Claims
- 1. A lens combination for focusing energy to a narrow cross-section of a predetermined area comprising:
- a transducer means for generating energy wherein said transducer means is comprised of a planar array of piezoelectric crystal elements;
- a curved focusing lens, having a concave upper surface and a planar bottom surface, said array is fixedly bonded to said bottom surface;
- voltage generating means for generating voltage; and
- a voltage coupling means comprised of a fine copper mesh fixedly bonded to said array with silver epoxy, said voltage coupling means for electrically coupling said voltage generating means with said array.
- 2. The lens combination of claim 1 wherein the concave upper surface of said focusing lens has a non-spherical ellipsoid shape.
- 3. The lens combination of claim 2 wherein said focusing lens is made of an aluminum alloy.
- 4. The lens combination of claim 3 wherein said voltage generating means is a ramp voltage waveform generator.
- 5. A lens assembly for focusing energy on a predetermined area in the human body, which comprises:
- a transducer means for generating energy comprising a planar array of piezoelectric crystal elements, said array having a centrally located aperture, and said array having a first and second side;
- a plano-concave focusing lens having a centrally located aperture, said lens comprising a concave surface on one side, a planar surface on the other side opposite said concave surface, an upper flange around said concave surface and a lower flange around said planar surface, and said first side of said array is fixedly bonded to said planar surface of said lens;
- an electrically conductive mesh having a first and second side and a centrally located aperture, said first side of said mesh fixedly bonded to said second side of said array;
- an electrically conductive epoxy for bonding said first side of said mesh to said array;
- a voltage generating means coupled to said mesh; and
- an electrically insulative compound applied to said second side of said array and mesh after bonding said mesh; and
- a back plate having a centrally located aperture, said back plate located next to said second side of said mesh, said back plate mechanically coupled to said lower flange of said lens.
- 6. The lens assembly of claim 5 wherein said concave surface of said lens comprises an ellipsoidal curvature.
- 7. The lens assembly of claim 6 wherein said lens is made of an aluminum alloy.
- 8. The lens assembly of claim 7 wherein said piezoelectric crystal elements of said array are made of a ceramic compound.
- 9. The lens assembly of claim 8 wherein said mesh is made of copper.
- 10. The lens assembly of claim 9 wherein said epoxy comprises silver for electrical conduction.
- 11. The lens assembly of claim 5 wherein said centrally located aperture of said array, said centrally located aperture of said focusing lens, said centrally located aperture of said electrically conductive mesh and said centrally located aperture of said backplate are aligned for placement of an ultrasound imaging probe.
- 12. A system for treating areas in a human body, said system comprised of an ultrasound imaging unit, an X-Ray unit and a treatment unit, said treatment unit further comprised of a system controller, a pulse modulator, a servo amplifier, a servo control unit, and an energy focusing lens assembly, said energy focusing lens assembly comprised of:
- a transducer means for generating energy wherein said transducer means is comprised of a planar array of piezoelectric crystal elements;
- a curved focusing lens, having a concave non-spherical ellipsoid shaped upper surface and a planar bottom surface, said array is fixedly bonded to said bottom surface, said focusing lens is made of an aluminum alloy;
- voltage generating means for generating a voltage; and
- a voltage coupling means comprised of a fine copper mesh fixedly bonded to said array with silver epoxy, said voltage coupling means for electrically coupling said voltage generating means with said array.
Parent Case Info
This is a continuation of application Ser. No. 07/379,572, filed Jul. 12, 1989, now U.S. Pat. No. 5,033,456.
US Referenced Citations (6)
Continuations (1)
|
Number |
Date |
Country |
Parent |
379572 |
Jul 1989 |
|