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    • 14. 发明申请
    • DRIER FOR FOOD WASTE DISPOSAL SYSTEM
    • 食品垃圾处理系统DRIER
    • US20110089275A1
    • 2011-04-21
    • US12978033
    • 2010-12-23
    • Kwang Jae LeeSung Jin Kim
    • Kwang Jae LeeSung Jin Kim
    • B02C18/00B02C21/00
    • E03C1/2665
    • A drier for a food waste disposal system. A hollow drum has a charge port and a discharge port for food waste. An agitating screw has a rotating thread which is rotatably disposed in an inner space of the drum and agitates and crushes the food waste, and a rotating shaft around which the rotating thread is disposed. A motor is installed on a first end of the drum, and provides a rotating force to the agitating screw. A crusher has a crush plate installed on a second end of the drum and a plurality of inclined crushing blades arranged radially, and a crush plate support installed around an upper portion of the crush plate. A heater is installed on an outer surface of the drum, and when powered provides high-temperature heat for the inner space of the drum, drying the food waste.
    • 用于食物垃圾处理系统的干燥器。 中空鼓具有充电口和用于食物垃圾的排出口。 搅拌螺杆具有可旋转地设置在滚筒的内部空间中并且搅动和压碎食物垃圾的旋转螺纹,以及设置旋转螺纹的旋转轴。 马达安装在滚筒的第一端,并向搅拌螺杆提供旋转力。 破碎机具有安装在滚筒的第二端上的挤压板和径向布置的多个倾斜破碎刀片,以及安装在挤压板上部周围的挤压板支撑件。 加热器安装在滚筒的外表面上,当动力为滚筒的内部空间提供高温热量时,干燥食物垃圾。
    • 15. 发明授权
    • Coaxial connecting device
    • 同轴连接装置
    • US07909613B2
    • 2011-03-22
    • US12450484
    • 2008-01-08
    • Yong Goo LeeMaeng Youl LeeMin Su ParkSung Jin Kim
    • Yong Goo LeeMaeng Youl LeeMin Su ParkSung Jin Kim
    • H01R12/00
    • H01R24/44H01R9/0515H01R9/0527H01R13/2421H01R2103/00H01R2201/20
    • A coaxial connecting device is provided for making an electrical connection between a coaxial cable and a device under test. A coaxial connecting device electrically connects a coaxial cable to a signal pad and a ground pad. The coaxial contractor of the present invention includes a signal pin for electrically connecting a signal conductor of the coaxial cable to the signal pad; a ground connector for electrically connecting a ground conductor of the coaxial cable to the ground pad; a cylindrical guide tube surrounding the ground conductor for elastically contacting the ground connector while maintaining a predetermined distance with the signal pin; and a dielectric member surrounding a part of the signal pin for electrically isolating the cylindrical guide tube and the signal pin from each other and coaxially maintaining the guide tube and the signal pin. The coaxial connecting device of the present invention minimizes a contact path between the ground conductor of a coaxial cable and a ground pad and provides impedance matched coaxial signal transmission link, resulting in improvement of frequency characteristics.
    • 提供同轴连接装置用于在同轴电缆和被测器件之间进行电连接。 同轴连接装置将同轴电缆电连接到信号焊盘和接地焊盘。 本发明的同轴承包机包括用于将同轴电缆的信号导体电连接到信号焊盘的信号引脚; 用于将同轴电缆的接地导体电连接到接地垫的接地连接器; 围绕接地导体的圆柱形引导管,用于在与信号引脚保持预定距离的同时弹性地接触接地连接器; 以及围绕信号针的一部分的电介质构件,用于将圆柱形引导管和信号引脚彼此电隔离并且同轴地保持引导管和信号引脚。 本发明的同轴连接装置使同轴电缆的接地导体和接地焊盘之间的接触路径最小化,并提供阻抗匹配的同轴信号传输链路,从而提高频率特性。
    • 17. 发明授权
    • Method for manufacturing semiconductor device
    • 制造半导体器件的方法
    • US07754573B2
    • 2010-07-13
    • US12249685
    • 2008-10-10
    • Sung Jin Kim
    • Sung Jin Kim
    • H01L21/336
    • H01L29/78H01L29/6653H01L29/6656Y10S438/90
    • A method for manufacturing a semiconductor device. In one example embodiment of the present invention, a method for manufacturing a semiconductor device includes various steps. First, a gate pattern is formed on a substrate. Next, a first oxide layer is formed on the gate pattern. Then, a second oxide layer, a first silicon nitride layer, and a second silicon nitride layer are sequentially formed over the substrate and the first oxide layer. Next, a first etching process is performed to remove horizontal portions of the first and second silicon nitride layers. Then, source/drain regions are formed in the substrate. Next, the vertical portions first and second silicon nitride layers are removed. Then, a third silicon nitride layer is formed over the second oxide layer. Finally, a second etching process is performed to remove horizontal portions of the third silicon nitride layer and the second oxide layer.
    • 一种半导体器件的制造方法。 在本发明的一个示例性实施例中,半导体器件的制造方法包括各种步骤。 首先,在基板上形成栅极图案。 接下来,在栅极图案上形成第一氧化物层。 然后,在衬底和第一氧化物层上依次形成第二氧化物层,第一氮化硅层和第二氮化硅层。 接下来,执行第一蚀刻工艺以去除第一和第二氮化硅层的水平部分。 然后,在衬底中形成源/漏区。 接下来,去除垂直部分的第一和第二氮化硅层。 然后,在第二氧化物层上形成第三氮化硅层。 最后,执行第二蚀刻工艺以去除第三氮化硅层和第二氧化物层的水平部分。
    • 18. 发明申请
    • SURFACE ANALYSIS AND MEASUREMENT METHOD BASED ON FLOW RESISTANCE OF FLUID AND ATOMIC FORCE MICROSCOPE USING THE METHOD
    • 基于流体和原子力显微镜的流动阻力的表面分析和测量方法
    • US20100132077A1
    • 2010-05-27
    • US12625998
    • 2009-11-25
    • Sung Jin KimTae Young KimDong Kwon Kim
    • Sung Jin KimTae Young KimDong Kwon Kim
    • G01Q60/24
    • G01Q60/38G01Q30/04G01Q30/14
    • Provided is a surface analysis and measurement method based on the flow resistance of a fluid. The method comprises: spraying a fluid on the surface of a sample; identifying and determining if a flow resistance value of the fluid colliding with the sample surface is optimal for the measurement of the surface topography of the sample; setting the determined optimal flow resistance value to a reference value and moving the sample in the X-Y axes to allow the entire surface of the sample to be scanned; varying the position of the sample in the Z axis together with the X-Y axis movement to adjust varying flow resistance values of the fluid along the irregular surface topography of the sample to the set flow resistance value during scanning; and expressing the movement ranges of the sample in the X, Y and Z axes as numerical values and representing the numerical values as brightness values on a computer screen to display the surface topography of the sample. Further provided is an atomic force microscope using the method.
    • 提供了基于流体的流动阻力的表面分析和测量方法。 该方法包括:在样品的表面上喷射流体; 识别并确定与样品表面碰撞的流体的流阻值是否最适合用于测量样品的表面形貌; 将确定的最佳流动阻力值设定为参考值,并且将样品移动到X-Y轴中以允许扫描样品的整个表面; 随着X-Y轴运动,将样品在Z轴上的位置改变,以便沿扫描中的样品的不规则表面形貌将流体的流动阻力值调整到设定的流动阻力值; 并将X,Y和Z轴中的样品的移动范围表示为数值,并将计算机屏幕上的数值表示为亮度值,以显示样品的表面形貌。 还提供了使用该方法的原子力显微镜。
    • 19. 发明申请
    • Pulverizer for food waste treatment apparatus
    • 粉碎机用于食品废物处理设备
    • US20100090040A1
    • 2010-04-15
    • US12459453
    • 2009-06-30
    • Sang Gu SimYoung Don ParkSung Jin Kim
    • Sang Gu SimYoung Don ParkSung Jin Kim
    • B02C23/36B02C18/16E03C1/266
    • E03C1/266
    • The present invention provides a pulverizer of a food waste treatment apparatus. The pulverizer of the present invention includes a main body, a pulverizing screw and an exhaust channel unit. The main body has a hollow space therein. The pulverizing screw includes a rotating shaft which is installed in the main body so as to be rotatable, and at least one drive blade which extends from the rotating shaft. The exhaust channel unit has an annular shape and is coupled to the upper end of the main body. An intake hole and an exhaust hole are formed through the outer surface of the exhaust channel unit. Furthermore, a cover may be removably coupled to the upper end of the exhaust channel unit.
    • 本发明提供一种食品废弃物处理装置的粉碎机。 本发明的粉碎机包括主体,粉碎螺杆和排气通道单元。 主体在其中具有中空空间。 粉碎螺杆包括安装在主体中以便可旋转的旋转轴和从旋转轴延伸的至少一个驱动叶片。 排气通道单元具有环形形状并且联接到主体的上端。 通过排气通道单元的外表面形成进气孔和排气孔。 此外,盖可以可拆卸地联接到排气通道单元的上端。