公开(公告)号：KR3006119920000S

公开(公告)日：2011-09-08

申请号：KR3020110016473

申请日：2011-04-21

Applicant: 한국에너지기술연구원

Designer： 김광득 ,  윤창열 ,  김현구 ,  강용혁

公开(公告)号：KR3006119600000S

公开(公告)日：2011-09-08

申请号：KR3020110016433

申请日：2011-04-21

Applicant: 한국에너지기술연구원

Designer： 김광득 ,  윤창열 ,  김현구 ,  강용혁

公开(公告)号：KR1020110042914A

公开(公告)日：2011-04-27

申请号：KR1020090099785

申请日：2009-10-20

Applicant: 한국에너지기술연구원

Inventor： 강용혁 ,  이상남 ,  김종규

IPC: F28D7/04 ,  F28F3/02 ,  F25B37/00

CPC classification number: Y02A30/277 ,  Y02B30/62 ,  F28D7/04 ,  F25B37/00 ,  F28F3/02

Abstract: PURPOSE: A heat exchange type absorber for the stirling engine of a solar generating system is provided to enhance heat exchange efficiency by broadening a heat exchange area. CONSTITUTION: A heat exchange type absorber for the stirling engine of a solar generating system comprises a body(1) and a absorber module. The body has a plate shape. A plurality of flow grooves(11) are formed on one side of the body. Working fluid flows through the flow groove. The absorber module is installed on one side of the body, on which the flow groove is formed, to block the open part of the flow groove to form a flow path. A cover(2) is installed on a part, which faces the end of the flow path. The cover comprises an inlet and an outlet.

Abstract translation: 目的：提供一种用于太阳能发电系统的斯特林发动机的热交换型吸收器，以通过扩大热交换面积来提高热交换效率。 构成：用于太阳能发电系统的斯特林发动机的热交换型吸收器包括主体（1）和吸收器模块。 身体有一个平板的形状。 在身体的一侧上形成有多个流动槽（11）。 工作流体流过流槽。 吸收器模块安装在主体的形成有流动槽的一侧，以阻塞流动槽的开口部分形成流路。 一个盖子（2）安装在面向流路端部的零件上。 盖子包括入口和出口。

公开(公告)号：KR1020040019444A

公开(公告)日：2004-03-06

申请号：KR1020020050467

申请日：2002-08-26

Applicant: 한국에너지기술연구원 ,  주식회사 동아산전

Inventor： 강용혁 ,  임상훈 ,  유창균 ,  윤환기 ,  김정태 ,  박영칠 ,  신종구

IPC: H02S20/32 ,  F24J2/38 ,  F24J2/40 ,  F24J2/46

CPC classification number: F21S11/00 ,  F24S23/77 ,  F24S23/79 ,  F24S40/20 ,  F24S40/50 ,  Y02B10/20 ,  H02S20/32

Abstract: PURPOSE: A solar tracking reflector type daylighting apparatus is provided to secure a right to enjoy sunshine of a building and form a pleasant environment. CONSTITUTION: A light part(1) is formed in transparent dome shape(11). A first reflecting plate(13) is installed in the center of the dome by a triangular support(14). A driving unit drives the first reflecting plate for tracking the sun. A ventilating fan(15) prevents increase in a temperature of air and humidity in the dome. An automatic cleaning device(17) is installed outside the dome. A rainwater discharge devices(20) is installed at a lower part of the dome. A transmitter part(2) is formed of a second reflecting plate(21) having a reflecting curved surface which is automatically controlled to diffuse solar light reflected from the first reflecting plate, and a second reflecting plate installation stand(22) installed to install the second reflecting plate. An irradiation part(3) has an automatic illumination control device(26) installed inside to control the intensity of illumination of artificial light receiving light from the transmitter part.

Abstract translation: 目的：提供一种太阳能跟踪反射器式采光设备，以确保享受建筑物阳光并形成愉快环境的权利。 构成：轻部分（1）形成为透明的圆顶形状（11）。 第一反射板（13）通过三角形支撑件（14）安装在圆顶的中心。 驱动单元驱动用于跟踪太阳的第一反射板。 通风扇（15）防止穹顶中的空气和湿度升高。 自动清洁装置（17）安装在圆顶外部。 雨水排放装置（20）安装在圆顶的下部。 发射器部分（2）由具有反射曲面的第二反射板（21）形成，该反射曲面被自动控制以扩散从第一反射板反射的太阳光;以及第二反射板安装台（22），安装 第二反射板。 照射部分（3）具有安装在内部的自动照明控制装置（26），以控制来自发射器部分的人造光接收光的照明强度。

公开(公告)号：KR100369893B1

公开(公告)日：2003-01-30

申请号：KR1019990062760

申请日：1999-12-27

Applicant: 한국에너지기술연구원

Inventor： 강용혁 ,  곽희열 ,  윤환기 ,  유창균 ,  박영칠

IPC: F24J2/40

CPC classification number: G01S3/7861 ,  F24S50/20

Abstract: PURPOSE: A sun tracking sensor using photodiodes is provided to convert each position of photodiodes, a cylindrical sensor housing and the sun into analog or digital signals by checking the change of azimuth angles and the altitude of the sun as well as the emission of sunbeams. CONSTITUTION: A sun tracking sensor includes photodiodes and a cylindrical sensor housing. A sun tracking sensor controller converts an electric current of the photodiodes into voltage, converts the voltage into digital signals, and transmits the signals to a computer(34) according to demands of the computer. The sun tracking sensor checks the positional change of the sun according to the emission of sunbeams, the changes of azimuth angles and the altitude of the sun by using five photodiodes. A photodiode E(11) checks temporary cloudy days, a photodiode A and B(12) detect the change of the azimuth angle of the sun while the other photodiode C and D recognize changes in altitude. If the sunbeam incident to the sun tracking sensor has a slope in the normal direction of the sun tracking sensor, the photodiode A generates a larger amount of currents than the photodiode B. A solar collector is rotated for tracking the sun until two photodiodes generates the same amount of currents.

Abstract translation: 目的：使用光电二极管的太阳跟踪传感器通过检查方位角和太阳高度的变化以及阳光的发射来将光电二极管的每个位置，圆柱形传感器外壳和太阳转换为模拟或数字信号。 组成：太阳跟踪传感器包括光电二极管和圆柱形传感器外壳。 太阳跟踪传感器控制器将光电二极管的电流转换成电压，将电压转换成数字信号，并根据计算机的需求将信号发送到计算机（34）。 太阳跟踪传感器通过使用五个光电二极管根据阳光的发射，方位角的变化和太阳的高度来检查太阳的位置变化。 光电二极管E（11）检查暂时的阴天，光电二极管A和B（12）检测太阳的方位角的变化，而另一个光电二极管C和D识别高度的变化。 如果入射到太阳跟踪传感器的阳光在太阳跟踪传感器的法线方向上具有斜率，则光电二极管A产生比光电二极管B更大量的电流。旋转太阳能收集器以追踪太阳直到两个光电二极管产生 相同数量的电流。

公开(公告)号：KR100350374B1

公开(公告)日：2002-08-28

申请号：KR1019990062761

申请日：1999-12-27

Applicant: 한국에너지기술연구원

Inventor： 강용혁 ,  곽희열 ,  윤환기 ,  유창균 ,  이동규 ,  강명철 ,  윤현식 ,  박영칠 ,  서수정 ,  김춘열

IPC: H02S20/30 ,  H02S20/32 ,  F24J2/00

CPC classification number: Y02E10/40

Abstract: 본발명은접시(dish)형태양열집광장치에관한것으로, 100∼800℃의고온을얻을수 있는태양추적방식의집광장치를의미하며, 다수개의집광기프레임을포물선형트러스프레임구조로설치하여집광기(10)를설치하고, 상기집광기(10)의초점에각각의초점이맞도록 15개의포물선형반사경(20)을집광기의상부면에설치하며, 상기집광기(10) 및반사경(20)의초점부위에양끝단부가각각열매체입구관(63) 및출구관(64)에연결되고원추대모양의흡수관(61)내에코일형태로열매체관(62)이감겨설치된흡수기(60)를설치하고, 상기반사경(20)이설치된집광기(10)의프레임을지지대(40) 상부에위치하게결합하며, 상기집광기(10) 프레임과지지대(40) 사이에태양추적구동부의구동모터(30) 및이에연결되는다수개의감속기를집광기(10) 프레임에연결하여설치하고, 상기집광기(10) 상부에태양추적구동부의구동모터(30)와연결되고 5개의포토다이오드로구성된태양추적센서(50)를설치하여, 태양추적센서와프로그램의혼합방식으로태양을추적하면서반사경에서반사되는태양열을집광하여설계된집광비로 100∼800℃의고온을얻을수 있는접시형태양열집광시스템을제공하는것이다.

公开(公告)号：KR100307760B1

公开(公告)日：2001-12-17

申请号：KR1019980041914

申请日：1998-10-08

Applicant: 한국에너지기술연구원

Inventor： 강용혁 ,  곽희열 ,  윤환기 ,  유창균 ,  이태규 ,  전명석

IPC: F24D19/00

Abstract: 본 발명의 미세캡슐화된 상변화물질을 적용한 이중관계에 관한 것으로, 적용가능한 잠열축열재는 멜팅포인트(Melting point)가 50∼80℃범위내에 있는 것을 적용하며 구형으로 미세캡슐화(0.5∼5.0mmPMMA 외부코팅)된 상변화물질을 이중관의 간격 상에 채워 기존 온수관의 현열이용 기능에 잠열기능을 추가하여 난방시 열방출 시간을 보다 확대하여 에너지절감 및 주거환경 쾌적도를 향상시킬 수 있으며, 온수관으로 사용할 때 축열과 동파방지효과를 가질 수 있다.
그 구성은 미세캡슐화된 상변화물질(1)을 이중으로 된 관(2)(3)의 간격(4)에 채워 잠열을 이용하는 구조이다.

公开(公告)号：KR100307763B1

公开(公告)日：2001-09-13

申请号：KR1019990002756

申请日：1999-01-28

Applicant: 한국에너지기술연구원 ,  해천에너지 주식회사

Inventor： 강용혁 ,  곽희열 ,  윤환기 ,  유창균 ,  김영배 ,  김석종

IPC: F24J2/10

CPC classification number: Y02E10/40

Abstract: 본발명은태양광을실내로끌어들여이용하는태양광집광장치에관한것으로태양광을집광하는반원구모양의집광부와그 빛을받아실내로직관또는플렉시블관으로자유로이유도하는전송관과전송관을통해유입되는빛을실내로확산시킬수 있는발광부로이루어진장치에관한것이다. 지붕에돌출되게설치되어태양광을집광하는집광부와, 내측에고반사필름이부착되고집광된태양광을이송하는전송관과, 실내로볼록하게설치되어전송관을통해이송된태양광을실내에확산하는발광부로이루어진집광장치에있어; 상기집광장치의전송관일측을볼트와브라켓으로지붕에고정하는것과, 상기반원구모양의집광부내부에남쪽방향을향하는부채골모양의반사경을고정설치하는것과, 실내로볼록하게설치된발광부내부에돌기를형성하여빛을확산시키는것으로구성되어진것이다.

公开(公告)号：KR1020010058488A

公开(公告)日：2001-07-06

申请号：KR1019990065821

申请日：1999-12-30

Applicant: 한국에너지기술연구원

Inventor： 곽희열 ,  강용혁 ,  남명식 ,  윤환기 ,  유창균 ,  부준홍

IPC: F24J2/00 ,  F24J2/04 ,  F24J2/32

CPC classification number: F24S10/45 ,  F24S10/90 ,  F24S80/30 ,  Y02E10/44

Abstract: PURPOSE: A structure of connecting a hat pipe with a manifold in a solar heat collector is provided to improve heat transfer efficiency through having a maximum heat transfer area and keeping a complete sealing state. CONSTITUTION: To combine a heat pipe with a manifold, a spiral process unit(3) is formed at an outer surface of a front end of a condense portion at the heat pipe. A coil shaped pin(10) is attached at a lower inner circumference of a manifold connecting tool for being conveniently connected to the process unit and increasing contacting area between the heat pipe and the manifold. A filler is attached to an outer circumference of the heat pipe near the process unit for sealing a connect portion of the heat pipe and the manifold. Thus, the process unit and the coil shaped pin are combined for combining the heat pipe and the manifold connecting tool. Then, the heat pipe and the manifold are sealed by a silicone ring(11) located between a small surface(4A) of the filler and an inner surface(13) of the connecting tool. Moreover, a large surface(4B) of the filler and an outer surface(14) of the connecting tool are welded for completing sealing state.

Abstract translation: 目的：提供一种将太阳能集热器中的管道与歧管连接的结构，通过具有最大传热面积并保持完全的密封状态来提高传热效率。 构成：为了将热管与歧管组合，在热管的冷凝部的前端的外表面形成有螺旋处理单元（3）。 线圈形销（10）附接在歧管连接工具的下内圆周处，以方便地连接到处理单元并增加热管和歧管之间的接触面积。 填料附着在处理单元附近的热管的外圆周上，用于密封热管和歧管的连接部分。 因此，处理单元和线圈形销被组合以组合热管和歧管连接工具。 然后，热管和歧管被位于填料的小表面（4A）和连接工具的内表面（13）之间的硅树脂环（11）密封。 此外，焊接填料的大表面（4B）和连接工具的外表面（14）以完成密封状态。

公开(公告)号：KR101837196B1

公开(公告)日：2018-04-19

申请号：KR1020160070753

申请日：2016-06-08

Applicant: 한국에너지기술연구원

Inventor： 이상남 ,  강용혁 ,  김현구 ,  윤창열

IPC: H02S40/10 ,  B08B3/02 ,  B08B5/02 ,  B08B11/00

Abstract: 본발명의일실시예는일사량계에물과공기를분사하여세척하는일사량계세척시스템에있어서, 물을압축하는물펌프, 상기물펌프에서압축된물이공급되는물 공급라인, 상기물 공급라인에결합되며, 상기물 공급라인을통해공급되는물을이용하여상기일사량계로물을분사하는물분사노즐, 압축공기를저장하는공기탱크, 상기공기탱크로부터압축공기가공급되는압축공기공급라인, 상기압축공기공급라인에결합되며, 상기압축공기공급라인을통해공급되는압축공기를이용하여상기일사량계로공기를분사하는공기분사노즐및 상기물분사노즐의물분사와상기공기분사노즐의공기분사를제어하는제어장치를포함하는것을특징으로하는일사량계세척시스템을제공한다.