Membrane pump system for use with a prosthetic system

The invention claimed is: 1. A vacuum suspension system comprising: a pump system arranged to be in fluid communication with a prosthetic socket, the pump system including a pump mechanism comprising a prosthetic connector adapted to form at least part of a load bearing connection between a prosthetic foot and the prosthetic socket, the pump mechanism comprising: upper and lower sections arranged to move relative to one another, the upper section defining a pin member; a housing positioned between the er and lower sections, the housing defining an opening arranged to allow the pin member to slidably pass therethrough; and a membrane situated on the housing such that a fluid chamber is defined between an upper side of the membrane and the housing, the pump mechanism movable between an original configuration in which the volume of the fluid chamber is zero or near-zero, and an expanded configuration in which the upper section moves toward the housing and the pin member is engageable with the upper side of the membrane and selectively deforms the membrane to increase the volume of the fluid chamber when the pump system is loaded in stance. 2. The vacuum suspension system of claim 1 , wherein the upper section defines a cavity receiving the lower section. 3. The vacuum suspension system of claim 1 , wherein the upper and lower sections arranged to move in an axial direction relative to one another. 4. The vacuum suspension system of claim 1 , wherein the lower section defines a cavity arranged to receive the membrane. 5. The vacuum suspension system of claim 1 , wherein the membrane is positioned between the lower section and the housing. 6. The vacuum suspension system of claim 1 , wherein the prosthetic connector is in axial alignment with a pylon extending between the prosthetic foot and the socket. 7. The vacuum suspension system of claim 1 , wherein the upper section includes a female adaptor or a male adaptor. 8. The vacuum suspension system of claim 1 , wherein the upper section is connected to the lower section via a resilient element. 9. The vacuum suspension system of claim 8 , wherein the resilient element comprises a flexible enclosure. 10. A vacuum suspension system comprising: a prosthetic socket; and a pump system arranged to be in fluid communication with a prosthetic socket, the pump system including a pump mechanism comprising a prosthetic connector adapted to form at least part of a load bearing connection between a prosthetic foot and the prosthetic socket, the pump mechanism comprising: upper and lower sections arranged to move relative to one another, the upper section defining a pin member; a housing positioned between the upper and lower sections, the housing defining an opening arranged to allow the pin member to slidably pass therethrough; and a membrane situated on the housing such that a fluid chamber is defined between an upper side of the membrane and the housing, the pump mechanism movable between an original configuration in which the volume of the fluid chamber is zero or near-zero, and an expanded configuration in which the upper section moves toward the housing and the pin member is engageable with the upper side of the membrane and selectively deforms the membrane to increase the volume of the fluid chamber when the pump system is loaded in stance. 11. The vacuum suspension system of claim 10 , wherein the lower section is receiving within the upper section. 12. The vacuum suspension system of claim 10 , wherein the housing is attached to the lower section. 13. The vacuum suspension system of claim 10 , wherein the membrane is positioned between the lower section and the housing. 14. The vacuum suspension system of claim 10 , wherein the lower section defines a female adaptor.