Switch based spontaneous inflation inhibitor in a pump for an inflation prosthesis
First Claim
Patent Images
1. A pump assembly for an implantable prosthesis, comprising:
- a housing having a fluid passageway, the fluid passageway having an inlet and an outlet;
a first flow valve located within the fluid passageway between the inlet and the outlet; and
a switchable member located within the housing that selectively operates in a first predetermined mode that substantially seals a portion of fluid passageway between the first flow valve and the inlet or a second predetermined mode, the switchable member including a rotator and a stator, wherein one of the rotator and stator includes a cam rider and the other of the rotator and stator includes a cam and a channel.
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Abstract
A pump assembly for a penile implant is provided having a mechanism that prevents spontaneous inflation of the cylinders implanted within the patient. The preventative mechanism includes a switching mechanism for moving a valve into either a closed or an open position. When closed, the locking valve prevents fluid flow in an adverse direction. While open, the pump functions normally allowing the cylinders to be inflated.
144 Citations
30 Claims
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1. A pump assembly for an implantable prosthesis, comprising:
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a housing having a fluid passageway, the fluid passageway having an inlet and an outlet;
a first flow valve located within the fluid passageway between the inlet and the outlet; and
a switchable member located within the housing that selectively operates in a first predetermined mode that substantially seals a portion of fluid passageway between the first flow valve and the inlet or a second predetermined mode, the switchable member including a rotator and a stator, wherein one of the rotator and stator includes a cam rider and the other of the rotator and stator includes a cam and a channel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a locking valve moveable between an open and closed position, wherein the locking valve seals the portion of the fluid passageway when in the closed position.
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6. The pump assembly of claim 5, wherein the locking valve is a floating self aligning locking valve.
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7. The pump assembly of claim 5, wherein the rotor is operatively coupled to the locking valve so that linear movement of the rotor causes the rotor to move between a first locked position and a second locked position, wherein the first locked position corresponds to an open position of the locking valve and the second locked position corresponds to the closed position of the locking valve.
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8. The pump assembly of claim 7, further including:
a spring loaded pusher coupled to the rotor and placed adjacent to a wall of the housing so that selective engagement of the wall of the housing will cause the spring loaded pusher to engage and actuate the rotor.
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9. The pump assembly of claim 1, wherein the switchable member is a spring loaded valve that only allows fluid flow in one direction when in the first predetermined mode and allows bidirectional fluid flow when in the second predetermined mode.
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10. A pump assembly for an implantable prosthesis comprising:
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a housing having a fluid passageway, the fluid passageway having an inlet and an outlet;
a first flow valve located within the fluid passageway between the inlet and the outlet;
a switchable member located within the housing that selectively operates in a first predetermined mode that substantially seals a portion of fluid passageway between the first flow valve and the inlet or a second predetermined mode, a locking valve moveable between an open and closed position, wherein the locking valve seals the portion of the fluid passageway when in the closed position, a rotor operatively coupled to the locking valve so that linear movement of the rotor causes the rotor to move between a first locked position and a second locked position, wherein the first locked position corresponds to an open position of the locking valve and the second locked position corresponds to the closed position of the locking valve, and a pusher having a plurality of cam lifters, wherein each cam lifter includes a medial ridge with a beveled edged on each side thereof. - View Dependent Claims (11, 12, 13, 14, 15, 16)
a plurality of cam riders, each cam rider having a beveled terminating surface for selectively engaging one of the plurality of cam lifters of the pusher so that linear movement of the pusher produces linear and rotational movement of the rotor.
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13. The pump assembly of claim 12, further comprising:
a stator having a plurality of sets of cams and channels, wherein each channel is configured to selectively receive one of the cam riders and each cam is configured to selectively support one of the cam riders.
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14. The pump assembly of claim 13, wherein the pusher, the stator, and the rotor are configured to interact so that as the pusher is linearly moved a predetermined distance against the rotor, the rotor is linearly moved and caused to rotate so that the plurality of cam riders are caused to move within the stator.
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15. The pump assembly of claim 14, wherein the predetermined distance is sufficient to allow an operator to sense the movement.
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16. The pump assembly of claim 13, wherein the pusher, the stator;
- and the rotor are configured to interact so that as the pusher is moved a predetermined distance against the rotor, the rotor is moved and caused to rotate so that the plurality of cam riders are caused to move within the stator.
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17. A penile prosthesis comprising:
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a housing;
a fluid inlet to the housing, coupleable to a reservoir;
a fluid outlet from the housing, coupleable to an inflatable cylinder;
a fluid passageway coupling the inlet to the outlet;
a reservoir chamber coupling the inlet to the fluid passageway;
a first check valve disposed within the fluid passageway and biased towards a closed position;
a second check valve disposed within the fluid passageway between the first check valve and the reservoir chamber and biased towards a closed position;
a pump bulb in fluid communication with the fluid passageway between the first and second check valves;
a locking valve disposed between the second check valve and the reservoir chamber and switchable between an open position and closed position, wherein the locking valve seals the fluid passageway between the locking valve and the second check valve, a switching mechanism coupled to the locking valve to selectively move and lock the locking valve into either the open or the closed position, the switching mechanism comprising a rotor coupled to the locking valve and a spring loaded pusher coupled to the rotor, a stator, and wherein linear actuation of the spring loaded pusher causes the rotor to move between a first position and a second position. - View Dependent Claims (18, 19, 20, 21)
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22. A penile prosthesis comprising:
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a housing;
a fluid inlet to the housing, coupleable to a reservoir;
a fluid outlet from the housing, coupleable to an inflatable cylinder;
a fluid passageway coupling the inlet to the outlet;
a reservoir chamber coupling the inlet to the fluid passageway;
a first check valve disposed within the fluid passageway and biased towards a closed position;
a second check valve disposed within the fluid passageway between the first check valve and the reservoir chamber and biased towards a closed position;
a pump bulb in fluid communication with the fluid passageway between the first and second check valves; and
a locking valve disposed between the second check valve and the reservoir chamber and switchable between an open position and closed position, wherein the locking valve seals the fluid passageway between the locking valve and the second check valve, a switching mechanism coupled to the locking valve to selectively move and lock the locking valve into either the open or the closed position, wherein the switching mechanism includes;
a rotor coupled to the locking valve; and
a pusher having a plurality of cam lifters, wherein each cam lifter includes a medial ridge with a beveled edged on each side thereof. - View Dependent Claims (23, 24, 25, 26, 27)
a plurality of cam riders, each cam rider having a beveled terminating surface for selectively engaging one of the plurality of cam lifters of the pusher so that linear movement of the pusher produces linear and rotational movement of the rotor.
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25. The pump assembly of claim 24, further comprising:
a stator having a plurality of sets of cams and channels, wherein each channel is configured to selectively receive one of the cam riders and each cam is configured to selectively support one of the cam riders.
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26. The pump assembly of claim 25, wherein the pusher, the stator, and the rotor are configured to interact so that as the pusher is linearly moved a predetermined distance against the rotor, the rotor is linearly moved and caused to rotate so the plurality of cam riders are caused to move within the stator.
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27. The pump assembly of claim 26, wherein the predetermined distance is sufficient to allow an operator to sense the movement.
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28. A method of preventing inadvertent inflation of an implantable prosthetic comprising the steps of:
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providing a pump assembly comprising a housing having a fluid passageway, the fluid passageway having an inlet and an outlet;
a first flow valve located within the fluid passageway between the inlet and the outlet; and
a switchable member located within the housing that selectively operates in a first predetermined mode that substantially seals a portion of fluid passageway between the first flow valve and the inlet or a second predetermined mode, the switchable member including a rotator and a stator, wherein one of the rotator and stator includes a cam rider and the other of the rotator and stator includes a cam and a channel;
setting a position of a locking valve to a closed position to prevent fluid flow in a direction causing inadvertent inflation, during periods of non-use; and
setting the locking valve to an open position to allow free flow of fluid during periods of use. - View Dependent Claims (29, 30)
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Specification