LIQUID VEGETABLE SALT AND METHOD FOR PRODUCING THE SAME

    公开(公告)号:JP2001292726A

    公开(公告)日:2001-10-23

    申请号:JP2001047178

    申请日:2001-02-22

    Applicant: KIM WON DAE

    Inventor: KIN GENDAI

    Abstract: PROBLEM TO BE SOLVED: To provide a liquid vegetable salt having low salinity and high mineral content and substancially containing no heavy metal harmful to human body, and to provide a method for producing the salt. SOLUTION: This method comprises collecting Salicornia, removing such foreign substances as sand, soil and mud or the like attached to the Salicornia through washing twice with seawater or saltwater, slicing or grinding the resultant. The thus obtained product is put into triple times water, then the resultant is heated at 100 deg.C for >=3 h to obtain an extract containing several kinds of component or the like e.g. minerals or the like contained in the Salicornia, the extract is put into a bag for filtration and pressed to recover all of the filtrate.

    VEGETABLE SALT AND METHOD FOR PRODUCING THE SAME

    公开(公告)号:JP2001292725A

    公开(公告)日:2001-10-23

    申请号:JP2001047174

    申请日:2001-02-22

    Applicant: KIM WON DAE

    Inventor: KIN GENDAI

    Abstract: PROBLEM TO BE SOLVED: To provide a vegetable salt having low salinity and high mineral content and substantially containing no heavy metal harmful to human body, and to provide a method for producing the salt. SOLUTION: This method comprises washing and slicing Salicornia, then extracting with hot water to obtain a hot water-extraction solution, drying the resultant, primarily ashing the dried product at 150-250 deg.C for >=30 m, secondarily ashing the resultant at >=500 deg.C for >=2 h, tertiarily ashing the resultant at >=700 deg.C for >=2 h and then grinding the resultant to obtain the objective uniform vegetable salt.

    Vertically aligned helix-deformed liquid crystal display

    公开(公告)号:AU1187900A

    公开(公告)日:2000-06-13

    申请号:AU1187900

    申请日:1999-11-20

    Inventor: LEE SIN DOO

    Abstract: A vertically aligned helix-deformed ferroelectric liquid crystal display is provided which includes: the first (10) and second glass substrates (50) each of which has two surfaces, the first (10) and second glass substrates (50) facing each other; a first transparent electrode (20) having a first potential, being formed on a first surface (12) of the first glass substrate (10); a second transparent electrode (30) having a second potential different from the first potential, being formed on the first surface (12) of the first glass substrate (10); a first vertical alignment layer (40) being formed on the first surface (12) of the first glass substrate (10), on which the first and second transparent electrodes (20, 30) are formed; a second vertical alignment layer (60) formed on a first surface (52) of the second glass substrate (50); and a ferroelectric liquid crystal (70) being filled between the first and second glass substrates (10, 50) on which the first and second vertical alignment layers (40, 60) are respectively formed, facing each other, the ferroelectric liquid crystal (70) having a shorter helix pitch than the wavelength of the light, the ferroelectric liquid crystal (70) being helix-deformed in response to an electric field applied across the first and second transparent electrodes (20, 30) so that its molecules rotate in a specific direction, thereby achieving uniform alignment and the analog gray scale capability.

    VERTICALLY ALIGNED HELIX-DEFORMED LIQUID CRYSTAL DISPLAY
    4.
    发明公开
    VERTICALLY ALIGNED HELIX-DEFORMED LIQUID CRYSTAL DISPLAY 审中-公开
    WITH垂直定向的,变形HELIX液晶显示

    公开(公告)号:EP1131671A1

    公开(公告)日:2001-09-12

    申请号:EP99972747.2

    申请日:1999-11-20

    CPC classification number: G02F1/141 G02F2001/133742 G02F2001/1414

    Abstract: A vertically aligned helix-deformed ferroelectric liquid crystal display is provided which includes: the first (10) and second glass substrates (50) each of which has two surfaces, the first (10) and second glass substrates (50) facing each other; a first transparent electrode (20) having a first potential, being formed on a first surface (12) of the first glass substrate (10); a second transparent electrode (30) having a second potential different from the first potential, being formed on the first surface (12) of the first glass substrate (10); a first vertical alignment layer (40) being formed on the first surface (12) of the first glass substrate (10), on which the first and second transparent electrodes (20, 30) are formed; a second vertical alignment layer (60) formed on a first surface (52) of the second glass substrate (50); and a ferroelectric liquid crystal (70) being filled between the first and second glass substrates (10, 50) on which the first and second vertical alignment layers (40, 60) are respectively formed, facing each other, the ferroelectric liquid crystal (70) having a shorter helix pitch than the wavelength of the light, the ferroelectric liquid crystal (70) being helix-deformed in response to an electric field applied across the first and second transparent electrodes (20, 30) so that its molecules rotate in a specific direction, thereby achieving uniform alignment and the analog gray scale capability.

    METHOD AND DEVICE FOR SIMULTANEOUSLY OUTPUTTING IMAGES OF INTERNAL FRONT AND LATERAL SIDES OF A PIPE
    5.
    发明申请
    METHOD AND DEVICE FOR SIMULTANEOUSLY OUTPUTTING IMAGES OF INTERNAL FRONT AND LATERAL SIDES OF A PIPE 审中-公开
    用于同时输出管道内侧和外侧的图像的方法和装置

    公开(公告)号:WO2006129977A1

    公开(公告)日:2006-12-07

    申请号:PCT/KR2006/002110

    申请日:2006-06-01

    CPC classification number: F16L55/26

    Abstract: According to a method and a device for simultaneously outputting images of front and side views of an inside of a tubular way of the present invention, a camera stacked to an investigation system moving in a tubular way forward along an inner wall thereof, is attached with a lens adapter in the center of a front part thereof for photographing images of forward views and inner wall views of the tubular way and transmitting the photographed images to the camera, wherein the inner wall images in the range of 360° perpendicular to a peripheral surface of the lens adapter are incident to a side surface of the lens adapter and reflected therefrom to be transmitted to the camera, and the images received by the camera are respectively distinguished into the forward image data and the inner wall image data by a data processing unit and simultaneously displayed or drawn in the form of a single image.

    Abstract translation: 根据本发明的用于同时输出管状内部的前视图和侧视图的方法和装置,将沿着其内壁向前移动的调查系统堆叠的照相机安装在 其前部中心的镜头适配器,用于拍摄管状前视图和内壁视图的图像,并将拍摄的图像发送到相机,其中垂直于外围表面的360°范围内的内壁图像 镜片适配器入射到透镜适配器的侧表面并从其反射以传输到相机,并且由相机接收的图像分别由数据处理单元区分为正向图像数据和内壁图像数据 并且以单个图像的形式同时显示或绘制。

    수중 그라인더
    6.
    发明授权

    公开(公告)号:KR102177727B1

    公开(公告)日:2020-11-11

    申请号:KR20200067534

    申请日:2020-06-04

    Applicant: KIM WON DAE

    Inventor: KIM WON DAE

    Abstract: 본발명은수중그라인더에관한것으로, 보다상세하게는바다에나타나는백화현상으로인해황폐화되는어장을회복시키기위함과동시에바다수중에그물에설치된와이어나기타이물질에걸리게되어선박이움직이지못하고파손이나전복위험을제거하기위해작업자가수중에서백화현상과걸려진이물질을제거를용이하게하기위해, 선박의압축기에서공급되는에어를밀폐된그라인더의몸체내부일측투입공을통해마개의상투입홈을따라편심구의연결공을통해회전축의상부와하부로에어를공급하도록하여편심구에마련한회전축의날개가회전시켜연마재를작동가능케한 후편심구의일측에배출공을통해배출구를거치면서배출관을통해배출호스로수면위에서에어를배출가능케하여선박의압축기에서투입하는에어로연마재를연결한회전축을용이하게회전가능케함과동시에에어의배출을수중에서배출하지않고배출호스를따라수면위로배출하도록하여수중에서그라인더작업시종래의문제점인수중에서방사시발생하는소음과진동을해결하여작업성을향상시키게하는이점이있는것이다.

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