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公开(公告)号:KR1020130074149A
公开(公告)日:2013-07-04
申请号:KR1020110142042
申请日:2011-12-26
Applicant: 군산대학교산학협력단
Inventor: 이상희
IPC: C07D409/12 , C09B49/04 , H01L31/042
CPC classification number: Y02E10/542 , C07D409/12 , C07D409/14 , C09B49/06 , H01L31/042
Abstract: PURPOSE: A novel organic dye is provided to minimize dye accumulation by a unique structure that two planes crosses, to enhance bonding strength of the dye onto the surface of TiO_2, and to be used as a solar cell with high photoelectric conversion efficiency and stability. CONSTITUTION: A KS-5 derivative is denoted by chemical formula 1. A method for preparing KS-5 of chemical formula 1 comprises the steps of: synthesizing N1,N4-bis- (4-bromophenyl)-N1,N4-diphenylbenzene-1,4-diamine using two L1 molecules of chemical formula 2 (2P); synthesizing 5,5'- (4,4' (1,4-phenylenebis (phenylazanediyl)bis (4,1-phenylene)dithiophen-2-carbaldehyde using the synthesized product of 2P (3P); synthesizing phenylene bis (phenylazanediyl)bis (4,1-phenylene)bis (thiophene-5,2-diyl))bis (2-cyanoacrylate) using the synthesized product of 3P (4P); and synthesizing (2E,2'E)-3,3'- (5,5'- (4,4'- (1,4-phenylene bis (phenylazanediyl)bis (4,1-phenylene)bis (thiophene-5,2-diyl))bis (2-cyanoacrylic acid) (KS-5) using the synthesized product of 4P. An organic dye for a dye-sensitized solar cell contains the KS-5 derivative of chemical formula 1.
Abstract translation: 目的:提供一种新颖的有机染料,以通过两个平面交叉的独特结构使染料累积最小化,以增强染料在TiO_2表面的粘合强度,并用作具有高光电转换效率和稳定性的太阳能电池。 构成:化学式1表示KS-5衍生物。制备化学式1的KS-5的方法包括以下步骤:合成N1,N4-双 - (4-溴苯基)-N1,N4-二苯基苯-1 ,使用化学式2(2P)的两个L1分子的4-二胺; 使用2P(3P)的合成产物合成5,5'-(4,4'-(1,4-亚苯基双(苯基偶氮二基)双(4,1-亚苯基)二噻吩-2-基甲醛;合成亚苯基双(苯基偶氮二基)双 (4P)的合成产物的(4,1-亚苯基)双(噻吩-5,2-二基)双(2-氰基丙烯酸酯);和合成(2E,2'E)-3,3'-( 5,5'-(4,4'-(1,4-亚苯基二亚烷基二基)双(4,1-亚苯基)双(噻吩-5,2-二基))双(2-氰基丙烯酸)(KS- 5)使用4P的合成产物。染料敏化太阳能电池的有机染料含有化学式1的KS-5衍生物。
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公开(公告)号:KR101277957B1
公开(公告)日:2013-06-27
申请号:KR1020110142319
申请日:2011-12-26
Applicant: 군산대학교산학협력단
Inventor: 심현
Abstract: PURPOSE: A chemical distributor is provided to quickly and accurately discharge the chemicals of a chemical storage part when a user inputs information on required chemicals through an input part. CONSTITUTION: A chemical distributor comprises a body part, a chemical storage part(120), a container storage part(130), a measuring part(140), a moving part(150), and a control part. An input part is arranged on the outer surface of the body part. The chemical storage part is positioned inside the body part. The container storage part stores a container(131) for receiving chemicals discharged from the inside of the body part to the chemical storage part. The measuring part measures the weight of the chemicals discharged from the chemical storage part. The moving part moves the container. The control part controls the discharge of the chemicals from the chemical storage part and the movement of the measuring part according to information inputted by the input part.
Abstract translation: 目的:当用户通过输入部分输入所需化学品的信息时,提供化学分配器,以快速准确地排放化学品储存部件的化学物质。 构成:化学分配器包括主体部分,化学品储存部分(120),容器储存部分(130),测量部分(140),移动部分(150)和控制部分。 输入部分布置在主体部分的外表面上。 化学品储存部分位于身体部分的内部。 容器收纳部容纳用于接收从身体部分的内部排出的化学物质储存部的容器(131)。 测量部件测量从化学品储存部件排出的化学品的重量。 移动部分移动容器。 控制部根据由输入部输入的信息,控制化学物质从化学物质储存部排出的位置和测量部的移动。
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公开(公告)号:KR101274730B1
公开(公告)日:2013-06-17
申请号:KR1020120112740
申请日:2012-10-11
Applicant: 군산대학교산학협력단
CPC classification number: G01N23/207 , G01N2223/056 , G01N2223/1016 , H01M10/48 , Y02E60/12
Abstract: PURPOSE: An in-situ battery frame for analyzing X-ray diffraction is provided to prevent the movement of a cell by adding pressure properly to the cell using a cell fixing plate and a spring which are installed inside. CONSTITUTION: An in-situ battery frame for analyzing X-ray diffraction comprises a cell body(20), an upper plate(40), a lower plate(10), a beryllium plate(30), a cell fixing plate(60), and an insulating sheet(50). The insulating sheet, the beryllium plate, and the upper plate are joined to the top surface of the cell body in regular sequences. The lower plate is joined to the underside of the cell. A cell(80) is arranged inside the cell body. The cell is fixed between the cell fixing plate and the insulating sheet by a spring(61) positioned underneath the cell fixing plate. The cell fixing plate includes a cell fixing plate spring groove and an O-ring groove(25). The spring is mounted on the cell fixing plate spring groove to fix the cell. The O-ring groove is formed in the lateral surface of the cell fixing plate for fixing an O-ring(70).
Abstract translation: 目的:提供用于分析X射线衍射的原位电池框架,以通过使用安装在内部的电池固定板和弹簧向电池适当添加压力来防止电池的移动。 构成:用于分析X射线衍射的原位电池框架包括电池体(20),上板(40),下板(10),铍板(30),电池固定板(60) 和绝缘片(50)。 绝缘片,铍板和上板以规则顺序连接到电池体的顶表面。 下板连接到电池的下侧。 细胞(80)布置在细胞体内。 电池通过位于电池固定板下方的弹簧(61)固定在电池固定板和绝缘片之间。 电池固定板包括电池固定板弹簧槽和O形环槽(25)。 弹簧安装在电池固定板弹簧槽上以固定电池。 O形环槽形成在电池固定板的用于固定O形环(70)的侧表面中。
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公开(公告)号:KR101261201B1
公开(公告)日:2013-05-10
申请号:KR1020130009054
申请日:2013-01-28
Applicant: 군산대학교산학협력단
Abstract: PURPOSE: A door collision preventing device is provided to prevent collision accidents with a next vehicle, a column, or a wall when the door is opened. CONSTITUTION: A door collision preventing device(100) of a vehicle comprises a checker arm(110), a wire(120), a guide unit(130), an armature(140), a cover bracket(150), an electromagnet(160), an elastic member(170), a sensor(180), and a control unit(190). The checker arm is connected to the vehicle with a hinge, and the wire is connected to the checker arm and the armature. The guide unit guides the wire by being installed in the center of the wire and comprises a roller(132). The armature is guided by the cover bracket to slide and is connected to the wire and the elastic member. The cover bracket wraps the armature and the electromagnet, and the electromagnet supplies power to stop the armature. The elastic member applies an elastic force to the armature when a vehicle door is opened or closed. The sensor senses the obstacles or objects near the door when the vehicle door is opened. The control unit operates the electromagnet according to the sensing signals of the sensor. [Reference numerals] (180) Sensor; (190) Control unit
Abstract translation: 目的:提供门防撞装置,以防止门打开时下一车辆,立柱或墙壁发生碰撞事故。 构成:车辆的防碰撞装置(100)包括检查臂(110),线(120),引导单元(130),电枢(140),盖支架(150),电磁体 160),弹性构件(170),传感器(180)和控制单元(190)。 检查臂用铰链连接到车辆,并且电线连接到检查臂和电枢。 引导单元通过安装在电线的中心来引导电线,并且包括辊(132)。 电枢由盖支架引导以滑动并连接到电线和弹性构件。 盖架包裹电枢和电磁铁,电磁铁供电停止电枢。 当车门打开或关闭时,弹性构件向衔铁施加弹力。 当车门打开时,传感器感测门附近的障碍物或物体。 控制单元根据传感器的检测信号来操作电磁铁。 (附图标记)(180)传感器; (190)控制单元
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公开(公告)号:KR101261188B1
公开(公告)日:2013-05-09
申请号:KR1020120023327
申请日:2012-03-07
Applicant: 군산대학교산학협력단
Abstract: PURPOSE: A manufacturing method of a fuel cell separating plate is provided to economically manufacture the fuel cell separating plate compared to a sputtering method by using sublimation of metal targets, and to manufacture the fuel cell separating plate having optimal roughness and flatness on an elaborate surface layer structure. CONSTITUTION: A manufacturing method of a fuel cell separating plate comprises a step of heating heat sources of a solid Cr target, a Ti target, or a Ta target in order to form CrN, TiN or TaN layers on a stainless steel substrate. The CrN, TiN or TaN coating layers are formed on the stainless steel substrate by generating and operating plasma after bias power is connected to the solid target sources, and inert gas or the gas mixed with NH3 are supplied to reactive nitrogen gas. The solid target source is evaporated into chrome, titanium, or thallium sublimate without melting, and reacts with the gas. [Reference numerals] (AA) Plasma; (BB) Control signal 1; (CC) Control signal 3; (DD) Control signal 2
Abstract translation: 目的:提供一种燃料电池分离板的制造方法,与通过使用金属靶的升华的溅射法相比经济地制造燃料电池分离板,并且在精细表面上制造具有最佳粗糙度和平坦度的燃料电池分离板 层结构。 构成:燃料电池分离板的制造方法包括加热固体Cr靶,Ti靶或Ta靶的热源的步骤,以在不锈钢基材上形成CrN,TiN或TaN层。 在固体靶源连接偏置功率后,通过产生和运行等离子体,在不锈钢基板上形成CrN,TiN或TaN涂层,将惰性气体或与NH 3混合的气体供给反应性氮气。 固体靶源被蒸发成铬,钛或铊而不熔化,并与气体反应。 (AA)等离子体; (BB)控制信号1; (CC)控制信号3; (DD)控制信号2
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Patent Agency Ranking
公开(公告)号:KR3006904380000S
公开(公告)日:2013-04-23
申请号:KR3020130005291
申请日:2013-01-30
Applicant: 군산대학교산학협력단
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公开(公告)号:KR1020130016869A
公开(公告)日:2013-02-19
申请号:KR1020110079045
申请日:2011-08-09
Applicant: 군산대학교산학협력단
Inventor: 안민철
CPC classification number: Y02E40/69
Abstract: PURPOSE: A fault current controlling device in an intelligent power net and a control method thereof are provided to immediately deal with fault current due to distributed generations and load changes by controlling the fault current to a precalculated value corresponding to a real time information of the power net. CONSTITUTION: A freewheeling circuit(120) is connected to superconducting coils(110) in a row. The freewheeling circuit comprises a diode(121) and a resistance(123) connected in series. Multiple thyristors(140) are respectively connected to the superconducting coils in series or in a row. A control unit(150) inputs a gate control signal to the thyristor. An angle of delay of the gate control signal controls the levels of the fault current. [Reference numerals] (150) Control unit; (AA) Fault current controlling device
Abstract translation: 目的:提供一种智能电网中的故障电流控制装置及其控制方法,通过将故障电流控制为对应于电力的实时信息的预先计算值来立即处理由于分布式发电造成的故障电流和负载变化 净。 结构:续流电路(120)连续连接到超导线圈(110)。 续流电路包括串联的二极管(121)和电阻(123)。 多个晶闸管(140)分别串联连接到超导线圈。 控制单元(150)将栅极控制信号输入到晶闸管。 门控制信号的延迟角度控制故障电流的电平。 (附图标记)(150)控制单元; (AA)故障电流控制装置
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公开(公告)号:KR3006765780000S
公开(公告)日:2013-01-15
申请号:KR3020120053949
申请日:2012-11-12
Applicant: 군산대학교산학협력단
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公开(公告)号:KR1020130002946A
公开(公告)日:2013-01-08
申请号:KR1020120068391
申请日:2012-06-26
Applicant: 군산대학교산학협력단
Abstract: PURPOSE: A method for preparing a culture medium for preventing the cell modification of epiphytic Dinoflaglellates is provided to maintain original cell shape and to enable superior cell growth. CONSTITUTION: A medium composition for culturing epiphytic Dinoflaglellates contains: nitrate compounds, phosphate compounds, metal salt compounds and complex compounds, vitamin compounds, and seawater. The epiphytic Dinoflaglellates is Ostreopsis spp. Dinoflaglellates. The nitrate compounds include sodium nitrate, potassium nitrate, iron nitrate, calcium nitrate, or ammonium nitrate. The phosphate compounds are sodium biphophate monobasic, potassium monohydrogen phosphate, calcium hydrogen phosphate, or sodium glycerophosphate. The metal salt compounds are sodium molybdate, zinc sulfate, cobalt chloride, manganese chloride, or copper sulfate.
Abstract translation: 目的:提供一种用于制备用于防止附生植物狄氏体的细胞修饰的培养基的方法,以保持原始细胞形状并实现优异的细胞生长。 构成:用于培养附生tic agle agle的培养基组合物含有:硝酸盐化合物,磷酸盐化合物,金属盐化合物和络合物,维生素和海水。 附生的Dinoflaglellates是Ostreopsis spp。 Dinoflaglellates。 硝酸盐化合物包括硝酸钠,硝酸钾,硝酸铁,硝酸钙或硝酸铵。 磷酸酯化合物是二磷酸单磷酸酯,磷酸氢二氢钾,磷酸氢钙或甘油磷酸钠。 金属盐化合物是钼酸钠,硫酸锌,氯化钴,氯化锰或硫酸铜。
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公开(公告)号:KR101184742B1
公开(公告)日:2012-09-20
申请号:KR1020110068325
申请日:2011-07-11
Applicant: 군산대학교산학협력단
CPC classification number: G06F3/017 , G06K9/00355
Abstract: PURPOSE: A non-contact direction recognizing method by hand motion is provided to calculate the central point of a hand and the end point of a finger from a detected hand area, thereby setting a direction by calculating a straight line from the central point and the end. CONSTITUTION: A device forms a skin color area by an input image(S1). The device detects a hand area by the skin color area(S2). The device extracts a point of gravity and the end point of a finger from the hand area(S3). The device calculates a finger direction from the point of gravity and the end point of the finger(S4). The device recognizes the nearest direction center axis as a finger direction by comparing a central direction axis with the finger direction. [Reference numerals] (AA) Start; (BB) End; (S1) Extraction of skin color area; (S2) Extraction of hand area; (S3) Extraction of point of gravity and end point; (S4) Calculation of finger direction; (S5) Recognition of finger direction
Abstract translation: 目的:提供通过手动运动的非接触方向识别方法,以从检测到的手区域计算手的中心点和手指的终点,从而通过从中心点计算直线来设定方向, 结束。 构成:设备通过输入图像形成肤色区域(S1)。 该装置通过皮肤颜色区域检测手部区域(S2)。 设备从手区域提取重心和手指的终点(S3)。 该装置根据重心和手指的终点来计算手指方向(S4)。 通过将中心方向轴与手指方向进行比较,装置将最近的方向中心轴识别为手指方向。 (附图标记)(AA)开始; (BB)结束; (S1)皮肤颜色区域的提取; (S2)手区提取; (S3)重点和终点的提取; (S4)手指方向的计算; (S5)手指方向识别
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