| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | 초음파센서 수중 장입장치 | KR1020140089866 | 2014-07-16 | KR1020160009381A | 2016-01-26 | 이상수; 김전하; 이석준 |
| 본발명은초음파센서수중장입장치에관한것으로, 더욱상세하게는복수의플랜지가서로결합되어박스형태를이루어, 선체의하부에설치되는베이스부재와, 상기베이스부재의상측에구비되고, 외부에서인가하는전원으로구동되어, 고정부재를상,하로승강시키는장입수단과, 상기장입수단의고정부재에고정되어, 상기고정부재가하강함에따라상기베이스부재의일측을통해수중으로장입되어목표물과의거리와수평,수직각도를측정하는초음파센서부재및 상기베이스부재의내부에구비되고, 상기초음파센서부재의입출을단속하는출입단속수단를포함하여, 초음파센서의장입을자동으로이루어지도록해, 초음파센서의장입시간및 운영에따른인적/물질적절감및 효율적인장비운영을가능하게하고, 장입수단의승강정도및 출입단속수단의디스크도어개폐정도를측정해, 초음파센서의장입을제어하여, 초음파센서의파손을방지및 장치의고장유무를실시간으로확인가능하도록한 초음파센서수중장입장치를제공한다. | ||||||
| 162 | 수상함정 소노부이 자동투하 및 관제 시스템 | KR1020140060267 | 2014-05-20 | KR1020150133482A | 2015-11-30 | 정종대 |
| 본발명은적의잠수함을요격하기위한선박의잠수함관제시스템에관한것으로서, 더욱상세하게는적의잠수함의의심되는지역을포착하는포착단계(S101)와, 선박의선미격실내부에구비된발사대(100)가소노부이(30)를발사하는소노부이발사단계(S102)와, 발사대(100)를통해발사된소노부이(30)가해수면에서펼쳐지며하단에센서(31)와데이터송신부(32)가전개된후 가동되는센서작동단계(S103)와, 소노부이(30)의하단에구성된데이터송신부(32)가함정으로관제신호를지속전달하는관제단계(S104)와, 잠수함이관제되면식별신호의전송을통해잠수함의아군혹은적군여부를식별하는식별단계(S105)와, 식별단계(S105)에서탐지된잠수함이적군임이식별이되면요격수행여부를가리도록함정에서선택하는단계인요격선택단계(S106)가순서대로진행되는것을특징으로한다. 이상과같이구성된본 발명은함정이독자적인잠수함의관제가가능하게하며, 그유지시간이비교적길고함정이해상에서잠수함을발견했을때 바로전투를수행하여요격할수 있는기능을제공할수 있는효과가있다. | ||||||
| 163 | 초음파 신호의 포락선 검출 방법 및 그 장치 | KR1020130141820 | 2013-11-21 | KR1020150059183A | 2015-06-01 | 황도식; 장진성 |
| 포락선검출방법및 그장치가개시된다. 포락선검출방법은대상객체를통해반사된초음파신호를수신하는단계; 상기수신한신호에서펄스의차이를이용하여각 피크를검출하는단계; 및상기검출된피크를직선또는곡선으로연결하여포락선을검출하는단계를포함한다. | ||||||
| 164 | 하상 또는 해상 말뚝을 위한 진동 센서를 이용한 말뚝 세굴 깊이 측정 시스템 및 방법 | KR1020130126545 | 2013-10-23 | KR101436821B1 | 2014-09-11 | 정상섬; 전세국; 윤태섭 |
| A pile scour depth measurement method according to the present invention includes a step in which a vibration sensor is mounted on at least one upper surface of a plurality of protruding mounting portions which are mounted at a predetermined gap along a circumference of a pile disposed on a riverbed or a seabed or middle points of respective sides on a pile cross section; a step in which an impact is applied to the upper surface of at least one protruding mounting portion among the protruding mounting portions to generate a longitudinal wave to be transmitted downward in a pipe; a step in which at least one vibration sensor that is mounted on at least one upper surface of the protruding mounting portions receives a longitudinal wave reflected wave; and a step in which a free field of the pile is estimated based on a result of the reflected wave reception received by the vibration sensor and a driving depth at which the pile is put in a bedrock is obtained with a value which is obtained by subtracting the pile free field from the previously known pile length. | ||||||
| 165 | 사행 제어 성능 평가 장치 | KR1020120078900 | 2012-07-19 | KR101346856B1 | 2014-01-03 | 이승현; 윤덕균; 최영만; 강동우; 허성준; 노윤현 |
| Provided is a device for evaluating a web meandering control performance capable of evaluating the performance of components and a total web meandering control performance. The device for evaluating the web meandering control performance comprises a first mounting unit, a first guide, a second mounting unit, a second guide, a connection unit, an excitation unit, and a control unit. The first mounting unit mounts an unwinder which supplies web. The first guide is mounted on a base to move the first mounting unit to a width direction of the web. The second mounting unit mounts a winder which winds the web. The second guide is mounted on the base to move the second mounting unit to the width direction and is in parallel with the first guide. The connection unit connects the first mounting unit and the second mounting unit. An edge sensor is installed in the connection unit to correspond to the edge of the web. The excitation unit is connected to one side of the first mounting unit and moves the first mounting unit to the width direction. The control unit outputs control signals for controlling the excitation unit; receives the sensing signals of an edge sensor; and evaluates the performance of the edge sensor by comparing the control signals with the sensing signals. [Reference numerals] (23) Winding motor; (41) Excitation motor; (51) Control unit; (ES) Edge sensor | ||||||
| 166 | 자동차용 노면상태 감지장치 | KR1020110128431 | 2011-12-02 | KR1020130062034A | 2013-06-12 | 강정수 |
| PURPOSE: A vehicle road surface condition sensing apparatus is provided to prevent safety accidents due to the abnormal road condition by driving a vehicle in consideration of the surface condition. CONSTITUTION: A vehicle road surface condition sensing apparatus (A) includes a sensor unit (10) which calculates sensing data by sensing the distance from a sensing module (11) to a road surface, which is located on the determined section front, and a light reflectivity from the road surface, which is located on the determined section front, through the sensing module during the time driving the vehicle or the prior time to the driving, and sends the sensing data in an electrically signal state; a processing unit (20) which obtains the corresponding change value or the road surface of corresponding sensing data among the road surface information, which is pre-input in a processing module (21) by the sensing data change value or sensing data which are calculated from the sensing unit during the time driving the vehicle or the prior time to the driving, and sends the obtained road information in an electrically signal state; and a display unit (30) displaying the road surface information, which is sent from the processing unit, on a monitor (31) with letters and images. The sensing module is an ultrasonic sensor or an optical sensor. The road surface information includes the protrusion height of a road, the recessed depth of the road, snowfall on the road, and rainfall on the road. | ||||||
| 167 | 한국형 어뢰 | KR1020110054838 | 2011-06-03 | KR1020120134977A | 2012-12-12 | 김성칠 |
| PURPOSE: A torpedo is provided to minimize human damages by destroying the propeller of a target vessel and seizing the target vessel without destroying the whole body of the target vessel. CONSTITUTION: A torpedo includes sonar units(1, 3, 6). A buffering unit(2) is arranged between the sonar units. The sonar units search the propeller and the propeller rotary shaft of a target vessel when the torpedo approaches to the target vessel. An explosive(4), a fuel part(5), a wing(7), and a propeller(8) are further arranged in the torpedo. | ||||||
| 168 | 바닥 지형을 측량하는 방법 및 장치 | KR1020127009789 | 2010-08-24 | KR1020120054653A | 2012-05-30 | 프레킹벤노 |
| 본 발명은 선박(2)에 장착되어 음향 신호들을 수중 지역(8)으로 지향시켜 방출하는 송신 장치(20) 및 그 선박(2)에 장착되고 수중 지역(8) 내의 바닥 지형(6)에 의해 반사된 음파들을 수신하는 적어도 2개의 변환기들을 구비한 수신 장치(28)에 의해 바닥 지형(6)을 측량하는 방법에 관한 것이다. 송신 장치(20)는 음향 신호를 서로 상이한 다수(N개)의 미리 정해진 주파수들로 순차적으로 방출하고, 바닥 지형(6)에 의해 반사된 음향 신호의 성분들은 수신 장치(28)에 의해 수신된다. 다수의 샘플링 시점들에 대해 그리고 N개의 주파수들에 대해, 2개의 변환기들 사이의 수신 음파들의 위상차들(Δφ) 및 그로부터 결과적으로 나오는 경로차들을 산출한다. 소정의 영역(84) 내의 경로차들의 수로부터 데이터 밀도를 산출하고, 데이터 밀도가 최대인 영역(84)을 선택한다. 그 영역(84)에 속한 경로차로부터 바닥 지형(6)의 투사 좌표를 산출한다. 또한, 본 발명은 그러한 방법을 수행하기 위한 장치에 관한 것이기도 하다. | ||||||
| 169 | Coupler monitoring system | KR20100090851 | 2010-09-16 | KR20120029046A | 2012-03-26 | JUNG JONG ROK; JANG HEE JU |
| PURPOSE: A railway vehicle coupler monitoring system is provided to prevent an accident by directly checking a distance between a motorized car and a passenger car and obtaining real-time image information. CONSTITUTION: A coupled part is photographed with a camera(10) in real time. A sensor(20) for measuring a distance measures a separated distance of a passenger car in real time. A first coupling check unit(30) determines a coupling state. An image processing unit(45) secondly determines the coupling state. A vehicle coupling monitoring unit(40) monitors a vehicle coupling state. An output unit(50) outputs coupling state information. | ||||||
| 170 | 철도 건널목 감시 시스템 및 그 제어방법 | KR1020100108773 | 2010-11-03 | KR101040324B1 | 2011-06-10 | 이철우; 김주찬; 임창선; 박정환 |
| PURPOSE: A railroad crossing monitoring system and a controlling method thereof are provided to process actively and efficiently a dangerous state without a blind spot by sensing dangerous elements on a railroad crossing and communicating with a central system using a gateway as a wireless communication device. CONSTITUTION: A sensor unit(110) includes a detection sensor(111) for sensing dangerous elements on a railroad crossing. An image acquisition unit(150) acquires image information by photographing the states on the railroad crossing when the sensor unit senses the dangerous elements. A sensor node(120) collects the sensing information of the sensor unit by including a sensor information collection module for collecting dangerous element sensing information on the railroad crossing from the sensor unit through the multiplexing communication, a first interface module for performing an interface between the sensor nodes, a sensor maintenance module for performing a maintenance of the sensor nodes, and an information processing and control module for processing and controlling the information between the sensor nodes. A gateway(130) receives the sensing information from the sensor nodes through the multiplexing communication and transmits the sensing information. A central system(140) controls and monitors the railroad crossing by generating and analyzing state analysis data from the dangerous element information and the image information. | ||||||
| 171 | 지아이에스, 디지피에스 및 음향측심기를 이용한 하천 및 댐의 3차원 좌표 데이터베이스 구축방법과 그 시스템 및 이를 이용한 시뮬레이션 방법 | KR1020090056655 | 2009-06-24 | KR1020100138228A | 2010-12-31 | 차창수 |
| PURPOSE: A method and a system for building a 3D coordinate database of river and a dam using a GIS(Geographic Information System), a DGPS(Differential Global Positioning System), and a depth sounder, and a simulation method using the same are provided to use saved data based on a need. CONSTITUTION: A DGPS receiver(20) obtains current location information of a ship. A depth sounder(30) is installed on one side of the ship. The depth sounder measures the depth of water. A user terminal(40) converts latitude and longitude coordinates collected from the DGPS receiver into TM coordinates. The user terminal displays the TM coordinate on a GIS of river and a dam. The user terminal stores a coordinate value and a water depth value in a database. | ||||||
| 172 | Installing equipment for multi-beam echo sounder | KR20100039477 | 2010-04-28 | KR101002037B1 | 2010-12-17 | LEE SUG BOK |
| PURPOSE: A holder for a multi-beam echo sounder is provided to support a multi-beam echo sounder stably by employing a height adjusting unit vertically attached to the bottom of the holder body. CONSTITUTION: A holder for a multi-beam echo sounder comprises a holder body(200), a fixing bracket(300), and a height adjusting unit(400). The holder body fixes one side of a ship where a multi-beam echo sounder is attached. The fixing bracket is coupled with the holder body on one side and fixed to the ship on the other. The height adjusting unit is arranged under the holder body perpendicularly and includes a lower support plate(410), an upper support plate(430), and a lifting unit(450). The lower support plate is fixed to a side of the ship. The upper support plate is coupled to the holder body. The lifting unit is installed between the lower and upper support plates and lifts the upper support plate. | ||||||
| 173 | 다중빔 음향 측심기 거치 시스템 | KR1020090094816 | 2009-10-06 | KR100945876B1 | 2010-03-05 | 서영교; 임문수; 김종규 |
| PURPOSE: A system for installing a multi-beam echo sounder is provided to minimize errors occurred when offset is set, and to prevent the errors from being expanded. CONSTITUTION: A system for installing a multi-beam echo sounder is composed of a holder(100), multiple clamping units, a depth controlling pipe(200), a motion sensor(400), a multi-beam echo sounder(600), a GPS mounting unit(300), and a GPS receiver(500). The clamping units are composed of a first clamping member, a second clamping member, a bolt, and a nut. A bar insertion groove is formed in a first through hole of the first clamping member. A rotation prevention bar(201) is formed in the outer surface of the depth controlling pipe, and inserted into the bar insertion groove. | ||||||
| 174 | 유체 검출장치 및 검출방법 | KR1020087008315 | 2006-10-12 | KR1020080071974A | 2008-08-05 | 빈클리,존이.; 마이어스,세인이. |
| Fluids such as saline solution that are disposed in containers such as contact lens packages can be detected by directing ultrasound energy at the container and receiving a return reflection of the ultrasonic energy. The ultrasonic energy and the return reflection can propagate through a shroud that substantially isolates the ultrasonic energy and the return reflection from air currents. | ||||||
| 175 | 해저 자원 탐사 시스템 | KR1020077011619 | 2005-10-21 | KR1020070084465A | 2007-08-24 | 아오야마지하루 |
| A submarine resource probing system comprising a vibrator (1) for transmitting a sound wave into the sea and receiving a scattering wave produced by the sound wave reflected off the interface between sear water and a mixture of methane gas and methane hydrate existing in the sea water, and an analyzing section (17) for judging that methane hydrate exists on the sea bottom directly under the mixture when a predetermined relation exists between the transmitted sound wave and the scattering intensity calculated by the received scattering wave. The predetermined relation is that the maximum scattering intensity is-60 to-30dB and the average scattering intensity is-70 to-50dB in a grid obtained by slicing the mixture in the depth direction with a predetermined width within a range extending a predetermined height from the sea bottom. | ||||||
| 176 | 해파리의 해상 처리 시스템 | KR1020060122015 | 2006-12-05 | KR1020070061372A | 2007-06-13 | 이시카와신야; 시오다코우타 |
| A processing system of jellyfish on the sea is provided to process jellyfish entering an intake of a power plant eradicably at a low cost without installation of special waste treatment facilities. The processing system of jellyfish on the sea includes: a sea jellyfish storage tank(30) for storing the jellyfish in the sea; a jellyfish inducing unit for inducing the jellyfish around an intake(1); and a jellyfish transferring unit for transferring the jellyfish alive to the sea jellyfish storage tank by absorbing the jellyfish induced by the jellyfish inducing unit in the sea. The jellyfish die out in the jellyfish storage tank without landing and disappear by melting in the sea. | ||||||
| 177 | 진동 센서 및 그의 침입 감지 방법 | KR1020040085700 | 2004-10-26 | KR1020060036646A | 2006-05-02 | 정경호 |
| 본 발명에 따른 진동 센서의 침입 감지 방법은, 사용자로부터 벽면의 재질 정보를 입력받아 진동 센서 내에 미리 설정된 값들을 변경한다. 그리고 침입자로부터 발생되는 신호를 소정 처리하여 진동 크기별로 분류한 후, 변경된 설정 값에 기초하여 진동 크기에 따라 각각 다른 알고리즘을 통해 침입을 감지한다. 그리고 나서 진동 크기에 따른 침입 감지 결과를 조합하여 최종 침입을 감지하고, 침입 감지 시 경보 신호를 출력한다. 이와 같이, 하나의 입력 신호에 대해 진동 크기별로 각각 침입을 감지하고, 침입 감지 시에 외부의 환경 및 설치 조건 특히, 벽면의 재질을 고려하여 미리 설정된 내부의 값들을 변경 적용함으로써 침입 감지에 따른 오동작을 최소화할 수 있게 된다. 진동 센서, 침입, 감지, 진동 크기, ADC, 벽면 재질 | ||||||
| 178 | 거리 측정기를 구비한 마이크로폰 | KR1020037010989 | 2002-02-20 | KR1020030080016A | 2003-10-10 | 오르텐,비르게르 |
| 본 발명은 사운드 에미터, 예를 들어 실연자의 얼굴까지의 거리를 측정하기 위한 소자(13)를 구비하는 마이크로폰에 관한 것이다. 이 거리 측정 소자(13)는 마이크로폰의 음향-전기 트랜스듀서(7)의 일부가 될 수 있으며, 압전 초음파 반향 거리 측정기(15, 16)가 될 수 있다. | ||||||
| 179 | 휴대용 홀컵장치 | KR2020030008482 | 2003-03-21 | KR200316662Y1 | 2003-06-18 | 황기룡 |
| 본 고안은 휴대용 홀컵장치에 관한 것으로, 종래 휴대용 홀컵장치는 골프공을 감지하는 부분과, 골프공을 감지함을 사용자에게 알려주는 부분이 별도 또는 측면에서 결합되도록 구성되어, 부피가 커 휴대가 용이하지 않은 문제점과 아울러 공의 진행을 방해하는 장애물이 있는 문제점이 있었다. 이와 같은 문제점을 감안한 본 고안은 투명한 재질의 케이스를 가지며, 내장된 센서에 의해 상부를 지나는 골프공을 감지하여, 신호라인을 통해 감지신호를 출력하는 홀컵 타겟부와; 상기 홀컵 타겟부의 저면에 결합되어, 상기 홀컵 타겟부에서 골프공을 감지하면 그 감지신호를 인가받아 지정된 음향을 출력함과 아울러 광을 출력하는 본체부로 구성하여, 골프공을 센싱하는 센서부와 센싱결과를 사용자에게 알려주는 본체 및 전원부를 일체형으로 형성하여, 퍼팅 연습을 할 때, 골프공의 진행을 방해하는 장애물이 제거하는 효과와 함께 휴대의 편의성을 보다 향상시키는 효과가 있다. | ||||||
| 180 | 유체 실린더용 위치검출장치 | KR1019990032279 | 1999-08-06 | KR1020000017141A | 2000-03-25 | 나가이카츠미 |
| PURPOSE: A device for detecting the position of a piston in a fluid cylinder used in an industrial vehicle is provided to exactly and continuously detect the position of a mobile body. CONSTITUTION: The position detection device is comprised of:a fluid cylinder(20, 62) for moving a mast(13, 14) including a piston which moves toward a shaft direction within a certain area by an oil pressure; a supersonic transceiver(31) installed within the cylinder; a reference position detection device(39, 41; 50-52; 60, 61)for detecting that the piston is in the certain reference position; a computer(45) for supplying an electric receiving signal to the transceiver so the transceiver as to receive a supersonic signal and receiving a electric receiving signal from the transceiver. | ||||||
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