Patent ID: 9370784
Filing Date: 2016-06-21
CPC Classification: B01F,B05B

Claim Text:
1. A bubble generating mechanism comprising: a component main body having an inflow end on a liquid inflow side and an outflow end on a liquid outflow side; a flow channel formed in the component main body to extend therethrough, the flow channel connecting an inflow port opening in the inflow end with an outflow port opening in the outflow end; a restrictor formed at a point within the flow channel, the restrictor having a passage cross-sectional area smaller than that of the inflow port; and collision parts provided at the restrictor to divide a transverse cross-section of the flow channel into three or more segment regions such that the collision parts further reduce the passage cross-sectional area of the restrictor, wherein: after a flow of gas-dissolved liquid supplied to the inflow end of the component main body collides with the collision parts, the flow is distributed to each of the segment regions and then passes through the segment regions at an increased flow rate; the gas-dissolved liquid is changed into bubble-containing liquid by depositing dissolved gas due to a resulting pressure reduction effect; the bubble-containing liquid flows out of the outflow port; a high-speed flow gap is formed between tip end portions of two or more of the collision parts projecting toward a cross-sectional center of the restrictor, the high-speed flow gap allowing a cross-sectional central flow to pass therethrough at a flow rate higher than that of a cross-sectional peripheral flow; and the collision parts include: a main collision part provided to intersect with the cross-section of the restrictor along an inner diameter; a pair of opposed collision parts provided to be opposed to each other in the inner diameter direction across a cross-sectional center of the restrictor such that the pair of opposed collision parts are provided in a direction orthogonal to the main collision part; and a peripheral gap that constitutes the high-speed flow gap and that is formed between an end surface of each of the opposed collision parts and an outer peripheral surface of the main collision part; wherein a tip end of the opposed collision part is sharpened; and wherein the main collision part includes a pair of the collision parts, each of which has a flat end surface and a chamfered part formed along an outer periphery of each end surface, the pair of collision parts being provided to be opposed to each other in the inner diameter direction of the restrictor such that the end surfaces thereof are in contact with each other; and the tip ends of the opposed collision parts are opposed to a groove part having a V-shaped cross-section made by the chamfered parts of the two collision parts, which constitute the main collision part, whereby the peripheral gap is formed.