Siphon tube for use with a toilet tank and bowl for maintaining a steady trickle flow of water through a supplying and unheated service line associated with the tank and bowl and method for installing the same

Abstract

A siphon tube for maintaining a trickle flow of fluid through a toilet tank reservoir and a toilet bowl. A water supply line is in fluid communication with the tank by virtue of a ball cock valve, the tank reservoir fluidly interconnects with the bowl by an overflow tube. The siphon tube includes an elongated and interiorly hollowed body having first and second fluidly interconnecting and parallel extending lengths, the first length being shorter than the second length. An upper interconnecting end is established between the fluid lengths and further includes a plurality of winding coils. Upon prefilling the siphon tube with a volume of fluid, the second extending length is inserted into the overflow tube, causing a trickle flow of fluid to be drawn from the tank reservoir, by vacuum pressure, into the first length, across the winding coils, and out the second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to freeze prevention techniques for preventing the freezing of water lines and water reservoirs, and such as in particular during wintertime conditions. More particularly, the present invention teaches a one-piece and preformed siphon unit, designed to removably fit within an overflow tube associated with a toilet tank, and which provides for a steady trickle flow of water from the tank, through the tube and into the toilet bowl. The purpose of the invention is to maintain a steady flow of fluid through an exterior and unheated water service line, by virtue of the ball cock valve located in the base of the toilet tank, and in order to prevent freezing of the water supply line.

2. Description of the Prior Art

The prior art is well documented with examples of devices utilized to assist in preventing freezing of pipes and such as in particular cold water supply lines. One known example of such a device is the provision of heat tape, such including an electrical resistor, running the length of the tape, and a plug for engaging within an electrical socket. Shortcomings associated with heat tape include the incidence of the resistor element associated with the tape burning out, or the inadvertent unplugging of the connector from the wall outlet.

Additional examples from the prior art include U.S. Pat. No. 5,640,991, issued to King, and which teaches a siphon freeze drain for an underground water sprinkling system including a line operating under water pressure. A drain valve is in the form of a “U” shaped tube, one end of which is passed through a hole in the top of the line, the other end of which is outside the line at a lower level than the first end. A clamp and seal holds the tube in the line against the force of the water in the line and prevents leaking around the tube. A check valve is in the end of the tube outside the line, the check valve selectively opened and closed to control flow through the tube and for establishing a siphon for draining the line.

Mellard, U.S. Pat. No. 4,313,452, teaches a self-actuating variable rate water pipe bleeder including a small holding tank and a sample tube, both of which are filled with water and exposed to the ambient atmospheric pressure. The water in the sample tube freezes first when the ambient temperature is at freezing, and which in turn causes a piston and push rod arrangement in the sample tube to move against a small cover plate located in the holding tank, moving it away from the drain connection. When the cover plate is so moved, water from the water supply pipe will flow at a relatively slow by steady rate through the drain connection to the environment, maintaining a flow of water through the supply pipe and thus preventing the water in the water supply pipe upstream of the pipe from freezing.

An exterior thaw tube is attached to the drain connection in the holding tank and, when the ambient temperature increases to a few degrees above freezing, the ice in the thaw tube will thaw, resulting in a spray of water from the end of the thaw tube and which is directed into an interior thaw tube which is inside the sample tube, thawing the ice in the sample tube. The thawing of the ice in the sample tube results in the piston and the push rod retracting and the cover plate moving back into place, closing off the drain opening.

Finally, U.S. Pat. No. 4,481,966, issued to Anderson, teaches a waterline freeze protection system consisting of first and second branch pipes extending from a water service pipe, a water holding tank, and a metering orifice located between the first branch pipe and the holding tank. A pump and check valve are provided between the holding tank and the second branch pipe, the check valve permitting flow of water only in the direction from the pump to the second branch pipe, a float and switch secured to the holding tank activates the pump at an upper water level and deactivates the pump at a lower water level. An overflow pipe extending from the holding tank passes water from the holding tank into a drain when the pump is non-operational.

SUMMARY OF THE PRESENT INVENTION

The present invention is a one-piece and preformed siphon unit, designed to removably fit within an overflow tube associated with a toilet tank, and which provides for a steady trickle flow of water from the tank, through the tube and into the toilet bowl. As described previously, the purpose of the invention is to maintain a steady flow of fluid through an exterior and unheated water service line, by virtue of the ball cock valve located in the base of the toilet tank, and in order to prevent freezing of the water supply line. A secondary advantage provided by the present invention is in maintaining an agitated and trickle flow within the toilet tank and bowl and in order to prevent, in extreme cases, freezing of the same during periods of non-heating of the interior structure within which it is located.

The siphon tube is typically constructed of a durable plasticized or other suitable material and includes an elongated and interiorly hollowed body having first and second fluidly interconnecting and parallel extending lengths. In order to achieve the desired vacuum effect when submerged in the tank, the first length is a specified length shorter than the second length, and it is also desirable that either or both of the first and second ends are angled and in order to prevent the interruption of the vacuum flow, and such as which occurs during seating against the bottom surface of the reservoir tank.

An upper interconnecting end established between the fluid lengths further includes a plurality of winding coils. In particular, an upper end of the coils interconnects with the shorter first length of the siphon tube, a lower spiraling end communicates with longer second length. Upon prefilling the siphon tube with a volume of fluid, the first shorter end is temporarily sealed, such as by the installer temporarily holding his finger over the first end, and while the extending second length is inserted into the overflow tube and the first end submerged into the tank reservoir. At that point, a trickle flow of fluid is drawn from the tank reservoir, by vacuum pressure, into the first length, across the winding coils, and out the second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

A method for installing a siphon tube as substantially described above is also disclosed and includes the basic steps of inverting the siphon tube and so that first and second length ends are arrayed in a generally upwardly extending direction, prefilling the siphon tube with a volume of fluid and temporarily sealing the first length end. Additional steps include inserting the second extending length into the overflow tube vacuum drawing a trickle flow of fluid the tank reservoir, into the first length, across the winding coils, and out the second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

BRIEF DESCRIPTION OF THE DRAWINGS

Reference will now be made to the attached drawings, when read in combination with the following detailed description, wherein like reference numerals refer to like parts throughout the several views, and in which:

FIG. 1 is a perspective view of the siphon tube according to the present invention;

FIG. 2 is a perspective environmental view illustrating the siphon tube in inserting fashion within the water discharge tube associated with the toilet tank;

FIG. 3 is a cutaway environmental view, similar to that illustrated in FIG. 2, and further showing the siphon tube in installed fashion in the toilet tank overflow tube and which fluidly interconnects the water inlet feed, toilet tank reservoir and toilet bowl;

FIG. 4 illustrates in perspective the manner in which the siphon tube is charged with a (dye colored) fluid and in order to initiate the vacuum trickle flow from the toilet tank to the toilet bowl; and

FIG. 5 is an environmental perspective illustration, similar to that previously shown in FIG. 2, and illustrating an alternate installation variant of the siphon tube according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to FIGS. 1-5, a siphon tube is illustrated at 10 according to a preferred embodiment of the present invention. As described previously, the purpose of the siphon tube 10 is to maintain a steady flow of fluid through an exterior and unheated water supply/service line 12 (see FIG. 3) and in order to prevent freezing of standing water located within an unheated/cold water supply line. A secondary advantage provided by the present invention is in maintaining an agitated and trickle flow within a toilet tank reservoir and bowl and in order to prevent, in extreme cases, freezing of the same during periods of non-heating of the interior structure within which it is located.

Prior to discussing the particulars of the siphon tube 10 according to the present invention, a brief description of the conventional operating components of the toilet is provided and includes the provision of a ball cock assembly, see inlet cylinder 14, ball cock 16, ball cock stem 18, and inlet cylinder discharge line 20 all located within a toilet tank interior, further generally illustrated at 22 as a fluid reservoir holding body. Additional features associated with the conventional toilet include an overflow tube 24 vertically extending within the tank reservoir 22, an overflow line 26 extending from the fluid inlet cylinder 14 to the overflow tube 24. The overflow tube 24 further communicates with a sink discharge of, typically leading to a toilet bowl 28 (see again FIG. 3).

Yet additional features of the existing toilet include an exteriorly actuated handle 30, attached stem 32 and valve plug 34, interconnected to the stem 32 via a chain 36. The conventional handle and plug assembly functions, in combination with the ball cock assembly, to drain and refill the tank reservoir in normal operation.

Referring again to FIGS. 1-5, the siphon tube 10 is typically constructed of a durable and plastic material and which includes an elongated and interiorly hollowed body having a first extending length 38 and a second fluidly interconnecting and parallel extending length 40. In order to achieve the desired vacuum effect when submerged in the tank reservoir, the first length 38 is a specified length shorter than the second length 40, see end 42 for length 38 and associated end 44 for length 40. It is also desirable that either or both of the first and second associated length ends, such as is shown in phantom in FIG. 1 at 44′ for second length 40, is angled and in order to prevent the interruption of vacuum flow, resulting from seating/sealing of the associated length end and against such as a bottom surface of the tank reservoir.

As is illustrated throughout the figures, an upper interconnecting end established between the fluid lengths further includes by at least a pair of winding coils 46 and 48. In the preferred embodiment, the coils 46 and 48 extending in a substantially perpendicular direction relative to the parallel running lengths 38 and 40. An upper end 50 of the coils (illustrated as an entrance point for first upper coil 46) interconnects with the shorter first length 38 of the siphon tube. A lower spiraling end 52 (of second downward coil 48) communicates with an entrance point of the longer second length 40.

Upon prefilling the siphon tube 10 with a volume of fluid, a description for which is illustrated in reference to FIG. 4, and such as which is further illustrated through the use of a filler bottle 54 with a nozzle 56 in FIG. 4. The first shorter end 42 is temporarily sealed, such as by an installer temporarily holding a finger 58 over the first end, and as is illustrated in FIG. 5. The extending second length is then inserted into the conventional overflow tube 24 arrangement in the tank reservoir, at which time the first end is concurrently submerged into the tank reservoir, and as is again shown in the cutaway illustration of FIG. 3.

In operation, a trickle flow of fluid is drawn from the fluid filled tank reservoir 22, by vacuum pressure and as is indicated by directional arrow 60 in FIG. 3, into the first length 38, across the winding coils 46 and 48, and out the second length 40 into the bowl, again illustrated schematically at 28 in FIG. 3. In use, the trickle flow established throughout the toilet causes the ball cock and valve components to occasionally activate, thus drawing fluid from the supply line 12 into the tank reservoir 22, this occasional flow preventing freezing of the cold water inlet line resulting from wintertime conditions.

Referring finally again to FIG. 5, an alternate mounting arrangement of the siphon tube 10 within the tank reservoir 22 is illustrated, as compared to that shown in FIGS. 2 and 3. In particular, the angular configuration of the siphon tube 10 is such that the first shorter end 38, upon installation as referenced by arrow 62, extends in a rotated condition within the tank reservoir. As is further shown, the configuration of the inlet cylinder 64 with overflow line 66 leading to overflow tube 24 may differ in regards to that shown in FIG. 2, however without otherwise affecting the operational characteristics of the siphon tube 10.

A method for installing a siphon tube as substantially described above is also disclosed and includes the basic steps of inverting the siphon tube and so that first and second length ends are arrayed in a generally upwardly extending direction, prefilling the siphon tube with a volume of fluid and temporarily sealing (such as again by applying the installer's finger) over the first length end. Additional steps include inserting the second extending length into the overflow tube vacuum drawing a trickle flow of fluid the tank reservoir, into the first length, across the winding coils, and out the second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir. Yet additional steps include the injecting of the nozzle end 56 of the filler bottle 54 into a selected one of the first and second length ends, and the step of applying a dye colorant (such as which may be premixed into the charged fluid contained within the bottle 54), and in order to visually confirm the continual and trickle flow of fluid through the siphon tube 10, and into the toilet bowl.

Having described my invention, other and additional embodiments will become apparent to those skilled in the art to which it pertains, and without deviating from the scope of the appended claims:

Claims

1. A siphon tube for maintaining a trickle flow of fluid through a tank reservoir and bowl of a toilet, a water supply line being in fluid communication with the tank by virtue of a ball cock valve, the tank reservoir fluidly interconnecting with the bowl by an overflow tube, said siphon tube comprising:

an elongated and interiorly hollowed body having first and second fluidly interconnecting and parallel extending lengths, said first length being shorter than said second length; and

an upper interconnecting end established between said fluid lengths further comprising a plurality of winding coils;

upon prefilling said siphon tube with a volume of fluid, said second extending length being inserted into the overflow tube, causing a trickle flow of fluid to be drawn from the tank reservoir, by vacuum pressure, into said first length, across said winding coils, and out said second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

2. The siphon tube as described in claim 1, further comprising an upper end of said winding coils interconnecting with said first length, a lower spiraling end of said coils communicating with said second length.

3. The siphon tube as described in claim 2, said coils extending at a substantially 90° angle relative to an axial extending direction of said first and second lengths.

4. The siphon tube as described in claim 1, further comprising at least one of first and second extending ends associated with said first and second lengths being angled.

5. The siphon tube as described in claim 1, said siphon tube exhibiting a specified shape and size and being constructed of a plastic material.

6. The siphon tube as described in claim 1, said siphon tube exhibiting a specified shape and size, and further comprising a squeeze bottle for prefilling said tube with a volume of a dye colored fluid.

7. A siphon tube for maintaining a trickle flow of fluid through a tank reservoir and bowl of a toilet, a water supply line being in fluid communication with the tank by virtue of a ball cock valve, the tank reservoir fluidly interconnecting with the bowl by an overflow tube, said siphon tube comprising:

an elongated and interiorly hollowed body having first and second fluidly interconnecting and parallel extending lengths, said first length being shorter than said second length, at least one of first and second ends associated with said first and second lengths being angled; and

an upper interconnecting end established between said fluid lengths further comprising a plurality of winding coils, an upper end of said coils interconnecting with said first length, a lower spiraling end communicating with said second length;

upon prefilling said siphon tube with a volume of fluid, said second extending length being inserted into the overflow tube, causing a trickle flow of fluid to be drawn from the tank reservoir, by vacuum pressure, into said first length, across said winding coils, and out said second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

8. A method for installing a siphon tube for maintaining a trickle flow of fluid through a tank reservoir and bowl of a toilet, a water supply line being in fluid communication with the tank by virtue of a ball cock valve, the tank reservoir fluidly interconnecting with the bowl by an overflow tube, said method of installation comprising the steps of:

providing an elongated and interiorly hollowed body having first and second fluidly interconnecting and parallel extending lengths and an upper interconnecting end comprising a plurality of downwardly winding coils, said first length being shorter than said second length;

inverting said siphon tube and so that first and second length ends are arrayed in a generally upwardly extending direction;

prefilling said siphon tube with a volume of fluid;

temporarily sealing said first length end;

inserting said second extending length into the overflow tube; and

vacuum drawing a trickle flow of fluid the tank reservoir, into said first length, across said winding coils, and out said second length into the bowl, the ball cock valve occasionally activating to draw fluid from the supply line into the tank reservoir.

9. The method as described in claim 8, further comprising the step of injecting a nozzle end of filler bottle into a selected one of said first and second length ends.

10. The method as described in claim 9, further comprising the step of applying a dye colorant to a volume of fluid contained within said filler bottle.

11. The method as described in claim 9, said step of temporarily sealing said first length end of said prefilled siphon tube further comprising the step of placing an installer's finger over said first length end and removing the finger upon submerging said first length within the tank reservoir.