| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | 시계 연동 씨씨티브이 카메라 시스템 | KR1020140164439 | 2014-11-24 | KR101579476B1 | 2015-12-24 | 김대휘; 윤지현; 김성기; 최준영; 장영준; 백은칠 |
| 본발명에따른시계연동씨시티브이카메라시스템은복수의지정된장소에설치되어영상을촬영하기위한카메라부와, 상기카메라부에의해촬영된영상을디스플레이하는영상표시부와, 상기카메라부와영상표시부에접속되어상기카메라부와영상표시부를제어하는중앙제어부와, 통신모듈및 지피에스모듈을포함하는시계를포함하며, 상기카메라부는상기카메라부의지향각도를변경시키기위한지향각조절부와, 상기중앙제어부와통신하기위한통신모듈부와, 상기카메라부에포함되는렌즈의초점을조절하기위한초점조절모듈부와, 상기카메라부의각종구성들을제어하기위한카메라제어부를포함하고, 상기시계는상기통신모듈을통해위치정보를상기중앙제어부로전송하며, 상기중앙제어부는상기시계로부터전송받은위치영역에설치된카메라부의지향각을조절하여촬영하도록구성되는것을특징으로한다. 본발명에의해, 시계로부터위치정보를전달받아, 상기시계가위치하는영역에설치된카메라부의지향각을조절하여시계위치영역을촬영하도록구성됨으로써, 경찰서또는보안회사와같은기관의신속한대처가가능하도록하여시계착용자를범죄로부터보호할수 있다. 또한, 카메라부내부로수분이침투되는것을방지하고, 외부의충격에의해카메라부가용이하게파손되지않도록할 수있다. | ||||||
| 182 | 토목구조물 및 건축물 안전진단시 광학렌즈 및 망원렌즈를 이용한 정밀안전진단 방법 | KR1020120117653 | 2012-10-23 | KR101247966B1 | 2013-04-02 | 장석진 |
| PURPOSE: A precise safety diagnosis method using an optical lens and a telephoto lens when diagnosing the safety of a civil structure and a building is provided to photograph the exterior of the structure by using a camera with the optical telephoto lens at a remote location, to analyze the images with a DSP(Digital Signal Processor) method, and to diagnose the safety of the structure, thereby simplifying the operation of equipment, the maintenance of the structure, and a safety diagnosing task. CONSTITUTION: A precise safety diagnosis method using an optical lens and a telephoto lens when diagnosing the safety of a civil structure and a building is as follows. Angle information and coordinate information are received from a posture detecting unit by a DSP safety diagnosis server, thereby being recorded in an allocated domain with corresponding time information(S2100). Whether an installation state of the posture detecting unit is different from a previous state or not is confirmed by analyzing the recorded angle information(S2200). When posture correction is necessary, corresponding remote-control command signals for correcting a posture are output to the posture detecting unit(S2300). The exterior of the posture detecting unit is photographed by controlling the telephoto lens by using the DSP safety diagnosis server, and signals of the photographed images are output(S2400). The output image signals are digital-processed so that the displacement information of the structure is extracted by the DSP safety diagnosis server(S2500). A difference value is analyzed by comparing the extracted displacement information and recorded reference value information(S2600). When the difference value exceeds an allowable range, a corresponding warning message is output(S2800). [Reference numerals] (AA) Start; (BB) End; (S2100) Receiving and storing angle information and coordinate information of a posture detecting unit; (S2200) Correcting the posture?; (S2300) Outputting a remote control command signal for correcting the posture; (S2400) Inputting an image signal of the posture detecting unit photographed by controlling an optical telescopic lens camera; (S2500) Extracting displacement information by DSP processing the image signal and successively storing in an allocated area of a memory; (S2600) Comparing a reference value with the extracted displacement information and analyzing a safety test result; (S2700) Exceeding an allowable range?; (S2800) Outputting a warning message; | ||||||
| 183 | 서리 제거 기능이 구비된 폐쇄회로텔레비젼 카메라 장치 | KR1020110075055 | 2011-07-28 | KR101248029B1 | 2013-03-27 | 이용철; 차상호; 구희수 |
| 본 발명은 서리 제거 기능이 구비된 폐쇄회로텔레비젼 카메라 장치에 관한 것이다.
본 발명에 따른 지지 기판에 설치되어 있는 CCTV 카메라, 상기 CCTV 카메라의 전면에 위치하도록 상기 지지 기판에 설치된 제1 히터 및 상기 CCTV 카메라와 상기 제1 히터가 설치되어 있는 상기 지지 기판을 내부에 수용한 상태로 상기 지지 기판을 고정 지지하기 위한 프레임을 포함하여 구성된다. 본 발명에 따르면, 겨울철 또는 한대 지방과 같은 낮은 온도 환경에서 철도차량의 외부에 설치된 CCTV 카메라의 전면창에 서리가 생성되는 현상을 방지하여 촬영 영상의 품질을 크게 향상시킬 수 있는 효과가 있다. |
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| 184 | 토목구조물 및 건축물 안전진단시 광학렌즈 및 망원렌즈를 이용한 정밀안전진단 장비 | KR1020120117654 | 2012-10-23 | KR101242564B1 | 2013-03-19 | 장석진 |
| PURPOSE: A precise safety diagnosing system using an optical lens and a telephoto lens for diagnosing the safety of civil structures and buildings is provided to remotely photograph the exterior of the structure with a camera with a telephoto lens and to analyze the photographed images with a DSP(Digital Signal Processing) mode, thereby diagnosing the safety of the structure. CONSTITUTION: A precise safety diagnosing system comprises a camera fixing stand(60), a camera(70) with an optical telephoto lens, a posture detecting unit(100), and a DSP safety diagnosing server(200). The camera fixing stand is installed around a structure(50) including a satellite(20), a bridge(30), and a pier(40), thereby fixing the camera. The camera is fixed to the camera fixing stand and outputs photographed image signals according to the corresponding control signals. The posture detecting unit is variably fixed to the part of a surface of the structure, provides angle information, and receives coordinate information signal transmitted from the satellite. The DSP safety diagnosing server receives image signals, in which the surface of the posture detecting unit is photographed, from the camera, thereby diagnosing the safety of the structure. The DSP safety diagnosing server outputs a remote control command signals varying a fixed state of the posture detecting unit by turning the same. | ||||||
| 185 | CCTV 카메라의 필터전환 조립체 | KR2020100008229 | 2010-08-06 | KR200462084Y1 | 2012-08-27 | 김인균 |
| CCD 전면에 복수의 필터가 마련되어 선택된 필터를 통해 렌즈로 입사된 상을 필터링하는 CCD 카메라의 필터전환 조립체를 개시한다. 복수의 필터가 마련되어 선택된 필터를 통해 렌즈로 입사된 광을 필터링하도록 이미지 센서와 렌즈 사이에 설치되는 CCD 카메라의 필터전환 조립체로서, PCB 기판의 상부에 결합되고 내부에 상기 이미지 센서가 내부에 위치하는 케이싱부; 상기 케이싱부의 내측에 직선으로 활주 가능하게 설치되고, 일측면에 랙 기어가 형성된 필터 홀더부; 상기 필터 홀더부의 내측에 장착되고 주간용 필터와 야간용 필터로 구분되는 필터부; 상기 케이싱부 내부에 장착되고, 상기 필터 홀더부의 상기 랙 기어와 맞물림되는 평기어가 구동축에 형성된 구동부; 및 상기 필터 홀더부와 상기 구동부가 케이싱부 내에 밀폐되도록 상기 케이싱부의 상부 측으로 체결되는 상부 덮개부를 포함하여 이루어진 것을 특징으로 한다.
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| 186 | LENS APERTURE-ADJUSTMENT DEVICE OF CLOSED CIRCUIT TELEVISION CAMERA | KR20070031402 | 2007-03-30 | KR20070098710A | 2007-10-05 | KUWAKINO KOSHI |
| An apparatus for adjusting a lens iris of a CCTV(Closed Circuit TV) camera is provided to switch automatic adjustment and manual adjustment of the lens iris. A geared motor(GM) drives an iris wing(22) of a lens iris implement(14). A driving unit(130) drives the geared motor(GM) according to the first driving signal(CS1) for automatic adjustment or the second driving signal(CS2) for manual adjustment. A comparing circuit compares a brightness information signal(S1) according to image pickup environment with the first reference signal(Vref1), and outputs the first driving signal(CS1) for automatic adjustment. A differential amplifier(120) receives a manual adjustment signal(S2) inputted from an operator and the second reference signal(Vref2) designating a limit value of a driving quantity of the geared motor(GM), and outputs the second driving signal(CS2) for manual adjustment. A selecting circuit(140) provides one of the first driving signal(CS1) and the second driving signal(CS2) to the driving circuit(130). | ||||||
| 187 | 프리즘 탑재 촬상기를 갖는 텔레비젼 카메라 | KR1019850002076 | 1985-03-28 | KR100071269B1 | 1994-02-24 | 자이그먼트마리안 |
| 188 | 텔레비젼 카메라가 부착된 필림 카메라의 뷔화인더 장치 | KR2019800001244 | 1980-02-27 | KR200021924Y1 | 1982-06-30 | 김용봉 |
| 189 | 电视摄像机镜头 | CN201230341750.7 | 2012-07-26 | CN302314145S | 2013-02-06 | 礒崎诚 |
| 1.本外观设计产品的名称:电视摄像机镜头。2.本外观设计产品的用途:连接到电视摄像机上以拍摄视频。3.本外观设计的设计要点:产品的形状和图案。4.最能表明设计要点的图片或者照片:立体图。 | ||||||
| 190 | TELEVISION CAMERA | US14703153 | 2015-05-04 | US20150237297A1 | 2015-08-20 | Shinji TAKEMOTO; Shoichi FUSE; Kazumasa MOTODA; Akiyuki NODA |
| A first video signal having a first frame rate optionally settable is generated by an image pickup device, and the first video signal is memorized in a memory and outputted from the memory. A write control device controls the write of the first video signal with respect to the memory, and a read control device controls the read of the video signal with respect to the memory. The write control device writes respective first frame data constituting the first video signal in the memory in each cycle determined by the first frame rate of the first video signal. The read control device reads the first frame data as a second video signal. The second video signal is formed from sequentially arranging the first frame data in a partially duplicating manner in a standard video signal having a standard frame rate based on a determined arrangement rule. The predetermined arrangement rule is an arrangement rule employed when respective frame data constituting a video signal having a second frame rate equal to or lower than the standard frame rate are arranged in a duplicating manner in the standard video signal. In the foregoing manner, an time elongation/contraction effect on an image can be speedily and inexpensively obtained. | ||||||
| 191 | Television camera | US10544876 | 2004-02-20 | US09055270B2 | 2015-06-09 | Shinji Takemoto; Shoichi Fuse; Kazumasa Motoda; Akiyuki Noda |
| A first video signal having a first frame rate optionally settable is generated by an image pickup device, and the first video signal is memorized in a memory and outputted from the memory. A write control device controls the write of the first video signal with respect to the memory, and a read control device controls the read of the video signal with respect to the memory. The write control device writes respective first frame data constituting the first video signal in the memory in each cycle determined by the first frame rate of the first video signal. The read control device reads the first frame data as a second video signal. The second video signal is formed from sequentially arranging the first frame data in a partially duplicating manner in a standard video signal having a standard frame rate based on a determined arrangement rule. The predetermined arrangement rule is an arrangement rule employed when respective frame data constituting a video signal having a second frame rate equal to or lower than the standard frame rate are arranged in a duplicating manner in the standard video signal. In the foregoing manner, an time elongation/contraction effect on an image can be speedily and inexpensively obtained. | ||||||
| 192 | Television camera | US14125360 | 2012-05-11 | US08860842B2 | 2014-10-14 | Noriyasu Okada |
| There is provided a television camera that can automatically adjust a detected video signal balance without using a grayscale chart in order to satisfactorily capture a subject. The television camera adjusts the detected video signal balance by using a white (achromatic) subject and without using the grayscale chart. The television camera firstly captures a white (achromatic) subject. The television camera detects a level of a G signal on a detection gate, and sequentially and automatically adjusts a lens iris in order that the level of the G signal becomes a predetermined signal level (level 71, level 72, level 73, level 74). For each signal level (level 71, level 72, level 73, level 74), the television camera aligns signal levels of R signal and B signal with respect to the G signal, thereby automatically adjusting the detected video signal balance. | ||||||
| 193 | TELEVISION CAMERA | US14125360 | 2012-05-11 | US20140132797A1 | 2014-05-15 | Noriyasu Okada |
| There is provided a television camera that can automatically adjust a detected video signal balance without using a grayscale chart in order to satisfactorily capture a subject. The television camera adjusts the detected video signal balance by using a white (achromatic) subject and without using the grayscale chart. The television camera firstly captures a white (achromatic) subject. The television camera detects a level of a G signal on a detection gate, and sequentially and automatically adjusts a lens iris in order that the level of the G signal becomes a predetermined signal level (level 71, level 72, level 73, level 74). For each signal level (level 71, level 72, level 73, level 74), the television camera aligns signal levels of R signal and B signal with respect to the G signal, thereby automatically adjusting the detected video signal balance. | ||||||
| 194 | TV camera | US29298214 | 2007-11-30 | USD587736S1 | 2009-03-03 | Akira Yamane; Eiji Sugiyama; Tetsuro Kato |
| 195 | Television camera apparatus | US09809258 | 2001-03-16 | US20020080240A1 | 2002-06-27 | Eiichi Omi |
| The present invention is directed to providing a televising camera apparatus in which its microscopic unit and observing unit or a monitor unit are not connected to each other by cable, and this eliminates restrictions of a relative position of the microscopic unit to the monitor unit, so as to facilitate indoor observation of samples such as snow as they would be in their respective natural environments. The present invention is also directed to providing a televising camera apparatus of a simple configuration which allows an observer to see samples from desired positions without a rotating sample-mounting plate when the samples assume an orientation varied from one side to another as in a minute identification mark labeled for discriminating authenticated paper currencies and securities from counterfeit ones because of its inconspicuous and incomprehensible geometrical characteristic when seen from only a single fixed position. The televising camera apparatus is provided with a base, a supporting arm pivotally fixed about a rotation axis orthogonal to the base, a sample-mounting plate, microscopic object optics, and illuminating optics attached respectively to the supporting arm, and a wireless televising camera unit located in an imaging position in the microscopic object optics. | ||||||
| 196 | TV camera | US48059 | 1987-05-11 | US4839723A | 1989-06-13 | Jun Yoshinaga; Nobuyoshi Yazawa |
| A TV camera of this invention is adapted to be attached to an eyepiece section of, for example, an endoscope. The camera has a camera body with an eyepiece section. A camera mount is attached to the front portion of the inside of the casing so that the camera body is mounted on the eyepiece section of the endoscope. A beam splitter is arranged behind the camera mount to allow light which has been incident into the camera body to be split into two beams of one and the other beam. An image pickup element block includes an image pickup element for receiving the light conducted in the light incident direction and an optical system for projecting the beam travelling in the beam-incident direction onto the receiving surface of the image pickup element where an image is formed. The element block is mounted on the rear side of the beam splitter such that it is detachable from the camera body. A finder optical system is disposed parallel to the image pickup block to conduct the other beam to the eyepiece section of the camera body. It is possible to exchange an initially attached image pickup element with another image pickup element of a different size by replacing only the image pickup element block without replacing the finder optical system. | ||||||
| 197 | Television camera | US638267 | 1984-08-06 | US4647822A | 1987-03-03 | Yukihiro Masuda; Shizuka Ishibashi; Kenji Takahashi; Takuma Kodama; Koji Kudo; Masanori Hombough |
| A television camera capable of correcting shadings caused by digital registration faculty employed in a multi-tube type color television camera. The television camera comprises differentiating circuits for generating differentiated waves of correction waveforms used for adjusting registration, and non-linear circuits for processing the differentiated waves. Outputs of the non-linear circuits control the gain of a video signal circuit so that components responsible for the generation of shadings can be removed from a video signal. | ||||||
| 198 | Television camera | US199264 | 1980-10-21 | US4345271A | 1982-08-17 | Takeshi Sekiguchi |
| A television camera in accordance with this invention includes an objective lens for receiving a light from a scene, said objective lens including a front lens part and a rear lens part, a color-separating combination prism disposed adjacent to said objective lens at its image side, an image-taking devices for sensing color-separated images which are formed by both said objective lens and said prism, a test pattern chart, a light-guiding path for conducting a light passed through said front lens part to illuminate said test chart, and an image-transmitting path for conducting a light from said test chart to said rear lens part to provide an image of the test chart to said image-taking devices. | ||||||
| 199 | Television camera | US65025 | 1979-08-09 | US4275412A | 1981-06-23 | Cornelis J. Contant |
| The invention relates to a television camera comprising a plurality of pickup elements which are positioned relative to a pickup lens by means of a holder which also includes a color splitting prism system. A front face of the prism system is attached to a reference face of the holder. The prism system is positioned in the holder by means of an abutment element attached to the holder and engaging at least one optically flat prism face. In this manner the prism system is very accurately positioned in the holder in a simple manner. | ||||||
| 200 | TV Camera | US2096 | 1979-01-09 | US4262305A | 1981-04-14 | Takeshi Sekiguchi; Shigeru Ohshima |
| A TV camera comprises an objective lens, a color resolving prism, image pickup devices provided in opposed relationship with the respective exit surfaces of the color resolving prism, and a bias light device. This TV camera is characterized by a novel, small color resolving prism. The color resolving prism comprises four sub-prisms each having a refractive index of 1.6 or higher. The vertical angles of the respective sub-prisms are:23.3.degree..ltoreq..theta..sub.1 .ltoreq.25.8.degree.2.degree..ltoreq..theta..sub.2 .ltoreq.13.degree.28.5.degree..ltoreq..theta..sub.3 .ltoreq.37.7.degree.13.9.degree..ltoreq..theta..sub.4 .ltoreq.18.2.degree. | ||||||
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