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    • 1. 发明申请
    • Method for Synthesizing Electrode Material Using Polyol Process
    • 使用多元醇法合成电极材料的方法
    • US20080292522A1
    • 2008-11-27
    • US12094604
    • 2006-09-23
    • Jae Kook KimDong Han KimTae Ryang Kim
    • Jae Kook KimDong Han KimTae Ryang Kim
    • C01B25/30
    • H01M4/5825C01B25/45C01D5/00H01M4/136H01M10/052
    • Disclosed herein is an electrode material obtained using a polyol process and a synthesis method thereof. The synthesis method includes the steps of preparing a mixed solution by mixing a transition metal compound, a polyacid anionic compound and a lithium compound with a polyol solvent; and obtaining a resultant product by reacting the mixed solution in a heating apparatus. In conventional methods of synthesizing an electrode material, such as the sol-gel method and the solid reaction method, the electrode material is synthesized through a heat treatment process, which is a post-process. However, in the method of synthesizing an electrode material according to the present invention, there is an advantage in that the electrode material, which has crystallinity due to a structure such as an olivine structure or a nasicon structure, can be synthesized using a polyol process at a low temperature without performing a heat treatment process, which is a post-process. Moreover, there are advantages in that the nanoelectrode material synthesized by the method according to the present invention has a high crystallinity, uniform particles, and a structure having a diameter ranging from several nanometers to several micrometers. Further, according to the present invention, the electrode material has a high electrochemical stability such that the discharge capacity of the electrode material is not greatly decreased even though the initial discharge capacity thereof is high and it is charged and discharged many times.
    • 本文公开了使用多元醇方法和其合成方法获得的电极材料。 合成方法包括通过将过渡金属化合物,多元酸阴离子化合物和锂化合物与多元醇溶剂混合来制备混合溶液的步骤; 并通过在加热装置中使混合溶液反应获得所得产物。 在诸如溶胶 - 凝胶法和固体反应方法的常规合成电极材料的方法中,通过后处理的热处理工艺合成电极材料。 然而,在根据本发明的合成电极材料的方法中,具有可以使用多元醇工艺来合成由于诸如橄榄石结构或纳西结构的结构而具有结晶性的电极材料的优点 在低温下不进行热处理工艺,这是后期处理。 此外,通过根据本发明的方法合成的纳米电极材料具有高结晶度,均匀的颗粒和直径范围从几纳米到几微米的结构的优点。 此外,根据本发明,电极材料具有高的电化学稳定性,即使其初始放电容量高,并且多次充放电,电极材料的放电容量也不会大大降低。
    • 2. 发明授权
    • Method for synthesizing electrode material using polyol process
    • 使用多元醇工艺合成电极材料的方法
    • US09011810B2
    • 2015-04-21
    • US12094604
    • 2006-09-23
    • Jae Kook KimDong Han KimTae Ryang Kim
    • Jae Kook KimDong Han KimTae Ryang Kim
    • C01B25/45C01D5/00H01M4/58H01M4/136H01M10/052
    • H01M4/5825C01B25/45C01D5/00H01M4/136H01M10/052
    • An electrode material obtained using a polyol process and a synthesis method is provided. The synthesis method includes steps of preparing a mixed solution by mixing a transition metal compound, a polyacid anionic compound and a lithium compound with a polyol solvent; and obtaining a resultant product by reacting the mixed solution in a heating apparatus. There is an advantage in that the electrode material, which has crystallinity due to a structure such as an olivine structure or a nasicon structure, can be synthesized using a polyol process at a low temperature without performing a heat treatment proces. The nanoelectrode material synthesized by the method has a high crystallinity, uniform particles, and a structure having a diameter ranging from several nanometers to several micrometers. Further, the electrode material has a high electrochemical stability.
    • 提供使用多元醇方法和合成方法获得的电极材料。 合成方法包括通过将过渡金属化合物,多元酸阴离子化合物和锂化合物与多元醇溶剂混合来制备混合溶液的步骤; 并通过在加热装置中使混合溶液反应获得所得产物。 其优点是可以使用多元醇工艺在低温下合成由于诸如橄榄石结构或纳西结构的结构而具有结晶性的电极材料,而不进行热处理。 通过该方法合成的纳米电极材料具有高结晶度,均匀的颗粒和直径范围从几纳米到几微米的结构。 此外,电极材料具有高的电化学稳定性。
    • 5. 发明申请
    • PUSHER FOR MATCH PLATE OF TEST HANDLER
    • 推动测试手术的匹配板
    • US20080231260A1
    • 2008-09-25
    • US12044181
    • 2008-03-07
    • Yun Sung NaIn Gu JeonDong Han KimJae woo Jang
    • Yun Sung NaIn Gu JeonDong Han KimJae woo Jang
    • G01R1/02G01R31/26
    • G01R31/2893
    • A pusher for a match plate of a test handler is disclosed which assists a tester to test the produced semiconductor devices. The pusher includes: a body part installed to an installation plate; and a pushing part that extends forward from a front side of the body part, for pushing a semiconductor device placed on an insert of a test tray. The pusher forms: an air through hole that extends through from a rear side of the body part to the front side of the pushing part, for guiding air of a certain temperature, supplied to the rear side of the body part from a duct, to be supplied to the semiconductor device; and at least one or more air outflow holes that extend through from at least one side of the pushing part and communicate with the air through hole, for allowing part of the air supplied from the duct through the air through hole to flow out to a test site. The pusher can reduce the temperature deviation of semiconductor devices at the test site.
    • 公开了用于测试处理机的匹配板的推动器,其帮助测试器测试所制造的半导体器件。 推动器包括:安装到安装板的主体部分; 以及从主体部的前侧向前方延伸的推压部,用于推动放置在测试盘的插入物上的半导体器件。 推动器形成:从主体部分的后侧延伸到推动部分的前侧的空气通孔,用于引导从管道向主体部分的后侧供应的一定温度的空气, 提供给半导体器件; 以及至少一个或多个空气流出孔,其从所述推动部的至少一侧延伸并与所述空气通孔连通,以允许通过所述空气通孔从所述管道供应的一部分空气流出到测试中 现场。 推动器可以降低测试点半导体器件的温度偏差。
    • 6. 发明授权
    • Linear compressor
    • 线性压缩机
    • US07179065B2
    • 2007-02-20
    • US11191902
    • 2005-07-29
    • Dong Han Kim
    • Dong Han Kim
    • F04B17/04F04B35/04
    • F04B35/045F04B39/102
    • Disclosed herein is a linear compressor. In the present invention, a spring sheet is equipped in an exhale cover to prevent an edge and an outer circumference of an exhale spring from touching with the exhale cover. A surface of the spring sheet is treated with a metal of the high hardness, thereby protecting against its abrasion and transformation, caused by a repetitive load from the exhale spring. Furthermore, the durability is improved by enduring the excessive or local load from the exhale spring.
    • 本文公开了一种线性压缩机。 在本发明中,弹簧片配置在呼气罩中,以防止呼气弹簧的边缘和外周与呼气罩接触。 弹簧片的表面用高硬度的金属处理,从而防止由于呼气弹簧的重复载荷引起的磨损和变形。 此外,通过忍受来自呼气弹簧的过量或局部负荷来提高耐久性。
    • 7. 发明授权
    • Reciprocating compressor
    • 往复式压缩机
    • US06746217B2
    • 2004-06-08
    • US10041497
    • 2002-01-10
    • Dong Han KimByung Jik KimHyeong Seok KimJin Sung Park
    • Dong Han KimByung Jik KimHyeong Seok KimJin Sung Park
    • F04B3504
    • F04B35/045
    • A reciprocating compressor includes a closed container having a suction tube and a discharge tube, and a reference frame elastically supported and mounted in the closed container. A driving motor is mounted at one end of the reference frame for generating a linear reciprocating driving force. A front frame is coupled to the other end of the reference frame which has a cylinder insertion hole therein. A cylinder is inserted into the cylinder insertion hole, and a piston is inserted in the cylinder. A connection magnet holder penetrates the reference frame, and an engaging portion engages the connection magnet holder and the piston. A discharge valve assembly is coupled to cover a compression space formed inside the cylinder and discharging gas, and a spring surrounds and is spaced from the piston for elastically supporting a motion of the piston. The operation mechanism is stable without any driving imbalance.
    • 往复式压缩机包括具有吸入管和排放管的密闭容器,以及弹性地支撑并安装在密闭容器中的参考框架。 驱动马达安装在基准架的一端,用于产生线性往复驱动力。 前框架连接到参考框架的另一端,其中具有气缸插入孔。 气缸插入气缸插入孔,活塞插入气缸。 连接磁体保持件穿过参考框架,并且接合部分接合连接磁体保持器和活塞。 排出阀组件联接以覆盖形成在气缸内部的压缩空间并排出气体,并且弹簧围绕并与活塞间隔开以弹性地支撑活塞的运动。 操作机构稳定,无任何驾驶不平衡。
    • 9. 发明授权
    • Button apparatus and mobile appliance having the same
    • 具有相同功能的按钮装置和移动电器
    • US07964808B2
    • 2011-06-21
    • US11873663
    • 2007-10-17
    • Dong Min SeoDong Han Kim
    • Dong Min SeoDong Han Kim
    • H01H9/00
    • H04M1/026G06F3/0338H04M1/23
    • A button apparatus and a mobile appliance having the same are provided. A button cover plate having button areas forms an external portion of a case of the appliance. The button areas may be flat on the surface of the button cover plate 36, and include compression bosses on a rear side thereof that contact and manipulate corresponding switches mounted on a substrate. The button cover plate may be seated in a button recess formed on the case 10. When so arranged, the button apparatus does not project from an outer surface of the mobile appliance, and an external design of the mobile appliance may be varied.
    • 提供了具有该按钮装置的按钮装置和移动式电器。 具有按钮区域的按钮盖板形成该器具的壳体的外部部分。 按钮区域可以在按钮盖板36的表面上是平坦的,并且在其后侧包括接触和操纵安装在基板上的相应开关的压缩凸台。 按钮盖板可以位于形成在壳体10上的按钮凹部中。当这样布置时,按钮装置不会从移动电器的外表面突出,并且可以改变移动电器的外部设计。
    • 10. 发明授权
    • Portable terminal device having supporting leg
    • 具有支撑腿的便携式终端设备
    • US07681859B2
    • 2010-03-23
    • US11623392
    • 2007-01-16
    • Dong Han Kim
    • Dong Han Kim
    • F16M11/00
    • F16C11/10F16M11/10F16M13/005F16M2200/08Y10S248/917
    • A portable terminal device includes a supporting leg which makes it possible to watch television in a standing state of the terminal device. The portable terminal device comprises a main body having a mounting groove formed in a rear surface thereof to have a predetermined length, the mounting groove having a plurality of catching grooves formed in one inner side surface thereof; and a supporting leg assembly having an end rotatably supported in the mounting groove. The supporting leg assembly comprises a supporting leg including a leg portion having a predetermined length, and a hollow head portion formed at one end of the leg portion and having one side opened. A cam member is inserted and supported in the head portion of the supporting leg with a spring received therein to be movable within a certain section in an axial direction. The cam member has a cam protrusion protruding outward to be caught to one of the catching grooves by an elastic force of the spring.
    • 便携式终端装置包括支撑腿,其能够以终端装置的直立状态观看电视。 便携式终端装置包括主体,其主体具有形成在其后表面中的预定长度的安装槽,所述安装槽具有形成在其一个内侧表面中的多个捕获槽; 以及支撑腿组件,其具有可旋转地支撑在安装槽中的端部。 所述支撑腿组件包括支撑腿,所述支腿包括具有预定长度的腿部部分,以及形成在所述腿部部分的一端并具有一侧打开的中空头部部分。 凸轮构件被插入并支撑在支撑腿的头部中,其中容纳在其中的弹簧可在轴向方向上的一定部分内移动。 凸轮构件具有向外突出的凸轮突起,以通过弹簧的弹力将其捕获到一个捕获槽。