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
    • 유류오염지하수 정화장치
    • 油污染地下水净化系统
    • KR101830288B1
    • 2018-03-29
    • KR1020170087876
    • 2017-07-11
    • 주식회사 성지엔지니어링한국환경공단
    • 김의성고병익정장식송보미
    • C02F1/26B01D17/02B01D35/02C02F103/06
    • C02F1/26B01D17/02B01D35/02C02F2103/06
    • 본발명은유류오염지하수정화장치에관한것으로, 고압수를분사하는제트노즐과확장관을포함하는제트펌프를이용함으로써지하수와경소수성액체및 휘발성유기화합물을동시에추출할수 있으며, 관정내 수위조절및 유지가가능하며지층조건에따른적용에제약이적고, 관정캡, 차수재와샌드팩을이용하여관정내부의진공을유지할수 있고, 적은동력으로많은지하수의회수가가능하고, 필요수위를물리적으로제어할수 있고, 스미어존 관리가가능하도록하며, 관정을통해오염지하수의추출및 정화, 지하수오염응급확산방지조치에적용할수 있는다상추출(MPE)형유류오염지하수정화장치이다.
    • 本发明涉及油污染的地下水净化系统中,通过使用喷射泵包括一个喷射喷嘴和用于喷射高压水的延伸管,并且可以提取地面和周围同时疏水液体和挥发性有机化合物,水井水位控制和 维护信息,并将限制较少的树脂条件下,井帽,衬套和使用砂板的应用程序,并能保持孔内的真空,并且可以具有大量的地下水国会用较少的功率,物理控制所需的水位 可以是,并且允许涂抹区管理,有施加到提取和纯化,地下水污染第一扩散防止被污染的地下水相萃取(MPE)型油污染的地下水净化系统的行动,通过井。
    • 2. 发明公开
    • 에어 정수기
    • 使用空气的净水器
    • KR1020140053579A
    • 2014-05-08
    • KR1020120119684
    • 2012-10-26
    • 유수호김병광
    • 유수호김병광
    • B01D5/00B01D35/00C02F1/26
    • Y02A20/109B01D5/009B01D35/00C02F1/26
    • The present invention relates to a water purifier using air and, more particularly, to a water purifier using air which produces water by generating a dew condensation phenomenon in air, thus, the dew condensation in an evaporator by arranging the evaporator with a relatively low temperature in an air flow passage. Provided is a water purifier using air which produces water by generating a dew condensation phenomenon in air, thus, dew condensation in an evaporator by arranging the evaporator with a relatively low temperature in an air flow passage. A circulation conduit is formed on one side of a drinking water container which is disposed in the water purifier using air so that water in the drinking water container is sent back to a reservoir tank, and a water alteration risk is significantly reduced. Also, a discharge conduit is formed on one side of the circulation conduit so that a constant amount of water is discharged outside per unit time when the discharge conduit is opened, and thus the water which is stored in the drinking water container can be maintained in a fresh state regardless of storage time.
    • 本发明涉及一种使用空气的净水器,更具体地说,涉及一种使用空气的净水器,该净水器通过在空气中产生结露现象而产生水,因此通过将蒸发器设置在相对较低的温度 在空气流通道中。 提供了一种使用空气的净水器,其通过在空气中产生结露现象而产生水,从而通过在空气流动通道中布置具有较低温度的蒸发器而在蒸发器中结露。 在饮用水容器的一侧形成循环管道,该饮用水容器使用空气设置在净水器中,使得饮用水容器中的水被送回储存罐,并且显着降低了改变水的风险。 此外,排出管道形成在循环管道的一侧,使得当排放管道打开时,单位时间内恒定量的水排出外部,从而可以维持储存在饮用水容器中的水 一个新鲜的状态,不管存储时间。
    • 5. 发明公开
    • 미네랄 기능수의 제조방법 및 이에 따라 제조된 미네랄 기능수
    • 矿物功能水的制造方法和由此制成的矿物功能水
    • KR1020120128018A
    • 2012-11-26
    • KR1020110045882
    • 2011-05-16
    • 이정수
    • 이정수
    • C02F1/68C02F9/00C02F1/26
    • C02F1/68C02F1/26C02F9/00
    • PURPOSE: A manufacturing method of mineral functionalized water and the mineral functionalized water manufactured by the same are provided to reduce the bad odor excrements from livestocks by reducing the amount of ammonia. CONSTITUTION: A manufacturing method of mineral functionalized water includes the following steps: precious serpentine is boiled in distilled water to prepare primary extract; water soluble silicate is added into the primary extract to prepare second extract; titanium oxide powder is added into the second extract to prepare third extract; and tourmaline is added into the third extract to prepare mineral functionalized water. [Reference numerals] (AA) Manufacturing primary extract by boiling precious serpentine with distilled water(a first process); (BB) Manufacturing secondary extract by adding silicate into the primary extract(a second process); (CC) Manufacturing third extract by adding titanium oxide powder into the secondary extract(a third process); (DD) Manufacturing final fourth extract by adding tourmaline into the third extract(a fourth process)
    • 目的:提供矿物官能水及其制造的矿物官能水的制造方法,通过减少氨的量来减少牲畜的恶臭排泄物。 构成:矿物官能水的制造方法包括以下步骤:将珍贵的蛇纹石在蒸馏水中煮沸以制备初级提取物; 将水溶性硅酸盐加入到初级提取物中以制备第二提取物; 将二氧化钛粉末加入到第二提取物中以制备第三提取物; 并将电气石加入到第三提取物中以制备矿物官能水。 (AA)通过用蒸馏水煮沸贵重蛇纹石制造初级提取物(第一工序); (BB)通过向初级提取物中加入硅酸盐来制造二次提取物(第二种方法); (CC)通过在二次提取物中加入氧化钛粉末制造第三提取物(第三工序); (DD)通过在第三次提取物中加入电气石制造最终的第四个提取物(第四个过程)
    • 7. 发明公开
    • 차아염소산나트륨 발생장치용 염수 저장조
    • 盐水罐包装在生产钠盐的装置中
    • KR1020100069891A
    • 2010-06-25
    • KR1020080128440
    • 2008-12-17
    • 표수길
    • 표수길
    • C02F1/50C02F1/26C25B1/26
    • C02F1/50C02F1/26C02F2201/002C25B1/26
    • PURPOSE: A salty water reservoir for sodium hypochlorite generator is provided to prevent water in the salty water reservoir from overflowing when supplementing salt, and to separate an unsaturated supplementing water storage tank while clearly and simply cleaning inside of the salty water reservoir. CONSTITUTION: A salty water reservoir(5) for a sodium hypochlorite generator supplies a large amount of salt to water poured inside and pumps salty water of a saturation concentration of 26-30%. The salty water reservoir dilutes the salty water to a determined rate with lead-in water. An unsaturation makeup water storage tank(8) equipped with a float valve for water level control and cap(82) is installed in one side wall middle part within the salty water reservoir in which a cap is installed attachably on an upper part opening. A water plumber punched in the unsaturation makeup water storage tank punctures in a lower part or a floor side of wall. A water level of a salty water reservoir always keeps a mid-level.
    • 目的:提供次氯酸钠发生器的咸水储存器,用于在补充盐水时防止咸水储存器中的水溢出,并且在清洁和简单地清洗咸水库内部的同时分离不饱和补充储水箱。 规定:次氯酸钠发生器的咸水储存器(5)为内部浇注的水提供大量盐,并抽取饱和浓度为26-30%的咸水。 咸水库将咸水用铅水稀释至确定的水量。 配备有用于水位控制的浮阀和帽(82)的不饱和补充储水箱(8)安装在咸水容器内的一个侧壁中部,其中帽安装在上部开口上。 在不饱和化妆水储罐中冲压的水管工在墙壁的下部或地板侧穿刺。 咸水库的水位始终保持在中等水平。
    • 9. 发明公开
    • 해수의 탈염장치
    • 海水淡化水
    • KR1020090015338A
    • 2009-02-12
    • KR1020070079584
    • 2007-08-08
    • 서희동
    • 서희동
    • C02F1/46C02F1/469C02F1/26C02F103/08
    • C02F1/4604C02F1/26C02F1/469C02F2103/08
    • A desalination apparatus of seawater is provided to allow the apparatus to be widely used in the desalination of seawater such as surface seawater or deep seawater by reducing the power consumption as compared with an electrodialytic apparatus, a reverse osmosis membrane, etc., thereby reducing the operating cost. A desalination apparatus of seawater comprises: cation exchange diaphragms(5) installed at sides of cathodes(9) within a salt extraction chamber(3); anion exchange diaphragms(6) installed at sides of anodes(8) within the salt extraction chamber; isolated desalination chambers(4) installed in multistage between the anodes and cathodes; a seawater transfer pump(2) supplying seawater of a seawater storage tank(1) to the salt extraction chamber and the desalination chambers installed alternately and repetitively according to the treatment capacity; and an air blower(10) supplying air to air diffusers(11) installed on a bottom part of the salt extraction chamber such that the air diffusers perform aerating operations.
    • 提供了一种海水淡化装置,通过与电渗析装置,反渗透膜等相比,通过降低功耗而将装置广泛用于海水淡化海水或深海水中,从而减少了海水淡化装置 运营成本。 海水淡化装置包括:安装在盐提取室(3)内阴极(9)侧面的阳离子交换膜片(5); 阴离子交换隔膜(6)安装在盐提取室内阳极(8)的侧面; 分离的淡化室(4)安装在阳极和阴极之间的多级中; 将海水储存罐(1)的海水供应到盐提取室的海水输送泵(2)和根据处理能力交替重复安装的脱盐室; 以及将空气供给到安装在所述盐提取室的底部的空气扩散器(11)的鼓风机(10),使得所述空气扩散器进行充气操作。
    • 10. 发明授权
    • 실리콘이 함유된 반도체 에칭 폐액의 재생방법
    • 用于再生包含硅的半导体的腐蚀性废物溶液的方法
    • KR100831060B1
    • 2008-05-20
    • KR1020060137687
    • 2006-12-29
    • 대일개발 주식회사
    • 김주엽김준영신창훈이향숙안재우
    • C02F1/58C02F1/26C02F9/00
    • C02F1/58C02F1/26C02F9/00C02F2201/002
    • A method for regenerating a silicon-containing waste etching solution for semiconductors is provided to precipitate silicon presenting in the form of hexafluorosilicic acid(H2SiF6) into fluorosilicates and to extract acetic acid contained in a remaining waste mixed acid solution using an organic extractant by injecting an alkaline metal(monovalent) compound or alkaline earth metal(bivalent metal) compound into the silicon-containing waste etching solution for semiconductors. A method for regenerating a silicon-containing waste etching solution for semiconductors comprises: a precipitation step of injecting an alkaline metal compound into a waste etching solution for semiconductors consisting of nitric acid, hydrofluoric acid, acetic acid, and silicon, thereby precipitating silicon presenting in the form of hexafluorosilicic acid(H2SiF6) into fluorosilicates(M2SiF6) to separate the fluorosilicates, the M being an alkaline metal; an extraction step of mixing an alcohol extractant with 4 to 12 carbon atoms with a waste mixed acid solution consisting of nitric acid, hydrofluoric acid and acetic acid remained after the precipitation step to extract selectively the acetic acid into the extractant; and a fractional distillation step of separating acetic acid from the extractant containing acetic acid through fractional distillation after the extraction step, and transferring a remaining extractant to the extraction step to reuse the extractant.
    • 提供一种用于半导体的含硅废物蚀刻溶液的再生方法,以将六氟硅酸(H 2 SiF 6)的形式存在的硅析出到氟硅酸盐中,并使用有机萃取剂,通过注入 碱性金属(一价)化合物或碱土金属(二价金属)化合物转化成半导体的含硅废物蚀刻溶液。 再生用于半导体的含硅废物蚀刻溶液的方法包括:将碱金属化合物注入由硝酸,氢氟酸,乙酸和硅组成的半导体的废蚀刻溶液中的沉淀步骤,从而沉淀硅中的硅 将六氟硅酸(H 2 SiF 6)的形式转化成氟硅酸盐(M2SiF6)以分离氟硅酸盐,M是碱金属; 在沉淀步骤之后,将含有4-12个碳原子的醇提取剂与由硝酸,氢氟酸和乙酸组成的废混合酸溶液混合以提取出萃取剂; 以及在萃取步骤之后通过分馏从含有乙酸的萃取剂中分离乙酸的分馏步骤,并将剩余的萃取剂转移到萃取步骤以再利用萃取剂。