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公开(公告)号:KR101900901B1
公开(公告)日:2018-09-27
申请号:KR1020120057800
申请日:2012-05-30
Applicant: 삼성전자주식회사
Abstract: 본발명은냉매관을통해연결된압축기, 제1열교환기, 제1팽창밸브를가지는적어도하나의실외기와, 냉매관을통해실외기에연결된제2열교환기를가지는적어도하나의실내기를포함하는공기조화기의제어방법에있어서, 제1열교환기의주변온도및 제1열교환기의연결된액관의온도를검출하고, 냉매관중 고압측의냉매관의압력을검출하고, 검출된압력에기초하여포화온도를산출하고, 산출된포화온도와액관의온도에기초하여실제과냉도를산출하고, 주변온도에기초하여목표과냉도를산출하고, 실제과냉도와목표과냉도를이용하여냉매량의적정여부를 1차검지하고, 냉매관및 제2열교환기의설계정보가존재하는지판단하고, 설계정보가비존재하면실제과냉도와주변온도에기초하여냉매량의적정여부를 2차검지하고, 설계정보가존재하면설계정보, 실제과냉도와주변온도에기초하여냉매량의적정여부를 3차검지하고, 검지된냉매량의적정여부를출력한다. 본발명은냉매량을검지하고충전하는속도와정확도를향상시킬수 있고, 이에따라공기조화기의성능과신뢰성을확보할수 있고설치업자및 소비업자는냉매충전에따른비용을절약할수 있고, 냉매량검지, 공기조화기설치및 수리에따른시간을단축할수 있다.
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公开(公告)号:KR1020150045753A
公开(公告)日:2015-04-29
申请号:KR1020130125406
申请日:2013-10-21
Applicant: 삼성전자주식회사
CPC classification number: F28D1/05325 , F25B39/028 , F28D1/05375 , F28D1/05391 , F28F9/0212 , F28F9/0263 , F28F9/0265
Abstract: 본발명은헤더의단면적을가변시켜냉매를효과적으로분배하는열교환기및 이를갖는공기조화기에관한것이다. 열교환기는서로이격배치되는복수의냉매튜브, 복수의냉매튜브의양단에결합되는헤더, 복수의냉매튜브를동일한방향으로냉매를유동시키는상호인접한복수의그룹으로구분하고, 헤더를흐르는냉매의길이방향유동을차단하는적어도하나의배플, 같은그룹으로구분된복수의냉매튜브에냉매를고르게분배하기위해, 헤더의단면적을가변시키도록설치되는부스터를포함한다. 헤더의단면적을가변시키는부스터로인해, 헤더를흐르는냉매가복수의냉매튜브로효과적으로분배될수 있다.
Abstract translation: 本发明涉及一种热交换器和具有该热交换器的空调,由此通过改变头部的横截面来有效地分配制冷剂。 热交换器包括:彼此分开设置的多个制冷剂管; 联接到所述多个制冷剂管的两端的头部; 至少一个挡板,用于将所述多个制冷剂管分成彼此互连的多个组,以允许制冷剂沿相同方向流动,并且阻断流过所述头部的制冷剂的纵向流动; 以及安装以改变头部的横截面的增压器,以便均匀地分配在分组在同一组中的多个制冷剂管中的制冷剂。
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公开(公告)号:KR1020130134348A
公开(公告)日:2013-12-10
申请号:KR1020120057800
申请日:2012-05-30
Applicant: 삼성전자주식회사
Abstract: The present invention, for a control method of an air conditioner including one or more outdoor units with a compressor, a first heat exchanger, and a first expanding valve connected through a refrigerant pipe and one or more indoor units with a second heat exchanger connected to the outdoor units through the refrigerant pipe, detects the surrounding temperature of the first heat exchanger and the temperature of a liquid pipe of the first heat exchanger, detects pressure of a refrigerant pipe on a high pressure side among refrigerant pipes, calculates saturation temperature based on the detected pressure, calculates an actual subcooling degree based on the temperature of the liquid pipe and the saturation temperature, calculates a target subcooling degree based on the surrounding temperature, primarily detects an optimum level of a refrigerant amount by using the actual subcooling degree and the target subcooling degree, determines design information of the refrigerant pipe and the second heat exchanger, secondarily detects the optimum level of the refrigerant amount based on the surrounding temperature and the actual subcooling degree when the design information does not exist, thirdly detects the optimum level of the refrigerant amount based on the surrounding temperature and the actual subcooling degree when the design information exists, and outputs the optimum level of the refrigerant amount. The present invention improves the accuracy and speed of detecting and charging the refrigerant amount, secures the reliability and performance of the air conditioner, enables an installer and a consumer to save costs for charging a refrigerant, and reduces time for installing and repairing the air conditioner and detecting the refrigerant amount. [Reference numerals] (601) Select a refrigerant amount detection mode;(602) Operate the refrigerant amount detection mode;(603) Calculate an actual subcooling degree and a target subcooling degree by using an outdoor temperature, a liquid pipe temperature, and a saturation temperature;(604) Compare the actual subcooling degree with the target subcooling degree;(605) Refrigerant amount is under the constant amount ?;(606) Calculate additional charging refrigerant amount;(607) Calculate porosity by using the actual subcooling degree and the outdoor temperature;(608) A
Abstract translation: 本发明涉及一种包括一个或多个具有压缩机的室外机的空调器的控制方法,第一热交换器和通过制冷剂管连接的第一膨胀阀和一个或多个室内单元,第二热交换器连接到 通过制冷剂管的室外机检测第一热交换器的周围温度和第一热交换器的液体管的温度,检测制冷剂管道中的高压侧的制冷剂管的压力,基于 检测压力基于液体管的温度和饱和温度计算实际过冷度,基于周围温度计算目标过冷度,主要通过使用实际过冷度检测制冷剂量的最佳水平,并且 目标过冷度,确定制冷剂管道的设计信息和秒 在设计信息不存在的情况下,二次检测基于周围温度和实际过冷度的制冷剂量的最佳水平,三是根据周围温度和实际过冷度检测制冷剂量的最佳水平 当存在设计信息时,输出制冷剂量的最佳水平。 本发明提高了制冷剂量的检测和充电的精度和速度,确保了空调的可靠性和性能,使得安装者和消费者能够节省对制冷剂的充电成本,并且减少了安装和修理空调的时间 并检测制冷剂量。 (附图标记)(601)选择制冷剂量检测模式;(602)运行制冷剂量检测模式;(603)使用室外温度,液体管道温度以及液体管道温度计算实际过冷度和目标过冷度 饱和温度;(604)将实际过冷度与目标过冷度进行比较;(605)制冷剂量处于恒定量α;(606)计算额外的充注制冷剂量;(607)使用实际过冷度计算孔隙度, 室外温度;(608)A <=孔隙率<= B?;(609)确定适当的制冷剂量;(610)孔隙率
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公开(公告)号:KR1020130134347A
公开(公告)日:2013-12-10
申请号:KR1020120057799
申请日:2012-05-30
Applicant: 삼성전자주식회사
Abstract: The present invention includes: a detecting unit which detects operation information at a plurality of spots on a refrigerant cycle; a storing unit which stores the information of the size of components installed in an outdoor unit and an indoor unit; and a control unit which calculates the amount of a refrigerant existing inside each component based on the operation information and the information of the size of the components detected by the detection unit and senses a total amount of the refrigerant flowing by adding up the calculated amount of the refrigerant existing inside each components and improves the sensing accuracy of the amount of the refrigerant. [Reference numerals] (410) Is a selection signal of a refrigerant amount detection mode inputted?;(420) Start the refrigerant amount detection;(430) Obtain information on outdoor unit model and indoor unit information;(440) Obtain information on the size of each part;(450) Obtain operation information on a refrigerant cycle;(460) Calculate the amount of refrigerants in each part;(470) Add the calculated amount of refrigerants of each part;(480) Calculate the accuracy of detection;(490) Display the detection result of the amount of refrigerants;(AA) Start;(BB) No;(CC) Yes;(DD) End
Abstract translation: 本发明包括:检测单元,其在制冷剂循环的多个点处检测运行信息; 存储单元,其存储安装在室外单元和室内单元中的组件的尺寸的信息; 以及控制单元,其基于操作信息和由检测单元检测到的部件的尺寸的信息来计算存在于每个部件内的制冷剂的量,并且通过将计算出的计算量相加来感测流过的制冷剂的总量 存在于各部件内的制冷剂,提高制冷剂量的检测精度。 (410)输入制冷剂量检测模式的选择信号α;(420)开始制冷剂量检测;(430)获取室外机型号和室内机信息的信息;(440)获取关于 (450)获取制冷剂循环的运行信息;(460)计算各部分的制冷剂量;(470)添加计算出的各部分的制冷剂量;(480)计算检测精度; (490)显示制冷剂量的检测结果;(AA)开始;(BB)否;(CC)是;(DD)结束
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公开(公告)号:KR1020040051928A
公开(公告)日:2004-06-19
申请号:KR1020020079626
申请日:2002-12-13
Applicant: 삼성전자주식회사
Inventor: 김성록
IPC: H04L12/24
CPC classification number: H04L41/147 , H04L41/5045 , H04L41/5064
Abstract: PURPOSE: A method for previously analyzing subscriber characteristics through collective subscriber statistics of an ADSL EMS(Element Management System) is provided to easily analyze subscribers by collectively analyzing subscriber information and periodically obtaining data. CONSTITUTION: Data is automatically collected by using an SNMP(Simple Network Management Protocol) from an NE(Network Element) to an EMS(S301). It is checked whether a modem has an error according to the collected data(S302). If there is a change in the modem such as connection or disconnection(S303), the EMS is informed the changed particulars by using a message called an event(S304). The EMS makes received subscriber characteristics information a database and registers it in an EMS DB(S305). Input kinds are variously classified and analyzed by using the registered database(S306). The EMS selects input items according to required items and obtains an output suitable for selected input conditions in performing statistics on pertinent facilities by using the information collected from the NE(S307). A corresponding file is transmitted to an NMS(Network Management System)(S308).
Abstract translation: 目的:提供一种通过ADSL EMS(元素管理系统)的集体用户统计信息先前分析用户特性的方法,通过集体分析用户信息和定期获取数据来轻松分析用户。 规定:使用从网元(网元)到EMS(S301)的SNMP(简单网络管理协议)自动收集数据。 根据收集的数据检查调制解调器是否有错误(S302)。 如果调制解调器如连接或断开(S303)发生变化,则通过使用称为事件的消息来通知EMS更改的详细信息(S304)。 EMS将用户特征信息接收到数据库,并将其注册到EMS DB中(S305)。 通过使用注册数据库对输入种类进行各种分类和分析(S306)。 EMS根据需要选择输入项目,并通过使用从NE收集的信息获得适合所选输入条件的输出,以对相关设施进行统计(S307)。 相应的文件被传送到网管(Network Management System,网络管理系统)(S308)。
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Patent Agency Ranking
公开(公告)号:KR1020030073690A
公开(公告)日:2003-09-19
申请号:KR1020020013364
申请日:2002-03-12
Applicant: 삼성전자주식회사
Inventor: 김성록
IPC: H04L12/24
CPC classification number: H04L41/0213 , H04L41/046 , H04L69/22
Abstract: PURPOSE: An IPC(Inter Process Communication) structure for an NMS(Network Management System) is provided to manage various communication equipments and networks in one NMS by integrating the structure of an IPC used in the NMS. CONSTITUTION: An IPC processing scheme is defined in an SCP(Service Access Point) region indicating portion in an NMS. A format of information, with respect to the length of a protocol data unit and the existence of another file or a transmission unit logically or physically associated with the length of the protocol data unit, is defined in a header indicating portion. A format of information to a destination of a message and a last end destination of a managed object system is defined in a destination indicating portion. A format of a message corresponding to data attribute information to be transmitted to a destination system is defined in a data indicating portion.
Abstract translation: 目的:通过整合NMS中使用的IPC的结构,提供了一种网管系统(IPC)的IPC(Inter Process Communication)结构,用于管理一个网管系统中的各种通信设备和网络。 构成:在NMS中的SCP(服务访问点)区域指示部分中定义IPC处理方案。 关于协议数据单元的长度和与协议数据单元的长度逻辑或物理相关联的另一文件或传输单元的存在的信息格式被定义在标题指示部分中。 在目的地指示部分中定义到目的地的信息格式和被管理对象系统的最后终点目的地。 在数据指示部分中定义与要发送到目的地系统的数据属性信息相对应的消息的格式。
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公开(公告)号:KR2019990015121U
公开(公告)日:1999-05-15
申请号:KR2019970028337
申请日:1997-10-13
Applicant: 삼성전자주식회사
Inventor: 김성록
IPC: H04N5/225
Abstract: 본 고안은 정보 기록이 가능한 디지탈 카메라에 관한 것으로, 촬영된 이미지를 디지탈 신호로 처리하여 저장하는 디지탈 카메라에 있어서, 일정한 각도로 틸트(Tilt)되어 형성된 전면에 광학모듈을 형성하고 저면에 메모리 카드가 장착되도록 암접속부와 전자팬 암접속부가 형성된 본체부와, 상기 본체부의 상면에 일체로 형성된 정보를 기록할 수 있는 정보기록판넬과, 상기 본체부 저면에 형성된 전자팬 암접속부에 장탈착되어 상기 정보기록판넬에 정보를 입력하는 전자팬을 구성하여, 촬영된 이미지 정보 내지는 기타 다른 정보를 저장할 수 있게 되어 디지탈 카메라의 이용 효율을 높일 수 있도록 함에 있다.
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