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    • 3. 发明授权
    • SAND SEDIMENTATION SEPARATION APPARATUS
    • 砂泥分离装置
    • EP2105204B1
    • 2012-02-08
    • EP07831208.9
    • 2007-11-05
    • Maezawa Industries, Inc.
    • KODAKA, ShirouARIMATSU, NarutoHANDA, Yoshikazu
    • B01D21/00B03B5/32B03B5/34C02F1/00C02F1/38
    • B03B5/32B01D21/0042B01D21/01B01D21/2411B01D21/2427B01D21/2444B01D21/2461B01D21/26B03B5/34C02F1/006C02F1/38C02F2001/007C02F2301/024C02F2301/026C02F2301/08C02F2303/24
    • Coarse sand grains and fine sand grains in a raw water are separately removed from the beginning and are efficiently separated from the raw water. Two sand sedimentation separation tanks (10) and (20) are disposed upstream and downstream, respectively, in the flow of a raw water. Each sand sedimentation separation tank has, in an upper part thereof, a separator (11) or (21) where a raw water is caused to flow through a spiral channel (13) or spiral channels (23A) and (23B) to thereby separate sand grains from the raw water by the action of centrifugal force and gravity. Each separation tank further has, in a lower part thereof, an accumulator (12) or (22) where the sand grains separated with the separator are settled and accumulated. The separator of the upstream-side sand sedimentation separation tank has a constitution in which coarse sand grains are separated by causing a raw water to flow through the spiral channel at a high velocity. The separator of the downstream-side sand sedimentation separation tank has a constitution in which fine sand grains are separated by causing the raw water to flow through the spiral channels at a lower velocity than in the separator of the upstream-side sand sedimentation separation tank.
    • 原水中的粗沙粒和细沙粒从开始分别被除去,并且与原水有效地分离。 两个砂沉降分离罐(10)和(20)分别设置在原水流中的上游和下游。 每个沉砂分离槽在其上部具有分离器(11)或(21),在分离器(11)或(21)中使原水流过螺旋通道(13)或螺旋通道(23A)和(23B)以由此分离 通过离心力和重力作用从原水中回收沙粒。 每个分离罐在其下部还具有一个储存器(12)或(22),在该储存器中,与分离器分离的砂粒沉积并堆积。 上游侧砂沉降分离槽的分离器具有通过使原水高速流过螺旋流路而使粗砂粒分离的结构。 下游侧砂沉降分离槽的分离器具有通过使原水以比上游侧砂沉降分离槽的分离器低的速度流过螺旋流路而分离细砂粒的结构。
    • 5. 发明公开
    • SAND SEDIMENTATION SEPARATION APPARATUS
    • 砂泥分离装置
    • EP2105204A1
    • 2009-09-30
    • EP07831208.9
    • 2007-11-05
    • Maezawa Industries, Inc.
    • KODAKA, ShirouARIMATSU, NarutoHANDA, Yoshikazu
    • B03B5/28B01D21/01B01D21/26C02F1/52
    • B03B5/32B01D21/0042B01D21/01B01D21/2411B01D21/2427B01D21/2444B01D21/2461B01D21/26B03B5/34C02F1/006C02F1/38C02F2001/007C02F2301/024C02F2301/026C02F2301/08C02F2303/24
    • Coarse sand grains and fine sand grains are efficiently separated from raw water from the beginning. Two grit separation tanks 10 and 20 are disposed on an upstream side and on a downstream side respectively in a flow direction of the raw water. Each of the grit separation tanks have, in an upper part thereof, the separation devices 11 and 21 to separate the sand grains from the raw water by action of centrifugal force and gravity, by flowing the raw water through the spiral channels 13, 23A, and 23B, and, in a lower part thereof, the accumulation devices 12 and 22 to settle/deposit the sand grains separated by the separation device. The separation device of the grit separation tank on the upstream side is configured to separate the coarse sand grains by flowing the raw water through the spiral channel at high speed, and the separation device of the grit separation tank on the downstream side is configured to separate the fine sand grains by flowing the raw water through the spiral channel at lower speed than in the separation device of the grit separation tank on the upstream side.
    • 粗砂粒和细砂粒从一开始就有效地从原水中分离出来。 两个砂筛分离罐10和20分别设置在原水的流动方向的上游侧和下游侧。 每个粗砂分离槽在其上部具有分离装置11和21,以通过使原水流过螺旋通道13,23A和23A而在离心力和重力的作用下将砂粒与原水分离。 和23B,并且在其下部,堆积装置12和22沉积/沉积由分离装置分离的砂粒。 上游侧的砂砾分离槽的分离装置构成为通过使原水高速流过螺旋状流路而分离粗砂粒,并且下游侧的砂砾分离槽的分离装置构成为分离 通过使原水以低于上游侧砂分离槽的分离装置的速度流过螺旋通道的细砂粒。