Modular riser base
A modular riser base suitable for use in a lift pump station, a sump pump station, a drainage holding unit and the like. The riser base can include a top side with a substantially flat surface for supporting a pump. The modular riser base includes a bottom side having reinforcing support structure for strengthening the riser base. The modular riser base further includes a raised perimeter edge extending from a top surface of the top side. The edge forms a connecting member for interconnecting with a mating edge of an associated riser component. The height of the riser base is preferably less than the diameter of an inlet pipe delivering effluent to the station.
Latest TUF-TITE, INC. Patents:
A modular base appropriate for use with a riser in an on-site waste system, such as for use as a sewage or effluent pump station.
BACKGROUND OF THE DISCLOSUREOn-site waste systems can include septic tanks that drain or leach sewage effluent into leach fields. Sometimes leach fields are positioned at a higher location than the septic tank and, therefore, the septic effluent needs to be pumped to the higher elevation. The septic effluent can be pumped to a distribution box then discharged by gravity feed to a leach field or the like.
Stackable risers for on-site waste and drainage systems are known. For example, U.S. Pat. Nos. 5,617,679 and 5,852,901 issued to Meyers, and assigned to the assignee of the present disclosure, disclose plastic stackable risers for providing a grade level access for underground components such as septic tanks, distribution boxes, and drop boxes. The '901 patent discloses a riser with a cylindrical side wall having a top free edge and a bottom edge. The top free edge defines a first end opening and the bottom edge is connected to a generally inverted U-shaped connecting member which defines a channel to receive the free edge portion of an adjacent stackable riser. Other known risers have different connecting edge construction designs. In use, a plurality of stackable risers, in the designs taught by the '901 patent, are interlocked together so that the side walls extend along a common vertical axis to the underground component and provide a generally gas tight column above the underground component.
An improvement to a lift pump station, in the form of converting a stackable riser structure into a lift pump station, is contemplated by the disclosure described in detail below.
SUMMARY OF THE DISCLOSUREThe present disclosure provides for a modular liquid pump station riser base, or a base for liquid storage structures such as sewage or effluent and the like. The riser base includes a top side having a substantially flat surface for supporting a pump. The modular riser base includes a bottom side having reinforcing support structure for strengthening the riser base. The modular riser base further includes a raised perimeter edge extending from the surface of the top side. The raised perimeter edge forms an edge for being received in a connecting edge member of a riser component, such as in a U-shaped edge or a tongue for a tongue and groove joint.
In another aspect of the disclosure, a modular liquid lift pump station is provided. The pump station includes a riser base having a top side, a bottom side, and a height defined by a distance between the top side and the bottom side that is less than the diameter of a pipe delivering effluent to the lift pump station. The modular lift pump station includes a pump positioned on the riser base for pumping effluent from the riser base to a predetermined height. At least one riser can be stacked on the riser base. The riser permits the effluent to discharge at the predetermined height through an outlet pipe extending through a side wall of the riser.
A method for pumping sewage or effluent with a lift pump station is also provided by the present disclosure. A riser base is provided that includes a height that is less than a diameter of an effluent inlet pipe. A pump is positioned on the riser base. At least one riser is stacked on the riser base to a predetermined height required to pump the sewage. At least one outlet pipe is positioned through a side wall of a riser corresponding to the predetermined height required to pump the sewage. The lift pump pumps the effluent from the lift pump station through at least one outlet pipe.
Other applications of the present invention will become apparent to those skilled in the art when the following description of the best mode contemplated for practicing the invention is read in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING
Referring now to
Each riser 16 preferably includes one or more cutouts or knockouts 18 operable for forming an aperture to permit an inlet pipe 70 or outlet pipe 74 to extend therethrough (see
Each riser 16 includes an outer perimeter edge 24 for engaging a groove 26 (best seen in
Referring now to
The riser base 12 has a small height dimension h so that an excavation hole of essentially any height in the ground can be fitted with the modular lift pump station 10. For example, in accordance with one aspect of the present disclosure, consisting of a riser base 12, only one riser 16, and an associated riser cover (not shown), the overall height for such a “one riser” lift station can be less than 12 inches. On the other hand, a plurality of risers 16 can be stacked as high as necessary to match the height requirements of the hole in the ground. Further, variably sized risers 16 can be utilized to ensure fit to a desired height of the lift pump station 10. Regardless of whether a single riser 16 or a plurality of risers 16 are used, a riser cover 49 (see
Referring now to
The riser base 12 includes a top side 60 with at least a portion having a substantially flat surface for supporting a pump 72 (see
The height h of the base 12, shown in
Referring now to
In operation, the modular lift pump station 10 includes the lift pump station base 12 positioned in a desired location below ground surface level. A pump 12 is positioned on the top surface 60 of the lift station base 12. At least one riser 16 is positioned on the riser base 12 such that the tongue and groove engagement 44 (or other interconnection) in combination with a suitable sealant, such as butyl mastic, (not shown) forms a generally fluid tight seal between the lift pump station base 12 and the riser 16. A cutout or knockout 18 is removed from the riser 16 so that the inlet pipe 70 can extend through the opening created thereby. The inlet pipe 70 permits fluid to enter the lift pump station 10. The secondary pipe extension 78 of the outlet pipe 74 extends to a desired height and out through another cutout or knockout 18 (either in the same riser or different, e.g. higher, riser 16). Effluent is then pumped from the pump station 10 through the outlet pipe 74 and to a secondary location and height, such as an associated elevated leach field.
Use of the riser base 12 is not limited to the application of a lift pump station. For instance, in a drainage system or irrigation system spanning two (or more) grade levels, such as on a hill, it is often desirable to store drainage or other liquids, at least on a temporary basis, at an intermediate elevation. The riser base 12 may advantageously be employed in combination with risers 16 in such circumstances as a temporary fluid collection chamber or to facilitate redirection of fluid. Fluid may flow into the chamber through an inlet pipe passing through a cutout or knockout 18 formed in a riser 16 at a first height, and may exit the chamber through an outlet pipe at a second, e.g. lower height, without the need for a mechanical pump.
In yet another embodiment, the riser base 12 can be used for a sump pump station. Sump pump stations are typically utilized in buildings that have a crawl space or a basement. If the ground water level becomes too high or the basement has water leaking in from the outside, a sump pump can be used to remove the water. A riser base 12 can be assembled with at least one riser to form a sump pump station. The sump pump station can hold drainage water until the water rises to a predetermined level. A float switch or the like can activate the pump housed within the sump pump station which causes the water to be mechanically pumped out of the sump pump station.
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under law.
Claims
1. A modular riser base comprising:
- a top side having an area with a substantially flat surface;
- a bottom side having reinforcing support structure for strengthening the top side of the riser base; and
- a raised perimeter edge extending from the surface of the top side, the raised perimeter edge forming a connection edge for interconnecting a riser component to the riser base.
2. The riser base of claim 1, wherein the edge is a tongue for a tongue and groove connection joint.
3. The riser base of claim 1, further comprising:
- an outer band encompassing the perimeter edge, the outer band held in fixed relationship to the edge with a plurality of spokes extending between the perimeter edge and the outer band.
4. The riser base of claim 1, wherein the support structure includes a plurality of ribs extending radially from the center of the riser base to the outer band.
5. The riser base of claim 4, wherein the support structure further includes at least one intermediate band positioned radially inward relative to the outer band, the at least one intermediate band constructed and arranged to connect the radial stiffening ribs together at an intermediate radial location.
6. The riser base of claim 1, wherein a height defined by the distance between the top of the raised edge and the bottom side of the riser base is less than a diameter of an inlet pipe delivering liquid to a pump station formed on the riser base.
7. The riser base of claim 1, wherein a height defined by the distance between the raised edge and the bottom side is less than approximately three inches.
8. The riser base of claim 1, wherein the riser base includes a member for permitting a threaded fastener to threadingly engage therewith.
9. The riser base of claim 8, wherein the member receives a self-tapping threaded fastener.
10. The riser base of claim 8, wherein the member includes at least two closely spaced spokes.
11. The riser base of claim 1, wherein the riser base is formed in a substantially circular shape.
12. The riser base of claim 1, wherein the riser base is formed from plastic material.
13. The riser base of claim 1, wherein the plastic material is injection molded.
14. A modular lift pump station comprising:
- a riser base having a top side, a bottom side, and a height defined by a distance between the top side and the bottom side, the height being less than a diameter of a pipe delivering liquid to the lift pump station;
- a pump positioned on the riser base for pumping liquid from the riser base to a lift height; and
- at least one riser stacked on the riser base, the riser permitting the liquid to discharge at the lift height through an outlet pipe extending through a sidewall of the riser.
15. The modular lift pump station of claim 14 wherein the riser base further comprises:
- a top side having a surface for supporting the pump,
- a bottom side having reinforcing support structure for strengthening the riser base; and
- a raised perimeter edge extending from the surface of the top side forming a connecting edge member for connecting to a riser.
16. The modular lift pump station of claim 15, wherein the connecting edge member is one of a tongue and a substantially U-shaped cross-section groove for a tongue and groove connection joint.
17. The modular station of claim 15, wherein the top side includes a substantially flat surface.
18. The modular station of claim 14, further comprising:
- a cover to close off the modular lift pump station.
19. The modular station of claim 15, wherein the riser base includes:
- an outer band encompassing the perimeter edge and a plurality of spokes extending between the perimeter edge and the outer band.
20. The modular station of claim 19, wherein the support structure includes a plurality of ribs extending radially from the center of the riser base to the outer band.
21. The modular station of claim 19, wherein the support structure further includes at least one intermediate band positioned radially inward relative to the outer band, the at least one intermediate band adapted to connect the radial stiffening ribs together at an intermediate radial location.
22. The modular station of claim 14, wherein the height of the riser base is less than approximately three inches.
23. The modular station of claim 14, wherein the riser base includes a member for permitting a threaded fastener to threadingly engage therewith.
24. The modular station of claim 23, wherein the member is engageable with a self-tapping threaded fastener.
25. The modular station of claim 14, wherein the riser base is formed in a substantially circular shape.
26. The modular station of claim 14, wherein the riser base includes a connecting edge for connecting with an adjacent riser.
27. The modular station of claim 14, wherein a first riser is configured to stack on top of the riser base, the riser having a groove formed in the bottom side thereof for receiving the raised perimeter edge of the riser base therein, wherein the edge and groove form a locking tongue and groove engagement between the riser base and the riser.
28. The modular station of claim 14, wherein each riser includes a raised perimeter edge formed on a top side and a mating groove formed in a bottom side for permitting a plurality of risers to stackingly engage one another with a tongue and groove arrangement.
29. The modular station of claim 14, wherein each riser further includes at least one cut-out section forming a through aperture for permitting an inlet or outlet pipe to extend therethrough.
30. The modular station of claim 14, wherein the riser base is formed in a substantially circular shape.
31. The modular station of claim 14, wherein each riser includes a plurality of stiffening ribs on at least one of an inner surface and an outer surface.
32. The modular station of claim 14, wherein the riser base forms a base for a sump pump station.
33. The modular station of claim 14, including a cover sealingly engaged with a riser.
34. A method for pumping effluent with a lift pump station comprising:
- providing a riser base having a height less than a diameter of an inlet pipe;
- positioning a pump on the riser base;
- stacking at least one riser on the riser base to a lift height required to pump effluent to a desired elevated location;
- positioning at least one outlet pipe through a side wall of a riser corresponding to the lift height required to pump effluent; and
- pumping effluent from the lift pump station through the at least one outlet pipe;
35. The method of claim 34, further comprising:
- sealing a connection between the riser base and the riser.
36. The method of claim 34, further comprising:
- fitting a cover over an uppermost riser to close off the lift station.
37. A method for converting a riser to a lift station, comprising:
- providing a riser base having a height less than a diameter of an inlet pipe;
- positioning a pump on the riser base;
- stacking at least one riser on the riser base to a lift height required to pump effluent to a required elevated location;
- sealing a connection between the riser and the riser base; and
- positioning at least one outlet pipe through a side wall of a riser corresponding to the predetermined lift height required to pump effluent.
38. The method of claim 37, further comprising:
- sealing a connection between the riser base, the first riser, and each subsequent riser with a sealing member.
39. The method of claim 38, wherein the sealing member is a mastic sealant or a preformed gasket.
40. The method of claim 37, further comprising:
- fitting a cover over an uppermost riser to close off the lift station.
41. A drainage holding unit, comprising:
- a riser base having a top side, a bottom side, and a height defined by a distance between the top side and the bottom side, the height being less than a diameter of a pipe delivering fluid to the holding unit;
- at least one riser stacked on the riser base to hold the fluid;
- an inlet pipe connected to the riser for delivering fluid from a relatively higher location; and
- an outlet pipe connected to the riser for discharging the fluid to a relatively lower location.
42. The holding unit of claim 37, wherein the outlet pipe is located below the inlet pipe and fluid is discharged from the holding unit without using a pump.
43. A drainage holding unit, comprising:
- a riser base having a top side, a bottom side, and a height defined by a distance between the top side and the bottom side, the height being less than a diameter of a pipe delivering fluid to the holding unit;
- at least one riser stacked on the riser base to hold the fluid;
- an inlet pipe connected to the riser for delivering fluid from a relatively lower location; and
- an outlet pipe connected to a pump for discharging the fluid to a relatively higher location.
44. A modular lift pump station comprising:
- a riser base having a top surface,
- a pump positioned on the top surface for pumping liquid from the riser base to a lift height; and
- at least one riser stacked on the riser base, the riser permitting the liquid to discharge at the lift height through an outlet pipe extending through a sidewall of the riser, and the distance between a bottom edge of the riser and the top surface of the riser base ranges between substantially flush to approximately a diameter of an inlet pipe delivering liquid to the lift pump station.
45. The modular lift pump station of claim 44, wherein the riser base further comprises:
- a top side having a substantially flat surface along at least a portion thereof for supporting the pump,
- a bottom side having reinforcing support structure for strengthening the riser base; and
- a raised perimeter edge extending from the surface of the top side forming a connecting edge member for connecting to a riser.
46. The modular lift pump station of claim 44, wherein the connecting edge member is one of a tongue and a substantially U-shaped cross-section groove for a tongue and groove connection joint.
47. The modular station of claim 44, further comprising:
- a cover to close off the modular lift pump station.
Type: Application
Filed: Aug 30, 2004
Publication Date: Mar 2, 2006
Applicant: TUF-TITE, INC. (Lake Zurich, IL)
Inventor: Theodore Meyers (Barrington, IL)
Application Number: 10/929,308
International Classification: E02D 29/14 (20060101);