公开(公告)号：KR1020180101689A

公开(公告)日：2018-09-13

申请号：KR1020170027944

申请日：2017-03-03

Applicant: 동양하이테크산업주식회사 ,  형기우

Inventor： 형기우 ,  형성훈 ,  김병섭 ,  신대정 ,  류인재 ,  전대원

IPC: G01N21/33 ,  G01N21/64 ,  G01N33/28 ,  G01J1/42 ,  G01N21/31

Abstract: 본발명은비침지및 비접촉탄화수소측정시스템에관한것으로, 오일혼합물을수납하는구조로, 투입부에버블을가두기위한버블트랩(150)이구비되는수조부(100); 상기수조부(100)에서수납된오일혼합물표층에자외선광을조사하는광원부(200); 및상기조사된자외선광에의해오일혼합물속에포함된방향족탄화수소에서발현되는형광신호를수광하여오일혼합물의탄화수소농도를측정하는측정부(300)를포함하여구성된다. 이와같은본 발명은측정센서와샘플수의접촉으로인한오염을근원적으로차단하기위하여비침지및 비접촉측정방법으로수계내오일(oil-in-water) 농도또는탄화수소농도를측정하는효율적인시스템을제공한다.

公开(公告)号：KR101798189B1

公开(公告)日：2017-11-16

申请号：KR1020150100848

申请日：2015-07-16

Applicant: 동양하이테크산업주식회사 ,  (주)동양화학

Inventor： 형기우 ,  형성훈 ,  류인재 ,  신대정 ,  전대원

IPC: C01C1/02

Abstract: 본발명은마이크로콘택트스크러빙방식의수산화암모늄제조시스템에관한것으로, 더욱상세하게는고순도수산화암모늄을제조하기위하여물을 Membrane system에의한여과 EDI 시스템으로잔류이온성분을제거하여초순수로생성하고마이크로무화장치에의하여미립자화하여반응기에서액체에서기체로상변화한암모니아가스와향류접촉방식으로접촉면적을높임으로서고순도의수산화암모늄의생산및 효율을높이는마이크로콘택트스크러빙방식의수산화암모늄제조시스템에관한것이다. 따라서, 본발명의마이크로콘텍트스크러빙방식의수산화암모늄제조시스템에따라수산화암모늄을제조하면잠열을이용한냉각에따른추가적인에너지소비가없고암모니아가스와증기화된물입자가향류접촉하여접촉면적이넓어짐에따라효율적인생산이가능하여생산비용을저감시킬수 있으며상기물입자는초순수로제조되므로고순도의수산화암모늄을생산제조한다.

公开(公告)号：KR101517728B1

公开(公告)日：2015-05-15

申请号：KR1020140038049

申请日：2014-03-31

Applicant: 동양하이테크산업주식회사

Inventor： 신대정 ,  류인재 ,  이준석 ,  전대원 ,  형기우

IPC: G01N21/63 ,  G01N21/65 ,  G01N21/64 ,  G01N21/01

Abstract: 본발명은진동및 롤/피치교정이가능한녹조발생감시장치에관한것으로서, 더욱자세하게는선박또는항공기에서녹조발생감시장치사용시발생되는진동및 롤/피치변화에대응하기위해롤/피치보정대및 제진대를포함한장치를설치하여동작시진동을방지하고롤/피치를보정할수 있는진동및 롤/피치교정이가능한녹조발생감시장치에관한것이다. 따라서, 위와같은본 발명에의하면롤/피치보정대및 제진대를포함하는녹조발생감시장치를설치하여선박또는항공기에서사용시시스템전체의진동을효과적으로방지할뿐만아니라롤/피치보정대를설치하여원격광 측정망원경의롤링및 피치의변화에대응할수 있다.

Abstract translation: 本发明涉及一种用于监测能够校正振动和滚动/俯仰的出现潮湿的装置。 更具体地说，用于监测具有包括辊/俯仰校正杆和隔离器的装置的振动和滚动/俯仰的监测的潮汐发生装置，以对应当用于监测绿潮发生的装置时产生的振动和滚动/俯仰变化 用于船舶或飞机。 因此，本发明防止了运动过程中的振动，从而校正了滚动/间距。 根据本发明，提供了用于监视包括辊/俯仰校正杆和隔离器在内的潮汐发生的装置，当该装置用于船舶或飞行器时，有效地防止整个系统的振动，并且辊/俯仰 安装校正杆以对应远程光学测量望远镜的滚动和俯仰的变化。

公开(公告)号：KR101514897B1

公开(公告)日：2015-04-24

申请号：KR1020130153546

申请日：2013-12-11

Applicant: 동양하이테크산업주식회사

Inventor： 신대정 ,  류인재 ,  전대원 ,  최재인 ,  형기우 ,  형성훈

IPC: A62C37/21 ,  A62C37/10 ,  A62C37/00

CPC classification number: A62C37/21 ,  A62C37/40

Abstract: 본발명은자동소화시스템에관한것으로, 보다상세하게는화재감지센서에서감지된화재발생신호를기 설치된전력선에 PLC(Power Line Communication)를주통신수단으로연결하여전송하거나, 주통신수단인 PLC가동작하지못하는상황을대비하여보조통신수단으로지그비등의무선통신수단을추가로구비하여주통제부와주통신수단의두절에도인접소화장치까지동시에작동하도록하는작동명령을유선및 무선으로전송이가능한자동소화시스템에관한것이다. 이를위해본 발명의자동소화시스템은건물내부에방재구역별로설치되어작동되는화재감지부가화재발생상황을감지한데이터를자동으로전송하여처리하는자동소화시스템에있어서, 화재감지센서, 전력선통신수단, 지그비, 제어기및 배터리를구비한화재감지모듈과상기화재감지모듈에부착되어, 외부의작동명령을처리하는제어기에의해구동이제어되는자동소화기와상기화재감지모듈과통신하여제어기를관리하는운용프로그램이설치된관제소통제부및 상기관제소통제부가보내오는비상상황신호를수신하여명령을외부에서내릴수 있는관리자단말기를포함하여구성된다.

Abstract translation: 自动灭火系统技术领域本发明涉及一种自动灭火系统，更具体地说，涉及一种自动灭火系统，通过连接作为主要通信的电力线通信（PLC）来发送在火灾探测传感器中检测到的火灾爆发信号 对于以前安装的电力线路的装置，或者在PLC不作为主通信装置操作的情况下，作为辅助通信装置，还附加包括诸如ZigBee等的无线通信装置，从而允许用于允许 即使是主控制器的接触中断也能够同时操作的相邻的消防系统，并且主通信装置可以通过有线和无线地发送。 自动灭火系统，通过该自动灭火系统自动发送和处理在建筑物的每个预防区域中安装和操作的火灾检测部分检测到火灾的数据的自动灭火系统，包括：火灾检测模块，包括火灾探测传感器， 电力线通信装置，Zigbee，控制器和电池; 以及附接到火灾检测模块的管理员终端，用于通信火灾检测模块和控制器操作的自动灭火器，用于处理外部操作指令，接收由控制中心控制发送的紧急状态信号 安装操作程序的一部分，并向外界发送指令。

公开(公告)号：KR101443760B1

公开(公告)日：2014-09-29

申请号：KR1020130146301

申请日：2013-11-28

Applicant: 동양하이테크산업주식회사 ,  (주)동양화학

Inventor： 신대정 ,  형기우 ,  류인재

IPC: H02M3/28 ,  H02M3/24 ,  H02M3/22 ,  H05B37/02

Abstract: A power supply device using an on-chip micro-transformer given in the present invention includes a plurality of power supply units each of which includes an on-chip micro-transformer, a rectification circuit combined to the on-chip micro-transformer, a smoothing circuit combined to the rectification circuit, a voltage/current detection unit for detecting a voltage or current outputted from the smoothing circuit to an external driving device, and a fast switching unit which turns on or off the on-chip micro-transformer fast; a multiplexer which selects and outputs one among the voltage or current detection signals outputted from the power supply units; a control unit which outputs a selective control signal for a plurality of voltage or current signals to the multiplexer, receives a voltage or current detection signal from the multiplexer, and outputs a switching control signal corresponding to the respective detection signal; and a de-multiplexer which receives the switching control signal from the control unit and outputs the signal to one of the power supply units.

Abstract translation: 使用本发明中的片上微型变压器的电源装置包括多个电源单元，每个电源单元包括片上微型变压器，组合到片上微型变压器的整流电路， 组合到整流电路的平滑电路，用于检测从平滑电路输出到外部驱动装置的电压或电流的电压/电流检测单元，以及快速接通或关闭片上微型变压器的快速开关单元; 多路复用器，其选择并输出从所述电源单元输出的电压或电流检测信号之一; 向多路复用器输出多个电压或电流信号的选择控制信号的控制单元，从多路复用器接收电压或电流检测信号，并输出与各检测信号相对应的切换控制信号; 以及解复用器，其从所述控制单元接收所述切换控制信号，并将所述信号输出到所述电源单元之一。

公开(公告)号：KR101426474B1

公开(公告)日：2014-08-05

申请号：KR1020130051469

申请日：2013-05-07

Applicant: (주)동양화학 ,  동양하이테크산업주식회사

Inventor： 형기우 ,  형성훈 ,  이준석 ,  조성효 ,  김선용 ,  양정수 ,  신대정

IPC: G01K11/32 ,  G01S17/88 ,  G01C13/00 ,  G01S1/02

CPC classification number: G01K11/32 ,  G01K1/022 ,  G01K1/024 ,  G01K1/026 ,  G01K2011/324 ,  G01S17/95

Abstract: The present invention relates to a remote depth-specific water temperature measurement system using a lidar and a remote depth-specific water temperature measurement method using a lidar. According to the present invention, a lidar is used for real-time monitoring of coastal water surface water temperature changes and depth-dependent water temperature changes so that temporal and spatial freshwater and seawater volatility can be known. Also, depth-specific movement and time-specific water temperature are measured and utilized as data for understanding fishery formations, predicting red tide phenomena and the like. In addition, water surface water temperature and depth-specific water temperature can be measured for analysis and quantification of a long-term water temperature trend so that data relating to the climate change and oceanic environmental changes can be collected.

Abstract translation: 本发明涉及使用激光雷达的远程深度专用水温测量系统和使用激光雷达的远程深度专用水温测量方法。 根据本发明，激光雷达用于实时监测沿海水面水温变化和深度依赖水温变化，从而可以知道淡水和海水的时空变化。 此外，深度特异性运动和时间特异性水温被测量并用作了解渔业地层的数据，预测红潮现象等。 此外，可以测量水面水温和深度特定水温，以分析和量化长期水温趋势，从而可以收集与气候变化和海洋环境变化有关的数据。

公开(公告)号：KR1020140080678A

公开(公告)日：2014-07-01

申请号：KR1020120145611

申请日：2012-12-13

Applicant: (주)동양화학 ,  동양하이테크산업주식회사 ,  농업법인 제이원(주)

Inventor： 형기우 ,  형성훈 ,  전대원 ,  신대정 ,  류인재 ,  조성효 ,  이상균 ,  김치훈

IPC: A23B4/03 ,  A23B7/02 ,  F26B21/02 ,  F26B21/08 ,  F26B21/10 ,  F26B23/00 ,  F26B25/00

CPC classification number: Y02P60/853 ,  A23B4/031 ,  A23B7/02 ,  F26B21/024 ,  F26B21/083 ,  F26B21/10 ,  F26B23/001 ,  F26B25/005

Abstract: The present invention relates to a dryer for agricultural and marine products and, more particularly, to an enclosed type dryer for agricultural and marine products which has improved dehumidifying performance by using a method for eliminating humidity from waste heat, removes bad odor by using an A/C filter, and realizes 3D circulation of the air inside the dryer by using a 3D fan without a fan mouth. The dryer for agricultural and marine products, according to the present invention, can realize 3D circulation of the air inside the dryer by using a 3D fan without a bell mouth, enhance the removal rate of humidity inside the dryer by using one or more selected from a group of aluminum oxide, silica gel synthetic zeolite, calcium chloride, and their mixture, as a desiccant, effectively remove bad odor through an A/C filter, and not only improve energy efficiency but also facilitate the operation and maintenance of the dryer with a gas sensor and a temperature and humidity sensor device by recycling waste heat generated in the dryer.

Abstract translation: 本发明涉及一种用于农业和海产品的干燥机，更具体地说，涉及一种用于农业和海产品的封闭式干燥器，其通过使用从废热中除去湿度的方法具有改善的除湿性能，通过使用A / C过滤器，通过使用没有风扇口的3D风扇，实现烘干机内部空气的三维循环。 根据本发明的用于农业和海产品的干燥器可以通过使用没有喇叭口的3D风扇来实现干燥器内的空气的3D循环，通过使用一个或多个选自以下的一个或多个来提高干燥器内的湿度去除率 一组氧化铝，硅胶合成沸石，氯化钙及其混合物作为干燥剂，通过A / C过滤器有效去除不良气味，不仅提高了能源利用率，而且有利于干燥机的运行和维护 气体传感器和温度和湿度传感器装置，通过回收在干燥器中产生的废热。

公开(公告)号：KR101408086B1

公开(公告)日：2014-06-19

申请号：KR1020120044919

申请日：2012-04-27

Applicant: 동양하이테크산업주식회사 ,  (주)동양화학

Inventor： 형기우 ,  형성훈 ,  전대원 ,  신대정 ,  류인재

IPC: C02F1/469 ,  C02F1/461

Abstract: 본 발명은 탈이온 장치에 관한 것으로, 서로 대향되는 위치에 일정간격으로 이격되어 구비되고 이온 제거를 위한 용수의 유입구 및 배출구가 형성된 한 쌍의 지지체; 상기 지지체 사이에 구비되며 교대로 반복 적층되는 복수 개의 제1단위셀; 및 제2단위셀;을 포함하되, 상기 제1단위셀:은 양전극; 상기 양전극의 양면에 구비되는 음이온교환수지; 상기 음이온교환수지를 고정하기 위한 한 쌍의 이온수지 고정수단; 및 상기 이온수지 고정수단의 각 일 측에 구비되며 상기 용수의 이동을 위한 한 쌍으로 유로;로 이루어지고, 상기 제2단위셀:은 음전극; 상기 음전극의 양면에 구비되는 양이온교환수지; 상기 양이온교환수지를 고정하기 위한 한쌍의 이온수지 고정수단; 및 상기 이온수지 고정수단의 각 일 측에 구비되며 상기 용수의 이동을 위한 한 쌍으로 유로;로 이루어지는 것을 특징으로 한다.

公开(公告)号：KR1020140072289A

公开(公告)日：2014-06-13

申请号：KR1020120137266

申请日：2012-11-29

Applicant: 동양하이테크산업주식회사

Inventor： 형기우 ,  형성훈 ,  전대원 ,  조성효 ,  신대정 ,  류인재

IPC: H01L21/203 ,  H01L21/205

Abstract: The present invention relates to a method for fabricating a metal mesh filter by non-uniform vacuum fusion-welding and a metal mesh filter fabricated by using the same. According to the present invention, since metal particles are fusion-welded on a surface by using the metal mesh as a supporting member, high strength may be ensured even at high temperature and high pressure, and manufacturing equipment has a simple structure and is thus advantageous for mass production. In addition, the filter not only can be made into a variety of shapes because of the inherent flexibility of metal, but also can adjust pores into various sizes and secure uniform pore sizes since the sizes of the metal particles used for vacuum fusion-welding are in the range of um to nm, and thus the efficiency of the filter can be improved. Also, the filter has sufficient strength at high pressure, thereby easily reusing the filter through back washing.

Abstract translation: 本发明涉及一种通过非均匀真空熔融焊接制造金属网过滤器的方法和使用该金属网过滤器。 根据本发明，由于金属颗粒通过使用金属网作为支撑构件而熔融在表面上，因此即使在高温高压下也可以确保高强度，并且制造设备具有简单的结构，因此是有利的 用于批量生产。 此外，由于金属的固有柔性，过滤器不仅可以制成各种形状，而且可以将孔调节成各种尺寸并确保均匀的孔径，因为用于真空熔焊的金属颗粒的尺寸为 在nm到nm的范围内，因此可以提高滤波器的效率。 此外，过滤器在高压下具有足够的强度，从而通过反洗容易地重新使用过滤器。

公开(公告)号：KR101368766B1

公开(公告)日：2014-03-04

申请号：KR1020120145619

申请日：2012-12-13

Applicant: (주)동양화학 ,  동양하이테크산업주식회사 ,  농업법인 제이원(주)

Inventor： 형기우 ,  형성훈 ,  류인재 ,  신대정 ,  전대원 ,  조성효 ,  양정수

IPC: F25D29/00 ,  F25D23/00

CPC classification number: F25D17/045 ,  F25D21/02 ,  F25D21/04 ,  F25D29/00 ,  F25D2317/04131 ,  F25D2700/16

Abstract: The present invention relates to a method and an apparatus for maintaining the humidity in a freezer via a non-flow circulation method, capable of keeping the quality of food by maintaining the humidity in the freezer via the simple structure of supplying water particles into the freezer. The method and the apparatus for maintaining the humidity in a freezer via a non-flow circulation method according to the present invention can prevent a drying phenomenon in the freezer by maintaining the humidity 5 to 10% higher than a freezing method using a forcible air blowing method, and can maintain the freshness of food effectively via high energy efficiency and humidity maintenance in the freezer because very little frost covers the pin coil of the freezer which does not need to be removed therefrom.

Abstract translation: 本发明涉及一种用于通过非流动循环方法保持冷冻器中的湿度的方法和装置，其能够通过将冷冻器中的水粒子进入冷冻机的简单结构来保持冷冻机中的湿度来保持食物的质量 。 根据本发明的用于通过非流动循环方法保持冷冻器中的湿度的方法和装置可以通过将湿度保持在比使用强制吹风的冷冻方法高5至10％来防止冷冻机中的干燥现象 方法，并且可以通过冷冻室中的高能量效率和湿度维持来有效地保持食物的新鲜度，因为很少的霜覆盖不需要从其中除去的冷冻器的销线圈。