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. 发明授权
    • Fresh water generator
    • 淡水发生器
    • US09126853B2
    • 2015-09-08
    • US13391354
    • 2010-05-25
    • Hironobu SuzukiYuji TanakaHiroo TakabatakeYoshisuke Nakamura
    • Hironobu SuzukiYuji TanakaHiroo TakabatakeYoshisuke Nakamura
    • B01D61/12B01D61/20B01D61/22C02F1/44G05D11/03B01F3/08B01D61/02C02F103/02C02F103/04
    • C02F1/44B01D61/02B01D61/12B01D61/20B01D61/22B01D2317/022B01D2317/04B01F3/0865B01F3/088C02F1/441C02F1/442C02F2103/02C02F2103/04C02F2301/08G05D11/03
    • Disclosed is a fresh water generator for fresh water production, which is effective to prevent a membrane life from becoming worse by suppressing the load on the membrane of a second semi-permeable membrane treatment facility when the concentrated water produced by the treatment of a first semi-permeable membrane treatment facility, and water to be treated with different osmotic pressure there from are mixed and treated with the second semi-permeable membrane treatment facility by the fresh water generator which comprises a means for storing the concentrated water produced from the first semi-permeable membrane treatment facility and water (B) to be treated, which is separately supplied in a storage tank A and a storage tank B in such a manner that the flow rate (mixture ratio) of the concentrated water to the water (B) to be treated is maintained constant, and supplying the concentrated water and the water (B) to be treated from each of the storage tanks to the second semi-permeable membrane treatment facility at a predetermined flow rate in at least a treatment process for treating water (A) to be treated with the first semi-permeable membrane treatment facility so as to obtain fresh water.
    • 公开了一种用于淡水生产的淡水发生器,当通过处理第一半透明膜处理设备产生的浓缩水时,通过抑制第二半透膜处理设备的膜上的负荷来有效地防止膜寿命变差 渗透膜处理设备,以及其中渗透压不同的待处理水将由所述第二半渗透膜处理设备进行混合处理,所述净水器包括用于储存由所述第一半透膜处理设备产生的浓缩水的装置, 渗透膜处理装置和待处理的水(B),其分别供给到储罐A和储罐B中,使得浓缩水与水(B)的流量(混合比)(B)相对于 被处理保持恒定,并将待处理的浓缩水和水(B)从每个储存罐供应到第二半渗透性m 至少在处理用第一半透膜处理设备处理的水(A)的处理过程中以预定的流量进行污水处理设备以获得淡水。
    • 3. 发明申请
    • FLEXIBLE DISPLAY DEVICE
    • 柔性显示装置
    • US20140055964A1
    • 2014-02-27
    • US13983169
    • 2012-12-14
    • Takashi OsakoYuji Tanaka
    • Takashi OsakoYuji Tanaka
    • H05K1/11
    • H05K1/118H01B1/22H01L27/3276H01L2251/5338H05B33/22H05K3/323H05K3/361H05K2201/0221
    • A flexible display device comprises a device substrate and a flexible circuit substrate, and achieves high reliability of electrical connection. The device substrate includes a flexible substrate, a display unit and a first terminal part. The flexible circuit substrate includes a second terminal part. An ACF including conductive particles connects the first and second terminal parts. Each conductive particle consists of a core part covered by a metal layer. An electrode layer and a cushioning layer are provided between the flexible substrate and the first terminal part. A quotient of a sum of a product of average particle diameter and elastic modulus for the core part, and a product of double average thickness and elastic modulus for the metal layer, divided by a sum of products of average thickness and elastic modulus for the first terminal part, the cushioning layer and the electrode layer, is no greater than 1.5.
    • 柔性显示装置包括器件基板和柔性电路基板,并实现电连接的高可靠性。 器件基板包括柔性基板,显示单元和第一端子部件。 柔性电路基板包括第二端子部。 包括导电颗粒的ACF连接第一和第二端子部分。 每个导电颗粒由覆盖有金属层的核心部分组成。 在柔性基板和第一端子部之间设置电极层和缓冲层。 核心部分的平均粒径和弹性模量的乘积之和以及金属层的双重平均厚度和弹性模量的乘积除以第一次的平均厚度和弹性模量的乘积之和 端子部分,缓冲层和电极层,不大于1.5。
    • 9. 发明申请
    • HEAT-STORAGE DEVICE
    • 储热装置
    • US20120168126A1
    • 2012-07-05
    • US13395366
    • 2010-10-13
    • Yuji TanakaKazuo TakahashiHiromiki Yagi
    • Yuji TanakaKazuo TakahashiHiromiki Yagi
    • F28D15/00
    • F28D20/025F28D2020/0086Y02E60/145
    • Disclosed is a heat-storage device provided with a supply pipe, a discharge pipe, and a heat-storage container that contains a heat-storage material. A heat-storage material layer comprising said heat-storage material is formed in the bottom of the heat-storage container. The supply pipe supplies a heat-carrying oil, which has a lower specific gravity than the heat-storage material, from outside the heat-storage container to the inside of the heat-storage material layer. The discharge pipe discharges the heat-carrying oil, which had been supplied to the inside of the heat-storage material layer, to the outside of the heat-storage container. The heat-storage device is also provided with a plurality of metal plates (members inside the heat-storage material layer) arranged vertically inside the heat-storage material layer. A metal plate is also disposed such that the upper end thereof is at a height greater than or equal to the vicinity of the upper surface level (L) of the heat-storage material layer. The disclosed heat-storage device is better than conventional heat-storage devices at preventing the heat-storage material from escaping the heat-storage container.
    • 本发明公开了一种蓄热装置,其具备供给管,排出管和含有蓄热材料的蓄热容器。 包含所述蓄热材料的储热材料层形成在储热容器的底部。 供给管从储热容器的外部向蓄热材料层的内部供给具有比蓄热材料低的比重的导热油。 排出管将已经供给到储热材料层内部的载热油排出到蓄热容器的外部。 蓄热装置还设置有多个垂直放置在储热材料层内部的金属板(储热材料层内部的构件)。 还设置金属板,使得其上端的高度大于或等于蓄热材料层的上表面水平(L)附近。 所公开的蓄热装置优于常规的蓄热装置,以防止蓄热材料逸出蓄热容器。