U.S. patent application number 10/370747 was filed with the patent office on 2004-08-26 for flexible sleeve for connection to a plumbing fixture.
This patent application is currently assigned to CoFlex S.A. de C.V.. Invention is credited to Coronado, Eduardo, Ortiz, Evodio, Sada, Jorge, Trujillo, Amado.
Application Number | 20040163165 10/370747 |
Document ID | / |
Family ID | 32868214 |
Filed Date | 2004-08-26 |
United States Patent
Application |
20040163165 |
Kind Code |
A1 |
Ortiz, Evodio ; et
al. |
August 26, 2004 |
Flexible sleeve for connection to a plumbing fixture
Abstract
Disclosed herein is an improved water closet flange for
connection to a plumbing fixture. The improved flange comprises an
anchoring element or outer flange, connected to a flexible conduit
tube or flexible sleeve, in which is attached an O-ring type of
gasket. The improved flange connects a toilet bowl outlet to a
waste drainpipe outlet without any flow reduction in between both
connecting elements. The improved flange allows the connection
between a toilet bowl discharge and a well placed vertical waste
drainpipe. The improved flange also allows the connection between a
toilet bowl discharge and a waste drainpipe outlet that is offset,
horizontally oriented, or diagonally placed. The improved flange
may further comprise an O-ring type of gasket disposed on the
exterior of the flexible sleeve to provide a tight seal between the
outer surface of the flexible sleeve and the inner surface of a
waste drainpipe. The flexible sleeve can be implemented in a
variety of sizes or diameters, including, for example, 3 inch (7.5
cm) and 4 inch (10 cm) diameters. An alternative embodiment of the
flexible sleeve can fit either 3 inch or 4 inch drainpipes with the
help of an appropriate O-ring seal of the appropriate
dimensions.
Inventors: |
Ortiz, Evodio; (Santa
Catarina, MX) ; Sada, Jorge; (San Pedro Garza Garcia,
MX) ; Trujillo, Amado; (Monterrey, MX) ;
Coronado, Eduardo; (San Pedro Garza Garcia, MX) |
Correspondence
Address: |
BAKER & MCKENZIE
PATENT DEPARTMENT
2001 ROSS AVENUE
SUITE 2300
DALLAS
TX
75201
US
|
Assignee: |
CoFlex S.A. de C.V.
|
Family ID: |
32868214 |
Appl. No.: |
10/370747 |
Filed: |
February 20, 2003 |
Current U.S.
Class: |
4/252.5 |
Current CPC
Class: |
F16L 47/265 20130101;
E03D 11/16 20130101; F16L 47/26 20130101 |
Class at
Publication: |
004/252.5 |
International
Class: |
E03D 011/17 |
Claims
We claim:
1. An improved flange operable to connect a plumbing fixture
discharge to a waste drain pipe outlet, the improved flange
comprising: an outer flange operable to anchor the plumbing fixture
to a surface; a flexible sleeve operable to provide a conduit for
fluids from the plumbing fixture discharge to a waste drain pipe
outlet; a sealing member disposed on the outer surface of the
flexible sleeve, wherein the sealing member is operable to form a
seal between the flexible sleeve and an inner surface of the waste
drain pipe.
2. An improved flange according to claim 1, wherein the flexible
sleeve comprises a flexible body having an upper portion having an
inner sealing surface in which the plumbing fixture discharge can
be seated creating hermetic seal, and having an attaching lip which
is adapted to fit into the radial groove of the outer flange and
firmly hook the flexible sleeve onto the outer flange; and having a
flexible conduit portion adapted to fit inside a waste drain pipe
and providing flexibility between the connection of the flexible
sleeve to the waste drain pipe.
3. An improved flange according to claim 1, wherein the sealing
member provides a hermetic seal between the outer surface of the
flexible sleeve and the inner surface of the waste drain pipe.
4. An improved flange according to claim 1, wherein the outer
flange comprises a annular plate body having: an inner diameter; an
outer diameter; an upper surface having a radial groove disposed
between the inner diameter and the outer diameter, wherein the
radial grove is operable to retain and attach the upper portion of
the flexible sleeve; a lower surface operable to be placed in
contact with the surface; at least two first apertures extending
through the outer flange between the upper surface and the lower
surface, the first apertures being operable to retain fasteners for
securing the outer flange to the surface; and at least two second
apertures extending through the outer flange between the upper
surface and the lower surface, the second apertures being operable
to retain fasteners connecting the outer flange to a plumbing
fixture.
5. An improved flange according to claim 1, wherein the outer
flange and the flexible sleeve are permanently affixed to each
other.
6. An improved flange according to claim 5 wherein the outer flange
and the flexible sleeve are molded as a singular piece.
7. An improved flange according to claim 1 wherein the sealing
member comprises a plurality of O-rings.
8. An improved flange according to claim 1 wherein the sealing
member comprises a single O-ring.
9. An improved flange according to claim 1 wherein the flexible
sleeve comprises a thermoplastic rubber.
10. An improved flange according to claim 1 wherein the flexible
sleeve comprises a PVC compound.
11. An improved flange according to claim 1 wherein the flexible
sleeve comprises a material having a hardness in the range of about
35 shore A to about 55 shore A.
12. An improved flange according to claim 1 wherein the sealing
member is molded as part of the flexible sleeve.
13. An improved flange according to claim 1 wherein the sealing
member is longitudinally displaceable along the flexible
sleeve.
14. An improved flange according to claim 1 wherein the outer
flange comprises metal.
15. An improved flange according to claim 1 wherein the outer
flange comprises a synthetic plastic material.
16. An improved flange according to claim 1 wherein the flexible
sleeve further comprises an integral support apparatus having at
least one circular support.
17. An improved flange according to claim 16 wherein the integral
support apparatus comprises a longitudinally coiled wire.
18. An improved flange according to claim 16 wherein the integral
support apparatus comprises a plurality of rings.
19. An improved flange according to claim 1 wherein the flexible
sleeve further comprises a corrugated portion.
20. An improved flange operable to connect a plumbing fixture
discharge to a waste drain pipe outlet, the improved flange
comprising: an outer flange operable to anchor the plumbing fixture
to a surface; a flexible sleeve comprising a longitudinal portion
and a flange portion, wherein the flexible sleeve provides a
conduit for fluids from the plumbing fixture discharge to a waste
drain pipe outlet; a sealing member disposed on the outer surface
of the longitudinal portion of the flexible sleeve, wherein the
sealing member is operable to form a seal between the flexible
sleeve and an inner surface of the waste drain pipe.
21. An improved flange according to claim 20, wherein the flexible
sleeve comprises a flexible body having an upper portion having an
inner sealing surface in which the plumbing fixture discharge can
be seated creating hermetic seal, and wherein the longitudinal
portion of the flexible sleeve is adapted to fit inside a waste
drain pipe and provide flexibility between the connection of the
flexible sleeve to the waste drain pipe.
22. An improved flange according to claim 20, wherein the sealing
member provides a hermetic seal between the outer surface of the
flexible sleeve and the inner surface of the waste drain pipe.
23. An improved flange according to claim 20 wherein the sealing
member comprises a plurality of O-rings.
24. An improved flange according to claim 20 wherein the sealing
member comprises a single O-ring.
25. An improved flange according to claim 20 wherein the flexible
sleeve comprises a thermoplastic rubber.
26. An improved flange according to claim 20 wherein the flexible
sleeve comprises a PVC compound.
27. An improved flange according to claim 20 wherein the flexible
sleeve comprises a material having a hardness in the range of about
35 shore A to about 55 shore A.
28. An improved flange according to claim 20 wherein the sealing
member is molded as part of the flexible sleeve.
29. An improved flange according to claim 20 wherein the sealing
member is longitudinally displaceable along the flexible
sleeve.
30. An improved flange according to claim 20 wherein the flexible
sleeve further comprises an integral support apparatus having at
least one circular support.
31. An improved flange according to claim 30 wherein the integral
support apparatus comprises a longitudinally coiled wire.
32. An improved flange according to claim 30 wherein the integral
support apparatus comprises a plurality of rings.
33. An improved flange according to claim 20 wherein the flexible
sleeve further comprises a corrugated portion.
Description
FIELD OF THE INVENTION
[0001] This application relates generally to devices for connecting
plumbing fixtures to waste drain conduits, and more particularly to
the combination of a specially configured flexible sleeve and a
closet flange, which mounts a water closet (toilet) on a supporting
floor surface and also provides a tight sealed interconnection
between the water closet (toilet) and the water waste drain pipe,
allowing a good connection even between uneven outlets.
BACKGROUND
[0002] Water closets, also called toilets, are waste disposal
devices commonly installed in most bathrooms. These kinds of
plumbing appliances generally have a water storing receptacle
called a water tank that is attached to a siphon seat-shaped bowl
called toilet bowl. Periodically, waste is removed from the toilet
bowl by flushing, thereby allowing water to drain from the water
tank through the toilet bowl and into a waste drainpipe. In order
to work, however, the toilet bowl must be connected to the waste
drainpipe by fluid carrying conduits. Typically, the toilet bowl
will sit flat on a floor and connect with a water closet outer
flange. The water closet outer flange in turn connects with
conduits leading to a waste drainpipe.
[0003] Existing toilet flanges often include a conduit portion for
passing the waste fluids through the floor (upon which the toilet
sits), a number of openings to fasten the flange to the floor, and
other openings to attach the toilet bowl to the flange itself.
Additionally, there may be an appropriate seat for a toilet seal,
which typically may be made either from wax or by a relatively
high-density foam or rubber.
[0004] Toilets are installed and located in accordance with
interior decorating aesthetics of the bathroom. The location of the
toilet is determined by the location of the waste drainpipe in the
floor, and logically, this will determine the location of the
toilet bowl discharge and hence the location of the outlet flange.
However, in making openings through floors and in making the
connection between the toilet bowl discharge and the waste
drainpipe, there is some likelihood that the toilet bowl opening
will be in an awkward or inconvenient place. An example would be
where the toilet discharge opening has to be directly above a floor
beam or too close to a wall. To overcome such problems there have
been provided, in the past, offset flanges for toilet bowls.
Examples of such offset flanges include the flanges depicted in
U.S. Pat. Nos. 3,967,836 and 6,052,839. These prior offset flanges
attempt to overcome the problems associated with positioning of the
toilet bowl outlet pipe by positioning the conduit at one end of
the flange adjacent to one lateral edge of the flange. In this way,
the toilet bowl outlet pipe can be positioned adjacent to a beam or
tight against a wall or other obstacle without much
inconvenience.
[0005] A problem associated with the previously described
apparatuses is that even though they provide some flexibility, both
are comprised of rigid connecting conduits, and therefore provide
limited flexibility and depth connection distances. For example,
U.S. Pat. No. 3,967,836 has a maximum offset of 13/4" (one and
three quarter inches), which cannot be exceeded; and U.S. Pat. No.
6,052,839 requires a larger maximum offset. But the problem with
the apparatus described in U.S. Pat. No. 6,052,839 is its minimum
offset. More specifically, because it has a connecting rigid
conduit in the shape of an elbow, its use is limited to angled
connections. Moreover, this shape requires that the vertical
distance between the toilet bowl discharge and the waste drain pipe
outlet should be at least about 5-6 inches deep.
[0006] Because of the rigidity of the conduit portions of the
closet flanges that are currently available, there are several
problems related with offset, angled and uneven installations. Most
professionals who deal with these kinds of problems turn to
modifying the waste drain line or change the toilet for a bigger or
smaller one, depending on the case. Those solutions are expensive
and can cause delays in the installation process.
[0007] To address these problems, an improved water closet flange
is hereby disclosed. The improved flange has a flexible conduit
(i.e. sleeve) portion for carrying fluids and connecting to the
waste drain pipe outlet, and such a flexible sleeve will facilitate
its installation even between offset, uneven or angular
outlets.
BRIEF SUMMARY
[0008] Disclosed herein is an improved flange apparatus for
connection to a plumbing fixture, such as a toilet, wherein the
improved flange may comprise an anchoring element or outer flange
that is connected to a flexible conduit tube or flexible sleeve, to
which is attached an O-ring type of gasket. The improved flange can
connect a toilet bowl outlet to a waste drainpipe outlet without
any flow reduction between both connecting elements. A further
aspect of the improved flange allows the connection between a
toilet bowl discharge and a waste drainpipe outlet that are not
aligned with each other. Another aspect of the improved flexible
sleeve allows the connection between a toilet bowl discharge and a
horizontal waste drainpipe outlet. A further aspect of the flexible
sleeve prevents any type of leakage or dripping between the toilet
bowl discharge and the waste drainpipe outlet. Another aspect of
the flexible sleeve is an outer flange element able to firmly
anchor a plumbing fixture to a surface. Yet another aspect of the
improved flange eliminates the need for using a wax seal or a
rubber foam seal in the installation of a toilet, because of the
seal provided by the joint between the toilet outlet and the
flexible sleeve. A further aspect of the improved flange is an
O-ring type of gasket mounted on the flexible sleeve that provides
a tight seal between the outer surface of the flexible sleeve and
the inner surface of the waste drainpipe in which is connected.
Another aspect of the improved flange is the connection between the
flexible sleeve and the inner surface of the waste drainpipe, which
does not need any kind of gluing or cementing to provide a hermetic
seal. The flexible sleeve can be implemented in a variety of sizes
or diameters, including, for example, 3 inch (7.5 cm) and 4 inch
(10 cm) diameters. An alternative embodiment of the flexible sleeve
can fit either 3 inch or 4 inch drainpipes with the help of an
appropriate O-ring seal with the appropriate dimensions.
[0009] These aspects of the improved flange are described only for
the purpose of clarifying the nature of the present invention.
Furthermore, several exemplary embodiments of the invention are
illustrated in the below-described figures of the accompanying
drawings and are described in detail hereinafter. These embodiments
are to be taken as representative of the multiple embodiments of
the invention that lie within the scope of the invention.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] FIG. 1A is a schematic isometric perspective view of one
embodiment of an improved flange apparatus.
[0011] FIG. 1B is a schematic isometric perspective view of one
embodiment of an improved flange in which the flexible sleeve
comprises a corrugated material.
[0012] FIG. 2A is a schematic isometric cross-sectional view of an
improved flange apparatus taken from line 2-2 of FIG. 1A.
[0013] FIG. 2B is a schematic isometric cross-sectional view of an
improved flange apparatus taken from line 2-2 of FIG. 1A that also
depicts an internal structure.
[0014] FIG. 2C is a schematic isometric cross-sectional view of an
improved flange apparatus taken from line 2-2 of FIG. 1B.
[0015] FIG. 3 is an alternative schematic isometric cross-sectional
view of an outer flange taken from line 2-2 of FIG. 1.
[0016] FIG. 4A is a schematic isometric cross-sectional view of one
embodiment of an improved flexible sleeve taken from line 2-2 of
FIG. 1A.
[0017] FIG. 4B is a schematic isometric cross-sectional view of one
embodiment of an improved flexible sleeve taken from line 2-2 of
FIG. 1A that also depicts an internal structure.
[0018] FIG. 4C is a schematic isometric cross-sectional view of one
embodiment of an improved flexible sleeve taken from line 2-2 of
FIG. 1B.
[0019] FIG. 5 is a cross-sectional view of an improved flange
apparatus in its operative position between a toilet bowl and a
waste drainpipe.
[0020] FIG. 5A is an enlarged partial sectional view of the
embodiment shown in FIG. 5.
[0021] FIG. 6 is a cross-sectional side view of an improved
flexible sleeve installed in a vertically oriented waste
drainpipe.
[0022] FIG. 7 is a side view of an improved flexible sleeve
installed in diagonally oriented waste drainpipe.
[0023] FIG. 8 is a side view of an improved flange apparatus
installed in a horizontally offset waste drainpipe.
[0024] FIG. 9 is a side view of an improved flange apparatus
installed in a horizontally oriented waste drainpipe.
[0025] FIG. 10A is a side view of an improved flange apparatus
having a 3 inch external diameter that is installed in a vertically
oriented 3 inch waste drainpipe.
[0026] FIG. 10B is a side view of an improved flange apparatus
having a 3 inch external diameter that is installed in a vertically
oriented 4 inch waste drainpipe.
DETAILED DESCRIPTION
[0027] FIGS. 1A-2C depict several alternative embodiments of the
improved flange. In particular, FIGS. 1A-1B depict schematic
isometric perspective views of the improved flange. Cross-sectional
views of the flanges depicted in FIGS. 1A-1B are also depicted in
FIGS. 2A-2C. In each of these figures, the improved flange 5
comprises an outer flange 10 attached to a flexible sleeve 12 with
an attaching lip 32, which is part of the upper portion of the
sleeve 16. The attaching lip 32 is seated in the radial groove 22
and forms a seal between the attaching lip 32 and the outer flange
10. In addition, the flexible sleeve 12 has an O-ring type seal 30
that is mounted around the flexible conduit portion 14. The O-ring
seal 30 can comprise a plurality of O-rings, such as ten O-rings,
one to four O-rings, or only one O-ring.
[0028] The flexible sleeve could be made in two different outside
diameter sizes in order to fit into the two most commonly used
types of waste drainpipes. For 4 inch drainpipes, the outside
diameter of the flexible sleeve 12 can be between 3.125 to 4.250
inches, 3.750 to 4.125 inches, or 4.125 inches. For 3 inch
drainpipes, the outside diameter of the flexible sleeve can be
between 2.250 to 3.750 inches, or about 3.000 inches.
[0029] The O-rings used for connecting a flexible sleeve 12 having
a 4 inch nominal external diameter with a waste drainpipe having a
4 inch diameter can have an internal diameter between 1 to 5
inches, or between 3 inches and 4.250 inches, or about 3.250
inches. The O-rings used for connecting a flexible sleeve 12 having
a 4 inch nominal external diameter with a 4 inch waste drainpipe
can have an external diameter between 2 and 6 inches, between 3 and
4.750 inches, or about 4.4 inches. The O-rings used for connecting
a flexible sleeve having a 3 inch external diameter with a regular
3 inch waste drainpipe, can have an internal diameter between 0.75
and 4 inches, or an internal diameter between 1.5 and 3.5 inches,
or an internal diameter of about 2.4 inches. By using bigger
O-rings, flexible sleeves having a 3 inch external diameter can be
connected to a regular 4 inch waste drainpipe, resulting in a
product that fits most drain pipes.
[0030] The O-rings used for connecting a flexible sleeve having a 3
inch external diameter with a 4 inch diameter waste drainpipe can
have an internal diameter between 0.75 inches and 4 inches, or a
internal diameter between 1.5 inches and 3.5 inches, or an internal
diameter of about 2.4 inches. The O-rings used for connecting a
flexible sleeve having a 3 inch external diameter with a 4 inch
diameter waste drainpipe can also have an external diameter between
2 and 6 inches, or an external diameter between 3 and 4.75 inches,
or an external diameter of about 4.4 inches.
[0031] The flexible sleeve should be flexible enough to support the
installation between a plumbing fixture and an offset, angled, or
misaligned waste drain pipe. Accordingly, the hardness of its
materials can range from 35 shore A to 90 shore A, or from 35 shore
A to 55 shore A, or more specifically about 40 shore A. The length
of the flexible sleeve 12 can be between 2 and 30 inches, or
between 6 and 15 inches, or more specifically about 12 inches. The
thickness of the flexible sleeve may also be between about 0.040 to
about 0.400 inches, or between about 0.100 and about 0.350 inches,
or more specifically about 0.200 inches.
[0032] FIG. 1B depicts a schematic isometric perspective view of an
improved flange 5 comprising a corrugated portion 36 on the upper
portion of the flexible sleeve 12. The corrugated portion 36 helps
to avoid any kinking of the flexible sleeve 12 when it is installed
in an offset, diagonal, horizontal, or angular arrangement. The
corrugated portion 36 of flexible sleeve 12 can comprise as little
as 1/6 of the sleeve's length or it can comprise the entire length
of the flexible sleeve. The corrugated portion 36, however,
preferably comprises 1/4 to 1/2 of the total length of the flexible
sleeve 12, and more preferably 1/3 of the total length of the
flexible sleeve 12.
[0033] FIG. 2B depicts a schematic isometric cross-section view of
an improved flexible closet flange, taken from the line 2-2 in FIG.
1A. In FIG. 2B, an internal structure 38 is depicted that can
comprise a longitudinally coiled wire or a set of rings. This
embodiment can be utilized whenever the positioning of the flexible
closet flange inside the drainpipe could result in shrinkage of the
inside diameter of the flexible sleeve 12 as a result of kinking or
other deformations. This shrinkage can result in the accumulation
of waste products inside the sleeve, eventually leading to an
undesirable drainage jam.
[0034] FIG. 2C depicts a schematic isometric cross-sectional view
of an improved flange 5, taken from line 2-2 in FIG. 1B wherein the
flexible sleeve 12 comprises a corrugated portion 36. The
corrugated potion 36 allows the flexible sleeve 12 be mounted to
offset, angled, or diagonally positioned drain pipes while
minimizing kinking or other deformations.
[0035] FIG. 3 depicts a cross-sectional perspective view of an
outer flange piece 10. The outer flange 10 can include one or more
apertures 18 for fasteners that secure the outer flange 10 to a
surface, such as a floor, as well as one or more other apertures 20
for fasteners that secure the outer flange 10 to a plumbing
fixture, such as a toilet bowl. The outer flange can also comprise
a radial groove 22 in which the attaching lip 32 (shown on FIG. 4)
of the flexible sleeve 12 (also shown on FIG. 4) will sit.
[0036] FIG. 4A depicts an isometric cross-sectional view of the
flexible sleeve 12 with an O-ring 30 attached around the flexible
conduit portion 14. Also shown in FIG. 4 is the upper portion of
the sleeve 16, which is comprised of the attaching lip 32 and a
sealing surface 34. The flexible sleeve 12 can be comprised of any
thermoplastic rubber, any engineering polymer, or any chemical
treated materials capable of resisting chemicals such as chlorides
and acids such as a PVC compound. The flexible sleeve 12 should
also be able to resist organic gases and fungus attacks. The
flexible sleeve 12 can be made of flexible materials, corrugated
materials, or a combination of both, and it can be extruded,
vulcanized, or molded. The flexible sleeve 12 should be flexible
enough to support the installation between a toilet and an offset,
or unfair, or angled installed waste drain pipe, the hardness of
its materials can range from 35 shore A to 90 shore A, from 35
shore A to 55 shore A, or more specifically about 40 shore A. The
length of the flexible sleeve 12 can be between 2 to 30 inches, or
between 6 and 15 inches, and more specifically about 12 inches.
Depending upon the type of installation, the flexible sleeve 12 can
be used without the outer flange 10. The O-rings 30 can be molded
as a part of the conduit portion of the flexible sleeve 12, or they
may be fused, sonic welded, glued, or can be independent from the
sleeve with free displacement movement along the external face of
the flexible sleeve 12.
[0037] An alternative embodiment of a flexible sleeve 12 is
depicted in FIG. 4B. In FIG. 4B, an internal structure 38
comprising a longitudinally coiled wire or a set of rings is
disposed within the wall of the flexible sleeve 12. This embodiment
can be utilized whenever the positioning of the flexible closet
flange inside the drainpipe could result in a shrinkage of the
inside diameter of the sleeve due to kinking or other deformation.
This shrinkage can result in the accumulation of waste products
inside the sleeve, eventually leading to a drainage jam.
[0038] Another alternative embodiment of the flexible sleeve 12 is
depicted in FIG. 4C. In FIG. 4C, the flexible sleeve 12 further
comprises a corrugated portion 36 that facilitates the installation
of the flexible sleeve into an offset, diagonal, or horizontal
arrangement. The corrugated portion 36 allows the flexible sleeve
12 to be mounted in such arrangements while minimizing the effects
of kinking and shrinkage of the inside diameter of the sleeve.
[0039] FIG. 5 is a cross-sectional side view of the improved flange
in its operative position between a toilet bowl 24 and a waste
drain pipe 26. The outer flange 10 anchors the toilet bowl 24 to a
floor, and firmly grips the flexible sleeve 12, which fits inside
the waste drain pipe 26. In addition, the O-ring 30 creates a seal
against the inner surface of said waste drain pipe 26. The
materials for the outer flange 10 can be any ferrous or non-ferrous
metals, ABS, PVC or any other type of hard synthetic plastic. The
outer flange may have or may not have a radial groove on it, all
depending in the type of application or use that the flexible
closet flange is going to be put through.
[0040] FIG. 5A is an enlarged partial view of the embodiment shown
in FIG. 5. In FIG. 5A, the seal between the toilet discharge outlet
28 and the sealing surface 34 on the upper portion 16 of the
flexible sleeve 12 eliminates the need for regular wax seals or
foam rubber gaskets. When the toilet 24 is fastened to the outer
flange 10, the toilet discharge outlet 28 will be pushed against
the sealing surface 34 on the upper portion of the sleeve 16,
thereby creating a firm and tight seal that will prevent gas and
fluids from leaking from the drain pipe to the floor in which the
toilet bowl 24 is seated.
[0041] FIGS. 6-10B show different installments and embodiments in
which the improved flange can be used. FIG. 6 is a cross-sectional
side view of one kind of installation between the flexible sleeve
12 and a vertically installed waste drainpipe 26. Although this
kind of installation is preferred, the conditions permitting this
kind of installation are not always available. This is problematic
because most water closet flanges are designed to be installed
under these conditions (with a vertically aligned waste drainpipe),
and do not allow any misalignment between the toilets and waste
drainpipes outlets.
[0042] FIG. 7 is a cross-sectional side view of an installation
between the flexible sleeve 12 and a diagonally installed waste
drainpipe 26. The flexible sleeve is advantageous because it can be
readily adapted to connect to a drainpipe 26 that is disposed at a
non-vertical angle without any additional equipment or
materials.
[0043] FIG. 8 is a cross-sectional side view of an installation
between the flexible sleeve 12 and an offset waste drainpipe 26. As
stated previously, the flexible sleeve 26 can be readily adapted to
connect an offset waste drainpipe 26 without any additional
equipment or materials.
[0044] FIG. 9 is a cross-sectional side view of an installation
between the flexible sleeve 12 and a horizontally-installed waste
drainpipe 26. Again, the flexible sleeve 26 can be readily adapted
for the situation where the drainpipe 26 is horizontally disposed
without any additional equipment or materials.
[0045] FIG. 10A is a cross-sectional side view of an installation
between a 3 inch flexible sleeve 12 and a vertically-installed 3
inch waste drainpipe. In FIG. 10A, an O-ring 30 creates a seal
against the inner surface of the 3 inch waste drain pipe 26. FIG.
10B is a cross-sectional side view of an installation between a 3
inch flexible sleeve 12 and a vertically-installed 4 inch waste
drainpipe. Much like FIG. 10A, an O-ring 30 creates a seal against
the inner surface of the 4 inch waste drain pipe 26. It is
contemplated that one kind of O-ring 30 may be utilized to form an
effective seal for both 3 inch and 4 inch drain pipes, thereby
eliminating the need for additional adapters or parts.
[0046] Although preferred embodiments of the present inventions
have illustrated in the accompanying drawings and described in the
foregoing detailed description, it will be understood that the
inventions are not limited to the embodiments disclosed, but are
capable of numerous rearrangements, modifications and substitutions
without departing from the spirit of the invention as set forth and
defined by the following claims and equivalents thereof. Applicant
intends that the claims shall not invoke the application of 35
U.S.C. .sctn. 112, .paragraph.6 unless the claim is explicitly
written in means-plus-function or step-plus-function format.
* * * * *