The present invention relates to apparatus and methods for draining water from walk-in bathtubs. More particularly, the present invention relates to methods and apparatus selectively configured for circulating water within, and for draining water rapidly from, walk-in bathtubs.
Walk-in bathtubs have in recent years become a popular addition for remodeling of bathrooms, or for installation in new construction as an added feature for bathrooms. Changing demographics, as well as personal choices for bathing, are making walk-in bathtubs a desired bathroom feature. Walk-in bathtubs typically have a closable door in a wall of the bathtub for entrance and egress by a bather. The sidewall defines a low threshold for the door, typically about 3 to 5 inches, for a bather to step over while entering or egressing the bathtub. In contrast, conventional bathtubs may have sidewalls of 18 inches, or more, over which a bather must pass for using the bathtub. Bathers who lack agility may find that stepping over the higher wall is difficult, and a bather may slip or fall and may become seriously injured.
Walk-in bathtubs feature a door and low threshold for passage of the bather, with a seal that restricts passage of water between the door and its frame in the side wall of the bathtub when filled with water from a supply. Walk-in bathtubs also differ from conventional bathtubs by providing a greater depth for the water cavity defined by the walls of the bathtub. This greater depth for walk-in bathtubs is typically accomplished with side walls having a greater height than conventional bathtubs and/or by a narrower width and/or length. Walk-in bathtubs also typically include a seat for a bather to sit while bathing.
While walk-in bathtubs enable persons to relaxingly bath with easier entrance and egress through a door, there are drawbacks to walk-in bathtub devices. For example, upon completion of bathing, the bather must continue to occupy the bathtub during the time that water drains from the cavity to a sanitary sewer. The water level must reach at least the threshold, in order for the door to be opened and permit egress of the bather. Gravity flow of water from a bathtub is slow, and typical walk-in bathtubs may take 6 to 8 minutes, or more, to drain sufficiently for opening the door for egress.
Accordingly, there is a need in the art for an improved apparatus selectively configured for circulating water within, and for draining water from, walk-in bathtubs. It is to such that the present invention is directed.
The present invention meets the need in the art for an improvement in draining of water from a walk-in bathtub. More particularly, the present invention provides a quick drain system for a walk-in bathtub having a door in a side wall movable between a closed position with a seal for holding water within the bathtub and an open position for entering and egressing from the bathtub, said walk-in bath tub having a foot well portion for holding water below a threshold of the door and a water recirculation piping for communicating water to a plurality of jet openings in sidewalls of the bathtub. The quick drain system comprises a water outlet in a side wall of the bathtub and a water supply pipe having an upper edge proximate or lower than the threshold and communicating water from the water outlet to a diverter valve. The diverter valve having a first position for communicating water to the water recirculation piping and a second position for communicating water to a water drain pipe and the water drain pipe connecting to a sanitary sewer pipe for draining water from the bathtub. A reverse check valve positioned in the water drain pipe prior to the connection with the sanitary sewer pipe and operable selectively to a check valve first position closed to prevent water flow from the diverter valve into the sanitary sewer pipe and to a check valve second position open to allow water flow from the diverter valve into the sanitary sewer pipe for draining of the bathtub with means for operating selectively the reverse check valve to move to the check valve second position for draining water from the bathtub above the upper edge of the water supply pipe. Whereby the quick drain system, being closed to drainage of water from the bathtub by the reverse check valve, allows the bathtub to fill with water and the reverse check valve being selectively operated to move to the check valve second position and the diverter valve not in the first position, allows water in the bathtub above the upper edge to drain to the sanitary sewer pipe.
In another aspect, the present invention provides a method for rapid draining water from a walk-in bathtub having a door in a side wall movable between a closed position with a seal for holding water within the bathtub and an open position for entering and egressing from the bathtub, said walk-in bath tub having a foot well portion for holding water below a threshold of the door and a water recirculation piping for communicating water to a plurality of jet openings in sidewalls of the bathtub, comprising the steps of:
biasing a diverter valve in a quick drain system to a first position for communicating water from a water outlet in a side wall of the bathtub to the water recirculation piping, said diverter valve selectively movable to a second position for communicating water to a water drain pipe that connects to a sanitary sewer pipe, the water outlet lower than the threshold of the door;
biasing a reverse check valve in the water drain pipe of the quick drain system to a check valve first position closed to prevent water flow from the diverter valve into the sanitary sewer pipe and moveable selectively to a check valve second position open to allow water flow from the water outlet through the diverter valve and the reverse check valve into the sanitary sewer pipe for draining of the bathtub;
moving the diverter valve to the second position; and
moving the reverse check valve to the check valve second position,
whereby water within the bathtub communicates through the water outlet through the diverter valve and the reverse check valve for draining,
whereby the quick drain system, being closed to drainage of water from the bathtub by the diverter valve and the reverse check valve, allows the bathtub to fill with water and the reverse check valve being selectively operated to move to the check valve second position and the diverter valve not in the first position, allows water in the bathtub above the water outlet to drain to the sanitary sewer pipe.
Objects, advantages, and features of the present invention will become readily apparent upon a reading of the following detailed description in conjunction with the drawings and the appended claims.
With reference to the drawings, in which like parts have like identifiers,
With reference to
After appropriate bathing, the bather determines 88 to finish and depart the bathtub 12. This is accomplished by first draining the bathtub cavity 26 to at least a level below the threshold 25. The bather stops 90 the pump 48 to stop water circulating within the bathtub 12 through the jets 52. The bather opens 92 the main floor drain 46. Water begins gravity draining from the cavity 26 through the drain to the sanitary sewer. To assist emptying the cavity of water, the bather selectively activates the power drain feature. The bather operates 94 a drain switch to signal the controller 74 to commence power draining. The controller 74 first signals the valve 64 to move from the first position to the second position. This closes the circulation path from the pump 48 to the jets 52 and opens the drain conduit 68 to the pressure side of the pump. The pump 48 operates 96 to receive water through the intake 50 and communicate the water through the valve 64 and the drain conduit 68 to the drain pipe 45. Water in the cavity 26 thereby drains (1) by gravity through the main floor 46 and (2) by the pump with water flowing through the intake 50, the valve 64 and drain conduit 68, into the drain pipe for discharge into the sanitary sewer system.
The controller 74 continues to receive signals from the lower limit water sensor 76. The signal from the sensor 76 changes when the water level drops below the sensor. This indicates the water level has dropped to proximate an upper edge of the intake opening 50. Upon detecting 98 the change in the signal from the sensor 76, the controller 74 stops 100 the pump 48. This prevents cavitation. The water however continues to drain from the cavity 26 by gravity through the main floor drain 46. The bather may open the door 24 and exit the bathtub 12 because the water in the lower portion of the cavity 26 is below the threshold 25. The water in the drain conduit 68 flows back through the pump 48 and the intake 50 into a lower portion of the cavity 26. A predetermined period 102 provides for complete draining of the water from the cavity 26. Upon expiration of the period, the controller 74 signals the valve 64 to operate. The controller 74 causes 104 the valve 64 to move 100 from the second position to the first position. This positions the drain apparatus 10 closed for drainage and open for filing of the bathtub 12 and for communication of water within the cavity for circulating flow of water through the intake and the jets upon activation of the pump 48.
After appropriate bathing, the bather determines 148 to finish and depart the bathtub 12. This is accomplished by first draining the bathtub cavity 26 to at least a level below the threshold 25. The bather stops 150 the pump 48 (if operating) to stop water circulating within the bathtub 12 through the jets 52. The bather opens 152 the main floor drain 46. Water begins gravity draining from the cavity 26 through the drain to the sanitary sewer. To assist emptying the cavity of water, the bather selectively activates 154 the power drain or rapid drain feature.
In the embodiment illustrated in
In the embodiment illustrated in
The controller 74 continues to receive signals from the lower limit water sensor 76. The signal from the sensor 76 changes 160 when the water level drops below the sensor. This indicates the water level has dropped to proximate an upper edge of the intake opening 50 (or at least a level lower than the threshold 25). Upon detecting the change in the signal from the sensor 76, the controller 74 stops 162 the pump 48. This prevents cavitation. An alternate embodiment may rely on the operation of the pump for a predetermined period sufficient to drain a maximum volume of water from the bath tub to a lower water level proximate or below the upper edge of the water intake 50. Some cavitation may occur such as for water volumes where the water level is less than the high water level.
The water however continues to drain from the cavity 26 by gravity through the main floor drain 46. The bather may open the door 24 and exit the bathtub 12 because the water in the lower portion of the cavity 26 is below the threshold 25. The water in the drain conduit 68 flows back through the pump 48 and the intake 50 into a lower portion of the cavity 26. A predetermined period 164 provides for complete draining of the water from the cavity 26. Upon expiration of the period, the controller 74 signals the diverter valve 64 to operate. The controller 74 causes 166 the valve 64 to move 100 from the second position to the first position. This positions the drain apparatus 10 closed for drainage and open for filing of the bathtub 12 and for communication of water within the cavity for circulating flow of water through the intake and the jets upon activation of the pump 48. In the embodiment illustrated in
The bathtub may use in one embodiment the high-water level sensor 120 (rather than the high water opening 44) to prevent overflow. The sensor 120 signals the controller 74 of a detected high-water level. The controller 74 then operates the diverter valve 64 to move to the second position for communicating water to the drain 49 and operates the reverse check valve 124, 134 to move to the reverse check valve second position. In the embodiment illustrated in
In the embodiment illustrated in
It is to be appreciated that the present invention facilitates prompt and accelerated drainage of water from the cavity 26, to reduce the amount of time a bather must wait before the door 24 may be opened for egress. In a configuration having a 1½ inch drain line, and a ¼ HP water pump, the drain apparatus 10 may reduce drain time by about 5-8 minutes, depending on the volume of water within the cavity 26. In a first embodiment, the drain apparatus 10 may be configured to leave the valve 64 in the second position for an extended period after the pump, being operated for draining water, is turned off. This assures that the water in the drain conduit 68 flows back through the pump 48 and through the main floor drain 46. Upon completion of the predetermined period, the controller moves the valve 64 to the first position. The controller thereby configures the bathtub 12 for the next use for filling and bathing with the valve 64 in the first position closing the drain conduit 68. For a typical configuration having a residual water volume of about 5-8 gallons in the lower portion of the foot well (below the threshold height), a predetermined period of about 1 to about 4 minutes is sufficient to allow the residual water to drain though the main floor drain 46.
In an alternate embodiment, the dwell period for the valve to remain in the second position is a predetermined period commencing when the pump starts in drain mode after the bather selectively activates the assisted draining apparatus. In such embodiment, a bathtub holding 120 gallons and a drain flow rate of 10 gallons per minute, the predetermined period of between about 8 minutes to about 12 minutes provides for power assisted draining to the lower limit sensor and gravity drain for residual water before the controller moves the valve 64 to the first position.
In an alternate embodiment, the walk-in bathtub is configured for the bather to manually configure the pump and drain apparatus. The bather stops the pump that circulates the bath water through the jet nozzles. The bather then opens the main floor drain 46 (such as using conventional fixture lift rod or rotatable plug received in a drain seat). The water begins gravity draining from the walk-in-bathtub. To advance the progress of draining, the bather moves the valve from the first circulation position to the second drain position. In this alternate embodiment, this is accomplished by the bather operating a switch that communicates with the controller. The controller, in response, causes the valve to move to the second position. The controller starts the pump to communicate bath water through the intake 50 and through the drain conduit 68 to discharge into the sanitary sewer. The low level water sensor signals the controller when the water level drops below the sensor (such as at or about the height of the threshold). The controller stops the pump and waits a predetermined period. During the dwell period, the water continues draining from the main floor drain 46 to the sanitary sewer. The period is sufficient for the residual water, including that in the drain conduit 68, to drain from the foot well of the bathtub 12. The controller than moves the valve 64 to the first position, to prepare the bathtub 12 for subsequent filling and use as a walk-in bathtub.
The present invention accordingly provides an apparatus and method for accelerating drainage of bath water from a walk-in bathtub. While this invention has been described in detail with particular references to illustrated embodiments thereof, it should be understood that many modifications, additions and deletions, in additions to those expressly recited, may be made thereto without departure from the spirit and scope of the invention recited in the appended claims.
Number | Name | Date | Kind |
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2210334 | Kinsmen | Nov 1878 | A |
1805560 | Barta | Jan 1921 | A |
3863275 | Brendgord | Apr 1975 | A |
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5123123 | Hart | Jun 1992 | A |
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Number | Date | Country |
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2002364933 | Dec 2002 | JP |
Entry |
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