Patent Grant
7886372
1. Field of the Invention
The present invention is directed to an apparatus for effecting effortless installation of a drain apparatus in a sanitary vessel such as a sink or basin. The drain apparatus of the present invention incorporates structure that attenuates the time required for installation and/or maintenance of conventional drain assemblies without compromising the function thereof. In this manner, the present invention enhances the operation of newly installed and pre-installed sanitary vessels
2. Description of Related Art
Installation and maintenance of sanitary vessels requires substantial investments of fiscal and temporal resources. Although consumers must often make difficult decisions concerning the extent to which certain functional and aesthetic features can feasibly be incorporated into a product, the same consumers repeatedly demand ease of installation and maintenance of their products.
There have been numerous attempts to address these demands. U.S. Pat. No. 645,639 to Bunting, Jr., for instance, discloses a washbasin having a handle in operable communication with a vertical shaft that is disposed in a sleeve. A horizontal shaft is provided in a tubular projection that is connected to a waste pipe to facilitate free rotation of the horizontal shaft therewithin. A spring is adjustably connected to adjacent ends of the vertical and horizontal shafts so that, upon turning of the handle, the horizontal shaft also rotates. The basin also includes a plug with an annular groove engaged by an eccentric pin on an adjacent end of the horizontal shaft. In this configuration, rotation of the horizontal shaft causes elevation of the plug and further rotation lowers the plug.
U.S. Pat. No. 2,063,399 to Rasmussen discloses a waste and overflow device for bathtubs and basins. The device includes a fitting having a short tube over which a plug stem sits. The stem is formed at its lower end with an outwardly projecting lug that passes through a correspondingly configured notch when placed in alignment therewith such that turning of the plug prevents withdrawal of the plug from the fitting. An overflow head is also provided that includes an opening to which a tube is mounted. The tubes are connected by a flexible shaft having a tapered valve at an operating extent thereof. The valve, when raised, correspondingly closes the opening in of the short tube. An upper end of the flexible shaft is connected with a handle so as to be guided thereby. When it is desired to open the plug, actuation of the handle correspondingly moves the flexible shaft, thereby lifting the plug from its seated position.
U.S. Pat. No. 4,085,469 to Petursson discloses a drain plug in the outlet of a plumbing fixture such as a lavatory basin or bath. A flexible cable loosely resides within a flexible tube that extends through both overflow and drain pipes. The flexible cable connects the plug with a waste control handle, and a simple attachment clip permits ready installation or replacement thereof.
U.S. Pat. No. 5,333,327 to Redding et al. discloses a mechanism for remotely opening and closing a basin drain by utilizing a flexible rod movably disposed within a non-linear tube. The rod connects a user-driven member with a linkage member having a plug in communication therewith, such that pushing or pulling the drive member correspondingly moves the plug and effects opening and closing of the drain. Within a bend of the tube, a void is desirably defined between the rod and the tube to reduce friction. The configuration of the rod may include one or more bulbous ends or a lobed cross-section.
U.S. Pat. No. 6,367,102 discloses a drain assembly having a movable stopper guide that aligns a drain flange to a drain body from above a sink within which the drain assembly is installed. The stopper guide supports a stopper at an upper end thereof to effect closing of a drain opening. The stopper guide has an axial opening to accommodate an axial fastener that joins the drain flange and drain body to the basin. The stopper guide also has downwardly extending legs defining an axial slot extending from the axial opening to accommodate cross-members that extend laterally between the drain flange and drain body. The drain flange can be aligned with the drain body by engaging the drain flange cross-member and rotating such cross-member as appropriate.
None of the aforementioned solutions discloses a drain apparatus that combines optimal installation structure and drain stopper functions in a drain assembly that readily installs in sanitary vessels without any adjustments made by the user. It is therefore desirable to provide a drain apparatus having such advantages over existing drain assemblies that incur deleterious investments of temporal and fiscal resources due to prolonged installation of such devices.
It is an advantage of the present invention to provide a drain apparatus that significantly reduces the time and effort associated with installation thereof, as compared to conventional drain stopper mechanisms. Such a drain apparatus desirably obviates the need for tools, plumber's putty or caulk to ensure proper alignment and sealing characteristics.
It is another advantage of the present invention to provide a drain apparatus that readily installs and functions in a plurality of sanitary vessel configurations without detracting from the aesthetic appeal thereof. Such a drain apparatus desirably imparts enhanced aesthetic qualities in applications where the drain apparatus is visible beneath a sanitary vessel within which the drain apparatus is employed.
It is a further advantage of the present invention to provide a drain apparatus that facilitates actuation of a stopper portion thereof without compromising seal integrity. Such a drain apparatus desirably induces sufficient tightening of the appropriate elements thereof so as to effect a leak proof seal upon initial installation in a sanitary vessel.
In accordance with these and other advantages, the present invention provides an improved drain assembly for use in sanitary vessel. The drain assembly of the present invention comprises a drain stopper assembly having an elongate one-piece housing with a longitudinal axis defined therealong. The housing has a proximal extent for disposal proximate a vessel surface, an opposing distal extent for disposal proximate a waste outlet and a longitudinal body coextensive extent with both of the proximal and distal extents and defining a lumen therein. The housing body includes each of an inner circumferential surface of predetermined inner diameter and an outer circumferential surface of predetermined outer diameter. A flange portion at the proximal extent has a fluid egress for delivery of fluids from the sanitary vessel to the housing lumen. The drain stopper assembly further includes a linearly reciprocatable drain stopper having a closure head from which an elongate shaft depends generally normally so that a longitudinal axis thereof is coincident with the housing longitudinal axis. The shaft has a proximal extent adjacent the closure head and an opposing free extent disposed in the housing lumen. The stopper reciprocates between a fully closed position, wherein the closure head obstructs the fluid egress, and a fully open position, wherein the fluid egress remains unobstructed. A securement region provided on the outer housing surface has a receiving region defined therewith. The present invention drain assembly further includes an actuation assembly having a motion translation device in communication with a drain articulation member. The securement region effects operational communication between the drain stopper assembly and the actuation assembly so that operation of the drain articulation member effects reciprocating motion of the drain stopper. The housing, flange portion and securement region comprise an integral member.
In an alternative embodiment, the present invention provides an improved sanitary drain assembly comprising a drain stopper assembly with a multi-piece housing. The housing includes a proximal extent for disposal proximate a vessel surface, at which proximal extent a flange portion is provided with a fluid egress for delivery of fluid therethrough. An opposing distal extent is also provided at which a fluid conduit in fluid communication therewith delivers fluid from the drain stopper assembly. The housing further includes a drain insert disposed in a lumen of a drain body so as to accommodate a reciprocatable stopper thereby. The stopper having a closure head from which an elongate shaft depends generally normally and which obstructs the fluid egress when the stopper is in a closed position. The shaft has a proximal extent adjacent the closure head and an opposing free extent disposed in the drain insert when the stopper is in a closed position. The drain body has each of an inner circumferential surface of predetermined inner diameter and an outer circumferential surface of predetermined outer diameter. A securement region is positioned along the outer circumferential surface of the drain body and terminates in a distal extent. Such distal extent does not extend beyond the predetermined outer diameter of the housing outer surface. The securement region effects operational communication between the drain stopper assembly and an actuation assembly having a motion translation device in communication with a drain articulation member so that operation of said drain articulation member effects reciprocal motion of said drain stopper.
The present invention also provides an improved sink drain assembly comprising a drain stopper assembly and an actuation assembly in operative communication therewith so that operation of a drain articulation member effects reciprocal motion of a drain stopper. The actuation assembly comprises a motion translation device in communication with the drain articulation member and a motion transfer mechanism that facilitates operative communication between the motion translation device and the drain stopper assembly.
Now referring to the Figures, wherein like numerals identify like elements,
Drain assembly 10 includes a drain stopper assembly 12 detachably coupled with an actuation assembly 14 such that operation of the latter effects reciprocal motion of drain stopper 16. Movement of stopper 16 between open and closed positions corresponds to actuation of a rotating knob or lift member in communication with actuation assembly 14, as further described hereinbelow. The lift or knob is desirably disposed in a predetermined position at the manufacturing site to ensure that the enhanced aesthetic appearance of the sanitary fitting system is predictable and repeatable.
Drain stopper assembly 12 has an elongate one-piece housing 13 with a longitudinal axis 1 defined therealong. Housing 13 includes a proximal extent 13a for disposal proximate a vessel surface (not shown), an opposing distal extent 13b for disposal proximate a waste outlet (as is known in the art and not shown herein) and a longitudinal body 13c coextensive therewith. Housing body 13c has an outer circumferential surface 13e thereabout having outer diameter Do defined thereat. Housing body 13c further has an inner circumferential surface 13d similarly defined by inner diameter Di and delineating the parameters of lumen 13f. Outer diameter Do desirably approaches 41 mm (but is not limited thereto) as is consistent with applicable sanitary codes, and inner diameter Di is defined as large as possible to permit unencumbered fluid flow through lumen 13f. Di may vary along the extent of so that lumen 13f tapers along at least a portion of housing body 13c.
Proximal extent 13a further includes a flange portion 13g having a fluid egress 15 for delivery of fluids from a sanitary vessel to lumen 13f. Flange portion 13g, which can extend generally outwardly relative to axis L-L as shown, is seated at or on a vessel surface and supported thereby when drain assembly 10 is installed therein. Although flange portion 13g is desirably fabricated as an integral portion of one-piece housing 13, it is anticipated that flange portion 13g may be separately formed from housing 13 and subsequently integrated therewith. An optional sealing member 500 is selectively placed proximate flange portion 13g to provide optimal sealing capabilities at the location of fluid delivery from the vessel to drain stopper assembly 12. Sealing member 500 may be selected from a variety of applicable materials as are known in the industry, although foam is specifically desired to accommodate the compression anticipated by hand tightening of drain assembly 10 upon installation thereof.
Lumen 13f accommodates placement of linearly reciprocatable drain stopper 16 therewithin. Stopper 16 has a closure head 16a from which an elongate shaft 16b depends generally normally so that a longitudinal axis thereof is coincident with axis L-L. Shaft 16b includes proximal extent 16b′ adjacent closure head 16a and opposing free extent 16b″ disposed in lumen 13f. Closure head 16a selectively obstructs fluid egress 15 when stopper 16 is in a closed position.
It is understood that alternate stopper designs may be employed without departing from the scope of the present invention. As further shown in
Housing 13 supports a gasket nut 18 disposed adjacent outer circumferential surface 13d thereof. Gasket nut 18 may include one or more tactile indices 19 to facilitate gripping of the gasket nut or one or more visual indices (such as dashes, color codes and the like, not shown) that illustrate proper alignment of the gasket nut relative to housing surface 13d. It is understood that the configuration of such tactile index is not limited to that shown in the Figures and that tactile and/or visual indices are not essential to the practice of the present invention.
Gasket nut 18 desirably overlies at least a portion of a threaded region 13h defined along at least a portion of housing body 13b. Gasket nut 18 easily slides thereover, thereby obviating superfluous tightening operations inherent in the installation of conventional drain assembly configurations. Gasket nut 18 may include one or more threads 18a along interior circumferential surface 18b that cooperate with one or more threads along threaded region 13h. Although not essential to practice of the present invention, gasket nut 18 desirably exhibits a height of 28 mm, using 10 mm of threads to accommodate 18 mm of adjustability along threaded region 13h, thereby satisfying the ASME prescribed range of ¼″ for the depth of a sink drain hole.
In order to realize an optimal seal along outer circumferential surface 13d, a frustoconical gasket 20 is disposed adjacent gasket nut 18 and overlies a smooth portion 13i of housing surface 13d above threaded region 13h. Unlike conventional drain assemblies, the sealing surface provided by smooth portion 13i advantageously eliminates the need to check for fluid leaks and to re-tighten gasket 20 when such leaks are found. An optimal seal between gasket 20 and smooth portion 13i is therefore realized by tool or hand tightening upon initial installation of drain assembly 12 in a sanitary vessel. Gasket 20 is desirably fabricated from common durometer rubber as is readily known and available in the industry, although it is contemplated that other plastics and materials may be used in the fabrication thereof without departing from the scope of the present invention.
Gasket nut 18 and frustoconical gasket 20 may sandwich an annular washer 22 therebetween to ensure further sealing function. Washer 22 may be assembled separately between gasket nut 18 and frustoconical gasket 20 as shown. Washer 22 may alternatively be captured by a groove (not shown) defined along either gasket nut contact surface 18c or frustoconical gasket contact surface 20a (see
Now referring to
At motion input extent 28a of sheath 28, it is desirable to provide sheath an alignment and guide member 28b integral therewith. Member 28b facilitates coupling of pull knob 31 (or like actuator) with cable 26 and ensures proper operational alignment thereof while obscuring the entire travel path of pull knob 31. Such configuration not only provides drain assembly 10 with superior function but also elevates the aesthetic appeal thereof. Member 28b may include one or more apertures 28c defined through a wall thereof, which apertures permit egress of fluid prior to fluid contact with cable 26. This feature desirably protects the integrity of cable 26 and ensures proper operation of drain assembly 10 over a prolonged temporal duration.
Actuation assembly 14 further includes a motion transfer mechanism in the form of carapace 32 having guide 34 and slider 30 in coaxial intussusception therewith. Elongate body 32a of carapace 32 defines a lumen 32b that retards linear motion of guide 34 residing therein. Lumen 32b extends between a cable ingress extent 32b′, through which cable 26 enters lumen 32b, and a securement extent 32b″ at which carapace 32 couples with securement region 60 of housing 13 (as seen in
Guide 34 is disposed in lumen 32b and has an elongate body 34a wherein external surface 34b thereabout and interior lumen 34c thereinside together define a guide wall 34d therebetween. Guide lumen 34c accommodates slider 30 therewithin and has one or more longitudinal recesses 34e defined therealong to receive corresponding protrusions 30a defined along a longitudinal extent 30b of slider 30. The coupling of recesses 34e with protrusions 30a permits linear reciprocation of slider 30 and simultaneously prohibits axial rotation thereof relative to guide 34. In addition, guide lumen 34c optionally provides one or more tabs 34f that engage corresponding notches 28d defined at motion output extent 28e of sheath 28, thereby attenuating axial rotation of sheath 28 relative to guide 34. Guide 34 further includes a threaded region 34g that cooperates with corresponding threads of cable nut 39 adjacent thereto. Guide 34 also includes engagement means 34k that cooperate with corresponding cam engagement means 70 defined at securement region 60. Guide engagement means 34k, together with cam engagement means 70, inhibits axial rotation of guide 34 thereby as is further explained hereinbelow.
Further referring to slider 30, a cable receiving region 30c thereof engages a motion output extent 26a of cable 26. Cable receiving region 30c receives a depending member 26c located at motion output extent 26a of cable 26 to ensure sufficient coupling of slider 30 and cable 26 without sacrificing the flexibility and stiffness benefits of the latter. In the alternative, fastening of cable 26 at cable receiving region 30c may be effected by frictional or snap-tight engagement, employment of a fastening element, epoxy or any other known fastening means that is amenable to practice of the present invention. An opposing rotator receiving extent 30d of slider 30 engages a rotator 40 to effect movement thereof. Rotator 40 has a generally linear body 40a bearing a helical extent 40b and a cam extent 40c from which rotator cam 40d depends generally normally. Helical extent 40b cooperates with slider receiving region 30e having an ingress 30f defined at rotator receiving extent 30d (see
Slider 30 further includes one or more detents 30g disposed along longitudinal extent 30b thereof. As slider 30 moves along helical extent 40b, each detent 30g correspondingly travels along a first detent path 34h defined through guide wall 34d. As detent 30g approaches a stop 34i in guide wall 34d, continuing actuation of pull knob 31 imparts motion to cable 26 and delivers detent 30g past stop 34i to a second detent path 34j that corresponds to an uppermost extent to which pull knob 31 may be elevated. Lowering of pull knob 31 will similarly deliver detent 30g from second detent path 34j past stop 34i and to an extent 34h′ of first detent path 34h corresponding to a lowermost extent of pull knob 31. Stop 34i temporarily retards linear actuation of slider 30 so that delivery of detent 30 therepast provides a tactile indication to the user of the actuation member's range of motion. Thus, when the user feels engagement of detent 30g with stop 34i during elevation or lowering of pull knob 31, the user knows that pull knob 31 has reached either the highest extreme or the lowest extreme, respectively, at which pull knob 31 can travel, and that further actuation is neither necessary nor recommended. It is understood that this detent feature is anticipated for use with a plurality of actuation members as described hereinabove and is not limited to use with a pull knob as shown herein.
Now referring to securement region 60, securement extent 32b″ of carapace 32 is removably attached thereto. Although any fastening means may be employed that is amenable to practice of the present invention, securement region 60 as shown herein includes threaded abutment 56 having external threads 62 that complement internal threads 32c at securement extent 32b″ of carapace lumen 32b. Distal extent 56a of threaded abutment 56 is desirably defined so as not to extend beyond housing outer diameter Do. Securement region 60 may therefore be recessed from outer circumferential surface 13e so that drain stopper assembly 12 is readily inserted in the diametrical parameters of preexisting plumbing structure, enabling instant coupling of securement region with actuation assembly 14. It is noted that outer diameter Do may vary along the length of housing body 13d. Distal extent 56a is therefore measured with reference to the maximum outer diameter defined along the housing body.
Threaded abutment 56 includes a receiving region 56b in which rotatable stopper lift cam 64 is disposed. Stopper lift cam 64 includes a driveshaft portion 66 having a cam receiving region 66a for receipt and capture of rotator cam 40d therewithin and spline features 66b corresponding to spline features 40e of rotator cam 40d. Stopper lift cam 64 further includes stop member 64a that cooperates with upper stop 56b′ and lower stop 56b″ defined in receiving region 56b. Stops 56b′ and 56b″ constrain the arcuate path along which stop member 64a travels and thereby effects corresponding opening and closure of stopper 16. It is desirable to place stops 56b′ and 56b″ at or about 120° relative to one another. In this disposition, a vertically applied force on stopper 16 will not affect the stopper's stability and alignment in drain stopper assembly 12, thereby preventing premature rotation of stopper lift cam 64 and ensuring that stopper 16 remains in a fully open position as long as desired.
Cam engagement means 70 that are included in securement region 60 cooperate with corresponding guide engagement means 34k. Cam engagement means 70 may be formed integrally within securement region 60 or may be installed as a component of a replaceable insert 72. Guide engagement means 34k is depicted herein as a plurality of evenly spaced teeth 34k′ that engage similarly sized and spaced teeth 70a of cam engagement means 70. This configuration prevents axial rotation of guide 34 relative to securement region 60 and thereby prevents inadvertent axial rotation of slider 30 during actuation of cable 26.
Upon coupling of carapace 32 with threaded abutment 56, rotator cam spline features 40e first engage driveshaft spline features 66b, preventing the potential for inadvertent turning of rotator cam 40d and corresponding elevation of stopper 16 (thereby compromising the seal integrity thereof). When teeth 34k′ and 70a are employed as engagement means, they must mesh sufficiently to prevent such turning of rotator cam 40d. It is therefore desirable to provide no more than 12 such teeth wherein each such tooth has a sloped front surface. This configuration ensures unidirectional rotation of rotator cam 40d during alignment thereof with cam receiving region 66a. It is understood that guide engagement means 34k and cam engagement means 70 are not limited to meshing teeth as depicted herein and may alternatively comprise other engagement means without departing from the scope of the present invention.
Stopper lift cam 64 further includes middle finger 74 that extends through housing 13. Rotation of rotator cam 40d within cam receiving region 66a correspondingly rotates middle finger 74 for selective engagement with shaft free extent 16b″. Disposed between cam receiving region 66 and finger 74 are proximal annular flange 76 and distal annular flange 78 defining annular space 80 therebetween. Annular space 80 accommodates placement of sealing member 82 therein, depicted herein as an O-ring that facilitates rotational movement of stopper lift cam 64. Stopper lift cam 64 and sealing member 82 advantageously are disposed independently of carapace 32 and its contents so that drain stopper assembly 12 remains sealed even if stopper 16 becomes disengaged therefrom. Rotation of stopper lift cam 64 therefore remains unimpeded without compromising the integrity of the seal.
In use, actuation of pull knob 31 (or like actuator) imparts movement to cable 26 at motion input extent 26b thereof. Motion transmitted along cable 26 is translated to slider 30 at motion output extent 26a, causing reciprocating movement of the slider along helical extent 40b. Rotator 40 rotates axially relative to guide 34 and carapace 32 such that spline features 40e on rotary cam 40d communicate rotary motion with spline features 66b of stopper lift cam 64. Stopper lift cam 64 rotates likewise to raise middle finger 74 into contact with shaft free extent 16b″. Finger 74 thereby elevates closure head 16a above fluid egress 15 to bring stopper 16 to an open position. Further actuation similarly imparts rotary motion to rotator 40, thereby releasing middle finger 74 from engagement with shaft free extent 16b″. Shaft 16b accordingly descends within housing lumen 13f, and closure head 16a correspondingly obstructs fluid egress 15 to prevent escape of fluid from the sanitary vessel.
It is desirable to provide housing 13 as an integral member that significantly reduces installation time in view of conventional multi-piece drain stopper assemblies. In this manner, drain stopper assembly 12 readily installs in pre-existing plumbing structure to eliminate leak paths between the drain stopper assembly and a tailpipe or other fluid flow member with which the drain stopper assembly is installed. In addition, stopper 16 and actuation assembly 14 (either in toto or selected portions thereof) may be pre-assembled with drain assembly 10 at the manufacturing site, thereby realizing significant time savings with respect to assembly and installation. By sealing such components at the factory, the present obviates the need to inspect and adjust the drain assembly for leaks, thereby realizing further time saving benefits.
The present invention anticipates alternate methods of translating motion from cable 26 to a reciprocatable stopper as being within the scope thereof. It is well understood that equivalent motion transmission arrangements may be used in the successful operation of the present invention and the disclosure herein does not act as a limitation thereof. For instance,
Now referring to
A securement region 360 defined along drain body surface 324b (and shown in an exploded view in section D of
All of the above embodiments are readily fabricated from plastic or any other material conducive to successful operation of the present invention. Drain stopper assembly 312 is particularly amenable to fabrication from metal or from plastic in accordance with predetermined tolerance specifications.
Conventional drain devices utilize multiple components that must be installed and adjusted during installation, including components that require formation of a watertight seal. The present invention requires no adjustment or formation of watertight seals during installation; a single connection is required at the drainpipe, and this connection is easily visible and accessible. In addition, the present invention drain assembly, unlike conventional drain assembly configurations, does not require a predefined alignment relative to preexisting plumbing structure. The drain assembly may be installed with the stopper lift mechanism facing any one of several directions that facilitate connection with the motion translation device. The present invention thereby benefits users in diverse installations by substantially reducing the opportunities for improper installation and malfunction of the instant drain apparatus. For both professionals and do-it-yourselfers, the commitment of time and effort inherent in the installation of drain devices deservedly merits that such devices inherently promote rapid installation without compromising long-term functional supremacy. The present invention provides predictably quick installation capabilities in a plurality of sanitary installations and simultaneously provides such installations with enhanced operational benefits.
Various changes to the foregoing described and shown structures are now evident to those skilled in the art. The matter set forth in the foregoing description and accompanying drawings is therefore offered by way of illustration only and not as a limitation. Accordingly, the particularly disclosed scope of the invention is set forth in the following claims.
This application claims priority to Applicant's U.S. Application Ser. No. 60/652,402, filed Feb. 11, 2005, and incorporated by reference herein.
| Number | Name | Date | Kind |
|---|---|---|---|
| 645639 | Bunting, Jr. | Mar 1900 | A |
| 2063399 | Rasmussen | Dec 1936 | A |
| 2553991 | Wagner et al. | May 1951 | A |
| 3002196 | Mackey, Jr. | Oct 1961 | A |
| 4085469 | Petursson | Apr 1978 | A |
| 4411028 | Hogner | Oct 1983 | A |
| 5333327 | Redding et al. | Aug 1994 | A |
| 5822812 | Worthington et al. | Oct 1998 | A |
| 6023795 | Pötter et al. | Feb 2000 | A |
| 6367102 | McMullen | Apr 2002 | B1 |
| 20060156460 | Von Mertz et al. | Jul 2006 | A1 |
| Number | Date | Country |
|---|---|---|
| 0 081 048 | Jun 1983 | EP |
| 0 081 048 | Jun 1986 | EP |
| 0 949 385 | Oct 1999 | EP |
| 2 321 864 | Mar 1977 | FR |
| 1 441 964 | Jul 1976 | GB |
| WO 2005012657 | Feb 2005 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20060179564 A1 | Aug 2006 | US |
| Number | Date | Country | |
|---|---|---|---|
| 60652402 | Feb 2005 | US |
