Push-Type Drain Stopper for Pop-Up Drain

Abstract

A push-type drain stopper is usable in a drain pipe that has a pivot rod port surrounded by a stub by sealing a rod that protrudes into the pipe through the stub. The stopper is pressed transversely into engagement with the rod, which is an anchor. The drain pipe has a drain flange that seals around a drain opening in a sink. If the flange becomes worn and unsightly or if one desires to change a color scheme for the sink, a cap that has a diameter greater than the drain flange hides the drain flange from sight. A retrofit kit includes the drain stopper, pivot balls sized to fit different pop-up drain assemblies, a rod that passes through the ball into the drain pipe, and a wing nut fixed to an end of the rod for tightening the rod against a stub cap.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

This present invention pertains to a pop-up drain assembly used to retain fluid in and release fluid from a sink or basin and more particularly to retrofitting a pop-up drain assembly to make it a push-type drain assembly.

2. Description of the Related Art

In a lavatory or bathroom sink or basin equipped with a supply of running water for washing oneself, a pop-up drain assembly allows one to retain water in the sink or basin and then release the water to flow by gravity downwardly through a drain pipe. The sink or basin has an opening at a lowermost point, and a typical pop-up drain assembly comprises a drain conduit sealingly fastened to the sink or basin within the opening. A drain stopper is received in the drain conduit for sealing the opening and retaining water in the sink or basin. A pivot rod protrudes into the drain conduit and engages a bottom portion of the drain stopper. A lift rod is connected to the pivot rod. One can pull the lift rod up to pull the drain stopper down for sealing the opening in the bottom of the sink or basin for retaining water, and one can push the lift rod down to raise the drain stopper, which unseals the drain stopper and allows water to drain from the sink or basin. U.S. Pat. No. 4,807,306, issued to Hayman et al., illustrates quite well the components in a typical prior art pop-up drain assembly and is incorporated by reference for all purposes.

Another drain assembly is known as a push-type drain assembly, which has a push-push drain stopper. A first push downwardly on the top of a drain stopper moves the stopper into a closed position. A second push moves the stopper into an open position. U.S. Pat. No. 3,220,695, issued to Downey et al. on Oct. 13, 1961, describes what is titled as a “Push-Button Drain Valve.” U.S. Pat. No. 3,366,980, issued to Petursson et al. on Apr. 16, 1965, describes a different push-type drain stopper. The Pfister plumbing company sells a drain assembly called Push & Seal as an alternative to a pop-up drain assembly. The Push & Seal drain assembly has a drain pipe that is received in a sink drain opening, a gasket and nut for sealing the drain pipe in the sink, and a push-type drain stopper that is received in the drain pipe in a threaded engagement with the drain pipe.

SUMMARY OF THE INVENTION

A push-type drain stopper includes in one embodiment a push-push, mechanism having upper and lower ends; a cap attached to the upper end; and a two-pronged fork having a fixed end and a free end, where the fixed end is attached directly or indirectly to the lower end of the push-push mechanism. Each of the prongs has an angled end at the free end such that the two prongs form a V-shape that points toward the push-push mechanism. Each of the prongs has a semi-circular notch adjacent to the angled end such that the two prongs define a circular hole. The V-shape has a pointed end, which is adjacent to the circular hole. The push-push mechanism and the cap each have a diameter, and the diameter of the cap is preferably greater than twice the diameter of the push-push mechanism. The push-push mechanism in one embodiment includes a coupling attached to the lower end and a nipple attached to the coupling, and the two-prong fork is attached to the nipple.

In another embodiment, a push-type drain assembly for a sink having a drain opening includes a drain pipe attached to the sink at the drain opening, where the drain pipe has a port and a stub surrounding the port, where the longitudinal axis of the stub is transverse to the longitudinal axis of the drain pipe; a rod passing through the port and protruding into the drain pipe transverse to the longitudinal axis of the drain pipe; and a push-type drain stopper received in the drain pipe and connected to the rod, where the stopper is moveable between an open position and a closed position by pushing on the stopper. In one embodiment, a ball having a bore is received and held in the stub, and the rod passes through the ball. The drain stopper preferably includes a push-push mechanism that has upper and lower ends; a cap attached to the upper end; and a two-pronged fork attached to the lower end, where the two-prong fork is pressed onto the rod transversely and engaged with the rod in a snap fit.

BRIEF DESCRIPTION OF THE DRAWINGS

A better understanding of the invention can be obtained when the detailed description of exemplary embodiments set forth below is considered in conjunction with the attached drawings in which:

FIG. 1 is a cross-section of a side elevation of a sink or basin and a prior art pop-up drain assembly.

FIG. 2 is a cross-section of a side elevation of a pop-up drain assembly, which has been retrofitted with a push-type drain stopper, according to the present invention.

FIG. 3 is a side elevation of the pop-up drain assembly as seen in the view 3-3 in FIG. 2.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

FIG. 1 is side elevation in cross-section of a prior art pop-up drain assembly 10 in a sink or basin 12. A drain opening is provided in a lowermost portion of the sink or basin for draining the fluid. The pop-up drain assembly includes piping that can be placed through the drain opening and fastened to the sink or basin. The piping is typically connected to a drain pipe, and the piping provides a fluid flow pathway from the sink or basin through the drain opening and through the piping to the drain pipe for conveying fluid from the sink or basin to the drain pipe and away for disposal and/or treatment. After the drain assembly is installed on a sink, a drain stopper is received in the piping and is moveable between an open position and a closed position. In the closed position, the stopper provides a seal with the piping for retaining fluid in the sink or basin, and in the open position, fluid can enter the piping and drain away through the drain pipe. A pivot rod is used to move the stopper between the open position and the closed position. The pivot rod pivots about a generally horizontal position and engages the stopper, raising the stopper to the open position and lowering the stopper to the closed position.

The pop-up drain assembly 10 is received in the sink or basin 12, which is typical for a bathroom, restroom or lavatory. Sink 12 has a lower surface 12a that drains into a drain opening 12b. Sink 12 has an overflow port 12c in a side wall 12d, which is an optional feature. An outer wall 12e and side wall 12d define an overflow channel 12f, and side wall 12d has an overflow drain port 12g for draining overflow fluid into a port in drain assembly 10. A faucet 14 is mounted on a top deck 12h of sink 12 for supplying water or other fluid to sink 12.

A number of different manufacturers make and sell pop-up drain assemblies, which can be retrofitted to provide a push-type drain assembly according to the present invention. The pop-up drain assembly 10 in FIG. 1 comprises a drain flange 16 that fits down through drain opening 12b in sink 12. Drain flange 16 has a threaded tubular portion 16a extending essentially throughout its fall length and a flange 1.6h extends radially outwardly on a top end. A gasket or plumber's putty 18 provides a seal between the lower surface 12a of the sink 12 and the flange 16b of drain flange 16. A flexible gasket 20 and a washer 20a are placed around a bottom portion of drain flange 16 and then pressed tightly against a bottom surface of sink 12 with a threaded nut 20b. A drain body 22 is threaded onto a lower end of drain flange 16. Drain body 22 has a wrench flange 22a for receiving a wrench for tightening and loosening drain body 22 with respect to drain flange 16. Drain body 22 has a pivot rod port 22b, and a threaded tubular stub 22c projects radially outwardly from drain body 22. A pivot rod seal 24 is received in stub 22c.

A pivot rod 26 has a stopper end 26a and an outer end 26b. A pivot ball 28 is sealingly received on pivot rod 26 closer to stopper end 26a than outer end 26b. Pivot rod 26 is received in stub 22c such that stopper end 26a is inside the drain body 22, and the stopper ball 28 rests against pivot rod seal 24. A pivot rod cap 30 is threaded onto stub 22c sufficiently tightly to seal pivot ball 28 against pivot rod seal 24, but loose enough to allow pivot ball 28 and pivot rod 26 to pivot. An extension rod 32 having a plurality of holes, which are not shown, is received on outer end 26b of pivot rod 26 and held in place by a clip 32a. Extension rod 32 is bent so as to have two parallel portions 32b and 32c that are perpendicular to the longitudinal axis of the extension rod 32, and each of the two parallel portions has a hole through which a control rod 34 is received. Control rod 34 passes through a faucet port 14a and a sink control rod port 12h. Control rod 34 has a knob 34a at an upper end, and control rod 34 is fastened to extension rod 32 by a set screw 32d.

A stopper 40 is received in drain flange 16 and drain body 22. Stopper 40 has an elongate shaft 40a running its length, which has a longitudinal axis through the center of stopper 40. A cap 40b is located on an upper end while the drain assembly 10 is installed and operational, and a pivot rod receiving member 40c is located on an opposing lower end. The pivot rod receiving member 40c defines an opening through which stopper end 26a of pivot rod 26 protrudes for engaging and moving stopper 40, and pivot rod receiving member 40c may be referred to as open member 40c. Four flanges or fins, referred to collectively as fins 40d, extend longitudinally along shaft 40a and project radially, and fins 40d lie in two perpendicular and intersecting planes. The fins provide structural support for the shaft and center the stopper in the drain pipe. For more information, please see U.S. Patent Application Pub. No. 2011/0185494 A1, which was published on Aug. 4, 2011, which lists Beck and Ahuja as inventors, which is incorporated by reference.

Turning now to the present invention, FIG. 2 is a cross-section of a side elevation of a push-type drain assembly 50, according to the present invention. Prior art push-type drain assemblies used a drain pipe that is different from the drain pipe for a pop-up drain assembly. The drain body 22 in the prior art pop-up drain assembly in FIG. 1 has the pivot rod port 22b and the threaded tubular stub 22c that projects radially outwardly from drain body 22. A drain pipe for a push-type drain assembly does not have a pivot rod port. Also, a drain pipe for a push-type. drain assembly typically has threads or some other means for anchoring a push type drain stopper in the drain pipe. If one wanted to convert a pop-up drain assembly to a push-type drain assembly, one needed to remove the pop-up drain pipe and replace it with the push-type drain pipe. The present invention allows one to convert a pop-up drain assembly to a push-type drain assembly without the need to remove the pop-up drain pipe and replace it with the push-type drain pipe.

A push-type drain stopper 52 is received in a pop-up type drain pipe 54, according to the present invention. The pop-up type drain pipe 54 comprises a drain flange 54a and a drain tube 54b, which is in a threaded engagement with the drain flange 54a. Drain flange 54a is sealed with a plumber's putty 56 to a sink 58 in a drain opening 58a. A gasket 54c is pressed against the bottom of the sink 58 by a nut 54d, which seals the drain pipe 54 with the bottom of the sink 58. The drain pipe 54 has a port 54e, and a stub 54f surrounds the port 54e. A stub cap 54g is threaded onto stub 54f and presses a ball 54h against a seal 54i. The ball 54h has a threaded bore 54j. The drain tube 54b, the port 54e and the stub 54f are the same as or equivalent to the drain body 22, the port 22b and the stub 22c in the prior art pop-up drain assembly of FIG. 1. The drain pipe 54 is rigid between the drain flange 54a and the port 54e, and generally, all of the drain pipe 54 is rigid, but the drain pipe 54 may have a flexible portion downstream from the port 54e.

A rod 60 has an inside end 60a that inside drain tube 54b and an outside end 60b that is outside of the drain pipe 54. Rod 60 has a threaded portion 60e on and proximal to the outside end 60b. Rod 60 has a smooth-surface portion 60d on and proximal to the inside end 60a. Rod 60 passes through the threaded bore 54j and is threadedly engaged with the pivot ball 54h. A wing nut 60e is fixed to the outside end 60b of the rod 60. The stub cap 54g holds the ball 54h firmly in place while the seal 54i seals against water leakage. The wing nut 60e is tightened firmly against the stub cap 54g, which pulls the ball tightly against a shoulder 54j within the cap 54g. Alternatively, the wing nut 60e and the stub cap 54g can be combined into a single element. Further, the ball 54h can be eliminated and replayed with an alternative seal that prevents water leakage through the port. One of ordinary skill in this art will identify alternative means to fasten a rod to a stub that extends radially from a drain pipe around a pivot rod port in a prior art pop-up drain assembly such that the rod extends inside the drain pipe. The smooth-portion 60d of the inside end 60a of the rod 60 protrudes inside the drain tube 54b of the drain pipe 54. The inside end 60a protrudes just past the longitudinal axis of the drain tube 54b from the pivot rod port 54e. The inside end 60a does not protrude all the way to the far inside wall of the drain tube 54b from the port 54e. The rod 60 is transverse to the longitudinal axis of the drain tube 54b and is held tightly in position because the cap 54g holds the ball 54h in position, and the wing not 60e is fixed to the rod 60 and holds the rod 60. The rod 60 is preferably held at or about at a position that is perpendicular to the longitudinal axis of the drain tube 54b. The rod 60 serves as an anchor for the push-type drain stopper. Consequently, a pop-up drain assembly can be converted to a push-type drain assembly.

The push-type drain stopper 52 comprises a conventional push-push mechanism 52a that has a threaded upper end 52b and an opposing threaded lower end 52e, a cap 52d threaded onto the upper end 52b, a coupling 52e, which has a bore defined by female threads, having an upper end threadedly connected to the lower end 52c of the push-push mechanism 52a, a nipple 52f that has male threads, which is threaded into a lower end of the coupling 52d, and an anchor clasp 52g depending from a lower end of the nipple 52f, which is fixed to or formed integral with the nipple 52f. The anchor clasp 52g has a V-shaped indentation 52h on a lower end, which leads to a circular opening 52i. The V-shaped indentation is defined by two prongs 52j and 52k. The V-shaped indentation is as wide as the diameter of the rod 60 at a lower end and narrows into a small gap 52m between the prongs between the V-shaped indentation and the circular opening. The circular opening has a diameter that is slightly smaller than the diameter of the smooth-surface portion 60d of the rod 60. The anchor clasp 52g is made of a stiff, flexible and resilient material. The push-type drain stopper 52 is pressed onto the rod 60. The V-shaped indentation feeds the rod 60 into the circular opening. As the rod 60 passes through the gap, the prongs are pushed apart and then come back together as the rod settles into the circular opening, where the prongs tightly hold and fasten the push-type drain stopper 52 to the anchor rod 60, thereby anchoring the push-type drain stopper 52 to the anchor rod 60. A seal 52n presses against the drain flange 54a for providing a seal and holding water in the sink 58 while the push-type drain stopper 52 is in its closed position. The seal 52n is a downwardly-facing conical washer made of an elastomeric material.

The conventional push-push mechanism 52a comprises a hollow cylinder with a spring and ratchet mechanism inside, which holds the mechanism in two positions, namely an open position and a closed position. FIG. 2 shows the push-push mechanism in the closed position with the seal 52n pressed against the drain flange 54a. A push on the cap 52 in the direction of an arrow 62 pushes the end 52b into the body of the mechanism 52a, and, upon release of the cap, a spring inside the body of the mechanism 52a pushes the end 52b away from the body, thereby moving the seal 52n away from the drain flange 54a. Another push closes the seal 52n against the drain flange 54a.

The coupling 52e has four centralizing fins 52p. The coupling 52e could be eliminated, and the nipple 52f could be designed to fasten directly to the push-push mechanism 52a. The push-push mechanism 52a has a lower portion 52q that moves up and down and in and out of the body of the push-push mechanism 52a. The coupling 52e accommodates this motion.

The cap 52 could be replaced with a conventional cap such as the cap 40b on the stopper 40 in FIG. 1. However, cap 52 has a much larger-than-normal diameter as compared to the cap 40b in FIG. 1. The purpose of this larger-than-normal diameter is to cover the drain flange 54a. Cap 52 hides the drain flange 54a from view. Cap 52 is useful for hiding an unsightly drain flange from view, and cap 52 is useful for changing a color scheme for a faucet and drain set. A preferred color for a faucet and drain set may change over time. For example, a faucet and drain set may have been installed in the color of polished brass, and a new owner may wish to change the color to brushed nickel. The new owner may at the same time wish to change the drain assembly from a pop-up drain stopper to a push-type drain stopper. The cap 52 can be selected in the color of brushed nickel. An existing pivot rod like the rod 26 in FIG. 1 can be removed. A replacement or retrofit kit may contain several balls so as to have a ball 54h of the proper size to replace the pivot ball. The new ball 54h is placed in the existing stub 54f on the existing drain pipe 54, and the existing cap 54g holds the ball in place. The new rod 60 is threaded through the ball 54h until the wing nut 60 is tight against the cap 54g. It may not be necessary to replace an existing pivot rod because the existing pivot rod may work well enough as an anchor for the push mechanism 52a. The faucet 14 of FIG. 1 would be replaced by the new owner with a faucet haying a brushed-nickel finish, and the control rod 34 in FIG. 1 would be eliminated.

A strainer basket can be placed around the push mechanism 52a for catching hair and other debris. The strainer may have a generally cylindrical or frustoconical shape, an open upper end, a plurality of holes, opening and slots and a lower end or base. The base may have a generally circular opening that is slightly smaller than the diameter of the push mechanism 52a. The diameter at the upper end is greater than the diameter at the base. The upper end of the strainer flares outwardly and has an outermost circumference proximate to an uppermost edge, which is sized to lit snugly in a drain pipe from a sink.

Having described the invention above, various modifications of the techniques, procedures, materials, and equipment will be apparent to those skilled in the art. It is intended that all such variations within the scope and spirit of the invention be included within the scope of the appended claims.

Claims

1. A push-type drain assembly for a sink having a drain opening, comprising: a drain pipe attached to the sink at the drain opening, wherein the drain pipe has a port and a stub surrounding the port, wherein the drain pipe has a longitudinal axis, and wherein the stub has a longitudinal axis that is transverse to the longitudinal axis of the drain pipe;a rod passing through the port and protruding into the drain pipe, wherein the rod is fastened directly or indirectly to the stub, wherein the rod has a longitudinal axis that is transverse to the longitudinal axis of the drain pipe; anda push-type drain stopper received in the drain pipe and connected to the rod, wherein the stopper is moveable between an open position and a closed position by pushing on the stopper.

2. The push-type drain assembly of claim 1, further comprising a ball having a bore, wherein the ball is received and held in the stub, and wherein the rod passes through the ball.

3. The push-type drain assembly of claim 1, wherein the drain stopper comprises: a push-push mechanism having upper and lower ends;a cap attached to the upper end; anda two-pronged fork attached to the lower end,wherein the two-prong fork is sized and designed to be pressed onto the rod transverse to the longitudinal axis of the rod, and wherein the two-prong fork is engaged with the rod in a snap fit.

4. The push-type drain assembly of claim 3, wherein the drain pipe has a drain flange above and surrounding the drain opening in the sink, wherein the drain flange has a diameter, and wherein the cap has a diameter that is greater than the diameter of the drain flange.

5. The push-type drain assembly of claim 1, further comprising a ball having a bore; a stub cap; and a wing nut, wherein the ball is received and held in the stub by the stub cap, wherein the stub cap is threaded onto the stub, wherein the rod passes through and is received in the bore of the ball, and wherein the wing nut is fixed to an end of the rod and tightened against the stub cap.

6. The push-type drain assembly of claim 1, wherein the drain stopper comprises: a push-push mechanism having upper and lower ends;a cap attached to the upper end; anda two-pronged fork having a fixed end and a free end, wherein the fixed end is attached directly or indirectly to the lower end of the push-push mechanism,wherein each of the prongs has an angled end at the free end such that the two prongs form a V-shape that points toward the push-push mechanism, and wherein each of the prongs has a semi-circular notch adjacent to the angled end such that the two prongs form a circular hole, and wherein the rod is received in the circular hole.

7. The push-type drain assembly of claim 6, wherein the push-push mechanism comprises a coupling attached to the lower end and a nipple attached to the coupling, and wherein the two-prong fork is attached to the nipple.

8. The push-type drain assembly of claim 7, further comprising a ball having a bore; a stub cap; and a wing nut, wherein the ball is received and held in the stub by the stub cap, wherein the stub cap is threaded onto the stub, wherein the rod passes through and is received in the bore of the ball, and wherein the wing nut is fixed to an end of the rod and tightened against the stub cap.

9. The push-type drain assembly of claim 8, wherein the drain pipe has a drain flange above and surrounding the drain opening in the sink, wherein the drain flange has a diameter, and wherein the cap has a diameter that is greater than the diameter of the drain flange.

10. The push-type drain assembly of claim 1, wherein the drain pipe has a flexible portion spaced downwardly from the port.

11. The push-type drain stopper of claim 3, further comprising a strainer around the push-push mechanism, wherein the strainer has plurality of openings.

12. push-type drain stopper, comprising: a push-push mechanism having upper and lower ends;a cap attached to the upper end; anda two-pronged fork having a fixed end and a free end, wherein the fixed end is attached directly or indirectly to the lower end of the push-push mechanism,wherein each of the prongs has an angled end at the free end such that the two prongs form a V-shape that points toward the push-push mechanism, and wherein each of the prongs has a semi-circular notch adjacent to the angled end such that the two prongs define a circular hole, wherein the V-shape has a pointed end, and wherein the pointed end of the V-shape is adjacent to the circular hole.

13. The push-type drain stopper of claim 12, wherein the push-push mechanism and the cap each have a diameter, and wherein the diameter of the cap is greater than twice the diameter of the push-push mechanism.

14. The push-type drain stopper of claim 12, wherein the push-push mechanism comprises a coupling attached to the lower end and a nipple attached to the coupling, and wherein the two-prong fork is attached to the nipple.

15. The push-type drain stopper of claim 12, further comprising a strainer around the push-push mechanism, wherein the strainer has a plurality of openings.