Dual toilet tank system

Information

  • Patent Application
  • 20100058524
  • Publication Number
    20100058524
  • Date Filed
    March 27, 2009
    15 years ago
  • Date Published
    March 11, 2010
    14 years ago
Abstract
The dual toilet tank system is a toilet flushing system that efficiently uses the water in the tank depending on the waste being flushed. The tank body has a divider separating the tank into two compartments, one compartment has a smaller volume than the other; a flushing valve assembly with two flapper valves, one flapper valve disposed vertically higher than the other with each disposed in respective compartments; and independently operated actuators that flush the water in respective compartments or all of the tank. The smaller volume compartment is mostly used for liquid wastes while the larger volume compartment is used for solid wastes. For larger loads, both compartments are utilized.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention relates to a toilet flushing system. More specifically, the invention is a dual toilet tank system that efficiently uses, and considerably reduces, the amount of water used to flush sewage and other wastes, which, in turn, saves the user on water and sewer bills and promotes water conservation.


2. Background of the Invention


Water consumption, potable or otherwise, can be costly to consumers depending on the demand. In many metropolitan areas, wastewater is recycled and the costs are passed to the consumer. In some areas of the world, water is a premium commodity because of geography, availability, economy and/or weather conditions. Modern toilets consume much of the available water, but they are very inefficient because the same amount of water is used to flush both liquid and solid wastes. Thus, a dual toilet tank system solving the aforementioned problems is desired.


SUMMARY OF THE INVENTION

The dual toilet tank system includes a tank separated into two compartments by a divider, a flushing valve assembly spanning both compartments, and two flush valves disposed at different elevations with respect to the base of the tank. When flushing waste, this arrangement allows a small amount of water to be used for liquid waste, with the remaining water used for solid waste.


These and other features of the present invention will become readily apparent upon further review of the following specification and drawings.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a perspective view of a dual toilet tank system according to the present invention, the tanks being broken away to show details thereof.



FIG. 2 is a front view of the dual toilet tank system according to the present invention, the tanks being broken away to show details thereof.



FIG. 3 is a top view of the dual toilet tank system according to the present invention, the tank cover being removed to show details thereof.



FIG. 4 is a right side view of the dual toilet tank system according to the present invention, the tank being broken away to show details thereof.



FIG. 5 is a left side view of the dual toilet tank system according to the present invention, the tank being broken away to show details thereof.



FIG. 6 is a front view of a divider for the dual toilet tank system according to the present invention.



FIG. 7 is an exploded perspective view of a flushing valve assembly of the dual toilet tank system according to the present invention.



FIG. 8 is a top view of an alternative embodiment of a dual toilet tank system with a dual handle actuator assembly according to the present invention, the tank cover being removed to show details thereof.



FIG. 9 is a side view of a dual handle assembly for the dual toilet tank system of FIG. 8.





Similar reference characters denote corresponding features consistently throughout the attached drawings.


DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention relates to a dual toilet tank system that efficiently uses the water in the tank by selectively flushing predetermined amounts of water depending on the particular waste load. Referring to FIGS. 1-5, the dual toilet tank system includes a tank body 10, a divider 60 that separates the tank into compartments A and B, and a flushing valve assembly 300 that spans both compartments. When the tank is full, compartment A preferably contains approximately ⅓ of the total volume of water, while compartment B contains the remainder. The divider is a substantially flat piece of material sized and shaped to fit between opposing walls of the tank to define a dividing wall. The divider may be made from plastic or any other suitable, waterproof sturdy material. The bottom of the divider includes a slot 62 formed to fit over the connector tube 330 of the flushing valve assembly when the divider is inserted into the tank to form a friction or interference fit (best shown in FIG. 6). This slot also permits fluid communication between the two compartments. Exemplary dimensions of the slot include a width of approximately 2 cm. and a length of approximately 2.5 cm. The bottom of the tank is provided with bolts 12 to mount the tank to a standard toilet bowl.


Referring to FIG. 2, the water is supplied through the main inflow tube 20 to the tank refill tube 22. The float 30, which is pivotally connected to the inlet valve 24, controls the flow of water. When the tank is empty, the float hangs from its connection to the inlet valve, which opens the same. As the tank fills, the float rises and gradually closes the inlet valve as the float reaches a predetermined level. The float arm 28 is shorter in length than a conventional float arm to insure that the float does not encounter interference by the divider and remains on the side of compartment B. A filter tube 26 is also disposed near the inlet valve.


The flushing valve system includes an elongated overflow tube 320 connected to two flush assemblies disposed on either side of the overflow tube. The flush assembly on the compartment A side is composed of a first flapper valve housing 314 with an opening at the top end thereof to accommodate a first flapper 312. A cap 316 closes the bottom end of the housing to prevent leakage of the water flowing through the housing. An L-shaped tube 310 extends from the housing 314, and the first flapper 312 is pivotally connected to the L-shaped tube. The top end of the L-shaped tube is also closed. Extending perpendicularly from the bottom of the overflow tube is the second flush valve housing 324 for the compartment B side. The second flush valve housing has an opening at the top end thereof to accommodate a second flapper 322. The second flapper is pivotally connected to the overflow tube. Although this embodiment shows the pivotal connections of the first and second flappers at the respective tubes, other locations are also possible as long as they allow the flappers to move between closed and open positions.


The bottom end of the second valve housing extends downwardly to form an outlet shaft 326. The outlet shaft is threaded to permit connection to the discharge passageway of a standard toilet bowl. The overflow tube and the L-shaped tube each have a threaded bore, one near the bottom for the overflow tube and the other at the juncture of the L-shape for the L-shaped tube. A hollow threaded connector 330 is provided to fasten the two tubes together. When the flushing valve system is assembled, the first flapper valve is disposed at a higher elevation from vertical; i.e., higher with respect to the bottom of the tank, than the second flapper valve.


Respective actuators operate each flapper valve independently. The actuator for the first flapper valve includes a first handle 210 fastened to a first lever arm 212. One end of an adjustable chain 214 connects to the distal end of the first lever arm, and the other end of the chain connects to the first flapper. The actuator for the second flapper valve is similarly arranged with a second handle 220, second lever arm 222 and an adjustable chain 224. Each lever arm is of a length suitable for the size of the respective compartments.


Next, the operation of the dual toilet tank assembly will be described. As mentioned above, the divider separates the tank into compartments A and B. Compartment A contains the smallest amount of water; i.e., about ⅓ of the tank capacity. Moreover, the water in compartment A will also be the most utilized since toilets are more often used for liquid wastes than solid. When a user desires to eliminate liquid waste, the user operates the first handle 210 to open the first flapper valve via the first lever arm 212 lifting the first flapper 312. The relatively small volume of water from compartment A drains through the first flapper valve housing, the L-shaped tube, the connector 320 and the second flapper valve housing to be discharged through the outlet shaft.


Notably, the higher vertical disposition of the first flapper valve permits the inherent water pressure within compartment A to flush while utilizing majority of the volume in the compartment. Due to the fact that the divider slot 62 allows fluid communication between the compartments, the back pressure of the water in compartment B flows water back into compartment A while compartment A is being drained, this action assists refilling of the tank until equilibrium has been reached. When the user desires to flush solid waste, the user operates the second handle 220 to open the second flapper valve via the second lever arm 222 lifting the second flapper 322.


The relatively large volume of water from compartment B drains through the second flapper valve housing to be discharged through the outlet shaft. It is noted that the above fluid flow between compartments will be present in this instance also except in reverse, i.e. water flows from compartment A to compartment B. There are occasions when the wastes may require more than the capacity of compartment B. For heavier loads, the user operates both handles to employ the full capacity of the tank.



FIGS. 8 and 9 show an alternative embodiment of the dual toilet tank system that employs a dual handle actuator assembly 400. The dual handle actuator assembly 400 includes a first handle 402 coaxially mounted to a second handle 404, with each handle being independently operable. The first handle 402 is attached to a hollow threaded shaft 407 at one end, which in turn mounts the dual handle actuator assembly to the tank body 10. A first lever arm 408 extends from the other end of the hollow threaded shaft 407 into the region of compartment A, and an adjustable chain 214 operatively connects the first lever arm 408 to the first flapper valve 312. Due to the length of the first lever arm 408 impinging upon the divider 60, a cutout 66 is formed thereon to allow passage and operational movement of the first lever arm. Thus, activation of the first handle 402 facilitates flushing from compartment A similar in operation to the first handle 210 mentioned above.


The second handle 404 is attached to a smaller diameter shaft 405 at one end, the shaft being rotatably mounted through the hollow threaded shaft 407. This configuration permits the second handle 404 to operate independently of the first handle 402 although both are coaxially mounted. A second lever arm 406 extends from the other end of the shaft 405 into the region of compartment B, and an adjustable chain 224 operatively connects the second lever arm 406 to the second flapper valve 322. Thus, activation of the second handle 402 facilitates flushing from compartment B similar in operation to the second handle 220 mentioned above.


In operation, the alternative dual toilet tank system functions the same as the system shown in FIGS. 1-7. However, the dual handle actuator assembly 400 is more streamlined in that both handles are located at one place. Thus, when the user desires to flush liquid wastes, the user employs the first handle 402. When the user desires to flush solid wastes, the user employs the second handle 404 without having to reach over to a different side of the tank body 10. When more flushing power is required for the waste, then the user depresses both handles 402, 404 with one hand, which is more ergonomic operation than depressing the spaced apart handles 210, 220 of FIGS. 1-7.


The dual toilet tank system has many benefits for water conservation. Water conservation, especially potable water, is an important consideration for everyone in present day, not only in terms of financial costs but also as an environmental concern. As an example of how the present invention may promote water conservation, an individual or user may flush a toilet five times a day using a conventional three gallon tank system, assuming four times for liquid wastes and one time for solid waste. That amounts to 15 gallons of water per day or 5,475 gallons per year. In contrast, the dual toilet tank system of three-gallon capacity would use 6 gallons per day (4 gallons total for liquid wastes and 2 gallons for solid wastes) or 2,160 gallons per year, a savings of 3,315 gallons over the course of the year.


It should be noted that the present invention may encompass a variety of alternatives to the various features thereof. For example, the flushing valve system may be formed from PVC pipes, plastics or other sturdy materials. With respect to the divider, the inner walls of the tank may be provided with elongate slots for the divider to be inserted into the tank. The divider may also be provided with holes 64 to induce additional or faster fluid flow between the compartments. These holes may be selectively corked. With respect to the flushing valve assembly, the tubing therein may be separate pieces or integrally formed, e.g., the connector may be threaded or adhesively connected to the first flapper valve and the overflow tube.


It is envisioned that the dual toilet tank system may be used to replace standard toilet tanks. In this case, the dual toilet tank system unit would be a pre-assembled package containing the elements shown in FIG. 2 with the appropriate mounting hardware. It is also envisioned that the flushing valve system may be provided in a separate package to replace worn or faulty flushing valve system in an existing toilet.


It is to be understood that the present invention is not limited to the embodiments described above, but encompasses any and all embodiments within the scope of the following claims.

Claims
  • 1-19. (canceled)
  • 20. A dual toilet tank system, comprising: a tank including a tank body, said tank body having at least opposing front and back walls and a bottom for holding a volume of fluid;a divider insertably mounted between the opposing front and back walls of said tank, said divider separating the tank into a first compartment and a second compartment, each said compartment having a volume, wherein the volume of the first compartment is substantially smaller than the volume of the second compartment, said divider defining a bottom slot for providing fluid communication between the first and second compartments;a refilling assembly disposed in the second compartment of said tank;a flushing valve assembly having a first flapper disposed in the first compartment and a second flapper valve disposed in the second compartment, the first flapper valve being disposed vertically higher than the second flapper valve with respect to the bottom of said tank, said flushing valve assembly further including an elongated overflow tube operably connected to said refilling assembly and a connector disposed between said first flapper valve and said overflow tube, said first flapper valve extending laterally from one side of said overflow tube and said second flapper valve extending laterally from an opposite side of the overflow tube, said connector being disposed within the bottom slot defined in said divider;a first actuator mounted on said tank for selectively flushing fluid in the first compartment; anda second actuator mounted on said tank for selectively flushing fluid in the second compartment;wherein the first and second actuators are disposed at the same location on the tank body and independently actuated to drain fluid from each of the compartments of the tank.
  • 21. The dual toilet tank system according to claim 20, wherein: said first actuator further comprises: a first handle adjacent the first compartment;an elongated first lever arm extending from the first handle; andan adjustable chain having one end connected to a distal end of the first lever arm and an opposite end connected to the first flapper valve; andsaid second actuator further comprises: a second handle coaxially mounted to the first handle;an elongated second lever arm extending from the second handle; andan adjustable chain having one end connected to a distal end of the second lever arm and an opposite end connected to the second flapper valve.
  • 22. The dual toilet tank system according to claim 20, wherein said divider has a cutout formed therein to allow passage of one of the first and second lever arms into the first compartment.
  • 23. The dual toilet tank system according to claim 20, wherein the refilling assembly comprises: an elongated inflow tube having opposite ends, one of the ends being connected to a fluid source;a fluid flow control assembly disposed on the opposite end of the inflow tube from the fluid source; anda refill tube extending from the fluid flow control assembly.
  • 24. The dual toilet tank system according to claim 23, wherein the fluid flow control assembly comprises: an inflow valve;an elongated float arm pivotally connected to the inflow valve; anda float disposed on the float arm;wherein draining and refilling fluid in the tank lowers and raises the float to thereby respectively open and close the inflow valve.
  • 25. The dual toilet tank system according to claim 23, further comprising a filter tube adjacent said inflow tube.
  • 26. The dual toilet tank system according to claim 20, wherein said divider further defines at least one hole disposed above the bottom slot for providing fluid flow between the first and second compartments.
  • 27. The dual toilet tank system according to claim 20, wherein said overflow tube has a connecting bore formed therethrough adjacent the bottom of the overflow tube and above the extension of the second flapper valve, said first flapper valve having a connecting bore formed therethrough, said connector fastening the overflow tube to the first flapper valve.
  • 28. The dual toilet tank system according to claim 27, wherein the first flapper valve further comprises: a first flapper valve housing having an open end and a closed end;a cap defining the closed end of the first flapper housing;a substantially L-shaped tube extending from the first flapper valve housing, the connecting bore for the first flapper valve being disposed at a juncture defining the L-shape of the L-shaped tube; anda pivotally mounted first flapper disposed on the open end of the first valve housing to selectively open and close the first flapper valve to thereby allow draining and filling of said first compartment.
  • 29. The dual toilet tank system according to claim 28, wherein the second flapper valve further comprises: a second flapper valve housing having an open end and an outlet shall, the outlet shaft defining the outlet end of the flushing valve assembly; anda pivotally mounted second flapper disposed on the open end of the second valve housing to selectively open and close the second flapper valve to thereby allow draining and filling of said second compartment, the outlet shall being dimensioned and configured for mounting to a discharge passage of a toilet bowl, whereby fluid drained from either of the compartments flows out through the outlet shaft.
Parent Case Info

This application is a continuation-in-part of U.S. patent application Ser. No. 12/232,155, filed on Sep. 11, 2008, now pending.

Continuation in Parts (1)
Number Date Country
Parent 12232155 Sep 2008 US
Child 12382996 US