , G05D23/1919
摘要： The present invention relates to a method to control a cascade boiler system including a primary side having a plurality of boilers, a secondary side having a load, and a hydro separator provided between the primary side and the secondary side to compensate a flow rate, comprising the steps of: operating a set number of the boilers in an initial driving state; detecting the temperature of the supply water and the temperature of the recirculation water at the primary side, and the temperature of the supply water and the temperature of the recirculation water at the secondary side in the hydro separator, and calculating a flow rate to be compensated at the hydro separator by the detected temperature; calculating a set temperature which is the temperature of the supply water at the primary side to maintain the temperature of the supply water at the secondary side, if the initial operating state is maintained and thus the temperature of the supply water at the secondary side is within a target temperature; and calculating the water quantity of the boilers to maintain the calculated set temperature, and controlling the operation of the boilers in accordance to the water quantity. Therefore, since all the boilers provided in the system quickly reaches the set temperature at the initial stage of the operation, consumer′s satisfaction can be improved. Also, the temperature of the inlet port and the temperature of the outlet port in the hydro separator are detected, and the flow rate is calculated by the detected temperature, thereby reducing the costs relative to the conventional system using a flowmeter.
摘要翻译：本发明涉及一种控制级联锅炉系统的方法，其包括具有多个锅炉的初级侧，具有负载的次级侧和设置在初级侧和次级侧之间的水力分离器，以补偿流量，包括步骤：在初始驾驶状态下操作设定数量的锅炉; 检测供水的温度和初级侧的再循环水的温度，供水的温度和水力分离器中次级侧的再循环水的温度，并计算要补偿的流量在水力分离器上通过检测温度; 如果保持初始运行状态，并且二次侧的供水温度在内，则计算作为一次侧供水温度以保持供水在二次侧的温度的设定温度目标温度; 并计算锅炉的水量以维持计算出的设定温度，并根据水量控制锅炉的运行。因此，由于系统中提供的所有锅炉在操作的初始阶段快速达到设定温度，因此可以提高消费者的满意度。此外，检测入口的温度和水力分离器中的出口的温度，并且通过检测到的温度来计算流量，从而相对于使用流量计的常规系统降低了成本。

83. 发明公开

KR1020140046594A 한신당 전기보일러제조 无效
标题翻译：省略
公开(公告)号：KR1020140046594A
公开(公告)日：2014-04-21
申请号：KR1020120111265
申请日：2012-10-05
申请人： 장덕호
发明人： 장덕호
IPC分类号： F24D11/00 , F24D19/10 , F24D15/02 , F24D3/02 , F24D13/00 , F24H7/02
CPC分类号： F24D11/002 , F24D3/02 , F24D13/00 , F24D15/02 , F24D19/1006 , F24D2200/08 , F24H7/0208
摘要： Disclosed is an electric boiler which is a boiler using electricity to enhance electrical efficiency and can be installed on the existing facility by replacing only the boiler. People use lots of warm water by installing an instantaneous electrical water heater used selectively for heating and life management. A warm water supply facility is installed at the place where the instantaneous electrical water heater is installed so as to automatically heat the floor because water flows through the existing hose when warm water is used as water for living even though the boiler is not used. The electric boiler has new connected parts every room and a system located besides the instantaneous electric water heater and connected with each room so as to be controlled to automatically show temperature of each room. The instantaneous electrical hot water systems are installed in the kitchen and bathroom and the electric boiler shows temperature of each room to a user who uses warm water so that the user can check which room lowers in temperature and make warm water circulate to the room.
摘要翻译：公开了一种电锅炉，其是使用电以提高电效率的锅炉，并且可以通过仅替换锅炉来安装在现有设施上。人们通过安装一个瞬时电热水器来选择性地加热和人寿管理，使用大量的温水。即使在不使用锅炉的情况下，也可以在安装瞬时电热水器的地方安装温水供水设备，以便在使用温水作为生活用水时，水流过现有软管，自动加热地板。电锅炉每房间都有新的连接部分，除了瞬时电热水器之外还有一个与每个房间相连的系统，以便被控制以自动显示每个房间的温度。瞬时电热水系统安装在厨房和浴室中，电锅炉向使用温水的用户显示每个房间的温度，以便用户可以检查哪些室内的温度降低并使温水循环到房间。

84. 发明公开

KR1020140042605A 믹싱밸브를 이용한 배열회수시스템의 급탕온도 제어장치 有权
标题翻译：使用混合阀的热回收装置的水温控制系统
公开(公告)号：KR1020140042605A
公开(公告)日：2014-04-07
申请号：KR1020120109569
申请日：2012-09-28
申请人： 주식회사 경동나비엔
发明人： 손승길 , 허수현 , 박우성
IPC分类号： F24H9/20 , F24D19/10
CPC分类号： F24H9/2007 , F24D19/1006 , F24H2240/10 , Y02B30/18
摘要： Provided is a hot-water supply temperature control structure for a waste heat recovery system using a mixing valve, wherein the hot-water supply temperature control structure comprises: a hot-water tank including a waste heat exchanger which generates hot water by recovering waste heat from a waste heat source, a heating heat exchanger in which heat is exchanged to provide heating using the hot water, and a temperature sensor which checks the temperature of the hot water, and storing the hot water which exchanges the heat in the waste heat exchanger; a boiler heating the hot water, which exchanges the heat in the hot-water tank, to satisfy a heating and a hot-water supply predetermined temperature predetermined by a user, and supplying the heated hot water to a heating space and a hot-water supply space; the mixing valve installed on a hot-water line connected from the hot-water tank to the boiler, and capable of supplying a mixture of direct water and the hot water, which flows from the hot-water tank, to the boiler after mixing the direct water with the hot water; and a control part controlling the mixing valve after determining the amount of the direct water to be mixed with the hot water flowing in the hot-water line when temperature in the hot-water tank is detected to be as much as 0 to 10°C lower than the hot-water supply predetermined temperature of the boiler by the temperature sensor. [Reference numerals] (150) Control part
摘要翻译：本发明提供一种使用混合阀的余热回收系统的热水供给温度控制结构，其特征在于，所述热水供给温度控制结构包括：热水箱，其包括：废热交换器，其通过回收废热产生热水来自废热源的热交换器，其中热交换以使用热水提供加热;以及温度传感器，其检查热水的温度，并将热交换热量的热水存储在废热交换器 ; 对在热水箱内进行热交换的热水进行加热，以满足用户规定的加热和热水供给规定温度，将加热的热水供给到加热空间和热水供应空间; 所述混合阀安装在从所述热水箱连接到所述锅炉的热水管线上，并且能够混合从所述热水箱流到所述锅炉的直接水和热水的混合物用热水直接加水; 以及控制部，其在检测到所述热水箱中的温度为0〜10℃时，确定在与所述热水管路中流动的热水混合的直接水量的量后，控制所述混合阀低于通过温度传感器对锅炉的热水供应预定温度。（附图标记）（150）控制部

85. 发明公开

KR1020130133366A 복수의 마이컴을 구비한 보일러에서 마이컴 상호 감시를 통한 가스안전 차단방법 有权
标题翻译：在锅炉中使用微电子监测的气体关断方法
公开(公告)号：KR1020130133366A
公开(公告)日：2013-12-09
申请号：KR1020120056544
申请日：2012-05-29
申请人： 린나이코리아 주식회사
发明人： 정영환 , 권기출 , 노홍일 , 이상문 , 이상희
IPC分类号： F24H9/20 , F24D19/10 , G08B21/00
CPC分类号： F24H9/2007 , F24D19/1006 , F24D2220/04 , G08B21/00 , Y02B30/08
摘要： The present invention relates to a gas shut-off method through the mutual monitoring of micoms in a boiler equipped with a plurality of micoms, and is characterized by repetitively performing: a step of storing data inputted from various sensors and loads in a buffer; and a step of transmitting and receiving the data stored in the buffer; a step for calculating slopes in comparison with a given time for various data previously inputted from each micom and stored in the buffer and data currently inputted and stored in the buffer; a step of calculating allowable error ranges set to be different from each other by slope for different situations previously inputted by corresponding to the calculated slope values; and a step of determining whether the transmitted values are within the allowable error ranges by adding or subtracting the calculated allowable errors to/from the data of various sensors and loads transmitted lastly from the opposite micom. Therefore, according to the present invention, the method measures data for the cases with greatly varying values of normal loads, reduces data deviating from the allowable error range and processes of re-detecting and comparing output values of various sensors and important loads to reduce communication delays generated due to the re-detecting and comparing, remarkably improves the safety of the boiler, and remarkably improves the reliability and marketability of a product. [Reference numerals] (AA,BB) Read data;(CC,DD) Read values of sensor and loads to store the values in a buffer;(EE,FF) Transmit and receive the data;(GG,HH) Calculate each slope A=(|V_1-V_2|)/Δt;(II,JJ) Calculate allowable error ranges according to the slope;(KK,NN) Do not deviate from the allowable error ranges;(LL.MM) Determine if the transmitted value deviates from the allowable error ranges by adding/subtracting an allowable error;(OO) Deviate from the allowable error ranges;(PP) Block a gas valve;(QQ) Operate a display unit or an alarm
摘要翻译：本发明涉及一种通过在配备有多个微型计算机的锅炉中相互监测微机的气体切断方法，其特征在于重复执行：将从各种传感器输入的数据和负载存储在缓冲器中的步骤; 以及发送和接收存储在所述缓冲器中的数据的步骤; 与预先从每个微型计算机输入的各种数据相对于给定时间计算斜坡的步骤，存储在缓冲器中，并且将当前输入并存储在缓冲器中的数据进行计算; 通过对应于所计算的斜率值而先前输入的不同情况，计算通过斜率设定为彼此不同的容许误差范围的步骤; 以及通过将计算出的允许误差加到或减去来自相对微处理器的各种传感器的数据和最后传送的负载来确定发送值是否在容许误差范围内的步骤。因此，根据本发明，该方法测量正常负载值极大变化的情况的数据，减少偏离可允许误差范围的数据，并重新检测和比较各种传感器和重要负载的输出值以减少通信的处理由于重新检测和比较而产生的延迟显着提高了锅炉的安全性，显着提高了产品的可靠性和可销售性。（参考号）（AA，BB）读取数据;（CC，DD）读取数据传感器和负载以将值存储在缓冲器中;（EE，FF）发送和接收数据;（GG，HH） A =（| V_1-V_2 |）/Δt;（II，JJ）根据斜率计算容许误差范围;（KK，NN）不要偏离允许的误差范围;（LL.MM）确定传输值（OO）偏离允许误差范围;（PP）阻塞气阀;（QQ）操作显示单元或报警器

86. 发明授权

KR101312928B1 1차 가스압력 검출센서를 이용한 보일러의 안전연소 제어방법 有权
标题翻译：锅炉内使用气压传感器的安全燃烧控制方法
公开(公告)号：KR101312928B1
公开(公告)日：2013-10-01
申请号：KR1020120043851
申请日：2012-04-26
申请人： 린나이코리아 주식회사
发明人： 이정민 , 주기동
IPC分类号： F24H9/20 , F24D19/10
CPC分类号： F24H9/2035 , F24D19/1006 , F24D2220/046 , Y02B30/08
摘要： PURPOSE: A method for controlling safety combustion of a boiler by using a sensor detecting first gas pressure is provided to minimize residual gas existing in a container as the combustion is performed by maximally securing a range of perfect combustion by the shortage of gas pressure. CONSTITUTION: A method for controlling safety combustion of a boiler by using a sensor detecting first gas pressure comprises the following steps: each setting maximum control heat capacity (Qmax) and minimum control heat capacity (Qmin) to maximum gas pressure (Pmax) and minimum gas pressure (Pmin) in a control unit; detecting gas pressure (Pin) currently supplied through a sensor detecting first gas pressure and determining whether or not it is less than maximum gas pressure; setting the maximum gas pressure relative to the maximum control heat capacity to be low as a predetermined rate (A%) if the current gas pressure is less than the maximum gas pressure; and stopping the combustion of the boiler if the current gas pressure is less than the minimum gas pressure or the maximum gas pressure is less than gas pressure (Poff) in a range in which the predetermined proportional control is not possible. [Reference numerals] (AA) Control heat capacity; (BB) Maximum control heat capacity (Qmax) = gas pressure (Pmax); (CC) Minimum control heat capacity (Qmin) = gas pressure (Pmin); (DD) Input first gas pressure (Pin); (EE) Reset the maximum gas pressure (Pmax) relative to the maximum control heat capacity (Qmax) to be low as a predetermined rate (A%); (FF) Safety device
摘要翻译：目的：提供一种通过使用检测第一气体压力的传感器来控制锅炉的安全燃烧的方法，以便通过由气体压力不足最大程度地确保完美燃烧的范围来进行燃烧来最小化存在于容器中的残留气体。构成：通过使用检测第一气体压力的传感器来控制锅炉的安全燃烧的方法包括以下步骤：将最大控制热容（Qmax）和最小控制热容（Qmin）设定为最大气压（Pmax）和最小值控制单元中的气体压力（Pmin）; 检测当前通过检测到第一气体压力的传感器提供的气体压力（Pin），并确定其是否小于最大气体压力; 如果当前气体压力小于最大气体压力，将相对于最大控制热容量的最大气体压力设定为低的预定速率（A％）; 如果当前气体压力小于最小气体压力或最大气体压力小于不能进行预定比例控制的范围内的气体压力（Poff），则停止锅炉的燃烧。（附图标记）（AA）控制热容量; （BB）最大控制热容（Qmax）=气压（Pmax）; （CC）最小控制热容（Qmin）=气压（Pmin）; （DD）输入第一气压（Pin）; （EE）以相对于最大控制热容（Qmax）的最大气体压力（Pmax）为预定速率（A％）为低; （FF）安全装置

87. 发明公开

KR1020130045032A 급탕기의 온수사용 초기 연소량 제어방법 有权
标题翻译：加热装置中主要用水量的主要控制方法
公开(公告)号：KR1020130045032A
公开(公告)日：2013-05-03
申请号：KR1020110109455
申请日：2011-10-25
申请人： 린나이코리아 주식회사
发明人： 주기동 , 이정민
IPC分类号： F24H9/20 , F24D19/10 , F24D17/00 , G05D23/00
CPC分类号： F24H9/2007 , F24D17/00 , F24D19/1006 , G05D23/00
摘要： PURPOSE: A method for controlling initial combustion rate of hot water use of a hot water supply device is provided to rapidly reach the hot water temperature to predetermined temperature. CONSTITUTION: A method for controlling initial combustion rate of hot water use of a hot water supply device comprises: a step of controlling normal combustion rate with a predetermined minimum heat and igniting a combustion unit if a stream of water is detected due to use of the hot water(S2); a step of continuously detecting hot water supply temperature for a first time(t1) with a distance(t2) to a second time(t2) and updating minimum temperature(S3); a step of determining the first time whether passing or not(S4); and a step of confirming the minimum temperature to water temperature(Tin deg. C) after the predetermined first time is passed(S5). [Reference numerals] (AA) Use hot water; (BB) Control a combustion rate; (S1) Ignite a combustion unit; (S10) Control with a current combustion rate(Q2); (S11) Increase the combustion rate of a burner to a third combustion rate compared to the maximum combustion rate; (S12) Increase the combustion rate of the burner to a fourth combustion rate compared to the maximum combustion rate; (S2) Control with a predetermined minimum heat(Q1); (S3) Update a minimum temperature by detecting/storing hot water temperature for t1 at an interval of t2; (S4) t1 passed; (S5) Confirm the minimum hot water temperature detected for the time t1 as Tin°C
摘要翻译：目的：提供一种用于控制热水供应装置的热水使用的初始燃烧速率的方法，以使热水温度快速达到预定温度。构成：用于控制热水供应装置的热水使用的初始燃烧率的方法包括：以预定的最小热量控制正常燃烧速率并点燃燃烧单元的步骤，如果检测到水流由于使用热水（S2）; 在距离（t2）至第二时间（t2）的第一时间（t1）连续检测热水供应温度和更新最低温度（S3）的步骤; 确定第一次是否通过的步骤（S4）; 以及在预定的第一次通过之后确认最低温度到水温（Tin C）的步骤（S5）。（附图标记）（AA）使用热水; （BB）控制燃烧率; （S1）点燃燃烧单元; （S10）当前燃烧率（Q2）的控制; （S11）与最高燃烧率相比，将燃烧器的燃烧率提高到第三燃烧速率; （S12）与最大燃烧率相比，将燃烧器的燃烧率提高到第四燃烧速率; （S2）以预定的最小热量（Q1）进行控制; （S3）通过以t2的间隔检测/存储t1的热水温度来更新最低温度; （S4）t1通过; （S5）确认时间t1检测到的最低热水温度为Tin°C

88. 发明公开

KR1020130032478A 온수 공급 및 난방 장치 失效
标题翻译：温暖水供应和加热设备
公开(公告)号：KR1020130032478A
公开(公告)日：2013-04-02
申请号：KR1020110096086
申请日：2011-09-23
申请人： 김석민 , 곽상칠
发明人： 김석민 , 곽상칠
IPC分类号： F24H4/04 , F24H9/20 , F24H1/52 , F24H9/14 , F24D19/10 , F24D3/18
CPC分类号： F24H4/04 , F24D3/18 , F24D19/1006 , F24H1/52 , F24H9/144 , F24H9/2021 , Y02B30/12
摘要： PURPOSE: A warm water supplying and heating device is provided to supply warm water while carrying out heating using a heat pump. CONSTITUTION: A warm water supplying and heating device comprise a warm water tank(110), a circulation pump(120), a heat pump(130), a heat exchanger(140), a warm water supply system(150), a 3-way valve(160), and a heating supply system(170). The circulation pump pumps warm water and circulates the water in a warm water supply line(L1). The heat pump heats the warm water to high temperature. The heat exchanger heat-exchanges the warm water and supply water(SW). The warm water supply system supplies warm water. The 3-way valve selectively controls a route of the warm water for heating. The heating supply system circulates the warm water and carries out heating by selectively controlling the 3-way valve.
摘要翻译：目的：提供温水供暖装置，在使用热泵进行加热的同时提供温水。构成：暖水供应和加热装置包括一个温水箱（110），一个循环泵（120），一个热泵（130），一个热交换器（140），一个温水供应系统（150），一个3 （160）和加热供应系统（170）。循环泵泵送温水，并将水循环在温水供水管线（L1）中。热泵将温水加热至高温。热交换器热交换热水和供水（SW）。温水供水系统提供温水。三通阀选择性地控制用于加热的温水的路线。供热系统通过选择性控制三通阀来循环暖水并进行加热。

89. 发明公开

KR1020130021024A 보일러 가스절감기 자동운전 시스템 无效
标题翻译：锅炉自动驱动系统降低气体
公开(公告)号：KR1020130021024A
公开(公告)日：2013-03-05
申请号：KR1020110083294
申请日：2011-08-22
申请人： 김은규
发明人： 김은규
IPC分类号： F24H9/20 , F24D19/10
CPC分类号： F24H9/2007 , F24D19/1006 , Y02B30/08 , Y10S122/00
摘要： PURPOSE: An automatic operation system of a boiler gas economizer is provided to reduce gas consumption by repeatedly stopping and operating a boiler when necessary. CONSTITUTION: An automatic operation system of a boiler gas economizer an analog 24 hour-timer which is turned ON or OFF per 10 minutes. The timer is operated by a main power(220V). Current is supplied to a load side boiler by using a 3-phase circuit breaker(3)(30A) with a pilot lamp(PL) informing whether the timer is operated or not by using an analog timer. [Reference numerals] (AA) Drawing 2(for 3-phase); (BB) Load
摘要翻译：目的：提供锅炉燃气节能器的自动操作系统，以便在必要时反复停止和操作锅炉，以减少燃气消耗。构成：锅炉燃气节能器的自动操作系统，模拟24小时计时器，每10分钟打开或关闭。定时器由主电源（220V）操作。通过使用带有指示灯（PL）的三相断路器（30A）（30A）通过使用模拟定时器通知定时器是否工作，将电流提供给负载侧锅炉。（标号）（AA）图2（3相）; （BB）负载

90. 发明公开

KR1020130014757A 냉, 난방 기능을 수행하는 건물 벽체 및 지붕. 无效
标题翻译：水或水加热功能的墙壁和屋顶
公开(公告)号：KR1020130014757A
公开(公告)日：2013-02-12
申请号：KR1020110076405
申请日：2011-08-01
申请人： 심병선
发明人： 심병선
IPC分类号： F24D15/00 , F25B23/00 , F24D19/10
CPC分类号： Y02B30/24 , F24D15/00 , F24D19/1006 , F24D2200/14 , F24D2220/042 , F25B23/00 , Y02B10/10
摘要： PURPOSE: Walls and a roof of a building for executing a cooling and heating function are provided to maintain a pleasant indoor environment by removing air directly discharged from indoor cooling or heating devices. CONSTITUTION: Walls and a roof of a building for executing a cooling and heating function comprises an integral wall, a spraying unit, a cooling and heating unit, a collecting well(80), and a mounting unit. Finishing materials are air tightly adhered to the front and rear sides of a frame(10) of the wall so that the integral wall is formed. A pipe(50) and a nozzle are installed in an inner top of the integral wall so that the spraying unit sprays cooling and heating water to the inside the frame. The collecting well and a boiler are installed at a specific position of the building. The pipe connects the collecting well and cooling and heating devices(86,87). The mounting unit connects cooling and heating water supply pipes installed on the top of the wall and the collecting well and installs a pump(92) between the pipes. [Reference numerals] (20) Front; (21) Rear; (87) Heating device
摘要翻译：目的：提供用于执行冷却和加热功能的建筑物的墙壁和屋顶，以通过从室内冷却或加热装置中直接排放的空气去除空气来维持愉快的室内环境。构成：用于执行冷却和加热功能的建筑物的墙壁和屋顶包括整体壁，喷射单元，冷却和加热单元，收集井（80）和安装单元。整理材料气密地粘附到壁的框架（10）的前侧和后侧，使得形成一体壁。管（50）和喷嘴安装在整体壁的内顶部，使得喷射单元喷射冷却并将水加热到框架内部。收集井和锅炉安装在建筑物的特定位置。管道连接收集井和冷却和加热装置（86,87）。安装单元连接安装在墙壁顶部和收集井上的冷却和加热供水管道，并在管道之间安装泵（92）。（附图标记）（20）（21）后（87）加热装置

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