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. 发明申请
    • POROUS MATERIAL PRODUCTION METHOD
    • 多孔材料生产方法
    • US20100247762A1
    • 2010-09-30
    • US12749921
    • 2010-03-30
    • Koju ITOTsukasa ISHIHARAHidekazu YAMAZAKI
    • Koju ITOTsukasa ISHIHARAHidekazu YAMAZAKI
    • B05D5/00
    • C08J5/18C08J9/28
    • In a coating zone, a cylindrical tube is soaked in and taken out from a solution, such that a coating film is formed on a curved surface of the tube. In a wet gas zone, while a first gas feeding nozzle having a gas outlet moves in a state where the gas outlet faces an outer peripheral surface of the tube, wet gas is blown toward the coating film through the gas outlet. Water drops are generated on the coating film and grown up. In a dry gas zone, as in the case of the first gas feeding nozzle, while a second gas feeding nozzle having a gas outlet moves, dry gas is blown toward the coating film through the gas outlet. Solvent and water drops are evaporated from the coating film. Pores form from the water drops as a template for the porous material on the coating film.
    • 在涂布区域中,将圆筒形管浸泡并从溶液中取出,使得在管的弯曲表面上形成涂膜。 在湿气区域中,具有气体出口的第一气体供给喷嘴在气体出口朝向管的外周面的状态下移动,湿气通过气体出口吹向涂膜。 在涂膜上产生水滴并长大。 在干燥气体区域中,与第一气体供给喷嘴的情况相同,当具有气体出口的第二气体供给喷嘴移动时,干燥气体通过气体出口吹向涂膜。 溶剂和水滴从涂膜中蒸发掉。 从水滴形成孔,作为涂膜上的多孔材料的模板。
    • 2. 发明申请
    • MICRO PROTRUSION-DEPRESSION STRUCTURE AND METHOD FOR PRODUCING THE SAME
    • 微生物侵蚀抑制结构及其生产方法
    • US20110117324A1
    • 2011-05-19
    • US12946219
    • 2010-11-15
    • Koju ITOHidekazu YAMAZAKI
    • Koju ITOHidekazu YAMAZAKI
    • B32B3/30B05D3/02
    • B05D1/42B05D5/02Y10T428/24496
    • A hydrophobic liquid containing a dispersion medium and fine particles is prepared. The fine particles have insolubility of a certain level in a predetermined liquid having a hydrophobic character. The hydrophobic liquid is applied to a support to be a film thereon. Wet gas is blown to the film. Water vapor is condensed from ambient air on a surface of the film to generate water drops thereon. A dispersion medium evaporating gas is blown to the film, such that the dispersion medium is evaporated from the film. A water drop evaporating gas is blown to the film, such that the water drops are evaporated from the film. Accordingly, the water drops function as the template for forming pores, such that the pores are formed on a micro protrusion-depression structure constituted by the fine particles.
    • 制备含有分散介质和细颗粒的疏水性液体。 细颗粒在具有疏水特性的预定液体中具有一定水平的不溶性。 将疏水性液体施加到支撑体上以作为其上的膜。 湿气被吹到薄膜上。 水蒸汽在膜的表面上从环境空气冷凝,在其上产生水滴。 将分散介质蒸发气体吹送到膜,使得分散介质从膜蒸发。 将水滴蒸发气体吹向薄膜,使得水滴从薄膜中蒸发掉。 因此,水滴用作形成孔的模板,使得孔由形成在由微细颗粒构成的微突起 - 凹陷结构上形成。
    • 4. 发明申请
    • POROUS FILM PRODUCTION METHOD
    • 多孔膜生产方法
    • US20110024935A1
    • 2011-02-03
    • US12846073
    • 2010-07-29
    • Koju ITOHidekazu YAMAZAKI
    • Koju ITOHidekazu YAMAZAKI
    • B29C44/32
    • B29C67/202
    • A solution of polymer uniformly dissolved into a solvent is prepared in a solution preparing step. The solvent contains good and poor solvent components for the polymer. The solution is discharged from a coating die to a support to be a coating film thereon in a primary body forming step. A water drop generating step and a fluidity decreasing step are performed in parallel with each other while wet air is applied to the coating film. Water drops are generated on a surface of the coating film in the water drop generating step. The good solvent component is evaporated from the coating film to decrease fluidity of the solution for forming the coating film in the fluidity decreasing step. In the water drop evaporating step, dry air is applied to the coating film. The solvent and the water drops are evaporated from the coating film to obtain the porous film.
    • 在溶液制备步骤中制备均匀溶解在溶剂中的聚合物溶液。 溶剂含有聚合物的良好和差的溶剂组分。 在主体形成工序中,将溶液从涂布模具排出到作为其上的涂膜的载体上。 在将湿空气施加到涂膜的同时,并行地进行水滴产生步骤和流动性降低步骤。 在水滴生成工序中,在涂膜的表面产生水滴。 从涂膜中蒸发出良好的溶剂组分,以降低在流动性降低步骤中形成涂膜的溶液的流动性。 在水滴蒸发步骤中,将干燥空气施加到涂膜上。 溶剂和水滴从涂膜蒸发得到多孔膜。
    • 5. 发明申请
    • METHOD FOR PRODUCING POROUS FILM
    • 生产多孔膜的方法
    • US20090246388A1
    • 2009-10-01
    • US12414099
    • 2009-03-30
    • Koju ITOHidekazu YAMAZAKI
    • Koju ITOHidekazu YAMAZAKI
    • B05D5/00
    • B05D1/42B05D1/26B05D1/36B05D3/0254B05D5/00
    • A second liquid is applied to a support and dried to form a middle layer. Then, a first liquid is applied to the middle layer. A third liquid is applied to a film of the first liquid using an inkjet type liquid supply unit to form a porous area. The first and third liquids differ in interfacial tension against water. Moist air is supplied to the porous area to cause condensation. In a third chamber, the condensation grows into large droplets, and a solvent is evaporated from the film. Thereafter, the droplets are evaporated from the porous area. Thus, a porous film in which a plurality of pores are arranged is produced. Since the porous area is formed by inkjet printing method, size, shape, and conditions of the porous area is easily changed.
    • 将第二液体施加到载体上并干燥以形成中间层。 然后,将第一液体施加到中间层。 使用喷墨型液体供给单元将第三液体施加到第一液体的膜上以形成多孔区域。 第一和第三种液体与水的界面张力不同。 潮湿空气被供应到多孔区域以引起冷凝。 在第三室中,冷凝物生长成大的液滴,溶剂从膜中蒸发掉。 此后,液滴从多孔区蒸发。 因此,制造其中布置有多个孔的多孔膜。 由于通过喷墨印刷法形成多孔区域,容易改变多孔区域的尺寸,形状和条件。
    • 6. 发明申请
    • SOLUTION CASTING METHOD
    • 解决方案
    • US20080230946A1
    • 2008-09-25
    • US12053564
    • 2008-03-22
    • Takuro NISHIMURATakashi SASAKIRyutaro KEMMOTSUHidekazu YAMAZAKI
    • Takuro NISHIMURATakashi SASAKIRyutaro KEMMOTSUHidekazu YAMAZAKI
    • B29D7/01
    • B29C41/26B29K2001/00B29K2001/12
    • A primary dope containing a polymer, a solvent and an additive is fed to a filtration device in a filtrating unit. The filtration device includes a filter on which a deposit layer of a filtration aid is formed, and impurities in the primary dope are adsorbed to the deposit layer. After the filtration, a residue containing the impurities and the filtration aid on the filter, and the filtration device is filled a cleaning liquid. Then a stirrer in the filtration device is stirred so as to disperse the residue to the cleaning liquid. Thus a slurry liquid is obtained and fed to a separation device. In the separation device, the slurry liquid is fed into a strainer to separate the slurry liquid to the residue and the liquid material. The residue is dried in a drying device and the solvent vapor is recovered.
    • 将含有聚合物,溶剂和添加剂的初级涂料送入过滤装置中的过滤装置。 过滤装置包括过滤器,其上形成有助滤剂的沉积层,并且初级涂料中的杂质被吸附到沉积层。 过滤后,将过滤器上含有杂质和过滤助剂的残余物,过滤装置填充清洗液。 然后搅拌过滤装置中的搅拌器以将残余物分散到清洗液中。 因此获得浆液,并送入分离装置。 在分离装置中,将浆液送入过滤器中以将浆液分离成残留物和液体物质。 将残余物在干燥装置中干燥并回收溶剂蒸气。