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    • 1. 发明公开
    • 실버화합물을 이용한 일회용 문신 시트 제조 방법 및 이를 이용한 문신 방법
    • 使用银化合物制造临时贴纸的方法及其使用方法
    • KR1020100098867A
    • 2010-09-10
    • KR1020090017552
    • 2009-03-02
    • 서경대학교 산학협력단
    • 정태의김남수김태훈
    • B41M5/025
    • PURPOSE: A method for manufacturing a one-time tattoo sheet using silver compound and a tattooing method using the tattoo sheet are provided to easily form a variety patterns by regulating the viscosity of a tattooing sample. CONSTITUTION: In a first step(S20), hydrophilic silver compound is diluted using distilled water in order to prepare a tattooing sample. The weight rate of the silver compound with respect to the distilled water is between 1 and 20%. A dispersing agent is added to regulate the viscosity of the silver compound between 1 and 100,000cP. In a second step(S40), the tattooing sample is printed on a hydrophobic substrate with a pre-set pattern. The printed pattern is cured.
    • 目的:提供使用银化合物制造一次性纹身片的方法和使用纹身片的纹身法,以通过调节纹身样品的粘度来容易地形成多种图案。 构成:在第一步(S20)中,使用蒸馏水稀释亲水性银化合物,以制备纹身样品。 银化合物相对于蒸馏水的重量比为1〜20%。 加入分散剂以调节银化合物的粘度在1和100,000cP之间。 在第二步骤(S40)中,将纹身样品以预先设定的图案印刷在疏水性基材上。 印刷图案被固化。
    • 3. 发明公开
    • 전도성 나노 잉크에서 전도성 나노 입자를 패킹하는 시뮬레이션 방법.
    • 电导率纳米片中电导率纳米颗粒的模拟方法
    • KR1020100099393A
    • 2010-09-13
    • KR1020090017861
    • 2009-03-03
    • 서경대학교 산학협력단
    • 김남수오동훈
    • G06F17/50C09D11/52
    • G06F17/5009C09D11/52
    • PURPOSE: A simulation method of packing conductive nanoparticles from a conductive nanoink is provided to maximize the packing amount of conductive nanoparticles at an area for forming a constant pattern when printing a conductive pattern using the nanoink. CONSTITUTION: A simulation method of packing conductive nanoparticles from a conductive nanoink comprises the following steps: inserting a predetermined amount of the nanoparticles corresponding to a printing sample with multiple kinds of nanoparticles, to a virtual area(S110,S120); filling the virtual area with the nanoparticles(S130); repeating the previous steps; calculating the number of the nanoparticles inside the virtual area, and measuring a void area from the virtual area(S150,S160); and grasping the conductivity of the virtual area based on the void area(S170).
    • 目的:提供一种从导电纳米金属填充导电纳米粒子的模拟方法,以便在使用纳米金印刷导电图案时,使用于形成恒定图案的区域的导电纳米粒子的填充量最大化。 构成:从导电纳米材料包装导电纳米粒子的模拟方法包括以下步骤:将预定量的与具有多种纳米颗粒的印刷样品相对应的纳米颗粒插入虚拟区域(S110,S120); 用纳米颗粒填充虚拟区域(S130); 重复以前的步骤; 计算虚拟区域内的纳米颗粒的数量,并从虚拟区域测量空隙区域(S150,S160); 并基于空隙面积来掌握虚拟区域的导电性(S170)。
    • 4. 发明公开
    • 나노 분말 제조 장치 및 이를 이용한 나노 분말 제조 방법.
    • 用于生产纳米粉末的装置和方法
    • KR1020100048501A
    • 2010-05-11
    • KR1020080107692
    • 2008-10-31
    • 서경대학교 산학협력단
    • 김남수오동훈
    • B82B3/00B82Y40/00
    • B82B3/0004B01J19/0013B82B3/0071B82Y30/00B82Y40/00
    • PURPOSE: An apparatus and method for manufacturing nanoparticles are provided to produce pure nanoparticle with a simple construction and easily mount by performing a chemical process. CONSTITUTION: An apparatus for manufacturing nanoparticles comprises: a reactor(100) in which the vent(150) emitting the nanoparticle is formed in one side, which saves a solution in which the nanoparticle is contained; a nanoparticle collector(400); a transfer pipe(300) in which the gas and nanoparticle spouted from vent is transferred, in which One side is connected to the vent of reactor, other end is connected to the nanomolecular collection; an unit pressure controller(200) which is located on surface vent and occurs the instantaneously pressure difference between reactor and transfer pipe; a trapping filter dividing nanoparticle and gas within a transfer pipe, which locates in neighborhood of nanoparticle collector within transfer pipe; and a gas release valve(310) which locates in the other end vicinity of the transfer pipe and emits the gas separating with the trapping filter.
    • 目的:提供一种制造纳米颗粒的装置和方法,以制造具有简单结构的纯纳米颗粒,并通过进行化学过程容易地安装。 构成:用于制造纳米颗粒的装置包括:反应器(100),其中在一侧形成发射纳米颗粒的排出口(150),其节省了纳米颗粒被包含的溶液; 纳米颗粒收集器(400); 其中从排气口喷出的气体和纳米颗粒被转移到其中一侧连接到反应器排气口的另一端连接到纳米分子集合的传输管道(300) 单元压力控制器(200),位于表面通风口上,发生反应器和输送管之间的瞬时压力差; 分离纳米颗粒和传输管内的气体的捕集过滤器,其位于输送管内的纳米颗粒收集器附近; 和气体释放阀(310),其位于输送管附近的另一端,并且发射与捕集过滤器分离的气体。
    • 5. 发明公开
    • 직접 인쇄 방식의 프린터 헤드.
    • 直写式打印机头
    • KR1020100048502A
    • 2010-05-11
    • KR1020080107693
    • 2008-10-31
    • 서경대학교 산학협력단서울과학기술대학교 산학협력단
    • 김종형김남수황세연
    • B41J2/045B41J2/01B41J2/07
    • PURPOSE: A printer head of a direct printing mode is provided to print cubic patterns by controlling the support and pressure of ink using the elevating movement of a piston. CONSTITUTION: A direct writing type printer head comprises a chamber(100), a piston(200), an actuator(400), a piston an axis(250) and a seal unit(300). The chamber receives fluid or ink and emits through a nozzle. The piston locates within the chamber. The piston controls the amount of ink by controlling the interval of the inner surface of the chamber through the elevating movement. The actuator operates the elevating movement of piston. The piston axis interlinks the actuator and the piston to make the elevating movement of piston possible. The seal unit hermetically seals the inside of the chamber.
    • 目的:提供直接打印模式的打印头,通过使用活塞的升降运动来控制墨水的支撑和压力来打印立方体图案。 构成:一种直接书写式打印机头包括一个室(100),一个活塞(200),一个致动器(400),一个活塞轴线(250)和一个密封单元(300)。 腔室接收流体或墨水并通过喷嘴发射。 活塞位于室内。 活塞通过升高运动来控制室内表面的间隔来控制油墨量。 执行器操作活塞的升降运动。 活塞轴线使致动器和活塞相互连接,使活塞的升降运动成为可能。 密封单元气密地密封腔室的内部。
    • 6. 发明公开
    • 폐 실버페이스트를 이용한 다공성 고분자 지지체 제조방법.
    • 使用废银浆的疏水催化支撑剂
    • KR1020100098865A
    • 2010-09-10
    • KR1020090017549
    • 2009-03-02
    • 서경대학교 산학협력단
    • 김남수장유진
    • C08J9/33C08J9/22C08K3/08
    • PURPOSE: A method for manufacturing a porous polymer supporter is provided to economically support the porous polymer supporter using a waste silver paste and to recycle silver by simply extracting the silver(Ag) from the waste silver paste. CONSTITUTION: A method for manufacturing a porous polymer supporter comprises: a first step(S110,S120) of hardening a waste silver paste into a polymer by heating the waste silver paste; a second step(S130) of pulverizing the waste silver paste; a third step(S140) of dipping the pulverized waste silver waste into a silver solution; and a fourth step(S150,S160) of forming the porous polymer supporter by extracting the pulverized silver from the silver solution.
    • 目的:提供一种制造多孔聚合物支持体的方法,以便通过简单地从废银浆中提取银(Ag)来经济地支持使用废银浆的多孔聚合物支持物和再循环银。 构成:多孔聚合物支持体的制造方法,其特征在于,包括:通过加热所述废银浆将废银糊料硬化为聚合物的第一工序(S110,S120) 粉碎废银浆料的第二步骤(S130) 将粉碎的废弃银废料浸入银溶液中的第三步骤(S140) 以及通过从银溶液中提取粉碎的银而形成多孔聚合物支持体的第四步骤(S150,S160)。
    • 7. 发明公开
    • 직접 인쇄 방식의 온도 조절 장치가 구비된 프린터 헤드.
    • 直接写入式打印机头与温度控制装置
    • KR1020100048500A
    • 2010-05-11
    • KR1020080107691
    • 2008-10-31
    • 서경대학교 산학협력단
    • 김남수오동훈정태의
    • B41J2/315B41J2/385B41J2/01
    • PURPOSE: A print head with a temperature adjusting device of a direct printing mode is provided to prevent irregular ink drop and the clogging of an ink nozzle. CONSTITUTION: A print head with a temperature adjusting device of a direct printing mode comprises a chamber(100), a printed material discharge unit(200) and a temperature control unit. The chamber stores printed materials. The printed material discharge unit supplies the printed material to the chamber with pressure. The temperature control unit measures the temperature of inside and temperature of the chamber body. The temperature control unit controls the temperature of the inside of chamber and temperature of the chamber body. The temperature control unit comprises a fluid flowing pipe(300).
    • 目的:提供具有直接打印模式的温度调节装置的打印头,以防止不规则的墨滴和油墨喷嘴的堵塞。 构成:具有直接印刷模式的温度调节装置的打印头包括室(100),印刷材料排出单元(200)和温度控制单元。 室内存储印刷材料。 印刷材料排出单元在压力下将印刷材料提供给室。 温度控制单元测量室体内部温度和温度。 温度控制单元控制室内部的温度和室主体的温度。 温度控制单元包括流体流通管道(300)。
    • 8. 发明公开
    • 중유회로부터 활성탄을 제조하는 방법
    • 用于重油的活性炭的制备方法
    • KR1020100021739A
    • 2010-02-26
    • KR1020080080319
    • 2008-08-18
    • 서경대학교 산학협력단
    • 김남수황세연이현재
    • C01B31/08B01J19/00
    • C01B32/366B01J20/20B01J20/305
    • PURPOSE: A method for manufacturing the activated charcoal from heavy oil fly ash is provided to remarkably reduce energy cost by processing at low temperature in high pressure reactor. CONSTITUTION: A method for manufacturing the activated charcoal from heavy oil fly ash comprises: a step of mixing water with heavy oil fly ash and keeping until pH of solution becomes 2~5; a step of filtering solution and obtaining the heavy oil fly ash which contains 1~3 times moisture of the heavy oil fly ash weight; a step of injecting the obtained heavy oil fly ash into an autoclave and keeping the contained moisture in liquid state at 15~100 atm and 200~250°C; a step of making phase change of changing moisture into gas phase the moisture by reducing pressure of a reactor; and a step of dropping the temperature of reactor by injecting liquid nitrogen.
    • 目的:提供从重油飞灰制造活性炭的方法,通过在低压反应器中的低温处理显着降低能源成本。 构成:从重油飞灰制造活性炭的方法包括:将水与重油飞灰混合并保持至溶液pH达到2〜5的步骤; 过滤溶液并获得含有重油飞灰重量1〜3倍的重油飞灰的步骤; 将获得的重油飞灰注入高压釜中并将含水分保持在15〜100atm和200〜250℃的液态的步骤; 通过减少反应器的压力使水分变化进入气相的步骤; 以及通过注入液氮来降低反应器的温度的步骤。
    • 9. 发明公开
    • 저융점 나노 잉크 제조 방법
    • 具有低熔点的纳米油墨的制造方法
    • KR1020100000596A
    • 2010-01-06
    • KR1020080060155
    • 2008-06-25
    • 서경대학교 산학협력단
    • 한국남김남수강선미정태의
    • C09D11/52H01B1/22B82B3/00
    • C09D11/52C08K3/04C22F1/00H01B1/22
    • PURPOSE: A method for manufacturing nano-ink is provided to prepare the nano-ink with high electric conductivity and uniform dispersion of metal while not using separate solvent. CONSTITUTION: A method for manufacturing nano-ink comprises the steps of: mixing at least one kind of a first metal selected from the group consisting of gold, silver, copper and platinum with 10-100 nm average diameter with at least two kinds of a second metal selected from the group consisting of aluminum, bismuth, indium, gallium, tin, cadmium, antimony, thallium, mercury, zinc and lead; heat-treating the mixture at 200~800 °C; and making ink from the solidified material at 100~200 °C.
    • 目的:提供一种制造纳米油墨的方法,以制备具有高导电性和均匀分散金属的纳米油墨,而不使用单独的溶剂。 构成:制造纳米油墨的方法包括以下步骤:将选自金,银,铜和铂的至少一种第一金属与平均直径为10-100nm的至少两种, 选自铝,铋,铟,镓,锡,镉,锑,铊,汞,锌和铅的第二种金属; 在200〜800℃下对混合物进行热处理; 并在100〜200℃下从凝固材料制造墨水。