The drawings constitute a part of this specification and include exemplary embodiments to the invention, which may be embodied in various forms. It is to be understood that the invention is not presented to scale and in some instances various aspects of the invention may be shown exaggerated or enlarged to facilitate an understanding of the invention. For a more comprehensive understanding of the invention, reference should be made to the accompanying illustrations as follows:
a shows the assembly of
b shows an alternative embodiment of the internal filter element as it would appear when removed from a drain trap assembly;
The following is a listing of parts as identified by reference characters found in the drawing figures:
(2) inlet for wastewater from sink;
(4) upper surface of drain trap assembly;
(6) bottom surface of the drain trap assembly;
(7) lateral surface(s) of the drain trap assembly;
(8) accumulation chamber for sediment and solid matter;
(12) gasket (for leakage control);
(14) cup or plug;
(14a) cup axis,
(16) strainer leg;
(18) filter/strainer;
(18p) strainer plate
(19) strainer passages;
(20) outlet for wastewater to sewer line;
(22) inspection/clean-out service opening;
(24) upper extent of the strainer;
(26) sediment/solid matter/hair and the like;
(28) wastewater flow direction;
(38) fiber filter/strainer
(38b) unitary fiber support base
(38f) fiber
The drain trap assembly of the present invention is illustrated in
a shows a sectional view of the drain trap of
Further illustrated is a collection area or zone for sediment 26 interrupting lower surface 6 to form a lower sediment accumulation area 8. Closing the sediment accumulation area 8 is a threaded cup closure 14 configured to engage complementary threaded service opening 22. Within cup closure 14 is a leakage-preventing gasket 12, and filter strainer 18 as will now be described. It should be understood that while connections are noted as threaded, other equivalent interconnections could suffice, as well.
The internal surface of cup closure 14 supports a generally upwardly extending filter strainer 18 mounted on a strainer leg 16. Strainer 18 extends along a generally vertical cup closure axis 14a directly across the wastewater flow pathway 28. The filter strainer 18 and strainer leg 16 are attached to, or integral with, cup closure 14. This enables the strainer 18 to be inserted automatically into the wastewater pathway as the closure 14 is threaded or otherwise fastened onto a lowermost surface of drain trap assembly 10 thereby closing service opening 22. Wastewater from the sink or tub flowing into inlet 2 travels downwardly, guided by lower and side surfaces 6 and 7 of assembly 10 where the wastewater impinges against strainer 18.
When cup closure 14 is detached (as, for example, by unscrewing a threaded connection with bottom surface 6), the filter strainer 18 will be withdrawn generally downwardly along with cup closure 14. In this way, sediment 26 including dirt particles, strands or clots of hair and other material entrapped by filter strainer 18 may be removed, and recaptured valuables and other items accidentally included in the wastewater may be recovered.
In a first strainer embodiment a strainer/barrier 18 is fabricated separately or in union with a strainer stand or leg 16 which itself is secured, bonded or integral with closure 14 and/or gasket 12 within cup closure 14. Strainer 18 may be configured to include multiple plate portions, for example at least two strainer plate surfaces 18p laterally extending from a central axis 14a. Shown in side elevation
The strainer 18, when fully inserted into drain trap 10, extends across the wastewater pathway 28, in such a way as to be directly impinged by the wastewater flow 28. Strainer 18 further includes a number of through-holes or passages 19 of predetermined size permitting wastewater flow, while blocking waste elements of a size greater than said predetermined size of passages 19. Since wastewater flowing along the conduit interior lower and side surfaces generally includes a majority of sediment content, the strainer may be modified as shown so as to permit some overflow. Accordingly, strainer 18 may be chamfered or otherwise foreshortened at its upper extremity or top 24 to permit wastewater that is less sediment-laden to flow freely.
When in position within the assembly 10, the chamfered top 24 will thus be spaced slightly below upper surface 4, thus permitting a portion wastewater flow to pass unrestrained above strainer 18. It will be appreciated that strainer 18 extends below the level of surface 6 of the drain trap 10 so as to more fully restrict direct flow of wastewater which is most likely to carry sediment and other solids. Sediment 26, after being conveyed against strainer plate surfaces 18p and rejected by through-holes 19, falls or sinks downwardly into storage area 8 where it accumulates until subsequent removal through service opening 22.
Cup 14 is fitted with a leak control gasket 12 to serve as a cover to the inspection/service opening 22 as well as a bottom for the accumulation chamber 8. Importantly, when sediment accumulation becomes significant, wastewater flow 28 above strainer top 24 will be relatively slow, resulting in a slowed drainage from the sink or tub. This will serve as notice to the consumer/user that clean-out of the accumulated sediment is due.
Clearing of the sediment is achieved manually by unscrewing (or otherwise removing) cup 14 with its attached or integral strainer 18 to reveal the service opening. Contents may be emptied into a bucket or other container and subsequently disposed. Once cleaned out, the service opening can be closed and the strainer repositioned by simply replacing the cup 14.
In a second embodiment of the present invention, as illustrated in
The fibers 38f are substantially rigid in their individual structures and extend almost to the conduit interior upper surface 4 to engage wastewater flow 28 through assembly 10 from inlet 2 to outlet 20. However, a relatively small flow space remains thereabove for unimpeded flow of less sediment-laden portion of wastewater over the filter and along the upper drain wall surface 4. These fibers 38f are configured to strain or separate out the sediment 26 and other solids deposited therebelow into a collection chamber 8 as the wastewater flows toward outlet 20 and subsequently toward the sewer (not shown). Cup 14, of course, is removable along with the strainer as described hereabove so as to facilitate cleaning out the chamber 8.
Finally, it should be evident that the inventive device disclosed herein may be fabricated or formed in a variety of ways and from a variety of materials. It may be machined, molded or otherwise formed from plastic (e.g., PVC) or metal, or be manufactured from a combination of materials and processes. The choice of materials and construction are clearly within the scope of the appended claims.
From the present disclosure, it will be seen that this invention in its various embodiments provides a useful assembly that will serve to separate sediment from wastewater flowing out of a sink or similar outlet, to prevent clogging and/or loss of valuables caught up in the wastewater. This device offers a new and unique assembly, one that is simple to manufacture and easily serviced by the untrained consumer.
Upon carefully reviewing the foregoing specification along with the accompanying drawings it will be evident that this invention is susceptible of modifications, combinations, and alterations in a number of ways which may differ from those set forth. Accordingly, the following claims are intended to cover all such modifications which do not depart from the spirit and scope of the invention.
The present application is entitled to the benefit of provisional patent application Ser. No. 60/841,910, filed Sep. 1, 2006 and incorporated in its entirety by reference herein; such benefit is hereby claimed under 35 USC 119(e).
Number | Date | Country | |
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60841910 | Sep 2006 | US |