Abstract: A horizontal-type atomizing apparatus with automatically controlled working fluid level includes a portable horizontal base internally defining a dispensing chamber and an atomizing chamber horizontally opposite to but communicating with each other; a pressure container assembled to the dispensing chamber for supplying a working fluid into the dispensing chamber and the atomizing chamber; and an atomizing module arranged on the base. By utilizing the principle of atmospheric pressure balance, the working fluid in the dispensing chamber is maintained at a constant level, allowing the atomizing module to obtain constant volume of working fluid and constant working load to produce a stable amount of mist containing uniformly-sized droplets. An ambient atmospheric condition sensing unit is included for detecting atmospheric conditions in the environment surrounding the atomizing apparatus, regulating the amount of mist to be produced, and generating a warning signal for timely replenishing the working fluid.
Abstract: An aerosol impingement baffle, and more particularly, an aerosol impingement baffle employed in ultrasonic nebulizers, wherein the impingement orifices thereof are formed by disposing line-shaped impingement grooves at the inner breadth of the impingement baffle, thereby increasing the differentiation probabilities of liquid particles and avoiding congestions thereof.
Type:
Grant
Filed:
January 10, 2003
Date of Patent:
June 12, 2007
Assignee:
Kai Chih Industrial Co., Ltd.
Inventors:
Wen-Pin Chen, Kevin Cheng, Chih-Hung Huang
Abstract: A nebulizer assembly, and more particularly, for nebulizing liquids into aerosols, includes an oscillation driver connected with an aerosol excitation device at one end thereof, a liquid delivery device adjacently disposed to the aerosol excitation device for supplying an impingement baffle provided in the aerosol excitation device with micro liquid bodies having tension liquid membranes, so that energy is completely acted upon the micro liquid membranes for excitation into aerosol particles, thereby achieving aimed excitation without causing unnecessary loads.