Patent Number: 
Section: claims

1. A strainer module, comprising:at least one strainer cartridge defining a plurality of pressure activated strainer pockets and a plurality of open strainer pockets separate from the plurality of pressure activated strainer pockets, the plurality of pressure activated strainer pockets and each of the open strainer pockets defining an open inflow end; anda plurality of deformable membranes attached to the at least one strainer cartridge in a closed position substantially covering the inflow ends of respective ones of the plurality of pressure activated strainer pockets;each deformable membrane being deformably transitionable from the closed position to substantially prevent fluid flow into the pressure activated strainer pocket through the inflow end thereof, to an open position wherein the inflow end of the corresponding pressure activated strainer pocket is at least partially unobstructed allowing for fluid flow into the inflow end of the pressure activated strainer pocket and through a strainer surface at least partially defining the pressure activated strainer pocket;each deformable membrane being fabricated from an elastic material adapted to flex upon the application of a prescribed pressure load thereto, and the movement of the membrane from the closed position to the open position is facilitated by the flexion thereof. 2. The strainer module of claim 1 wherein the membrane is fabricated from a non-perforated elastic metal material. 3. The strainer module of claim 1 further comprising:at least one membrane stopper attached to the at least one strainer cartridge adjacent the inflow end of the respective pressure activated strainer pocket substantially covered by the membrane;the membrane stopper being sized and configured to normally maintain the membrane in the closed position, and to permit the membrane to flex to the open position upon the application of the prescribed pressure load thereto. 4. The strainer module of claim 3 wherein the membrane is pivotally connected to the at least one strainer cartridge at a joint which is disposed adjacent the inflow end of the respective pressure activated strainer pocket in opposed relation to the membrane stopper. 5. The strainer module of claim 1 wherein the plurality of membranes are arranged on the strainer cartridge in a prescribed pattern. 6. The strainer module of claim 1 wherein the pressure activated strainer pockets and the plurality of open strainer pockets are arranged in at least two side-by-side columns which extend in generally parallel relation to each other such that the inflow ends of the strainer pockets face in a common direction. 7. The strainer module of claim 1 further comprising a plurality of face plates attached to the at least one strainer cartridge in a manner wherein the faceplates collectively define a frame which extends forwardly relative to and at least partially circumvents the inflow ends of at least some of the strainer pockets. 8. A strainer module, comprising:at least one strainer cartridge defining a plurality of pressure activated strainer pockets and a plurality of open strainer pockets separate from the plurality of pressure activated strainer pockets, the plurality of pressure activated strainer pockets and each of the open strainer pockets defining an open inflow end; anda plurality of deformable membranes attached to the at least one strainer cartridge in a closed position substantially covering the inflow ends of respective ones of the plurality of pressure activated strainer pockets;each of the deformable membranes being individually and deformably transitionable from the closed position to substantially prevent fluid flow into the pressure activated strainer pocket through the inflow end thereof, and an open position wherein the inflow end of the corresponding pressure activated strainer pocket is at least partially unobstructed allowing for fluid flow into the inflow end of the pressure activated strainer pocket and through a strainer surface at least partially defining the pressure activated strainer pocket. 9. The strainer module of claim 8 wherein each of the membranes is fabricated from an elastic, non-perforated metal material adapted to flex upon the application of a prescribed pressure load thereto, and the movement of each of the membranes from the closed position to the open position is facilitated by the flexion thereof. 10. The strainer module of claim 8 wherein the pressure activated strainer pockets comprise approximately five percent of the combined totality of the pressure activated strainer pockets and open strainer pockets included in the at least one strainer cartridge. 11. The strainer module of claim 8 further comprising:a plurality of membrane stoppers attached to the at least one strainer cartridge adjacent the inflow ends of respective ones of the strainer pockets which are substantially covered by respective ones of the membranes;each of the membrane stoppers being sized and configured to normally maintain a respective one of the membranes in the closed position, and to permit a respective one of the membranes to flex to the open position upon the application of the prescribed pressure load thereto. 12. The strainer module of claim 11 wherein each of the membranes is pivotally connected to the at least one strainer cartridge at a joint which is disposed adjacent the inflow end of a respective one of the strainer pockets in opposed relation to a respective one of the membrane stoppers. 13. The strainer module of claim 8 wherein the strainer pockets are arranged in a plurality of side-by-side columns which extend in generally parallel relation to each other such that the inflow ends of the strainer pockets face in a common direction. 14. The strainer module of claim 8 further comprising a plurality of face plates attached to the at least one strainer cartridge in a manner wherein the faceplates collectively define a frame which extends forwardly relative to and at least partially circumvents the inflow ends of at least some of the strainer pockets. 15. A strainer cartridge, comprising:a plurality of pressure activated strainer elements and an open strainer element, each of which includes an inflow end; anda plurality of deformable membranes attached to respective ones of the pressure activated strainer elements in a closed position covering the inflow end thereof, the deformable membrane being positioned such that flow into the inflow end of the open strainer element is unobstructed by the deformable membrane;each deformable membrane being selectively and deformably transitionable from the closed position to substantially prevent fluid flow into the corresponding pressure activated strainer element through the inflow end thereof, and an open position wherein the inflow end is at least partially unobstructed allowing for fluid flow into the corresponding pressure activated strainer element through the inflow end thereof. 16. The strainer cartridge of claim 15 wherein:each of the pressure activated strainer elements has a cylindrically configured, tubular configuration; andeach membrane has a generally circular, segmented configuration defining four membrane quadrants which are individually moveable relative to each other. 17. A strainer module, comprising:at least one strainer cartridge defining a plurality of fluid inflow portions including a plurality of pressure activated inflow portions and an open inflow portion;a plurality of membranes attached to the at least one strainer cartridge in a closed position, wherein each membrane covers a respective one of the plurality of fluid inflow portions;the strainer cartridge being configured such that each pressure activated inflow portion is transitionable relative to the open inflow portion from a closed state wherein the corresponding membrane is in the closed position thereby substantially preventing fluid flow into the pressure activated inflow portion, to an open state wherein the pressure activated inflow portion is at least partially unobstructed to allow for the flow of a fluid therein and through a strainer surface at least partially defining the pressure activated inflow portion. 18. The strainer cartridge of claim 15 wherein the strainer cartridge comprises a plurality of strainer elements which are arranged in a generally circular array such that the inflow ends thereof are directed radially outward relative to a common axis. 19. The strainer cartridge of claim 18 wherein a plurality of membranes is attached to the strainer cartridge in a manner substantially covering the inflow ends of respective ones of the strainer elements.