Claims
- 1. A self-cleaning strainer adapted for connection to a suction pump and immersion in a body of debris-containing liquid to prevent debris in the liquid from being sucked along with the liquid into the pump, the strainer comprising:
a walled housing that encloses an interior space; a straining screen which is disposed in covering relation to an opening in the walled housing and through which the pump sucks liquid from the body of debris-containing liquid into the interior space; a spray mechanism that is disposed within the interior space and comprises a spray arm supported for rotation about an axis, the spray mechanism comprising an inlet via which fluid under pressure is introduced into the spray mechanism and conveyed through the spray arm to outlets spaced apart along the spray arm; wherein fluid introduced to the spray mechanism inlet under pressure is conveyed through the spray arm to cause the spray arm to rotate about the axis and to be emitted from the spray arm outlets against the screen as the spray arm rotates about the axis; and a walled suction tube having a portion of its length that contains at least one inlet to the suction tube disposed within the interior space so as to be immersed in liquid within the interior space and continuing from that portion through the walled housing to an outlet for communication to pump suction to provide for liquid to be sucked from the interior space through the suction tube; wherein the axis about which the spray arm rotates is transverse to the portion of the length of the suction tube disposed within the interior space.
- 2. A self-cleaning strainer as set forth in claim 1 which spray arm comprises a pipe and the outlets comprise nozzles attached to the pipe.
- 3. A self-cleaning strainer as set forth in claim 2 in which the nozzles are arranged both to cause the spray arm to rotate about the axis and fluid to be emitted toward the screen as the spray arm rotates about the axis.
- 4. A self-cleaning strainer as set forth in claim 1 in which the walled housing comprises a cylindrical side wall having one open end covered by the straining screen and an end wall that closes the opposite end of the side wall.
- 5. A self-cleaning strainer as set forth in claim 4 including supports spanning the one open end of the side wall and providing subjacent support to the straining screen.
- 6. A self-cleaning strainer as set forth in claim 5 in which the one open end of the side wall comprises a rim, and the supports comprise spaced-apart bars supported on the rim.
- 7. A self-cleaning strainer as set forth in claim 4 in which the cylindrical side wall comprises a polymeric tubular part, and the end wall comprises a flat polymeric part.
- 8. A self-cleaning strainer as set forth in claim 4 in which the spray mechanism is disposed centrally of the side wall and uprightly supported on the end wall to dispose the spray arm axis concentric with a central zone of the strainer screen.
- 9. A self-cleaning strainer as set forth in claim 4 in which the spray mechanism is supported on the end wall, and the portion of the suction tube length disposed within the interior space comprises an opening through which the spray mechanism extends uprightly from the end wall.
- 10. A self-cleaning strainer as set forth in claim 9 in which the opening in the suction tube through which the spray mechanism extends uprightly forms one of the at least one inlets to the suction tube.
- 11. A self-cleaning strainer as set forth in claim 9 in which the spray mechanism inlet comprises an inlet pipe, a portion of whose length extends through the interior of the suction tube and continues through the walled housing for connection to a source for providing the fluid under pressure.
- 12. A self-cleaning strainer as set forth in claim 1 in which the portion of the suction tube length that contains at least one inlet to the suction tube comprises multiple inlets spaced apart along the length of that portion.
- 13. A self-cleaning strainer adapted for connection to a suction pump and immersion in a body of debris-containing liquid to prevent debris in the liquid from being sucked along with the liquid into the pump, the strainer comprising:
a walled housing that encloses an interior space; a straining screen which is disposed in covering relation to an opening in the walled housing and through which the pump sucks liquid from the body of debris-containing liquid into the interior space; a spray mechanism, including a spray arm that is disposed within the interior space, into which fluid under pressure is introduced for conveyance through the spray arm to outlets spaced apart along the spray arm; wherein fluid introduced to the spray mechanism under pressure is conveyed through the spray arm to cause the spray arm to rotate about the axis and fluid to be emitted from the spray arm outlets toward the screen as the spray arm rotates about the axis; a walled suction tube having a portion of its length that contains at least one inlet to the suction tube disposed within the interior space so as to be immersed in liquid within the interior space and continuing from that portion through the walled housing to an outlet for communication to pump suction to provide for liquid to be sucked from the interior space through the suction tube; wherein the spray mechanism is supported on a wall of the housing opposite the straining screen, and a wall of the portion of the suction tube length disposed within the interior space comprises an opening through which the spray mechanism extends from the wall of the housing on which the spray mechanism is supported, and the spray arm is disposed beyond the opening in the suction tube wall relative to the wall of the housing on which the spray mechanism is supported.
- 14. A self-cleaning strainer as set forth in claim 13 in which the opening in the suction tube wall forms one of the at least one inlets to the suction tube.
- 15. A self-cleaning strainer as set forth in claim 13 in which the spray mechanism inlet comprises an inlet pipe, a portion of whose length extends through the interior of the suction tube and continues through the walled housing for connection to a source for providing the fluid under pressure.
- 16. A self-cleaning strainer as set forth in claim 13 in which the walled housing comprises a circular cylindrical side wall having one open end covered by the straining screen and an end wall that closes the opposite end of the side wall, and the portion of the length of the suction tube that is disposed within the interior space is disposed substantially on an inside diameter of the cylindrical side wall.
- 17. A self-cleaning strainer adapted for connection to a suction pump and immersion in a body of debris-containing liquid to prevent debris in the liquid from being sucked along with the liquid into the pump, the strainer comprising:
a walled housing that encloses an interior space and comprises a circular cylindrical polymeric side wall having one open end and a circular polymeric end wall that closes the opposite end of the side wall; a straining screen which is disposed in covering relation to the one open end of the side wall and through which the pump sucks liquid from the body of debris-containing liquid into the interior space; a spray pipe that is disposed within the interior space and comprises an inlet via which fluid under pressure is introduced into the spray pipe and outlets that spray the fluid against the screen; and a walled suction tube for communicating pump suction to the interior space to suck liquid from the interior space.
- 18. A self-cleaning strainer as set forth in claim 17 including handles on the exterior of the side wall that can be grasped to transport the strainer.
- 19. A self-cleaning strainer as set forth in claim 17 including supports spanning the one open end of the side wall and providing subjacent support to the straining screen.
- 20. A self-cleaning strainer as set forth in claim 19 in which the one open end of the side wall comprises a rim containing notches, and the supports comprise spaced-apart bars supported on the rim and located in the notches.
REFERENCE TO RELATED APPLICATION AND PRIORITY CLAIM
[0001] This application derives from the following commonly owned now abandoned patent application, the priority benefit of which is expressly claimed: Provisional Application Ser. No. 60/199,242, filed Apr. 24, 2000 in the names of Thomas R. Wilkins, Charles A. Wilkins, and James O. Stoneburner and entitled “Shallow Water Strainer”.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60199242 |
Apr 2000 |
US |