Toilet bowl chemical agent dispenser

Abstract

A device for delivering a chemical additive from a location at the top of an overflow tube to a toilet bowl has an upper portion that does not fit into the overflow tube and a lower portion that fits inside the overflow tube. The upper portion has a receptacle that can hold a chemical additive so that water flowing into the overflow tube runs over the additive and into the overflow tube.

Claims

1. A device for delivery of a chemical agent into a toilet bowl from a top portion of an overflow tube during a refill phase of a flush cycle of a toilet, said device comprising: an upper portion comprising a receptacle configured to receive and retain a solid chemical agent; a lower portion configured to fit into a top portion of the overflow tube and comprising a passage configured to receive liquid from the receptacle and direct the liquid into the overflow tube; and a bypass opening in a wall of the receptacle, said bypass opening positioned such that liquid entering the receptacle can flow into the overflow tube without passing through the passage when the passage is blocked; and wherein the upper portion comprises a taper so that a top end of the upper portion is wider than a bottom end of the upper portion and the upper end of the upper portion is configured to be wider than a diameter of the overflow tube.

2. The device of claim 1, wherein said bypass opening is in the wall of the receptacle and in a wall of the passage.

3. The device of claim 1, wherein the lower portion and passage are dimensioned to occupy approximately half of a cross sectional area of the overflow tube or less.

4. The device of claim 1, wherein a wall of the upper portion comprises an opening sized to retain a portion of a refill hose.

5. The device of claim 1, further comprising a support tab extending radially from a wall of the lower portion, said tab configured to hold the lower portion in place when the lower portion of the device is placed in the top portion of the overflow tube.

6. The device of claim 5, further comprising a support tab extending radially from the top portion.

7. The device of claim 1, wherein the receptacle has a half funnel or semi-conical shape.

8. A system for delivery of a chemical additive into a toilet bowl, said system comprising the device of claim 1 and a solid chemical additive in solid form sized to be retained in the receptacle.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) These and other aspects, features and advantages of which embodiments of the invention are capable of will be apparent and elucidated from the following description of embodiments of the present invention, reference being made to the accompanying drawings, in which:

(2) FIG. 1 is an illustration of a device according to the invention in a conventional toilet and

(3) FIGS. 2a-c are illustrations of different embodiments of a device according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

(4) As used herein, “a solid” is meant to include include crystalline and amorphous solids, as well as gels and pastes having viscosities hight enough for them to maintain their shape when placed into a receptacle.

(5) “Soluble” in reference to solid chemical additives refers to solubility in water at rom temperature to form an aqueous solution. Chemical additives and solids may comprise small particles that are not soluble in water or that have a solubility in water at room temperate insufficient to form a solution. Such particles may be released from a solid chemical additive composition when soluble material dissolves.

(6) A solid chemical additive composition may be in the form of a single, solid piece in the shape of a tablet, capsule, ball, cube, stick, pyramid, tetrahedron, for example. The solid may comprise multiple solid pieces such as beads or grains. A solid may be contained in a water soluble capsule or in a water soluble or insoluble bag or net.

(7) FIG. 1 shows a toilet with standard components and a device (10) according to the invention in place in place in the toilet. The toilet comprises a holding tank (1), flush handle (2), chain (3), refill valve (4), float assembly (5), flapper valve (6), overflow tube (7), refill hose (8), and toilet bowl (9). Alternative arrangements of parts are also available, for example with one or more flush buttons positioned in the lid of the tank rather than on the front and the use of a rod in place of a chain.

(8) To initiate the flush cycle, the flush handle (2) is actuated which, through a mechanical connection, lifts and unseats the flapper valve (6). This unseating breaks the seal and allows water from the holding tank (1) to rush into the toilet bowl (9) to create the commonly observed flush action of the toilet and evacuates the contents of the toilet bowl (9) to a sewer or septic system. As the water level in the holding tank (1) lowers, the tank level float assembly (5) drops, causing the refill valve (4) to open and begin the tank refill process. The flapper valve (6) reseats, creating a seal so that the holding tank (1) retains the incoming water. During the refill process, incoming water is diverted into two different streams, with the holding tank (1) receiving the majority of the flow and refill hose (8), which delivers water into the overflow tube (7). The water entering the overflow tube (7) flows directly into the toilet bowl (9). The refill valve (4) continues to provide water to the tank and separately to the toilet bowl (9) until the water level in the holding tank (1) lifts the float assembly high enough to close the refill valve (4). When the refill valve is closed, the flow of refill water is stopped to both the holding tank (1) and the toilet bowl (9), and the water level in the holding tank (1) and the toilet bowl (9) should be at their proper levels.

(9) The inventive device (10) is designed to be placed at the top of the overflow tube (7) and not to interfere with the function of the overflow tube (7) or the proper levels of water in the tank (1) or bowl (9). The shape and design of the device (10) allow all of the refill water to flow into the toilet bowl as if the device were not present. Placement of the device or system comprising the device does not encumber or significantly alter the original function of the overflow tube as intended by the toilet manufacturer. In the case of a faulty shutoff valve, the holding tank continues to fill but is spared from overflowing due to the overflow feature of the overflow tube.

(10) FIGS. 2a-2c show different embodiments of a chemical delivery device (10). The device comprises an upper portion (11) and a lower portion (12) (FIG. 2a). The upper portion comprises a receptacle (21) having a wall (20). The receptacle is meant to contain a solid chemical additive to be delivered into the bowl of the toilet. The chemical additive composition is placed into the receptacle (21), which comprises one or more delivery openings (28) that allow dissolved chemical additive to pass into the lower portion of the device (12). The delivery opening(s) may be in the from of one or more holes in the wall (20) of the receptacle (21) and/or an opening in the wall (20) of the receptacle (21) covered by a mesh or netting. This allows the solid chemical composition to remain in the receptacle (21) as repeated contact with water flowing from the refill hose (8) into the receptacle dissolves portions of the solid, reducing its size. The wall (20) of the receptacle (21) may comprise a hose retaining opening (23) to retain the refill hose (8) in a position so that, during the fill phase of the flush cycle, water passes over solid chemical agent in the receptacle (21). When flow of refill water ceases, the chemical agent ceases to be dissolved or eroded. This allows a greater life cycle for the chemical agent as it is only diminishes in quantity during the refill phase of each flush cycle.

(11) The lower portion (12) of the device (10) is sized to fit into the upper end of the overflow tube (7) and comprises a passage (24) that receives dissolved chemical agent from the receptacle (21) and allows the liquid to pass through the passage and down the overflow tube (7) and into the bowl (9). One or more support tabs (22) may extend radially from the wall (20) of the lower portion (12) and optionally from the upper portion (11). The support tab (22) extending from the lower portion (12) helps hold the lower portion in place within the top end of the overflow tube (7). A support tab extending from the upper portion (11) may be useful for an embodiment the device (10) that is sized so that a part of the upper portion extends into the overflow tube (7). The diameter of a typical overflow tube (7) may be approximately 1 to 1.5 inches.

(12) The receptacle (21) shown in FIGS. 2a and 2b has a half funnel, or semi-conical, shape with a taper from the top to the bottom. In these embodiments, the bottom end of the upper portion (11) meets the top end of the lower portion (12). The device (10) may have a unitary construction made, for example, of injection molded plastic or 3-D printing. Alternatively, the device (10) may be made of separate parts that are snapped, glued, an or screwed together or otherwise assembled. An advantage of the geometry shown in FIGS. 2a and 2b is that approximately half of the cross sectional area of the overflow tube (7) is occupied by the device (10), including the lower portion (12). As a result, even if the passage (24) were to become completely blocked, the overflow tube would continue to function to drain water from the tank into the bowl if the tank were being continuously filled between flushes. In preferred embodiments, around half of the cross-sectional area of the overflow tube (7) is occupied by the device (10). Approximately half may be a range of from 40% to 60% or from 45% to 55%.

(13) Depending on the form and composition of a solid chemical additive placed into the receptacle (21), it may be possible for one or more delivery openings (28) to become partially or completely blocked as the solid dissolves, becomes smaller, and moves to the bottom of the receptacle. If the flow rate of water moving through the refill hose (8) is too high, all of the water may not be able to flow through the receptacle (21). The device (10) may include one or more bypass portals (25) designed to allow liquid, including water and dissolved solids, to flow from the receptacle (21) and into the overflow tube (7) by a path separate from the delivery opening(s) (28). In FIG. 2a, the bypass portal (25) comprises an opening in the wall of the receptacle (21) and passage (24). In FIG. 2b, the bypass portal (25) comprises an opening in the wall of the receptacle (21) at the bottom of the upper portion (11).

(14) An advantage of the D-shaped receptacle (21) allows for an irregular decomposition and dissolution of a single solid chemical agent to maintain an uneven shape to the solid, which lowers the potential for blockage of the semi-conical tapered receptacle (21).

(15) FIG. 2c shows an embodiment of the device (10) having an upper portion 11 with a full conical shape and a cylindrical passage (24) having an outer diameter allowing it to fit inside the overflow pipe (7). In this embodiment, the lower portion 12, including the passage (24) occupies nearly all of the top end of the overflow pipe. The device (10) comprises a first flange (27) extending radially from the device above the passage in the lower portion. The first flange has a diameter greater than that of the overflow tube (7) to hold the upper portion (11) of the device above the top end of the overflow tube. The device (10) comprises a second flange (29) parallel to and above the first flange (27). The first and second flanges (27,29) may be separated by supporting struts (26) that maintain a gap distance between the two flanges. In this embodiment, openings in the wall (20) of the device between the struts (26) and between the flanges (27,29) form channels through which water can pass from the tank (1) and into the passage (24). This bypass between the first and second flanges ensures that a flow of water from the tank and into the overflow tube is available in case the tank over fills.

(16) The drawings provide non-limiting examples of tapers and geometric shapes for the device (10) and upper (11) and lower (12) portions. Other tapers, such as stepped, discontinuous, and variable taper angles are also possible, as are different cross-sectional shapes for the receptacle (21) and passage (24). The present disclosure is not intended to be limited to the preferred, exemplary, or primary embodiment(s) described herein. The foregoing description of preferred embodiments is presented for purposes of illustration and description and is not intended to be exhaustive or to limit the present disclosure to the precise forms disclosed. The embodiments are chosen and described to provide the best illustration of the principles of the present disclosure and its practical application to thereby enable one of ordinary skill in the art to utilize the present disclosure in various embodiments and with various modifications.