Pump system

The invention claimed is: 1. A vacuum suspension system comprising: a foot cover defining a foot opening; a pump system including a pump mechanism disposed in the foot cover; wherein the pump system includes pump mechanism, and upper and lower sections arranged to move in an axial direction along an axis relative to one another, the upper section including a pin member defined along the axis of the upper and lower sections; wherein the pump mechanism is operatively connected to and positioned between the upper and lower sections, the pump mechanism including: a housing positioned between the upper and lower sections, the housing 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; wherein deformation of a center portion of the membrane varies the volume of the fluid chamber; wherein the pump mechanism is movable between an original configuration in which the volume of the 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 pump system is concealed within a thickness of a heel portion of the foot cover. 2. The vacuum suspension system of claim 1 , wherein the pump system includes a biasing mechanism located in the housing about the pin member and arranged to bias the pump mechanism toward the original configuration such that a vacuum is created in the pump mechanism during stance and automatically expels fluid to atmosphere during a swing phase of a user. 3. A vacuum suspension system comprising: a prosthetic socket; a foot cover defining a foot opening; and a pump system located in the foot cover and in fluid communication with the prosthetic socket, the pump system including a pump mechanism, and upper and lower sections arranged to move in an axial direction along an axis relative to one another, the upper section including a pin member defined along the axis of the upper and lower sections; wherein the pump mechanism is operatively connected to and positioned between the upper and lower sections, the pump mechanism including: a housing positioned between the upper and lower sections, the housing 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; wherein the pump mechanism is movable between an original configuration in which a volume of the 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 pump system includes a biasing mechanism located in the housing about the pin member and arranged to bias the pump mechanism toward the original configuration such that a vacuum is created in the pump mechanism during stance and automatically expels fluid to atmosphere during a swing phase of a user. 4. The vacuum suspension system of claim 3 , wherein deformation of a center portion of the membrane varies the volume of the fluid chamber. 5. The vacuum suspension system of claim 3 , wherein the pump system is concealed within the foot cover. 6. The vacuum suspension system of claim 3 , wherein the pump mechanism is located within a thickness of a heel portion of the foot cover. 7. The vacuum suspension system of claim 3 , further comprising one or more valve assemblies arranged to control fluid flow into and out of the pump mechanism. 8. The vacuum suspension system of claim 3 , wherein the pump mechanism moves toward the original configuration when the foot cover is unloaded. 9. The vacuum suspension system of claim 3 , wherein the upper section moves upward relative to the lower section when the foot cover is unloaded. 10. A vacuum suspension system for use in combination with a cavity defined by a prosthetic socket, the vacuum suspension system comprising: a foot cover; a pump system including a pump mechanism disposed in the foot cover and a tube in fluid communication with the pump mechanism; wherein the pump system includes upper and lower sections arranged to move in an axial direction along an axis relative to one another, the upper section including a pin member defined along the axis of the upper and lower sections; wherein the pump mechanism is operatively connected to and positioned between the upper and lower sections, the pump mechanism including: a housing positioned between the upper and lower sections, the housing 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; wherein the pump mechanism is movable between an original configuration in which a volume of the 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 pump system includes a biasing mechanism located within the housing between the upper and lower sections about the pin member and arranged to bias the pump mechanism toward the original configuration such that a vacuum is created in the pump mechanism during stance and automatically expels fluid to atmosphere during a swing phase of a user. 11. The vacuum suspension system of claim 10 , wherein the upper and lower sections are fitted within the foot cover such that during gait or when a load is applied to the foot cover, the upper section moves downward relative to the lower section, which causes the pin of the pump mechanism to push a center portion of the membrane away from the housing of the pump system to increase the volume of the fluid chamber, the increase in the volume of the fluid chamber creates the vacuum in the pump mechanism to draw fluid into the pump mechanism. 12. The vacuum suspension system of claim 11 , wherein after the load is applied to the foot cover, the pump mechanism is arranged to return toward the original configuration as the upper section moves upward relative to the lower section, wherein the pin member is moved into an upward direction in the axial direction of the upper section and the membrane is pulled toward an upper wall of the housing to expel fluid within the fluid chamber from the pump system. 13. The vacuum suspension system of claim 10 , wherein deformation of a center portion of the membrane varies the volume of the fluid chamber. 14. The vacuum suspension system of claim 10 , wherein the pump system is concealed within the foot cover. 15. The vacuum suspension system of claim 10 , wherein the pump mechanism is located within a thickness of a heel portion of the foot cover. 16. The vacuum suspension system of claim 10 , further comprising one or more valve assemblies arranged to control fluid flow into and out of the pump mechanism. 17. The vacuum suspension system of claim 10 , wherein the pump mechanism moves toward the original configuration when the foot cover is unloaded. 18. The vacuum suspension system of claim 10 , wherein the upper section moves upward relative to the lower section when the foot cover is unloaded. 19. The vacuum suspension system of claim 10 , further comprising a socket connected to and in fluid communication with the pump mechanism.