FLUID CONTROL SYSTEM FOR AN IMPLANTABLE INFLATABLE DEVICE

Abstract

An implantable fluid operated device may include a fluid reservoir configured to hold fluid, an inflatable member, and an electronic fluid control system to transfer fluid between the fluid reservoir and the inflatable member. The fluid control system includes at least one pump or at least one valve including a piezoelectric actuator. The piezoelectric actuator can include a piezoelectric element that deforms in response to a voltage applied by an electronic control system of the fluid control system, and a diaphragm that deforms in response to deformation of the piezoelectric element. An isolation layer may be coupled to the piezoelectric element to isolate the active piezoelectric element from non-active portions of the piezoelectric actuator.

Description

Claims

1. An implantable fluid operated inflatable device, comprising: a fluid reservoir;an inflatable member; anda fluid control system configured to control fluid flow between the fluid reservoir and the inflatable member, the fluid control system including: a housing;fluidic architecture defining one or more fluid passageways within the housing; anda piezoelectric actuator actuating at least one pump or at least one valve positioned in the one or more fluid passageways, the piezoelectric actuator including: a deformable member mounted in a fluid passageway of the one or more fluid passageways defined within the housing to control a flow of fluid through the fluid passageway;a piezoelectric element coupled to the deformable member and configured to deform in response to a voltage applied by an electronic control system of the fluid control system; andan isolation layer positioned between the piezoelectric element and the deformable member and configured to electrically isolate the deformable member from the piezoelectric element.

2. The implantable fluid operated inflatable device of claim 1, further comprising: a first epoxy layer coupling the isolation layer to the piezoelectric element; anda second epoxy layer coupling the isolation layer to the deformable member.

3. The implantable fluid operated inflatable device of claim 2, wherein at least one of the first epoxy layer or the second epoxy layer is applied in a pattern, the pattern including one of a pattern corresponding to a contour of at least one of the piezoelectric element or the deformable member, a lined pattern, a mesh pattern, or a sawtooth pattern.

4. The implantable fluid operated inflatable device of claim 2, wherein a material of at least one of the first epoxy layer or the second epoxy layer is a polymer material processed prior to application to remove voids.

5. The implantable fluid operated inflatable device of claim 1, wherein an outer peripheral dimension of the isolation layer is greater than or equal to an outer peripheral dimension of the piezoelectric element.

6. The implantable fluid operated inflatable device of claim 1, wherein the isolation layer includes a mesh material or a woven material having a set thickness across the isolation layer.

7. The implantable fluid operated inflatable device of claim 1, wherein the isolation layer includes a dielectric material.

8. The implantable fluid operated inflatable device of claim 1, wherein the piezoelectric element includes: at least one electrode on a first side of the piezoelectric element; andat least one recess formed in a second side of the piezoelectric element, at a position corresponding to the at least one electrode.

9. The implantable fluid operated inflatable device of claim 8, wherein a contour of the at least one recess extends beyond a contour of the at least one electrode.

10. The implantable fluid operated inflatable device of claim 8, wherein the isolation layer includes an epoxy layer, and wherein a thickness of the epoxy layer at a position corresponding to the at least one recess and the at least one electrode is greater than a thickness of remaining portions of the epoxy layer.

11. The implantable fluid operated inflatable device of claim 1, wherein the piezoelectric element includes: a first cutaway portion corresponding to a placement position of a first electrode on the piezoelectric element; anda second cutaway portion corresponding to a placement position of a second electrode on the piezoelectric element.

12. The implantable fluid operated inflatable device of claim 11, wherein a thickness of a portion of the isolation layer corresponding to the first cutaway portion, and a thickness of a portion of the isolation layer corresponding to the second cutaway portion, is greater than a thickness of remaining portions of the isolation layer.

13. The implantable fluid operated inflatable device of claim 12, wherein the isolation layer includes an epoxy layer, and wherein a material stiffness of the epoxy layer corresponds to a material stiffness of the piezoelectric element.

14. An implantable fluid operated inflatable device, comprising: a fluid reservoir;an inflatable member; anda fluid control system coupled between the fluid reservoir and the inflatable member and configured to control fluid flow between the fluid reservoir and the inflatable member, the fluid control system including: a housing;fluidic architecture defining one or more fluid passageways within in the housing; anda piezoelectric actuator actuating at least one pump or at least one valve positioned in the one or more fluid passageways, the piezoelectric actuator including: a piezoelectric element configured to deform in response to a voltage applied by an electronic control system of the fluid control system;an actuator foil coupled to the piezoelectric element; andan isolation layer between the piezoelectric element and the actuator foil.

15. The implantable fluid operated inflatable device of claim 14, wherein the isolation layer includes: a coating layer deposited on one of the actuator foil or the piezoelectric element; andan epoxy layer between the coating layer and the other of the actuator foil or the piezoelectric element.

16. The implantable fluid operated inflatable device of claim 15, wherein the coating layer includes a nano-thickness layer of a ceramic material deposited on the one of the actuator foil or the piezoelectric element.

17. The implantable fluid operated inflatable device of claim 14, wherein the isolation layer includes: at least one ceramic layer;a first epoxy layer bonding the at least one ceramic layer and the piezoelectric element; anda second epoxy layer bonding the at least one ceramic layer and the actuator foil.

18. The implantable fluid operated inflatable device of claim 17, wherein an outer peripheral contour of the at least one ceramic layer is greater than or equal to a corresponding outer peripheral contour of the piezoelectric element.

19. The implantable fluid operated inflatable device of claim 14, wherein the isolation layer includes: a plurality of microbeads positioned between the piezoelectric element and the actuator foil, wherein the plurality of microbeads are made of an insulative material and have a set size so as to maintain a set distance between the piezoelectric element and the actuator foil; andan epoxy material applied between the piezoelectric element and the actuator foil and configured to bond the piezoelectric element, the actuator foil, and the plurality of microbeads.

20. The implantable fluid operated inflatable device of claim 14, wherein the isolation layer includes: a mesh material positioned between the piezoelectric element and the actuator foil, wherein the mesh material is made of an insulative material and has a set thickness so as to maintain a set distance between the piezoelectric element and the actuator foil; andan epoxy material applied between the piezoelectric element and the actuator foil, and in openings in the mesh material, and configured to bond the piezoelectric element, the actuator foil, and the mesh material.