Smart actuator for valve

I claim: 1. A valve actuator system adapted to open and close a valve, comprising an orifice closing member, positioned within a surface of a manifold and adjacent a fluid pathway through which fluid flows in a dialysis system, said valve actuator mechanism comprising: a displacement member adapted to being displaced linearly and having a contact end, wherein said contact end is positioned outside said manifold surface and proximate to said orifice closing member when said valve is in an open state and wherein said contact end pushes the orifice closing member into said manifold, resulting in both the contact end and orifice closing member being inside said manifold, when the valve is in a closed state; a motor for moving said displacement member; at least one pressure sensor positioned on said contact end and positioned between said contact end and the orifice closing member for sensing pressure generated when said contact end is in physical communication with said orifice closing member and for relaying data based on said sensed pressure; and a controller for receiving the sensed pressure from the at least one pressure sensor, wherein said controller comprises a memory having stored therein a plurality of programmatic instructions that, when executed by a processing unit, compare said sensed pressure to a pre-determined value stored in said memory and activate said motor to move said displacement member toward or away from said orifice closing member to optimally position the contact end against said orifice closing member. 2. The valve actuator system of claim 1 , wherein said motor comprises a stepper motor. 3. The valve actuator system of claim 1 , wherein said motor comprises a DC motor. 4. The valve actuator system of claim 1 , further comprising an encoder for determining amount of movement of said displacement member. 5. The valve actuator system of claim 1 for use in a dialysis machine. 6. The valve actuator system of claim 5 , wherein said controller is programmed to cause said motor to move such that a sensed pressure of at least 2 psi is maintained. 7. A valve actuator system adapted to open and close a valve, comprising an orifice closing member, positioned within a surface of a manifold and adjacent a fluid pathway through which fluid flows in a dialysis system, said valve actuator mechanism comprising: a displacement member adapted to being displaced linearly and having a contact end wherein said contact end is positioned outside said manifold surface and proximate to said orifice closing member when said valve is in an open state and wherein said contact end pushes the orifice closing member into said manifold, resulting in both the contact end and orifice closing member being inside said manifold, when the valve is in a closed state; a motor for moving said displacement member; at least one force sensor positioned on said contact end and between said contact end and the orifice closing member for sensing force generated when said contact end is in physical communication with said orifice closing member and for relaying data based on said sensed force; and a controller for receiving the sensed force from the at least one force sensor, wherein said controller comprises a memory having stored therein a plurality of programmatic instructions that, when executed by a processing unit, compare said sensed force to a pre-determined value stored in said memory and activate said motor to move said displacement member toward or away from said orifice closing member to optimally position the contact end against said orifice closing member. 8. The valve actuator system of claim 7 , wherein said motor comprises a stepper motor. 9. The valve actuator system of claim 7 , wherein said motor comprises a DC motor. 10. The valve actuator system of claim 7 , further comprising an encoder for determining amount of movement of said displacement member. 11. The valve actuator system of claim 7 for use in a dialysis machine. 12. The valve actuator system of claim 11 , wherein said controller is programmed to cause said motor to move such that a force of at least 5 pound-force (lb F ) is maintained. 13. A valve actuator system adapted to open and close a valve, comprising an orifice closing member, positioned within a surface of a manifold and adjacent a fluid pathway through which fluid flows in a dialysis system, said valve actuator mechanism comprising: a displacement member adapted to being displaced linearly and having a contact end wherein said contact end is positioned outside said manifold surface and proximate to said orifice closing member when said valve is in an open state and wherein said contact end pushes the orifice closing member into said manifold, resulting in both the contact end and orifice closing member being inside said manifold, when the valve is in a closed state; a motor for moving said displacement member; at least one pressure sensor positioned on said contact end and between said contact end and the orifice closing member for sensing pressure generated when said contact end is in physical communication with said orifice closing member and for relaying data based on said sensed pressure; at least one force gauge positioned on said contact end for sensing force generated when said contact end is in physical communication with said orifice closing member and for relaying data based on said sensed force; and a controller for receiving the sensed pressure from the at least one pressure sensor and the sensed force from the at least one force gauge, wherein said controller comprises a memory having stored therein a plurality of programmatic instructions that, when executed by a processing unit, compare said sensed pressure to a pre-determined pressure value stored in said memory and said sensed force to a pre-determined force value stored is said memory and activate said motor to move said displacement member toward or away from said orifice closing member to optimally position the contact end against said orifice closing member. 14. The valve actuator system of claim 13 , wherein said motor comprises a stepper motor. 15. The valve actuator system of claim 13 , wherein said motor comprises a DC motor. 16. The valve actuator system of claim 13 , further comprising an encoder for determining amount of movement of said displacement member. 17. The valve actuator system of claim 13 for use in a dialysis machine. 18. The valve actuator system of claim 17 , wherein said controller is programmed to move said motor such that a sensed pressure of at least 2 psi is maintained. 19. The valve actuator system of claim 17 , wherein said controller is programmed to move said motor such that a force of at least 5 pound-force (lb F ) is maintained.