会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • BULKHEAD STRUCTURE OF CONTAINER CARRIER USING CROSS BEAMS
    • 使用横梁的集装箱运输车的大型结构
    • WO2010021416A2
    • 2010-02-25
    • PCT/KR2008/004827
    • 2008-08-20
    • HYUNDAI HEAVY INDUSTRIES CO., LTD.LEE, Dong-DaeLEE, Soon-SikKIM, Doe-Hyun
    • LEE, Dong-DaeLEE, Soon-SikKIM, Doe-Hyun
    • B63B11/02B63B25/00
    • B63B25/004
    • A bulkhead structure of a container carrier using cross beams is disclosed. The bulkhead structure includes vertical webs vertically installed in a cargo hold of a vessel in such a way as to be spaced apart from each other at the interval of two or more containers. Horizontal stringers are installed to cross the vertical webs and layered in the height direction of the cargo hold in such a way as to be spaced apart from each other at the interval of the height of two or more containers. Cell guides are perpendicular to the horizontal stringers to guide and secure the containers. Each cross beam is installed in the transverse direction of the cargo hold in such a way that one end of the cross beam is secured to an associated cell guide and the other end is secured to an associated vertical web.
    • 公开了一种使用横梁的集装箱运输船的隔板结构。 隔板结构包括纵向安装在容器的货舱中的垂直腹板,以便以两个或多个容器的间隔彼此间隔开。 水平桁条被安装成横过垂直腹板并沿着货舱的高度方向分层,以便以两个或多个容器的高度的间隔彼此间隔开。 电池导轨垂直于水平桁条以引导和固定容器。 每个横梁以货舱的横向方向安装,使得横梁的一端固定在相关联的电池导轨上,另一端固定在相关联的垂直腹板上。
    • 3. 发明申请
    • BALL VALVE HAVING BACKFLOW PREVENTION UNIT
    • 带逆流防护单元的球阀
    • WO2009020286A1
    • 2009-02-12
    • PCT/KR2008/003618
    • 2008-06-25
    • HYUNDAI HEAVY INDUSTRIES CO., LTD.CHO, Yong-Tae
    • CHO, Yong-Tae
    • F16K5/06
    • F16K5/0605F16K15/038F16K15/188
    • The present invention provides a ball valve in which a ball valve structure and a check valve structure are integrated into a single body, so that only the single valve can conduct both a fluid flow turning on/off function and a fluid backflow prevention function. The ball valve of the present invention includes a valve body (10), which is coupled at opposite ends thereof to respective pipes, which form a fluid passage therein, and an on/off ball (20), which is installed in the valve body so as to be rotatable and has therein a passing hole, through which fluid flows. The ball valve further includes a stem (30), which is coupled to the on/off ball to rotate the on/off ball, a control lever (40), which is coupled to the stem, and a backflow prevention unit (50), which is installed in the passing hole of the on/off ball.
    • 本发明提供了一种球阀结构和止回阀结构集成在单体中的球阀,使得只有单个阀可以同时进行流体流动打开/关闭功能和流体防回流功能。 本发明的球阀包括阀体(10),其在其相对端连接到相应的管道,其中形成流体通道;以及开/关球(20),其安装在阀体中 以便可旋转并且在其中具有通孔,流体流过该通孔。 球阀还包括杆(30),其连接到开/关球以旋转开/关球,连接到杆的控制杆(40)和防逆流单元(50) ,其安装在开/关球的通孔中。
    • 5. 发明申请
    • METHOD AND CIRCUITS FOR COMMON MODE CURRENT DEPRESSION IN 3 PHASE TRANSFORMERLESS PV INVERTER
    • 3相无变压光伏逆变器中常见模式电流抑制的方法与电路
    • WO2012105737A1
    • 2012-08-09
    • PCT/KR2011/005697
    • 2011-08-03
    • PAIL, CeuHYUNDAI HEAVY INDUSTRIES CO., LTD.
    • PAIL, Ceu
    • H02M1/32H02M1/12
    • H02M1/12H02J3/383H02M1/32Y02E10/563
    • The DC energy is provided by A string which output 1is connected to B well known boost terminal 1and A string terminal 2 is connected B boost terminal 2. The increased voltage from B boost output terminal 3 and 4 is connected to the well-known D inverter terminal 1 and 2. D inverter R,S,T outputs go through the E RCD ring and connected to the F utility grid terminal R,S,T. A string terminal 1 connected to C1 stray capacitance while terminal 2 is connected to C2 stray capacitance while C1 nad C2 stray capacitance other terminal are connected to the ground (earth) potential. E RCD terminal 1 connects to H filter and G comparator terminal 1, while H filter terminal 2 connects to I modifier terminal 1. I modifier terminal 2 connects J controller terminal 2 while J controller terminal 1 connects to K PWM terminal 3. K PWM terminal 1 connects to B boost terminal 5 while K PWM terminal 2 connects to D inverter terminal 3.
    • 直流能量由A串提供,输出1连接到B熟知的升压端子1,串联端子2连接B升压端子2.来自B升压输出端子3和4的升压电压连接到公知的D逆变器 端子1和2. D变频器R,S,T输出通过E RCD环并连接到F电网电网R,S,T。 连接到C1杂散电容的串联端子1,而端子2连接到C2杂散电容,而C1 nad C2杂散电容其他端子连接到地(地)电位。 E RCD端子1连接到H滤波器和G比较器端子1,而H滤波器端子2连接到I修改器端子1.I调节器端子2连接J控制器端子2,而J控制器端子1连接到K PWM端子3.K PWM端子 1连接到B升压端子5,而K PWM端子2连接到D变频器端子3。
    • 6. 发明申请
    • METAL MEMBRANE PANEL OF INSULATED LNG CARGO TANK
    • 绝缘液化天然气罐的金属膜板
    • WO2005095234A1
    • 2005-10-13
    • PCT/KR2004/003028
    • 2004-11-23
    • HYUNDAI HEAVY INDUSTRIES CO., LTD.MIN, Keh-SikKIM, Oi-HyunCHOI, Ick-HungWON, Sun-IlKIM, Byong Man
    • MIN, Keh-SikKIM, Oi-HyunCHOI, Ick-HungWON, Sun-IlKIM, Byong Man
    • B65D90/08
    • F17C13/001B65D90/027B65D90/028F17C2209/221F17C2221/033F17C2223/0161F17C2223/033F17C2270/0107
    • A metal membrane panel of an insulated LNG cargo tank, which has an improved stability by decreasing localized stress concentration areas, and which has an improved welding efficiency by reducing the number of corrugations on welding edges of adjacent metal membrane panel to reduce the number of curved portions to be welded. The metal membrane panel includes a plurality of rectangular unit corrugations (10) arranged on the panel (A) to be spaced from each other, each of the rectangular unit corrugations (10) being comprised of a pair of transverse bulging portions (12) and a pair of longitudinal bulging portions (11) and being shaped to have gently curved corners, transverse and longitudinal connecting corrugations (40, 50), which connect the plurality of rectangular unit corrugations (10) to each other, and transverse and longitudinal extending corrugations (60, 60'), which are extended to edges of the metal membrane panel (A) from the transverse and longitudinal bulging portions (12, 11) of the outermost unit corrugations (10).
    • 一种绝缘液化天然气液货舱的金属膜面板,通过减少局部应力集中区域具有改进的稳定性,并且通过减少相邻金属膜板的焊接边缘上的波纹数量,具有改善的焊接效率,以减少弯曲 要焊接的部分。 金属膜面板包括布置在面板(A)上以彼此间隔开的多个矩形单元波纹(10),每个矩形单元波纹(10)由一对横向凸起部分(12)和 一对纵向凸出部分(11),并被成形为具有轻轻弯曲的角部,横向和纵向连接的波纹(40,50),其将多个矩形单位波纹(10)彼此连接,以及横向和纵向延伸的波纹 (60,60'),其从最外面的单位波纹(10)的横向和纵向凸出部分(12,11)延伸到金属膜面板(A)的边缘。
    • 7. 发明申请
    • PROPELLER AND RUDDER FOR VESSELS
    • 螺旋桨和船只的船只
    • WO2003089294A1
    • 2003-10-30
    • PCT/KR2003/000752
    • 2003-04-14
    • HYUNDAI HEAVY INDUSTRIES CO., LTD.LEE, Dong-DaeSHIN, Hyun-JunSEO, Heung-Won
    • LEE, Dong-DaeSHIN, Hyun-JunSEO, Heung-Won
    • B63H25/38
    • B63H25/38
    • The object of this invention is to provide propeller and rudder for vessels, which are arranged in parallel with each other to form a parallel propeller and rudder arrangement, thus reducing water resistance acting on the hull of a vessel, resulting in enhanced propulsion performance of the vessel, and increasing the ratio of a water-plane area to an entire length of the vessel, resulting in enhanced vessel design potential in terms of steering performance of the vessel. In order to accomplish the parallel propeller and rudder arrangement, at least one screw propeller (2) is mounted at the stern of a vessel such that a waterline of the vessel is extended, and at least two rudders (1) are movably mounted at the stern of the vessel such that the rudders (1) are arranged at port and starboard sides of the screw propeller (2).
    • 本发明的目的是提供用于容器的螺旋桨和方向舵,其彼此平行布置以形成平行的螺旋桨和方向舵装置,从而降低作用在船体上的防水性,从而提高了船舶的推进性能 容器,并且增加水平面积与容器整个长度的比例,从而在容器的转向性能方面提高了容器设计潜力。 为了实现平行的螺旋桨和方向舵装置,至少一个螺旋桨(2)安装在船的船尾处,使得船舶的水线延伸,并且至少两个方向舵(1)可移动地安装在 使船舵(1)布置在螺旋桨(2)的端口和右舷侧。
    • 8. 发明申请
    • METHOD FOR SURFACE TREATMENT OF SOLAR CELL
    • 太阳能电池表面处理方法
    • WO2010126304A2
    • 2010-11-04
    • PCT/KR2010/002686
    • 2010-04-28
    • HYUNDAI HEAVY INDUSTRIES CO., LTD.JEON, Min YoungYANG, Su MiJUNG, Sang YoonKANG, Jin Mo
    • JEON, Min YoungYANG, Su MiJUNG, Sang YoonKANG, Jin Mo
    • H01L31/042H01L21/302
    • H01L31/068H01L31/02363Y02E10/547
    • Disclosed herein is a method for surface treatment of a solar cell. In a method for surface treatment of a solar cell, when the solar cell is fabricated through a series of processes including a preparing process of a substrate for solar cell fabrication, a surface texturing process of the substrate for solar cell fabrication, a forming process of an n-type semiconductor layer and a forming process of front and real electrodes, a surface of the substrate for solar cell fabrication is cleaned by performing an atmospheric pressure plasma cleaning process with respect to the surface of the substrate for solar cell fabrication before performing the surface texturing process of the substrate for solar cell fabrication so that the surface of the substrate for solar cell fabrication is formed into a hydrophilic surface.
    • 本文公开了一种用于太阳能电池表面处理的方法。 在太阳能电池的表面处理方法中,当通过一系列工艺制造太阳能电池时,包括用于太阳能电池制造的衬底的制备方法,用于太阳能电池制造的衬底的表面纹理化工艺, n型半导体层和前电极和实电极的形成工艺,通过在执行太阳能电池制造用基板的表面之前,对太阳能电池制造用基板的表面进行大气压等离子体清洗工序来清洗太阳能电池制造用基板的表面 用于太阳能电池制造的衬底的表面纹理化处理,使得用于太阳能电池制造的衬底的表面形成为亲水表面。