AU640210B2

AU640210B2 - A floor waste fitting support

Info

Publication number: AU640210B2
Application number: AU73633/91A
Authority: AU
Inventors: Robert James Woods
Original assignee: Individual
Current assignee: Individual
Priority date: 1990-03-21
Filing date: 1991-03-20
Publication date: 1993-08-19
Anticipated expiration: 2011-03-20
Also published as: AU7363391A

Description

r)'4 0 210 COMMONWEALTH OF AUSTRALIA PATENTS ACT 1952 COMPLETE SPECIFICATION

(ORIGINAL)

Class Int. Class Application Number: Lodged: *Comrypete Specification-Lodged: Accepted: Published: I; 4sr4o Relatdrt 0 Addres of Applicant: 0.

Address fof Applican: TO BE COMPLETED BY APPLICANT Robert James WOODS 28 Hawdon Close'q Camden, New south Wales 2570, Aust.

Robert James WOODS- HALLIDAYS', Patent Attorneys, of 44 Ashley Streetv Hornsby, 9,SV 2077, Australia *Complete Specification for the invention entitled: The following statement is a full description of this invention, including the best method of performning it known to me:- A FLOOR WASTE FITTING SUPPORT s020648 20/03/91 1 A FLOOR WASTE FITTING SUPPORT This invention relates to the drainage of waste water from the floor of a wet area, such as a shower recesses, and provides an improved support for the floor waste fitting.

Current building practice in the construction of bathroom and shower floors is to provide a flat wood, concrete, compressed asbestos sheet or fiber board floor and cover this flooring with ceramic tiles. Drainage of water from the surface is provided by having a floor waste fitting 10 in the floor and angling the upper surface of the cFramic tiles towards the waste fitting such that surface water flows to the waste fitting.

Ceramic tiles are laid on a relatively dry mortar mix which is inherently porous. This feature when associated with unavoidable cracking due to shrinkage when the mortar dries, means that the tiles and mortar do not present an impervious surface to any water which spills on the floor.

If water falling on the tiled surface passes through the mortar and is trapped between the tiles and the underlying 20 floor it cannot pass into the waste fitting, which has its entry point on the tile upper surface. In such cases the water will leach alkalis from the mortar to form a concentrated alkali solution which will attack the flooring underneath the tile mortar. Even if a water-resistant fiber board is used, laid on wood rafters, any water which leaks around the floor waste fitting hole in the fiber board will bypass the fiber board and attack the underlying rafters, 2 causing wet-rot. In the case of concrete floors, corrosion of the reinforcement is likely to occur.

Accordingly, it is a main aim of the invention to provide an arrangement in which seepage water trapped between the tile and the underlying structure can be directed to the drain associated with the floor waste fitting thereby substantially eliminating the incidence of water induced structural damage.

Broadly, the invention can be said to comprise a waste water fitting support to allow seepage water entering the fitting support externally of a waste water fitting to merge with i .l waste water passing through the waste water fitting, said fitting support comprises a body, a bore extending through the body with an inlet end and an outlet end for said bore and an imperforate body wall circumscribing said bore, a first bore portion adjacent said bore inlet end with a size substantially greater than the outside of a tubular shank of a waste water fitting to allow free linear entry of the tubular shank of the waste water fitting into said bore 20 first portion, a second bore portion adjacent said bore outlet end, a transition bore portion separating the bore first and second portions, positioning means to centrally locate a waste water fitting in said body bore, a bore size reducing shoulder in the transition bore portion adjacent 2a said second bore portion and facing said bore inlet end, abutment means adjacent said shoulder at an elevation above said reducing shoulder to axially locate a waste water fitting having an inlet end and a discharge end in the body bore with the discharge end of the waste water fitting spaced from said shoulder, and seepage water leakage paths through said abutment means.

Presently preferred embodiments of the invention will now be described with reference to the accompanying drawings in which: Fig.l shows an axial cross-section of a first 0i0 *wl *o~o 3 embodiment of the invention, Fig. 2 shows an axial cross-section of a second embodiment of the invention, Fig. 3 shows an axial cross-section of a fall and cap member for use with the invention, Fig. 4 shows an axial cross-section of an installation of the first embodiment of the invention with a fall and cap member, 0 S Fig. 5 shows an axial cross-section of an installation

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of the second embodiment of the invention with a fall and cap member, Fig. 6 shows an axial cross-section of the installation of Fig.4 for a 50mm drain pipe and modified to provide a fire rated collar as would be used in high rise buildings, Fig. 7 shows a view similar to Fig.6 but using a support of Fig.2 and coupled to an 80mm drain pipe, and, Fig.8 shows the arrangement of Fig.6 after the installation of a floor waste fitting in the support and the effect after tiling up to the top of the floor waste 20 fitting.

Os Referring to Fig. 1 there is shown a floor waste fitting support according to a first embodiment of the invention.

The support has a body I which is circular in cross-section but can be of other shapes. The body has an inlet end 2 and there is an outwardly directed continuous fl,ange 3 around that end. It is to be understood that the invention is not dependent upon the flange and it would be possible under some conditions to have a support without a flange or with a 4 minimal sized flange. There is a passageway through the body 1 extending between the inlet end 2 and the discharge end 4.

The bore of the body has several parts. Adjacent the inlet end 2 there is a large bore part 5 which is larger than the outside dimension of the floor waste fitting to be mounted in the support. In the downstream direction there is then a smaller diameter bore part 6 dimensioned to be a a close fit, it can be a sliding fit or a friction fit, with 10 the exterior of the body of the floor waste fitting to be supported. This is followed in the downstream direction by a still smaller bore part 7, which in the illustrated example is of a diameter to receive a plastic drain pipe 8 with a nominal 50mm internal diameter.

The bore 6 and stop means in the form of lugs 38, at the junction of the bores 6 and 7, provide a positioning means for the floor waste fitting to be supported. The positioning means centralizes the waste fitting when mounted and limits the maximum inwards travel of the body of the waste fitting into the bore 6. If the fit between the bore 6 and the waste fitting is a frictional fit the friction can be used to provide a holding force to maintain the waste fitting in an intermediate position and spaced from the lugs. This can be of advantage in some instances where the height of the floor tiling has to higher than the level determined when the support of the invention is installed.

The floor waste fitting can be readily positioned as 5 aforesaid at the required finishing height with the top of the fitting providing a tile height level indicator.

There are channels 9 in the walls of the bore 6 to allow water entering the bore 5 to pass through the bore 6, even though the body of the waste fitting therein may be tightly gripped by the bore 6, then through the gaps 10 between the lugs 38 to the bore 7, or when a pipe 8 is fitted into the pipe 8.

In the embodiment of Fig.2 there is again a body 1 with 1O an inlet end 2 and a flange 3. It has a discharge end 4 and *go a bore 5 larger than the body of the waste fitting to be 0 supported. There is a shoulder 11 at the transition point where the bores 5 and 12 meet, the latter being bored to receive a pipe of nominal 50mm internal diameter and having an outside diameter dimensioned to enter into the bore of a pipe with a nominal 80mm internal diameter, indicated 13.

The shoulder 11 is inclined inwardly towards the discharge end of the support body and there are a number of lugs 15 upstanding from the shoulder 11. The lugs 11 are 20 arranged so that the outer faces of the lugs lie on a pitch S" circle having a diameter substantially the same as the diameter of the bore at the discharge end of the waste fitting to be mounted in the support. In this way the waste fitting is positioned laterally relative to the support and the passageway therethrough. The lugs 15 have outwardly directed abutment faces 16 which act as stop means and stand above the face of the shoulder 11 and the discharge end of the waste fitting when supported by the lugs 15 is held by 6 *0 99 09 9 9. 9 9 9O 9 *9 99

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9 *0 *0 9 9** the abutment faces 16 above the surface of the shoulder 11.

In this way the lugs 15 and the abutment faces 16 provide positioning means including stop means for the waste fitting engagement with the support.

It follows that any water that enters the bore 5 will pass between the lugs 15 across the surface of the shoulder 11 and below the discharge end of the waste fitting held elevated by the abutment faces 16 and then first into the bore 12 and then the pipe 13.

Fig.3 is a sectional elevation of a fall and cap member 17 for placement before the pouring of a concrete floor.

By virtue of its construction the fall and cap member provides a guide for screeding freshly laid concrete to give and appropriate fall to the waste pipe and as the bore of the fall and cap member is initially blocked off cement cannot drop through the member 17 to lower floors or into pipework fitted thereto.

Specifically the fall and cap member comprises a tubular body 18 with a continuous outwardly directed flange 19 at one end, with the flange upper face angled to the axis of the bore 21 of the body 18. The upper face also includes a recess 20 dimensioned to receive the flange 3 of the support embodiments of Figs.l and 2. The upper end of the bore 21 is occluded by a cap 22 edge connected (as by a frangible connecting means) in the mouth of the bore 21 for removal subsequent to the laying of a concrete floor.

9 1 0e991 4 99.4

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9* 0 S...2 2 7 The bore 21 of the fall and cap member is adapted to receive and have secured therein (as by gluing) a waste pipe 23 of 100mm nominal inside diameter.

Referring to Fig.4, there is illustrated an installation in which the fall and cap member of Fig.3 is provided with a body extender sleeve 23 (a section of 100mm plastic pipe) to the free end of which there is affixed a short foot sleeve 24 with an outwardly extending fixing flange 25. In the formation of a concrete floor the fixing flange 25 would be 10 nailed or otherwise fixed to the concrete formwork and the height between the underface of the fixing flange and the top of the flange 19 would be the thickness of the concrete floor. In the screeding of the wet concrete the flange 19 serves as a screeding level and, as will be seen, the top surface of the concrete 37 is angled so that there is a fall towards the fall and cap member and any water on the surface of the concrete will flow to the cap and fall member.

After the concrete floor 37 is formed the cap 22 is removed leaving the bore of the extender sleeve 23 open. A 20 support of the Fig.1 type has been illustrated in Fig.4.

The flange 3 thereof is housed in the recess 20 and a sealant is used to seal the joint between the flange 3 and the recess 20. It will be noted that by appropriate dimensioning the outside diameter of the largest section of the body of the support, that is the portion around the bore is a close fit in the bore of the extender sleeve 23.

is a similar arrangement to Fig.4 showing a support as illustrated in Fig.2 installed.

Referring now to Figs.6,7 and 8 there is illustrated the arrangement of Figs.4 and 5 modified to suit high rise building fire safety requirements. Those requirements provide for sealing of openings in floors in the event of fire and to that end the extension sleeve 23 of Figs.4 and is modified. The modification includes having the body of the extension sleeve 23 in two pieces. Referrng to Figs.6 and 8 which show a 50mm drain pipe 8, the upper piece 27 of the sleeve 23 has a fall and cap member 17 fixed to it and S* 0 its lower end is housed in a connector 36 with an annular internal shoulder therein identified 39. The upper end of 6 *the extender sleeve piece 26 is also housed in the connector 36 as can be readily seen from the drawings. The sleeve pieces 26 and 27 are secured in the connector 36 as by gluing to provide the required spacing of the flanges 19 and 25. Complementing the fixing flange 25 there is an inwardly extending retainer flange 28. A sleeve of intumescent material 29 is positioned within the body extender sleeve piece 26 and it sits on the retainer flange *0* 20 28.

As will be seen from Figs.6 to 8 the sleeve 29 is a sliding fit over the drain pipe 8 and the configurations are varied to accommodate different sizes of the drain pipes 8.

In operation where fire occurs the heat from below will cause the intumescent material to rapidly expand, as a result of an inherent quality of that material, and tightly grip the exterior of the pipe and/or support member within 9 the sleeve 29 thereby closing off the gaps between the members.

Fig.7 is a view similar to Fig.6 for use with an drain pipe 13. In this arrangement the sleeve part 7 and the upper part of the connector co-operate as they did in the Fig.6 arangement. The upper part of the connector in Fig.8 comprises a collar 41 and an internal shoulder 42.

The lower part 40 of the connector has a larger diameter than the upper part 27 (unlike Fig.6 where they are the same 44 10 diameter) so as to accomodate the sleeve of intumescent 4o.* material 29 which needs to be of a larger diameter than that *t used in association with a 50mm drain pipe. The thickness of the sleeve 29 needs to be maintained substantially the same for different diameter drain pipes in order that the intumescent material will function under heat conditions as required.

Referring specifically to Fig.8. The floor waste 4 fitting 30 has been mounted in the support of Fig.l and by design the top of the fitting 30 is a specific height above 20 the flange 19. The height is a function of the surface 'I treatment for the concrete floor. In the case of tiles it is the thickness of the.tiles 32 and thickness of the bed 33 on which the tiles are mounted. In the Fig.8 arrangement the tile bedding mortar 33 has been laid and entered into the gap between the floor waste and the bore 5 of the support as indicated 34. In the event any water passes through the tile joints or around the tile-to-waste-fitting joint it will seep through the mortar indicated 34 and via 10 the channels 9 and gaps 10 between the lugs 38 to the pipe 8 as discussed previously. To facilitate the seepage of water in a controlled manner once it has penetrated the floor finish a leach mat of threads (indicated 35 in Fig.8) can be laid over the floor and the tile mortar would be laid thereon. The leach mat threads transfer water by capillary action.

It is to be understood that a leach mat can be used in the other installations for which the floor waste support of S* 10 this invention has been devised. For example, leach mats are desirable where the Figs.l and 2 embodiments are used with fiberboard and compressed fibro and like flooring materials.

The channels 9, lugs 8 and 15 illustrated and described t herein can be varied in numbers as required. Plastics o 0« material is the preferred material for the manufacture of the support 1 and the other components such as pipes 8 and 9 23 and the connector 36.

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Claims

2. A fitting support as claimed in claim 1 where said positioning means is a zone of said transition bore portion between said reducing shoulder and said first bore portion dimensioned to closely embrace a waste water fitting and the seepage water leakage paths of said abutment are connected to said first bore portion by grooves in the wall of said zone.
3. A fitting support as claimed in claim 1 where said positioning means comprises a plurality of lugs directed away from said reducing shoulder and towards said first bore portion for engagement by a discharge end of a waste water fitting. S 4. A fitting support as claimed in any one of claims 1 to 3 including an outwardly directed continuous flange around said inlet end of said bore.
5. A fitting support as claimed in claim 4 in combination with a fall and cap member having an elongated body, an axial opening through said elongated body with two ends, one end of said axial opening is dimensioned to receive said fitting support, a positioning flange extending outwardly S from said one end of said axial opening, an annular depression in said fall and cap member flange extending outwardly from said one end of said axial opening in which the fitting support flange is housed. -o- u 13
6. A fitting support as claimed in 4 in combination with a fall and cap member having an elongated body, an axial opening through said elongated body with two ends, one end of said axial opening is dimensioned to receive said fitting support, a positioning flange extending outwardly from said one end of said axial opening, an annular depression in said fall and cap member flange extending outwardly from said one end of said axial opening in which the fitting support flange is housed, and a fixing flange extending outwardly from the other end of the axial opening.
7. A fitting support as claimed in 4 in combination with a fall and cap member having an elongated body, an axial opening through said elongated body with two ends, one end S"of said axial opening is dimensioned to receive said fitting support, a positioning flange extending outwardly from said one end of said axial opening, an annular depression in said fall and cap member flange extending outwardly from said one end of said axial opening in which the fitting support flange is housed, and a flange extending both radially outwardly from and radially into said other end of said axial opening. o 8. A fitting support as claimed in 4 in combination with a fall and cap member having an elongated body, an axial opening through said elongated body with two ends, one end 14 of said axial opening is dimensioned to receive said fitting support, a positioning flange extending outwardly from said one end of said axial opening, an annular depression in said fall and cap member flange extending outwardly from said one end of said axial opening in which the fitting support flange is housed, and a flange extending both radially outwardly from and radially into said other end of said axial opening and an annular sleeve of intumescent material encircling said fitting support and supported by said flange which extends radially into said other end of said axial opening.
9. A floor waste fitting support as hereinbefore described with reference to any one of the Figs. 1,2, and 4 to 8. Dated this 20th day of May, 1993 ROBERT JAMES WOODS :BY his Patent Attorneys, LLIDAYS. De ft* f ft