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    • 6. 发明申请
    • TOUCH PANEL
    • 触控面板
    • WO2013012273A3
    • 2013-04-11
    • PCT/KR2012005786
    • 2012-07-19
    • LG CHEMICAL LTDPARK MIN SOOYANG SE WOOCHANG SUK KYLEE SEUNG MIN
    • PARK MIN SOOCHANG SUK KYLEE SEUNG MIN
    • G06F3/041C09J133/06
    • G06F3/0412C08F220/10C08K5/37C08L41/00C09J4/00C09J7/385C09J133/08C09J133/14G06F3/041Y10T428/2891
    • The present invention relates to a touch panel. The touch panel, according to the present invention, comprises: a base material; and an adhesive layer, which is coupled to the base material and has a release force of 1900g/25mm with respect to a polycarbonate sheet, wherein the form of the adhesive layer includes an acrylic polymer product comprising an acrylic polymer and a thiol polymer, which is derived from a thiol compound that binds to a side chain or the end of a chain in the acrylic polymer, thereby effectively preventing oxygen, moisture, or other foreign substances from infiltrating a base material film and the surface of the adhesive layer or a conductive body thin film and the surface of the adhesive layer, and preventing deterioration of optical properties such as visibility, due to bubbles that are generated form an adhesive surface. In addition, change in resistance of the conductive body thin film is effectively prevented when the adhesive layer is directly coupled to the conductive body thin film and when exposed to extreme conditions, such as high temperature or high temperature and high humidity, thereby enabling stable operation of the touch panel for a long time.
    • 触摸板技术领域本发明涉及一种触摸板。 根据本发明的触摸面板包括:基底材料; 以及粘合剂层,所述粘合剂层联接到所述基材并且相对于聚碳酸酯片材具有1900g / 25mm的剥离力,其中所述粘合剂层的形式包括含有丙烯酸类聚合物和硫醇聚合物的丙烯酸类聚合物产品,其 来源于与丙烯酸类聚合物中的侧链或链末端结合的硫醇化合物,由此有效地防止氧气,湿气或其他外来物质渗入基材膜和粘合剂层的表面或导电层 体薄膜和粘合剂层的表面,并且防止由于从粘合剂表面产生的气泡而导致的光学性能如可见度劣化。 另外,当粘合剂层直接结合到导电体薄膜上并且当暴露于诸如高温或高温和高湿度的极端条件时,有效地防止导电体薄膜的电阻变化,从而能够稳定地操作 的触摸面板很长一段时间。
    • 7. 发明申请
    • METHOD FOR MANUFACTURING A MOLYBDENUM SPUTTERING TARGET FOR A BACK SURFACE ELECTRODE OF A CIGS SOLAR CELL
    • 制造用于CIGS太阳能电池的背面电极的钼溅射靶的方法
    • WO2012121542A3
    • 2012-11-01
    • PCT/KR2012001653
    • 2012-03-07
    • KOREA IND TECH INSTOH IK HYUNPARK HYUN KUKLEE SEUNG MINYANG JUN MO
    • OH IK HYUNPARK HYUN KUKLEE SEUNG MINYANG JUN MO
    • C23C14/34B22F3/10C23C14/14H01L31/042
    • C23C14/3414B22F3/1017B22F3/1028B22F3/105B22F3/14B22F2003/1051B22F2999/00C22C1/045H01L31/022425H01L31/03923Y02E10/541Y02P70/521B22F3/1003B22F2201/20B22F2203/11
    • The present invention relates to a method for manufacturing a molybdenum sputtering target for a back surface electrode of a CIGS solar cell. The method for manufacturing the molybdenum sputtering target includes: a step of filling molybdenum powder into a mold formed of a graphite material; a step of mounting the mold, in which the molybdenum powder is filled, inside a chamber of a discharge plasma sintering device; a step of forming a vacuum state inside the chamber; a step of increasing the temperature of the molybdenum powder within the mold according to a preset temperature increase pattern in a state where the molybdenum powder is maintained under a predetermined pressure to perform a formation process until the temperature of the molybdenum power reaches a final target temperature; a step of further maintaining the final target temperature for about 1 minute to 10 minutes; and a step of cooling the inside of the chamber while maintaining the predetermined pressure. According to the method for manufacturing the molybdenum sputtering target for a CIGS solar cell, when a sintered body suitable for the sputtering target is manufactured using a discharge plasma sintering process, high density may be achieved. Also, since a single process is performed for a short time, a sintered body having a uniform structure and high purity without causing particle growth may be manufactured.
    • CIGS太阳能电池的背面电极用钼溅射靶的制造方法技术领域本发明涉及CIGS太阳能电池的背面电极用钼溅射靶的制造方法。 用于制造钼溅射靶的方法包括:将钼粉填充到由石墨材料形成的模具中的步骤; 将填充有钼粉的模具安装在放电等离子体烧结装置的腔室内的工序; 在腔室内部形成真空状态的步骤; 在钼粉保持在预定压力的状态下,根据预设的温度增加图案在模具内升高钼粉的温度以执行形成过程,直到钼粉的温度达到最终目标温度 ; 进一步保持最终目标温度约1分钟至10分钟的步骤; 以及在保持预定压力的同时冷却腔室内部的步骤。 根据用于CIGS太阳能电池的钼溅射靶的制造方法,当使用放电等离子体烧结工艺来制造适用于溅射靶的烧结体时,可以实现高密度。 而且,由于短时间进行一次处理,因此可以制造具有均匀结构和高纯度而不引起颗粒生长的烧结体。
    • 10. 发明申请
    • STRAIGHT-PIPE-TYPE LED LIGHTING LAMP
    • 直管式LED照明灯
    • WO2012144760A3
    • 2013-01-03
    • PCT/KR2012002698
    • 2012-04-10
    • HANBEAM CO LTDLEE SEUNG MINYU JIN HOLIM SU JIN
    • LEE SEUNG MINYU JIN HOLIM SU JIN
    • F21V29/00F21V17/00
    • F21V19/0045F21K9/27F21V29/507
    • The present invention relates to a straight-pipe-type light emitting diode (LED) lighting lamp which has improved heat-dissipation and optical characteristics. A straight-pipe-type LED lighting lamp according to the present invention comprises: a circuit board on which a plurality of LEDs are disposed; a heat-dissipating portion which has a connection groove for connection and a circuit board accommodation part accommodating the circuit board; a cover portion which has a connection protrusion connected with the connection groove of the heat-dissipating portion; and a circuit board compression portion which is branched from the inside surface of the cover portion, and, when the heat-dissipating portion and the cover portion are connected, compresses the circuit board toward the circuit board accommodation part to make the circuit board closely adhere to the heat-dissipating portion.
    • 本发明涉及一种具有改善的散热和光学特性的直管型发光二极管(LED)照明灯。 根据本发明的直管式LED照明灯包括:布置有多个LED的电路板; 散热部,其具有用于连接的连接槽和容纳所述电路板的电路板容纳部; 盖部,其具有与散热部的连接槽连接的连接突起; 以及电路板压缩部,其从盖部的内表面分支,并且当散热部和盖部连接时,将电路板朝向电路板容纳部压缩,使电路板紧密贴合 到散热部分。