US20060150318A1

US20060150318A1 - Toilet paper moistener

Info

Publication number: US20060150318A1
Application number: US11/034,157
Authority: US
Inventors: Kip Harm
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-01-12
Filing date: 2005-01-12
Publication date: 2006-07-13

Abstract

A toilet moistener having a body capable of placement in proximity to a toilet. The toilet has a bowl to retain water. A spray head associated with the body is positioned outside the bowl and directed to cause fluid to flow through the spray head in a direction other than in the bowl. The moistener also has a valve capable of restricting the flow of fluid to the spray head, a biasing component associated with the valve, and an actuator associated with the valve. Fluid is supplied to the spray head through the valve, and the biasing component biases the valve to restrict the flow of fluid to the spray head. When the actuator is activated, the valve open against the bias to reduce the restriction of the flow of fluid to the spray head for dispensing a desired amount of fluid onto a cleansing material.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

Not Applicable.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not Applicable.

BACKGROUND OF THE INVENTION

To cleanse the rectal and genital area immediately after moving the bowels or urinating, we utilize the personal hygiene product known as toilet paper. However, when using ordinary dry toilet paper, it is very uncomfortable and ineffective in cleaning fecal matter or urine completely from the region. Furthermore, for those who suffer with hemorrhoids or similar rectal tissue irritations, using dry toilet paper can be very painful.
Utilizing a “wet” cleansing method, versus dry toilet paper alone, is a much more sanitary, comfortable, and effective means of cleansing the rectal and genital area. Therefore, it should be easily understood that a “wet” cleansing method is an advantageous alternative to conventional “dry” methods for cleansing after moving the bowels or urinating, not only for those with medical problems, but also for the public at large.
The use of water for rectal and genital cleansing has been commonplace in Europe for years, primarily in the form of a bidet. In the United States, the use of wet wipes, or similar cleansing materials, has become common in recent years. The use of the traditional bidet has not been well accepted in this country, largely because a separate fixture is required, which is not readily accommodated in traditional bathroom structures, and it substantially increases the cost of a bathroom. In recent years, inventors have created several bidets that reside inside the toilet bowl—U.S. Pat. No. 4,197,594 (1980) & U.S. Pat. No. 4,205,402 (1980). These types of bidets eliminate the need for a separate fixture, but present a significant problem with maintaining sanitary conditions. Since the bidet resides inside the toilet bowl, whether or not it is retracted to a storage position therein, it is subject to contamination by the fecal matter or urine present in the toilet bowl. This contamination may cause infection and/or irritation to the user. For example, the patents referenced above provide bidets that are installed within the confines of the toilet bowl. Both of these inventions pose the risk of potential infection and/or irritation to the user.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

Illustrative embodiments of the present invention are shown in the following drawings which form a part of the specification:
FIG. 1 is a frontal view of a toilet having an embodiment of the toilet moistener of the present invention;
FIG. 2 is a perspective view of an embodiment of the toilet moistener of the present invention;
FIG. 3 is a perspective view of interior components of an embodiment of the toilet moistener of the present invention;
FIG. 4 is a cross-sectional view of an embodiment of the toilet moistener of the present invention;
FIG. 5 is a cross-sectional view of an embodiment of the toilet moistener of the present invention with a human hand holding a cleansing material against the moistener;
FIG. 6 is a cross-sectional view of an embodiment of the toilet moistener of the present invention with a human hand holding a cleansing material and pressing against the moistener to dispense fluid onto the material;
FIG. 7 is a cross-sectional view of an alternate embodiment of the toilet moistener of the present invention having an electronic sensor component;
FIG. 8 is a cross-sectional view of an alternate embodiment of the toilet moistener of the present invention having a reservoir tank to hold fluid for the moistener;
FIG. 9 is a cross-sectional view of an alternate embodiment of the toilet moistener of the present invention having a timer for a timed release of fluid from the moistener;
Corresponding reference characters indicate corresponding parts throughout the several views of the drawings.

DETAILED DESCRIPTION OF INVENTION

In an illustrative embodiment of the present invention (FIG. 1), a toilet T has a bowl 10, a tank 12, a seat 14 and a toilet feed line 16. A ferrule 18 attaches the main feed line 16 to the base of the tank 12. A shut-off valve 20 attaches the toilet feed line 16 to a water source near the toilet T (not shown). In this embodiment, the moistener A is attached with adhesive (not shown) to the side of the bowl 10, and has a body 30, a spring valve 32, a spray head 34 and a feed line 36. (FIG. 4). Of course, the moistener A may be fixedly attached to the toilet T or may be integral with the toilet T, in which case the toilet T may be configured to supply fluid to the moistener A through the toilet T itself. The body 30 of the moistener A consists of a housing 40, an actuator or press-plate 42 and a base 44. The spring valve 32 is fixedly attached to the base 44, and has a valve body 46, a plunger 48 and a compression spring 50. The valve body 46 is elongated and forms three generally cylindrical bores: a first bore 52, a second bore 53 and third bore 54; all three bores 52, 53 and 54 sharing a common central axis x.
The first bore 52, which is larger in diameter than the bores 53 and 54, has a closed end 56 at the base of the valve body 46, and extends approximately one third the length of the valve body 46 to its other end 58 where the first bore 52 opens into the second bore 53. The second bore 53 extends from the end 58 of the third bore 54 to its other end 60 where the second bore 53 opens into the third bore 54. The third bore 54 extends from the end 60 of the third bore 54 to an open end 62 at the top of the valve body 46. The plunger 48 has a central shaft 64 that is rounded at a first end 66 and has a cylindrical piston 68 at the other end. The piston 68 is sized to fit coaxially within the bores 52, 53, and 54, such that the piston 68 is restrained from non-axial movements but may move with little resistance along the axis x inside the first bore 52, and the central shaft 64 is restrained from non-axial movements but may move with little resistance along the axis x inside the bores 53 and 54. Similarly, the central shaft 64 of the plunger 48 has a diameter that is slightly less than the diameter of the third bore 54, such that the plunger 48 may move freely along the axis x within the bores 53 and 54. The diameter of the third bore 54 and the diameter of the central shaft 64 of the plunger 48 are nearly identical such that the plunger 48 may move along the axis x, while the interface between the central shaft 64 and the third bore 54 forms a seal that prevents the seepage of fluid through the third bore 54.
A lip 70 is formed along the length of the plunger 48 where the central shaft 64 meets the piston 68. The lip 70 extends radially from the perimeter of the shaft 64 to the perimeter of the piston 68. The lip 70 seats on and seals against a shoulder 72 formed where the first bore 52 meets the second bore 53. The shoulder 72 extends radially from the perimeter of the second bore 53 to the perimeter of the first bore 52.
The spring 50 is positioned coaxially along the axis x within the first bore 52 in a partially compressed condition, such that one end of the spring 50 is pressed against the closed end 56 of the first bore 52 and the other end of the spring 50 is pressed against the base of the piston 68 within the first bore 52. The spring 50 therefore applies constant pressure against the plunger 48 to urge the plunger away from the closed end 56 of the valve body base 46, and toward the lip 70. The bores 52 and 53, and the piston 68 are sized such that the lip 70 forms a complete seal against the shoulder 72 when the piston 68 is pressed against the shoulder 72.
A series of bores 74 extend diagonally from the side of the second bore 53 through the spray head 34, such that fluid may pass from the second bore 53 through the bores 74 and out of the spray head 34. Yet another bore 76 extends radially from the side of the first bore 52 through a nipple 78. The nipple 78 has ribs or threads 80 formed about its perimeter, and protrudes from the base of the valve body 46 between the spray head 34 and the base 44 of the moistener A. The feed line 36, which is formed of a flexible plastic tube, is attached to the nipple 78 by stretching the line 36 over the ribs or threads 80. The mating of the feed line 36 and the ribs or threads 80 will both hold the feed line 36 to the valve 32 and also form a fluid-tight seal between the feed line and valve 32, to prevent the leakage of fluid from the moistener A.
The feed line 36 exits the body 30 of the moistener A through a port 82 in the base 44. Outside of the body 30, the feed line 36 is attached to a plastic line clamp 84. (FIGS. 2, 3). The line clamp 84 has a set of curved prongs 86 that extend from a base 88. The base 88 is fixedly attached with glue or some other adhesive to a rigid structure, such as a wall or the toilet bowl 10. The prongs 86 arise from the base 88 in a curvilinear fashion toward one another and are shaped as shown so as to secure the feed line 36 within the prongs 86 without substantially constricting the feed line 36 to cause significant reduction in fluid flow through the line. As can be seen from FIG. 1, the feed line 36 extends from the line clamp 84 to a line tap 89 placed on the toilet feed line 16 to provide water from the toilet feed line 16 to the moistener A. In the present embodiment, the line tap 89 is located above the shut off valve 20. However, the feed line 36 may alternatively be attached to any water source near to the toilet T.
The actuator 42 of the body 30 has a perimeter ridge-lined lip 90 that mates with the housing 40. (FIG. 4). The ridge lining of the lip 90 is shaped to hold the actuator 42 to the housing 40 and prevent the actuator 42 from separating from the housing 40 in a direction away from the housing 40. The actuator 42 also has a protrusion 92 that is positioned to abut the first end 66 of the plunger 48 within the body 30 of the moistener A, in counterbalance to the bias applied to the plunger 48 by the spring 50. Hence, as can be appreciated, the actuator 42 is held in a biased state against the housing 40 by the plunger 48.
The actuator 42 further has an aperture in the shape of a generally concave recess 94 located in the lower central portion of the actuator. (FIGS. 2, 4). The recess 94 is directed toward the spring valve 32 when the actuator 42 is in position against the housing 40. A port 96 is located near the base of the recess 94. The port 96 is generally circular and both sized and aligned to allow the spray head 34 to extend from the spring valve 32 through the port 96. A drip channel 98 protrudes from the recess 94 below the port 96 into the depression formed by the recess. The drip channel 98 is configured and positioned on the actuator 42 such that when the moistener A is properly attached to the toilet bowl 10, excess moisture that may escape from the spray head 34 will be collected by the drip channel 98 below the spray head 34. In this way, such excess moisture will evaporate in the drip channel 98, and the drip channel 98 thereby limits the amount of excess moisture that may drop to the floor next to the toilet T.
From the foregoing it can be readily understood that when toilet paper P is placed along the perimeter of the recess 94 of the actuator 42 (FIG. 5), and sufficient pressure is applied to the actuator 42 to overcome the bias produced the by spring 50 (FIG. 6), the protrusion 66 on the backside of the actuator 42 will force the plunger 48 to move toward the closed end 56 of the first bore 52. This causes the piston 68 to first unseat from the shoulder 72 and expose the second bore 53 to the first bore 52. As the plunger 48 travels further toward the closed end 56 of the first bore 52, the piston 68 exposes the bore 76 to the first bore 52. When the bore 76 is exposed to the first bore 52, pressurized water in the feed line 36 will flow through the nipple 80, through the bore 76, through the first bore 52, through the second bore 53, through the series of bores 74, out the spray head 34, and onto the toilet paper P.
Moreover, the recess 94, the port 96 and the spray head 34 are all positioned with respect to one another such that when toilet paper P, or some other material used to cleanse the body, is placed generally over and along the perimeter of the recess 94, a desired amount of fluid will be ejected from the spray head 34 to moisten the toilet paper P. Adjustable nozzles, replaceable nozzles of differing shapes and sizes, and other such readily available components can be used to make the spray head 34 adjustable to accommodate variations in water pressure, water hardness and other such variables that may impact the amount of moisture desired to be applied to the toilet paper P. An adjustable nozzle can be used, for example, to controllably adjust the dispensing of fluid from the moistener A from a stream of fluid, to a course spray, to a fine mist. An adjustable nozzle may also be used to controllably adjust the angle at which the fluid is dispensed.
In another embodiment of the present invention, the moistener A has an infrared sensor 100 and an electronic switch 102 (FIG. 7). Both the sensor 100 and the switch 102 are powered by batteries 104 located in the body of the moistener A. A set of wires 105 connect the sensor 100, the switch 102 and the batteries 104. Alternately, electrical power may be supplied to the moistener A through an electrical cord. The sensor 100 is located on the body 30 of the moistener A and the switch 102 is positioned within the body 30 in association with the spring valve 32. The sensor 100 is placed in an orifice 106 in the body 30, and a nut 108 tightens along threads about the sensor 100 to securely mount the sensor 100 in the orifice 106. Preferably, the sensor 100 is waterproof, or sealed with a waterproof material to prevent seepage of moisture into the sensor. In this configuration, the plunger 48 is shorter than in the first disclosed embodiment. The switch 102 has a shaft 109 that extends forcefully out from the base of the switch when the switch is actuated. The switch 102 is fixedly attached to the spring valve 32 and configured to urge the plunger 48 toward the spring 50 with a shaft 109 when actuated by the sensor 100. The sensor 100 is calibrated to detect foreign objects having a minimum predetermined temperature that may pass within a predetermined distance from the sensor 100, such as a human hand. As can be appreciated, then, when a warm foreign object, such as a human hand, moves to within a predetermined distance from the sensor 100, the sensor 100 sends a signal to the switch 102 that actuates the switch 102 to open the spring valve 32 to release fluid through the spray head 34. Of course, the sensor 100 may be located anywhere on or near the moistener A, so long as the sensor 100 is capable of adequately detecting the presence of a foreign object in proximity to the moistener A and properly controlling the switch 102. Further, the sensor 100 may alternatively be a different type of detector with an appropriate actuating mechanism to properly actuate the moistener A, such as a motion detector, a sound detector, etc. For example, in the case of a motion detector, the sensor 102 will be calibrated to detect the motion of foreign objects within a predetermined distance from the sensor 100.
In yet another embodiment of the present invention, the moistener A has a reservoir 110 having a feed nipple 112 at the base of the reservoir and a lid 114 at the top. (FIG. 8). While in this embodiment the reservoir is separated from the body 30 of the moistener A, the reservoir can be fixedly attached to or integral with the body 30. The feed line 36 attaches to the feed nipple 112. The reservoir 110 holds fluid that is supplied to the moistener A. The reservoir A is positioned above the body 30 of the moistener A such that gravity will urge the fluid from the reservoir through the feed line 36 and into the spring valve 34. As can be appreciated, when toilet paper P is placed along the perimeter of the recess 94 of the actuator 42 (as illustrated in FIGS. 5 and 6), and sufficient pressure is applied to the actuator 42 to overcome the bias produced the by spring 50, the protrusion 66 on the backside of the actuator 42 will force the plunger 48 to move toward the closed end 56 of the first bore 52. This causes the piston 68 to first unseat from the shoulder 72 and expose the second bore 53 to the first bore 52. As the plunger 48 travels further toward the closed end 56 of the first bore 52, the piston 68 exposes the bore 76 to the first bore 52. When the bore 76 is exposed to the first bore 52, fluid will flow from the reservoir 110, through the feed line 36, through the nipple 80, through the bore 76, through the first bore 52, through the second bore 53, through the series of bores 74, out the spray head 34, and onto the toilet paper P. Of course, the reservoir 110 may be pressurized, and if so, the reservoir 110 need not be located above the spring valve 32, but may be located anywhere in proximity to the spring valve 32 so long as there exists sufficient pressure in the reservoir to urge fluid from the reservoir through the spray head 34 at the desired flow conditions. Further, the moistener A may be configured differently to accommodate the location of the reservoir 110 above or to one side of the body 30. For example, if the reservoir 110 is located above the body 30, then the spring valve 32 may be configured such that the feed line 36 enters the spring valve 32 from the top, in which case the port 82 in the base 44 will likewise be located above spring valve 32. Other convenient or efficient configurations can be readily adduced by one of ordinary skill in the art depending on the desired location of the reservoir 110 in relation to the body 30.
In yet another embodiment of the present invention, the moistener A has a mechanical timer 120 fixedly attached within the body 30 aside the spring valve 32 (FIG. 9). The timer 120 is formed of a tube 122 having an inner diameter 124 and having a rubber liner 126 that creates a smaller second inner diameter 128. A stem 130 is attached to the plunger 48 and is positioned to extend from the plunger 48 into the timer 120. The stem 130 is shaped and sized to be smaller than the inner diameter of the tube 122 but larger than the second inner diameter formed by the liner 126, such that the stem 130 fits snugly within the timer 120. As can be appreciated, the rubber liner 126 applies pressure against the stem 130 to resist the bias applied to the plunger 48 by the spring 50. In this way, the strength of the spring 50 and the thickness and frictional characteristics of the rubber liner 126 and the stem 130 can be varied to allow the spring 50 to pull the stem 130 partially out of the timer 120 at a predetermined rate. This action by the spring 50 simultaneously moves the plunger 48 away from the closed end 56 of the first bore 52, and closes the spring valve 32 in a predetermined period of time. Of course, the timer 120 may alternatively be any of a number of different configurations, such as, for example, a ratchet timer or a watch spring timer, so long as the timer 120 is capable of actuating the moistener as disclosed herein for a predeterminable period of time. Further, the timer 120 may be electronic, in which case the timer 120 may be powered by batteries or an electrical cord as desired.
While the above description contains many specifics, these should not be construed as limitations on the scope of the invention, but rather as an exemplification of a preferred embodiment thereof. Many other variations are possible. For example, the moistener A may have more than one spray head 34. In some applications it may only be desirable to use a single spray head 34 (as in the embodiment described above), while in other applications two or more spray heads 34 may provide a desirable spray characteristic based upon the water pressure and other considerations of the specific application. The moistener A may include a heating element to warm the fluid prior to being dispensed through the moistener. Further, other methods of attaching the moistener A to the toilet T may be used. Such other methods include but are not limited to glues, rivets, bolts, bands, hooks and clamps, as well as other methods that would be readily apparent to one of ordinary skill in the art. Further, it may not be necessary in all applications to attach the moistener A to the bowl 10. The moistener A may instead be attached to the tank 12 or to a wall or other fixture near to the toilet T. The moistener A may also be formed in a variety of shapes, such as for example oval, round, trapezoidal, triangular, hexagonal or polygonal, etc., and may be thinner or thicker, so long as the moistener A is capable of producing a moistening spray as required by the claims of this invention.
Of course, sealing components such as O-rings may be used to minimize leakage within the spring valve 32. As such, O-rings may be employed, for example, about the piston 68, at the base of the spring valve 32, or on the shoulder 72 where the shoulder 72 meets the lip 70. Sealing components such as O-rings may also be employed along one or more of the bores 52, 53 or 54, or in the spray head 34, to prevent leakage through said components.
Moreover, the moistener A may be connected to a water source using a wide variety of well-recognized methods, such as “T” or “Y” pipe couplings, valves, or other clamps, etc. Where the moistener A is integral to the toilet T, the toilet T may be configured to provide the water source to operate the moistener. For example, a flow channel may be formed through the toilet T that opens to a fluid input or port for the moistener A. Further, the spring 50, which applies a bias against to the valve plunger, can be substituted with any object that provides similar bias. For example, an elastic plug may be used instead of the spring 50, a tension spring may be used instead of the compression spring 50 if the spring valve 32 is reconfigured to accommodate the tension spring and “pull” on the plunger 48 instead of “push”. The moistener A can be configured with multiple spring valves and feed lines to control and apply more than one liquid to the toilet paper P, such as medication, fragrance, or other liquid. The actuator 42 can interface with the body 30 in a number of different configurations so long as the actuator 42 is adequately held in place about the spray head 34 and is capable of applying a force against the plunger 48 to release fluid through the spring valve 32. For example, the actuator 42 may be attached to the body 30 in a hinged state, such as by a living hinge or a piano hinge, for example.
Further, the components of the moistener A may be constructed of a variety of materials, including but not limited to various metals, plastics, ceramics, wood, or any other suitable material that will provide sufficient structural integrity for the each component to perform its desired function as stated herein. Each dimension of the moistener A, and thereby all of its components, may be of varying sizes. Of course, one of ordinary skill in the art will recognize that structural members may be added to strategic positions on or in the moistener A to allow the use of a variety of materials.
The detailed description above illustrates the invention by way of example and not by way of limitation. This description clearly enables one skilled in the art to make and use the invention, and describes several embodiments, adaptations, variations, alternatives and uses of the invention, including what I presently believe is the best mode of carrying out the invention. As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

Claims

1. A toilet moistener comprising:

a. a body capable of placement adjacent to a toilet, the toilet having a bowl to retain water;

b. a spray head associated with the body, the spray head being positioned outside the bowl and directed to cause fluid to flow through the spray head in a direction other than in the bowl;

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. an actuator associated with the valve;

wherein fluid is supplied to the spray head through the valve; the biasing component biases the valve to restrict the flow of fluid to the spray head; and wherein activation of the actuator opens the valve against the bias to reduce the restriction of the flow of fluid to the spray head for dispensing a desired amount of fluid onto a cleansing material.

2. The moistener of claim 1, wherein the valve is capable of being movement between an open and a closed position.

3. The moistener of claim 2, wherein the valve is held in a closed position by the biasing component.

4. The moistener of claim 1, wherein the body is fixedly attached to the toilet.

5. The moistener of claim 1, wherein the body is fixedly attached to the toilet bowl.

6. The moistener of claim 1, wherein the biasing component comprises a spring and the valve comprises a plunger in contact with the actuator, wherein the spring biases the plunger and the actuator opens the valve by applying pressure to the plunger.

7. The moistener of claim 1, wherein the fluid is water.

8. The moistener of claim 7, wherein the toilet comprises a pressurized water line and the water is supplied to the moistener from the pressurized line.

9. The moistener of claim 1, further comprising a reservoir to hold the fluid.

10. The moistener of claim 9, wherein the reservoir is pressurized.

11. The moistener of claim 1, wherein the body is configured with an aperture through which the fluid is dispensed by the spray head, the aperture being placed a predetermined distance from the spray head to facilitate the proper dispensing of the fluid on the cleansing material when the material is placed against the aperture.

12. The moistener of claim 11, wherein the aperture is formed in the shape of a generally circular recess in the surface of the actuator.

13. The moistener of claim 1, further comprising a drip channel to collect excess moisture.

14. The moistener of claim 1, further comprising a sensor and a switch, the switch being actuated by the sensor and controlling the restricting action of the valve, wherein the switch causes the valve to reduce the restriction of fluid flow through the valve when the sensor detects the presence of a foreign object within a predetermined distance of the sensor.

15. The moistener of claim 14, wherein the foreign object is a human hand.

16. The moistener of claim 14, wherein the sensor comprises an infrared detector.

17. The moistener of claim 14, wherein the sensor comprises a motion detector.

18. The moistener of claim 1, further comprising a heating component, the heating component being capable of warming the fluid prior to being dispensed through the moistener.

19. The moistener of claim 1, further comprising a cooling component, the cooling component being capable of cooling the fluid prior to being dispensed through the moistener.

20. A toilet moistener comprising:

a. a body fixedly attached to a toilet, the toilet having a bowl to retain water;

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. a sensor;

f. a switch capable of being actuated by the sensor, the switch controlling the restricting action of the valve;

wherein fluid is supplied to the spray head through the valve; the biasing component biases the valve to restrict the flow of fluid to the spray head; and the switch causes the valve to reduce the restriction of fluid flow to the spray head against the bias, for dispensing a desired amount of fluid onto a cleansing material when the sensor detects the presence of a foreign object within a predetermined distance of the sensor.

21. A toilet moistener comprising:

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. an actuator associated with the valve;

f. a reservoir to hold fluid;

wherein fluid is directed from the reservoir to the spray head through the valve; the biasing component biases the valve to restrict the flow of fluid to the spray head; and wherein activation of the actuator opens the valve against the bias to reduce the restriction of the flow of fluid to the spray head for dispensing a desired amount of fluid onto a cleansing material.

22. A toilet moistener comprising:

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. an actuator associated with the valve;

23. A toilet moistener comprising:

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. an actuator associated with the valve;

g. a timer capable of being actuated by the actuator, the timer controlling the restricting action of the valve;

wherein fluid is supplied to the spray head through the valve; the biasing component biases the valve to restrict the flow of fluid to the spray head; and wherein activation of the actuator actuates the timer and opens the valve against the bias to reduce the restriction of the flow of fluid to the spray head for dispensing a desired amount of fluid onto a cleansing material for a predetermined period of time.

24. In combination with a toilet having and a bowl that holds water, a moistener comprising:

a. a body fixedly attached to the toilet;

c. a valve capable of restricting the flow of fluid to the spray head;

d. a biasing component associated with the valve;

e. an actuator associated with the valve;

25. A method of moistening cleansing material, the method comprising the steps of:

a. placing the cleansing material in proximity to an actuator of a moistening device, said moistening device comprising a body capable of placement in proximity to a toilet, the toilet having a bowl to retain water; a spray head associated with the body, the spray head being positioned outside the bowl and directed to cause fluid to flow through the spray head in a direction other than in the bowl; a valve capable of restricting the flow of fluid to the spray head; a biasing component associated with the valve; an actuator associated with the valve; wherein fluid is supplied to the spray head through the valve, the biasing component biases the valve to restrict the flow of fluid to the spray head, and activation of the actuator opens the valve against the bias to reduce the restriction of the flow of fluid to the spray head.

b. Activating the actuator to dispense a desired amount of fluid through the spray head onto a cleansing material.