Patent Number: 059582340
Section: claims

1. A suction strainer for removing solids from a flow of liquid being drawn toward the suction line of a pump, the suction strainer comprising: an internal core including an upstream end and a downstream end, said core further including a core wall defining  an exterior screening structure that is received over said core so as to be structurally supported by said core and which includes a plurality of disks spaced sequentially along said core,  wherein each disk of said plurality of disks includes a pair of disk walls,  wherein each wall of each said pair of disk walls is supported by said core, and extends radially from said core to define a peripheral edge displaced from and surrounding said core, wherein said disk walls of each said pair of disk walls are longitudinally displaced from one another so as to define a disk chamber therebetween, and  wherein each wall of each said pair of disk walls defines a first plurality of disk apertures therethrough that are open to said disk chamber, and  wherein each disk of said plurality of disks further includes an outer wall connected to and spanning between said peripheral edges of each said pair of disk walls, and defining a second plurality of disk apertures therethrough that are open to said disk chamber, and  wherein adjacent disks of said plurality of disks are longitudinally displaced along said core such that a separation distance is defined between adjacent disks of said plurality of disks.  a core tube including at least one open end and a core wall having a plurality of spaced flow openings formed therein, said core tube defining a core chamber;  an exterior screening structure defining a plurality of spaced perforations opening to said core chamber, said exterior screening structure extending at least partially about the core wall of said core tube and structurally supported on said core tube; and  a plurality of spaced structural members angularly displaced along the core wall of said core tube and extending radially therefrom, said structural members being constructed and arranged to support said exterior screening structure on said core tube.  an elongated core tube having a plurality of spaced flow openings passing therethrough and defining a core chamber therein, said core tube having at least one open end; and  an exterior screening structure positioned along and structurally supported by said core tube, said exterior screening structure including a plurality of perforated plate assemblies defining a screening chamber between said plurality of plate assemblies and said core tube, and a plurality of spaced structural members extending radially from and angularly displaced along a core wall of said core tube, said structural members disposed between said core tube and said plate assemblies and being constructed and arranged to structurally support said plate assemblies on said core tube. 2. The suction strainer of claim 1, wherein said exterior structure further includes a plurality of inner walls encircling said core and spanning between adjacent disks of said plurality of disks. 3. The suction strainer of claim 1, wherein the suction strainer further comprises a flange connected to said downstream end of said core and encircling said primary opening. 4. The suction strainer of claim 1, wherein disks of said plurality of disks further include a plurality of structural members, wherein said structural members are angularly displaced about said core and extend radially between said core wall and said outer wall. 5. The suction strainer of claim 4, wherein said structural members extend between said a pair of disk walls. 6. A suction strainer for connection to a suction pipe of a pump, said suction strainer comprising: 7. The suction strainer as claimed in claim 6 wherein said core tube further defines a longitudinal axis passing centrally through said core chamber, and wherein said exterior screening structure comprises a plurality of straining assemblies, each straining assembly including a straining surface defining a surface contour having radial direction components relative to said longitudinal axis and axial direction components relative to said longitudinal axis. 8. The sunction strainer as claimed in claim 7 wherein said plurality of straining assemblies comprises of plurality of spaced plate assemblies. 9. The sunction strainer as claimed in claim 8 wherein said plurality of straining assemblies each further include at least one inner wall spaced from and extending at least partially about the core wall of said core tube. 10. The sunction strainer as claimed in claim 9 wherein said at least one inner wall extends between and is connected to each plate assembly of said plurality of spaced plate assemblies to define a trough therebetween. 11. The suction strainer as claimed in claim 6 wherein said straining surface of each said straining assembly includes two radial surface segments extending radially relative to the longitudinal axis and having generally no axial direction component, and an axial surface component joining said two radial surface segments and having generally no radial direction component. 12. A suction strainer for connection to a suction pipe of a pump to remove solids from liquid drawn through said suction strainer by the pump, said suction strainer comprising: