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    • 1. 发明专利
    • Out-of-water gas-liquid separator
    • 水外气体分离器
    • JP2004105935A
    • 2004-04-08
    • JP2002310269
    • 2002-09-19
    • T B R KkTakeshi Yoshiokaティビーアール株式会社吉岡 健
    • HASHIMOTO ATSUSHIKINOSHITA TOSHIHISAYOSHIOKA TAKESHI
    • A01K63/04B01D19/00C02F1/20
    • PROBLEM TO BE SOLVED: To provide an out-of-water gas-liquid separator which performs gas-liquid separation of a gas and liquid from a gas-liquid pump out of water, utilizes the gas for suction force for solids etc., in the water, utilizes the liquid for intensification of an oxygen dissolved in the water, and can induce microair bubbles as well by a large suction force even at a shallow water depth.
      SOLUTION: A gas-liquid separation chamber is disposed outside the water in a position lower than a water surface, a discharge pipe is extended into the water from the gas-liquid separation chamber, and a bubble pump is provided. A gas siphon is extended downward from the upper part of the gas-liquid separation chamber and is connected to the middle of the bubble pump. A suction port of the bubble pump is extended into the water and a discharge port is installed at a position near the water surface or higher than the water surface. The gas and liquid are forcibly fed from the gas-liquid pump to the gas-liquid separation chamber where the gas and liquid are separated vertically. The liquid is discharged from the gas-liquid separation chamber through the discharge pipe into the water and the gas separated to the upper part of the gas-liquid separation chamber is admitted through the gas siphon into the bubble pump where the gas generates an ascending air bubble stream. Water or solids etc. in the water or near the bottom are sucked from the suction port in the water by the ascending air bubble stream and pulled up near to the water surface.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了提供一种从气体 - 液体泵排出水的气液分离气水分离器的水外气体分离器,利用气体用于固体吸附力等 在水中,利用液体来增强溶解在水中的氧气,即使在浅水深处也可以通过大的吸力诱导微气泡。 解决方案:气液分离室设置在水面以外的水面以下,排气管从气液分离室延伸到水中,设置有气泡泵。 气体虹吸从气液分离室的上部向下延伸,并连接到气泡泵的中间。 气泡泵的吸入口延伸到水中,并且排放口安装在靠近水面或高于水面的位置。 气体和液体被强制地从气液泵送到气液分离室,气液分离室垂直分离。 液体通过排出管从气液分离室排出到水中,并且分离到气液分离室的上部的气体通过气体虹吸进入气泡泵,在气泡中产生上升空气 泡沫流。 在水中或靠近底部的水或固体等通过上升的气泡流从水中的吸入口吸入并靠近水面上拉。 版权所有(C)2004,JPO