Device for providing improved drainage

Information

  • Patent Grant
  • 10443220
  • Patent Number
    10,443,220
  • Date Filed
    Friday, August 11, 2017
    7 years ago
  • Date Issued
    Tuesday, October 15, 2019
    5 years ago
Abstract
An overflow assembly for a bathtub includes an elbow having a first threaded section and a retainer nut having a second corresponding threaded section. The retainer nut is configured to threadably mount onto the elbow. The overflow assembly further includes an overflow cover including at least one overflow opening and at least one vent opening defined therein. The overflow cover is configured to engage with the retainer nut and substantially cover the first threaded section and the retainer nut.
Description
INTRODUCTION

A bathtub generally has a drain system positioned in a bottom of the bathtub that allows for selective opening and closing so that the bathtub can retain water. Additionally, an overflow system is provided so that once the water within the bathtub reaches a predetermined height the water can drain from the bathtub and reduce or prevent water from overflowing the bathtub and flowing onto the floor. The overflow system interconnects the bathtub's overflow port to a wastewater system and includes an opening that enables water to flow from the bathtub to the wastewater system. In some known overflow systems exit flow from the opening can be reduced or completely restricted because air pressure within the overflow system restricts or even prevents the water from entering the opening.


SUMMARY

In one aspect, the technology relates to an overflow assembly for a bathtub including: an elbow including a first threaded section; a retainer nut including a second corresponding threaded section, wherein the retainer nut is configured to threadably mount onto the elbow; and an overflow cover including at least one overflow opening and at least one vent opening defined therein, wherein the overflow cover is configured to engage with the retainer nut and substantially cover the first threaded section and the retainer nut.


In an example, the at least one vent opening is configured to equalize air pressure inside the elbow with air pressure outside of the overflow assembly and increase a flow rate of a liquid through the at least one overflow opening. In another example, the overflow cover includes: a face; and an exterior wall extending from the face, wherein the exterior wall is sized and shaped to receive the retainer nut, and wherein an end of the exterior wall defines a mounting surface that is positionable at least partially against the bathtub when the overflow cover is engaged with the retainer nut. In yet another example, the at least one vent opening is at least partially defined by the exterior wall. In still another example, the at least one vent opening is only partially defined by the exterior wall. In an example, the at least one vent opening is completely defined by the exterior wall. In another example, the retainer nut further includes a plurality of circumferentially spaced and radially extending lugs, wherein the exterior wall has a projection configured to frictionally engage with the plurality of lugs, and wherein the at least one vent opening has a length greater than a length of a lug of the plurality of lugs. In yet another example, the overflow cover includes an interior surface having at least one surface feature configured to increase a flow rate of a liquid through the overflow assembly.


In another aspect, the technology relates to an overflow assembly for a bathtub including: an elbow; a retainer nut; a bracket configured to secure the retainer nut to the elbow; and an overflow cover including at least one overflow opening and at least one vent opening defined therein, wherein the overflow cover is configured to engage with the retainer nut and substantially cover the bracket and the retainer nut.


In another aspect, the technology relates to an overflow cover including: a face; and an exterior wall extending from the face, wherein the exterior wall is sized and shaped to receive and engage a retainer nut of an overflow assembly, wherein an end of the exterior wall defines a mounting surface that is configured to be positioned against a bathtub when the overflow cover is mounted over an overflow port, and wherein at least one overflow opening and at least one vent opening are at least partially defined by the exterior wall.


In an example, the at least one vent opening is only partially defined by the exterior wall. In another example, the exterior wall includes an interior surface having a projection extending therefrom, the projection is offset from the mounting surface and configured to frictionally engage a retainer nut, and wherein the at least one vent opening extends from the mounting surface to a depth that is less than or equal to the offset distance. In yet another example, the at least one vent opening is completely defined by the exterior wall. In still another example, the exterior wall includes an interior surface having a projection extending therefrom, the projection is offset a distance from the mounting surface and configured to frictionally engage a retainer nut, and wherein the at least one vent opening is positioned between the projection and the face. In an example, the face includes an interior surface having at least one surface feature configured to increase a flow rate of a liquid through the overflow assembly. In another example, the at least one surface feature includes at least one fin extending from the interior surface. In yet another example, the at least one surface features includes a textured surface. In still another example, the exterior wall defines a length, and wherein the at least one overflow opening is offset along the length from the at least one vent opening. In an example, the at least one overflow opening is positioned below a horizontal centerline of the overflow cover, and wherein the at least one vent opening is positioned above the horizontal centerline. In another example, the at least one vent opening is substantially disposed opposite the at least one overflow opening.


These and various other features as well as advantages which characterize the overflow assembly and overflow cover described herein will be apparent from a reading of the following detailed description and a review of the associated drawings. Additional features are set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the technology. The benefits and features of the technology will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.


It is to be understood that both the foregoing introduction and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.





BRIEF DESCRIPTION OF THE DRAWINGS

The following drawing figures, which form a part of this application, are illustrative of described technology and are not meant to limit the scope of the invention as claimed in any manner, which scope shall be based on the claims appended hereto.



FIG. 1 is a partial perspective view of an exemplary bathroom structure.



FIG. 2 is a cross-sectional view of the bathroom structure shown in FIG. 1 taken along line 2-2.



FIG. 3 is an exploded perspective view of an exemplary overflow assembly shown in FIG. 2.



FIG. 4A is a cross-sectional view of the overflow assembly shown in FIG. 2 installed within a bathtub overflow port.



FIG. 4B is a detail view of the overflow assembly shown in FIG. 4A taken at 4B.



FIGS. 5A-5F are perspective, top, bottom, side, cross-sectional, and interior views, respectively, of an exemplary overflow cover.



FIG. 6 is a top view of another overflow cover.



FIG. 7 is a top view of another overflow cover.



FIG. 8 is a top view of another overflow cover.



FIGS. 9A and 9B are interior and cross-sectional views, respectively, of another overflow cover.



FIG. 10 is an interior view of another overflow cover.



FIG. 11 is an interior view of another overflow cover.



FIG. 12 is an interior view of another overflow cover.



FIG. 13 is an interior view of another overflow cover.



FIG. 14 is an interior view of another overflow cover.



FIG. 15 is an interior view of another overflow cover.



FIG. 16 is an exploded perspective view of another overflow assembly.





DETAILED DESCRIPTION

Before the overflow assembly and overflow cover that are the subject of this disclosure are described, it is to be understood that this disclosure is not limited to the particular structures, process steps, or materials disclosed herein, but is extended to equivalents thereof as would be recognized by those ordinarily skilled in the relevant arts. It should also be understood that terminology employed herein is used for the purpose of describing particular embodiments only and is not intended to be limiting. It must be noted that, as used in this specification, the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise.


This disclosure describes overflow covers for use in an overflow assembly of a bathtub. The overflow covers enable a flow rate of water exiting from the bathtub to be increased and to reduce flow rate restriction due to the buildup of air pressure within the overflow assembly. The overflow covers include an overflow opening and a vent opening so that the air pressure from inside the overflow assembly is allowed to equalize with the air pressure outside of the overflow assembly without having to escape from the overflow opening. Additionally, the overflow cover may include an interior surface feature that further increases the flow rate of the water exiting from the bathtub.



FIG. 1 is a partial perspective view of an exemplary bathroom structure 100. FIG. 2 is a cross-sectional view of the bathroom structure 100 taken along line 2-2 (shown in FIG. 1). Referring concurrently to FIGS. 1 and 2, the bathroom structure 100 includes a floor 102 and at least one wall 104 with a bathtub 106 positioned therein and supported on the floor 102. The bathtub 106 includes a bottom 108 with side walls 110 and end walls 112 extending upwardly therefrom and which form an open basin 114 that may retain liquid, such as water, therein. A drain system 116 couples the bathtub 106 in flow communication with a wastewater plumbing system 118 to enable the water to be drained from the bathtub 106 and channeled out of the bathroom structure 100. The drain system 116 may include a drain elbow 120 that is attached at a first end to the bottom 108 of the bathtub 106 at a drain port 122. A tub closure assembly 124 is coupled to the first end of the drain elbow 120 and enables the drain port 122 to be selectively opened and closed. From the bathtub 106, the drain elbow 120 extends to a T-connector 126 which couples the drain elbow 120 to the plumbing system 118.


In addition to the drain system 116, an overflow system 128 also couples the bathtub 106 in flow communication with the plumbing system 118 to enable water to be drained from the bathtub 106 at a second location within the bathtub and channeled out of the bathroom structure 100. The overflow system 128 may be positioned within a wall opening 130 defined in the wall 104 and include an overflow pipe 132 that is attached at a first end, via an overflow elbow 134, to the end wall 112 at an overflow port 136. An overflow assembly 138 is coupled to the first end of the overflow elbow 134 and provides a covering for the overflow port 136. From the bathtub 106, the overflow pipe 132 extends to the T-connector 126 which couples the overflow pipe 132 to the plumbing system 118. The overflow pipe 132 can be either a rigid pipe member, with or without fittings, or a flexible pipe member. A vent pipe 140 runs within the wall 104 and is open to exterior ambient air at one end to provide venting of the plumbing system 118. Additionally, one or more water supply lines 144 run within the wall 104 and are in flow communication with a faucet 146 positioned proximate the bathtub 106 and/or a shower head (not shown) positioned above the bathtub 106. A control assembly 148 mounted on the wall 104 includes one or more control valves 150 that are used to control the flow and/or temperature of the water from the valves 150 to the faucet 146 and/or shower head.


In operation, a flow of water, for example, from the faucet 146, may be used to fill the bathtub 106. Water flow out of the bathtub 106 may be impeded for a number of reasons. For example, the tub closure assembly 124 may be closed to prevent water from draining out of the bathtub 106 through the drain system 116. Also, at times the drain elbow 120 may be clogged, preventing water from draining out of the bathtub 106. Regardless, to reduce or eliminate overflow from the bathtub 106, the overflow system 128 is used to enable the water to flow out of the open basin 114 and into the plumbing system 118 once the water reaches the installation height of the overflow assembly 138. The exit flow rate of the overflow system 128 in relation to the inlet flow rate from the faucet 146 determines how long it takes to overflow the bathtub 106. In examples, the overflow system 128 may be sized and shaped to have an exit flow rate less than, equal to, or greater than the inlet flow from the faucet 146.


When the water reaches the level of the overflow assembly and/or submerges the overflow assembly, the upstream water within the bathtub may cavitate and/or form a funnel flow such that the air pressure from inside the overflow assembly is allowed to equalize with the air pressure outside of the overflow assembly and allow the exit flow from the bathtub through at least one overflow opening 180 (shown in FIG. 3). However, in some known systems, when water reaches the level of the overflow assembly and/or submerges the overflow assembly, upstream water cavitation and/or funnel flow is reduced and/or restricted, thereby reducing or completely restricting the exit flow because downstream air pressure within the overflow elbow is not allowed to equalize. This cavitation may create a boundary that prevents water from entering the overflow assembly. As such, water can more quickly overflow the bathtub. In examples, if the upstream water within the bathtub has a more turbulent flow proximate to the overflow assembly, cavitation and/or funnel flow formation within the water is reduced. The turbulent flow may be induced within the upstream bathtub water by the inlet flow rate from the faucet, pressure of the inlet flow, distance (height and length) from the faucet to the overflow assembly, and/or distance from the faucet to the water level in the bathtub.


Accordingly, the overflow assembly 138 includes at least one vent opening 182 (shown in FIG. 3) so that the air pressure from inside the overflow assembly can equalize with the air pressure outside of the overflow assembly without having to escape from the overflow opening. As such, the exit flow rate through the overflow assembly 138 may be increased during overflow conditions. Additionally, exit flow through the overflow assembly 138 during upstream turbulent flow of the bathtub water is enabled and increased. In the example, the overflow assembly 138 includes the overflow elbow 134, a seal 152, a retainer nut 154, and an overflow cover 156 that is also sometimes referred to as a face plate, a cap, a plate, and/or an overflow plate. The overflow assembly 138 is described further below in reference to FIGS. 3-5F. Additionally, components of the bathroom structure 100 are further described in, for example, U.S. Pat. No. 8,321,970 entitled “METHOD AND ASSOCIATED APPARATUS FOR ASSEMBLY AND TESTING A PLUMBING SYSTEM,” and U.S. Pat. No. 9,200,436 entitled “OVERFLOW ASSEMBLY FOR BATHTUBS AND THE LIKE,” both of which are incorporated herein by reference in their entireties.



FIG. 3 is an exploded perspective view of the overflow assembly 138. The overflow assembly 138 includes the overflow elbow 134 that acts as an inlet fitting for the overflow pipe 132 (shown in FIG. 2). The elbow 134 includes an inlet end 158 having a threaded outer surface 160 and an outlet end 162 having a collar 164 so that the elbow 134 may be coupled to the overflow pipe as described above. The inlet end 158 is disposed at an angle in relation to the inlet end 158 and is sized and shaped to extend through the overflow port of the bathtub. A radial flange 166 is adjacent to the threaded outer surface 160 at the inlet end 158 so that only the threaded outer surface 160 of the inlet end 158 extends through the overflow port. In some examples, a thin membrane 168 may cover the inlet end 158 of the elbow 134 to facilitate bathtub leak testing as described in U.S. Pat. No. 9,200,436 entitled “OVERFLOW ASSEMBLY FOR BATHTUBS AND THE LIKE.” Once testing is completed, the membrane 168 may be removed to enable operation of the overflow assembly as described above.


The overflow assembly 138 also includes the seal 152 which can be formed out of a foam or rubber compound. The seal 152 is positioned between the radial flange 166 of the elbow 134 and the outside of the bathtub end wall (depicted schematically at line L) and is flexible to facilitate alignment and securement of the overflow assembly 138. The retainer nut 154 includes a threaded inner surface 170 that corresponds to and is compatible with the threaded outer surface 160 of the elbow 134 so that the retainer nut 154 may threadably mount onto the elbow 134. A plurality of circumferentially spaced and radially extending lugs 172 extend from an outer surface 174 of the retainer nut 154. Each lug 172 has a circumferential length 176 and is separated from one another by a gap 178. When the retainer nut 154 engages the overflow elbow 134, the bathtub wall and the seal 152 are compressed between the radial flange 166 and the retainer nut 154 so as to secure the overflow assembly 138 within the overflow port. In alternative examples, the retainer nut 154 may be any other type of fastener, for example, a slip nut that enables the overflow assembly 138 to be secured within the bathtub as described herein.


The overflow cover 156 is configured to selectively engage with the retainer nut 154 and conceal the inlet end 158 of the elbow 134 and the retainer nut 154 such that a finish is provided with no visible fastening hardware. The overflow cover 156 includes at least one overflow opening 180 and at least one vent opening 182 at least partially defined therein. The overflow opening 180 enables water to flow into the overflow elbow 134 from the bathtub. The vent opening 182 enables the air pressure inside the elbow 134 to equalize with the air pressure outside of the overflow assembly 138 so that the flow rate of water through the overflow opening 180 is increased, thereby reducing water overflowing the bathtub and onto the floor. The overflow cover 156 is described further below in reference to FIGS. 5A-5F.



FIG. 4A is a cross-sectional view of the overflow assembly 138 installed within the bathtub overflow port 136. FIG. 4B is a detail view of the overflow assembly 138 taken at 4B (shown in FIG. 4A). Referring concurrently to FIGS. 4A and 4B, the inlet end 158 of the overflow elbow 134 extends through the overflow port 136 defined in the end wall 112 of the bathtub 106. The retainer nut 154 may threadingly engage with the inlet end 158 so that the seal 152 and the bathtub 106 are compressed between the retainer nut 154 and the radial flange 166 of the elbow 134 and the overflow assembly 138 is secured to the bathtub 106. Once the retainer nut 154 secures the elbow 134 to the bathtub, the overflow cover 156 may be selectively engaged onto the retainer nut 154 so as secure the overflow cover 156 around the overflow port 136 and the inlet end 158 with no visible mounting fastening hardware.


The overflow cover 156 defines an interior chamber 184 that is sized and shaped so a first channel 186 may be defined between the elbow 134 and the overflow cover 156. The first channel 186 extends from the overflow opening 180, which is positioned at the bottom of the cover 156 when it is engaged with the retainer nut 154, to the inlet end 158 so that water may flow (illustrated with arrow 188) from the bathtub 106 and into the overflow assembly 138 thereby reducing or eliminating bathtub overflow. Additionally, the interior chamber 184 of the overflow cover 156 is sized and shaped so a second channel 190 may be defined between the elbow 134 and the overflow cover 156. The second channel 190 extends from the vent opening 182, which is positioned at the top of the cover 156 when it is engaged with the retainer nut 154, to the inlet end 158 so that air may flow (illustrated with arrow 192) out of the overflow assembly 138. As such, during water inflow 188, the air pressure from inside the overflow system 128 is allowed to equalize with the air pressure outside of the overflow system 128, thereby increasing the exit flow rate of the water through the overflow opening 180.


In the example, the overflow cover 156 has at least one recess 194 defined therein so that the vent opening 182 is formed between the bathtub 106 and the overflow cover 156 when the overflow cover 156 is engaged with the retainer nut 154. The recess 194 has a depth 196 that is less than a thickness 198 of the retainer nut 154 such that at least one lug 172 of the retainer nut 154 is positioned within the vent opening 182. However, the recess 194 has a circumferential length 217 (shown in FIG. 5B) that is greater than the circumferential length 176 (shown in FIG. 3) of each lug 172, so that air can flow 192 through the vent opening 182 and within the gaps between each lug 172. As such, the vent opening 182 cannot be fully blocked no matter what position the retainer nut 154 is in when the overflow cover 156 is engaged. Additionally, the lugs 172 are partially spaced apart from the outer surface of the retainer nut so that air flow may flow around the lugs.



FIGS. 5A-5F are perspective, top, bottom, side, cross-sectional, and interior views, respectively, of an exemplary overflow cover 156. In general, orientations of the overflow cover 156 are described as depicted in the figures (e.g., top, bottom, interior, etc.). These general terms are utilized for clarity only to distinguish the various orientations from each other with respect to the intended installation orientation of the overflow cover 156 within the bathtub as shown in FIGS. 4A and 4B. In the example, the overflow cover 156 is formed from a cylindrical body 200 that includes a first end 202, an opposite second end 204, with an exterior wall 206 axially extending between the first end 202 and the second end 204. The first end 202 is enclosed with a face 208 and the exterior wall 206 extends from the face 208. In the example, the face 208 does not have any mounting holes defined therein. As such, the overflow cover 156 frictionally engages with the lugs on the retainer nut so as to mount within the bathtub. In other examples, the face may include at least one mounting hole so that the overflow cover 156 may mount to the overflow elbow with one or more fasteners. As used herein the vent opening 180 is distinct and different from the mounting holes that may be used to fasten an overflow cover to the overflow elbow and that, when installed, would be filled with a screw or other fastener. The vent opening 180 is configured to be left substantially open when installed to provide the venting described herein.


The second end 204 is defined at the end of the exterior wall 208. At the second end 204 the exterior wall 208 open and is sized and shaped to receive the retainer nut as described above. A perimeter 210 of the exterior wall 208 defines a mounting surface 212 that is positionable at least partially against the bathtub when the overflow cover 156 engages with the retainer nut. In some embodiments, the body 200 may be formed as any other shape as required or desired such as square, rectangular, triangular, and cowbell-shaped. In other embodiments, the face 208 may extend radially outward from the exterior wall 206 such that a lip is formed at the first end 202.


The at least one overflow opening 180 is completely defined by the exterior wall 206 between the first end 202 and the second end 204. In the example, the overflow opening 180 is a single opening positioned at the bottom of the overflow cover 156 so that as the water rises within the bathtub, the overflow opening 180 enables the water to exit out of the bathtub and reduce overflowing the bathtub. The overflow cover 156 may be defined by a horizontal centerline 211 that substantially divides the body 200 between an upper half and a lower half of the body in its intended installation position. Although FIG. 5F illustrates a substantially circular profile of the body 200 in an exemplary installed position, as discussed, the shape of the body 200 can take many forms. As used herein, regardless of the shape of the body 200, the horizontal centerline 211 is located approximately at the mid-point between the top most surface of the body 200 and the bottom most surface of the body 200 in its intended installation position. The overflow cover 156 may also define a vertical centerline 213 that divides the body 200 between a right side and a left side of the body in its intended installation position. The vertical centerline 213 is located approximately at the mid-point between the right most surface of the body 200 and the left most surface of the body 200. The overflow opening 180 may be positioned below the horizontal centerline 211 and centered about the vertical centerline 213 at the bottom most surface of the body, which may be referred to as a 6 o'clock position. In examples, the overflow opening 180 is so positioned when installed so that the rising water in a bathtub reaches the overflow opening 180 most quickly; however, the overflow opening 180 can be configured in a variety of positions about the body. For example, the overflow opening 180 may be positioned at any location below the horizontal centerline 211 and offset from the vertical centerline 213. For example, the overflow opening position may be between a 3 o'clock position and a 9 o'clock position. In yet other examples, the overflow opening may include a plurality of discrete openings all completely defined by the exterior wall. In alternative examples, the overflow opening may be only partially defined by the exterior wall, such as by a recess and the bathtub wall and similar to the vent opening 182 as described herein.


In the example, the at least one vent opening 182 is at least partially defined by the exterior wall 206. For example, the at least one vent opening is only partially defined by the exterior wall 206, such as by the recess 194 that is defined at the second end 204. The recess 194 is formed on the mounting surface 212 and extends from the second end 204 towards the first end 202 within the exterior wall 206 and with a substantially arcuate shape extending for a circumferential length 217 around the perimeter 210. The recess 194 is positioned adjacent to the bathtub when in the intended installation position which forms the other boundary of the vent opening 182 as described above. In examples, the vent opening 182 is a single opening that may be positioned above the horizontal centerline 211 and centered about the vertical centerline 213 at the top of the overflow cover 156 so that air pressure may equalize and increase the flow of water through the overflow opening 180. In this example, the vent opening position may be referred to as a 12 o'clock position, and disposed opposite the overflow opening 180. In other examples, the vent opening 182 may be positioned within the body 200 anywhere above the overflow opening 180 in its intended installation position. In yet other examples, the vent opening 182 may be positioned at any location above the horizontal centerline 211 and may be offset from the vertical centerline 213. In examples, the vent opening position may be above the horizontal centerline 211 and between a 9 o'clock position and a 3 o'clock position. In still other examples, in its intended installation position, the vent opening 182 may be positioned above a three-quarter horizontal line 215 (defined as a line parallel to the horizontal centerline 211 and positioned three quarters of the distance between the top-most surface on the body 200 and the horizontal centerline 211), or above a half horizontal line 219 (defined as a line parallel to the horizontal centerline 211 and positioned three quarters of the distance between the top-most surface on the body 200 and the horizontal centerline 211), or above a one-quarter horizontal line 221 (defined as a line parallel to the horizontal centerline 211 and positioned one quarter of the distance between the top-most surface on the body 200 and the horizontal centerline 211). In further examples, the vent opening 182 may include a plurality of discrete openings and as shown in FIGS. 6 and 8, any one or all of which may be positioned in the manners described above. In still further examples, the vent opening may be completely defined by the exterior wall and similar to the overflow opening 180 as described herein. In alternative examples, the vent opening may be formed at the first end 202 of the body 200 between the exterior wall 206 and the face 208.


The exterior wall 206 includes an interior surface 214 that partially defines the interior chamber 184 of the body 200. The interior surface 214 has a projection 216 extending inwards within the interior chamber 184 and around the perimeter 210 of the second end 204. The projection 216 is offset 218 from the mounting surface 212 and is configured to frictionally engage with the lugs on the retainer nut so that the overflow cover 156 may be removably secured to the overflow assembly. In the example, the vent opening 182 extends from the mounting surface 212 to the depth 196 that is less than or equal to the offset distance 218. In other examples, the vent opening 182 may extend from the mounting surface 212 towards the face 208 and past the projection 216. Additionally, the exterior wall 206 may extend for a length 219 from the face 208. In the example, the overflow opening 180 is offset 220 along the length 219 from the vent opening 182. In alternative examples, the overflow opening 180 may be inline along the length 219 with the vent opening 182.


The face 208 includes an interior surface 222 that partially defines the interior chamber 184 of the body 200. The interior surface 222 forms a wall of the first channel 186 and the second channel 190 (both shown in FIG. 4A), and as such, water and/or air flows past the interior surface 222. In some examples, the interior surface 222 may be a substantially smooth surface. In other embodiments, the interior surface 222 may include at least one surface feature 224 as shown in FIG. 5F. The at least one surface feature 224 may influence water and/or air flow through the overflow assembly. More specifically, as the water flows past the at least one surface feature 224, the at least one surface feature 224 is sized and shaped to break a pressure lock within the overflow assembly so that water flow rate through the overflow assembly is increased. In the example, the at least one surface feature 224 includes at least one fin 226. For example, three fins 226 are curved and extend within the overflow cover 156. One fin may be curved upward and the other fin may be curved downward with different curvatures. In other examples, the fins may have similar curvatures. In yet other examples, the fins may have a constant and similar height and/or length, or a variable height and/or length. In yet further examples, the fins may start at an offset position from the exterior wall. Surface features 224 are described further below in reference to FIGS. 9A-15.



FIG. 6 is a top view of another overflow cover 300. In this example, the overflow cover 300 is formed from a body 302 that includes a first end 304 having a face 306 and a second end 308 having a mounting surface 310 with an exterior wall 312 extending therebetween as described above. Additionally, at least one overflow opening (not shown) is defined within the exterior wall 312 and at the bottom of the body 302. However, in this example, a vent opening 314 is only partially defined by the exterior wall 312. The other portion of the vent openings 314 may be defined by the bathtub wall as described above. More specifically, the vent opening 314 may be a plurality of recesses 316 circumferentially spaced at the top of the body 302. The vent openings 314 are substantially arcuate shaped with ends that coincide with the mounting surface 310. In one example, three vent openings 314 are defined with one opening at the apex of the top of the body 302 and two openings equally spaced to either side so as to enable air pressure to equalize within the overflow assembly leading to an increase of water flow through the overflow opening. In other examples, any other size, shape, spacing, and/or number of recesses may form the vent opening 314.



FIG. 7 is a top view of another overflow cover 400. In this example, the overflow cover 400 is formed from a body 402 that includes a first end 404 having a face 406 and a second end 408 having a mounting surface 410 with an exterior wall 412 extending therebetween as described above. Additionally, at least one overflow opening (not shown) is defined within the exterior wall 412 and at the bottom of the body 402. However, in this example, a vent opening 414 is completely defined by the exterior wall 412. The vent opening 414 is a single opening and may be substantially circular and positioned between the second end projection (shown in FIG. 5E) and the face 406. In one example, the vent opening 414 is at the apex of the top of the body 302 so as to enable air pressure to equalize within the overflow assembly leading to an increase water flow through the overflow opening. In other examples, any other size, shape, spacing, and/or number of openings may form the vent opening 414.



FIG. 8 is a top view of another overflow cover 500. In this example, the overflow cover 500 is formed from a body 502 that includes a first end 504 having a face 506 and a second end 508 having a mounting surface 510 with an exterior wall 512 extending therebetween as described above. Additionally, at least one overflow opening (not shown) is defined within the exterior wall 512 and at the bottom of the body 502. However, in this example, a vent opening 514 is completely defined by the exterior wall 512. The vent opening 514 may be a plurality of openings and circumferentially spaced at the top of the body 502. The vent openings 514 are substantially circular and positioned between the second end projection (shown in FIG. 5E) and the first end 504. In one example, the vent openings 514 are defined by eight openings spaced about the apex of the top of the body 502 so as to enable air pressure to equalize within the overflow assembly leading to an increase water flow through the overflow opening. In other examples, any other size, shape, spacing, and/or number of openings may form the vent opening 514.



FIGS. 9A and 9B are interior and cross-sectional views, respectively, of another overflow cover 600. In this example, the overflow cover 600 is formed from a body 602 that includes a first end 604 having a face 606 and a second end 608 having a mounting surface 610 with an exterior wall 612 extending therebetween as described above. Additionally, at least one overflow opening 614 is completely defined by the exterior wall 612 and at the bottom of the body 602 and at least one vent opening 616 is only partially defined by the exterior wall 612 and at the top of the body 602. However, in this example, an interior surface 618 includes a surface feature 620 that has a first fin 622 extending from the exterior wall 612 into the center of the overflow cover 600, terminating at a curved tip 624 and a second fin 626 extending from the exterior wall 612 into the center of the overflow cover 600, terminating at a curved tip 628. The first fin 622 may be a smaller height 630 that a height 632 of the second fin 626. In alternative examples, the fins 622, 626 may have substantially equal heights. In other examples, the fins may be offset from the exterior walls.



FIG. 10 is an interior view of another overflow cover 700. In this example, the overflow cover 700 is formed from a body 702 that includes a second end 704 having a mounting surface 706, an exterior wall 708, and at least one vent opening 710 that is only partially defined by the exterior wall 708 and at the top of the body 702 as described above. However, in this example, an interior surface 712 includes a surface feature 714 that has four fins with curved tips circumferentially spaced within the body 702. In other examples, each fin may have different shapes and/or the surface feature may have a lower or higher number of fins.



FIG. 11 is an interior view of another overflow cover 800. In this example, the overflow cover 800 is formed from a body 802 that includes a second end 804 having a mounting surface 806, an exterior wall 808, and at least one vent opening 810 that is only partially defined by the exterior wall 808 and at the top of the body 802 as described above. However, in this example, an interior surface 812 includes a surface feature 814 that has four fins with straight tips circumferentially spaced within the body 802. In other examples, each fin may have different shapes and/or the surface feature may have a lower or higher number of fins.



FIG. 12 is an interior view of another overflow cover 900. In this example, the overflow cover 900 is formed from a body 902 that includes a second end 904 having a mounting surface 906, an exterior wall 908, and at least one vent opening 910 that is only partially defined by the exterior wall 908 and at the top of the body 902 as described above. However, in this example, an interior surface 912 includes a surface feature 914 that has a textured surface. For example, the textured surface may be similar to that of golf ball dimples. The textured surface may be included over the entire interior surface 912 or may be included on only a portion as required or desired. In other examples, the textured surface has any other configuration that enables the overflow cover to function as described herein.



FIG. 13 is an interior view of another overflow cover 1000. In this example, the overflow cover 1000 is formed from a body 1002 that includes a second end 1004 having a mounting surface 1006, an exterior wall 1008, and at least one vent opening 1010 that is only partially defined by the exterior wall 1008 and at the top of the body 1002 as described above. However, in this example, an interior surface 1012 has a surface feature that includes a textured surface 1014 as described above and at least one fin 1016 also as described above. In other examples, the fins 1018 may have any other configuration that enables the overflow cover to function as described herein.



FIG. 14 is an interior view of another overflow cover 1100. In this example, the overflow cover 1100 is formed from a body 1102 that includes a second end 1104 having a mounting surface 1106, an exterior wall 1108, and at least one vent opening 1110 that is only partially defined by the exterior wall 1108 and at the top of the body 1102 as described above. However, in this example, an interior surface 1112 includes a surface feature 1114 that has a textured surface that has at least one dimple 1116 that is larger than the surface feature shown in FIG. 12.



FIG. 15 is an interior view of another overflow cover 1200. In this example, the overflow cover 1200 is formed from a body 1002 that includes a second end 1204 having a mounting surface 1206, an exterior wall 1208, and at least one vent opening 1210 that is only partially defined by the exterior wall 1208 and at the top of the body 1202 as described above. However, in this example, an interior surface 1212 has a surface feature that includes a textured surface 1214 covering only a lower portion of the interior surface 1212 and a pair of fins 1216. In other examples, the textured surface may cover any other portion of the interior surface, such as an upper portion, a center portion, a left portion, or a right portion, when the overflow cover is in its intended installed position.



FIG. 16 is an exploded perspective view of another overflow assembly 1300. The overflow assembly 1300 includes an overflow elbow 1302, a seal 1304, a retainer nut 1306, and an overflow cover 1308 as described above. However, in this example, an inlet end 1310 of the elbow 1302 includes a receiver 1312 disposed therein. The receiver 1312 is configured to receive a fastener 1314 so that a bracket 1316 may compress the retainer nut 1306, the seal 1304, and a bathtub wall (not shown) into the elbow 1302 and the retainer nut 1306 is secured in relation to the elbow 1302. The bracket 1316 enables the retainer nut 1306 and the overflow cover 1308 to be retrofitted onto other overflow systems, which are not threaded and which typically attach the cover via a fastener on the front, without having to replace the entire overflow system and open up the wall behind the bathtub. The bracket 1316 also includes two channels 1318 on either end so that the bracket 1316 may secure to a receiver 1312 that is configured for two fasteners.


The materials utilized in the manufacture of the overflow assembly and overflow covers described herein may be those typically utilized for plumbing and trim kits, e.g., brass, chrome, zinc, steel, aluminum, stainless steel, copper, etc. Molded plastics, such as acrylonitrile butadiene styrene (ABS), polyvinyl chloride (PVC), flexible PVC, polyethylene, etc., may be utilized for various components as well. Material selection for most of the components may be based on the proposed use and desired finish of the overflow assembly and overflow covers.


It will be clear that the systems and methods described herein are well adapted to attain the ends and advantages mentioned as well as those inherent therein. Those skilled in the art will recognize that the methods and systems within this specification may be implemented in many manners and as such is not to be limited by the foregoing exemplified embodiments and examples. In this regard, any number of the features of the different embodiments described herein may be combined into one single embodiment and alternate embodiments having fewer than or more than all of the features herein described are possible. While various embodiments have been described for purposes of this disclosure, various changes and modifications may be made which are well within the scope contemplated by the present disclosure.

Claims
  • 1. An overflow assembly for a bathtub comprising: an elbow comprising a first threaded section;a retainer nut comprising a second corresponding threaded section, wherein the retainer nut is configured to threadably mount onto the elbow; andan overflow cover comprising: a face;an exterior wall extending from the face, wherein an end of the exterior wall opposite of the face defines a mounting surface;at least one overflow opening defined at least partially by the exterior wall; andat least one vent opening comprising a recess formed on the mounting surface and extending towards the face, wherein when the overflow assembly is coupled to the bathtub, the first threaded section extends through a wall of the bathtub and received by the retainer nut positioned adjacent to the wall, and wherein when the overflow cover is engaged with the retainer nut, at least a portion of the first threaded section and the retainer nut are disposed within the overflow cover, and the mounting surface is positioned at least partially against the bathtub so that the at least vent opening is formed between the bathtub and the overflow cover.
  • 2. The overflow assembly of claim 1, wherein the at least one vent opening is configured to equalize air pressure inside the elbow with air pressure outside of the overflow assembly and increase a flow rate of a liquid through the at least one overflow opening.
  • 3. The overflow assembly of claim 1, wherein the exterior wall is sized and shaped to receive the retainer nut.
  • 4. The overflow assembly of claim 3, wherein the at least one vent opening is at least partially defined by the exterior wall.
  • 5. The overflow assembly of claim 4, wherein the at least one vent opening is only partially defined by the mounting surface.
  • 6. The overflow assembly of claim 1, wherein the at least one overflow opening is completely defined by the exterior wall.
  • 7. The overflow assembly of claim 3, wherein the retainer nut further comprises a plurality of circumferentially spaced and radially extending lugs, wherein the exterior wall has a projection configured to frictionally engage with the plurality of lugs, and wherein the at least one vent opening has a length greater than a length of a lug of the plurality of lugs.
  • 8. The overflow assembly of claim 1, wherein the overflow cover comprises an interior surface having at least one surface feature configured to increase a flow rate of a liquid through the overflow assembly.
  • 9. An overflow assembly for a bathtub comprising: an elbow;a retainer nut;a bracket configured to secure the retainer nut to the elbow; andan overflow cover comprising: a face;an exterior wall extending from the face, wherein an end of the exterior wall opposite of the face defines a mounting surface;at least one overflow opening defined at least partially by the exterior wall; andat least one vent opening defined therein comprising a recess formed on the mounting surface and extending towards the face, wherein the overflow cover is configured to engage with the retainer nut and substantially cover the bracket and the retainer nut.
  • 10. An overflow cover comprising: a face;an exterior wall extending from the face, wherein the exterior wall is sized and shaped to receive and engage a retainer nut of an overflow assembly, wherein an end of the exterior wall defines a mounting surface that is configured to be positioned against a bathtub when the overflow cover is mounted over an overflow port, and wherein at least one overflow opening is at least partially defined by the exterior wall and at least one vent opening comprises a recess formed on the mounting surface and extending towards the face;a horizontal centerline dividing the overflow cover between an upper half and a lower half; anda vertical centerline extending substantially orthogonal to the horizontal centerline and dividing the overflow cover between a right half and a left half, wherein the at least one overflow opening is positioned on the exterior wall opposite of the at least one vent opening relative to the horizontal centerline, and wherein at least a portion of the at least one overflow opening and at least a portion of the at least one vent opening are positioned along the vertical centerline.
  • 11. The overflow cover of claim 10, wherein the at least one vent opening is only partially defined by the mounting surface.
  • 12. The overflow cover of claim 11, wherein the exterior wall comprises an interior surface having a projection extending therefrom, the projection is offset from the mounting surface and configured to frictionally engage a retainer nut, and wherein the at least one vent opening extends from the mounting surface to a depth that is less than or equal to the offset distance.
  • 13. The overflow cover of claim 10, wherein the at least one overflow opening is completely defined by the exterior wall.
  • 14. The overflow cover of claim 13, wherein the exterior wall comprises an interior surface having a projection extending therefrom, the projection is offset a distance from the mounting surface and configured to frictionally engage a retainer nut, and wherein the at least one overflow opening is positioned between the projection and the face.
  • 15. The overflow cover of claim 10, wherein the face comprises an interior surface having at least one surface feature configured to increase a flow rate of a liquid through the overflow assembly.
  • 16. The overflow cover of claim 15, wherein the at least one surface feature comprises at least one fin extending from the interior surface.
  • 17. The overflow cover of claim 15, wherein the at least one surface features comprises a textured surface.
  • 18. The overflow cover of claim 10, wherein the exterior wall defines a length, and wherein the at least one overflow opening is offset along the length from the at least one vent opening.
  • 19. The overflow cover of claim 10, wherein the at least one vent opening is disposed substantially opposite the at least one overflow opening.
CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to and the benefit of U.S. Provisional Patent Application Ser. No. 62/374,089, filed on Aug. 12, 2016, under 35 U.S.C. § 119(e), the disclosure of which is hereby incorporated herein by reference in its entirety.

US Referenced Citations (442)
Number Name Date Kind
37956 Dyott Mar 1863 A
156971 Beins et al. Nov 1874 A
427478 McEvoy May 1890 A
437289 Clark Sep 1890 A
569247 Smith Oct 1896 A
608207 Merritt Aug 1898 A
775020 Waterman Nov 1904 A
820437 Pehrson May 1906 A
843968 Sharp, Jr. Feb 1907 A
880939 Virgo Mar 1908 A
917717 Diedrick Apr 1909 A
938102 Wise Oct 1909 A
952240 Deming Mar 1910 A
964954 Coles Jul 1910 A
1013175 Jones Jan 1912 A
1018021 Willetts Feb 1912 A
1068039 Clark Jul 1913 A
1173710 Crocker et al. Feb 1916 A
1173854 Pearch Feb 1916 A
1213466 Delanoy et al. Jan 1917 A
1330909 Sharp, Jr. Feb 1920 A
1331018 Luthy Feb 1920 A
1371715 West Mar 1921 A
1518599 Murray Dec 1924 A
1528081 Schermerhorn et al. Mar 1925 A
1573820 Gade Feb 1926 A
1645027 Scott Oct 1927 A
1669473 Kelso May 1928 A
1692710 Spahn Nov 1928 A
1712704 Kiser May 1929 A
1760704 Lindstrom May 1930 A
1781719 Darling Nov 1930 A
1788083 Church Jan 1931 A
1805816 Fleming May 1931 A
1873274 Boosey Aug 1932 A
1893979 Barrere Jan 1933 A
1923482 Frankenstein Aug 1933 A
1925008 Schacht Aug 1933 A
1977177 De Flores Oct 1934 A
1980493 Morrisseau Nov 1934 A
2016498 Hopewell Oct 1935 A
2036614 Tharp Apr 1936 A
2044253 Morris Jun 1936 A
2045731 Solari Jun 1936 A
2045732 Solari Jun 1936 A
2059532 Nagel Nov 1936 A
2061553 Acosta Nov 1936 A
2062145 Pickop Nov 1936 A
2084437 Frankenberger Jun 1937 A
2096651 Salvatore Oct 1937 A
2150483 Bentz Mar 1939 A
2190532 Lukonski Feb 1940 A
2193527 Bentz Mar 1940 A
2197716 Whitaker Apr 1940 A
2222807 Burr Nov 1940 A
2223365 Groeniger Dec 1940 A
2278566 Schaible Apr 1942 A
2323224 Kuhnle Jun 1943 A
2374815 Haas, Jr. May 1945 A
2444340 Donahue Jun 1948 A
2462752 Kotches Feb 1949 A
2528919 Stone et al. Nov 1950 A
2570546 Hamlett Oct 1951 A
2580575 Muckler Jan 1952 A
2664142 Scheuerman et al. Dec 1953 A
2670029 Rossi Feb 1954 A
2736577 Mackey Feb 1956 A
2832081 Young Apr 1958 A
2890463 Young Jun 1959 A
2905951 Weddendorf, Jr. Sep 1959 A
2915903 Digby et al. Dec 1959 A
2965153 Purcell, Sr. Dec 1960 A
2966311 Davis Dec 1960 A
2976543 Turner et al. Mar 1961 A
2992437 Nelson et al. Jul 1961 A
2993655 O'Brien Jul 1961 A
RE25175 Nelson et al. May 1962 E
3037212 Kleinhof Jun 1962 A
3046028 Nathan Jul 1962 A
3048415 Shook Aug 1962 A
3082432 Pearlman Mar 1963 A
3096527 Eynon Jul 1963 A
3121879 Young Feb 1964 A
3263244 Katz Aug 1966 A
3311391 Harrell Mar 1967 A
3316562 Van Dyke et al. May 1967 A
3345085 Hanes Oct 1967 A
3349412 Schwartz et al. Oct 1967 A
3380081 Eilertson et al. Apr 1968 A
3416982 Petzetakis Dec 1968 A
3493978 Hindman et al. Feb 1970 A
3501172 Pickard Mar 1970 A
3528112 Warnick Sep 1970 A
3579670 Frank May 1971 A
3608098 Andrisani Sep 1971 A
3615984 Chase Oct 1971 A
3684199 Bebinger Aug 1972 A
3724507 Kleykamp et al. Apr 1973 A
3742525 Oropallo Jul 1973 A
3800339 Bergin Apr 1974 A
3813708 Hamburg Jun 1974 A
3860977 Politz Jan 1975 A
3881201 Richards May 1975 A
3911635 Traupe Oct 1975 A
3937497 Studer Feb 1976 A
3982289 Robbins Sep 1976 A
4059289 Morris et al. Nov 1977 A
4087127 Lotta May 1978 A
D248133 Shames et al. Jun 1978 S
4092745 Oropallo Jun 1978 A
4123810 Oropallo Nov 1978 A
4127904 Junker Dec 1978 A
4135258 Braga et al. Jan 1979 A
4146939 Izzi Apr 1979 A
4194251 Pennerstorfer Mar 1980 A
4207632 Savell, Jr. et al. Jun 1980 A
4232407 Williams Nov 1980 A
4233697 Cornwall Nov 1980 A
4238860 Dixon Dec 1980 A
4240166 Altman et al. Dec 1980 A
4257892 Boersma Mar 1981 A
4294370 Toeppen Oct 1981 A
4307901 Orberg et al. Dec 1981 A
4310933 Stratman Jan 1982 A
4320540 Leavens Mar 1982 A
4329744 Cuschera May 1982 A
4352213 Watts Oct 1982 A
4359788 Liou Nov 1982 A
4359790 Chalberg Nov 1982 A
4371991 Schrott Feb 1983 A
4387914 Paulson et al. Jun 1983 A
4412361 Cuschera Nov 1983 A
4413384 Lassche Nov 1983 A
4457030 Burry Jul 1984 A
4470437 Rabinovich Sep 1984 A
4475256 Hatala Oct 1984 A
4502166 Brown, Sr. Mar 1985 A
4505499 Uglow et al. Mar 1985 A
4520515 Hatala Jun 1985 A
4542642 Tagliarino Sep 1985 A
4553625 Tsuge et al. Nov 1985 A
4571751 Barlow Feb 1986 A
4574402 Brown, Sr. Mar 1986 A
4574409 McAffrey Mar 1986 A
4594738 Gebert Jun 1986 A
4594740 Tseronakis Jun 1986 A
4599784 Canu, Jr. et al. Jul 1986 A
4660860 Todd Apr 1987 A
4683597 Taylor et al. Aug 1987 A
4692948 Martin Sep 1987 A
4706306 Smith Nov 1987 A
4706482 Barber Nov 1987 A
4720877 Watts Jan 1988 A
4722556 Todd Feb 1988 A
4730855 Pelletier Mar 1988 A
D296816 Budzinski et al. Jul 1988 S
4763510 Palmer Aug 1988 A
4796926 Rapsilver Jan 1989 A
4799713 Uglow et al. Jan 1989 A
4813745 Woody Mar 1989 A
4825477 Aranda May 1989 A
4850617 Moberly Jul 1989 A
4865353 Osborne Sep 1989 A
4890967 Rosenbaum Jan 1990 A
4920582 Alker May 1990 A
4936350 Huber Jun 1990 A
4945579 Husting Aug 1990 A
4953235 Cornwall Sep 1990 A
5025509 Holt et al. Jun 1991 A
5076095 Erhardt Dec 1991 A
5115554 Fell, Sr. May 1992 A
5123123 Hart et al. Jun 1992 A
5163480 Huber Nov 1992 A
5165118 Cendrowski Nov 1992 A
5228153 Frankel Jul 1993 A
D341410 Molinaro Nov 1993 S
5257648 Oropallo Nov 1993 A
5265281 McAlpine Nov 1993 A
5267474 Ten Hoven Dec 1993 A
5271108 Wicke Dec 1993 A
5273077 Oropallo Dec 1993 A
5291619 Adorjan Mar 1994 A
5295760 Rowe Mar 1994 A
5297817 Hodges Mar 1994 A
5318230 Ferguson et al. Jun 1994 A
5324001 Duke Jun 1994 A
5330811 Buchalter Jul 1994 A
5350266 Espey et al. Sep 1994 A
5351996 Martin Oct 1994 A
5363519 Husting Nov 1994 A
5369815 Martin Dec 1994 A
5372715 Maggard et al. Dec 1994 A
5376264 Betancourt Dec 1994 A
5377361 Piskula Jan 1995 A
5417460 Lunder May 1995 A
5418983 Garguillo et al. May 1995 A
5442819 Penor et al. Aug 1995 A
5495750 Dufresne Mar 1996 A
5497514 Miller Mar 1996 A
5497516 Irwin Mar 1996 A
5507501 Palmer Apr 1996 A
5509148 Steele et al. Apr 1996 A
5535455 Liu Jul 1996 A
D373623 Mathison Sep 1996 S
5560052 Ferguson et al. Oct 1996 A
5581018 Allen et al. Dec 1996 A
5590916 Liu Jan 1997 A
D381405 Waidele et al. Jul 1997 S
5661462 Shrewsbury-Gee Aug 1997 A
5682620 Stoltz et al. Nov 1997 A
5692248 Ball Dec 1997 A
5740830 Mankins Apr 1998 A
5745931 Ball May 1998 A
5758368 Ball Jun 1998 A
5786054 Platusich et al. Jul 1998 A
5799986 Corbett et al. Sep 1998 A
5815895 Carlson et al. Oct 1998 A
5819328 Lewis Oct 1998 A
5881397 Hobbs Mar 1999 A
5890241 Ball Apr 1999 A
5924635 Koshimizu et al. Jul 1999 A
5931184 Armenia et al. Aug 1999 A
5937450 Jones Aug 1999 A
5944985 Bowman Aug 1999 A
5957514 Brookshire Sep 1999 A
5971438 Johnson Oct 1999 A
5997049 Kingsford et al. Dec 1999 A
6058525 Paden May 2000 A
6058526 Parisi et al. May 2000 A
6062254 Brady et al. May 2000 A
6066119 Ball May 2000 A
6067669 Peterson et al. May 2000 A
6070910 Hodges Jun 2000 A
6073278 Ball Jun 2000 A
6076545 Cooper Jun 2000 A
D428133 Chen Jul 2000 S
6085362 Huber Jul 2000 A
6085363 Huber Jul 2000 A
6088843 Francisco Jul 2000 A
6098212 Rogan Aug 2000 A
6105183 Bly Aug 2000 A
6108828 Cheng Aug 2000 A
6126233 Gaetano et al. Oct 2000 A
6138290 Lin Oct 2000 A
6138298 Ball Oct 2000 A
6145136 Parisi et al. Nov 2000 A
6148454 Ball Nov 2000 A
6154898 Ball Dec 2000 A
6158809 Gobbers et al. Dec 2000 A
6173459 Ball Jan 2001 B1
6185755 Shepherd et al. Feb 2001 B1
6192531 Fritz et al. Feb 2001 B1
6193879 Bowman Feb 2001 B1
6195819 Wang Mar 2001 B1
6205594 Solaberry Mar 2001 B1
6216288 Bernau Apr 2001 B1
6226806 Ball May 2001 B1
6263518 Magtanong Jul 2001 B1
6269495 Sondrup Aug 2001 B1
6272699 Peterson Aug 2001 B1
6289532 Fritz et al. Sep 2001 B1
6295659 Sandness Oct 2001 B1
6295664 Fritz et al. Oct 2001 B2
6317906 Ball Nov 2001 B1
6332632 Hodges Dec 2001 B1
6338168 Valentine Jan 2002 B1
6362734 McQuade et al. Mar 2002 B1
6378912 Condon et al. Apr 2002 B1
6418570 Ball Jul 2002 B1
6448907 Naclerio Sep 2002 B1
6484331 Minnick Nov 2002 B2
6490739 Lee Dec 2002 B1
6508490 Hoffman Jan 2003 B1
6510860 Kihs Jan 2003 B2
6530722 Shaw et al. Mar 2003 B1
6546573 Ball Apr 2003 B1
6592669 Damrau Jul 2003 B2
6606753 Minnick Aug 2003 B2
6618875 Oropallo et al. Sep 2003 B1
6622317 Oropallo et al. Sep 2003 B1
6631623 Ball Oct 2003 B1
6637050 Ball Oct 2003 B1
6640358 Ball Nov 2003 B2
6675406 Ball Jan 2004 B2
6675407 Ball Jan 2004 B1
6681420 Ball Jan 2004 B1
6687926 Bayley Feb 2004 B1
6691411 Ball Feb 2004 B2
6696943 Elrod et al. Feb 2004 B1
6719294 Nguyen et al. Apr 2004 B2
6735791 Lordahl et al. May 2004 B1
6789275 Spells, Sr. et al. Sep 2004 B2
6795987 Cornwall Sep 2004 B2
6799606 Howson Oct 2004 B1
6800024 Prevost Oct 2004 B1
6812844 Burgess Nov 2004 B1
6823540 Gunn Nov 2004 B2
6836911 Minnick Jan 2005 B2
6880179 Wang Apr 2005 B2
6895838 Stahnke May 2005 B2
6901611 McEntire et al. Jun 2005 B2
6953049 Kowalke Oct 2005 B2
D517666 Wilk, Jr. et al. Mar 2006 S
7013500 Lin Mar 2006 B1
7017199 Oropallo et al. Mar 2006 B2
D523123 Wilk, Jr. et al. Jun 2006 S
7055184 Humber Jun 2006 B2
7096522 Hirtriter Aug 2006 B2
7127752 Ball Oct 2006 B2
7185529 Ball Mar 2007 B2
7188376 Ortiz et al. Mar 2007 B2
7210493 Wang May 2007 B1
7237280 Holden, Jr. et al. Jul 2007 B1
D549805 Quach Aug 2007 S
7300074 Paulson Nov 2007 B1
7328953 Werschmidt Feb 2008 B2
7343923 Foster Mar 2008 B2
7451502 Ball Nov 2008 B2
D586433 Price et al. Feb 2009 S
7503083 Ball Mar 2009 B2
7506385 Werschmidt Mar 2009 B2
7549702 Meyers Jun 2009 B2
D599447 Cummings et al. Sep 2009 S
7740197 Schulz Jun 2010 B1
7774871 Arsenault Aug 2010 B1
7814580 Coronado et al. Oct 2010 B2
D627862 Ball Nov 2010 S
D627863 Ball Nov 2010 S
7856677 Harris Dec 2010 B1
D636468 Ball Apr 2011 S
D637696 Ball et al. May 2011 S
7963568 Jensen Jun 2011 B2
8028357 Ball Oct 2011 B2
D652122 Bonhag et al. Jan 2012 S
D659809 Smith May 2012 S
8166584 Ball May 2012 B2
D665062 Ball Aug 2012 S
8266735 McLeod Sep 2012 B2
8302220 Ball Nov 2012 B2
8321970 Ball Dec 2012 B2
D674883 Ball Jan 2013 S
8347906 Ismert et al. Jan 2013 B1
8505132 Ball Aug 2013 B2
8584272 Ball Nov 2013 B2
8607376 Ball Dec 2013 B2
D705402 Yu May 2014 S
8756724 Lordahl et al. Jun 2014 B1
8769736 Ball Jul 2014 B2
8925123 DeGooyer et al. Jan 2015 B2
9015870 Ball Apr 2015 B2
9015876 Ball Apr 2015 B2
D729257 Ball May 2015 S
9045886 Ball Jun 2015 B2
9074358 Ball et al. Jul 2015 B2
9157220 Ball Oct 2015 B2
9200436 Ball Dec 2015 B2
9267274 Ball Feb 2016 B2
9663930 Ball May 2017 B2
20010002494 Fritz et al. Jun 2001 A1
20020023294 Spells, Sr. Feb 2002 A1
20020032926 Lewis Mar 2002 A1
20020112285 Minnick Aug 2002 A1
20020121982 Ferris et al. Sep 2002 A1
20030000012 Ball Jan 2003 A1
20030024568 Bowman Feb 2003 A1
20030025275 Miller Feb 2003 A1
20030051343 Ball Mar 2003 A1
20030151281 Williams Aug 2003 A1
20030182721 Li Oct 2003 A1
20030192115 Oropallo et al. Oct 2003 A1
20040012197 Guillaud et al. Jan 2004 A1
20040034926 Ball Feb 2004 A1
20040055083 Ball Mar 2004 A1
20040055084 Ball Mar 2004 A1
20040068792 Ball Apr 2004 A1
20040068793 Ball Apr 2004 A1
20040103474 Ball Jun 2004 A1
20040111797 Ball Jun 2004 A1
20040117907 Ball Jun 2004 A1
20040128757 Ball Jul 2004 A1
20040163165 Ortiz et al. Aug 2004 A1
20050022300 McEntire et al. Feb 2005 A1
20050035558 Dipzinski et al. Feb 2005 A1
20050050623 Greene Mar 2005 A1
20050108814 Thompson May 2005 A1
20060085907 Ball Apr 2006 A1
20060096018 Ball May 2006 A1
20060096019 Ball May 2006 A1
20060170208 Arning et al. Aug 2006 A1
20060218992 Ball Oct 2006 A1
20060283792 McCallum Dec 2006 A1
20070007763 Deaton Jan 2007 A1
20070039098 Ball Feb 2007 A1
20070044218 Ball Mar 2007 A1
20070044230 Ball Mar 2007 A1
20070130689 Condon et al. Jun 2007 A1
20080028514 Lock Feb 2008 A1
20080047060 Ball Feb 2008 A1
20080098504 Knox et al. May 2008 A1
20080098517 Ball May 2008 A1
20080148469 Dipzinski et al. Jun 2008 A1
20080148477 Shafik Jun 2008 A1
20080155745 Burr Jul 2008 A1
20080196161 Ball Aug 2008 A1
20080235866 Ball Oct 2008 A1
20090119826 Coronado May 2009 A1
20090172877 Ball Jul 2009 A1
20090173396 Spadavecchia Jul 2009 A1
20090250120 Robbins Oct 2009 A1
20090260154 Shoop et al. Oct 2009 A1
20090261579 Spears Oct 2009 A1
20100037392 Ball et al. Feb 2010 A1
20100163131 Fehr et al. Jul 2010 A1
20110035867 Coronado et al. Feb 2011 A1
20110154566 Shafik Jun 2011 A1
20110173747 Evans et al. Jul 2011 A1
20110209279 Ball Sep 2011 A1
20110289667 Oropallo et al. Dec 2011 A1
20120005824 Ball Jan 2012 A1
20120048070 Richter Mar 2012 A1
20120079654 Ball Apr 2012 A1
20120090084 Ball Apr 2012 A1
20120204345 Ball Aug 2012 A1
20120246822 Ball Oct 2012 A1
20130031720 Homami Feb 2013 A1
20130055494 Ball Mar 2013 A1
20130067648 Whitehead Mar 2013 A1
20130069361 Cai et al. Mar 2013 A1
20130180045 Ball et al. Jul 2013 A1
20130191988 Ball Aug 2013 A1
20130193042 Hull Aug 2013 A1
20130269100 Ball et al. Oct 2013 A1
20130283523 Ball Oct 2013 A1
20130340163 Ball et al. Dec 2013 A1
20140101834 Ball Apr 2014 A1
20140138297 Hull May 2014 A1
20150089736 Bird Apr 2015 A1
20150121617 Ball May 2015 A1
20150152627 Ball Jun 2015 A1
20150233103 Ball Aug 2015 A1
20150275487 Ball Oct 2015 A1
20170247867 Ball Aug 2017 A1
Foreign Referenced Citations (32)
Number Date Country
530215 Sep 1956 CA
346187 Jun 1960 CH
419477 Sep 1925 DE
1163257 Mar 1964 DE
1784266 Oct 1971 DE
3138912 Apr 1983 DE
3621715 Jan 1988 DE
9200488 Mar 1992 DE
4206903 Sep 1993 DE
3603877 Jan 1997 DE
20118252 Mar 2003 DE
0845559 Jun 1998 EP
744099 Apr 1933 FR
1191141 Oct 1959 FR
2643097 Aug 1990 FR
1216208 Dec 1970 GB
1216285 Dec 1970 GB
2263060 Jul 1993 GB
2338184 Dec 1999 GB
S53-58752 May 1978 JP
H02-144074 Dec 1990 JP
H05-15887 Mar 1993 JP
H05-88393 Dec 1993 JP
H09-108130 Apr 1997 JP
2000-513421 Oct 2000 JP
2003-313913 Nov 2003 JP
WO 199924738 May 1999 WO
WO 9954560 Oct 1999 WO
WO 02063109 Aug 2002 WO
WO 2004074587 Sep 2004 WO
WO 2009063334 May 2009 WO
WO 2013112560 Aug 2013 WO
Non-Patent Literature Citations (184)
Entry
U.S. Appl. No. 15/596,582, Notice of Allowance dated Feb. 4, 2019, 7 pages.
“AB&A Catalog,” American Brass & Aluminum Foundry, Inc., Sep. 1, 1995, 28 pages.
“Geberit Installation Manual,” Geberit, Dec. 12, 2012, 10 pages.
“New WATCO Eliminator Bath Waste”, WATCO, as early as Aug. 8, 2001, pp. 1-2.
“OATEYSCS Supply Chain Services Catalog,” Oatey Co., 2012, 334 pages.
“Press-In” Trim Kit, AB&A™ IPS Corporation (date unknown) 2 pages.
“Push N' Repair Closet Flange,” IPS Corporation, 2011, [retrieved Sep. 6, 2014], 1 page. Retrieved from: http://web.archive.org/web/20111013024522/http://ipscorp.com/watertite/cl-osetflanges/pushnrepair.
“PVC Scheduling 80 Fittings,” Spears Manufacturing Co., May 28, 1996, 2 pages.
“Tubular Plastic-Innovator® 590”, Woodford Manufacturing Company, first sold Aug. 16, 2001, pp. 1-2.
“Ultralite® —Type NM (Liquidtight Flexible Nonmetallic Conduit)”, Southwire Company brochure/pamphlet, as early as 2003, printed on Dec. 14, 2008, pp. 1-3.
“WCM Industries-Freezeless Faucets, Yard Hydrants and Bath Wastes”, as early as Aug. 2000, available at http://www.woodfordmfg.com/, printed on Sep. 15, 2005, p. 1.
“Why choose a Geberit Cable Driven Bath Waste Overflow?” Geberit, date unknown, 2 pages.
Answer and Counterclaim, WCM Industries, Inc. v. IPS Corporation, et al., U.S. District Court, Western District of Tennessee, Western Division, Case. No. 2:13-cv-02019-JPM-tmp, filed Feb. 19, 2013, 16 pages.
Canadian Examiner's Report for Application No. 2,556,523, dated Feb. 16, 2009, 2 pages.
Canadian Notice of Allowance for Patent Application No. 2,557,022, dated Mar. 17, 2009, 1 page.
Canadian Official Action for Patent Application No. 2,557,022, dated Nov. 28, 2008, 2 pgs.
Canadian Official Action for Patent Application No. 2,642,379, dated Nov. 7, 2014, 3 pages.
Complaint (with Exhibits A-J), WCM Industries, Inc. v. IPS Corporation, et al., U.S. District Court, Western District of Tennessee, Western Division, Case No. 2:13-cv-02019-JPM-tmp, filed Jan. 9, 2013, 117 pages.
Complaint for Delaratory Relief (with Exhibits 1-7), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694, filed Aug. 9, 2012, 58 pages.
Declaration of Wolpert and Exhibits A-D, WCM Industries, Inc. v. IPS Corporation, et al., U.S. District Court, Western District of Tennessee, Western Division, Case No. 2:13-cv-02019-JPM-dkv, Oct. 22, 2014, 21 pages.
Defendant WCM Industries, Inc's Answer to Complaint, Affirmative Defenses and Counterclaims Against IPS Corporation, IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-tmp, filed Apr. 12, 2013, 10 pages.
Definition of the term “diaphragm” found at: http://www.thefreedictionary.com/diaphragm, cited in Aug. 7, 2012 OA for U.S. Appl. No. 13/234,030.
European Extended Search Report in Application 12002970.7, dated Mar. 25, 2014, 9 pages.
Great Britain Examination and Search Report for United Kingdom Patent Application No. GB1118043.7, dated Oct. 31, 2011, 6 pages.
IPS Corporation's Initial Non-Infringement Contentions (with Exhibit A), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Jun. 7, 2013, 5 pages.
Mexican Notice of Allowance for Patent Application No. MX/a/2008/013956, dated Nov. 16, 2011, 1 page.
Mexican Official Action (with partial English summary) for Mexican Patent Application No. MX/a/2012/002782 dated Dec. 1, 2014, 3 pages.
Mexican Official Action for Patent Application No. PA/a/2005/011301, dated Mar. 18, 2010, 3 pages.
Mexican Official Action for Patent Application No. PA/a/2005/011301, dated Oct. 20, 2010, 2 pgs.
PCT International Search Report for International Patent Application No. PCT/US03/09439, dated Sep. 9, 2003, 1 page.
Plaintiff IPS Corporation's Answer to Defendant WCM Industries, Inc's Counterclaims, IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-tmp, filed May 3, 2013, 5 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit A), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 3 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit B-1), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 951 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit B-2), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 1003 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit B-3), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 351 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit B-7), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 531 pages.
Plaintiff IPS's Final Invalidity Contentions (Exhibit B-8), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 1219 pages.
Plaintiff IPS's Final Invalidity Contentions, IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Feb. 23, 2015, 17 pages.
Plaintiff IPS's Initial Invalidity Contentions (with Exhibits A and B), IPS Corporation v. WCM Industries, Inc., United States District Court for the Western District of Tennessee, Case No. 2:12-cv-02694-JPM-dkv, dated Aug. 6, 2013, 78 pages.
Reply to Defendant's Counterclaims, WCM Industries, Inc. v. IPS Corporation, et al., U.S. District Court, Western District of Tennessee, Western Division, Case No. 2:13-cv-02019-JPM-tmp, filed Mar. 12, 2013, 4 pages.
U.S. Appl. No. 09/593,724 entitled “Method and Means for an Overflow Assembly to Bathtubs and the Like”, by William T. Ball, filed Jun. 13, 2000, 14 pages.
U.S. Appl. No. 10/326,449, Office Action dated Jan. 13, 2004, 8 pages.
U.S. Appl. No. 10/326,449, Office Action dated Oct. 15, 2003, 7 pages.
U.S. Appl. No. 10/326,449, Office Action dated Jun. 4, 2003, 6 pages.
U.S. Appl. No. 10/247,247, Office Action dated Dec. 4, 2006, 9 pages.
U.S. Appl. No. 10/247,247, Office Action dated Feb. 17, 2006, 10 pages.
U.S. Appl. No. 10/247,247, Office Action dated Apr. 5, 2004, 8 pages.
U.S. Appl. No. 10/247,247, Office Action dated May 1, 2008, 7 pages.
U.S. Appl. No. 10/247,247, Office Action dated May 4, 2005, 12 pages.
U.S. Appl. No. 10/247,247, Office Action dated Jul. 19, 2006, 5 pages.
U.S. Appl. No. 10/247,247, Office Action dated Aug. 27, 2003, 10 pages.
U.S. Appl. No. 10/370,545, Notice of Allowance dated Jun. 20, 2006, 6 pages.
U.S. Appl. No. 10/370,545, Office Action dated Jan. 25, 2005, 13 pages.
U.S. Appl. No. 10/370,545, Office Action dated Jan. 26, 2004, 9 pages.
U.S. Appl. No. 10/370,545, Office Action dated Sep. 11, 2003, 12 pages.
U.S. Appl. No. 10/674,739, Office Action dated Dec. 19, 2005, 10 pages.
U.S. Appl. No. 10/674,739, Office Action dated May 18, 2004, 6 pages.
U.S. Appl. No. 10/674,739, Office Action dated May 5, 2006, 7 pages.
U.S. Appl. No. 10/674,739, Office Action dated Aug. 25, 2006, 6 pages.
U.S. Appl. No. 10/674,739, Office Action dated Sep. 30, 2005, 11 pages.
U.S. Appl. No. 10/674,862, Examiner's Answer dated May 15, 2008, 12 pgs.
U.S. Appl. No. 10/674,862, Notice of Allowance dated Aug. 24, 2006, 4 pgs.
U.S. Appl. No. 10/674,862, Office Action dated Aug. 18, 2004, 5 pgs.
U.S. Appl. No. 10/674,862, Office Action dated Dec. 21, 2006, 10 pgs.
U.S. Appl. No. 10/674,862, Office Action dated Mar. 28, 2005, 8 pgs.
U.S. Appl. No. 10/674,862, Office Action dated May 1, 2007, 10 pgs.
U.S. Appl. No. 10/674,862, Office Action dated Oct. 6, 2005, 6 pgs.
U.S. Appl. No. 10/674,862, Office Action dated Sep. 20, 2005, 6 pgs.
U.S. Appl. No. 10/674,862, Official Communication dated May 23, 2008, 2 pgs.
U.S. Appl. No. 10/721,694, Office Action dated Oct. 6, 2005, 11 pages.
U.S. Appl. No. 10/721,694, Office Action dated Mar. 13, 2009, 9 pages.
U.S. Appl. No. 10/721,694, Office Action dated Mar. 24, 2005, 10 pages.
U.S. Appl. No. 10/721,694, Office Action dated Mar. 27, 2007, 9 pages.
U.S. Appl. No. 10/721,694, Office Action dated Apr. 10, 2006, 9 pages.
U.S. Appl. No. 10/721,694, Office Action dated May 18, 2004, 7 pages.
U.S. Appl. No. 10/721,694, Office Action dated Jul. 23, 2004, 6 pages.
U.S. Appl. No. 10/721,694, Office Action dated Aug. 14, 2006, 6 pages.
U.S. Appl. No. 10/721,694, Office Action dated Aug. 27, 2007, 8 pages.
U.S. Appl. No. 10/732,726, Notice of Allowance dated Sep. 20, 2012, 5 pages.
U.S. Appl. No. 10/732,726, Office Action dated Apr. 15, 2010, 16 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Aug. 20, 2008 (Examiner Answer to Appeal Brief), 2 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Dec. 9, 2008, 12 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Jan. 30, 2008 (Examiner Answer to Appeal Brief), 8 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Jun. 2, 2008 (Examiner Answer to Appeal Brief), 2 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Mar. 28, 2005 (Restriction Requirement), 4 pgs.
U.S. Appl. No. 10/732,726, Office Action dated May 1, 2008, 2 pgs.
U.S. Appl. No. 10/732,726, Office Action dated May 19, 2006 (Examiner Answer to Appeal Brief), 9 pgs.
U.S. Appl. No. 10/732,726, Office Action dated May 23, 2005, 10 pgs.
U.S. Appl. No. 10/732,726, Office Action dated May 9, 2011 9 pages.
U.S. Appl. No. 10/732,726, Office Action dated Nov. 16, 2011 9 pages.
U.S. Appl. No. 10/732,726, Office Action dated Nov. 17, 2008 (Dismissal of Appeal), 3 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Oct. 24, 2005, 11 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Oct. 25, 2010, 12 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Sep. 4, 2009, 11 pgs.
U.S. Appl. No. 10/732,726, Office Action dated Sep. 4, 2012, 5 pages.
U.S. Appl. No. 10/738,765, Office Action dated Apr. 13, 2006, 2 pgs.
U.S. Appl. No. 10/738,765, Office Action dated Jan. 13, 2006, 8 pgs.
U.S. Appl. No. 10/738,765, Office Action dated Jun. 6, 2005, 9 pgs.
U.S. Appl. No. 10/738,765, Office Action dated May 22, 2007, 6 pgs.
U.S. Appl. No. 10/738,772, Advisory Action dated May 11, 2006, 3 pgs.
U.S. Appl. No. 10/738,772, Advisory Action dated May 13, 2005, 3 pgs.
U.S. Appl. No. 10/738,772, Notice of Allowance dated Aug. 1, 2006, 5 pages.
U.S. Appl. No. 10/738,772, Notice of Allowance dated Aug. 21, 2006, 1 page.
U.S. Appl. No. 10/738,772, Notice of Allowance dated May 11, 2006, 3 pgs.
U.S. Appl. No. 10/738,772, Notice of Allowance dated Sep. 17, 2004, 8 pgs.
U.S. Appl. No. 10/738,772, Office Action dated May 13, 2005, 3 pgs.
U.S. Appl. No. 10/738,772, Office Action dated Aug. 2, 2005, 9 pgs.
U.S. Appl. No. 10/738,772, Office Action dated Mar. 11, 2005, 10 pgs.
U.S. Appl. No. 10/738,772, Office Action dated Mar. 27, 2006, 6 pgs.
U.S. Appl. No. 10/738,772, Office Action dated Sep. 17, 2004, 9 pgs.
U.S. Appl. No. 10/971,895, Office Action dated Apr. 25, 2007, 8 pgs.
U.S. Appl. No. 10/971,895, Office Action dated Oct. 12, 2007, 9 pgs.
U.S. Appl. No. 11/161,930, Notice of Allowance dated Sep. 15, 2008, 6 pgs.
U.S. Appl. No. 11/161,930, Office Action dated Feb. 20, 2008, 6 pages.
U.S. Appl. No. 11/161,933, Notice of Allowance dated Jan. 29, 2009, 6 pgs.
U.S. Appl. No. 11/161,933, Office Action dated Jun. 23, 2008, 7 pgs.
U.S. Appl. No. 11/423,996, Office Action dated Dec. 5, 2006, 9 pages.
U.S. Appl. No. 11/423,996, Office Action dated Apr. 16, 2007, 13 pages.
U.S. Appl. No. 11/423,996, Office Action dated Jul. 7, 2006, 9 pages.
U.S. Appl. No. 11/873,200 entitled “Shower Station Testing Assembly for Pressure Testing Plumbing”, by William T. Ball, filed Oct. 16, 2007, 24 pages.
U.S. Appl. No. 11/931,681, Notice of Allowance dated Aug. 4, 2011 8 pages.
U.S. Appl. No. 11/931,681, Office Action dated Apr. 26, 2011 15 pages.
U.S. Appl. No. 12/057,660, Notice of Allowance dated Mar. 7, 2012 5 pages.
U.S. Appl. No. 12/057,660, Office Action dated Nov. 3, 2011 9 pages.
U.S. Appl. No. 12/100,762, Office Action dated Jan. 31, 2014, 10 pages.
U.S. Appl. No. 12/100,762, Office Action dated Feb. 1, 2012, 9 pages.
U.S. Appl. No. 12/100,762, Office Action dated Aug. 13, 2014 9 pages.
U.S. Appl. No. 12/100,762, Office Action dated Sep. 15, 2011 9 pages.
U.S. Appl. No. 12/405,956, Office Action dated Oct. 14, 2010, 8 pages.
U.S. Appl. No. 12/896,137, Notice of Allowance dated May 15, 2014, 5 pages.
U.S. Appl. No. 12/896,137, Office Action dated Feb. 24, 2014, 6 pages.
U.S. Appl. No. 12/896,137, Office Action dated Sep. 5, 2013, 10 pages.
U.S. Appl. No. 13/041,929, Notice of Allowance dated Feb. 11, 2015 7 pages.
U.S. Appl. No. 13/041,929, Notice of Allowance dated Mar. 11, 2015 4 pages.
U.S. Appl. No. 13/041,929, Notice of Allowance dated Mar. 31, 2015 4 pages.
U.S. Appl. No. 13/041,929, Office Action dated Dec. 18, 2013 (Restriction Requirement), 6 pages.
U.S. Appl. No. 13/041,929, Office Action dated May 8, 2014 12 pages.
U.S. Appl. No. 13/234,030, Notice of Allowance dated Oct. 19, 2012 5 pages.
U.S. Appl. No. 13/234,030, Office Action dated Apr. 12, 2012, 15 pages.
U.S. Appl. No. 13/234,030, Office Action dated Aug. 7, 2012 13 pages.
U.S. Appl. No. 13/274,804, Notice of Allowance dated Apr. 23, 2014, 6 pages.
U.S. Appl. No. 13/274,804, Office Action dated Dec. 24, 2013, 10 pages.
U.S. Appl. No. 13/461,422, Notice of Allowance dated Apr. 18, 2013, 6 pages.
U.S. Appl. No. 13/461,422, Office Action dated Dec. 27, 2012 9 pages.
U.S. Appl. No. 13/669,417, Notice of Allowance dated Nov. 15, 2013, 5 pgs.
U.S. Appl. No. 13/669,417, Notice of Allowance dated Sep. 27, 2013, 9 pgs. 9 pages.
U.S. Appl. No. 13/669,417, Office Action dated Mar. 1, 2013, 7 pgs. 12 pages.
U.S. Appl. No. 13/691,405, Notice of Allowance dated Oct. 9, 2013, 7 pages.
U.S. Appl. No. 13/691,405, Office Action dated Aug. 14, 2013, 5 pages.
U.S. Appl. No. 13/726,840, Notice of Allowance dated Apr. 27, 2015, 7 pages.
U.S. Appl. No. 13/894,626, Notice of Allowance dated Aug. 10, 2015 5 pages.
U.S. Appl. No. 13/894,626, Notice of Allowance dated Oct. 29, 2015 4 pages.
U.S. Appl. No. 13/894,626, Office Action dated Jul. 16, 2015 7 pages.
U.S. Appl. No. 13/974,690, Notice of Allowance dated Jun. 15, 2015, 5 pages.
U.S. Appl. No. 13/974,690, Office Action dated Apr. 22, 2015, 9 pages.
U.S. Appl. No. 14/074,442, Office Action dated Oct. 7, 2015, 12 pages.
U.S. Appl. No. 14/074,442, Office Action dated Feb. 12, 2016, 13 pages.
U.S. Appl. No. 14/109,503, Notice of Allowance dated Mar. 11, 2015, 8 pages.
U.S. Appl. No. 14/109,503, Office Action dated Aug. 18, 2014, 6 pages.
U.S. Appl. No. 14/109,503, Office Action dated Dec. 29, 2014, 10 pages.
U.S. Appl. No. 14/618,594, Office Action dated Feb. 11, 2016, 14 pages.
U.S. Appl. No. 14/618,594, Office Action dated May 22, 2015, 13 pages.
U.S. Appl. No. 14/701,091, Notice of Allowance dated Oct. 29, 2015, 5 pages.
U.S. Appl. No. 14/701,091, Office Action dated Oct. 15, 2015, 8 pages.
U.S. Appl. No. 14/701,091, Office Action dated Jul. 15, 2015, 7 pages.
U.S. Appl. No. 14/710,351, Notice of Allowance dated Jan. 30, 2017, 7 pages.
U.S. Appl. No. 14/710,351, Office Action dated Dec. 16, 2016, 7 pages.
U.S. Appl. No. 15/596,582, Office Action dated Jul. 18, 2018, 7 pages.
U.S. Appl. No. 15/597,691, Office Action dated Oct. 5, 2018, 11 pages.
U.S. Appl. No. 29/360,523, Corrected Notice of Allowance dated Mar. 16, 2011 3 pages.
U.S. Appl. No. 29/360,523, Notice of Allowability dated Jan. 11, 2011, 4 pgs.
U.S. Appl. No. 29/360,523, Office Action dated Oct. 5, 2010, 8 pgs.
U.S. Appl. No. 29/360,523, Office Action dated Dec. 23, 2010, 6 pgs.
U.S. Appl. No. 29/360,524, Notice of Allowability dated Oct. 7, 2010, 11 pgs.
U.S. Appl. No. 29/362,288, Notice of Allowability dated Oct. 7, 2010, 8 pgs.
U.S. Appl. No. 29/378,602, Notice of Allowance dated Jun. 21, 2012 7 pages.
U.S. Appl. No. 29/378,602, Office Action dated Mar. 9, 2012 6 pages (Restriction Requirement).
U.S. Appl. No. 29/378,602, Office Action dated Mar. 27, 2012 5 pages.
U.S. Appl. No. 29/396,333, Notice of Allowance dated Nov. 5, 2012, 7 pages.
U.S. Appl. No. 29/396,333, Office Action dated Jul. 31, 2012, 6 pgs.
U.S. Appl. No. 29/396,333, Supplemental Notice of Allowance dated Dec. 6, 2012, 4 pages.
U.S. Appl. No. 29/484,008, Notice of Allowance dated Jan. 2, 2015, 9 pages.
U.S. Appl. No. 13/456,017, Notice of Allowance dated Feb. 4, 2015, 6 pgs.
U.S. Appl. No. 15/597,691, Office Action dated Apr. 19, 2019, 11 pages.
Related Publications (1)
Number Date Country
20180044899 A1 Feb 2018 US
Provisional Applications (1)
Number Date Country
62374089 Aug 2016 US