The invention relates to an ultrasound liquid atomizer comprising: a rigid piezoelectric transducer body (1) having a first end defining an opening and a second end, the inside of the piezoelectric transducer body (1) comprising a cavity for containing a liquid to be atomized and said body (1) furth
The invention relates to an ultrasound liquid atomizer comprising: a rigid piezoelectric transducer body (1) having a first end defining an opening and a second end, the inside of the piezoelectric transducer body (1) comprising a cavity for containing a liquid to be atomized and said body (1) further comprising a symmetry axis; a micro-perforated membrane (3) attached on said first end and covering said opening; a piezoelectric member (2, 9) adapted and provided so as to vibrate the piezoelectric transducer body (1); characterized in that the piezoelectric member (2, 9) is located towards said second end in order to vibrate the piezoelectric transducer body (1) in a direction parallel to its symmetry axis.
대표청구항▼
1. A micro-perforated vibrating membrane piezoelectric atomizer comprising: a rigid piezoelectric transducer body having a first end defining an opening and a second end,an inside of the piezoelectric transducer body comprising a cavity for containing a liquid to be atomized, andsaid body further co
1. A micro-perforated vibrating membrane piezoelectric atomizer comprising: a rigid piezoelectric transducer body having a first end defining an opening and a second end,an inside of the piezoelectric transducer body comprising a cavity for containing a liquid to be atomized, andsaid body further comprising a symmetry axis, a micro-perforated vibrating membrane covering said opening,wherein the micro-perforated vibrating membrane has an internal side toward the cavity and an external side away from the cavity and has micro-holes having a shape with equivalent diameter ranging from 1 μm to 100 μm, wherein the liquid does not seep from the membrane when the atomizer is not activated, and wherein the liquid does pass through the membrane when the atomizer is activated such that there is a vibratory speed causing displacement of the membrane, andwherein the rigid piezoelectric transducer body comprises a constant cylindrical section from the opening to a singular annual flange, with an annular piezoelectric member located just downstream of the flange element,wherein the piezoelectric member is adapted and arranged so as to vibrate the piezoelectric transducer body,wherein the piezoelectric member is positioned closer to the second end than the first end in order to vibrate the piezoelectric transducer body in a direction parallel to the body's symmetry axis, wherein said vibrating membrane is directly connected to the first end,wherein said vibrating membrane is mechanically coupled to the first end by gluing, brazing, crimping, welding, or overmoulding, andwherein said vibrating membrane is acoustically coupled to the first end. 2. The atomizer as claimed in claim 1, wherein a section of the piezoelectric transducer body varies over its length. 3. The atomizer as claimed in claim 2, wherein the section varies discontinuously. 4. The atomizer as claimed in claim 3, wherein the section varies abruptly at a single point. 5. The atomizer as claimed in claim 4, wherein the thickness of the walls of the piezoelectric transducer body toward said second end is greater than the thickness of the walls of the piezoelectric transducer body toward the first end. 6. The atomizer as claimed in claim 5, wherein the piezoelectric transducer body is hollow toward said second end. 7. The atomizer as claimed in claim 2, wherein the internal diameter of the piezoelectric transducer body is constant. 8. The atomizer as claimed in claim 1, wherein the piezoelectric member is located against the external face of said second end. 9. The atomizer as claimed in claim 8, comprising a rear mass located against the external face of the piezoelectric member. 10. The atomizer as claimed in claim 1, wherein the external diameter of the piezoelectric transducer body is variable. 11. The atomizer as claimed in claim 10, wherein the external diameter toward said second end is greater than the external diameter toward said first end. 12. The atomizer as claimed in claim 11, of which the external face of the piezoelectric transducer body is defined by a first diameter and a second diameter, the transition zone between the two diameters forming an abrupt discontinuity. 13. The atomizer as claimed in claim 12, wherein the piezoelectric member is positioned in the discontinuity and bears on the portion of the piezoelectric transducer body that includes the second end. 14. The atomizer as claimed in claim 1, wherein the ratio between the length and the diameter of said cavity is greater than 0.5. 15. The atomizer as claimed in claim 1, wherein the micro-perforated membrane at least partially forms a dome which provides a vibratory motion amplification effect. 16. The atomizer as claimed in claim 1, wherein the micro-perforated membrane has a thickness between 20 and 200 μm and includes holes of a diameter between 1 μm and 100 μm. 17. The atomizer as claimed in claim 1, wherein the piezoelectric member is a multi-layer ceramic. 18. A micro-perforated vibrating membrane piezoelectric atomizer comprising: a rigid piezoelectric transducer body having a first end defining an opening and a second end, an inside of the piezoelectric transducer body comprising a cavity for containing a liquid to be atomized, and said body further comprising a symmetry axis,a micro-perforated vibrating membrane covering said opening, and wherein the micro-perforated vibrating membrane has an internal side toward the cavity and an external side away from the cavity and has micro-holes having a shape with equivalent diameter ranging from 1 μm to 100 μm, wherein the liquid does not seep from the membrane when the atomizer is not activated, and wherein the liquid does pass through the membrane when the atomizer is activated such that there is a vibratory speed causing displacement of the membrane, andwherein the rigid piezoelectric transducer body comprises a constant diameter cylindrical section from the opening to a singular annular flange, with an annual piezoelectric member located just downstream of the flange,wherein the piezoelectric member is positioned closer to the second end than the first end in order to vibrate the piezoelectric transducer body in a direction parallel to the body's symmetry axis,wherein said vibrating membrane is mechanically fixed to the first end, whereby the mechanical fixing is achieved via use of a non-moveable direct connection of the vibrating membrane to the first end, andwherein said vibrating membrane is acoustically coupled to the first end. 19. The atomizer as claimed in claim 18, wherein a section of the piezoelectric transducer body varies over its length. 20. The atomizer as claimed in claim 19, wherein the section varies discontinuously. 21. The atomizer as claimed in claim 20, wherein the section varies abruptly at a single point. 22. The atomizer as claimed in claim 21, wherein the thickness of the walls of the piezoelectric transducer body toward said second end is greater than the thickness of the walls of the piezoelectric transducer body toward the first end. 23. The atomizer as claimed in claim 22, wherein the piezoelectric transducer body is hollow toward said second end. 24. The atomizer as claimed in claim 19, wherein the internal diameter of the piezoelectric transducer body is constant. 25. The atomizer as claimed in claim 18, wherein the piezoelectric member is located against the external face of said second end. 26. The atomizer as claimed in claim 25, comprising a rear mass located against the external face of the piezoelectric member. 27. The atomizer as claimed in claim 18, wherein the external diameter of the piezoelectric transducer body is variable. 28. The atomizer as claimed in claim 27, wherein the external diameter toward said second end is greater than the external diameter toward said first end. 29. The atomizer as claimed in claim 28, of which the external face of the piezoelectric transducer body is defined by a first diameter and a second diameter, the transition zone between the two diameters forming an abrupt discontinuity. 30. The atomizer as claimed in claim 29, wherein the piezoelectric member is positioned in the discontinuity and bears on the portion of the piezoelectric transducer body that includes the second end. 31. The atomizer as claimed in claim 18, wherein the ratio between the length and the diameter of said cavity is greater than 0.5. 32. The atomizer as claimed in claim 18, wherein the micro-perforated membrane at least partially forms a dome which provides a vibratory motion amplification effect. 33. The atomizer as claimed in claim 18, wherein the micro-perforated membrane has a thickness between 20 and 200 μm and includes holes of a diameter between 1 μm and 100 μm. 34. The atomizer as claimed in claim 18, wherein the piezoelectric member is a multi-layer ceramic. 35. The micro-perforated vibrating membrane piezoelectric atomizer as claimed in claim 1, wherein the atomizer has a deformation amplification zone with a substantially constant outer diameter. 36. The atomizer as claimed in claim 18, wherein the atomizer has a deformation amplification zone with a substantially constant outer diameter.
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