Ultrasonic spray nozzle and method

US 4,659,014 A
Filed: 09/05/1985
Issued: 04/21/1987
Est. Priority Date: 09/05/1985
Status: Expired due to Fees

First Claim

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1. In an ultrasonic nozzle of the type wherein a piezoelectric transducer expands and contracts in response to an applied periodic electrical potential so as to develop a plurality of mechanical vibrations on an atomizing surface, the improvement which comprises means for modulating the frequency of the applied periodic electrical potential with respect to time so as to periodically vary the amplitude of the vibrations on the atomizing surface.

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Abstract

An ultrasonic spray nozzle includes a piezoelectric transducer which develops mechanical vibrations in response to an applied periodic electrical potential. The vibrations are mechanically amplified and propagate to an atomizing surface over which fluid to be atomized is discharged by an internal fluid passage. Maximum vibrational amplitude of the atomizing surface is achieved when the frequency of the applied electrical potential equals the natural resonant frequency of the nozzle. A parameter of the applied electrical potential, such as frequency, is periodically varied such that the vibrational amplitude of the atomizing surface is periodically increased and decreased. Fluid atomization is reduced during periods of reduced vibrational amplitude permitting fluid to be distributed with greater uniformity onto the atomizing surface. Such uniform distribution results in a significant improvement in the definition of the spray pattern produced by the nozzle during periods of increased vibrational amplitude. To further enhance uniform fluid distribution, auxiliary fluid passages are provided through the atomizing surface.

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12 Claims

1. In an ultrasonic nozzle of the type wherein a piezoelectric transducer expands and contracts in response to an applied periodic electrical potential so as to develop a plurality of mechanical vibrations on an atomizing surface, the improvement which comprises means for modulating the frequency of the applied periodic electrical potential with respect to time so as to periodically vary the amplitude of the vibrations on the atomizing surface.
- View Dependent Claims (2, 3)
- - 2. The improvement as defined in claim 1, wherein the ultrasonic nozzle has a characteristic resonant frequency and the frequency of the applied periodic electrical potential varies from above to below the characteristic resonant frequency.
  - 3. The improvement as defined in claim 1, wherein the frequency of the applied periodic electrical potential is varied such that the vibrations on the atomizing surface vary between a maximum amplitude at which fluid atomization readily takes place and a minimum amplitude at which fluid atomization is substantially reduced.

4. An ultrasonic nozzle for atomizing liquids comprising:
- an atomizing surface;
  
  means responsive to an applied periodic electrical potential for vibrating said atomizing surface to atomize the liquid when the liquid is disposed thereon;
  
  fluid passage means for communicating the liquid to said atomizing surface, said fluid passage means including a main passage opening through said atomizing surface at a first location thereon and an auxiliary passage communicating with said main passage and opening through said atomizing surface at a second location remote from said first location, whereby fluid is communicated through said main and auxiliary passages for substantially uniform distribution onto said atomizing surface; and
  
  generating means for generating and applying said periodic electrical potential to said vibrating means, said generating means periodically modulating the frequency of said periodic electrical potential with respect to time such that the amplitude of vibrations on said atomizing surface are periodically increased and decreased.
- View Dependent Claims (5, 6, 7)
- - 5. An ultrasonic nozzle as defined in claim 4, wherein said ultrasonic nozzle includes an elongate nozzle stem and said fluid passage extends along the longitudinal axis of said fluid stem.
  - 6. An ultrasonic nozzle as defined in claim 5, wherein said atomizing surface is disposed adjacent an end of said elongate nozzle stem and said main passage opens through said atomizing surface adjacent the center thereof.
  - 7. An ultrasonic nozzle as defined in claim 6, wherein said nozzle includes a plurality of said auxiliary passages extending generally radially from said main passage and opening through said atomizing surface.

8. An ultrasonic nozzle for atomizing a liquid conveyed thereto comprising:
- transducer means for developing a series of mechanical vibrations in response to an applied periodic electrical potential;
  
  mechanical amplification means, coupled to said transducer means, for amplifying said mechanical vibrations, said amplifying means having an atomizing surface on which said amplified mechanical vibrations appear;
  
  fluid passage means for conveying fluid onto said atomizing surface for atomization by said amplified mechanical vibrations; and
  
  drive means for developing and applying said periodic electrical potential to said transducer means, said drive means periodically varying the frequency of said periodic potential so as to periodically vary the amplitude of said amplified mechanical vibrations appearing on said atomizing surface, said amplitude variation being such that the liquid from said fluid passage means flows over said atomizing surface during periods of reduced vibrational amplitude and is atomized during periods of increased vibrational amplitude.
- View Dependent Claims (9, 10, 11)
- - 9. An ultrasonic nozzle as defined in claim 8, wherein said transducer means include a piezoelectric element.
  - 10. An ultrasonic nozzle as defined in claim 9, wherein said amplifying means comprise a generally cylindrical member having a first portion of relatively greater diameter in contact with said transducer means and a portion of relatively lesser diameter opposite said transducer means.
  - 11. An ultrasonic nozzle as defined in claim 10, wherein said fluid passage means include a main fluid passage opening through said atomizing surface at a first location thereon and auxiliary fluid passage coupled to said main fluid passage and opening through said atomizing surface at a second, remote location thereon.

12. A method for operating an ultrasonic nozzle of the type wherein mechanical vibrations are produced in response to an applied periodic electrical potential and appear on an atomizing surface, comprising the step of:
- periodically varying the frequency with respect to time of the applied periodic electrical potential so as to periodically vary the amplitude of the vibrations appearing on the atomizing surface.

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Current Assignee
Delavan Corporation West Des Moines
Original Assignee
Delavan Incorporated (Raytheon Technologies Corporation d/b/a RTX)
Inventors
Klemm, James R., Soth, J. Michael
Primary Examiner(s)
Kashnikow, Andres
Assistant Examiner(s)
Weldon, Kevin Patrick

Application Number

US06/772,753
Time in Patent Office

593 Days
Field of Search

239/102.4, 239/102.2, 239/311, 239/317, 310/316, 310/317, 310/311
US Class Current

239/102.2
CPC Class Codes

B05B 17/0623 coupled with a vibrating horn

B05B 17/063 having an internal channel ...

Ultrasonic spray nozzle and method

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

179 Citations

12 Claims

Specification

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Ultrasonic spray nozzle and method

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

179 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links