Patent Number: 059354399
Section: claims

1. An elongated suction strainer system for connection to a suction pipe of a recirculation system for removing solids from fluid flowing into the suction pipe, said elongated suction strainer system comprising: a plurality of internal core tubes connected in series and each including a core wall defining a generally cylindrical core chamber and a plurality of spaced fluid inlets opening to said core chamber, each said core tube having first and second ends being adapted to support the suction strainer; and  a series of exterior filtering structures connected to and at least partially bounding said core wall of said core tube, said filtering structure having a plurality of spaced perforations passing therethrough, and a plurality of plate assemblies spaced sequentially along and surrounding said core wall of each core tube;  whereby fluid is drawn through the perforations in the filtering structure and the fluid inlets in the core wall into the core chamber by the recirculation system and thereafter pumped to its destination.  a plurality of internal core tubes, each including a core wall having at least one open end and a plurality of spaced fluid inlets between the open ends, said core wall defining a generally cylindrical core chamber, at least one of said core tubes of said plurality of core tubes including a core wall having two open ends; and  an exterior filtering structure including a plurality of concentric plate assemblies spaced sequentially along and surrounding at least one of said internal core tubes, and a plurality of partial plate assemblies spaced sequentially along and partially surrounding at least one of said internal core tubes, said filtering structure including a plurality of spaced perforations opening to said core tubes;  said plurality of internal core tubes being sequentially aligned and connected end to end along a common longitudinal axis,  whereby fluid passes through the perforations in said filtering structure and the fluid inlets in the core wall to the chamber therein for delivery to its destination.  a suction pipe protruding into the reservoir through a reservoir wall;  an elongated suction strainer including an elongated, hollow core tube defining an internal chamber between two opposed ends, said tube being connected to said suction pipe with the chamber in fluid communication with said pipe; and  a plurality of fluid inlets defined along said tube placing the reservoir in fluid communication with said internal passage;  wherein said suction strainer is supported by said two opposing ends of said core tube from said reservoir walls.  an end supported internal core tube including a core wall defining a generally cylindrical core chamber and a plurality of spaced fluid inlets opening to said core chamber, said core wall being constructed and arranged to support said elongated suction strainer; and  an exterior filtering structure connected to and at least partially bounding said core wall of said core tube and having a plurality of plate assemblies spaced sequentially along and concentrically mounted to said core wall and partial plate assemblies eccentrically mounted to said core wall, said filtering structure defining a plurality of spaced perforations passing therethrough to provide fluid communication between the core chamber and the fluid source;  wherein fluid in the core chamber is thereafter drawn into the recirculation system substantially free of solids.  a perforated plate inner ring;  a perforated plate outer ring circumferentially aligned with and spaced from said perforated plate inner ring;  a circumferential spacer positioned between said inner ring and said outer ring; and  a pair of perforated disc plates oppositely arranged on said circumferential spacer, each of said pair of perforated disc plates having an inner periphery defining a central opening sized and shaped to receive said core tube and an outer periphery, said outer ring being positioned between said disc plates adjacent each outer periphery and said inner ring being positioned between said disc plates adjacent each inner periphery.  a series of core tubes each having opposed first and second ends, a core wall defining a core chamber, and a series of spaced fluid inlets formed in said core wall and opening to said core chamber,  external filtering structures mounted along said core tubes, each including a plurality of plate assemblies mounted in spaced series along the length of said core tubes and having a plurality of perforations formed therein to enable fluid to flow therethrough and into said core tubes through said fluid inlets; and  a T-connection mounted between a series of said core tubes and having a core tube portion defining a bore therethrough and a suction pipe portion defining a channel opening in communication with said suction pipe;  whereby as fluid is drawn through said perforations of said plate assemblies and into said core tube, solids and particulate matter are strained from the fluid. 2. The elongated suction strainer of claim 1, wherein said exterior filtering structure further includes a plurality of partial plate assemblies spaced along and eccentrically mounted to the core wall. 3. The elongated suction strainer of claim 1, wherein said ends of said core wall are each connected to the suction pipe of the recirculation system. 4. The elongated suction strainer of claim 3, wherein each of said ends of said core wall include a core tube extension sized and shaped to be attached to the suction pipe of the recirculation system. 5. The elongated suction strainer of claim 4, wherein each said core tube extension includes a flange for facilitating connection to the suction pipe of the recirculation system. 6. The elongated suction strainer of claim 1, wherein one of said ends of said core wall is aligned with and connected to the suction pipe of the recirculation system and wherein the other of said ends of said core wall is connected to a support structure. 7. The elongated suction strainer of claim 1, wherein said first end of said core wall is connected to a first support structure and said second end is connected to a second support structure. 8. An elongated suction strainer connected to the suction pipe of a recirculation system for removing solids from liquid flowing into the suction pipe, said elongated suction strainer being supported by the suction pipe and structural members and comprising: 9. The elongated suction strainer of claim 8, wherein said elongated suction strainer further comprises a T-connection having a core tube portion and a suction pipe portion, said core tube portion including a core wall surface defining a generally cylindrical bore therethrough and having open ends, and said suction pipe portion including a suction wall surface defining a channel for connecting said bore to the suction pipe, and wherein said open ends of said core wall surface of said T-connections are aligned with and connected to said core walls of two said core tubes. 10. The elongated suction strainer of claim 9, wherein said core tube portion defines a plurality of apertures spaced along a portion of said core wall surface and opening to said bore, and wherein said partial plate assemblies surround that area of core wall surface having apertures therethrough. 11. The elongated suction strainer of claim 8, wherein one of said ends of said core wall of one of said core tubes of said plurality of core tubes is aligned with and connected to the suction pipe of a recirculation system and one of said ends of said core wall of another of said core tubes of said plurality of core tubes is aligned with and connected to the suction pipe of a recirculation system, and wherein at least one of said core tubes is attached to one of the structural members within the suppression pool so that said plurality of core tubes are supported by the suction pipe and the structural member. 12. The elongated suction strainer of claim 8, wherein said ends of said core walls include a core tube extension sized and shaped to be attached to the suction pipe of the recirculation system. 13. The elongated suction strainer of claim 8, wherein said core tube extension includes a flange for facilitating connection to the suction pipe of the recirculation system. 14. A suction system for removing solids from fluid contained in a reservoir formed of reservoir walls within a nuclear power plant or like facility, said system comprising: 15. The suction system of claim 14, wherein said two opposed ends of the core tube of said elongated suction strainer are each connected to said suction pipe, said suction pipe being constructed and arranged to independently support said elongated suction strainer within the reservoir. 16. The suction system of claim 14, further comprising a structural member protruding into the reservoir through the reservoir wall and wherein said structural member is attached to one of the ends of the core tube of said elongated suction strainer to provide support therefor. 17. The suction system of claim 16, wherein said structural member includes spaced first and second structural members and wherein the first structural member is mounted to one of the ends of the core tube and wherein the second structural member is mounted to the other of the ends of the core tube and wherein said suction pipe is connected to the core tube intermediate said first and second structural members. 18. The suction system of claim 17, wherein the core tube includes at least one T-connection intermediate the opposed ends of the core tube, said T-connection having a core tube portion defining a bore therethrough and a suction pipe portion defining a channel opening into the bore, the core tube portion being connected to the core tube with the bore in fluid communication with the internal passage and the suction pipe portion being connected to said suction pipe with the channel in fluid communication with said suction pipe. 19. The suction system of claim 18, wherein said at least one T-connection defines a plurality of apertures spaced along at least a portion of the core tube portion placing the bore in fluid communication with the reservoir. 20. The suction system of claim 14, wherein said elongated suction strainer comprises a plurality of suction strainer sections, each of said suction strainer sections having a hollow core tube, each of the hollow core tubes being aligned and connected end to end along a common longitudinal axis to provide fluid communication between the reservoir and said suction pipe. 21. An elongated suction strainer for connection to a suction pipe of a recirculation system for removing solids from fluid passing into the recirculation system from a fluid source, said elongated suction strainer comprising: 22. The elongated suction strainer of claim 21, wherein the ends of said core tube are aligned with and connected to the suction pipe of the recirculation system. 23. The elongated suction strainer of claim 22, wherein each of the ends of said core tube include a core tube extension sized and shaped to be attached to the suction pipe of the recirculation system. 24. The elongated suction strainer of claim 23, wherein each said core tube extension includes a flange for facilitating connection to the suction pipe of the recirculation system. 25. The elongated suction strainer of claim 21, further comprising a reservoir having at least one structural member therein, and wherein one of the ends of said core tube is aligned with and connected to the suction pipe of the recirculation system and wherein the other of the ends of said core tube is connected to the at least one structural member within said reservoir. 26. The elongated suction strainer of claim 21, wherein a plate assembly of said plurality of plate assemblies comprises: 27. The elongated suction strainer of claim 20, wherein said internal core tube comprises a plurality of circumferentially spaced longitudinal ribs extending along the core wall for supporting said exterior filtering structure on said core tube. 28. An elongated suction strainer for connection to a suction pipe of a recirculation system having a reservoir defined by a reservoir wall, said strainer comprising: 29. The elongated suction strainer of claim 28 and wherein said T-connection further includes a plurality of apertures spaced along said core tube portion through which fluid is drawn. 30. The elongated suction strainer of claim 28 and wherein an end of a core tube opposite said T-connection is supported on said reservoir wall.