RU2001117271A - FLOW TYPE ULTRASONIC DISPERSANT - Google Patents

Claims (9)

1. Ultrasonic flow-type dispersant containing a piezoelectric transducer reinforced with a pin with an axial hole, with two symmetrically and coaxially arranged concentrators, made in one piece with plates and axial holes with partitions on the output highlanders and openings in them, characterized in that the concentrators are made with a variable internal section , at the output ends of the concentrators, resonant membranes are detachably and acoustically rigidly fixed near which slotted gaps are formed in parallel with them, and fastening side surface resonance membrane concentrically disposed flow openings facing annular gaps. 2. The ultrasonic dispersant according to claim 1, characterized in that the slit gaps from both working surfaces of the resonant membranes are made using sound-proof diaphragms with axial holes located near and parallel to the working planes of the resonant membranes. 3. The ultrasonic dispersant according to claim 2, characterized in that the slit gaps are formed using acoustically rigid reflectors, acoustically decoupled from the concentrators and hermetically fixed to the ends of the axial tubes for the flow of the treated fluid. 4. The ultrasonic dispersant according to claim 2, characterized in that the slit gaps are formed due to high-frequency ultrasonic emitters, hermetically fixed to the ends of the axial tubes for the flow of the processed fluid and acoustically isolated from the concentrators. 5. The ultrasonic dispersant according to claim 2, characterized in that the free spaces inside the oscillatory system are filled with a cavitation activator. 6. The ultrasonic dispersant according to claims 2 and 3, characterized in that the surface of the translucent membranes or reflectors from the side of the resonant membranes is made in the form of a flat spiral groove from the center to the periphery (Archimedes spiral). 7. The ultrasonic dispersant according to claim 2, characterized in that at the input and output of the piezoelectric transducer, focusing systems are arranged coaxially and symmetrically with reflectors in the form of parabolloids of revolution and focal spots located near the inlet and outlet openings. 8. The ultrasonic dispersant according to claim 3, characterized in that at the inlet and outlet of the piezoelectric transducer, cylindrical half-wave nozzles with resonant membranes at the ends, axial tubes and reflectors equipped with transitional couplings for the flow of the treated fluid are acoustically and coaxially fixed. 9. The ultrasonic dispersant according to claim 2, characterized in that half-wave resonators are located at the input and output of the device.