Cam Driven Fluid Valve Assembly

We claim: 1 . A valve assembly comprising: an assembly housing having ports, each port configured to permit fluid communication between an environment of the assembly housing and an interior space of the assembly housing; a cam shaft supported on the assembly housing, the cam shaft configured to rotate about a rotational axis, the cam shaft including a cam that is supported on the cam shaft and rotates in concert with the cam shaft; and a sliding gate valve that includes a first stationary plate having a first plate through-opening, the first stationary plate being disposed in the assembly housing and fixed relative to the assembly housing so as to face a first one of the ports, a second stationary plate having a second plate through-opening, the second stationary plate being parallel to the first stationary plate, disposed in the assembly housing and fixed relative to the assembly housing so as to face a second one of the ports and such that the second plate through opening is aligned with the first plate through-opening, and a movable plate having a movable plate through-opening, the movable plate being disposed in the assembly housing between the first stationary plate and the second stationary plate, the movable plate being moveable relative to the first stationary plate within a plane that is parallel to the first stationary plate, wherein the rotational axis is disposed in the plane, and the movable plate is configured to be driven by the cam to move within the plane. 2 . The valve assembly of claim 1 , wherein the movable plate is configured to be driven by the cam to reciprocate along a radius of the cam shaft. 3 . The valve assembly of claim 1 , wherein the movable plate is movable between a first position in which the movable plate through-opening is aligned with the first plate through-opening and the second plate through-opening permitting fluid flow through the valve, and a second position in which no alignment exists between the movable plate through-opening and the first plate through-opening and the second plate through-opening whereby fluid flow through the valve is prevented. 4 . The valve assembly of claim 3 , wherein the movable plate is biased to the second position by an elastic member that is coplanar with the plane. 5 . The valve assembly of claim 3 , wherein the amount of fluid flow through the valve is made variable by selectively positioning the movable plate at a location between the first position and the second position. 6 . The valve assembly of claim 1 , comprising: a push rod that is disposed between an inner end of the movable plate and a peripheral surface of the cam; and an elastic member disposed between an outer end of the movable plate and an inner surface of the assembly housing, wherein the movable plate and the push rod are biased toward the cam via a spring force of the elastic member, and when the cam shaft rotates about the rotational axis, the cam drives the movable plate via the push rod to move within the plane. 7 . The valve assembly of claim 1 , comprising: a first valve seal that is disposed between the first stationary plate and the assembly housing, the first valve seal surrounding the first one of the ports; and a second valve seal that is disposed between the second stationary plate and the assembly housing, the second valve seal surrounding the second one of the ports. 8 . The valve assembly of claim 1 , wherein the valve assembly is configured so that, in certain positions of the movable plate, fluid is permitted to flow through the sliding gate valve in one of a first direction and a second direction, the second direction is opposite the first direction, the first direction and the second direction are perpendicular to the plane, and the valve assembly comprises: a first valve seal that provides a fluid tight seal between the first stationary plate and the assembly housing regardless of direction of fluid flow through the valve; and a second valve seal that provides a fluid tight seal between the second stationary plate and the assembly housing regardless of direction of fluid flow through the valve. 9 . The valve assembly of claim 1 , wherein the valve assembly is configured to provide bi-directional sealing of the sliding gate valve such that a fluid tight seal exists between the sliding gate valve and the assembly housing regardless of direction of fluid flow through the valve. 10 . The valve assembly of claim 1 , wherein the cam comprises a first cam and a second cam, and the sliding gate valve comprises a first sliding gate valve and a second sliding gate valve, wherein the movable plate of the first sliding gate valve is configured to be actuated by the cam shaft via the first cam, and the movable plate of the second sliding gate valve is configured to be actuated by the cam shaft via the second cam. 11 . The valve assembly of claim 10 , wherein the movable plate of the first sliding gate valve and the movable plate of the second sliding gate valve are coplanar and on opposed sides of the rotational axis. 12 . The valve assembly of claim 10 , wherein the movable plate of the first sliding gate valve and the movable plate of the second sliding gate valve are coplanar and on a common side of the rotational axis. 13 . The valve assembly of claim 10 , wherein the movable plate of the first sliding gate valve and the movable plate of the second sliding gate valve are coplanar and offset relative to each other along the rotational axis. 14 . The valve assembly of claim 10 , wherein the movable plate of the first sliding gate valve is biased toward the first cam via a first elastic member and the movable plate of the second sliding gate valve is biased toward the second cam via a second elastic member. 15 . A valve assembly comprising: an assembly housing having ports, each port configured to permit fluid communication between an environment of the assembly housing and an interior space of the assembly housing; a cam shaft supported on the assembly housing, the cam shaft configured to rotate about a rotational axis, the cam shaft including a cam that is supported on the cam shaft and rotates in concert with the cam shaft; and a sliding gate valve that includes a first stationary plate having a first plate through-opening, the first stationary plate being disposed in the assembly housing and fixed relative to the assembly housing so as to face a first one of the ports, and a movable plate having a movable plate through-opening, the movable plate being disposed in the assembly housing in a stacked arrangement with respect to the first stationary plate, the movable plate being moveable relative to the first stationary plate within a plane that is parallel to the first stationary plate, wherein the rotational axis is disposed in the plane, and the movable plate is configured to be driven by the cam to move within the plane. 16 . The valve assembly of claim 15 , comprising: a second stationary plate having a second plate through-opening, the second stationary plate being parallel to the first stationary plate, disposed in the assembly housing and fixed relative to the assembly housing so as to face a second one of the ports and such that the second plate through opening is aligned with the first plate through-opening.