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
    • 2. 发明公开
    • 마이크로 유체 디바이스 및 미량 액체 희석 방법
    • 微流体装置和跟踪液体稀释方法
    • KR1020080102165A
    • 2008-11-24
    • KR1020087021911
    • 2007-03-08
    • 세키스이가가쿠 고교가부시키가이샤
    • 야마모또,가즈끼후꾸이,히로지세끼,미노루
    • B01J19/00B01F5/00B01F3/08G01N35/08
    • B01F13/0071B01F15/0404B01F2013/1052B01F2015/0221B01J2219/00889B01L3/502792B01L2200/0605B01L2300/0816B01L2300/0867B01L2400/0487G01N2035/00465Y10T137/87249Y10T137/87652
    • A micro fluid device provided with a fine flow path structure capable of easily and positively providing therein micro fluid having various dilution ratios. A fine flow path structure provided in a substrate (2) has a first mixing unit (11) and a second mixing unit (21) connected to the downstream side of the first mixing unit (11), with each mixing unit (11, 21) having first through third fine flow paths. One end of a first weighing unit (11d) consisting of a fine flow path having a capacity equivalent to the volume of a specified-amount first micro fluid is opened to a first fine flow path (11a), and the other end is opened to a merging unit (12a) provided on a second fine flow path (12). One end of a second weighing unit (13d) consisting of a fine flow path having a capacity equivalent to the volume of a specified-mount second micro fluid is connected to a third fine flow path (13), and the other end is opened to the merging unit (12a). Any one of the first through third outlet ports of the first mixing unit is connected with the first or the third inlet port of the second mixing unit (21).
    • 一种微流体装置,其具有能够容易且积极地在其中提供具有各种稀释比的微流体的细流动路径结构。 设置在基板(2)中的细流路结构具有与第一混合单元(11)的下游侧连接的第一混合单元(11)和第二混合单元(21),每个混合单元(11,21 )具有第一至第三细流路径。 第一称重单元(11d)的一端由具有与规定量的第一微流体的体积相当的容积的微细流路构成,向第一细流路(11a)开放,另一端开 设置在第二细流路(12)上的合流部(12a)。 第二称重单元(13d)的一端与第三细流路(13)连接,第二称重单元(13d)由具有与规定安装的第二微流体的体积相当的容积的精细流路构成,另一端与 合并单元(12a)。 第一混合单元的第一至第三出口中的任何一个与第二混合单元(21)的第一或第三入口连接。
    • 3. 发明公开
    • 일괄방식 상온 재생아스콘 제조장치 및 방법
    • 整体式装置及其在室温下制备再生气体的方法
    • KR1020030019757A
    • 2003-03-07
    • KR1020010053048
    • 2001-08-30
    • 주식회사 서원
    • 리출선
    • B28C7/00
    • B01F13/1027B01F13/1005B01F2003/1257B01F2013/1052B01F2215/0063C08L95/00C08L2207/22E01C19/1004E01C19/1068C08L2666/74B28C7/0007E01C19/08E01C19/1009
    • PURPOSE: An apparatus and a process for stably preparing ascon at room temperature are provided to supply coarse materials and fine materials containing waste materials at once to effectively coat a mixture of both materials in restricted amount. CONSTITUTION: The apparatus comprises a number of hoppers(1,2) receiving different constructional and/or waste materials with different diameters; a transportation element(3) mounted at lower part of the hoppers and to transfer the materials from the hoppers; a mixing element(5) at front end of the transportation element to admix and discharge a mixture of water, asphalt and surfactant to form an emulsifying agent; and an emulsifying agent supplying element(6). The hoppers are arranged from one for coarse materials to another for fine materials in order to form an integrated arrangement for supplying the materials to the transportation element overall.
    • 目的:提供一种用于在室温下稳定制备砷的装置和方法,以一次性提供含有废料的粗材料和精细材料,以有效地涂覆两种材料的混合物。 构成:该装置包括多个不同直径的不同结构和/或废料的料斗(1,2) 运送元件(3),其安装在所述料斗的下部并且将所述材料从所述料斗转移; 在运输元件的前端处的混合元件(5),以混合和排出水,沥青和表面活性剂的混合物以形成乳化剂; 和乳化剂供给元件(6)。 为了形成用于将材料全部供给到运输元件的集成布置,料斗从一种用于粗材料到另一种用于精细材料。
    • 5. 发明授权
    • 세라믹 슬러리, 세라믹 슬러리 조성물, 세라믹 그린시트 및 다층 세라믹 전자부품의 제조방법
    • 세라믹슬러리,세라믹슬러리조성물,세라믹그린시트및다층세라믹전자부품의제조방
    • KR100376084B1
    • 2003-03-15
    • KR1020000042196
    • 2000-07-22
    • 가부시키가이샤 무라타 세이사쿠쇼
    • 나카무라이치로나카가즈유키
    • C04B35/622B02C19/00B28C1/00
    • B28B17/026B01F3/1207B01F2003/125B01F2013/1052B01F2013/1083B28C1/02B32B18/00C04B35/63C04B2235/658C04B2237/346C04B2237/348C04B2237/66C04B2237/704H01G4/12
    • A method of producing ceramic slurry capable of producing uniformly dispersed ceramic slurry without excessively damaging a ceramic powder, and a method of producing a ceramic slurry composition used for producing a multilayer ceramic electronic part, from which an undissolved binder is precisely removed. Also provided is a method of producing a ceramic green sheet, and a method of producing a multilayer ceramic electronic part. A ceramic powder having an average particle diameter of about 0.01 to 1 mum is mixed with a dispersion solvent (solvent) and disintegrated by a medium-type dispersion method using a dispersion medium such as balls, beads, or the like to obtain mixed and disintegrated slurry, followed by high-pressure dispersion under a pressure of about 100 kg/cm2 or more. The ceramic slurry composition contains a ceramic powder, a dispersant, a binder, and a solvent, wherein a binder solution prepared by mixing a solvent and the binder to form a solution, and dispersing the binder under a high pressure of about 100 kg/cm2 or more is used as the binder to decrease the content of the undissolved binder.
    • 一种能够制造均匀分散的陶瓷浆料而不会过度损伤陶瓷粉末的陶瓷浆料的生产方法以及一种生产用于生产多层陶瓷电子部件的陶瓷浆料组合物的方法,由此可以精确地除去未溶解的粘合剂。 还提供了生产陶瓷生片的方法,以及生产多层陶瓷电子部件的方法。 将平均粒径为0.01〜1μm左右的陶瓷粉末与分散溶剂(溶剂)混合,使用球,珠等分散介质通过中型分散法进行粉碎,得到混合粉碎物 随后在约100kg / cm2或更高的压力下进行高压分散。 陶瓷浆料组合物含有陶瓷粉末,分散剂,粘合剂和溶剂,其中通过混合溶剂和粘合剂以形成溶液并在约100kg / cm2的高压下分散粘合剂而制备粘合剂溶液 或更多被用作粘合剂以降低未溶解的粘合剂的含量。