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    • 81. 发明申请
    • VENTURI SPRINKLER FOR CONTROLLING SMOKE AND APPARATUS FOR REMOVING POISONOUS GAS
    • 用于控制烟雾的VENTURI SPRINKLER和用于去除毒气的装置
    • US20140352698A1
    • 2014-12-04
    • US14369025
    • 2012-12-26
    • Sung Woo KimMyung Min KimMyung Ah Kim
    • Sung Woo KimMyung Min KimMyung Ah Kim
    • B01D47/06B01D47/10A62C37/08A62B23/02A62C35/68A62C33/00
    • B01D47/06A62B23/02A62C31/02A62C33/00A62C35/68A62C37/08A62C99/0072B01D47/10B01F3/04503B01F5/0423B01F5/0471B01F2005/0436B05B1/265B05B1/3415B05B7/0425B05B7/045B05B7/10
    • Provided is an apparatus for removing smoke and poisonous gas. The apparatus includes a body configured to include a flux unit which supplies water and a nozzle which is connected to the flux unit and has a narrower width than the flux unit, a frame configured to surround the body and include a suction part for removing smoke, and a heat sensitive unit fixed to seal the nozzle. When the flux unit, nozzle and frame sprays fluid with a certain pressure at high speed through the nozzle, pressure energy of the fluid is changed to velocity energy, and a vacuum state is formed in a suction room at a low pressure due to a fast speed. In order for an operation to be performed as a vacuum ejector for sucking another fluid, the suction part is positioned surrounding the nozzle, and the frame is provided to surround the heat sensitive unit. A negative pressure explained in Bernoulli's theorem is generated to form a vacuum in the space between the nozzle and the mixing chamber, thus enabling the suction of smoke and poisonous gas. The smoke and poisonous gas are mixed with water in the mixing chamber so as to be trapped in the water or dissolved and dispersed in the water. The suction part is formed in the area which encloses the nozzle such that the suction part can operate together with a vacuum ejector. The frame is arranged so as to enclose the heat sensitive unit.
    • 提供了一种用于除去烟雾和有毒气体的装置。 该装置包括主体,其构造成包括供应水的通量单元和连接到通量单元并且具有比通量单元更窄的宽度的喷嘴;框架,被构造成围绕主体并且包括用于除去烟雾的抽吸部件, 以及固定以密封喷嘴的热敏单元。 当通量单元,喷嘴和框架通过喷嘴高速喷射一定压力的流体时,流体的压力能量变为速度能量,并且由于快速地在低压下在吸入室中形成真空状态 速度。 为了进行作为抽吸另一流体的真空喷射器的操作,吸引部分围绕喷嘴定位,并且框架设置成围绕热敏单元。 产生在伯努利定理中解释的负压,以在喷嘴和混合室之间的空间中形成真空,从而能够吸入烟雾和有毒气体。 烟气和有毒气体在混合室中与水混合,以被捕获在水中或溶解并分散在水中。 抽吸部分形成在包围喷嘴的区域中,使得抽吸部分可以与真空喷射器一起操作。 框架被布置成包围热敏单元。
    • 83. 发明授权
    • Method for atomizing material for coating processes
    • 雾化涂料工艺材料的方法
    • US08658248B2
    • 2014-02-25
    • US12159021
    • 2006-12-28
    • Edward J. AndersonJesus R. Ramos
    • Edward J. AndersonJesus R. Ramos
    • B05D1/02
    • C23C16/545B05B7/045B05B13/0463B05B17/0607B05D1/02B05D7/02C23C16/4486
    • A method for atomizing a liquid including providing an atomizer having a liquid supply conduit having an outlet at one end, a gas supply conduit opening into a port in the liquid supply conduit upstream of the outlet, and a means for imparting vibrational energy to the atomizer. In an embodiment, the liquid supply conduit and gas supply conduit are coaxially displaced relative to one another. The method further includes flowing liquid through the liquid supply conduit to the outlet while simultaneously flowing gas through the gas supply conduit, and imparting vibrational energy to the atomizer to atomize the liquid exiting from the outlet. The introduction of gas at the port results in a spray of droplets with improved dimensional properties.
    • 一种用于雾化液体的方法,包括提供雾化器,其具有在一端具有出口的液体供应导管,在所述出口上游的液体供应管道中的入口中的气体供应管道以及用于向所述雾化器施加振动能量的装置 。 在一个实施例中,液体供应管道和气体供应管道相对于彼此同轴位移。 该方法还包括使液体通过液体供应管道流到出口,同时使气体流过气体供应管道,并且向雾化器施加振动能量以雾化从出口排出的液体。 在端口处引入气体导致具有改善的尺寸性质的液滴喷雾。
    • 86. 发明授权
    • Advanced water and energy conserving shower and cleaning systems and methods
    • 先进的节水节能淋浴和清洁系统和方法
    • US08348174B2
    • 2013-01-08
    • US12817715
    • 2010-06-17
    • Larry K. Baker
    • Larry K. Baker
    • A62C5/02B05B9/00F23D11/16F23D11/10E03C1/08
    • B05B7/045B05B1/18B05B7/267
    • Systems and methods for energy-saving and water-saving devices are disclosed. In some embodiments, a head assembly is coupled to receive a liquid flow from a liquid supply and a gas flow from a gas supply, wherein the head assembly defines a mixing region configured to receive the liquid flow and the gas flow, and a dispensing portion configured to receive a combined flow from the mixing region. In some implementations, a spray nozzle may sprayably introduce the liquid flow into the mixing region. In other implementations, a plurality of curtain flows may be drawn through apertures into the dispensing portion by the combined flow. In still other implementations, a portion of the combined flow dispensed by the head assembly may be recaptured into the gas flow.
    • 公开了节能节水装置的系统和方法。 在一些实施例中,头部组件被联接以接收来自液体供应源的液体流和来自气体供应源的气体流,其中头部组件限定被配置为接收液体流和气体流的混合区域,以及分配部分 被配置为从混合区域接收组合流。 在一些实施方案中,喷雾喷嘴可以将液体流喷射到混合区域中。 在其他实施方案中,可以通过组合的流将多个帘流通过孔引入分配部分。 在另外的实施方案中,由头组件分配的组合流的一部分可以被重新捕获到气流中。
    • 87. 发明申请
    • FLUID MIXTURE JET APPARATUS
    • 流体混合喷嘴装置
    • US20120325932A1
    • 2012-12-27
    • US13582412
    • 2011-03-15
    • Yoshimichi TaniRyutaro Takeda
    • Yoshimichi TaniRyutaro Takeda
    • B05B7/04
    • B05B7/0075B05B1/14B05B3/02B05B7/045B60S3/04
    • To provide a fluid mixture jet apparatus which jets a fluid mixture of air containing fine washing water particles, to be capable of removing dust containing carbon and the like adhering to a coated surface, a fluid mixture jet apparatus (10) includes a two fluid mixing tank (11) in which flowed air (1) and washing water (3A) containing detergent are uniformed in pressure, an air passageway (12) connecting from the two fluid mixing tank (11), a washing water channel (13A), an ejector part (15) to which the air passageway (12) and the washing water channel (13A) are connected, to form the washing water (3A) into fine washing water particles, and an jet nozzle (16) that jets a fluid mixture (5) of the compressed air (1) and the pure water 3 made into fine water particles at high speed, and the fluid mixture (5) containing the pure water 3 made into fine water particles at high speed, to break the pure water (3) made into fine water particles, so as to remove a small amount of residual contaminants from a coated surface.
    • 为了提供喷射含有精细洗涤水粒子的空气的流体混合物的流体混合物喷射装置,能够除去附着在涂布表面上的含有碳等的灰尘,流体混合物喷射装置(10)包括两个流体混合 其中包含洗涤剂的流动空气(1)和洗涤水(3A)在压力下均匀的罐(11),从两个流体混合罐(11)连接的空气通道(12),洗涤水通道(13A), 喷射器部分(15),空气通道(12)和洗涤水通道(13A)连接到其上,以将洗涤水(3A)形成为细小的洗涤水颗粒;以及喷射喷嘴(16),其喷射流体混合物 将压缩空气(1)的压缩空气(5)和高速制成微细水粒子的纯水3和含有纯水3的流体混合物(5)以高速制成微细水粒子,以破坏纯水 (3)制成微细的水粒子,以除去少量残留物 来自涂层表面的ntaminants。
    • 89. 发明申请
    • Two-substance nozzle, cluster nozzle and method for the atomization of fluids
    • 双体喷嘴,簇喷嘴和流体雾化方法
    • US20100116900A1
    • 2010-05-13
    • US12590527
    • 2009-11-10
    • Dieter Wurz
    • Dieter Wurz
    • E03C1/08
    • B05B7/045F23D11/102F23D2900/11101
    • Two-substance nozzle, cluster nozzle with several two-substance nozzles and method for the atomization of fluids by means of a two-substance nozzle.The invention relates to a two-substance nozzle with a nozzle housing, said nozzle housing comprising at least one fluid inlet for fluid that is to be atomized, a second fluid inlet for gaseous fluid, a mixing chamber, a nozzle outlet opening and an annular gap opening surrounding the nozzle outlet opening, whereby, within the nozzle housing, means are provided for generating a film of fluid that is to be atomized on a wall in the mixing chamber, and inlet openings are provided for injecting gaseous fluid into the mixing chamber.In accordance with the invention, the inlet openings and the mixing chamber are aligned and configured in a manner so as to inject the gaseous fluid essentially parallel to the wall in the mixing chamber and to move the stream of gaseous fluid within the mixing chamber essentially parallel past the wall.Use, e.g., for flue gas cleaning.
    • 两物质喷嘴,具有多个两物质喷嘴的簇喷嘴和通过两物质喷嘴雾化流体的方法。 本发明涉及具有喷嘴壳体的两物质喷嘴,所述喷嘴壳体包括至少一个待雾化的流体的流体入口,用于气态流体的第二流体入口,混合室,喷嘴出口开口和环形 围绕喷嘴出口开口的间隙开口,由此在喷嘴壳体内设置有用于产生要在混合室中的壁上被雾化的流体膜的装置,并且提供入口用于将气态流体注入混合室 。 根据本发明,入口开口和混合室被排列和配置,以便将气态流体基本上平行于混合室中的壁注入并使混合室内的气态流体基本上平行 过墙。 使用,例如,用于烟气净化。