公开(公告)号：KR1020150020307A

公开(公告)日：2015-02-25

申请号：KR1020140098797

申请日：2014-08-01

申请人： 아즈빌주식회사

发明人： 혼다미츠히로

IPC分类号： F24F11/02

CPC分类号： F24F11/001 ,  F24F11/30 ,  F24F2110/00 ,  F24F2110/10 ,  G05D23/1932 ,  F24F11/89

摘要： 열 해석 방법을 이용한 공조 제어에 있어서, 공조 공간의 외부로부터의 열 영향이 대폭 변동하여도, 공조 환경을 적절한 상황으로 유지한다.
데이터 입력부(15A)가, 공조 공간(30) 내에서 계측된, 공조 공간(30)을 구성하는 경계 부재의 표면 온도를 취득하고, 역해석부(15B)가, 공조 공간(30)의 구성을 나타내는 설정 조건 데이터(14B), 및 표면 온도를 포함하는 공조 공간 내의 공조 환경에의 영향을 나타내는 경계 조건 데이터(14A)에 기초하여, 공조 공간(30) 내의 공조 환경을 역해석함으로써, 공조 공간(30)을 목적 공조 환경으로 제어하기 위한 제어 설정값을 추정하며, 공조 지시부(15C)가, 역해석부(15B)에서 추정한 제어 설정값을 공조 시스템(20)에 지시한다.

摘要翻译： 在使用热分析方法的空调控制中，即使热效应从空调空间的外部大幅度变化，也可以在适当的情况下保持空调环境。 空调控制装置包括：数据输入部（15A），用于获得形成空调空间（30）内的空调空间（30）的边界构件的表面温度; 逆向分析单元（15B），用于通过基于边界条件数据（14A）逆向分析空调空间（30）内的空调环境来估计控制设定值以控制空调空间（30）作为目的空调环境 ）表示包含表面温度的空调空间内的空调环境的影响，以及表示空调空间（30）的结构的设定条件数据（14B）。 以及空调指示部（15C），其将在逆分析单元（15B）中估计的控制设定值指示给空调系统（20）。

公开(公告)号：KR101466901B1

公开(公告)日：2014-12-04

申请号：KR1020140024165

申请日：2014-02-28

申请人： 주식회사 개운테크노

发明人： 남상률

IPC分类号： F24D19/10 ,  G05D23/19

CPC分类号： F24D19/1015 ,  F24D2220/042 ,  G05D23/1917 ,  G05D23/1932

摘要： 본 발명에 의한 복수 구분 공간에 대한 균일 난방 방법은, 복수 구분 공간 중 가장 큰 단면적을 가지는 구분 공간에 대하여 제1 밸브 개폐도 및 제1 밸브 개폐도에 따른 제1 유량을 측정하는 1 단계와, 복수 구분 공간 중 나머지 구분 공간 중 어느 하나에 대하여 제2 밸브 개폐도 및 제2 밸브 개폐도에 따른 제2 유량을 측정하는 2 단계와, 제2 유량이 제1 유량과 동일하도록 제2 밸브의 개폐도를 조절하는 3 단계를 포함한다.

摘要翻译： 根据本发明的多个分隔空间的均匀加热方法包括：第一步骤，测量分隔空间中具有大横截面的分隔空间的第一阀切换速率，以及根据第一阀 开关率; 第二步骤，根据所述第二阀切换速度，测量所述分割空间中的任何一个剩余分割空间的第二阀切换速率和第二流量; 以及第三步骤，控制第二阀的切换速率以利用第一流量来识别第二流量。

公开(公告)号：KR1020090104266A

公开(公告)日：2009-10-06

申请号：KR1020080029612

申请日：2008-03-31

申请人： 린나이코리아 주식회사

发明人： 이상희 ,  장재영 ,  김충렬 ,  권기출 ,  이황의

IPC分类号： F24D19/10 ,  G05D23/19

CPC分类号： F24D19/1009 ,  F24D2220/042 ,  G05D23/1932 ,  G05D23/1935

摘要： PURPOSE: A heat control method using boiler heating water in a controlling system in each room is provided to increase a consumer's satisfaction and improve heating efficiency using a boiler. CONSTITUTION: A heat control method using boiler heating water in a controlling system in each room comprises following steps. A boiler is installed and a MICOM performs the testing working of the boiler. The number of the heating pipe flow metering valves which are opened for heating is counted. Whether the value of the opened heating pipe flow metering valve is 0 or not is confirmed. In case of "0", a heating off mode of the boiler is performed. In case the value of the opened heating pipe flow metering valve is not "0", a heating on mode of the boiler is performed. The target flow of each heating pipe is calculated according to the pipe length rate of each room connected corresponding to the number of the opened heating pipe flow metering valve(S6). Each heating pipe flow metering valve is opened according to the calculated target flow.

摘要翻译： 目的：提供在每个房间的控制系统中使用锅炉加热水的热控制方法，以增加消费者的满意度并提高使用锅炉的加热效率。 构成：在每个房间的控制系统中使用锅炉加热水的热控制方法包括以下步骤。 安装锅炉，MICOM执行锅炉的测试工作。 对加热开放的加热管流量计量阀的数量进行计数。 确认打开的加热管流量计阀的值是否为0。 在“0”的情况下，执行锅炉的加热关闭模式。 在打开的加热管流量计量阀的值不为“0”的情况下，执行锅炉的加热加热模式。 每个加热管的目标流量根据与打开的加热管流量计量阀的数量相对应的每个房间的管道长度速率来计算（S6）。 每个加热管流量计量阀根据计算的目标流量打开。

公开(公告)号：KR1020090097331A

公开(公告)日：2009-09-16

申请号：KR1020080022404

申请日：2008-03-11

申请人： 한국건설기술연구원

发明人： 이태원 ,  김용기

IPC分类号： F24D19/10 ,  G05D23/19

CPC分类号： F24D19/1015 ,  F24D2220/044 ,  G05D23/1932

摘要： A heat supply method using calibration data is provided to minimize the installation of sensors, wiring or valve driving device and to supply uniform heat to heating spaces of different dimensions by controlling the manual valve so that the instant volumetric flux of each heating space reaches a correction flow rate. A heat supply method using calibration data is as follows. Manual valves(300) are all closed. One of the manual valves belonging to one heating space is opened. The instant volumetric flux of hot water is measured using a heating gauge(400). The instant volumetric flux for each heating space is measured by repeating the manual valve selecting/opening step and the flux measuring step. The ratio between a reference pipe length and the pipe length corresponding to each heating space is calculated. A correction flow rate of each heating space to be corrected is calculated. The opening degree of the manual valves is controlled so that the ratios between the flow rates measured in the heating gauge are equal.

摘要翻译： 提供使用校准数据的供热方法，以最小化传感器，布线或阀驱动装置的安装，并且通过控制手动阀使得每个加热空间的瞬时体积通量达到校正来向不同尺寸的加热空间提供均匀的热量 流量。 使用校准数据的供热方法如下。 手动阀（300）全部关闭。 属于一个加热空间的手动阀之一被打开。 使用加热计（400）测量热水的即时体积通量。 通过重复手动阀选择/打开步骤和通量测量步骤来测量每个加热空间的瞬时体积通量。 计算参考管长度和对应于每个加热空间的管道长度之间的比率。 计算要校正的每个加热空间的校正流量。 控制手动阀的开度，使得在加热表中测量的流量之间的比率相等。

公开(公告)号：KR100857377B1

公开(公告)日：2008-09-05

申请号：KR1020080051398

申请日：2008-06-02

申请人： 코오롱글로벌 주식회사

发明人： 이경근

IPC分类号： F24D19/10 ,  G05D23/19 ,  F24D3/10

CPC分类号： F24D19/1015 ,  F24D3/105 ,  F24D3/1066 ,  F24D2220/0228 ,  F24D2220/042 ,  G05D23/1932

摘要： A zonal heating system is provided to equip a heating system for getting same indoor air temperature and a heating system for getting higher floor temperature at a certain zone of the floor. In addition, expense for heating is reduced by having two separate heating systems. A zonal heating system has a first heat piping system(P1) for heating a first zone(Z1) which is a non-residential zone of a room, a second heat piping system(P2) for heating a second zone(Z2) which is a main residential zone of a room, a first valve(V1) for adjusting amount of hot water supply to the first zone, a second valve(V2) for adjusting amount of hot water supply to the second zone, a temperature controller(RC1) which measures and controls air temperature of the first zone and the second zone while controlling floor temperature of the second zone, a first temperature sensor(W1) which senses temperature of returned hot water after circulating the first zone, a second temperature sensor(W2) which senses temperature of returned hot water after circulating the second zone, a first and a second proportional control valve which control opening of heating valves, and a boiler(BCP) which is electrically connected to the valve controller and controls a burner and a circulator pump(P) individually.

摘要翻译： 提供一个区域供暖系统，以配备一个加热系统以获得相同的室内空气温度和一个加热系统，以在地板的某一区域获得更高的地板温度。 此外，通过具有两个单独的加热系统来减少加热费用。 区域加热系统具有用于加热作为室内非居住区域的第一区域（Z1）的第一热管道系统（P1），用于加热第二区域（Z2）的第二热管道系统（P2） 房间的主要住宅区域，用于调节到第一区域的热水供应量的第一阀门（V1），用于调节到第二区域的热水供应量的第二阀门（V2），温度控制器（RC1） 其控制第一区域和第二区域的空气温度，同时控制第二区域的地板温度;第一温度传感器（W1），其感测在循环第一区域之后返回的热水的温度;第二温度传感器（W2） 其检测第二区域循环后返回的热水的温度，控制加热阀打开的第一和第二比例控制阀，以及电连接到阀控制器并控制燃烧器和循环泵的锅炉（BCP） （P） dividually。

公开(公告)号：KR1020020021054A

公开(公告)日：2002-03-18

申请号：KR1020010056135

申请日：2001-09-12

申请人： 도쿄엘렉트론가부시키가이샤

发明人： 왕웬링 ,  사카모토고이치 ,  스즈키후지오 ,  야스하라모유루 ,  샤수닐 ,  팬디프래딥 ,  에릭슨마크

IPC分类号： H01L21/324

CPC分类号： H01L21/67109 ,  C23C16/46 ,  C23C16/52 ,  C30B31/18 ,  F27D19/00 ,  F27D21/0014 ,  G05D23/1932 ,  H01L21/67248

摘要： PURPOSE: To estimate an accurate temperature for a heat treatment equipment by estimating the temperature of a substance to be treated in order to perform the heat treatment of the substance. CONSTITUTION: A reactive pipe 2 is provided with heaters 31-35, temperature sensors Sin1-Sin5 and Sout1-Sout5 and houses a wafer boat 23. A control part 100 estimates the temperatures of wafers W of five zones corresponding to the heaters 31-35 of the pipe 2 and also the temperatures of sensors Sin1-Sin5 by means of the electric power of the sensors Sin1-Sin5, Sout1-Sout5 and the heaters 31-35. The functions f1-f5 showing the relation between the estimated temperature and actual temperature of every zone are calculated from the relation of estimated and actual temperatures among sensors Sin1-Sin5. The estimated wafer temperatures are substituted for the functions f1-f5 for correcting the wafer temperatures. The electric power supplied to the heaters 31-35 are individually controlled so that the corrected wafer temperatures are converged on a target temperature track.

摘要翻译： 目的：通过估计待处理物质的温度以进行物质的热处理来估计热处理设备的准确温度。 构成：反应管2设置有加热器31-35，温度传感器Sin1-Sin5和Sout1-Sout5并容纳晶片舟23.控制部件100估计对应于加热器31-35的五个区域的晶片W的温度 并且还通过传感器Sin1-Sin5，Sout1-Sout5和加热器31-35的电力传递Sin1-Sin5传感器的温度。 表示各区域的估计温度与实际温度之间的关系的函数f1-f5根据传感器Sin1-Sin5中估计温度与实际温度的关系计算。 估计的晶片温度代替用于校正晶片温度的功能f1-f5。 供给到加热器31-35的电力被单独控制，使得校正的晶片温度会聚在目标温度轨道上。

公开(公告)号：KR101499167B1

公开(公告)日：2015-03-06

申请号：KR1020140073789

申请日：2014-06-17

申请人： 홍성정 ,  홍창의

发明人： 홍성정 ,  홍창의

IPC分类号： F24D19/10 ,  G05D23/19

CPC分类号： F24D19/1015 ,  F24D2220/042 ,  G05D23/1917 ,  G05D23/1932

摘要： 개별 난방 시스템에서 최소 난방을 하는 경우 온수 순환이 원활하지 않아 발생하는 난방 과열을 방지하고, 보일러의 잦은 동작으로 인한 불착화현상(Hunting 현상)을 방지하도록 한 난방 제어장치 및 그 방법에 관한 것으로서, 각 실의 난방 온도를 설정하거나 난방 여부를 결정하기 위한 복수의 온도 조절기; 및 상기 복수의 온도 조절기에 의해 설정되는 난방 온도에 따라 각 실의 온수 유량을 제어하며, 최소 난방이 요청될 경우 맨 마지막으로 동작하는 최종 자동제어밸브의 개도를 최대로 개방한 후 상기 최종 자동제어밸브 이전에 폐쇄 요청되는 자동제어밸브를 폐쇄하는 제어기를 포함하고, 상기 제어기는 최소 난방을 수행하는 상태에서 최종 자동제어밸브 이외의 자동제어밸브의 개방이 요청되면, 그 개방 요청된 자동제어밸브의 개도 량을 난방 온도에 따라 조절한 후, 상기 최종 자동제어밸브의 개도 량을 원래의 개도 량으로 복귀시켜, 난방 과열을 방지하고 불착화현상을 방지한다.

摘要翻译： 本发明涉及一种加热控制系统和加热控制方法，用于防止由于在单个加热系统中的最小加热期间锅炉的频繁操作引起的热水的不平滑循环和狩猎而导致的过热。 加热控制系统包括：多个恒温器，用于设定每个房间的加热温度或者确定是否执行每个房间的加热; 以及控制器，根据由恒温器设定的加热温度来控制每个房间的热水量，并且在打开最终自动控制阀之后关闭在最终自动控制阀之前要求关闭的自动控制阀，最终自动控制阀最终 在要求最小加热的情况下达到最大值，其中控制器通过根据加热温度调节要求打开的自动控制阀的打开速率来防止过热和起搏，并返回最终自动化的开启速度 在进行最小加热的状态下要求最终自动控制阀以外的自动控制阀的打开时，控制阀达到原来的开度。

公开(公告)号：KR1020140146944A

公开(公告)日：2014-12-29

申请号：KR1020130069941

申请日：2013-06-18

申请人： 주식회사 유로

发明人： 조휴천

IPC分类号： F24D13/04 ,  A47C21/04 ,  F24D19/10 ,  G05D23/19

CPC分类号： F24D13/04 ,  A47C21/048 ,  F24D19/1096 ,  F24D2220/042 ,  G05D23/1917 ,  G05D23/1932

摘要： The present invention relates to a boiler apparatus forming two or more heating sections wherein two or more heating tubes receiving heating fluid from a single boiler apparatus are capable of separately forming partial heating sections of different heating temperatures, and a heating mat using the same. According to the present invention, a heating mat includes: a boiler apparatus including a boiler heating and discharging supplied fluid; a plurality of heating tubes separately receiving the heated fluid from the boiler, and reintroducing the fluid to the boiler after guiding the fluid along the heating sections; a fluid distribution unit installed in the joint portions among the boiler, and the heating tubes to control a supply condition of the fluid heated by the boiler to the heating tubes; a plurality of temperature sensors respectively installed in the heating tubes to respectively detect heating temperatures of the heating tubes; and a control unit controlling the fluid supply control condition of the fluid distribution unit with respect to the heating tubes based on the heating temperatures of the heating tubes sent from the temperature sensors, and a mat installed adjacent to the boiler apparatus while the heating tubes are embedded therein to form a plurality of heating sections in accordance to the different heating temperatures of the heating tubes.

摘要翻译： 锅炉装置技术领域本发明涉及形成两个以上的加热部的锅炉装置，其中从单个锅炉装置接收加热流体的两个以上的加热管能够分别形成不同加热温度的部分加热部，以及使用该加热部的加热垫。 根据本发明，一种加热垫包括：锅炉装置，包括锅炉加热和排放供应流体; 多个加热管分别从锅炉接收加热的流体，并且在沿着加热部分引导流体之后将流体重新引入到锅炉中; 安装在锅炉和加热管之间的接合部分中的流体分配单元，用于控制由锅炉加热到的加热管的供给状态; 多个温度传感器分别安装在加热管中，分别检测加热管的加热温度; 以及控制单元，其基于从所述温度传感器发送的所述加热管的加热温度和与所述锅炉设备相邻设置的垫来控制所述流体分配单元相对于所述加热管的流体供应控制状态，而所述加热管为 嵌入其中以根据加热管的不同加热温度形成多个加热部分。

公开(公告)号：KR1020140085788A

公开(公告)日：2014-07-08

申请号：KR1020120155287

申请日：2012-12-27

申请人： 주식회사 경동원

发明人： 김용석 ,  진규호

IPC分类号： F24D19/10 ,  G05D23/19 ,  H04Q9/00

CPC分类号： F24D19/1015 ,  F24D2220/042 ,  G05D23/1932 ,  H04Q9/00

摘要： The present invention relates to a wireless separate room control system controlled by a separate room valve controller. The wireless separate room control system comprises: a plurality of separate room valves installed on hot water pipes in each room to control the quantity of hot water supplied to each room; a plurality of operators which are coupled to each of the separate room valves to control the opening amount of the separate room valves; a main room controller and at least one separate room controller which are installed indoor, directly and wirelessly communicate with the separate room valve controller to control heating room with a wireless communication unit, and receives power through a battery; and a separate room valve controller which includes a wireless and wire communication unit, a control unit, and a storing unit to control an operator for a separate room valve and a complex valve by processing and analyzing data received from a temperature sensor and data with respect to the heating of a separate room received from the main room controller or the separate room controller and to store a communication channel, an ID, and time to set wireless communication of the main room controller and the separate room controller. Therefore, the wireless separate room control system can increase convenience in installation by removing an unnecessary incoming line by having the battery type main room controller because large electricity consumption is not required for the main room controller. If the main room controller malfunctions, the wireless separate room control system can control separate room valves using the separate room controller in other room on behalf of the main controller under any circumstances.

摘要翻译： 本发明涉及由单独的室内阀控制器控制的无线分离室控制系统。 无线单独房间控制系统包括：安装在每个房间的热水管上的多个单独的房间阀，以控制供应到每个房间的热水量; 多个操作器，其联接到每个单独的室内阀门以控制分开的室内阀的打开量; 主室控制器和至少一个独立的室内控制器，其安装在室内，与单独的室内阀门控制器直接和无线地通信，以与无线通信单元控制加热室，并通过电池接收电力; 以及单独的室内阀控制器，其包括无线和有线通信单元，控制单元和存储单元，用于通过处理和分析从温度传感器接收的数据和相关数据来控制单独室内阀和复合阀的操作者 对从主室控制器或单独房间控制器接收的单独房间的加热，并存储通信信道，ID和时间以设置主室控制器和单独房间控制器的无线通信。 因此，无线分体室控制系统可以通过由于主室控制器不需要大量的电力消耗而通过使电池式主室控制器移除不必要的输入线来提高安装方便性。 如果主室控制器发生故障，无线单独房间控制系统可以在任何情况下代表主控制器在其他房间内使用单独的房间控制器来控制单独的房间阀门。

公开(公告)号：KR1020130131266A

公开(公告)日：2013-12-03

申请号：KR1020130126031

申请日：2013-10-22

申请人： 네이버비즈니스플랫폼 주식회사

发明人： 류근호 ,  노상민 ,  이정환 ,  김재필

IPC分类号： G05D23/00

CPC分类号： G05D23/1932

摘要： A temperature management system of a data center having multiple servers according to the present invention comprises: a supply unit for supplying adjusted air for adjusting an internal temperature of a data center; a first management unit, connected to the supply unit, for receiving the adjusted air and forming a first temperature area of the data center; a second management unit, connected to the first temperature area, for receiving the adjusted air heated by a server prepared in the first temperature area and forming a second temperature area of the data center neighboring with the first temperature area; a collection unit, connected to the second temperature area, for collecting and recooling the adjusted air; and a guide means for guiding the first and second management units to collect the adjusted air without a leakage of the adjusted air to the collection unit through the first and second temperature areas. According to this constitution, energy efficiency is improved as the adjusted air is efficiently used.

摘要翻译： 根据本发明的具有多个服务器的数据中心的温度管理系统包括：供应单元，用于供应用于调节数据中心内部温度的调节空气; 第一管理单元，连接到供应单元，用于接收经调节的空气并形成数据中心的第一温度区域; 第二管理单元，连接到第一温度区域，用于接收由在第一温度区域中制备的服务器加热的调节空气，并形成与第一温度区域相邻的数据中心的第二温度区域; 收集单元，连接到第二温度区域，用于收集和重新冷却经调节的空气; 以及引导装置，用于引导第一和第二管理单元收集经调节的空气，而不会经由第一和第二温度区域将经调节的空气泄漏到收集单元。 根据该构成，随着调节空气的有效利用，能效提高。