Patent ID: 7841762

Claim:
A liquid-mixing apparatus for producing a liquid mixture obtained by mixing two or more liquid components, a liquid mixture obtained by mixing a liquid component and a gas component, a liquid mixture obtained by mixing a liquid component and a powder component, or a combination of some of the liquid mixtures mentioned above, the liquid-mixing apparatus comprising: a vessel for storing the mixture components, the vessel having a recess formed to a bottom wall thereof; a vibrator disposed in the vessel and having at least one surface with a predetermined area contacting the mixture components; a high-frequency vibration generator, connected to the vibrator, for vibrating the vibrator at high frequency in a direction perpendicular to said one surface; a reflector disposed in the recess in the bottom wall of the vessel to be detachable, the reflector being arranged with a space from the vibrator at a small distance of 10 mm or less so that the surface of the vibrator contacting the mixture components faces a surface of the reflector, and reflecting high-frequency vibration transmitted from the vibrator to create reflected waves in the mixture components flowing between the facing faces; and a drain pipe provided for a side wall of the vessel for draining the liquid mixture, wherein the vessel is provided with one or more perforations as inlet ports which extend through a center area of the reflector and penetrate the bottom portion of the vessel, and through which the mixture components are fed to a space between the vibrator and the reflector through a mixture component supply line connected to the perforation, the vibrator and the reflector cooperate to create cavitation bubbles in the mixture components utilizing a decompression action of the vibrator allowed to move away from the reflector by the high-frequency vibration transmitted from the high-frequency vibration generator to the vibrator and also cooperate to break the cavitation bubbles utilizing the compression action of the vibrator allowed to move toward the reflector, shock wave energy generated by the breaking action extremely reduces the size of the cavitation bubbles and promotes the diffusion of the mixture components, so that the liquid mixture is allowed to have an ultra fine particle size and high density, and at least one of a surface of the vibrator that faces the reflector and a surface of the reflector that faces the vibrator has a large number of bottomed pits which are cone-shape in section for generating shock waves, the shock waves generated in the pits are converged on focal sections existing between the vibrator and the reflector, and the focal section form an ultra strong shock wave-generating zone existing between the vibrator and the reflector.