公开(公告)号：US20060027573A1

公开(公告)日：2006-02-09

申请号：US11195796

申请日：2005-08-03

Applicant: Sung-wook Cho ,  Hong-man Chang

Inventor： Sung-wook Cho ,  Hong-man Chang

IPC: H05B6/64

CPC classification number: H05B6/642 ,  H05B6/6426

Abstract: A microwave oven including: a main casing forming a component compartment and a cooking compartment and formed with a component compartment through portion communicating with the component compartment; a fan assembly coupled to the main casing, and including an exhaling fan blowing air toward the component compartment through portion to cool the component compartment and a fan motor driving the exhaling fan; and a guide unit mounted to the component compartment through portion and guiding the air blown by the exhaling fan toward a heating component accommodated in the component compartment.

Abstract translation: 一种微波炉，包括：形成组件室的主壳体和烹饪室，并且形成有与所述组件室连通的部件隔间通孔部; 风扇组件，其联接到所述主壳体，并且包括排出风扇，用于朝向所述组件室通过部分吹送空气以冷却所述组件室;以及风扇马达，其驱动所述排气扇; 以及引导单元，其安装到所述部件隔室通过部分，并且将由所述排气扇吹送的空气引导到容纳在所述部件室中的加热部件。

公开(公告)号：US20050152118A1

公开(公告)日：2005-07-14

申请号：US10926070

申请日：2004-08-26

Applicant: Sung-wook Cho

Inventor： Sung-wook Cho

IPC: G06F1/20 ,  G11B17/04 ,  G11B33/12 ,  G11B33/14 ,  H01L23/13 ,  H01L23/34 ,  H01L23/367 ,  H05K1/02 ,  H05K7/20

CPC classification number: G11B33/123 ,  G06F1/20 ,  G11B17/056 ,  G11B33/1426 ,  H01L23/13 ,  H01L23/3677 ,  H01L2924/0002 ,  H05K1/0204 ,  H05K7/20436 ,  H05K2201/09054 ,  H05K2201/10416 ,  H05K2201/10689 ,  H01L2924/00

Abstract: A device to cool an integrated circuit element, the device having a printed circuit board with a through hole smaller than the integrated circuit element; a cooling pad attached to a first element surface of the integrated circuit element, and positioned inside the through hole; and a heat transfer portion connected with a heat absorption body and making contact with the cooling pad, to transfer heat to the heat absorption body, so that the integrated circuit element is cooled by transferring the heat generated in the integrated circuit element, which is mounted on a first surface of the printed circuit board, to the heat absorption body, which is disposed facing a second surface of the printed circuit board opposite the first surface.

Abstract translation: 一种用于冷却集成电路元件的装置，该装置具有具有比该集成电路元件小的通孔的印刷电路板; 安装在集成电路元件的第一元件表面上并位于通孔内的冷却垫; 以及与吸热体连接并与冷却垫接触的传热部，将热量传递到吸热体，使得集成电路元件通过传递集成电路元件中产生的热而被冷却，该集成电路元件安装 在所述印刷电路板的第一表面上，与所述印刷电路板的与所述第一表面相对的第二表面设置的吸热体。

公开(公告)号：US06005669A

公开(公告)日：1999-12-21

申请号：US65493

申请日：1998-04-24

Applicant: Heui Jae Pahk ,  Sung Wook Cho ,  Woo Jung Ahn

Inventor： Heui Jae Pahk ,  Sung Wook Cho ,  Woo Jung Ahn

IPC: G01B11/30 ,  G01B11/02 ,  G01B11/06 ,  G01B11/24 ,  G01B11/00

CPC classification number: G01B11/0608 ,  G01B11/02

Abstract: A non-contacting measuring method for three dimensional micro pattern in a measuring object is disclosed. Three dimensional micro pattern of the surface of the measuring object is measured using blur of light. For measurement, a mechanism of an optical window with a slit is inserted between light source and the measuring object. The blurred image is captured by charge coupled device sensor based image frame grabber, and is analyzed in personal computers. All the values of the relative height differences are obtained in overall scanning measurement area of the measuring object. The relative height differences are the distances from the reference position to the other positions. The reference position is selected when its image is sharp in focus on the screen. At this time, images of the other positions except the reference position are blurred out of focus on the screen. Also, from the law of geometric optics and the geometric similarity of triangles, the relation equation between the height difference and the ratio of blurred image size to sharp image size can be constructed. When the size of the image of the reference position and the sizes of the images with the blurred image of the other positions are measured, all the height differences between the reference position and the other position can be calculated if the coefficients of the relation equation are evaluated.

Abstract translation: 公开了一种用于测量对象中的三维微图案的非接触测量方法。 使用模糊的光来测量测量对象的表面的三维微图案。 为了测量，在光源和测量对象之间插入具有狭缝的光学窗口的机构。 模糊图像通过基于电荷耦合器件传感器的图像帧获取器捕获，并在个人计算机中进行分析。 在测量对象的整个扫描测量区域中获得相对高差的所有值。 相对高度差是从参考位置到其他位置的距离。 当其图像在屏幕上焦点清晰时，选择参考点。 此时，除了参考位置之外的其他位置的图像在屏幕上失焦。 另外，从几何光学定律和三角形的几何相似度可以看出，高差与模糊图像尺寸与图像大小之间的关系方程可以被构建。 当测量参考位置的图像的大小和具有其他位置的模糊图像的图像的尺寸时，如果关系式的系数为 评估。

公开(公告)号：US08637219B2

公开(公告)日：2014-01-28

申请号：US12980584

申请日：2010-12-29

Applicant: Sung-Wook Cho ,  Hwan-Sung Cheon ,  Min-Soo Kim ,  Seung-Bae Oh ,  Jee-Yun Song

Inventor： Sung-Wook Cho ,  Hwan-Sung Cheon ,  Min-Soo Kim ,  Seung-Bae Oh ,  Jee-Yun Song

IPC: G03F7/004 ,  C07C13/24

CPC classification number: C07C33/26 ,  C07C33/36 ,  C07C2601/14 ,  C07C2603/54 ,  G03F7/091

Abstract: An aromatic ring-containing compound for a resist underlayer and a resist underlayer composition, the aromatic ring-containing compound being represented by the following Chemical Formula 1: wherein, in Chemical Formula 1, R1 to R6 are each independently a substituted or unsubstituted C1 to C10 alkyl group, a substituted or unsubstituted C5 to C20 aromatic ring group, a substituted or unsubstituted C3 to C20 cycloalkyl group, a substituted or unsubstituted C3 to C20 cycloalkenyl group, a substituted or unsubstituted C2 to C20 heteroaryl group, or a substituted or unsubstituted C2 to C20 heterocycloalkyl group, X1 to X6 are each independently hydrogen, a hydroxy group (—OH), a substituted or unsubstituted alkyl amine group, a substituted or unsubstituted alkoxy group, or an amino group (—NH2), n1 to n6 are each independently 0 or 1, and 1≦n1+n2+n3+n4+n5+n6≦6.

Abstract translation: 用于抗蚀剂底层的芳香族含环化合物和抗蚀剂下层组合物，所述含芳环的化合物由以下化学式1表示：其中，在化学式1中，R 1〜R 6各自独立地为取代或未取代的C1〜 取代或未取代的C 3至C 20芳环，取代或未取代的C 3至C 20环烷基，取代或未取代的C 3至C 20环烯基，取代或未取代的C 2至C 20杂芳基，或取代或未取代的 C2〜C20杂环烷基，X1〜X6各自独立地为氢，羟基（-OH），取代或未取代的烷基胺基，取代或未取代的烷氧基或氨基（-NH2），n1〜n6分别为 各自独立地为0或1，以及1 @ n1 + n2 + n3 + n4 + n5 + n6 @ 6。

公开(公告)号：US08540957B2

公开(公告)日：2013-09-24

申请号：US12954878

申请日：2010-11-28

Applicant: Yong Jae Suh ,  Young Mi Heo ,  Dae Sup Kil ,  Sung Wook Cho

Inventor： Yong Jae Suh ,  Young Mi Heo ,  Dae Sup Kil ,  Sung Wook Cho

IPC: C01B33/26

CPC classification number: C01B33/26 ,  A61K8/0245 ,  A61K8/26 ,  A61K2800/10 ,  A61K2800/413 ,  A61Q19/00 ,  B82Y30/00 ,  C01P2004/13

Abstract: The present invention provides a method for preparing microtubular halloysite nanopowders by cutting halloysite nanotubes at a high pressure, microtubular halloysite nanopowders prepared by the method, and a cosmetic composition comprising the microtubular halloysite nanopowders. According to the method of the present invention, it is possible to prepare the halloysite nanopowders with a tubular shape using natural halloysite and effectively select a halloysite nanopowder having a desired shape. The microtubular halloysite nanopowders can be used in many industrial fields and used as a container or a carrier for nanoparticles or organic materials such as drugs, air fresheners, cosmetics, agricultural chemical materials, etc.

Abstract translation: 本发明提供了一种通过高压切割多水高岭土纳米管制备微管多水高岭土纳米粉末的方法，该方法制备的微管多水高岭土纳米粉末和包含微管多水高岭土纳米粉末的化妆品组合物。 根据本发明的方法，可以使用天然多水高岭土制备具有管状形状的多水高岭土纳米粉末，并有效地选择具有所需形状的多水高岭土纳米粉末。 微管多壁高岭土纳米粉末可用于许多工业领域，用作纳米颗粒或有机材料如药物，空气清新剂，化妆品，农药等的容器或载体。

公开(公告)号：US20130127097A1

公开(公告)日：2013-05-23

申请号：US13551409

申请日：2012-07-17

Applicant: Jae-Won LIM ,  Jung-Min OH ,  Back-Kyu LEE ,  Chang-Youl SUH ,  Sung-Wook CHO

Inventor： Jae-Won LIM ,  Jung-Min OH ,  Back-Kyu LEE ,  Chang-Youl SUH ,  Sung-Wook CHO

IPC: B22F1/00

CPC classification number: B22F1/0088 ,  C22C1/06

Abstract: Disclosed is a deoxidation apparatus for preparing low-oxygen titanium powders. The deoxidation apparatus includes a lower container having an open upper portion and storing an deoxidizer representing an oxygen degree higher than an oxygen degree of titanium and a melting temperature lower than a melting temperature of titanium, and an upper container coupled with the lower container on the lower container and storing titanium base powders. The upper container is provided at a lower surface thereof with a sieve, and allows the deoxidizer, which is evaporated due to heating, to make contact with the titanium base powders so that the titanium base powders are deoxidized.

Abstract translation: 公开了一种用于制备低氧钛粉末的脱氧装置。 脱氧装置包括具有敞开的上部的下部容器，并且存储表示比钛的氧度高的氧度的脱氧剂和低于钛的熔融温度的熔融温度，以及与下部容器连接的上部容器 下容器和储存钛基粉末。 上容器在其下表面设置有筛子，并且允许由于加热蒸发的脱氧剂与钛基粉末接触，使得钛基粉末脱氧。

公开(公告)号：US20130018634A1

公开(公告)日：2013-01-17

申请号：US13323123

申请日：2011-12-12

Applicant: Seock Hoon BAE ,  Dong Hoon LEE ,  Sung Wook CHO ,  Chang Yoon YANG ,  Kang Hoon CHUNG

Inventor： Seock Hoon BAE ,  Dong Hoon LEE ,  Sung Wook CHO ,  Chang Yoon YANG ,  Kang Hoon CHUNG

IPC: G06F17/50

CPC classification number: G06T17/10 ,  G05B2219/35148 ,  G06F17/50

Abstract: Provided is an apparatus and method of automatically extracting a sweep/extrude/revolve feature shape from atypical digital data, including a scanner which scans a 3D object so as to provide 3D scan data indicating a shape of the 3D object, and a computing device which extracts a feature shape from a collection of the 3D scan data collected from the scanner, wherein the computing device includes an extracting means for extracting multiple points from the collection of the 3D scan data and producing initial section from the extracted multiple points; an aligning means for aligning the sections so that shapes of the sections are coincided with each other; a compensating means for forming an initial path, generating an initial profile and then compensating the path; and a modeling means for performing a modeling function using the compensated path and profile.

Abstract translation: 提供了一种从非典型数字数据自动提取扫描/拉伸/旋转特征形状的装置和方法，包括扫描3D对象以提供指示3D对象的形状的3D扫描数据的扫描仪，以及计算装置， 从从扫描仪收集的3D扫描数据的集合中提取特征形状，其中所述计算装置包括提取装置，用于从所述3D扫描数据的集合提取多个点，并从所提取的多个点产生初始部分; 对准装置，用于对准这些部分，使得这些部分的形状彼此一致; 用于形成初始路径的补偿装置，产生初始轮廓，然后补偿路径; 以及用于使用补偿的路径和轮廓来执行建模功能的建模装置。

公开(公告)号：US20120153424A1

公开(公告)日：2012-06-21

申请号：US13241332

申请日：2011-09-23

Applicant: Seung-Bae OH ,  Hwan-Sung Cheon ,  Sung-Wook Cho ,  Min-Soo Kim ,  Jee-Yun Song ,  Yoo-Jeong Choi

Inventor： Seung-Bae OH ,  Hwan-Sung Cheon ,  Sung-Wook Cho ,  Min-Soo Kim ,  Jee-Yun Song ,  Yoo-Jeong Choi

IPC: H01L21/306 ,  H01L27/02 ,  C09D185/02

CPC classification number: H01L21/31144 ,  G03F7/094 ,  H01L21/02112 ,  H01L21/0332

Abstract: A hard mask composition, a method of forming a pattern, and a semiconductor integrated circuit device, the hard mask composition including a solvent; and a compound, the compound including a structural unit represented by the following Chemical Formula 1:

Abstract translation: 硬掩模组合物，形成图案的方法和半导体集成电路器件，所述硬掩模组合物包括溶剂; 和化合物，所述化合物包括由以下化学式1表示的结构单元：

公开(公告)号：US20110281112A1

公开(公告)日：2011-11-17

申请号：US12953668

申请日：2010-11-24

Applicant: Han Kwon CHANG ,  Hee Dong Jang ,  Dae Sup Kil ,  Kuk Cho ,  Sung-Wook Cho

Inventor： Han Kwon CHANG ,  Hee Dong Jang ,  Dae Sup Kil ,  Kuk Cho ,  Sung-Wook Cho

IPC: C01F17/00 ,  B82Y40/00 ,  B82Y30/00

CPC classification number: B82Y40/00 ,  B82Y30/00 ,  C01F17/0043 ,  C01P2002/60 ,  C01P2002/72 ,  C01P2004/04 ,  C01P2004/64 ,  Y10S977/775 ,  Y10T428/2982

Abstract: Disclosed is a method for producing a cerium dioxide nanopowder by flame spray pyrolysis. The method comprises dissolving a cerium compound in an organic solvent to prepare a precursor solution, atomizing the precursor solution into microdroplets using an ultrasonic atomizer, transferring the microdroplets together with an argon gas as a carrier gas to a central portion of a high-temperature diffusion flame burner, subjecting the microdroplets to pyrolysis and oxidation in the central portion of the diffusion flame burner to produce a cerium dioxide nanopowder, and collecting the cerium dioxide nanopowder using a collector. According to the method, a cerium dioxide nanopowder can be continuously produced on a large scale by flame spray pyrolysis. In addition, the particle size and uniformity of the cerium dioxide nanopowder can be controlled by appropriately selecting the kind of the solvent and the concentration of the raw material. Furthermore, flame spray pyrolysis allows the cerium dioxide to have a fluorite crystal structure.

Abstract translation: 公开了通过火焰喷雾热解制备二氧化铈纳米粉末的方法。 该方法包括将铈化合物溶解在有机溶剂中以制备前体溶液，使用超声波雾化器将前体溶液雾化成微滴，将微滴与作为载气的氩气一起转移到高温扩散的中心部分 火焰燃烧器，使微滴在扩散火焰燃烧器的中心部分进行热解和氧化，产生二氧化铈纳米粉末，并使用收集器收集二氧化铈纳米粉末。 根据该方法，二氧化铈纳米粉末可以通过火焰喷射热解大规模连续生产。 此外，可以通过适当选择溶剂的种类和原料的浓度来控制二氧化铈纳米粉末的粒径和均匀性。 此外，火焰喷雾热解允许二氧化铈具有萤石晶体结构。

公开(公告)号：US20090042922A1

公开(公告)日：2009-02-12

申请号：US11775154

申请日：2007-07-09

Applicant: Daniel Romo ,  Sung Wook Cho ,  Jeffrey W. Smith ,  Robyn D. Richardson

Inventor： Daniel Romo ,  Sung Wook Cho ,  Jeffrey W. Smith ,  Robyn D. Richardson

IPC: A61K31/365 ,  C07D305/08 ,  A61K31/4375 ,  A61P35/00 ,  C07D491/16

CPC classification number: C07D407/12 ,  C07D305/12

Abstract: Derivatives of belactosin and their synthesis are disclosed. In certain embodiments, compounds of the present invention exhibit anti-cancer, antiviral, antibiotic, and/or auto-immune therapeutic abilities. In general, methods of synthesis disclosed herein allow for introduction of a variety of substituents at numerous positions as well as the facile introduction of a beta-lactone ring moiety. The synthetic steps comprise, in preferred embodiments, a tandem Mukaiyama aldol lactonization reaction. Data demonstrating the utility of some of the derivatives as proteasome inhibitors is also disclosed.

Abstract translation: 披露了双乳糖蛋白衍生物及其合成。 在某些实施方案中，本发明的化合物表现出抗癌，抗病毒，抗生素和/或自身免疫治疗能力。 通常，本文公开的合成方法允许在多个位置引入各种取代基以及容易地引入β-内酯环部分。 在优选实施方案中，合成步骤包括串联的Mukaiyama醛醇内酯反应。 还公开了证明一些衍生物作为蛋白酶体抑制剂的效用的数据。