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Publication numberUS2449731 A
Publication typeGrant
Publication dateSep 21, 1948
Filing dateMar 29, 1946
Priority dateMar 29, 1946
Publication numberUS 2449731 A, US 2449731A, US-A-2449731, US2449731 A, US2449731A
InventorsTherrien Robert F
Original AssigneeTherrien Robert F
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Growth poisoning sewer joint
US 2449731 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

' S j R. F. THERRIEN 2,449,731

' GROWTH IOISOHING SEWER JOINT Filed March '29, 1946 Patented Sept. 21, 1948 UNITED STATES PATENT orrlcsv Robert F. Therrien, Toledo, Ohio Application March29, 1946, Serial No. 658,365

, 2 Claims. 1

This invention relates to promoting permanency in initial upkeep conditions of drains, sewers and the like, more particularly as against growth attack.

This invention has utility when incorporated in duct, sewer pipe, ortile aligned joint connections, wherein there is metallic copper interior exposure, responding in moisture attack with copper salt corrosion reaction in any tendency for out seepage to tend to inhibit growth attack by permeating the cement packing for the joint. Joint attacking growths, such as roots, do not approach the duct in the region of this protective root-poisoning impregnated joint. Accordinglygany minute initial crevice therein, is not pried open by a root growth, to fracture the cement and thereby establish entrance of the root to clog the drain.

Referring to the drawings:

Fig. 1 is aside elevation, partially in section, of a bell joint type of sewer or hard tile joint,

having an embodiment of the invention incorporated therewith;

Fig. 2 is a side elevation of a soft tile joint, with parts broken away, showing how an embodiment of the invention is adapted to this drainduct, and

Fig. 3 is a sewer branch duct seal embodiment.

Glazed or vitrified finish, so-called hard tile, more particularly as municipally approved for sewer and. drain use, may comprise tubular sections l with a straight end 2 of one thereof nesting into a bell end 3 of the adjacent section I. There is some looseness of fit between the straight end 2 and the interior of the bell 3, even for the common internal diameter tile. The

, result is that accuracy in alignment between the sections is difiicult. The internal offset resulting from the out-of-a-lignment provides a ledge or obstruction to promote sewer clogging and weaken the joint.

In an embodiment of practice under the inventionherein disclosed, a material step forward is taken to avoid the outofalignment bugaboo in sewer laying practice. To this end a thin metallic copper sleeve or ring 4, of relatively soft characteristic, is slipped over the tile end 2 with an outwardly extending integral flange 5 from the sleeve portion 4. This interfitting of the sleeve 4 on the duct l is not so snug as to require strain or rupture of the sleeve 4. However, it is desirable that the sleeve ride to its position nicely. As entering the bell 3 of the next section I, there may be a slight inward crowding tendency radially of the flange 5.

However, here too there should be sufficient give in the flange 5 radially not to buckle, but to enhence the snug fitting between the end 2and the sleeve 4.

From the foregoing, it is to be noted that there may be some looseness of fitting between the bell 3 and the end 2 for the flanged sheet copper sleeve ring 4, 5. The flange 5 insures alignment initial establishment between thesections I at the joint 2, 3, therebetween. From this it follows there is sewer duct interior smoothness continuity therepast.

To supplement the holding assembly of the joint, a cement packing to overflow the bell end is adopted. An eflic-ient mixture of hold-up value in practice comprises three parts of Fortland cement to one of sand, well mixed and packed into the clearance about the section I into the bell 3 for concealing and lodging fully over the copper ring 4, 5. The wet mix adopted is not so thin as to run 'thru past the copper ring 4, 5. Upon setting, a hard cement filler 6 completes the joint for permanency maintenance.

Initially, the exposed portion of the cement 6 has the normal gray color of the cement and sand of its ingredients. Notwithstanding the glazed finish on the sewer duct tiles of the end 2 and the bell 3, the cement has a clinging 'or bonding adherence or integral characteristic in the assembly. l

Almost universally, sewer tile are embedded in soil, and therefrom there should be minimum of weathering attack, especially from expansion and contraction due to temperature changes. So much for the exterior factors to be met. The purpose of the sewer being a drain, it provides a Way or take-ofl for widely different characters of fluids or flowing materials, and at out-ofseason temperature extremes, even to ice, steam, and chemical attacking agents of acid, alkali and solvent traits. The vitrified lining of the duct is normally resistant. There is no obtrusion into the duct Way as aligned with the joint herein disclosed. Due to the fact of sewers being largely carriers of moisture, any joint seepages attract moisture-seeking root approach, with even sewer entrance in their moisture-pick-up greed.

The metallic copper herein is of such light gage that there is no physical strain given the joint when there be temperature extreme exposures. In providing the dam or protective diaphragm between the cement and the sewer flow stream, there may be chemical attack on the copper, which is outward as to capillarity or more open seepage. Accordingly, as there be developed any pores or voids in the cement of the joint, this cement 6 is automatically and at once impregnated with an inhibitor as to root growths. Upon accumulation of the attacks over a considerable period, slight to more or less, and sometimes localized, stains may develop in the eX- posed portion of the cement 6 of the joint. This is evidenced by a greenish tingeas of *verdigris. The physical strength of the joint 6 is-not impaired. Roots do not approach to wedge or open what may be initially minute capillary ducts. The green does not superficially appear as a crumbly mass of salt crystals. Otherwise than the slight color change, the joint retains the appearance as when placed.

In some localities, there is the practice oi-placing unglazed straight or unbelled, so-called sott tile 1 about foundation walls, while the large use of this tile is forfield drainage. Whetherat .a foundation, or even in fieldidrainage. Where there isvicinity where tile conducted moisture may en tice root growth to enter and so clog that drain purposeis .entirely defeated, the foresighted individual may with advantage adopt root inhibitortactics under the inventionherein. As with theglazed sewer tile, alignment maybe promoted between the sections '1 of the soft .tile by a sleeve 8 .of thin sheet copper. Preferably, this sleeve 8,.intermediate its length .has an inward fiange'il as a spacer between ends Ill of the tile 1. This ineflange .9, .is of less extent than the thickness of thetile I, so that as the tile ends H3 abut, there isnoprotusion of the flange 9 inward therebeyond. With the flange 9 medially of the length of the sleeve 8, the projecting portions of the sleeve 8 each way therefrom over the outer side of the adjacent tile ends 'IEl, insures internal alignment of the tile with a resulting smooth initerior way at .the joint. Enveloping the sleeve 8 asaseal, there may be a cementmix envelope! I, say of three parts Portland cement and one part sand. The sleeve 8 is preferably not .so loose that the mix of the cement l I may flow pastthe sleeve into the-tile interior.

The tile 1 in serving its purpose to carry off moisture, may .have the moisture directly con- .tact the copper flange 9. Any disintegration thereof, toward outward seepage, thus poison- 4 charges moisture escape. Any root growths in the vicinity adopt fleeing direction, thereby a1- lowing the joint to retain its form against such wedging and clogging attacks.

Main sewer Y-branches 12, may have copper disk l3 fitted in the bell M to be so held by clay or cement packing or filter l5, with a central handle outward. The metallic copper here as- :suressfrom root disturbance. iF'OFthe seal protection against growth, the metal14,?5; '8, 9.; l3, in its corrosion, whether copper, zinc, or alloy, even including arsenic and or antimony, is to have poison difiusion property.

What'is claimed and it is desired to secure by Letters Patent is:

1. A duct drain section bell end providing an "opening, a complementary drain section having an end thereof in the bell, an endless copper ring having a cylindrical sleeve portion extending from a radial .flange, said ring in its endless extent having snug bearing with one of the sections at the sleeve portion and snug bearing contact with the other section at said flange thereby-to form a tight seal between thesections, and a sealing-.cement of greater radial thickness than the ring flange, said cement extending into the bellcovering the ring and providing ring-concealing reinforcement.

2. A pair of duct s-ections,,a copper sleeve extending from a radial .flange, said sleeve having snug endless bearing engagement forminga'tighlt seal between the sectionssaid sleevehaving endless seat portions engaging the respective sections to hold the sections in alignment, and a sleeve enveloping reinforcement cement seal bonding the sections together in addition to the sleeve.


REFERENCES CITED UNITED STATES PATENTS Number Name Date 1,968,734 Best July .31, .1934 2,130,039 .Shkolnick Sept. :13, 1:938 2,206,405 :King July 2, :1-940 Jewell .QOct. 16, .1945

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1968734 *Jun 11, 1934Jul 31, 1934J A S EhartSewer pipe construction
US2130039 *Apr 12, 1938Sep 13, 1938Shkolnick Joseph WSealing device for pipe joints
US2206405 *May 1, 1939Jul 2, 1940Ian Waveney GirvanDevice for use in making pipe joints
US2386865 *Dec 20, 1943Oct 16, 1945Jewell Howard WPipe joint and device therefor
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2613088 *Aug 15, 1946Oct 7, 1952William F BarrettPipe joint
US3099519 *May 20, 1960Jul 30, 1963Separator AbMethod and apparatus for sterilizing heat exchangers
US3122888 *Oct 24, 1960Mar 3, 1964Boening Ind IncCover for drain tile joints
US3160425 *Dec 22, 1960Dec 8, 1964Sinnott Victor BAnti-root sewer pipe liner
US3219368 *May 29, 1962Nov 23, 1965Crumpler Houston LDrainage line improvements
US3398830 *Dec 6, 1965Aug 27, 1968Holger W. HornquistDrain guard
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US3467142 *Aug 8, 1967Sep 16, 1969Du PontFlow device and method of manufacture thereof
US3485449 *Oct 9, 1967Dec 23, 1969Wilson Jesse LGrass edging and watering device
US3643450 *Sep 25, 1969Feb 22, 1972Phillips Petroleum CoProtecting a buried material such as a cable with water-soluble rodent-repellent compositions
US4037791 *Oct 17, 1975Jul 26, 1977Leslie Fred MullettFlow-control device
US4988236 *May 15, 1990Jan 29, 1991Reef Industries, Inc.Polymeric tape with biocide
US5178495 *Nov 13, 1990Jan 12, 1993Reef Industries, Inc.Polymeric film with biocide
US5525178 *Feb 28, 1995Jun 11, 1996Roggenbuck; CarlProcess for binding drain tile
US6454998 *Jul 30, 1999Sep 24, 2002Hospal IndustrieBlood circulation apparatus coupling device which improves biocompatibility of inner surfaces with treated blood
US7134808 *Oct 8, 2004Nov 14, 2006Aco Polymer Products, Inc.Drain sealing
US7648085Feb 22, 2006Jan 19, 2010Rain Bird CorporationDrip emitter
US8302887Mar 31, 2006Nov 6, 2012Rain Bird CorporationDrip emitter
US8628032Dec 31, 2008Jan 14, 2014Rain Bird CorporationLow flow irrigation emitter
US9485923Mar 26, 2012Nov 8, 2016Rain Bird CorporationElastomeric emitter and methods relating to same
US20050074294 *Oct 8, 2004Apr 7, 2005Albone David CharlesDrain sealing
US20060034667 *May 28, 2004Feb 16, 2006Aco Polymer Products, Inc.Drain sealing
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U.S. Classification285/287.1, 285/423, 405/43
International ClassificationF16L13/11, F16L13/00
Cooperative ClassificationF16L13/11
European ClassificationF16L13/11