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    • 6. 发明申请
    • NEGATIVE ELECTRODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY, PREPARATION METHOD OF THE SAME, AND LITHIUM SECONDARY BATTERY CONTAINING THE SAME
    • 用于锂二次电池的负极电极活性材料,其制备方法和含有该二次电池的锂二次电池
    • US20110262812A1
    • 2011-10-27
    • US12990177
    • 2009-04-28
    • Kyung-Hee HanJeong-Hun OhJong-Sung KimChul YoumJung-Min Han
    • Kyung-Hee HanJeong-Hun OhJong-Sung KimChul YoumJung-Min Han
    • H01M4/583H01B1/04B82Y30/00B82Y40/00
    • H01M4/587H01M4/362H01M4/364H01M10/052
    • The present invention relates to a negative electrode active material for a lithium secondary battery, a preparation method thereof, and a lithium secondary battery containing the negative electrode active material. The negative electrode active material for the lithium secondary battery according to the present invention is formed by mixing: a carbon material coated with vapor growth carbon fiber (VGCF) and amorphous graphite; and one or more kinds of other carbon material selected from natural graphite, artificial graphite, amorphous-coated graphite, resin-coated graphite and amorphous carbon. According to the present invention, when the negative electrode active material is prepared, the carbon fiber is uniformly dispersed throughout the carbon material, and the carbon material is coated with the amorphous graphite and then mixed with other carbon materials, and thus, a high electrode density can be achieved. Accordingly, even with high electrode density, the invention can provide the negative electrode active material with excellent electrochemical properties such as charge/discharge efficiency and cycle characteristics.
    • 本发明涉及锂二次电池用负极活性物质及其制备方法以及含有负极活性物质的锂二次电池。 根据本发明的锂二次电池用负极活性物质是通过混合涂覆有气相生长碳纤维(VGCF)和无定形石墨的碳材料形成的; 以及选自天然石墨,人造石墨,非晶涂覆石墨,树脂涂覆石墨和无定形碳中的一种或多种其它碳材料。 根据本发明,制备负极活性物质时,碳纤维均匀分散在碳材料中,碳材料被非晶质石墨覆盖,然后与其他碳材料混合,从而形成高电极 密度可以达到。 因此,即使高电极密度,本发明也可以提供具有优异的电化学性能如充电/放电效率和循环特性的负极活性材料。
    • 7. 发明授权
    • Anode material for secondary battery, method for producing the same and secondary batteries using the same
    • 二次电池用阳极材料及其制造方法以及使用其的二次电池
    • US07776472B2
    • 2010-08-17
    • US11653330
    • 2007-01-12
    • Ho-Gun KimJong-Sung KimDong-Hun ShinChul YoumJeong-Hun Oh
    • Ho-Gun KimJong-Sung KimDong-Hun ShinChul YoumJeong-Hun Oh
    • H01M4/58H01M4/88H01B1/04
    • H01M4/587
    • Disclosed are an anode material for a secondary battery, a method for producing the same and a secondary battery using the same. The present invention provides the anode material for a secondary battery produced by coating a high-crystallinity core carbonaceous material with a coating carbonaceous material and calcinating the high-crystallinity core carbonaceous material, wherein the anode material has a specific volume of 0.002 cc/g or less. The anode material for a secondary battery of the present invention may be produced by coating a high-crystallinity core carbonaceous material with a coating carbonaceous material and undergoing a predetermined calcination process, and the anode material can have an increased volume ratio of the micropores. Accordingly, the secondary battery of the present invention may be useful to improve charging/discharging capacity and efficiency since sorption of lithium ion in the anode material is improved.
    • 公开了二次电池的负极材料及其制造方法以及使用该二次电池的二次电池。 本发明提供了通过用涂覆碳质材料涂覆高结晶度碳质材料并煅烧高结晶度芯碳质材料制备的二次电池用阳极材料,其中阳极材料的比体积为0.002cc / g,或 减。 本发明的二次电池用阳极材料可以通过用涂覆碳素材料涂覆高结晶度的碳质材料并进行预定的煅烧工艺来制造,并且阳极材料可以具有增加的微孔的体积比。 因此,本发明的二次电池可以用于提高充电/放电容量和效率,因为锂离子在阳极材料中的吸附得到改善。
    • 8. 发明授权
    • Variable rack stroke system for vehicle
    • 可变齿条行程系统
    • US07743873B2
    • 2010-06-29
    • US11647073
    • 2006-12-28
    • Jong-Sung Kim
    • Jong-Sung Kim
    • B62D5/14B62D3/00B62D5/00
    • B62D3/12
    • A variable rack stroke system includes a rack housing in which a rack bar is slidably disposed, a casing attached to the rack housing, an annular rotary member, an annular stationary member, and a switch. The annular rotary member includes grooves on an inner periphery thereof that face each other, and first protrusions protruding from the rotary member in an axial direction that have different thicknesses. The rotational phase of the rotary member is adjusted by the motor. The annular stationary member includes protruding parts on an outer periphery thereof that face each other, configured to be inserted into the grooves, and second protrusions protruding from the stationary member in the axial direction, that have different thicknesses and face the first protrusions. The stationary member is coupled with a ball joint to be coupled with the rack bar. The switch adjusts the rotational phase of the motor.
    • 可变齿条冲程系统包括齿条壳体,齿条可滑动地布置在其中,壳体附接到齿条壳体,环形旋转构件,环形固定构件和开关。 所述环状旋转构件具有在其内周面上彼此面对的凹槽,以及从所述旋转构件在轴向方向上突出的具有不同厚度的第一突起。 旋转构件的旋转相位由电动机调节。 所述环状固定部件在其外周面上具有彼此相对的突出部,其构造成插入到所述槽中,以及从所述固定部件沿轴向突出的第二突起,所述第二突起具有不同的厚度并且面对所述第一突起。 固定构件与球窝接头联接以与齿条连接。 开关调节电机的旋转相位。