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. 发明授权
    • 방식 전환 가능형 유체 이송제어용 개폐밸브
    • 用于流体运输的多操作模式阀
    • KR101223101B1
    • 2013-01-17
    • KR1020120049003
    • 2012-05-09
    • 주식회사 케이 디 텍도영기
    • 도영기조승엽
    • F16K17/10F15B13/042F16K17/22
    • PURPOSE: A convertible on-off valve for controlling fluid is provided to save energy consumption by reducing the influence of fluid pressure with a non-exposed structure. CONSTITUTION: A convertible on-off valve for controlling fluid comprises an upstream body(10), a downstream body(20), a central body(30), a valve seat(40), and a cylinder type trim(50). The central body comprises a first passage(31) connected to an upstream chamber(3a), a second passage(32) connected to a communication path in the upstream body, a third passage(33) connected to a downstream chamber(3b), and a fourth passage(34) connected to a communication path in the downstream body. The convertible on-off valve is operated by either controlling the first to the fourth passages or by supplying hydraulic and pneumatic pressures to the first and third passages.
    • 目的:提供用于控制流体的可转换开关阀,以通过减少非暴露结构的流体压力的影响来节省能量消耗。 构成:用于控制流体的可转换开关阀包括上游体(10),下游体(20),中心体(30),阀座(40)和气缸型修剪件(50)。 中心体包括连接到上游室(3a)的第一通道(31),连接到上游体中的连通路径的第二通道(32),连接到下游室(3b)的第三通道(33) 以及连接到下游体中的连通路径的第四通道(34)。 可转换开关阀通过控制第一至第四通道或通过向第一和第三通道供应液压和气动压力来操作。
    • 2. 发明公开
    • 동축 유선형 유로 구조를 갖는 파일럿형 솔레노이드 밸브
    • 导柱式电磁阀
    • KR1020140036591A
    • 2014-03-26
    • KR1020120102872
    • 2012-09-17
    • 주식회사 케이 디 텍도영기
    • 도영기조승엽
    • F16K31/06F16K17/04F16K1/52
    • The present invention relates to a pilot-type solenoid valve with the structure of a coaxially spiral flow path, and, more specifically, to a pilot-type solenoid valve having a body part which has the structure of an axially spiral flow path thereof and is connected to a pipe, wherein the flow path has a pilot chamber therein and has an inlet. A first, a second, and a third connection flow path are connected to the inlet, the pilot chamber, and the flow path, and the flow path is opened and closed when the valve trim of the pilot chamber is moved forwards and backwards by controlling to connect the first, the second, and the third connection flow path, wherein the flow path is operated to be opened by moving the valve trim backwards by a pressure difference which is generated between the inlet and the pilot chamber by discharging a fluid from the pilot chamber to the flow path, and the flow path is operated to be closed by moving the valve trim forwards by a force imbalance due to the supply of the fluid from the inlet to the pilot chamber and due to the elastic force of a kick-off spring. Therefore, in comparison with an operation mode for opening and closing a valve by a diaphragm in the existing perpendicular structure of a flow path, the displacement of the valve trim is sufficient so that a pressure loss is low and a flow rate is high; the pressure limit range of the pilot chamber is wide so that the valve can be manufactured to be large; and the condition of the valve can be easily converted into a constantly closed condition or a constantly opened condition depending on the mounting direction of a solenoid-type operator connected to the first, the second, and the third connection flow path so that the design change and the form change of the valve can be easily managed and the valve can be flexibly managed in the entire process of production, distribution, and installation.
    • 本发明涉及一种具有同轴螺旋流路结构的先导式电磁阀,更具体地说,涉及一种具有主体部分的先导式电磁阀,其主体部分具有轴向螺旋流动路径,并且是 连接到管道,其中流动路径在其中具有先导室并且具有入口。 第一,第二和第三连接流动路径连接到入口,导向室和流动路径,并且当先导室的阀门装置通过控制向前和向后移动时,流动路径被打开和关闭 以连接第一,第二和第三连接流动路径,其中通过使阀门装置向后移动由入口和先导室之间产生的压力差来操作流动路径,该流量通过从 导向室到达流路,并且通过由于从入口到先导室的流体供应而由于力不平衡而使阀门前端向前移动而使流动路径被操作,并且由于踢脚的弹性力, 关闭春天 因此,与现有的流路垂直结构中的隔膜开闭阀的动作模式相比,阀门装置的位移充分,压力损失低,流量高; 先导室的压力极限范围宽,使阀门制造得很大; 并且根据连接到第一,第二和第三连接流动路径的螺线管式操作器的安装方向,阀的状态可以容易地转换成恒定关闭状态或恒定打开状态,使得设计变化 并且可以容易地管理阀的形状变化,并且可以在生产,分配和安装的整个过程中灵活地管理阀。
    • 3. 发明公开
    • 방식 전환 가능형 유체 이송제어용 개폐밸브
    • 用于流体运输的多操作模式阀
    • KR1020140036590A
    • 2014-03-26
    • KR1020120102871
    • 2012-09-17
    • 주식회사 케이 디 텍도영기
    • 도영기조승엽
    • F16K31/06F16K17/04F16K1/52
    • The present invention relates to a mode-convertible opening and closing valve for controlling the transfer of a fluid, and, more specifically, to a mode-convertible opening and closing valve having a body part (100) with a first connection flow path (51) connected to an inlet (11), a second and a third connection flow path (52, 53) connected to an upper and a lower stream chamber (35, 36) respectively, and a fourth connection flow path (54) connected to a flow path (13), wherein the first, the second, the third, and the fourth flow path (51, 52, 53, 54) are formed to penetrate the body part (100). An operation mode for the mode-convertible opening and closing the valve according to the present invention can be converted into an operation mode for opening and closing the valve by controlling to connect the first, the second, the third, and the fourth flow path (51, 52, 53, 54), or can be converted into an operation mode for opening and closing the valve by supplying hydraulic and pneumatic pressure to the first and the second flow path (52, 53) so that the user convenience and the economic feasibility of the valve can be improved and the design change and the form change of the valve can be easily managed, and, as a result, the valve can be flexibly managed in the entire process of production, distribution, and installation.
    • 本发明涉及一种用于控制流体传送的可转换开关阀,更具体地说,涉及具有主体部分(100)的可转换开关阀,其具有第一连接流路(51 )连接到入口(11),分别连接到上部和下部流室(35,36)的第二和第三连接流动路径(52,53),以及连接到第二连接流动路径 流路(13),其中第一,第二,第三和第四流路(51,52,53,54)形成为穿透主体部分(100)。 根据本发明的可转换开启和关闭阀的操作模式可以通过控制将第一,第二,第三和第四流动路径( 或者可以通过向第一和第二流动路径(52,53)供应液压和气动的压力来转换成用于打开和关闭阀的操作模式,从而使用者的便利性和经济性 可以改善阀门的可行性,可以容易地管理阀门的设计变化和形状变化,从而可以在生产,分配和安装的整个过程中灵活地管理阀门。
    • 4. 发明授权
    • 동축 유선형 유로 구조를 갖는 파일럿형 솔레노이드 밸브
    • 先导式电磁阀
    • KR101430719B1
    • 2014-08-14
    • KR1020120102872
    • 2012-09-17
    • 주식회사 케이 디 텍도영기
    • 도영기조승엽
    • F16K31/06F16K17/04F16K1/52
    • 본 발명은 동축 유선형 유로 구조를 갖는 파일럿형 솔레노이드 밸브에 관한 것으로서, 좀더 상세하게는 배관과 연결되는 몸체부 내부에 동축 유선형 유로 구조를 형성하고, 상기 유로의 유입구와 유로 내부의 파일럿 챔버 및 유로에 제1,2,3 연결유로를 연결하여 이를 서로 연결 제어하는 것에 의해 파일럿 챔버의 밸브 트림이 전후 이동하면서 유로를 개폐 작동하되, 상기 파일럿 챔버의 유체를 유로로 배출하여 유입구 측과 파일럿 챔버 측의 차압 발생에 의해 밸브 트림을 후퇴시켜 개방 작동하고 유입구의 유체를 파일럿 챔버로 공급함과 함께 킥 오프 스프링의 탄발력에 의한 힘의 불균형에 의해 밸브 트림을 전진시켜 폐쇄 작동하므로 종래 직교형 유로 구조에서 다이아프램에 의해 개폐 작동하는 방식에 비해 밸브 트림의 변위가 충분하여 압력손실이 작고 유량이 크며, 파일럿 챔버의 압력한계 범위가 넓어 대형 밸브 제작이 가능함은 물론 제1,2,3 연결유로에 연결되는 솔레노이드 방식의 조작기 장착 방향에 따라 상시 닫힘형이나 열림형의 전환이 간단하여 설계 변경이나 형식 변경 등에 쉽게 대처할 수 있고 생산, 유통 및 설치 전단계에서 관리의 유연성을 우수하게 제공하는데 그 특징이 있다.