US20040064879A1 - Flush handles for dual flush-volume toilet system - Google Patents
Flush handles for dual flush-volume toilet system Download PDFInfo
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- US20040064879A1 US20040064879A1 US10/679,219 US67921903A US2004064879A1 US 20040064879 A1 US20040064879 A1 US 20040064879A1 US 67921903 A US67921903 A US 67921903A US 2004064879 A1 US2004064879 A1 US 2004064879A1
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- Prior art keywords
- flush
- handle
- volume
- volume flush
- valve
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Classifications
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03D—WATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
- E03D1/00—Water flushing devices with cisterns ; Setting up a range of flushing devices or water-closets; Combinations of several flushing devices
- E03D1/30—Valves for high or low level cisterns; Their arrangement ; Flushing mechanisms in the cistern, optionally with provisions for a pre-or a post- flushing and for cutting off the flushing mechanism in case of leakage
- E03D1/304—Valves for high or low level cisterns; Their arrangement ; Flushing mechanisms in the cistern, optionally with provisions for a pre-or a post- flushing and for cutting off the flushing mechanism in case of leakage with valves with own buoyancy
- E03D1/306—Valves for high or low level cisterns; Their arrangement ; Flushing mechanisms in the cistern, optionally with provisions for a pre-or a post- flushing and for cutting off the flushing mechanism in case of leakage with valves with own buoyancy with articulated valves
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03D—WATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
- E03D1/00—Water flushing devices with cisterns ; Setting up a range of flushing devices or water-closets; Combinations of several flushing devices
- E03D1/02—High-level flushing systems
- E03D1/14—Cisterns discharging variable quantities of water also cisterns with bell siphons in combination with flushing valves
- E03D1/142—Cisterns discharging variable quantities of water also cisterns with bell siphons in combination with flushing valves in cisterns with flushing valves
- E03D1/145—Cisterns discharging variable quantities of water also cisterns with bell siphons in combination with flushing valves in cisterns with flushing valves having multiple flush outlets
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- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03D—WATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
- E03D5/00—Special constructions of flushing devices, e.g. closed flushing system
- E03D5/02—Special constructions of flushing devices, e.g. closed flushing system operated mechanically or hydraulically (or pneumatically) also details such as push buttons, levers and pull-card therefor
Definitions
- the present invention relates to a dual flush-volume toilet system. More particularly, the invention provides flush handles for a dual flush-volume toilet system.
- Dual flush valve assemblies utilize separate flush valves that discharge different amounts of water for flushing solid and liquid waste.
- a high volume flush valve is positioned near the bottom of the toilet tank to pass a higher volume of water for flushing solid waste
- a low volume flush valve is positioned higher in the toilet tank for passing a lower volume of water for flushing liquid waste.
- known dual flush-volume valve assemblies do offer improved water conservation relative to older, high-volume toilet systems, they also have several shortcomings.
- known dual flush-volume valve assemblies permit little, if any, adjustment of the relative volumes of the low-volume flush and the high-volume flush. This can pose a problem in retrofitting older toilet tanks, as the volume of water passed from the toilet tank during a low-volume flush may be dependent upon the shape of the toilet tank.
- more water may be discharged by the low-volume valve from a taller tank than from a shorter tank, as the level of water in the shorter tank may be closer to the low-volume valve than in the taller tank. This may cause problems with flushing, as an inadequate amount of water to flush waste from the toilet bowl may be discharged if the maximum water level in the toilet tank is too close to the low-volume valve.
- Some embodiments provide a dual flush-volume toilet system, wherein the toilet system includes a low volume flush valve configured to flush a first, lesser volume of water, a high volume flush valve configured to flush a second, greater volume of water, a low volume flush handle configured to open the low volume flush valve, and a high volume flush handle configured to open the high volume flush valve.
- the toilet system includes a low volume flush valve configured to flush a first, lesser volume of water, a high volume flush valve configured to flush a second, greater volume of water, a low volume flush handle configured to open the low volume flush valve, and a high volume flush handle configured to open the high volume flush valve.
- At least one of the low volume flush handle and the high volume flush handle includes indicia configured to indicate to the user which of the high volume flush valve and the low volume flush valve is opened by the flush handle having the indicia.
- FIG. 1 is an isometric view of a dual-volume configuration of a modular outflow valve assembly according to a first embodiment of the present invention positioned in a toilet tank, assembled in a dual flush-volume configuration.
- FIG. 2 is a side elevational view of the embodiment of FIG. 1, with the low volume flush valve in a first, lower position relative to the high volume flush valve.
- FIG. 3 is a side elevational view of the embodiment of FIG. 1, with the low volume flush valve in a second, higher position relative to the high volume flush valve.
- FIG. 4 is a side elevational view of a second embodiment of an outflow valve assembly according to the present invention.
- FIG. 5 is a side elevational view of a third embodiment of an outflow valve assembly according to the present invention.
- FIG. 6 is a partially sectioned view of the embodiment of FIG. 5, with both valves in closed positions.
- FIG. 7 is a partially sectioned view of the embodiment of FIG. 5, with the high volume flush valve in an open position.
- FIG. 8 is a partially sectioned view of the embodiment of FIG. 5, with the low volume flush valve in an open position.
- FIG. 9 is an exploded isometric view of a first embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 10 is an isometric view of the flush mechanism of FIG. 9.
- FIG. 11 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the handle for a low-volume flush.
- FIG. 12 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the release button for a high-volume flush.
- FIG. 13 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the handle for a high-volume flush.
- FIG. 14 is an exploded isometric view of a second embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 15 is an exploded isometric view of a third embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 16 is an exploded isometric view of a fourth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 17 is an exploded isometric view of a fifth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 18 is a partially-sectioned side view of a sixth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 19 is a sectional view of the flush mechanism of FIG. 18, illustrating the operation of the flush mechanism for a low-volume flush.
- FIG. 20 is a sectional view of the flush mechanism of FIG. 18, illustrating the operation of the flush mechanism for a high-volume flush.
- FIG. 21 is an isometric view of an embodiment of an alternate handle mechanism suitable for use with an outflow valve assembly according to the present invention.
- FIG. 22 is a side elevational view of a single-volume configuration of an embodiment of a modular outflow valve assembly according to the present invention.
- FIG. 23 is a side elevational view of the embodiment of FIG. 1, assembled in a single flush-volume configuration.
- FIG. 24 is a side elevational view of another embodiment of a modular toilet valve assembly according to the present invention.
- Various embodiments of the present invention provide modular single or dual flush-volume toilet tank outflow valve assemblies that may be easily converted between single and dual flush-volume configurations. Furthermore, various embodiments of the dual flush-volume configurations offer improved adjustability and flush performance compared to known dual valve assemblies.
- a first embodiment of a modular valve assembly according to the present invention is shown generally at 10 in FIG. 1, positioned in a toilet tank 12 and assembled in a dual flush-volume configuration.
- Modular valve assembly 10 includes a base 14 with which it may be mounted to the inside of toilet tank 12 .
- a lower outflow tube section 16 extends upwardly from base 14 , and a high volume flush valve 18 is positioned on the lower outflow tube section adjacent the bottom of the interior of toilet tank 12 .
- High volume flush valve 18 is configured to empty essentially all water from toilet tank 12 when opened to provide a higher volume flush for flushing solid wastes.
- An upper outflow tube section 20 is slidably coupled to lower outflow tube section 16 , and a low volume flush valve 22 is positioned on the upper outflow tube section.
- Low volume flush valve 22 is configured to empty toilet tank 12 only partially, thus providing a water-saving, smaller volume flush. It will be appreciated that modular valve assembly 10 may be easily converted to a single-volume flush valve system by replacing upper outflow tube section 20 with an overflow tube section, as described in more detail below in reference to FIG. 22.
- Modular valve assembly 10 also includes an overflow tube section 24 , which also may be adjustable in height to provide infinitesimal control of the low-volume flush. As described in more detail below, overflow tube section 24 may be connected directly to lower outflow tube section 16 to form a single flush-volume valve system with an adjustable overflow tube height if desired.
- FIG. 1 also shows an example of a suitable setup for the operation of valve system 10 in a toilet.
- High volume flush valve 18 and low volume flush valve 22 are both attached to a single flush wand 26 , which is operated by a handle 28 .
- Low volume flush valve 22 is connected to flush wand 26 with a first, shorter length of chain 30
- high volume flush valve 18 is connected to the flush wand with a second, longer length of chain 32 .
- Second length of chain 32 is configured to have more slack than first length of chain 30 .
- handle 28 employs a special mechanism, described in more detail below, that prevents the handle from being pushed far enough to open high volume flush valve 18 unless a handle release button 34 is held down.
- FIGS. 2 and 3 show modular valve assembly 10 in more detail.
- modular valve assembly 10 includes a base 14 configured to couple the moldular valve assembly 10 to the bottom 40 of toilet tank 12 and to pass water out of the toilet tank.
- base 14 takes the form of a spud, but it will be appreciated that base 14 may have any other suitable configuration.
- Base 14 includes a threaded portion 42 that fits through toilet tank outflow hole 43 , and is secured to bottom 40 of toilet tank 12 with a nut 44 . The connection may be sealed with a gasket 46 .
- Lower outflow tube section 16 is connected to base 14 , and includes a hollow upright portion 48 to which upper outflow tube section 20 is coupled.
- Upright portion 48 supports upper outflow tube section 20 above base 14 , and also channels water discharged through low volume flush valve 22 through toilet tank outflow hole 43 .
- Upright portion 48 may have any suitable configuration.
- upright portion 48 may have a bend that offsets upper outflow tube section 20 relative to base 14 . In the depicted embodiment, however, upright portion 48 extends directly above base 14 , such that the hollow interior of upright portion 48 is positioned directly above and in line with the opening in base 14 . In this configuration, water discharged through low volume flush valve 22 can pass straight down through lower outflow tube section 16 without any horizontal deflection, and thus may increase the continuous maximum water volume and velocity of the flush.
- Lower outflow tube section 16 also includes a lower side tube 50 extending away from upright portion 48 , which connects high volume flush valve 18 to upright portion 48 .
- Lower side tube 50 may have any suitable configuration, and may be positioned at any desired location on lower outflow tube section 16 .
- lower side tube 50 is oriented generally parallel to toilet tank bottom 40 , and is positioned directly adjacent the toilet tank bottom. This places the lower edge of the lip 52 of high-volume valve 18 very close to the bottom of toilet tank, and thus permits essentially all of the water to drain from the tank when the high volume flush valve is opened. While high volume flush valve is connected to upright portion 48 with lower side tube 50 in the depicted embodiment, it will be appreciated that high volume flush valve may also be attached directly to the side of upright portion 48 , without the use of lower side tube 50 .
- valve system 10 may include a water flow diverter disposed in the interior of lower outflow tube section 16 .
- This water flow diverter may have any suitable design.
- the water flow diverter takes the form of a plate 54 attached with a hinge to the joint between lower side tube 50 and upright portion 48 , within the hollow interior of lower outflow tube section 16 . In the absence of water flowing through lower side tube 50 , plate 54 hangs downward across the opening to lower side tube 50 , as shown in solid lines in FIG. 2.
- plate 54 When water is discharged through low volume flush valve 22 , plate 54 blocks the opening of lower side tube 50 , and thus prevents water from flowing into the lower side tube.
- a stop is positioned in lower side tube 50 to prevent plate 54 from swinging into lower side tube 50 when water is flushed through low volume flush valve 22 .
- the water flow diverter may take the form of a stationary barrier 59 that extends partially over the opening of lower side tube 50 , as shown in FIG. 3.
- High volume flush valve 18 is configured to cover the end of lower side tube 50 to control the discharge of water through the lower side tube. High volume flush valve 18 is thus positioned at the free end of lower side tube 50 , and is pivotally anchored to a pair of arms 57 located on upright portion 48 .
- high volume flush valve 18 is a flapper valve, but may also be any other suitable type of valve.
- High volume flush valve 18 may include a seal extension 56 that extends past lower lip 52 of the high volume flush valve when the high volume flush valve is in the closed position, shown in solid lines in FIG. 2. Seal extension 56 is configured to help prevent the opening of high volume flush valve 18 by water flushed through low volume flush valve 22 by increasing the total water pressure against the high volume flush valve when the high volume flush valve is closed.
- upper outflow tube section 20 is slidably coupled to upright portion 48 of lower outflow tube section 16 .
- FIG. 2 shows low volume flush valve 22 in a first, lower position relative to high volume flush valve 18
- FIG. 3 shows the low volume flush valve in a second, higher position. Note that low volume flush valve 22 is farther from the surface of the water in the toilet tank in FIG. 2, causing more water to flow out of the high-volume valve when it is opened.
- Another advantage of the use of a slidable joint is that the joint allows the height of low volume flush valve to be chosen from a continuous range of possible heights.
- the portion of lower outflow tube section 16 that receives the upper outflow tube section 20 may be referred to as a connecting portion, and may be configured also to receive overflow tube 68 to form a single flush-volume configuration, as described in more detail below.
- FIGS. 2 and 3 The construction of the slidable joint between lower outflow tube section 16 and upper outflow tube section 20 is shown in FIGS. 2 and 3.
- Upper outflow tube section 16 includes an elongate neck 58 configured to fit within upright portion 48 of lower outflow tube section 20 such that it may be slid into or out of the lower outflow tube section.
- Elongate neck 58 may have any desired length. Generally, a longer elongate neck 58 provides for a greater range of height adjustability for low volume flush valve 22 . However, if elongate neck 58 has too great a length, it may interfere with the flow of water through lower side tube 50 .
- elongate neck 58 is long enough to just reach the top of lower side tube 50 when it is fully extended into lower outflow tube section 16 .
- the position of upper outflow tube section 20 relative to lower outflow tube section 16 may be fixed with a locking collar 60 .
- locking collar 60 is a worm-drive clamp, but upper outflow tube section 20 may be fixed to lower outflow tube section 16 with any other desired locking device.
- other suitable methods for fixing upper outflow tube section 16 in position relative to lower outflow tube section 20 such as a friction mechanism using an O-ring seal, may also be used.
- upper outflow tube section also includes an upper side tube 62 and the aforementioned overflow tube 24 .
- Upper side tube 62 connects low volume flush valve 22 to upright portion 48 , and provides a path for water to flow from low volume flush valve 22 into elongate neck 58 .
- Upper side tube 62 may have any suitable configuration, and may be located in any desired position on upper outflow tube section 16 .
- lower side tube 62 extends diagonally upward from elongate neck 58 .
- Low volume flush valve 22 is positioned at the upper end of upper side tube 62 , and is pivotally attached to a pair of arms 66 located on overflow tube 24 .
- low volume flush valve 22 is a flapper valve, but it may also be any other suitable type of valve.
- overflow tube 24 When upper outflow tube section 20 is raised or lowered relative to lower outflow tube section 16 , the height of overflow tube 24 also changes. To compensate for this, or to permit the maximum water level of the toilet to be adjusted, overflow tube 24 may have an adjustable height. In the depicted embodiment, overflow tube 24 has a slidable adjustment mechanism, although other mechanisms may be used. A sliding adjustment mechanism is preferable, as it allows the height of overflow tube 24 to be quickly adjusted to any desired height within a range of possible heights. In the depicted embodiment, overflow tube 24 is formed from an upper overflow tube section 68 that fits within a lower overflow tube section 70 .
- Lower overflow tube section 70 of the depicted embodiment is integral with upper outflow tube section 20 , and may include a locking collar 72 for fixing the position of upper overflow tube section 68 relative to lower overflow tube section 70 .
- a toilet bowl refill tube 74 (or other suitable device) may be threaded into overflow tube 24 for refilling the toilet bowl after a flush, or may be placed elsewhere in the toilet tank.
- Upper overflow tube section 68 may initially be provided with extra length to extend into lower outflow tube section 16 . This extra length may facilitate the conversion of modular valve system 10 between single flush-volume and dual flush-volume configurations, as it may allow for the use of a longer overflow tube in a single flush-volume configuration for taller, narrower toilet tanks. However, the extra length of upper overflow tube section 68 may also be cut off (or otherwise removed from) the upper overflow tube section, as indicated at 68 ′ in FIG. 3, where used in a dual flush-volume configuration.
- upper overflow tube section 68 may be placed directly in lower outflow tube section 16 , without the use of upper outflow tube section 20 . This is depicted in FIG. 23. In this configuration, the height of the top of upper overflow tube section 68 may be adjusted simply by sliding overflow tube into or out of lower outflow tube section 16 . Thus, in this manner, valve assembly 10 may be converted to a single flush-volume valve without the purchase of any additional parts. It will be appreciated that the outer diameter of upper overflow tube section 68 may be configured to be the same as the outer diameter of elongate neck 58 so that the upper outflow tube section 68 fits snugly within lower outflow tube section 16 .
- lower overflow tube section 70 may have a may have a slightly larger diameter than elongate neck 58 .
- lower overflow tube section 70 may have substantially the same outer diameter as elongate neck 58 .
- upper outflow tube section 68 may have a slightly smaller outer diameter than elongate neck 58 , and may be secured in lower outflow tube 16 by tightening locking ring 60 sufficiently, or through the use of a suitable gasket (not shown).
- a second embodiment of a modular valve assembly according to the present invention is shown generally at 110 in FIG. 4.
- Modular valve assembly 110 is similar in appearance and operation to the first embodiment, but utilizes a different upper outflow tube section, indicated at 120 .
- Upper outflow tube section 120 has an offset overflow tube 124 , which allows low volume flush valve 122 to be positioned directly over the base. In this configuration, water flushed through low volume flush valve 122 passes directly downward from the low volume flush valve out of the toilet tank, without any horizontal deflection. This may increase the continuous maximum water volume and velocity of the low-volume flush, and thus may lead to a more efficient flush.
- Offset overflow tube 124 is formed from an upper overflow tube section 168 slidably coupled to a lower overflow tube section 170 . This allows the height of overflow tube 124 to be adjusted, and thus permits the overflow tube height to be changed to compensate for changes in the height of the low volume flush valve, or to change the maximum water level in the toilet tank.
- a locking collar 172 may be provided to allow upper overflow tube section 168 to be fixed in position relative to lower overflow tube section 170 .
- a pair of arms 166 may be provided on overflow tube section 120 as a location for the attachment of low volume flush valve 122 .
- a refill tube 174 for refilling the toilet bowl after a flush may be attached to upper overflow tube section 168 .
- Positioning overflow tube 124 in an offset position also may allow the overflow tube to have a greater range of adjustability than if it were positioned directly over upper outflow tube section 120 .
- lower overflow tube section 170 extends below the upper edge 178 of upper outflow tube section 120 , permitting the length of upper overflow tube section 168 to be correspondingly increased for a greater range of adjustment.
- valve assembly 110 may be converted to a single flush-volume valve configuration by removing upper outflow tube section 120 , and attaching an overflow tube assembly such as that shown at 1020 in FIG. 23, described in more detail below.
- an overflow tube assembly such as that shown at 1020 in FIG. 23, described in more detail below.
- FIGS. 5 - 8 show generally at 210 a third embodiment of a modular valve assembly according to present invention.
- modular valve assembly 210 provides a column-type valve assembly, in which an upright column structure 211 may be lifted directly upward along a guide 213 to open a space between the column structure and the valve base, thus allowing water to flow out of the toilet tank.
- valve assembly 210 includes a base 214 and the aforementioned column structure 211 , which is formed of a lower outflow tube section 216 , an upper outflow tube section 218 , a cap piece 220 and an overflow tube 222 .
- Upper outflow tube section 218 is adjustably coupled to lower outflow tube section 216 to allow the volume of the low-volume flush to be adjusted.
- cap piece 220 and overflow tube 222 may be used with alone base 214 , without lower outflow tube section 216 or upper outflow tube section 218 , to form a single flush-volume configuration of modular valve assembly 210 .
- Base 214 is configured to couple modular valve assembly 210 to the bottom 40 of toilet tank 12 and to pass water out of the toilet tank.
- base 214 takes the form of a spud, but it will be appreciated that base 214 may have any other suitable configuration.
- Base 214 includes a threaded portion 230 that fits through toilet tank outflow hole 43 , and is secured to bottom 40 of toilet tank 12 with a nut 232 . The connection may be sealed with a gasket 234 .
- Base 214 also includes an upper surface 236 that forms part of the high volume flush valve.
- upper surface 236 is a flat surface configured to form a watertight seal with a gasket 238 situated on lower outflow tube section 216 .
- the high volume flush valve is opened by separating gasket 238 from upper surface 236 of base 214 , permitting water to drain from toilet tank 12 through the base.
- the gasket and upper surface are separated by pulling upwardly on a ring 239 attached to upper outflow tube section 218 , thus lifting column structure 211 along guide 213 .
- guide 213 extends upwardly from base 214 and guides the movement of column structure 211 when the lower outflow tube section is raised or lowered.
- Guide 213 may have any suitable configuration.
- guide 213 is formed from four upwardly-extending ribs 240 arranged in a cross-like configuration, but may have any other suitable configuration.
- Guide 213 may also include a series of holes or raised portions 241 to reduce the noise of water flowing down guide 213 as the toilet bowl is refilled after flushing.
- Lower outflow tube section 216 includes a ring 242 that surrounds guide 213 to hold column structure 211 centered on guide 213 .
- Ring 242 is attached to the inside of lower outflow tube section 216 with one or more plastic spacers 244 , and travels along guide 213 as lower outflow tube section 216 is moved up or down to open or close the high volume flush valve, respectively.
- Modular valve assembly 210 may have as many rings 242 as desired for guiding lower outflow tube section 216 (and upper outflow tube section 218 ) along guide 213 . Two rings 242 are shown in the depicted embodiment.
- Lower outflow tube section 216 also includes a float 246 .
- Float 246 is formed from a hollowed, air-containing chamber surrounding lower outflow tube section 216 . When the high-volume valve is opened, float 246 holds the high-volume valve open until the water drains to the level of upper surface 236 of base 214 .
- One or more small holes 247 may be formed in the bottom of float 246 to allow for the equalization of pressure between the float and the outside atmosphere. Holes 247 open into the hollow interior of lower outflow tube section 216 so that any water that may get inside of float 246 will drain out of the toilet tank.
- the low volume flush valve of modular valve assembly 210 is formed from the junction of upper outflow tube section 218 and cap section 220 .
- the seal of the low volume flush valve is formed between the top surface 250 of upper outflow tube section 218 and a gasket 252 attached to the bottom of cap section 220 . Separating gasket 252 from top surface 250 lifts cap section 220 along guide 213 , and thus opens the high volume valve.
- a chain attachment ring 254 is disposed on cap section 220 to allow the attachment of a chain or wand so that cap section 220 may be lifted with wand 26 , or another suitable mechanism.
- a float 256 formed in cap section 220 holds the low volume flush valve open until water drains to the level of top surface 250 .
- One or more small holes 257 may be provided to allow the pressure within float 256 to equalize with the outside atmosphere.
- upper outflow tube section 218 is adjustably coupled to the upper portion of lower outflow tube section 216 .
- Lower outflow tube section 216 and upper outflow tube section 218 may be adjustably coupled in any desired manner.
- the upper portion of lower outflow tube section 216 and the lower portion of upper outflow tube section 218 may have complementary threads so that the height of the upper outflow tube section may be adjusted by turning the upper outflow tube section.
- upper outflow tube section 218 is slidably coupled to lower outflow tube section.
- a suitable locking device such as a worm drive clamp 258 , may be used to fix upper outflow tube section 218 in position relative to lower outflow tube section 216 .
- Overflow tube 222 is attached to the top portion of cap section 220 , and may have any suitable design for allowing excess water to drain from toilet tank 12 .
- overflow tube 222 may have a fixed height relative to cap section 220 .
- overflow tube 222 has an adjustable height. This allows the height of the overflow tube to be adjusted to compensate for adjustments in the height of the low volume flush valve, and also to allow the maximum water level in the toilet tank to be adjusted.
- Overflow tube 222 is formed from a lower overflow tube section 260 slidably coupled to an upper overflow tube section 262 .
- Lower overflow tube section 260 of the depicted embodiment is formed from a molded tubular inner section of cap section 220 , but may also be formed from a separate tubular piece.
- Lower overflow tube section 260 preferably has a diameter that closely fits guide 213 so that guide 213 holds cap section 220 centered over upper outflow tube section 218 and lower outflow tube section 216 .
- Upper overflow tube section 262 fits snugly within, or outside of, the inner diameter of lower overflow tube section 260 so that it may be slid upward or downward relative to the lower overflow tube section to adjust the height of overflow tube 222 .
- a locking device such as a worm drive clamp 266 (or any other suitable device), may be used to fix the height of upper overflow tube section 262 relative to lower overflow tube section 260 .
- guide 213 includes a stop 268 with a greater diameter than the diameter of upper overflow tube section 262 .
- Stop 268 may be attached to guide 213 in any suitable manner.
- cap 268 is connected to guide 213 with a threaded connection.
- Stop 268 may include a refill hole 270 configured to accept a toilet bowl refill line.
- guide 213 also includes a refill tube 272 extending downwardly from refill hole 270 past the level of top surface 250 of upper outflow tube section 218 . This helps to prevent water flowing through refill hole 270 from compromising the integrity of the seal of the low volume flush valve.
- FIGS. 7 and 8 illustrate operation of the dual flush-volume configuration of modular valve assembly 210 .
- water can flow through the high volume flush valve formed by the gap between the lower outflow tube section and the base, thus emptying essentially the whole toilet tank.
- cap section 220 is lifted from upper outflow tube section 218 , water can flow through the low volume flush valve formed by the gap between the upper outflow tube section and the cap section, thus only partially emptying the toilet tank.
- FIGS. 9 - 13 illustrate another suitable flush mechanism 310 , which utilizes a single handle 28 that operates both flush valves. Ordinarily, handle 28 opens only the low volume flush valve. However, flush mechanism 310 includes a button 34 that may be depressed to allow operation of the high volume flush valve with handle 28 .
- flush mechanism 310 The construction of flush mechanism 310 is shown in detail in FIG. 9.
- Handle 28 attaches to the toilet tank with a cylindrical bushing 316 configured to extend through a hole in the toilet tank wall.
- One end 318 of bushing 316 is threaded so that bushing 316 can be attached to the toilet tank with a nut 321 .
- Nut 321 also holds a locking mechanism 320 in place, described in more detail below.
- Handle 28 is fixed to one end of a hollow rotatable member 322 that extends through bushing 318 .
- a flush wand 26 is attached to the other end of hollow rotatable member 322 with a screw 325 , or other suitable fastener.
- pushing handle 28 downwardly causes flush wand 26 to rotate upwardly and pull open any valves connected to the flush wand.
- flush wand 26 is connected to both the low volume flush valve and the high volume flush valve.
- Flush wand 26 is connected to the low volume flush valve with a first, shorter connector 327 , and to the high volume flush valve with a second, longer connector.
- handle 28 is pushed, the low volume flush valve is opened after a first, lesser amount of rotation of rotatable member 322 .
- the high volume flush valve is opened only after rotatable member 322 travels through a second, greater amount of rotation.
- flush mechanism 310 may include a high-volume flush control.
- the high-volume flush control typically has at least two possible states: a first state in which the opening of the high volume flush valve is prevented, and a second state in which the opening of the high volume flush valve is enabled.
- the first state will typically be the default state of the flush mechanism.
- the high-volume flush control prevents handle 28 from rotating far enough to open the high volume flush valve unless button 34 is depressed while pushing on handle 28 .
- the high-volume flush control includes a slidable member 326 extending through the interior of wand rotation tube 322 .
- Button 34 is disposed on one end of slidable member 326 , and a wand rotation stop 328 is disposed on the other end.
- wand rotation stop 328 extends snugly over the top of flush wand 26 .
- the top surface 330 of flush wand 26 is flat, causing wand rotation stop 328 to rotate when the flush wand is rotated.
- button 34 is depressed, however, wand rotation stop 328 is pushed away from top surface 330 of flush wand 26 .
- a spring 332 may be disposed around wand rotation lock shaft 326 to bias wand rotation stop 328 into the first state by pushing against the outside of the toilet tank.
- locking mechanism 320 has a wand rest support 334 that holds flush wand 26 in the rest position when handle 28 is not being operated.
- locking mechanism 320 has a wand rotation stopping member 336 .
- Wand rotation stopping member 336 is configured to be a barrier to the rotation of flush wand 26 past the point at which the low volume flush valve is opened, unless button 34 is depressed. As described above and illustrated in FIGS. 10 - 11 , when button 34 is not depressed, wand rotation stop 328 turns with flush wand 26 .
- wand rotation stop 328 contacts wand rotation stopping member 336 after flush wand 26 has been rotated far enough to open the low-volume valve, and thus prevents the flush wand from being turned further.
- Wand rotation stopping member 336 may include an adjustment mechanism, typically a small screw 338 , to allow the exact stop position of flush wand 26 to be fine-adjusted.
- FIG. 14 illustrates a second embodiment of a flush mechanism suitable for use with a dual-flush valve assembly, generally at 410 .
- Flush mechanism 410 is similar to flush mechanism 310 in many aspects.
- flush mechanism 410 includes a hollow rotatable member 412 that extends through a bushing 414 configured to be mounted to the toilet tank wall.
- a handle 416 is attached to one end of rotatable member 412
- a first flush wand 418 is attached to the other end of rotatable member 412 .
- flush mechanism 410 also has a high-volume flush control.
- the high-volume flush control includes a slidable member 420 that extends through the hollow interior of rotatable member 412 .
- a wand rotation stop 422 is attached to one end of slidable member 420
- a button 424 may be attached to the other end of the slidable member.
- Button 424 may be pressed to move wand rotation stop 422 from its first state, positioned over first flush wand 418 , to its second state, in which it is not positioned over first flush wand 418 .
- slidable member 420 may include raised portions or flutings 425 to mate with complementary flutings 427 within button 424 .
- flush mechanism 410 includes a second flush wand 426 to open the high volume flush valve.
- Second flush wand 426 is mounted to an extension 428 of slidable member 420 , which may include flutings 430 to hold second flush wand 426 more securely.
- Second flush wand is lifted by a lifting member 432 disposed on first flush wand 418 that extends outwardly from the first flush wand.
- Lifting member 432 of the depicted embodiment has an elongate, generally flat shape, but it will be appreciated that any other lifting member may be used without departing from the scope of the present invention.
- lifting member 432 helps to increase the velocity of the water exiting the toilet tank during a high volume flush, as water flowing through the low volume flush valve may be able to reach a higher velocity due to its longer fall through the lower outflow tube section, and thus may increase the overall momentum of the water flowing out of the toilet tank.
- the opening of the low volume flush valve along with the high volume flush valve during a high-volume flush may help to eliminate air within the lower and upper outflow tube sections during a high-volume flush. This may help to improve the smooth flow of water out of the toilet tank during a high-volume flush.
- any other suitable mechanism for opening the low volume flush valve and the high volume flush valve at the same time may be used.
- both the low volume flush valve and the high volume flush valve may be attached to the high volume flush wand via separate cords or chains.
- Operation of flush mechanism 410 is similar to that of flush mechanism 310 .
- Depressing handle 416 when wand rotation stop 422 is in the first state causes the wand rotation stop 422 to contact a stopping member 438 , thus preventing the high volume flush valve from being opened.
- button 424 is depressed, moving wand rotation stop 422 into its second state, the wand rotation stop does not rotate with handle 416 , thus permitting the handle to be turned sufficiently far to open the high volume flush valve.
- a spring 440 may be provided to bias button 424 outwardly, and thus to bias wand rotation stop 422 into the first state.
- an elastic cord 434 may be attached between wand rest support 436 and either low volume flush wand 418 , high volume flush wand 426 , or both flush wands to bring the flush wands down to the rest position after a flush is completed.
- Indicator symbols 442 may be molded into, printed on, or otherwise provided on handle 416 , button 424 , and/or flush wands 418 and 426 to indicate which flush wands are controlled by the handle and button.
- the indicator symbols also may indicate which flush handle is used to flush which type of waste. For example, liquid waste is often referred to as “number one” by many people, and especially children, while solid waste is often referred to as “number two.”
- handle 416 and button 424 have the indicator symbols shown in FIG. 14, a user, and especially a young user, may easily determine which part is to be used to flush which type of waste. This may allow a child to be trained at a young age to use the water-saving low volume flush to flush liquid wastes.
- FIG. 15 depicts a third embodiment of a flush mechanism suitable for use with a dual-volume flush valve according to the present invention, generally at 510 .
- Flush mechanism 510 is similar to flush mechanisms 310 and 410 in many aspects.
- flush mechanism 510 includes a hollow rotatable member 512 that extends through a bushing 514 configured to be mounted to the toilet tank wall.
- a handle 516 is attached to one end of rotatable member 514
- a low volume flush wand 518 is attached to the other end of rotatable member 514 .
- Flush mechanism 510 also has a high-volume flush control including a slidable member 520 that extends through the hollow interior of rotatable member 512 .
- a high volume flush wand 528 is disposed on the end of slidable member 520 .
- flush mechanism 510 includes a wand rotation engagement bracket 522 attached to a button 524 coupled to the end of slidable member 520 .
- Wand rotation engagement bracket 522 is configured to engage a complementary raised portion 526 on rotatable member 514 to cause slidable member 520 to turn with rotatable member 514 when button 524 is depressed and handle 516 is pushed.
- flush mechanism 510 has two states. In the first state, when button 524 is not pushed inwardly by a user, wand rotation bracket 522 does not engage raised portion 526 on rotatable member 514 when handle 516 is depressed. Thus, slidable member 520 is not turned with rotatable member 514 . However, in the second state, when button 524 is depressed, raised portion 526 engages wand rotation engagement bracket 522 when handle 516 is depressed. This causes slidable member 520 to turn with handle 516 , thus lifting high volume flush wand 528 and causing the high volume flush valve to be opened.
- a spring 530 may be included between button 524 and rotatable member 514 to bias wand rotation engagement bracket 522 into the first state. Also, an elastic cord 532 may be attached to high volume flush wand 528 and another part of flush mechanism, such as a wand rest support 534 , to return the high-volume flush to its rest position once the flush is finished.
- FIG. 16 shows, generally at 610 , another embodiment of a flush mechanism suitable for use with a valve assembly of the present invention.
- Valve assembly 610 has similarities to other embodiments described above.
- flush mechanism 610 includes a hollow rotatable member 612 that extends through a bushing 614 configured to be mounted to the toilet tank wall.
- a handle 616 is attached to one end of rotatable member 612
- a low volume flush wand 618 is attached to the other end of rotatable member 612 .
- a slidable member 620 extends through the hollow interior of rotatable member 612 .
- the high-volume flush control of flush mechanism 610 operates differently from those of the embodiments described above. Wherein the high-volume flush controls of flush mechanisms 310 , 410 and 510 are changed between states by pushing a button, flush mechanism 610 is changed between states by pulling slidable member 620 outwardly. The high volume flush valve may then be opened by turning slidable member 620 .
- bushing 614 includes a flange 622 with a depression 624 .
- Depression 624 is configured to receive a complementary extension 626 disposed on an outer cap piece 628 , which is attached to the end of slidable member 620 .
- flush mechanism 610 The operation of flush mechanism 610 is as follows. Low volume flush wand 618 may be opened simply by pushing on handle 616 . High volume flush wand 630 , however, may not be opened simply by turning cap piece 628 . When in the first state, extension 626 is positioned within depression 624 , preventing cap piece 628 from being turned. Therefore, cap piece 628 must first be pulled outwardly, and then turned, to lift high volume flush wand 630 . A spring 632 may be included to bias cap piece 628 into the first state, and elastic cords 634 and 636 may be included to pull high volume flush wand 630 and low volume flush wand 618 , respectively, to their rest positions after use.
- handles may have a numerical (or other) code to depict visually the correspondence between a selected handle and its associated flush valve.
- handle 616 and wand 618 each include a number “1”, shown at 635 and 635 ′, respectively.
- cap piece 628 and wand 630 each include a number “2”, shown at 637 and 637 ′, respectively.
- a lifting member 640 for communicating motion between high volume flush wand 630 and low volume flush wand 618 may be provided if desired.
- lifting member 640 is fixed to low volume flush wand 618 , and extends over high volume flush wand 630 .
- lifting member 640 does not affect high volume flush wand 618 .
- the high volume flush wand 630 lifts lifting member 640 , which in turn lifts low volume flush wand 618 . This causes the low volume flush valve to open whenever the high volume flush valve is opened, and may help to decrease the amount of time necessary to empty the toilet tank.
- Cap piece 628 may have any suitable shape.
- cap piece 628 may have a flat configuration with a generally round circumference, or may have a shape like a traditional toilet handle.
- cap piece 628 includes a contoured extension 638 with a downwardly-curved perimeter configured generally to fit the shape of a finger of a user.
- contoured extension 638 is positioned such that a user pulls upwardly on the contoured extension to actuate a high-volume flush, and thus may be more awkward to use than handle 616 . This may make it less likely that a user will use the high-volume flush for situations in which it is not needed.
- contoured extension 638 may be placed in any other desired position on handle 616 .
- FIG. 21 shows another example of suitable configurations for the handle and cap piece.
- handle 916 and cap piece 928 have shapes that communicate to a user which valve is controlled by each part.
- handle 916 may have the shape of the number “1” to show that the handle corresponds to low volume flush wand 918 , which may be labeled with a number “1”, as described above.
- cap piece 928 may have the shape of the number “2” to show that the handle corresponds to high volume flush wand 928 , which may be labeled with a number “2”, as described above.
- the handle 916 and cap piece 928 of FIG. 21 also may indicate which part is used to flush which type of waste.
- liquid waste is often referred to as “number one” by many people, and especially children, while solid waste is often referred to as “number two.”
- handle 916 and cap piece 928 have the shapes shown in FIG. 21, a user, and especially a young user, may easily determine which part is to be used to flush which type of waste. This may allow a child to be trained at a young age to use the water-saving low volume flush to flush liquid wastes.
- FIG. 17 illustrates generally at 710 another flush mechanism suitable for use with a valve system according to the present invention.
- flush mechanism 710 includes a hollow rotatable member 712 that extends through a bushing 714 configured be mounted to the toilet tank wall.
- a low volume flush handle 716 is attached to one end of rotatable member 714
- a low volume flush wand 718 is attached to the other end of rotatable member 714 .
- Flush mechanism 710 also includes an elongate member 720 extending through the hollow interior of rotatable member 714 . Unlike the corresponding piece in the prior embodiments, however, elongate member 714 is not slidable through the hollow interior of rotatable member 714 . Instead, elongate member 720 is independently rotatable.
- a high volume flush wand 722 is attached to one end of elongate member 720 , and a high volume flush handle 724 is attached to the other end.
- High volume flush handle 724 has a shape configured to be somewhat more awkward to use than low volume flush handle 716 . Therefore, when a user reflexively operates flush mechanism 710 , the user will typically push on low volume flush handle 716 . Likewise, when the user desires a high-volume flush, the user must cognitively decide to operate the somewhat more awkward high volume flush handle 724 . This may be sufficient to prevent the user from flushing a full toilet tank of water in the absence of a decision that a high-volume flush is needed.
- FIGS. 18 - 20 illustrate yet another flush mechanism suitable for use with the present invention, generally at 810 .
- flush mechanism 810 employs a pullable member 812 that can be pulled a first, shorter distance to open low volume flush valve 22 , or a second, greater distance to open high volume flush valve 18 .
- Pullable member 812 extends through an opening in the top of toilet tank 12 , which may be fitted with a bushing 814 .
- Pullable member 812 of the depicted embodiment takes the form of an elongate, tubular form member, but have any other desired shape and construction.
- a handle 815 may be provided on pullable member 812 to facilitate use of flush mechanism 810 , and a collar 817 may be disposed about the perimeter of pullable member 812 to support pullable member 812 at a desired height relative to the top of toilet tank 12 while at rest.
- Pullable member 812 is connected to low volume flush valve 22 with a first, longer connector 816 , and to high volume flush valve 18 with a second, shorter connector 818 .
- shorter connector 818 opens low volume flush valve 22 before longer connector 816 is able to open high volume flush valve 18 .
- flush mechanism 810 also includes a high-volume flush control having a movable blocking member 820 .
- Blocking member 820 is configured to have both a blocking position, corresponding to a first state of the high-volume flush control, and a retracted position, corresponding to a second state of the high-volume flush control.
- the blocking position is configured to prevent pullable member 812 from being pulled sufficiently far to open high volume flush valve 18 unless it is moved to the retracted position.
- Blocking member 820 may have any suitable configuration.
- blocking member 820 takes the form of a lever mounted to the interior of pullable member 812 with a pivot 822 .
- Blocking member 820 is attached to pivot 822 at a location approximately midway between the ends of blocking member 820 , but may be attached at any other suitable point.
- blocking member 820 extends outwardly from the interior of pullable member 812 through a slot 824 , and the other end is coupled to one end of an actuating member 826 .
- Actuating member 826 is also coupled to a button 828 positioned at the top of pullable member 812 .
- Button 828 may be depressed by a user to move actuating member 826 downward, which in turn pushes on the end of blocking member 820 , causing the protruding end of blocking member 820 to pivot and retract through slot 824 into the interior of pullable member 812 .
- a biasing element such as a spring 829 may be included to bias blocking member 820 into the blocking position.
- flush mechanism 810 The operation of flush mechanism 810 is illustrated in FIGS. 19 - 20 .
- FIGS. 19 - 20 Referring first to FIG. 19, when button 828 is not depressed, blocking member 820 extends outwardly from the interior of pullable member 812 .
- pullable member 812 is pulled upwardly to flush the toilet, but blocking member 820 contacts the inside surface of the top of toilet tank 12 before the high volume flush valve has been opened, preventing the pullable member from being pulled far enough to open the high volume flush valve.
- buttons 828 when button 828 is depressed, blocking member 820 is retracted into the interior of pullable member 812 .
- a stop 830 may be disposed at a desired location on pullable member 812 to prevent the pullable member from being pulled completely through the top of the toilet tank.
- an elastic cord 832 may be attached to pullable member 812 to return the pullable member to the rest position after use.
- FIG. 22 shows generally at 1000 another exemplary single flush-volume configuration of a modular outflow valve assembly according to the present invention.
- Valve assembly 1000 includes a base 1002 configured to be attached to the bottom 1004 of a toilet tank.
- Valve assembly 1000 also includes a lower outflow tube section 1006 .
- Lower outflow tube section 1006 is similar to those shown above in the embodiments of FIGS. 1 - 3 and 4 .
- side tube 1008 includes a pair of arms 1010 coupled to an upright post 1012 to which a flush valve 1014 is connected.
- Side tube 1008 also includes a support 1016 to support the side tube against the bottom of the toilet tank. It will be appreciated, however, that the lower outflow tube sections of either of the embodiments of FIGS. 1 - 3 and 4 may be used in place of the depicted lower outflow tube section 1006 .
- Lower outflow tube section 1006 also includes a generally upright portion 1018 configured to accept the insertion of an overflow tube assembly 1020 .
- Overflow tube assembly 1020 includes a lower overflow tube section 1022 configured to fit snugly within the inner diameter of upright portion 1018 of lower outflow tube section 1006 .
- the height of lower overflow tube section 1022 may be adjusted by sliding lower overflow tube section 1022 into our out of lower outflow tube section 1006 , and may be fixed in a desired position via locking collar 1026 .
- Overflow tube assembly 1020 also includes an upper overflow tube section 1028 .
- Upper overflow tube section 1028 is configured to fit within lower overflow tube section 1022 , and to be slidably adjustable with respect to the lower overflow tube section to provide an additional measure of adjustability for the height of the overflow tube assembly.
- upper overflow tube section 1028 is configured to fit snugly within a top portion of lower overflow tube section 1022 , and may be secured in a desired position with a locking collar 1030 .
- upper overflow tube section 1028 may have any suitable diameter, and may be secured in place via any suitable mechanism.
- Valve assembly 1000 may be converted to a dual flush valve assembly simply by removing overflow tube assembly 1020 from lower outflow tube section 1006 , and replacing the overflow tube assembly with an upper outflow tube section having a low volume flush valve.
- suitable upper outflow tube sections include, but are not limited to, upper outflow tube sections 20 of FIGS. 1 and 120 of FIG. 4. Where upper outflow tube section 20 of FIG. 1 is used, overflow tube assembly 1020 may be inserted into the lower overflow tube section 70 of upper outflow tube section 20 .
- valve assembly 1000 allows a user to quickly and easily convert the valve between single flush-volume and double flush-volume configurations without having to purchase an entirely new valve assembly, and without having to detach the valve assembly from the bottom of a toilet tank.
- the embodiments disclosed herein allow a manufacturer to make individual parts that may be used in either single or dual flush-volume configurations.
- FIG. 24 shows, generally at 1100 , yet another possible configuration of a modular valve system according to the present invention.
- Valve assembly 1100 is formed from a combination of a lower outflow tube section 1112 similar to that of the embodiment of FIGS. 22 - 23 , and an upper outflow tube section 1114 and cap section 1116 similar to that of the embodiment of FIGS. 5 - 8 .
- Valve assembly 1110 includes a high volume flush valve 1118 positioned on lower outflow tube section 1112 , and a low volume flush valve 1120 formed from the junction of upper outflow tube section 1114 and cap section 1116 .
- upper outflow tube section 1114 is slidably coupled to lower outflow tube section 1112 to allow the height of low volume flush valve 1120 to be adjusted.
- Valve assembly 1110 also includes a base 1122 configured to couple the valve assembly to the bottom of the toilet tank and to pass water out of the toilet tank. Furthermore, a guide 1117 extends upwardly from base 1122 to guide cap section 1116 when it is lifted to discharge water from the toilet tank.
- Lower outflow tube section 1112 is similar in appearance and function to the lower outflow tube section of the embodiment of FIGS. 22 - 23 .
- Lower outflow tube section 1112 is connected to base 1122 , and includes a hollow upright portion 1130 to which upper outflow tube section 1114 is coupled.
- Upright portion 1130 supports upper outflow tube section 1114 above base 1122 , and also channels water discharged through low volume flush valve 1120 . It will be appreciated that numerous modifications, including the examples described above for the embodiment of FIGS. 1 - 3 , may be made to lower outflow tube 1112 without departing from the scope of the present invention.
- Lower outflow tube section 1112 also includes a side tube 1132 extending away from upright portion 1130 .
- Side tube 1132 connects high volume flush valve 1118 to upright portion 1130 .
- side tube 1132 is oriented generally parallel to the toilet tank bottom, and is positioned directly adjacent the toilet tank bottom. This places the lower edge of high volume flush valve 1118 close to the toilet tank bottom, allowing essentially the entire volume of water in the toilet tank to be flushed through high volume flush valve 1118 .
- high volume flush valve 1118 may also be positioned directly on the side of upright portion 1130 without departing from the scope of the present invention.
- low volume flush valve 1120 is similar in appearance and function to the low volume flush valve of the embodiment of FIGS. 5 - 8 .
- the seal of low volume flush valve 1120 is formed between the top surface 1134 of upper outflow tube section 1114 and a gasket 1136 attached to the bottom of cap section 1116 . Separating gasket 1136 from top surface 1134 lifts cap section 1116 along guide 1117 , and thus opens low volume flush valve 1120 .
- a float 1140 formed in cap section 1116 holds low volume flush valve 1120 open until water drains to the level of top surface 1134 .
- lower outflow tube section 1112 and upper outflow tube section 1114 may be adjustably coupled in any desired manner.
- upper outflow tube section 1114 is slidably coupled to lower outflow tube section 1112 .
- the outer diameter of upper outflow tube section 1114 is slightly smaller than the inner diameter of lower outflow tube section 1112 .
- upper outflow tube section 1114 fits within inner outflow tube section 1112 in a telescopic manner.
- a suitable locking device such as a worm drive clamp, may be used to fix upper outflow tube section 1114 in position relative to lower outflow tube section 1112 .
- upper outflow tube section 1114 may also fit around the outside of lower outflow tube section 1112 without departing from the scope of the present invention.
- outflow valve assembly 1110 also has an overflow tube 1144 .
- the height of overflow tube 1144 may be configured to be adjustable so that it may be changed to compensate for changes in the height of the low volume flush valve, and also to allow the maximum water level in the toilet tank to be adjusted.
- Overflow tube 1144 is formed from a lower overflow tube section 1146 slidably coupled to an upper overflow tube section 1148 .
- the outer diameter of upper overflow tube section 1148 is slightly smaller than the inner diameter of lower overflow tube section 1146 , and thus fits within the lower overflow tube section in a telescopic manner.
- a locking device such as a worm drive clamp 1150 , may be used to fix the height of upper overflow tube section 1148 relative to lower overflow tube section 1146 .
- upper overflow tube section 1148 may also be configured to fit around the outside of lower overflow tube section 1146 in a telescopic manner.
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Abstract
A dual flush-volume toilet system is disclosed, wherein the toilet system includes a low volume flush valve configured to flush a first, lesser volume of water, a high volume flush valve configured to flush a second, greater volume of water, a low volume flush handle configured to open the low volume flush valve, and a high volume flush handle configured to open the high volume flush valve. At least one of the low volume flush handle and the high volume flush handle includes indicia configured to indicate to the user which of the high volume flush valve and the low volume flush valve is opened by the flush handle having the indicia.
Description
- This application is a continuation-in-part of U.S. patent application Ser. No. 10/304,309, filed Nov. 25, 2002, which is a continuation-in-part of PCT Application Serial No. PCT/US02/01824, filed on Jan. 18, 2002, which claims priority from U.S. patent application Ser. No. 09/957,812, filed on Sep. 20, 2001, and from U.S. patent application Ser. No. 09/765,690, filed on Jan. 19, 2001. All of the above applications are incorporated herein by reference in their entirety for all purposes.
- The present invention relates to a dual flush-volume toilet system. More particularly, the invention provides flush handles for a dual flush-volume toilet system.
- In the past, most toilets manufactured in the U.S. discharged approximately 3-5 gallons of water per flush. More recently, however, concerns with water conservation, combined with federal law requiring new toilets to have a maximum discharge volume of 1.6 gallons per flush, have led to the development of new water-conserving toilet systems and various devices for reducing the water consumption of older toilets.
- One example of a device used to increase the efficiency of older toilets is a dual flush-volume toilet tank outflow valve assembly. Dual flush valve assemblies utilize separate flush valves that discharge different amounts of water for flushing solid and liquid waste. In one type of dual flush-volume valve assembly, a high volume flush valve is positioned near the bottom of the toilet tank to pass a higher volume of water for flushing solid waste, and a low volume flush valve is positioned higher in the toilet tank for passing a lower volume of water for flushing liquid waste. Thus, a user may select a high-volume flush when clogging presents a problem, and otherwise use a low-volume flush.
- While known dual flush-volume valve assemblies do offer improved water conservation relative to older, high-volume toilet systems, they also have several shortcomings. For example, known dual flush-volume valve assemblies permit little, if any, adjustment of the relative volumes of the low-volume flush and the high-volume flush. This can pose a problem in retrofitting older toilet tanks, as the volume of water passed from the toilet tank during a low-volume flush may be dependent upon the shape of the toilet tank. As an example, when using a dual valve assembly of a selected height, more water may be discharged by the low-volume valve from a taller tank than from a shorter tank, as the level of water in the shorter tank may be closer to the low-volume valve than in the taller tank. This may cause problems with flushing, as an inadequate amount of water to flush waste from the toilet bowl may be discharged if the maximum water level in the toilet tank is too close to the low-volume valve.
- Furthermore, the conversion of a single flush-volume valve system to known dual flush-volume valve systems may pose various difficulties. These difficulties may cause many consumers to avoid converting a single-volume flush system to a dual flush system, even given the long-term cost advantages of using less water per flush. Likewise, some toilet tanks may not be suited for fitting with dual flush-volume valve systems, while others may not be suited for fitting with single flush-volume valve systems. For these reasons, manufacturers may have to manufacture, and stores may need to stock, both single-volume valve systems and double-volume valve systems, which may increase manufacturing and distribution expenses.
- Some embodiments provide a dual flush-volume toilet system, wherein the toilet system includes a low volume flush valve configured to flush a first, lesser volume of water, a high volume flush valve configured to flush a second, greater volume of water, a low volume flush handle configured to open the low volume flush valve, and a high volume flush handle configured to open the high volume flush valve. At least one of the low volume flush handle and the high volume flush handle includes indicia configured to indicate to the user which of the high volume flush valve and the low volume flush valve is opened by the flush handle having the indicia.
- FIG. 1 is an isometric view of a dual-volume configuration of a modular outflow valve assembly according to a first embodiment of the present invention positioned in a toilet tank, assembled in a dual flush-volume configuration.
- FIG. 2 is a side elevational view of the embodiment of FIG. 1, with the low volume flush valve in a first, lower position relative to the high volume flush valve.
- FIG. 3 is a side elevational view of the embodiment of FIG. 1, with the low volume flush valve in a second, higher position relative to the high volume flush valve.
- FIG. 4 is a side elevational view of a second embodiment of an outflow valve assembly according to the present invention.
- FIG. 5 is a side elevational view of a third embodiment of an outflow valve assembly according to the present invention.
- FIG. 6 is a partially sectioned view of the embodiment of FIG. 5, with both valves in closed positions.
- FIG. 7 is a partially sectioned view of the embodiment of FIG. 5, with the high volume flush valve in an open position.
- FIG. 8 is a partially sectioned view of the embodiment of FIG. 5, with the low volume flush valve in an open position.
- FIG. 9 is an exploded isometric view of a first embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 10 is an isometric view of the flush mechanism of FIG. 9.
- FIG. 11 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the handle for a low-volume flush.
- FIG. 12 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the release button for a high-volume flush.
- FIG. 13 is an isometric view of the flush mechanism of FIG. 9, illustrating the operation of the handle for a high-volume flush.
- FIG. 14 is an exploded isometric view of a second embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 15 is an exploded isometric view of a third embodiment of a flush mechanism suitable for use with an outflow valve assembly of the present invention.
- FIG. 16 is an exploded isometric view of a fourth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 17 is an exploded isometric view of a fifth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 18 is a partially-sectioned side view of a sixth embodiment of a flush mechanism suitable for use with the present invention.
- FIG. 19 is a sectional view of the flush mechanism of FIG. 18, illustrating the operation of the flush mechanism for a low-volume flush.
- FIG. 20 is a sectional view of the flush mechanism of FIG. 18, illustrating the operation of the flush mechanism for a high-volume flush.
- FIG. 21 is an isometric view of an embodiment of an alternate handle mechanism suitable for use with an outflow valve assembly according to the present invention.
- FIG. 22 is a side elevational view of a single-volume configuration of an embodiment of a modular outflow valve assembly according to the present invention.
- FIG. 23 is a side elevational view of the embodiment of FIG. 1, assembled in a single flush-volume configuration.
- FIG. 24 is a side elevational view of another embodiment of a modular toilet valve assembly according to the present invention.
- Various embodiments of the present invention provide modular single or dual flush-volume toilet tank outflow valve assemblies that may be easily converted between single and dual flush-volume configurations. Furthermore, various embodiments of the dual flush-volume configurations offer improved adjustability and flush performance compared to known dual valve assemblies.
- A first embodiment of a modular valve assembly according to the present invention is shown generally at10 in FIG. 1, positioned in a
toilet tank 12 and assembled in a dual flush-volume configuration.Modular valve assembly 10 includes abase 14 with which it may be mounted to the inside oftoilet tank 12. - A lower
outflow tube section 16 extends upwardly frombase 14, and a highvolume flush valve 18 is positioned on the lower outflow tube section adjacent the bottom of the interior oftoilet tank 12. Highvolume flush valve 18 is configured to empty essentially all water fromtoilet tank 12 when opened to provide a higher volume flush for flushing solid wastes. An upperoutflow tube section 20 is slidably coupled to loweroutflow tube section 16, and a lowvolume flush valve 22 is positioned on the upper outflow tube section. Lowvolume flush valve 22 is configured toempty toilet tank 12 only partially, thus providing a water-saving, smaller volume flush. It will be appreciated thatmodular valve assembly 10 may be easily converted to a single-volume flush valve system by replacing upperoutflow tube section 20 with an overflow tube section, as described in more detail below in reference to FIG. 22. - The slidable connection of lower
outflow tube section 16 to upperoutflow tube section 20 allows the height of lowvolume flush valve 22 to be adjusted relative to the height of highvolume flush valve 18. This allows the volume of water discharged by low volumeflush valve 22 to be adjusted for toilet tanks of different sizes, permitting the volume of water discharged by the low volume flush valve to be quickly and easily adjusted over a wide range of volumes. This wide range of adjustability allowsvalve system 10 to be used in essentially any new or existing gravity flush toilet system.Modular valve assembly 10 also includes anoverflow tube section 24, which also may be adjustable in height to provide infinitesimal control of the low-volume flush. As described in more detail below,overflow tube section 24 may be connected directly to loweroutflow tube section 16 to form a single flush-volume valve system with an adjustable overflow tube height if desired. - FIG. 1 also shows an example of a suitable setup for the operation of
valve system 10 in a toilet. High volumeflush valve 18 and low volumeflush valve 22 are both attached to asingle flush wand 26, which is operated by ahandle 28. Low volumeflush valve 22 is connected to flushwand 26 with a first, shorter length ofchain 30, and high volumeflush valve 18 is connected to the flush wand with a second, longer length ofchain 32. Second length ofchain 32 is configured to have more slack than first length ofchain 30. This allows low volumeflush valve 22 to be opened by pushinghandle 28 only partially down when a low volume flush is desired, and both the low volume flush valve and high volumeflush valve 18 to be opened by pushinghandle 28 farther down when a higher volume flush is desired. In the depicted embodiment, handle 28 employs a special mechanism, described in more detail below, that prevents the handle from being pushed far enough to open high volumeflush valve 18 unless ahandle release button 34 is held down. - FIGS. 2 and 3 show
modular valve assembly 10 in more detail. As mentioned above,modular valve assembly 10 includes a base 14 configured to couple themoldular valve assembly 10 to the bottom 40 oftoilet tank 12 and to pass water out of the toilet tank. In the depicted embodiment,base 14 takes the form of a spud, but it will be appreciated thatbase 14 may have any other suitable configuration.Base 14 includes a threadedportion 42 that fits through toilettank outflow hole 43, and is secured tobottom 40 oftoilet tank 12 with anut 44. The connection may be sealed with agasket 46. - Lower
outflow tube section 16 is connected to base 14, and includes ahollow upright portion 48 to which upperoutflow tube section 20 is coupled.Upright portion 48 supports upperoutflow tube section 20 abovebase 14, and also channels water discharged through low volumeflush valve 22 through toilettank outflow hole 43.Upright portion 48 may have any suitable configuration. For example,upright portion 48 may have a bend that offsets upperoutflow tube section 20 relative tobase 14. In the depicted embodiment, however,upright portion 48 extends directly abovebase 14, such that the hollow interior ofupright portion 48 is positioned directly above and in line with the opening inbase 14. In this configuration, water discharged through low volumeflush valve 22 can pass straight down through loweroutflow tube section 16 without any horizontal deflection, and thus may increase the continuous maximum water volume and velocity of the flush. - Lower
outflow tube section 16 also includes alower side tube 50 extending away fromupright portion 48, which connects high volumeflush valve 18 toupright portion 48.Lower side tube 50 may have any suitable configuration, and may be positioned at any desired location on loweroutflow tube section 16. In the depicted embodiment,lower side tube 50 is oriented generally parallel to toilet tank bottom 40, and is positioned directly adjacent the toilet tank bottom. This places the lower edge of thelip 52 of high-volume valve 18 very close to the bottom of toilet tank, and thus permits essentially all of the water to drain from the tank when the high volume flush valve is opened. While high volume flush valve is connected toupright portion 48 withlower side tube 50 in the depicted embodiment, it will be appreciated that high volume flush valve may also be attached directly to the side ofupright portion 48, without the use oflower side tube 50. - When water is discharged from
toilet tank 12 via low volumeflush valve 22, it is possible that some water may flow intolower side tube 50. To direct water discharged through low volumeflush valve 22 away from the opening oflower side tube 50,valve system 10 may include a water flow diverter disposed in the interior of loweroutflow tube section 16. This water flow diverter may have any suitable design. In the depicted embodiment, the water flow diverter takes the form of aplate 54 attached with a hinge to the joint betweenlower side tube 50 andupright portion 48, within the hollow interior of loweroutflow tube section 16. In the absence of water flowing throughlower side tube 50,plate 54 hangs downward across the opening to lowerside tube 50, as shown in solid lines in FIG. 2. When water is discharged through low volumeflush valve 22,plate 54 blocks the opening oflower side tube 50, and thus prevents water from flowing into the lower side tube. A stop is positioned inlower side tube 50 to preventplate 54 from swinging intolower side tube 50 when water is flushed through low volumeflush valve 22. - In contrast, when water is flushed through high volume
flush valve 18,plate 54 is pushed away from the high volume flush valve by the water, as shown in dashed lines in FIG. 2. This allows the water to flow out ofside tube 50 and out oftoilet tank 12. Alternatively, the water flow diverter may take the form of astationary barrier 59 that extends partially over the opening oflower side tube 50, as shown in FIG. 3. - High volume
flush valve 18 is configured to cover the end oflower side tube 50 to control the discharge of water through the lower side tube. High volumeflush valve 18 is thus positioned at the free end oflower side tube 50, and is pivotally anchored to a pair ofarms 57 located onupright portion 48. In the depicted embodiment, high volumeflush valve 18 is a flapper valve, but may also be any other suitable type of valve. High volumeflush valve 18 may include aseal extension 56 that extends pastlower lip 52 of the high volume flush valve when the high volume flush valve is in the closed position, shown in solid lines in FIG. 2.Seal extension 56 is configured to help prevent the opening of high volumeflush valve 18 by water flushed through low volumeflush valve 22 by increasing the total water pressure against the high volume flush valve when the high volume flush valve is closed. - As mentioned above, upper
outflow tube section 20 is slidably coupled toupright portion 48 of loweroutflow tube section 16. This allows the height of low volumeflush valve 22 to be quickly and easily adjusted relative to the height of high volumeflush valve 18. FIG. 2 shows low volumeflush valve 22 in a first, lower position relative to high volumeflush valve 18, and FIG. 3 shows the low volume flush valve in a second, higher position. Note that low volumeflush valve 22 is farther from the surface of the water in the toilet tank in FIG. 2, causing more water to flow out of the high-volume valve when it is opened. Another advantage of the use of a slidable joint is that the joint allows the height of low volume flush valve to be chosen from a continuous range of possible heights. The portion of loweroutflow tube section 16 that receives the upperoutflow tube section 20 may be referred to as a connecting portion, and may be configured also to receiveoverflow tube 68 to form a single flush-volume configuration, as described in more detail below. - The construction of the slidable joint between lower
outflow tube section 16 and upperoutflow tube section 20 is shown in FIGS. 2 and 3. Upperoutflow tube section 16 includes anelongate neck 58 configured to fit withinupright portion 48 of loweroutflow tube section 20 such that it may be slid into or out of the lower outflow tube section.Elongate neck 58 may have any desired length. Generally, a longerelongate neck 58 provides for a greater range of height adjustability for low volumeflush valve 22. However, ifelongate neck 58 has too great a length, it may interfere with the flow of water throughlower side tube 50. In the depicted embodiment,elongate neck 58 is long enough to just reach the top oflower side tube 50 when it is fully extended into loweroutflow tube section 16. The position of upperoutflow tube section 20 relative to loweroutflow tube section 16 may be fixed with a lockingcollar 60. In the depicted embodiment, lockingcollar 60 is a worm-drive clamp, but upperoutflow tube section 20 may be fixed to loweroutflow tube section 16 with any other desired locking device. Furthermore, other suitable methods for fixing upperoutflow tube section 16 in position relative to loweroutflow tube section 20, such as a friction mechanism using an O-ring seal, may also be used. - In addition to
elongate neck 58, upper outflow tube section also includes anupper side tube 62 and theaforementioned overflow tube 24.Upper side tube 62 connects low volumeflush valve 22 toupright portion 48, and provides a path for water to flow from low volumeflush valve 22 intoelongate neck 58.Upper side tube 62 may have any suitable configuration, and may be located in any desired position on upperoutflow tube section 16. In the depicted embodiment,lower side tube 62 extends diagonally upward fromelongate neck 58. Low volumeflush valve 22 is positioned at the upper end ofupper side tube 62, and is pivotally attached to a pair of arms 66 located onoverflow tube 24. In the depicted embodiment, low volumeflush valve 22 is a flapper valve, but it may also be any other suitable type of valve. - When upper
outflow tube section 20 is raised or lowered relative to loweroutflow tube section 16, the height ofoverflow tube 24 also changes. To compensate for this, or to permit the maximum water level of the toilet to be adjusted,overflow tube 24 may have an adjustable height. In the depicted embodiment,overflow tube 24 has a slidable adjustment mechanism, although other mechanisms may be used. A sliding adjustment mechanism is preferable, as it allows the height ofoverflow tube 24 to be quickly adjusted to any desired height within a range of possible heights. In the depicted embodiment,overflow tube 24 is formed from an upperoverflow tube section 68 that fits within a loweroverflow tube section 70. - Lower
overflow tube section 70 of the depicted embodiment is integral with upperoutflow tube section 20, and may include alocking collar 72 for fixing the position of upperoverflow tube section 68 relative to loweroverflow tube section 70. A toilet bowl refill tube 74 (or other suitable device) may be threaded intooverflow tube 24 for refilling the toilet bowl after a flush, or may be placed elsewhere in the toilet tank. - Upper
overflow tube section 68 may initially be provided with extra length to extend into loweroutflow tube section 16. This extra length may facilitate the conversion ofmodular valve system 10 between single flush-volume and dual flush-volume configurations, as it may allow for the use of a longer overflow tube in a single flush-volume configuration for taller, narrower toilet tanks. However, the extra length of upperoverflow tube section 68 may also be cut off (or otherwise removed from) the upper overflow tube section, as indicated at 68′ in FIG. 3, where used in a dual flush-volume configuration. - Where a single-volume flush system is desired, upper
overflow tube section 68 may be placed directly in loweroutflow tube section 16, without the use of upperoutflow tube section 20. This is depicted in FIG. 23. In this configuration, the height of the top of upperoverflow tube section 68 may be adjusted simply by sliding overflow tube into or out of loweroutflow tube section 16. Thus, in this manner,valve assembly 10 may be converted to a single flush-volume valve without the purchase of any additional parts. It will be appreciated that the outer diameter of upperoverflow tube section 68 may be configured to be the same as the outer diameter ofelongate neck 58 so that the upperoutflow tube section 68 fits snugly within loweroutflow tube section 16. In this instance, loweroverflow tube section 70 may have a may have a slightly larger diameter thanelongate neck 58. Alternatively, loweroverflow tube section 70 may have substantially the same outer diameter aselongate neck 58. In this configuration, upperoutflow tube section 68 may have a slightly smaller outer diameter thanelongate neck 58, and may be secured inlower outflow tube 16 by tightening lockingring 60 sufficiently, or through the use of a suitable gasket (not shown). - A second embodiment of a modular valve assembly according to the present invention is shown generally at110 in FIG. 4.
Modular valve assembly 110 is similar in appearance and operation to the first embodiment, but utilizes a different upper outflow tube section, indicated at 120. Upperoutflow tube section 120 has an offsetoverflow tube 124, which allows low volumeflush valve 122 to be positioned directly over the base. In this configuration, water flushed through low volumeflush valve 122 passes directly downward from the low volume flush valve out of the toilet tank, without any horizontal deflection. This may increase the continuous maximum water volume and velocity of the low-volume flush, and thus may lead to a more efficient flush. - Offset
overflow tube 124 is formed from an upperoverflow tube section 168 slidably coupled to a loweroverflow tube section 170. This allows the height ofoverflow tube 124 to be adjusted, and thus permits the overflow tube height to be changed to compensate for changes in the height of the low volume flush valve, or to change the maximum water level in the toilet tank. Alocking collar 172 may be provided to allow upperoverflow tube section 168 to be fixed in position relative to loweroverflow tube section 170. A pair ofarms 166 may be provided onoverflow tube section 120 as a location for the attachment of low volumeflush valve 122. Arefill tube 174 for refilling the toilet bowl after a flush may be attached to upperoverflow tube section 168. -
Positioning overflow tube 124 in an offset position also may allow the overflow tube to have a greater range of adjustability than if it were positioned directly over upperoutflow tube section 120. In the embodiment shown in FIG. 4, loweroverflow tube section 170 extends below theupper edge 178 of upperoutflow tube section 120, permitting the length of upperoverflow tube section 168 to be correspondingly increased for a greater range of adjustment. - As with the embodiment of FIGS.1-3,
valve assembly 110 may be converted to a single flush-volume valve configuration by removing upperoutflow tube section 120, and attaching an overflow tube assembly such as that shown at 1020 in FIG. 23, described in more detail below. Thus, a user may simply and easily convertvalve assembly 110 to a single flush-volume configuration when desired. - FIGS.5-8 show generally at 210 a third embodiment of a modular valve assembly according to present invention. Rather than a flapper-style valve system,
modular valve assembly 210 provides a column-type valve assembly, in which anupright column structure 211 may be lifted directly upward along aguide 213 to open a space between the column structure and the valve base, thus allowing water to flow out of the toilet tank. As shown in FIGS. 5-6,valve assembly 210 includes abase 214 and theaforementioned column structure 211, which is formed of a loweroutflow tube section 216, an upperoutflow tube section 218, acap piece 220 and anoverflow tube 222. Upperoutflow tube section 218 is adjustably coupled to loweroutflow tube section 216 to allow the volume of the low-volume flush to be adjusted. Alternatively,cap piece 220 andoverflow tube 222 may be used withalone base 214, without loweroutflow tube section 216 or upperoutflow tube section 218, to form a single flush-volume configuration ofmodular valve assembly 210. -
Base 214 is configured to couplemodular valve assembly 210 to the bottom 40 oftoilet tank 12 and to pass water out of the toilet tank. In the depicted embodiment,base 214 takes the form of a spud, but it will be appreciated thatbase 214 may have any other suitable configuration.Base 214 includes a threadedportion 230 that fits through toilettank outflow hole 43, and is secured tobottom 40 oftoilet tank 12 with anut 232. The connection may be sealed with agasket 234. -
Base 214 also includes anupper surface 236 that forms part of the high volume flush valve. In the depicted embodiment,upper surface 236 is a flat surface configured to form a watertight seal with agasket 238 situated on loweroutflow tube section 216. The high volume flush valve is opened by separatinggasket 238 fromupper surface 236 ofbase 214, permitting water to drain fromtoilet tank 12 through the base. The gasket and upper surface are separated by pulling upwardly on aring 239 attached to upperoutflow tube section 218, thus liftingcolumn structure 211 alongguide 213. - As described above, guide213 extends upwardly from
base 214 and guides the movement ofcolumn structure 211 when the lower outflow tube section is raised or lowered.Guide 213 may have any suitable configuration. In the depicted embodiment, guide 213 is formed from four upwardly-extendingribs 240 arranged in a cross-like configuration, but may have any other suitable configuration.Guide 213 may also include a series of holes or raisedportions 241 to reduce the noise of water flowing down guide 213 as the toilet bowl is refilled after flushing. - Lower
outflow tube section 216 includes aring 242 that surroundsguide 213 to holdcolumn structure 211 centered onguide 213.Ring 242 is attached to the inside of loweroutflow tube section 216 with one or moreplastic spacers 244, and travels alongguide 213 as loweroutflow tube section 216 is moved up or down to open or close the high volume flush valve, respectively.Modular valve assembly 210 may have asmany rings 242 as desired for guiding lower outflow tube section 216 (and upper outflow tube section 218) alongguide 213. Two rings 242 are shown in the depicted embodiment. - Lower
outflow tube section 216 also includes afloat 246.Float 246 is formed from a hollowed, air-containing chamber surrounding loweroutflow tube section 216. When the high-volume valve is opened,float 246 holds the high-volume valve open until the water drains to the level ofupper surface 236 ofbase 214. One or moresmall holes 247 may be formed in the bottom offloat 246 to allow for the equalization of pressure between the float and the outside atmosphere.Holes 247 open into the hollow interior of loweroutflow tube section 216 so that any water that may get inside offloat 246 will drain out of the toilet tank. - Similar in operation to the high volume flush valve, the low volume flush valve of
modular valve assembly 210 is formed from the junction of upperoutflow tube section 218 andcap section 220. The seal of the low volume flush valve is formed between thetop surface 250 of upperoutflow tube section 218 and agasket 252 attached to the bottom ofcap section 220. Separatinggasket 252 fromtop surface 250lifts cap section 220 alongguide 213, and thus opens the high volume valve. Achain attachment ring 254 is disposed oncap section 220 to allow the attachment of a chain or wand so thatcap section 220 may be lifted withwand 26, or another suitable mechanism. Afloat 256 formed incap section 220 holds the low volume flush valve open until water drains to the level oftop surface 250. One or moresmall holes 257 may be provided to allow the pressure withinfloat 256 to equalize with the outside atmosphere. - To allow the volume of the low-volume flush to be adjusted, upper
outflow tube section 218 is adjustably coupled to the upper portion of loweroutflow tube section 216. Loweroutflow tube section 216 and upperoutflow tube section 218 may be adjustably coupled in any desired manner. For example, the upper portion of loweroutflow tube section 216 and the lower portion of upperoutflow tube section 218 may have complementary threads so that the height of the upper outflow tube section may be adjusted by turning the upper outflow tube section. In the depicted embodiment, however, upperoutflow tube section 218 is slidably coupled to lower outflow tube section. A suitable locking device, such as aworm drive clamp 258, may be used to fix upperoutflow tube section 218 in position relative to loweroutflow tube section 216. -
Overflow tube 222 is attached to the top portion ofcap section 220, and may have any suitable design for allowing excess water to drain fromtoilet tank 12. For example,overflow tube 222 may have a fixed height relative to capsection 220. In the depicted embodiment, however,overflow tube 222 has an adjustable height. This allows the height of the overflow tube to be adjusted to compensate for adjustments in the height of the low volume flush valve, and also to allow the maximum water level in the toilet tank to be adjusted. -
Overflow tube 222 is formed from a loweroverflow tube section 260 slidably coupled to an upperoverflow tube section 262. Loweroverflow tube section 260 of the depicted embodiment is formed from a molded tubular inner section ofcap section 220, but may also be formed from a separate tubular piece. Loweroverflow tube section 260 preferably has a diameter that closely fitsguide 213 so thatguide 213 holdscap section 220 centered over upperoutflow tube section 218 and loweroutflow tube section 216. Upperoverflow tube section 262 fits snugly within, or outside of, the inner diameter of loweroverflow tube section 260 so that it may be slid upward or downward relative to the lower overflow tube section to adjust the height ofoverflow tube 222. A locking device, such as a worm drive clamp 266 (or any other suitable device), may be used to fix the height of upperoverflow tube section 262 relative to loweroverflow tube section 260. - To prevent
cap piece 220 from being moved above the top ofguide 213, guide 213 includes astop 268 with a greater diameter than the diameter of upperoverflow tube section 262. Stop 268 may be attached to guide 213 in any suitable manner. In the depicted embodiment,cap 268 is connected to guide 213 with a threaded connection. - Stop268 may include a
refill hole 270 configured to accept a toilet bowl refill line. In the depicted embodiment, guide 213 also includes arefill tube 272 extending downwardly fromrefill hole 270 past the level oftop surface 250 of upperoutflow tube section 218. This helps to prevent water flowing throughrefill hole 270 from compromising the integrity of the seal of the low volume flush valve. - FIGS. 7 and 8 illustrate operation of the dual flush-volume configuration of
modular valve assembly 210. Referring to FIG. 7, when theentire column structure 211 is lifted frombase 214, water can flow through the high volume flush valve formed by the gap between the lower outflow tube section and the base, thus emptying essentially the whole toilet tank. Next, referring to FIG. 8, whencap section 220 is lifted from upperoutflow tube section 218, water can flow through the low volume flush valve formed by the gap between the upper outflow tube section and the cap section, thus only partially emptying the toilet tank. - Many types of flush mechanisms may be used to operate a toilet valve assembly according to the present invention. For example, a double handle system may be used, in which each outflow valve is operated by a separate handle. FIGS.9-13 illustrate another
suitable flush mechanism 310, which utilizes asingle handle 28 that operates both flush valves. Ordinarily, handle 28 opens only the low volume flush valve. However,flush mechanism 310 includes abutton 34 that may be depressed to allow operation of the high volume flush valve withhandle 28. - The construction of
flush mechanism 310 is shown in detail in FIG. 9.Handle 28 attaches to the toilet tank with acylindrical bushing 316 configured to extend through a hole in the toilet tank wall. Oneend 318 ofbushing 316 is threaded so that bushing 316 can be attached to the toilet tank with anut 321.Nut 321 also holds alocking mechanism 320 in place, described in more detail below. -
Handle 28 is fixed to one end of a hollowrotatable member 322 that extends throughbushing 318. Aflush wand 26 is attached to the other end of hollowrotatable member 322 with ascrew 325, or other suitable fastener. Thus, pushinghandle 28 downwardly causesflush wand 26 to rotate upwardly and pull open any valves connected to the flush wand. - As described earlier and shown in FIG. 1,
flush wand 26 is connected to both the low volume flush valve and the high volume flush valve.Flush wand 26 is connected to the low volume flush valve with a first, shorter connector 327, and to the high volume flush valve with a second, longer connector. Thus, whenhandle 28 is pushed, the low volume flush valve is opened after a first, lesser amount of rotation ofrotatable member 322. The high volume flush valve is opened only afterrotatable member 322 travels through a second, greater amount of rotation. - To prevent
handle 28 from rotating fully and opening the high volume flush valve during ordinary use,flush mechanism 310 may include a high-volume flush control. The high-volume flush control typically has at least two possible states: a first state in which the opening of the high volume flush valve is prevented, and a second state in which the opening of the high volume flush valve is enabled. The first state will typically be the default state of the flush mechanism. Thus, a user's reflexive pushing ofhandle 28 will result in a low-volume flush. In contrast, the user generally must make a cognitive step in order to operate the high-volume flush. For example, in the depicted embodiment, the high-volume flush control prevents handle 28 from rotating far enough to open the high volume flush valve unlessbutton 34 is depressed while pushing onhandle 28. - The high-volume flush control includes a
slidable member 326 extending through the interior ofwand rotation tube 322.Button 34 is disposed on one end ofslidable member 326, and a wand rotation stop 328 is disposed on the other end. Whenbutton 34 is not depressed, wand rotation stop 328 extends snugly over the top offlush wand 26. This is the first state of the high-volume flush control offlush mechanism 310. Thetop surface 330 offlush wand 26 is flat, causing wand rotation stop 328 to rotate when the flush wand is rotated. Whenbutton 34 is depressed, however, wand rotation stop 328 is pushed away fromtop surface 330 offlush wand 26. Thus,slidable member 326 thus is not rotated with the wand. This is the second state of the high-volume flush control offlush mechanism 310. Aspring 332 may be disposed around wandrotation lock shaft 326 to bias wand rotation stop 328 into the first state by pushing against the outside of the toilet tank. - The rotational travel path of
flush wand 26 is limited by two appendages on lockingmechanism 320. First,locking mechanism 320 has awand rest support 334 that holdsflush wand 26 in the rest position whenhandle 28 is not being operated. Second,locking mechanism 320 has a wandrotation stopping member 336. Wandrotation stopping member 336 is configured to be a barrier to the rotation offlush wand 26 past the point at which the low volume flush valve is opened, unlessbutton 34 is depressed. As described above and illustrated in FIGS. 10-11, whenbutton 34 is not depressed, wand rotation stop 328 turns withflush wand 26. Thus, wand rotation stop 328 contacts wandrotation stopping member 336 afterflush wand 26 has been rotated far enough to open the low-volume valve, and thus prevents the flush wand from being turned further. Wandrotation stopping member 336 may include an adjustment mechanism, typically asmall screw 338, to allow the exact stop position offlush wand 26 to be fine-adjusted. - In contrast, when
button 34 is depressed, wand rotation stop 328 is disengaged fromflush wand 26, and does not turn with the wand. It thus does not contact wandrotation stopping member 336 ashandle 28 is pushed, and does not stop rotation offlush wand 26. This is shown in FIGS. 12-13. In this instance,flush wand 26 is free to turn far enough to open the high volume flush valve and to thus allow the entire toilet tank to drain. Once the toilet tank has drained,flush wand 26 returns to its rest position againstwand rest support 334, and wand rotation stop 328 is moved back into position overflush wand 26 byspring 332, readying the toilet for a low volume flush. - FIG. 14 illustrates a second embodiment of a flush mechanism suitable for use with a dual-flush valve assembly, generally at410.
Flush mechanism 410 is similar toflush mechanism 310 in many aspects. For example,flush mechanism 410 includes a hollowrotatable member 412 that extends through abushing 414 configured to be mounted to the toilet tank wall. Ahandle 416 is attached to one end ofrotatable member 412, and a firstflush wand 418 is attached to the other end ofrotatable member 412. - Furthermore,
flush mechanism 410 also has a high-volume flush control. The high-volume flush control includes aslidable member 420 that extends through the hollow interior ofrotatable member 412. A wand rotation stop 422 is attached to one end ofslidable member 420, and abutton 424 may be attached to the other end of the slidable member.Button 424 may be pressed to move wand rotation stop 422 from its first state, positioned over firstflush wand 418, to its second state, in which it is not positioned over firstflush wand 418. For a more secure fit,slidable member 420 may include raised portions orflutings 425 to mate withcomplementary flutings 427 withinbutton 424. - Unlike
flush mechanism 310, however,flush mechanism 410 includes a secondflush wand 426 to open the high volume flush valve. Secondflush wand 426 is mounted to anextension 428 ofslidable member 420, which may includeflutings 430 to hold secondflush wand 426 more securely. Second flush wand is lifted by a liftingmember 432 disposed on firstflush wand 418 that extends outwardly from the first flush wand. Thus, second flush wand is lifted when first flush wand is lifted by manipulation ofhandle 416. Liftingmember 432 of the depicted embodiment has an elongate, generally flat shape, but it will be appreciated that any other lifting member may be used without departing from the scope of the present invention. - The use of lifting
member 432 helps to increase the velocity of the water exiting the toilet tank during a high volume flush, as water flowing through the low volume flush valve may be able to reach a higher velocity due to its longer fall through the lower outflow tube section, and thus may increase the overall momentum of the water flowing out of the toilet tank. Furthermore, the opening of the low volume flush valve along with the high volume flush valve during a high-volume flush may help to eliminate air within the lower and upper outflow tube sections during a high-volume flush. This may help to improve the smooth flow of water out of the toilet tank during a high-volume flush. It will be appreciated that any other suitable mechanism for opening the low volume flush valve and the high volume flush valve at the same time may be used. For example, both the low volume flush valve and the high volume flush valve may be attached to the high volume flush wand via separate cords or chains. - Operation of
flush mechanism 410 is similar to that offlush mechanism 310.Depressing handle 416 when wand rotation stop 422 is in the first state causes the wand rotation stop 422 to contact a stoppingmember 438, thus preventing the high volume flush valve from being opened. However, whenbutton 424 is depressed, moving wand rotation stop 422 into its second state, the wand rotation stop does not rotate withhandle 416, thus permitting the handle to be turned sufficiently far to open the high volume flush valve. Aspring 440 may be provided tobias button 424 outwardly, and thus to bias wand rotation stop 422 into the first state. Also, anelastic cord 434 may be attached betweenwand rest support 436 and either low volumeflush wand 418, high volumeflush wand 426, or both flush wands to bring the flush wands down to the rest position after a flush is completed. -
Indicator symbols 442 may be molded into, printed on, or otherwise provided onhandle 416,button 424, and/orflush wands button 424 have the indicator symbols shown in FIG. 14, a user, and especially a young user, may easily determine which part is to be used to flush which type of waste. This may allow a child to be trained at a young age to use the water-saving low volume flush to flush liquid wastes. - FIG. 15 depicts a third embodiment of a flush mechanism suitable for use with a dual-volume flush valve according to the present invention, generally at510.
Flush mechanism 510 is similar to flushmechanisms flush mechanism 510 includes a hollowrotatable member 512 that extends through abushing 514 configured to be mounted to the toilet tank wall. Ahandle 516 is attached to one end ofrotatable member 514, and a low volumeflush wand 518 is attached to the other end ofrotatable member 514.Flush mechanism 510 also has a high-volume flush control including aslidable member 520 that extends through the hollow interior ofrotatable member 512. A high volumeflush wand 528 is disposed on the end ofslidable member 520. - However, unlike
flush mechanisms flush mechanism 510 includes a wandrotation engagement bracket 522 attached to abutton 524 coupled to the end ofslidable member 520. Wandrotation engagement bracket 522 is configured to engage a complementary raisedportion 526 onrotatable member 514 to causeslidable member 520 to turn withrotatable member 514 whenbutton 524 is depressed and handle 516 is pushed. - As with the other embodiments described above,
flush mechanism 510 has two states. In the first state, whenbutton 524 is not pushed inwardly by a user,wand rotation bracket 522 does not engage raisedportion 526 onrotatable member 514 whenhandle 516 is depressed. Thus,slidable member 520 is not turned withrotatable member 514. However, in the second state, whenbutton 524 is depressed, raisedportion 526 engages wandrotation engagement bracket 522 whenhandle 516 is depressed. This causesslidable member 520 to turn withhandle 516, thus lifting high volumeflush wand 528 and causing the high volume flush valve to be opened. Aspring 530 may be included betweenbutton 524 androtatable member 514 to bias wandrotation engagement bracket 522 into the first state. Also, anelastic cord 532 may be attached to high volumeflush wand 528 and another part of flush mechanism, such as awand rest support 534, to return the high-volume flush to its rest position once the flush is finished. - FIG. 16 shows, generally at610, another embodiment of a flush mechanism suitable for use with a valve assembly of the present invention.
Valve assembly 610 has similarities to other embodiments described above. For example,flush mechanism 610 includes a hollowrotatable member 612 that extends through abushing 614 configured to be mounted to the toilet tank wall. Ahandle 616 is attached to one end ofrotatable member 612, and a low volumeflush wand 618 is attached to the other end ofrotatable member 612. Also, aslidable member 620 extends through the hollow interior ofrotatable member 612. - However, the high-volume flush control of
flush mechanism 610 operates differently from those of the embodiments described above. Wherein the high-volume flush controls offlush mechanisms flush mechanism 610 is changed between states by pullingslidable member 620 outwardly. The high volume flush valve may then be opened by turningslidable member 620. - To prevent the high volume flush valve from being opened when in the first state, bushing614 includes a
flange 622 with adepression 624.Depression 624 is configured to receive acomplementary extension 626 disposed on anouter cap piece 628, which is attached to the end ofslidable member 620. - The operation of
flush mechanism 610 is as follows. Low volumeflush wand 618 may be opened simply by pushing onhandle 616. High volumeflush wand 630, however, may not be opened simply by turningcap piece 628. When in the first state,extension 626 is positioned withindepression 624, preventingcap piece 628 from being turned. Therefore,cap piece 628 must first be pulled outwardly, and then turned, to lift high volumeflush wand 630. Aspring 632 may be included tobias cap piece 628 into the first state, andelastic cords flush wand 630 and low volumeflush wand 618, respectively, to their rest positions after use. Also, handles may have a numerical (or other) code to depict visually the correspondence between a selected handle and its associated flush valve. In the depicted embodiment, handle 616 andwand 618 each include a number “1”, shown at 635 and 635′, respectively. Similarly,cap piece 628 andwand 630 each include a number “2”, shown at 637 and 637′, respectively. - A lifting
member 640 for communicating motion between high volumeflush wand 630 and low volumeflush wand 618 may be provided if desired. In the depicted embodiment, liftingmember 640 is fixed to low volumeflush wand 618, and extends over high volumeflush wand 630. When low volumeflush wand 618 is lifted, liftingmember 640 does not affect high volumeflush wand 618. However, when high volumeflush wand 630 is lifted, the high volumeflush wand 630lifts lifting member 640, which in turn lifts low volumeflush wand 618. This causes the low volume flush valve to open whenever the high volume flush valve is opened, and may help to decrease the amount of time necessary to empty the toilet tank. -
Cap piece 628 may have any suitable shape. For example,cap piece 628 may have a flat configuration with a generally round circumference, or may have a shape like a traditional toilet handle. However, in the depicted embodiment,cap piece 628 includes acontoured extension 638 with a downwardly-curved perimeter configured generally to fit the shape of a finger of a user. In the depicted embodiment, contouredextension 638 is positioned such that a user pulls upwardly on the contoured extension to actuate a high-volume flush, and thus may be more awkward to use thanhandle 616. This may make it less likely that a user will use the high-volume flush for situations in which it is not needed. However, it will be appreciated that contouredextension 638 may be placed in any other desired position onhandle 616. - FIG. 21 shows another example of suitable configurations for the handle and cap piece. Here, handle916 and
cap piece 928 have shapes that communicate to a user which valve is controlled by each part. For example, handle 916 may have the shape of the number “1” to show that the handle corresponds to low volume flush wand 918, which may be labeled with a number “1”, as described above. Likewise,cap piece 928 may have the shape of the number “2” to show that the handle corresponds to high volumeflush wand 928, which may be labeled with a number “2”, as described above. - The
handle 916 andcap piece 928 of FIG. 21 also may indicate which part is used to flush which type of waste. For example, liquid waste is often referred to as “number one” by many people, and especially children, while solid waste is often referred to as “number two.” Where handle 916 andcap piece 928 have the shapes shown in FIG. 21, a user, and especially a young user, may easily determine which part is to be used to flush which type of waste. This may allow a child to be trained at a young age to use the water-saving low volume flush to flush liquid wastes. - FIG. 17 illustrates generally at710 another flush mechanism suitable for use with a valve system according to the present invention. Like the other flush mechanisms described above,
flush mechanism 710 includes a hollowrotatable member 712 that extends through abushing 714 configured be mounted to the toilet tank wall. A low volumeflush handle 716 is attached to one end ofrotatable member 714, and a low volumeflush wand 718 is attached to the other end ofrotatable member 714. -
Flush mechanism 710 also includes anelongate member 720 extending through the hollow interior ofrotatable member 714. Unlike the corresponding piece in the prior embodiments, however,elongate member 714 is not slidable through the hollow interior ofrotatable member 714. Instead,elongate member 720 is independently rotatable. - A high volume
flush wand 722 is attached to one end ofelongate member 720, and a high volumeflush handle 724 is attached to the other end. High volume flush handle 724 has a shape configured to be somewhat more awkward to use than low volumeflush handle 716. Therefore, when a user reflexively operatesflush mechanism 710, the user will typically push on low volumeflush handle 716. Likewise, when the user desires a high-volume flush, the user must cognitively decide to operate the somewhat more awkward high volumeflush handle 724. This may be sufficient to prevent the user from flushing a full toilet tank of water in the absence of a decision that a high-volume flush is needed. - FIGS.18-20 illustrate yet another flush mechanism suitable for use with the present invention, generally at 810. Rather than employing a handle that operates a rotatable member to lift a flush wand,
flush mechanism 810 employs apullable member 812 that can be pulled a first, shorter distance to open low volumeflush valve 22, or a second, greater distance to open high volumeflush valve 18.Pullable member 812 extends through an opening in the top oftoilet tank 12, which may be fitted with abushing 814.Pullable member 812 of the depicted embodiment takes the form of an elongate, tubular form member, but have any other desired shape and construction. Ahandle 815 may be provided onpullable member 812 to facilitate use offlush mechanism 810, and acollar 817 may be disposed about the perimeter ofpullable member 812 to supportpullable member 812 at a desired height relative to the top oftoilet tank 12 while at rest. -
Pullable member 812 is connected to low volumeflush valve 22 with a first,longer connector 816, and to high volumeflush valve 18 with a second,shorter connector 818. Thus, aspullable member 812 is pulled upwardly,shorter connector 818 opens low volumeflush valve 22 beforelonger connector 816 is able to open high volumeflush valve 18. - To prevent the inadvertent opening of high volume
flush valve 18,flush mechanism 810 also includes a high-volume flush control having amovable blocking member 820. Blockingmember 820 is configured to have both a blocking position, corresponding to a first state of the high-volume flush control, and a retracted position, corresponding to a second state of the high-volume flush control. The blocking position is configured to preventpullable member 812 from being pulled sufficiently far to open high volumeflush valve 18 unless it is moved to the retracted position. - Blocking
member 820 may have any suitable configuration. In the depicted embodiment, blockingmember 820 takes the form of a lever mounted to the interior ofpullable member 812 with apivot 822. Blockingmember 820 is attached to pivot 822 at a location approximately midway between the ends of blockingmember 820, but may be attached at any other suitable point. - One end of blocking
member 820 extends outwardly from the interior ofpullable member 812 through aslot 824, and the other end is coupled to one end of an actuatingmember 826. Actuatingmember 826 is also coupled to abutton 828 positioned at the top ofpullable member 812.Button 828 may be depressed by a user to move actuatingmember 826 downward, which in turn pushes on the end of blockingmember 820, causing the protruding end of blockingmember 820 to pivot and retract throughslot 824 into the interior ofpullable member 812. A biasing element such as aspring 829 may be included tobias blocking member 820 into the blocking position. - The operation of
flush mechanism 810 is illustrated in FIGS. 19-20. Referring first to FIG. 19, whenbutton 828 is not depressed, blockingmember 820 extends outwardly from the interior ofpullable member 812. Whenpullable member 812 is pulled upwardly to flush the toilet, but blockingmember 820 contacts the inside surface of the top oftoilet tank 12 before the high volume flush valve has been opened, preventing the pullable member from being pulled far enough to open the high volume flush valve. - Referring next to FIG. 20, when
button 828 is depressed, blockingmember 820 is retracted into the interior ofpullable member 812. Thus, whenpullable member 812 is pulled upwardly, blockingmember 820 does not contact the inside surface of the top oftoilet tank 12, allowing the pullable member to be pulled far enough to open the high volume flush valve. Astop 830 may be disposed at a desired location onpullable member 812 to prevent the pullable member from being pulled completely through the top of the toilet tank. Furthermore, anelastic cord 832 may be attached topullable member 812 to return the pullable member to the rest position after use. - FIG. 22 shows generally at1000 another exemplary single flush-volume configuration of a modular outflow valve assembly according to the present invention.
Valve assembly 1000 includes a base 1002 configured to be attached to thebottom 1004 of a toilet tank.Valve assembly 1000 also includes a loweroutflow tube section 1006. Loweroutflow tube section 1006 is similar to those shown above in the embodiments of FIGS. 1-3 and 4. However,side tube 1008 includes a pair ofarms 1010 coupled to anupright post 1012 to which aflush valve 1014 is connected.Side tube 1008 also includes asupport 1016 to support the side tube against the bottom of the toilet tank. It will be appreciated, however, that the lower outflow tube sections of either of the embodiments of FIGS. 1-3 and 4 may be used in place of the depicted loweroutflow tube section 1006. - Lower
outflow tube section 1006 also includes a generallyupright portion 1018 configured to accept the insertion of anoverflow tube assembly 1020.Overflow tube assembly 1020 includes a loweroverflow tube section 1022 configured to fit snugly within the inner diameter ofupright portion 1018 of loweroutflow tube section 1006. The height of loweroverflow tube section 1022 may be adjusted by sliding loweroverflow tube section 1022 into our out of loweroutflow tube section 1006, and may be fixed in a desired position via lockingcollar 1026. -
Overflow tube assembly 1020 also includes an upperoverflow tube section 1028. Upperoverflow tube section 1028 is configured to fit within loweroverflow tube section 1022, and to be slidably adjustable with respect to the lower overflow tube section to provide an additional measure of adjustability for the height of the overflow tube assembly. In the depicted embodiment, upperoverflow tube section 1028 is configured to fit snugly within a top portion of loweroverflow tube section 1022, and may be secured in a desired position with alocking collar 1030. However, it will be appreciated that upperoverflow tube section 1028 may have any suitable diameter, and may be secured in place via any suitable mechanism. -
Valve assembly 1000 may be converted to a dual flush valve assembly simply by removingoverflow tube assembly 1020 from loweroutflow tube section 1006, and replacing the overflow tube assembly with an upper outflow tube section having a low volume flush valve. Examples of suitable upper outflow tube sections include, but are not limited to, upperoutflow tube sections 20 of FIGS. 1 and 120 of FIG. 4. Where upperoutflow tube section 20 of FIG. 1 is used,overflow tube assembly 1020 may be inserted into the loweroverflow tube section 70 of upperoutflow tube section 20. Thus,valve assembly 1000 allows a user to quickly and easily convert the valve between single flush-volume and double flush-volume configurations without having to purchase an entirely new valve assembly, and without having to detach the valve assembly from the bottom of a toilet tank. Furthermore, the embodiments disclosed herein allow a manufacturer to make individual parts that may be used in either single or dual flush-volume configurations. - FIG. 24 shows, generally at1100, yet another possible configuration of a modular valve system according to the present invention.
Valve assembly 1100 is formed from a combination of a loweroutflow tube section 1112 similar to that of the embodiment of FIGS. 22-23, and an upperoutflow tube section 1114 andcap section 1116 similar to that of the embodiment of FIGS. 5-8. Valve assembly 1110 includes a high volumeflush valve 1118 positioned on loweroutflow tube section 1112, and a low volumeflush valve 1120 formed from the junction of upperoutflow tube section 1114 andcap section 1116. As with the previous embodiments, upperoutflow tube section 1114 is slidably coupled to loweroutflow tube section 1112 to allow the height of low volumeflush valve 1120 to be adjusted. - Valve assembly1110 also includes a base 1122 configured to couple the valve assembly to the bottom of the toilet tank and to pass water out of the toilet tank. Furthermore, a
guide 1117 extends upwardly from base 1122 to guidecap section 1116 when it is lifted to discharge water from the toilet tank. - Lower
outflow tube section 1112 is similar in appearance and function to the lower outflow tube section of the embodiment of FIGS. 22-23. Loweroutflow tube section 1112 is connected to base 1122, and includes ahollow upright portion 1130 to which upperoutflow tube section 1114 is coupled.Upright portion 1130 supports upperoutflow tube section 1114 abovebase 1122, and also channels water discharged through low volumeflush valve 1120. It will be appreciated that numerous modifications, including the examples described above for the embodiment of FIGS. 1-3, may be made tolower outflow tube 1112 without departing from the scope of the present invention. - Lower
outflow tube section 1112 also includes aside tube 1132 extending away fromupright portion 1130.Side tube 1132 connects high volumeflush valve 1118 toupright portion 1130. As with the embodiment of FIGS. 1-3,side tube 1132 is oriented generally parallel to the toilet tank bottom, and is positioned directly adjacent the toilet tank bottom. This places the lower edge of high volumeflush valve 1118 close to the toilet tank bottom, allowing essentially the entire volume of water in the toilet tank to be flushed through high volumeflush valve 1118. Instead of usingside tube 1132, high volumeflush valve 1118 may also be positioned directly on the side ofupright portion 1130 without departing from the scope of the present invention. - In contrast to high volume
flush valve 1118, low volumeflush valve 1120 is similar in appearance and function to the low volume flush valve of the embodiment of FIGS. 5-8. The seal of low volumeflush valve 1120 is formed between thetop surface 1134 of upperoutflow tube section 1114 and agasket 1136 attached to the bottom ofcap section 1116. Separatinggasket 1136 fromtop surface 1134 liftscap section 1116 alongguide 1117, and thus opens low volumeflush valve 1120. Afloat 1140 formed incap section 1116 holds low volumeflush valve 1120 open until water drains to the level oftop surface 1134. - As with the embodiment of FIGS.5-8, lower
outflow tube section 1112 and upperoutflow tube section 1114 may be adjustably coupled in any desired manner. In the depicted embodiment, upperoutflow tube section 1114 is slidably coupled to loweroutflow tube section 1112. The outer diameter of upperoutflow tube section 1114 is slightly smaller than the inner diameter of loweroutflow tube section 1112. Thus, upperoutflow tube section 1114 fits within inneroutflow tube section 1112 in a telescopic manner. A suitable locking device, such as a worm drive clamp, may be used to fix upperoutflow tube section 1114 in position relative to loweroutflow tube section 1112. It will be appreciated that upperoutflow tube section 1114 may also fit around the outside of loweroutflow tube section 1112 without departing from the scope of the present invention. - To prevent water from overflowing the toilet tank, outflow valve assembly1110 also has an
overflow tube 1144. The height ofoverflow tube 1144 may be configured to be adjustable so that it may be changed to compensate for changes in the height of the low volume flush valve, and also to allow the maximum water level in the toilet tank to be adjusted.Overflow tube 1144 is formed from a lower overflow tube section 1146 slidably coupled to an upperoverflow tube section 1148. The outer diameter of upperoverflow tube section 1148 is slightly smaller than the inner diameter of lower overflow tube section 1146, and thus fits within the lower overflow tube section in a telescopic manner. A locking device, such as a worm drive clamp 1150, may be used to fix the height of upperoverflow tube section 1148 relative to lower overflow tube section 1146. Alternatively, upperoverflow tube section 1148 may also be configured to fit around the outside of lower overflow tube section 1146 in a telescopic manner. - Although the present disclosure includes specific embodiments, specific embodiments are not to be considered in a limiting sense, because numerous variations are possible. The subject matter of the present disclosure includes all novel and nonobvious combinations and subcombinations of the various elements, features, functions, and/or properties disclosed herein. The following claims particularly point out certain combinations and subcombinations regarded as novel and nonobvious. These claims may refer to “an” element or “a first” element or the equivalent thereof. Such claims should be understood to include incorporation of one or more such elements, neither requiring nor excluding two or more such elements. Other combinations and subcombinations of features, functions, elements, and/or properties may be claimed through amendment of the present claims or through presentation of new claims in this or a related application. Such claims, whether broader, narrower, equal, or different in scope to the original claims, also are regarded as included within the subject matter of the present disclosure.
Claims (38)
1. A dual flush-volume toilet system, comprising:
a low volume flush valve configured to flush a first, lesser volume of water;
a high volume flush valve configured to flush a second, greater volume of water;
a low volume flush handle configured to open the low volume flush valve; and
a high volume flush handle configured to open the high volume flush valve, wherein at least one of the low volume flush handle and the high volume flush handle includes indicia configured to indicate to the user which of the high volume flush valve and the low volume flush valve is opened by the flush handle having the indicia.
2. The toilet system of claim 1 , wherein the indicia is a symbol disposed on the low volume flush handle.
3. The toilet system of claim 2 , wherein the indicia is printed on the low volume flush handle.
4. The toilet system of claim 2 , wherein the indicia is molded into the low volume flush handle.
5. The toilet system of claim 2 , wherein the indicia includes a “1.”
6. The toilet system of claim 1 , wherein the indicia is a symbol disposed on the high volume flush handle.
7. The toilet system of claim 1 , wherein the indicia includes a “2.”
8. The toilet system of claim 1 , wherein the indicia communicates to a user a type of waste flushed by the flush handle having the indicia.
9. The toilet system of claim 1 , wherein the indicia is formed by a shape of the low volume flush handle.
10. The toilet system of claim 9 , wherein the low volume flush handle has a shape resembling a “1.”
11. The toilet system of claim 1 , wherein the indicia is formed by a shape of the high volume flush handle.
12. The toilet system of claim 11 , wherein the high volume flush handle has a shape resembling a “2.”
13. A dual flush-volume toilet system, comprising:
a low volume flush valve configured to flush a first, lesser volume of water;
a high volume flush valve configured to flush a second, greater volume of water;
a low volume flush handle configured to open the low volume flush valve, wherein the low volume flush handle includes a first indicator indicating a type of waste to be flushed by the low volume flush handle; and
a high volume flush handle configured to open the high volume flush valve, wherein the high volume flush handle includes a second indicator indicating a type of waste to be flushed by the high volume flush handle.
14. The toilet system of claim 13 , wherein the first indicator includes a symbol disposed on the low volume flush handle.
15. The toilet system of claim 14 , wherein the symbol is printed on the low volume flush handle.
16. The toilet system of claim 14 , wherein the symbol is molded into the low volume flush handle.
17. The toilet system of claim 14 , wherein the symbol includes a “1.”
18. The toilet system of claim 13 , wherein the second indicator includes a symbol in the form of a “2.”
19. The toilet system of claim 13 , wherein the first indicator is formed by a shape of the low volume flush handle.
20. The toilet system of claim 19 , wherein the shape of the low volume flush handle resembles a “1.”
21. The toilet system of claim 13 , wherein the second indicator is formed by a shape of the high volume flush handle.
22. The toilet system of claim 21 , wherein the shape of the high volume flush handle resembles a “2.”
23. A dual flush-volume toilet system, comprising:
a low volume flush valve configured to flush a first, lesser volume of water;
a high volume flush valve configured to flush a second, greater volume of water;
a low volume flush handle configured to open the low volume flush valve; and
a high volume flush handle configured to open the high volume flush valve, wherein at least one of the high volume flush handle and the low volume flush handle has a shape configured to communicate to a user which type of waste that flush handle is configured to flush.
24. The toilet system of claim 23 , wherein both the low volume flush handle and the high volume flush handle have shapes configured to communicate to the user types of waste each handle is configured to flush.
25. The toilet system of claim 23 , wherein the low volume flush handle has a shape resembling a “1.”
26. The toilet system of claim 23 , wherein the high volume flush handle has a shape resembling a “2.”
27. A toilet handle set for use with a dual flush-volume toilet system, the dual flush volume toilet system including a low volume flush valve for flushing a first, lesser volume of water and a high volume flush valve for flushing a second, greater volume of water, the handle set comprising a handle for operating the low volume flush valve and a handle for operating the high volume flush valve, wherein at least one of the handle for operating the low volume flush valve and the handle for operating the high volume flush valve has a shape configured to communicate to a user a type of waste that handle is configured to flush.
28. The toilet handle set of claim 27 , wherein the low volume flush handle has a shape resembling a “1.”
29. The toilet handle set of claim 27 , wherein the high volume flush handle has a shape resembling a “2.”
30. A dual flush-volume toilet system, comprising:
a tank configured to hold a volume of water;
a low volume flush valve configured to flush a first, lesser volume of water from the tank;
a high volume flush valve configured to flush a second, greater volume of water from the tank;
a low volume flush handle configured to open the low volume flush valve; and
a high volume flush handle configured to open the high volume flush valve, wherein the high volume flush handle includes a protrusion configured to extend into a depression having a fixed relation relative to the tank, and wherein the high volume flush handle is configured to be pulled outwardly to remove the protrusion from the depression to allow the high volume flush handle to be turned.
31. The toilet system of claim 30 , further comprising a bushing extending through the toilet tank, wherein the depression is located on a flange coupled with the bushing.
32. The toilet system of claim 31 , wherein the low volume flush handle is coupled to a rotatable member that extends through the bushing, and wherein the rotatable member is coupled to a low volume flush wand configured to raise the low volume flush valve when the low volume flush handle is turned.
33. The toilet system of claim 32 , wherein the rotatable member is hollow, further comprising a slidable member extending through the rotatable member, the slidable member including a first end coupled to the high volume flush handle and a second end coupled to a high volume flush wand configured to raise the high volume flush valve when the high volume flush handle is turned.
34. The toilet system of claim 33 , further comprising a biasing member configured to urge the protrusion into the depression.
35. The toilet system of claim 34 , wherein the biasing member is a spring disposed between the low volume flush wand and the high volume flush wand.
36. The toilet system of claim 30 , wherein the high volume flush handle is configured to be moved in a different direction than the low volume flush handle to open the high volume flush valve.
37. A dual flush-volume toilet system, comprising:
a tank configured to hold a volume of water;
a low volume flush valve configured to flush a first, lesser volume of water from the tank;
a high volume flush valve configured to flush a second, greater volume of water from the tank;
a low volume flush handle configured to actuate a low volume flush wand to open the low volume flush valve;
a high volume flush handle configured to actuate a high volume flush wand to to open the high volume flush valve; and
a lifting member coupled to the high volume flush wand, wherein the lifting member is configured to lift the low volume flush wand when a user actuates the high volume flush wand.
38. A dual flush-volume toilet system, comprising:
a tank configured to hold a volume of water;
a low volume flush valve configured to flush a first, lesser volume of water from the tank;
a high volume flush valve configured to flush a second, greater volume of water from the tank;
a low volume flush handle operable to open the low volume flush valve; and
a high volume flush handle operable to open both the low volume flush valve and the high volume flush valve.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/679,219 US20040064879A1 (en) | 2002-01-18 | 2003-10-02 | Flush handles for dual flush-volume toilet system |
US11/115,859 US20050193483A1 (en) | 2002-01-18 | 2005-04-26 | Adjustable toilet valve assembly |
US11/255,684 US20060053542A1 (en) | 2002-01-18 | 2005-10-20 | Adjustable toilet valve assembly |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/US2002/001824 WO2002057554A1 (en) | 2001-01-19 | 2002-01-18 | Toilet valve assembly |
US10/304,309 US6658673B2 (en) | 2001-01-19 | 2002-11-25 | Toilet valve assembly |
US10/679,219 US20040064879A1 (en) | 2002-01-18 | 2003-10-02 | Flush handles for dual flush-volume toilet system |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/304,309 Continuation-In-Part US6658673B2 (en) | 2001-01-19 | 2002-11-25 | Toilet valve assembly |
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/115,859 Continuation US20050193483A1 (en) | 2002-01-18 | 2005-04-26 | Adjustable toilet valve assembly |
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US20040064879A1 true US20040064879A1 (en) | 2004-04-08 |
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ID=34915349
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US11/115,859 Abandoned US20050193483A1 (en) | 2002-01-18 | 2005-04-26 | Adjustable toilet valve assembly |
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US11/115,859 Abandoned US20050193483A1 (en) | 2002-01-18 | 2005-04-26 | Adjustable toilet valve assembly |
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USD635219S1 (en) | 2010-04-20 | 2011-03-29 | Zurn Industries, LCC | Flush valve actuator |
US8584268B2 (en) | 2012-03-09 | 2013-11-19 | James T. Han | Dual flush toilet devices |
EP2634320A3 (en) * | 2012-02-28 | 2015-04-15 | Kohler Co. | Multi-flush mode toilet |
USD855776S1 (en) | 2017-12-11 | 2019-08-06 | As America, Inc. | Dual flush trip lever |
US11078656B2 (en) * | 2017-05-17 | 2021-08-03 | Jagdish Kumar DHAMIJA | Leakage proof, water saving flushing device |
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US20100017948A1 (en) * | 2008-07-22 | 2010-01-28 | Selectaflush Llc | Dual flush toilet valve |
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US4604763A (en) * | 1985-02-19 | 1986-08-12 | Clevepak Corporation | Seal means for a flush valve assembly |
US5005225A (en) * | 1989-03-21 | 1991-04-09 | Pasquin John P | Dual flush valve for water closets |
US5111537A (en) * | 1989-06-08 | 1992-05-12 | Wenzel Zaruba | Toilet apparatus |
US5881399A (en) * | 1996-01-15 | 1999-03-16 | American Standard, Inc. | Dual flush assembly for water closets |
US6178567B1 (en) * | 1996-02-06 | 2001-01-30 | Edward J. Bliss | Multi-flush system and method |
US5647067A (en) * | 1996-05-13 | 1997-07-15 | Boyle; Patrick E. | Apparatus for selectively flushing a toilet with either a full or partial tank of water |
US5813059A (en) * | 1996-10-07 | 1998-09-29 | Wang; Kuo-Hsin | Two-stage water-saving flushing device for a toilet tank |
US5754986A (en) * | 1996-11-12 | 1998-05-26 | Chien; Chuan-Tai | Water-saving device of water tank for flush toilet |
US6094753A (en) * | 1997-11-04 | 2000-08-01 | Dal-Georg Rost & Sohne Sanitaramaturen Gmbh | Flush valve with partial-flush function |
US6041452A (en) * | 1998-12-24 | 2000-03-28 | Hsiao; Chien-Liang | Water-saving toilet |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
USD635219S1 (en) | 2010-04-20 | 2011-03-29 | Zurn Industries, LCC | Flush valve actuator |
EP2634320A3 (en) * | 2012-02-28 | 2015-04-15 | Kohler Co. | Multi-flush mode toilet |
US9605418B2 (en) | 2012-02-28 | 2017-03-28 | Kohler Co. | Multi-flush mode toilet |
US8584268B2 (en) | 2012-03-09 | 2013-11-19 | James T. Han | Dual flush toilet devices |
US11078656B2 (en) * | 2017-05-17 | 2021-08-03 | Jagdish Kumar DHAMIJA | Leakage proof, water saving flushing device |
USD855776S1 (en) | 2017-12-11 | 2019-08-06 | As America, Inc. | Dual flush trip lever |
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