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热词
    • 2. 发明授权
    • Display device and projection-type display apparatus using the device
    • 使用该装置的显示装置和投影型显示装置
    • US06177965B1
    • 2001-01-23
    • US08789492
    • 1997-01-27
    • Hiroshi TakaharaHideki Omae
    • Hiroshi TakaharaHideki Omae
    • G02F1335
    • H04N9/3129G02F1/1334G02F1/133526G02F1/134336G02F1/136213G02F2001/13756G02F2201/121G02F2201/122G09G3/001G09G3/002G09G3/3614G09G3/3648G09G3/3655G09G3/3659G09G2300/0876G09G2310/06G09G2320/0219H04N5/7441H04N9/3105H04N9/312
    • In a display device, counter electrodes are formed in stripes at a position facing pixel electrodes, with a polymer dispersion liquid crystal held between the counter electrodes and pixel electrodes. When a positive-polarity signal is to be impressed to a pixel electrode, a negative-polarity voltage is fed to the counter electrode. On the other hand, when a negative-polarity signal is to be impressed to a pixel electrode, a positive-polarity voltage is added to the counter electrode. In this manner of impression voltages, a high voltage can be applied to the polymer dispersion liquid crystal layer on the pixel electrodes, so that the liquid crystal layer is turned into the transmitting state even if it is thick. Accordingly, the scattering efficiency is improved and images are displayed with high contrast as the liquid crystal layer can be made thick. If the thick transparent substrate is bonded to the counter substrate having the counter electrodes thereon, the light scattered at the liquid crystal layer is reflected by the counter substrate and returned back to the liquid crystal layer, thus eliminating the light to be scattered again.
    • 在显示装置中,对置电极在面对像素电极的位置上以条状形成,聚合物分散液晶保持在对置电极和像素电极之间。 当正极性信号被施加到像素电极时,负极性电压被馈送到对电极。 另一方面,当向像素电极施加负极性信号时,向对极添加正极性电压。 以这种压印方式,可以对像素电极上的聚合物分散液晶层施加高电压,使得液晶层即使厚度也变成透射状态。 因此,随着可以使液晶层变厚,散射效率提高,并且以高对比度显示图像。 如果厚的透明基板与其上具有相对电极的对置基板接合,则在液晶层上散射的光被对置基板反射并返回到液晶层,从而消除再次散射的光。
    • 9. 发明授权
    • Spray nozzle and the application
    • 喷嘴和应用
    • US09138753B1
    • 2015-09-22
    • US12807407
    • 2010-09-02
    • Hiroshi Takahara
    • Hiroshi Takahara
    • B05B1/26B05B1/02
    • B05B1/02B05B1/048B05B1/26
    • A spray nozzle for providing a high efficient atomization and a uniform fluid flow pattern, includes an internal fluid channel, sealing and a spray nozzle, on which two of spray orifices are designed close to each other. The fluid flow is guided in the internal fluid channel smoothly and separated to two fluid flows inside of spray nozzle. These two fluid flows are pressed out from the spray orifices and interfered with each other right after flow out from the spray orifices. The fluid is being atomized efficiently because the spray nozzle is designed to fully utilize both flow velocity energy and flow pressure potential energy, which is well known as “Potential Core” or “Potential Zone” and will disappear in a very short distance right after fluids flow out from the spray orifices. During the fluid flows collide with each other by using the flow velocity right after flow out from the orifices, the fluid flows explode within the potential core by using the flow pressure potential energy. And then, the fluid flow and the fluid particles are continuously atomized by using the velocity difference between the fluid flow and the air around the fluid flow to have very fine particles.
    • 用于提供高效雾化和均匀流体流动图案的喷嘴包括内部流体通道,密封件和喷嘴,两个喷孔彼此靠近设计。 流体流动在内部流体通道中被平缓地引导并分离成喷嘴内的两个流体流。 这两个流体流从喷雾孔中压出并在从喷雾孔流出后立即相互干扰。 流体被有效地雾化,因为喷嘴被设计成充分利用流速能量和流动压力势能,这是众所周知的“潜在核心”或“潜力区域”,并将在流体之后的非常短的距离内消失 从喷雾孔流出。 在流体流动通过使用从孔口流出之后的流速相互碰撞时,流体流通过使用流动压力势能在潜在的核心内爆炸。 然后,流体流动和流体颗粒通过使用流体流与流体流周围的空气之间的速度差而连续地雾化,以具有非常细的颗粒。