Pump system

The invention claimed is: 1. A prosthetic system comprising: first and second parts rotatable relative to one another about a prosthetic knee, the first and second parts adapted to form at least part of a weight-bearing connection between a prosthetic foot and a socket; and a pump system including: a pump mechanism operatively connected to the first and second parts such that rotation between the first and second parts about a joint of the prosthetic knee moves the pump mechanism between a predetermined configuration in which a volume of a fluid chamber defined by the pump mechanism is zero or near-zero and an expanded configuration in which the volume of the fluid chamber is increased; and a movable member including a first end portion connected to the pump mechanism and a second end portion connected to at least one of the first and second parts, the movable member pivotally connecting to a housing; wherein rotation between the first and second parts rotates the movable member relative to the pump mechanism; wherein the first part comprises a rotatable part of the prosthetic knee and the second end portion is arranged to engage the rotatable part of the prosthetic knee selectively. 2. The prosthetic system of claim 1 , wherein the first part comprises a proximal part of a prosthetic connector and the second part comprises a distal part of the prosthetic knee. 3. The prosthetic system of claim 1 , wherein a membrane is connected at or near its center point to the movable member, and an outer radial edge portion of the membrane is connected to a housing. 4. The prosthetic system of claim 3 , wherein a connector connects the membrane to the movable member. 5. The prosthetic system of claim 4 , wherein the connector defines a channel in fluid communication with the fluid chamber and at least one valve assembly. 6. The prosthetic system of claim 3 , wherein deformation of the membrane increases the volume of the fluid chamber. 7. The prosthetic system of claim 3 , wherein the membrane is formed from an elastomeric material. 8. The prosthetic system of claim 1 , wherein the movable member pivotally connects to a housing. 9. The prosthetic system of claim 1 , wherein the first end portion of the movable member is arranged to selectively engage a protrusion on the first part of a joint of the prosthetic knee to lift or rotate the movable member away from a housing to increase the volume of the fluid chamber to the expanded configuration, and wherein upon disengagement of the first end portion of the movable member from the protrusion, the pump mechanism returns to the predetermined configuration. 10. A prosthetic system comprising: a prosthetic socket a prosthetic knee having a proximal part, a distal part, and a link connecting the proximal part to the distal part; a pump system including a pump mechanism connected to the prosthetic socket for generating negative pressure in the prosthetic socket, and a movable member, the pump mechanism includes a housing, a membrane, and at least one valve assembly arranged to control movement of fluid into and from the pump mechanism, the housing comprises a base plate attached to an anterior portion of the distal part; wherein the membrane is arranged to deform to move between an original configuration in which a volume of a fluid chamber defined between the membrane and the housing is zero or near-zero and an expanded configuration in which the volume of the fluid chamber is increased; wherein the membrane is attached to the movable member via a connector, and an outer radial edge portion of the membrane is attached to the housing. 11. The prosthetic system of claim 10 , wherein the movable member is located on the anterior portion of the knee and spans the proximal part and the distal part. 12. The prosthetic system of claim 10 , wherein the movable member defines an opening for receiving the connector, wherein the movable member includes a distal end portion arranged to engage the distal part of the knee and a proximal end portion arranged to engage the distal part of the knee, the distal end portion of the movable member being pivotally connected to the knee at or near a distal region thereof. 13. The prosthetic system of claim 12 , wherein the link includes a load-dependent brake system arranged to selectively prevent rotation of the proximal part relative to the distal part when the knee is loaded by a user in a standing position, and when the load on the knee is removed or reduced, the load-dependent brake system is releasable, and the knee is arranged to swing, or the proximal part is rotatable relative to the distal part about a joint defined by the link. 14. The prosthetic system of claim 13 , wherein at extension of the knee, the proximal end portion engages the proximal part as the proximal part is arranged to rotate in a counterclockwise direction about the joint such that movable member pushes away from the housing and urges the connector to pull the membrane away from the housing to increase the volume of the fluid chamber thereby creating a vacuum in the pump mechanism, pulling fluid into the pump mechanism through a tube attached to the prosthetic socket. 15. The prosthetic system of claim 14 , wherein during flexion of the knee, the proximal end portion is arranged to disengage the proximal part as the proximal part rotates about the joint to decrease and angle therebetween, which, in turn, the pump mechanism is arranged to return toward its original configuration. 16. The prosthetic system of claim 15 , wherein the membrane is formed from an elastomeric material. 17. A prosthetic system comprising: a prosthetic socket a prosthetic knee having a proximal part, a distal part, and a link connecting the proximal part to the distal part; a pump system including a pump mechanism connected to the prosthetic socket for generating negative pressure in the prosthetic socket, and a movable member, the pump mechanism includes a housing, a membrane formed from an elastomeric material, and at least one valve assembly arranged to control movement of fluid into and from the pump mechanism, the housing comprises a base plate attached to an anterior portion of the distal part; wherein the membrane is arranged to deform to move between an original configuration in which the volume of a fluid chamber defined between the membrane and the housing is zero or near-zero and an expanded configuration in which a volume of the fluid chamber is increased; wherein the membrane is attached to the movable member via a connector and an outer radial edge portion of the membrane is attached to the housing; wherein the movable member is located on the anterior portion of the knee and spans the proximal part and the distal part; wherein the movable member defines an opening for receiving the connector, wherein the movable member includes a distal end portion arranged to engage the distal part of the knee and a proximal end portion arranged to engage the distal part of the knee, the distal end portion of the movable member being pivotally connected to the knee at or near a distal region thereof; wherein the link includes a load-dependent brake system arranged to selectively prevent rotation of the proximal part relative to the distal part when the knee is loaded by a user in stance, and when the load on the knee is removed or reduced, the load-dependent brake system is releasable, and the knee is arranged to swing, or the proximal part is rotatable relative to the distal part about a joint defined by the link. 18. The prosthetic syst