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    • 1. 发明授权
    • 나노 분말 제조용 플라즈마 토치 전극 구조
    • 制造纳米粉末等离子体炬电极的结构
    • KR101156793B1
    • 2012-06-18
    • KR1020100079693
    • 2010-08-18
    • 재단법인 철원플라즈마 산업기술연구원
    • 정효수유영종손병구오정근신명선
    • H05H1/34H05H1/26
    • H05H1/30H05H2245/124
    • The present invention relates to the structure of a plasma torch electrode for manufacturing nanopowder comprising: a carrier gas inlet supplying bulk powder to the plasma area, an injection pipe injecting the carrier gas into the plasma torch, a confinement pipe into which the injection pipe is inserted, a plasma gas induction pipe disposed between the injection pipe and the confinement pipe to distribute the plasma gas, an injection pipe coolant entrance and an injection pipe coolant exit disposed at each of the upper and lower ends of the side surface as dual inner pipes to cool the plasma heat, a pair of plasma gas inlets supplying the plasma gas for the jet in the confinement pipe, a pair of sheath gas inlets supplying a sheath gas for the jet between the confinement pipe and the plasma gas induction pipe, an support pipe for an induction coil disposed separately at the outer circumferential surface of the confinement pipe, an induction coil wound around the outer circumferential surface of the support pipe for plasma generation in the confinement pipe, and a confinement pipe coolant entrance and a confinement pipe coolant exit lowering the temperature of the confinement pipe. According to the present invention, the structure of the plasma gas induction pipe is improved for even distribution of the plasma gas so that the plasma generation in the confinement pipe is even, and the structure of the sheath gas jet is improved so as to prevent the confinement pipe from being damaged by the plasma heat generated in the confinement pipe and to increase the cooling efficiency of the confinement pipe.
    • 2. 发明公开
    • 플라즈마 토치 및 이를 포함하는 나노 분말 제조 장치
    • 用于生产含有其的纳米粉末的等离子体转筒和装置
    • KR1020110129299A
    • 2011-12-01
    • KR1020100048858
    • 2010-05-25
    • 재단법인 철원플라즈마 산업기술연구원
    • 정효수유영종손병구
    • H05H1/26H05H1/46
    • H05H1/28H05H1/30H05H1/3405H05H1/42H05H1/46H05H2001/3431H05H2001/3436
    • PURPOSE: A plasma torch and an apparatus for producing nano powder including the same are provided to uniformly change a source gas into nano powder by preventing the source gas from being suddenly cooled. CONSTITUTION: A plasma torch(300) comprises a cylindrical induction coil structure(310), a plasma generating tube(320), and an injection tube(340). An induction coil is rolled around the induction coil structure. The induction coil is applied with high frequency power for producing plasma from the outside. The plasma generating tube is arranged to be coaxial to the induction coil structure in the inner side of the induction coil structure to produce the plasma. The injection tube supplies a raw material to the inside of the plasma generating tube in the top part of the plasma generating tube. An interval between induction coils becomes narrower from the both end parts of the induction coil to a central part.
    • 目的:提供等离子体焰炬和包含该等离子体焰炬的纳米粉末的制造装置,以通过防止源气体突然冷却来均匀地将原料气体变为纳米粉末。 构造:等离子体焰炬(300)包括圆柱形感应线圈结构(310),等离子体产生管(320)和注入管(340)。 感应线圈绕感应线圈结构卷绕。 感应线圈用于从外部产生等离子体的高频功率。 等离子体产生管布置成与感应线圈结构的内侧的感应线圈结构同轴,以产生等离子体。 注入管将等离子体产生管的顶部的等离子体发生管的内部供给原料。 感应线圈之间的间隔从感应线圈的两端部到中心部变窄。
    • 6. 发明公开
    • 플라즈마 토치 전극의 유도코일 지지관 구조
    • 等离子体电极电感线圈管结构
    • KR1020120040806A
    • 2012-04-30
    • KR1020100102246
    • 2010-10-20
    • 재단법인 철원플라즈마 산업기술연구원
    • 정효수손병구유영종오정근신명선
    • H05H1/34
    • H05H1/40H05H1/28H05H2001/3436H05H2001/3457
    • PURPOSE: A pipe structure for supporting an induction coil of a plasma torch electrode is provided to achieving an insulating property by forming a spiral groove on an outer circumference of an induction coil supporting tube or the outer circumference of a coil induction pipe. CONSTITUTION: A spiral groove(192) is formed on an outer circumference of an induction coil supporting tube(190) having a through hole(191) which is penetrated upward and downward. An induction coil(100) is rolled around the spiral groove in a constant interval. The induction coil supporting tube having the through hole penetrated upward and downward is inserted into the coil induction pipe. The induction coil supporting tube is inserted into an insertion hole of the induction coil supporting tube of the coil induction pipe. The induction coil supporting tube selectively uses Teflon, which is used for ceramic base alumina, quartz, or engineering plastics, as a material.
    • 目的:提供一种用于支撑等离子体焰炬电极的感应线圈的管结构,以通过在感应线圈支撑管的外周或线圈感应管的外周上形成螺旋槽来实现绝缘性能。 构成:在具有贯穿上下的通孔(191)的感应线圈支撑管(190)的外周形成有螺旋槽(192)。 感应线圈(100)以恒定的间隔围绕螺旋槽卷绕。 具有贯穿上下通孔的感应线圈支撑管插入线圈感应管中。 感应线圈支撑管插入到线圈感应管的感应线圈支撑管的插入孔中。 感应线圈支撑管选择性地使用用作陶瓷基础氧化铝,石英或工程塑料的特氟隆作为材料。
    • 7. 发明公开
    • 플라즈마 토치 전극의 주입관 구조
    • 等离子体电极注射管结构
    • KR1020120025196A
    • 2012-03-15
    • KR1020100087430
    • 2010-09-07
    • 재단법인 철원플라즈마 산업기술연구원
    • 정효수유영종손병구오정근신명선
    • H05H1/34H05H1/42
    • H05H1/42H05H1/28H05H1/34H05H2001/3436
    • PURPOSE: An injection nozzle structure of a plasma torch is provided to uniformly spray bulk powder to the inside of a plasma region by the formation of a bulk powder outlet passing through a cool water transfer pipe. CONSTITUTION: A bulk powder inlet(21) is formed on the top of an injection nozzle positioned on a closing pipe of a plasma torch electrode. A bulk powder outlet(22) is formed on the bottom of the injection nozzle positioned on the closing pipe of the plasma torch electrode The end of the bulk powder outlet is formed of an incline(23) having diameter which gradually increases outward. The bulk powder is widely sprayed on a plasma region in a spaying process. The cooling water transfer pipe of triple structure is formed on the outside of the injection nozzle. A cool water inlet(26) is formed for the inflow of the cool water. A cooling water outlet(27) discharges the cooling water.
    • 目的:提供等离子体焰炬的喷嘴结构,通过形成通过冷水输送管的散装粉末出口,将散装粉末均匀地喷射到等离子体区域的内部。 构成:位于等离子体炬电极的封闭管上的注射喷嘴的顶部上形成散装粉末入口(21)。 散装粉末出口(22)形成在位于等离子体焰炬电极的闭合管上的注射喷嘴的底部。散装粉末出口的端部由具有向外逐渐增大的直径的斜面(23)形成。 大量粉末在喷雾过程中被广泛地喷涂在等离子体区域上。 三重结构的冷却水输送管形成在喷嘴的外侧。 形成冷水入口(26)用于冷却水的流入。 冷却水出口(27)排出冷却水。
    • 8. 发明公开
    • 나노 분말 제조용 플라즈마 토치 전극 구조
    • 用于制造纳米粉末的等离子体电极的结构
    • KR1020120017166A
    • 2012-02-28
    • KR1020100079693
    • 2010-08-18
    • 재단법인 철원플라즈마 산업기술연구원
    • 정효수유영종손병구오정근신명선
    • H05H1/34H05H1/26
    • H05H1/30H05H2245/124
    • PURPOSE: A plasma torch electrode structure for a nano powder manufacturing process is provided to increase cooling efficiency of a trapping tube by improving a sheath gas spraying structure. CONSTITUTION: A carrier gas inlet(301) supplies bulk powder to a plasma region. An injection tube(302) injects carrier gas to the inside of a plasma torch. An end part of the injection tube is located near the vertically central part of a trapping tube(303). A plasma gas guiding tube(304) distributes plasma gas. An injection tube cooling water inlet(305) and an injection tube cooling water outlet(306) cool heat from plasma. A pair of plasma gas inlet(307) sprays the plasma gas inside of the trapping tube. A pair of sheath gas inlets(308) sprays sheath gas. An induction coil supporting tube(309) is installed on the outer circumferential surface of the trapping tube with a gap. An induction coil(310) generates plasma inside of the trapping tube. A trapping tube cooling water inlet(311) and a trapping tube cooling water outlet(312) supply cooling water.
    • 目的:提供一种用于纳米粉末制造工艺的等离子体焰炬电极结构,以通过改进鞘气喷射结构来提高捕集管的冷却效率。 构成:载气入口(301)向散装粉末供应等离子体区域。 注入管(302)将载气注入到等离子体焰炬的内部。 注入管的端部位于捕集管(303)的垂直中心部附近。 等离子体气体引导管(304)分配等离子体气体。 注射管冷却水入口(305)和注射管冷却水出口(306)冷却等离子体的热量。 一对等离子体气体入口(307)在捕集管内喷射等离子体气体。 一对护套气体入口(308)喷射护套气体。 感应线圈支撑管(309)以间隙的方式安装在捕集管的外圆周表面上。 感应线圈(310)在捕集管内产生等离子体。 捕集管冷却水入口(311)和捕集管冷却水出口(312)供应冷却水。