Toilet Bowl Cleaning and/or Deodorizing Device
A device for spraying an inner surface of a toilet bowl with a cleaning and/or deodorizing chemical is disclosed. The device includes a container for the chemical, a spray nozzle through which the chemical can be sprayed laterally around a perimeter of the nozzle, a conduit in fluid communication with the container and the spray nozzle, fluid delivery means for delivering chemical from the container through the conduit and to the spray nozzle, and means for attaching the spray nozzle near a rim of the toilet bowl. The spray nozzle of the automatic or manual toilet bowl cleaning device can operate such that the chemical is applied to the entire circumference of the inner surface of the toilet bowl whereby the entire toilet bowl is cleaned around the inner circumference of the toilet bowl.
This application is a continuation-in-part of U.S. patent application Ser. No. 11/312,281 filed Dec. 20, 2005.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCHNot Applicable.
BACKGROUND OF THE INVENTION1. Field of the Invention
This invention relates to an automatic or manual toilet bowl cleaning device where the inner surface of the toilet bowl can be cleaned around the entire circumference of the toilet bowl at locations below the toilet waterline, and/or locations at the toilet waterline, and/or locations above the toilet waterline, and/or locations under the toilet rim.
2. Description of the Related Art
Toilet bowls require care to prevent the buildup of unsightly deposits, to reduce odors and to prevent bacteria growth. Traditionally, toilet bowls have been cleaned, deodorized and disinfected by manual scrubbing with a liquid or powdered cleaning and sanitizing agent. This task has required manual labor to keep the toilet bowl clean.
In order to eliminate the manual scrubbing, various toilet bowl cleaner dispensers have been proposed. One type of dispenser comprises a solid block or solid particles of a cleansing and freshening substance that is suspended from the rim of a toilet bowl in a container that is placed in the path of the flushing water. U.S. Pat. No. 4,777,670 (which is incorporated herein by reference along with all other documents cited herein) shows an example of this type of toilet bowl cleaning system. Typically, a portion of the solid block is dissolved in the flush water with each flush, and the flush water having dissolved product is dispensed into the toilet bowl for cleaning the bowl.
Other toilet bowl cleaning systems use a liquid cleaning agent that is dispensed into a toilet bowl. For example, U.S. Pat. Nos. 6,178,564 and 6,230,334, and PCT International Publication Nos. WO 99/66139 and WO 99/66140 all disclose cleansing and/or freshening devices capable of being suspended from the rim of a toilet bowl for the purpose of introducing liquid active substances from a bottle into the flushing water with each flush. In these under the toilet rim devices, the liquid active substances are delivered downward from a reservoir to a dispensing plate that is supported by a base that is suspended from the toilet bowl rim. The device is suspended from the toilet rim such that the flow of flush water from the toilet contacts the dispensing plate during a flush. The flush water carries the liquid active substances that are on the dispensing plate into the toilet bowl to clean and freshen the toilet.
Other toilet bowl dispensers use an aerosol deodorizing and/or cleaning agent that is dispensed into a toilet bowl through a conduit attached to the toilet bowl rim. For example, U.S. Pat. No. 3,178,070 discloses an aerosol container mounted by a bracket on a toilet rim with a tube extending over the rim; and U.S. Pat. Nos. 6,029,286 and 5,862,532 disclose dispensers for a toilet bowl including a pressurized reservoir of fluid, a conduit connected to the source of fluid, and a spray nozzle which is installed on the toilet rim.
One disadvantage with these known toilet rim dispensing devices is that these devices may only apply the deodorizing and/or cleaning agent to one location in the toilet water or a limited area in the toilet water or on the inner surface of the toilet bowl. As a result, the cleaning of the inner surface of the toilet bowl may be limited to an area of the toilet bowl near the device.
Thus, there is a need for an improved automatic or manual toilet bowl cleaning device where the inner surface of the toilet bowl is cleaned around the entire circumference of the toilet bowl.
SUMMARY OF THE INVENTIONThe foregoing need can be met with a toilet bowl cleaning and/or deodorizing device according to the invention that automatically or manually delivers a chemical into the toilet bowl. The term “chemical” or “chemistry” means one chemical or a mixture of chemical ingredients. Various cleaning and/or deodorizing chemicals are suitable for use with a toilet bowl cleaning device according to the invention. The toilet bowl cleaning and/or deodorizing device includes appropriate chemistry and a dispensing system. As used herein, the term “cleaning” also includes sanitizing and/or disinfecting, and the term “deodorizing” also includes freshening.
Regarding the chemistry, a chemical is applied directly onto the inner surface of the toilet bowl and/or into the toilet water so as to continuously clean and freshen the toilet bowl. If applied to the inner surface of the toilet bowl, the chemical will either be a liquid (either single or multiple chemistry system, the multiple chemistry system combining at the point of use to create a new formula which is most effective by mixing it at that point) or a flowable powder. If added to the toilet water, the chemistry may be liquid (single or multiple chemistries) or a flowable solid (powder or crystals) that is added to the water to act as a preventive, or to create an environment that will work to clean the toilet automatically. An example of this would be to create chlorine dioxide using the toilet water, thus creating the chemistry in a gaseous state. The gas would work to coat the bowl surface and work on the various culprits.
With respect to the dispensing system, the system includes several subsystems which are the means for applying the appropriate chemistry to the inner surface of the toilet bowl to conduct the cleaning process. The dispensing system may include (but is not limited to): (i) a chemistry storage container; (ii) a chemical propulsion system; (iii) a chemical delivery system; (iv) a toilet interface; and (v) a case for the container.
The chemistry storage container is used to hold and store the chemistry used to clean the toilet bowl. Non-limiting examples include a standard plastic bottle, such as that found on a trigger sprayer, or an aerosol can.
The chemical propulsion system provides a method of providing the appropriate energy to the chemistry to move it through the delivery system so that it can move from the storage container to the appropriate area within the toilet bowl. Examples of this subsystem include an aerosol container using propellants such as liquid petroleum gas or a similar hydrocarbon based propellant, air, nitrogen or carbon dioxide. Another set of examples uses a pump or pumping mechanism to move a liquid such as a vein pump, impeller driven pump, peristaltic pump or gear driven pump. In a third example chemical propulsion system, a piston or screw mechanism is used to push the chemical into the delivery system. This system would use a motor or worm gear to drive a platform against the liquid, continuing to move the liquid at a constant pressure into the system. In a fourth example system, a mechanical means of throwing a powder or a liquid into the toilet is employed. Finally, a mechanical means to blow a powder into the toilet can be employed (in conjunction with an air stream).
The chemical delivery system provides a method of taking moving chemistry from its storage container to the appropriate area within the toilet bowl. This delivery subsystem can include a spigot, actuator, hose and nozzle.
The toilet interface provides a means and method of attachment to the toilet to keep the hose out of the way, keep it uncrimped, and secure the nozzle into place on the toilet rim or toilet lid.
The case provides a place to stabilize and store the chemical storage container. The case can include a base and housing unit.
These subsystems work together to deliver the appropriate chemistry at predetermined times (using predetermined amounts) over the course of each day to deliver the desired consumer benefit.
Therefore, the invention provides a device for spraying an inner surface of a toilet bowl with a chemical. The device includes a container for the chemical, a spray nozzle through which the chemical can be sprayed laterally at least halfway around a perimeter of the nozzle, a conduit in fluid communication with the container and the spray nozzle, fluid delivery means for delivering chemical from the container through the conduit and to the spray nozzle, and means for attaching the spray nozzle near a rim of the toilet bowl. Optionally, the spray nozzle can spray laterally around the entire perimeter of the nozzle.
In one form, the spray nozzle is a rotating nozzle such that the chemical can be sprayed laterally around the entire perimeter of the nozzle. For example, the spray nozzle may include a fluid spinner having a helical groove and a deflection plate that rotates when contacted by the chemical exiting the helical groove thereby spraying chemical laterally around the entire perimeter of the nozzle such that chemical covers the entire circumference of the inner surface of the toilet bowl.
In one version of the invention, the container is pressurized, and the fluid delivery means comprises a propellant in the container and a valve in the conduit. The valve has an open position for delivering chemical from the container through the conduit and to the spray nozzle. The propellant may be selected from the group consisting of hydrocarbon based propellants, air, nitrogen, and carbon dioxide. A case may be provided for the container, and the case may include an activator for moving the valve into the open position thereby delivering chemical from the container through the conduit and to the spray nozzle. The valve may be opened either manually or automatically, and in one form, the valve is a tilt valve.
The fluid delivery means may further include (i) an actuator for moving the valve into the open position and keeping the valve in the open position during a spray cycle, and (ii) a timing circuit for automatically initiating and terminating the spray cycle. The timing circuit provides a method of automatically spraying the chemical. The timing circuit initiates a first countdown. At the expiration of the first countdown, the actuator (e.g., solenoid) is activated automatically to open the valve and deliver chemical from the container through the conduit and to the spray nozzle. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated. The fluid delivery means may further include a proximity sensor for detecting presence of a person or household pet near the toilet bowl. The proximity sensor is in electrical communication with the timing circuit for preventing automatic initiation of the spray cycle when a person or household pet is near the toilet bowl.
Alternatively, the fluid delivery means may be a pump for delivering chemical from the container through the conduit and to the spray nozzle when the pump is activated either manually or automatically. In one embodiment, the pump is automatically activated during a spray cycle in that the fluid delivery means includes a timing circuit for automatically initiating and terminating the spray cycle. The timing circuit provides a method of automatically spraying the chemical. The timing circuit initiates a first countdown. At the expiration of the first countdown, the pump is activated automatically to deliver chemical from the container through the conduit and to the spray nozzle. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump. The fluid delivery means may further include a proximity sensor for detecting presence of a person or household pet near the toilet bowl. The proximity sensor is in electrical communication with the timing circuit for preventing automatic initiation of the spray cycle when a person or household pet is near the toilet bowl. The pump may be selected from the group consisting of vein pumps, impeller driven pumps, peristaltic pumps, gear driven pumps, bellows pumps, and piston pumps. A case may be provided for the container, and the case may include an activator for activating the pump.
The means for attaching the spray nozzle near a rim of the toilet bowl may be a clip having a base wall and having opposed spaced apart side walls extending away from the base wall that forms a generally U-shaped clip. Optionally, the opposed spaced apart side walls of the clip are movable toward and away from each other such that a distance between the opposed spaced apart side walls is adjustable. This allows for mounting on the clip on toilet bowl rims having various dimensions. Alternatively, the means for attaching the spray nozzle near a rim of the toilet bowl may a suction device (e.g., a suction cup) or an adhesive material that allows the nozzle to be mounted on a surface.
The container may have a translucent wall so that a user can see the amount of chemical in the container and know when to replace an empty container with a full container. When a case is provided for the container, the case may include an access door for inserting and removing the container. The case may also including an audible or visual indicator (e.g., a light emitting diode) that signals a level of chemical in the container. For example, the indicator may indicate that no chemical remains in the container such that a user should replace the container with a full container.
The case may also include a waste bin, or a receptacle for a toilet cleaning device, such as the toilet brush described in U.S. Patent Application Publication No. 2005/0005378. The case may rest on the floor next to the toilet, or the case may have a hanger for suspending the case from a toilet tank. Alternatively, the case may include means for suspending the case from a vertical surface such as a wall. Adhesive materials are an example of such means for suspending the case from a vertical surface.
In another aspect, the invention provides a device for spraying an inner surface of a toilet bowl with a chemical. The device includes a container for the chemical, a rotating spray nozzle through which the chemical can be sprayed laterally around a perimeter of the toilet bowl, a conduit in fluid communication with the container and the spray nozzle, fluid delivery means for delivering chemical from the container through the conduit and to the spray nozzle, and means for attaching the spray nozzle near a rim of the toilet bowl. The spray nozzle may include a fluid spinner having a helical groove and a deflection plate that rotates when contacted by the chemical exiting the helical groove. The deflection plate may include upwardly extending ribs that are contacted by the chemical exiting the helical groove to rotate the deflection plate.
In yet another aspect, the invention provides a device for spraying an inner surface of a toilet bowl with a chemical. The device includes a container for the chemical, a spray nozzle through which the chemical can be sprayed laterally around a perimeter of the toilet bowl, a conduit in fluid communication with the container and the spray nozzle, fluid delivery means for delivering chemical from the container through the conduit and to the spray nozzle, and means for positioning the spray nozzle so that in use the spray nozzle is near a rim of the toilet bowl. Preferably, the spray nozzle is structured such that that chemical can be sprayed laterally around the entire perimeter of the nozzle. The spray nozzle may be a rotating nozzle. In one form, the spray nozzle includes a fluid spinner having a helical groove and a deflection plate that rotates when contacted by the chemical exiting the helical groove.
In still another aspect, the invention provides a device for spraying an inner surface of a toilet bowl with a chemical from a container. The device includes a spray nozzle through which the chemical can be sprayed laterally at least halfway around a perimeter of the nozzle, a conduit in fluid communication the spray nozzle, and means for attaching the spray nozzle near a rim of the toilet bowl. Preferably. the spray nozzle is structured such that that chemical can be sprayed laterally around the entire perimeter of the nozzle. In one form, the spray nozzle is a rotating nozzle. In another form, the spray nozzle includes a fluid spinner having a helical groove and a deflection plate that rotates when contacted by the chemical exiting the helical groove.
The means for attaching the spray nozzle may be a clip having a base wall and having opposed spaced apart side walls extending away from the base wall. The opposed spaced apart side walls of the clip are preferably movable toward and away from each other such that a distance between the opposed spaced apart side walls is adjustable. In another form, the means for attaching the spray nozzle comprises a bracket and a flexible attachment strip having at least one suction cup for attaching to the toilet. In yet another form, the means for attaching the spray nozzle includes a suction device, or an adhesive material. In one embodiment, the means for attaching the spray nozzle further comprises a proximity sensor for detecting presence of a person near the toilet bowl.
In yet another aspect, the invention provides a device for spraying an inner surface of an enclosure with a fluid. The device includes a container for the fluid, a fluid delivery device through which the fluid can be applied to the inner surface of the enclosure, a fluid conduit in fluid communication with the container and the fluid delivery device, means for delivering fluid from the container through the fluid conduit and to the fluid delivery device, and a clip for mounting the fluid delivery device adjacent the inner surface of the enclosure wherein the clip includes a sensor. The sensor may be selected from proximity sensors, light sensors, sound sensors, pressure sensors, vibration sensors, motion sensors, and combinations thereof. In one version of the invention, the means for delivering fluid from the container is a pump, and the device further includes a control circuit in electrical communication with the pump and the sensor and a source of electricity, wherein the control circuit executes a stored program to initiate a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device. The enclosure can be a toilet bowl, the sensor can be a flush sensor, and the control circuit can execute the stored program to initiate the cycle after the flush sensor senses a flush. The control circuit can include a timer circuit which automatically initiates the cycle at a set time period after the flush.
In still another aspect, the invention provides a device for spraying an inner surface of a toilet bowl of a toilet with a fluid. The device includes a container for the fluid, a hanger suitable for suspending the container from the toilet, a fluid delivery device through which the fluid can be applied to the inner surface of the toilet bowl, a fluid conduit in fluid communication with the container and the fluid delivery device, a pump for delivering fluid from the container through the fluid conduit and to the fluid delivery device, and a control circuit in electrical communication with the pump. The control circuit initiates a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device. The hanger can be suitable for suspending the container from a rim of the toilet bowl. The container can be dimensioned such that the container contacts a floor on which the toilet is mounted when the container is suspended from the rim of the toilet bowl. The device can further include a sensor in electrical communication with the control circuit, and the control circuit executes initiates the cycle in response to an electrical signal from the sensor. The sensor can be a flush sensor, and the control circuit initiates the cycle after the flush sensor senses a flush.
In yet another aspect, the invention provides a device for spraying an inner surface of an enclosure with a fluid. The device includes a first container for a first fluid chemical system, a second container for a second fluid chemical system, a fluid delivery device through which fluid can be applied to the inner surface of the enclosure, means for delivering fluid from the first container and the second container to the fluid delivery device, and a clip for mounting the fluid delivery device adjacent the inner surface of the enclosure. The device can also include a holder attached to the clip wherein the first container and the second container are removably attached to the holder. In one version of the invention, the first container and the second container are attached below the holder. The means for delivering fluid from the container can be a pump, and the device can further include a control circuit in electrical communication with the pump and a source of electricity, wherein the control circuit executes a stored program to initiate a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device. The device can further include a sensor in electrical communication with the control circuit, and the control circuit can initiate the cycle in response to an electrical signal from the sensor.
In still another aspect, the invention provides an electrical device including a housing having a battery chamber, a battery cover, and a hinge for connecting the battery cover and the housing. The hinge can include an opening in a wall of the housing and a tab connected to the battery cover. The opening and the tab are dimensioned such that the tab can be inserted into the opening when the battery cover is connected to the housing, and the opening and the tab are dimensioned such that the tab can move in the opening so that the battery cover can pivot with respect to the wall of the housing. The device includes a latch comprising a section of the wall of the housing and a portion of the tab. The latch releasably secures the battery cover to the housing in a closed position for covering an open end of the battery chamber which houses one or more batteries. The section of the wall can include a resilient finger, and the portion of the tab can include a rib. The finger engages the rib in releasably locking relationship when the cover is moved into the closed position. The hinge can further comprise at least one additional opening in the wall of the housing and at least one additional tab connected to the battery cover. Each additional opening is dimensioned such that an associated additional tab can be inserted into the additional opening when the battery cover is connected to the housing. Each additional opening and associated additional tab is dimensioned such that the associated additional tab can move in the additional opening so that the battery cover can pivot with respect to the wall of the housing. The hinge can further include a projection at an end of the tab. The projection prevents the tab from falling out of the opening after the battery cover is connected to the housing. The device can include means for delivering fluid from a container through a fluid conduit and to a fluid delivery device.
It is therefore an advantage of the invention to provide a toilet bowl cleaning device where the inner surface of the toilet bowl is cleaned around the entire circumference of the toilet bowl. The device provides for overall toilet bowl cleanliness by enhanced shine and the retardation of biofilm, mold and/or mildew growth. The device can remove or eliminate stains (hard water, metals, organic), mold, mildew, germs, odors, and bacteria.
These and other features, aspects, and advantages of the present invention will become better understood upon consideration of the following detailed description, drawings, and appended claims.
Like reference numerals will be used to refer to like parts from Figure to Figure in the following description of the drawings.
DETAILED DESCRIPTION OF THE INVENTIONThe invention provides a device for spraying an inner surface of a toilet bowl with a chemical. Various embodiments of the invention will now be described with reference to the Figures. The embodiments are shown and described for the purposes of illustration and are not intended to limit the invention in any way.
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The container 50 is housed upside down in a case 30. A fitment is provided in the case 30 for engaging an outlet of the container 50. The fitment of the case 30 is also connected to the fluid supply conduit 49. A wall 51 of the container 50 may be translucent so the user can see when the container is empty. The case 30 includes a container holder 36 that keeps the container 50 securely mounted in the case 30. In one form, the container holder 36 is downwardly biased plate that may be lifted by a user in the direction of arrow A to release and remove an empty container 50 and thereafter load a new container 50.
A use-up cue light emitting diode (LED) 34 is provided in the case 30. A pressure-based fluid level sensor senses a pressure drop in the container 50 when the container 50 is empty and the pressure-based fluid level sensor triggers the LED to emit light and signal that an empty container 50 exists. Optionally, the pressure-based fluid level sensor triggers an audible alarm to signal that an empty container 50 exists. Alternatively, the LED is part of a control circuit including a counter. The counter is incremented after each depression of an activator button (such as manual activator button 32 described below). After a certain number of depressions of the activator button, the counter triggers the LED to emit light and signal that an empty container 50 exists.
The case 30 also includes a manual activator button 32. In one version of the invention, the container 50 is pressurized and includes a propellant in the container 50 and an outlet valve. The manual activator button 32 moves the valve into an open position for delivering chemical from the container 50 through the conduit 49 and to the spray nozzle 80. For example, the activator button 32 pushes the container 50 downward such that the valve at the bottom of the container 50 opens.
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The container 150 is housed in a case 130. A fitment is provided in the case 130 for engaging an outlet of the container 150. The fitment of the case 130 is connected to the fluid supply conduit 49 by a rotating hose connector 142 that allows the conduit 49 to rotate in direction C. The case 130 includes an access door 138 that may be opened by a user as shown in
The case 130 also includes a manual activator foot pedal 141. In one version of the invention, the container 150 is pressurized and includes a propellant in the container 150 and an outlet valve. The manual activator foot pedal 141 moves the container 150 upward such that the valve at the top of the container 150 opens and delivers chemical to the conduit 49. The valve may be a standard vertical aerosol valve in this embodiment.
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The container is housed in a case 330. The container may be exposed at the rear of the case 330. A fitment is provided in the case 330 for engaging an outlet of the container. The fitment of the case 330 is connected to the fluid supply conduit 49. The case 330 includes a T-shaped activator handle 333. The container may be pressurized and include a propellant in the container and an outlet valve. The activator handle 333 pushes the container 50 downward such that the valve at the bottom of the container 50 opens for delivering chemical from the container through the conduit 49 and to the spray nozzle 80. The handle 333 also allows the case 300 to be carried around by a user. A circular use-up cue light emitting diode (LED) 334 is provided in the case 330 around the base of the handle 333. The LED 334 operates as LED 134 described above.
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The container 550 is housed in a case 530. A fitment is provided in the case 530 for engaging an outlet of the container 550. The fitment of the case 530 is connected to the fluid supply conduit 49 which exits at the back of the case 530. The case 530 includes a top access door 538 that may be opened by a user as shown in
The case 530 also includes a manual activator foot pedal 541. In one version of the invention, the container 550 is pressurized and includes a propellant in the container 550 and an outlet valve. The manual activator foot pedal 541 moves the container 550 such that the valve of the container 550 opens and delivers chemical to the conduit 49.
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The container 650 is housed in a case 630. A retaining ring 637 keeps the container 650 secure in the case 630. A fitment is provided in the case 630 for engaging an outlet of the container 650. The fitment of the case 630 is connected to the fluid supply conduit 49. The case 630 includes an access door 638 that may be opened forwardly by a user as shown in
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The container 750 is housed in a case 730 and displayed at an angle from vertical. The container 750 may be translucent so the user can see when the container is empty. The case 730 includes a container holder 736 that keeps the container 750 securely mounted in the case 730. In one form, the container holder 736 is downwardly biased plate that may be lifted upward by a user to release and remove an empty container 750 and thereafter load a new container 750. A fitment is provided in the case 730 for engaging an outlet of the container 750. The fitment of the case 730 is connected to the fluid supply conduit 49. The case 730 also includes a manual activator button 732. In one version of the invention, the container 750 is pressurized and includes a propellant in the container 750 and an outlet valve. The manual activator button 732 moves the valve into an open position for delivering chemical from the container 750 through the conduit 49 and to the spray nozzle 80. For example, the activator button 732 pushes the container 750 downward such that the valve at the bottom of the container 750 opens. A use-up cue light emitting diode (LED) 734 is also provided in the case 730. The LED 734 operates as LED 134 described above.
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The container is housed in a case 830. The case 830 may be a translucent housing 831 so the user can see when the container is empty. The case 830 includes a container holder that keeps the container securely mounted in the case 830. A fitment is provided in the case 830 for engaging an outlet of the container. The fitment of the case 830 is connected to the fluid supply conduit 49. The case 830 acts as a manual activator button. In one version of the invention, the container is pressurized and includes a propellant in the container and an outlet valve. The case 830 acts as a manual activator button by moving the valve into an open position for delivering chemical from the container through the conduit 49 and to the spray nozzles 878. For example, the case 830 pushes the container downward such that the valve at the bottom of the container opens. The translucent housing 831 may also provide a use-up cue. A pressure-based fluid level sensor senses a pressure drop in the container when the container is empty and the pressure-based fluid level sensor triggers a light within the translucent housing 831. The housing 831 then glows to signal that an empty container exists.
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The container 950 is housed in a case 930. A wall 951 of the container 950 may be translucent so the user can see when the container 950 is empty. A fitment is provided in the case 930 for engaging an outlet of the container 950. The fitment of the case 930 is connected to the fluid supply conduit 49 by a rotating hose connector 942. The case 930 includes an access door 938 that may be opened by a user as shown in
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The container 50a is housed in a case 30a. A fitment is provided in the case 30a for engaging an outlet of the container 50a. The fitment of the case 30a is connected to the fluid supply conduit 49. The case 30a includes an access door 38a that may be opened by a user as shown in
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The container is housed in a case 30b. A fitment is provided in the case 30b for engaging an outlet of the container. The fitment of the case 30b is connected to the fluid supply conduit 49. The case 30b includes a top access door 38b that may be opened by a user to remove an empty container and thereafter load a new container. A hinge is provided on the door 38b for swinging movement of the door 38b. The case 30b also includes a well 45b and a pair opposed spaced apart protrusions 46b. The head of a toilet brush 58b may be placed in the well 45b and the handle 59b of the toilet brush 58b may rest between the protrusions 46b. The case 30b may rest on the floor next to the toilet and conveniently hold the toilet brush 58b as shown.
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The container 50c is housed in a case 30c. A fitment is provided in the case 30c for engaging an outlet of the container 50c. The fitment of the case 30c is connected to the fluid supply conduit 49. The case 30c includes an access door 38c that may be opened by a user by latch 39c to remove an empty container and thereafter load a new container 50c. A hinge is provided on the door 38c for swinging movement of the door 38c in direction A of
A use-up cue light emitting diode (LED) 34c is provided in the case 30c. A pressure-based fluid level sensor senses a pressure drop in the container 50c when the container 50c is empty and the pressure-based fluid level sensor triggers the LED to emit light and signal that an empty container 50c exists. The case 30c also includes a manual activator foot pedal 41c. In one version of the invention, the container 50c is pressurized and includes a propellant in the container 50c and an outlet valve. The manual activator foot pedal 41c moves the container 50c such that the valve of the container 50c opens and delivers chemical to the conduit 49.
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The container 50d is housed horizontally in a case 30d. A fitment is provided in the case 30d for engaging an outlet of the container 50d. The fitment of the case 30d is connected to the fluid supply conduit 49. The container 50d may be reloaded from the bottom or back of the case 30d. The case 30d may rest on the floor behind the toilet as shown in
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The container 50e is housed in a case 30e. A fitment is provided in the case 30e for engaging an outlet of the container 50e. The fitment of the case 30e is connected to the fluid supply conduit 49. The case 30e includes a top access door 38e that may be opened by a user as shown in
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The container 50f is housed in a case 30f. A fitment is provided in the case 30f for engaging an outlet of the container 50f. The fitment of the case 30f is connected to the fluid supply conduit 49. The case 30f includes an access door 38f that may be opened by a user in direction A as shown in
The case 30f also includes a manual activator button 32f. In one version of the invention, the container 50f is pressurized and includes a propellant in the container 50f and an outlet valve. The manual activator button 32f moves the valve into an open position for delivering chemical from the container 50f through the conduit 49 and to the spray nozzle 97f. For example, the activator button 32f pushes the container 50f downward such that the valve at the bottom of the container 50f opens.
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The container is housed in a case 30g. The case 30g may be a translucent housing so the user can see when the container is empty. The translucent housing may also provide a use-up cue. A pressure-based fluid level sensor senses a pressure drop in the container when the container is empty and the pressure-based fluid level sensor triggers a light within the translucent housing. The housing then glows to signal that an empty container exists.
A fitment is provided in the case 30g for engaging an outlet of the container. The fitment of the case 30g is connected to the fluid supply conduit 49. The case 30g acts as a manual activator button. In one version of the invention, the container is pressurized and includes a propellant in the container and an outlet valve. The case 30g acts as a manual activator button by the user pressing the case 30g in direction A to move the valve into an open position for delivering chemical from the container through the conduit 49 and to the spray nozzle. For example, the case 30g pushes the container sideways such that a tilt valve at the bottom of the container opens. An adhesive strip 44g is provided at the rear of the case 30g for mounting the case 30g on a wall as shown in
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The container 50h is housed in a case 30h. A fitment is provided in the case 30h for engaging an outlet of the container 50h. The fitment of the case 30h is connected to the fluid supply conduit 49. The case 30h includes an access door 38h that may be opened by a user as shown in
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The container 50i is housed in a case 30i. A fitment is provided in the case 30i for engaging an outlet of the container 50i. The fitment of the case 30i is connected to the fluid supply conduit 49. The case 30i includes an access door that may be opened by a user to remove an empty container 50i in direction B as shown in
The case 30i also includes a storage bin section 47i covered by a storage bin lid 48i that opens in direction D as shown in
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The container 50j is housed in a case 30j. A fitment is provided in the case 30j for engaging an outlet of the container 50j. The fitment of the case 30j is connected to the fluid supply conduit 49. The case 30j includes an access door 38j that may be opened by a user to remove an empty container 50j and thereafter load a new container 50j and batteries (if provided) in direction B as shown in
The case 30j also includes a manual activator button 32j. In one version of the invention, the container 50j is pressurized and includes a propellant in the container 50j and an outlet valve. The manual activator button 32j moves the container 50j downward such that the valve at the bottom of the container 50j opens and delivers chemical to the conduit 49. The case 30j sits next to the toilet 10 and provides storage for garbage.
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The container 50k is housed in a case 30k. The case 30k hooks on the back of the toilet 10 under the tank 22 as shown in
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Referring now to
Turning to
A spigot 54n is fluid communication with the container 50n and an actuator button 53n which is in fluid communication with the conduit 49. An actuator cap 52n surrounds the actuator button 53n. The container 50n is pressurized and includes a propellant in the container 50n and an outlet valve. The actuator button 53n moves the valve downward into an open position for delivering chemical from the container 50n through the conduit 49 and to the spray nozzle 80. Output pressures of 30-35 psi from the valve are some non-limiting examples of suitable pressures.
A variation of the device of
Referring now to
The container 50p is housed in a case 30p. A fitment is provided in the case 30p for engaging an outlet of the container 50p. The fitment of the case 30p is connected to the fluid supply conduit 49p. The case 30p includes a top access door 38p that may be opened by a user as shown in
In one version of the invention of
The case 30p has an inverted generally J-shaped hanger 44p that extends upwardly from the case 30p as shown in
The conduit 49p is connected to the case 30p with a connector 69p as shown in
Turning now to
The container 50q is mounted upside down (i.e., outlet valve down) in a base 30q. A fitment is provided in the base 30q for engaging an outlet of the container 50q. The fitment of the base 30q is connected to the fluid supply conduit 49q. A user may remove an empty container 50q in direction A shown in
In one version of the invention of
The case 30q has an inverted generally J-shaped hanger 44q that extends upwardly from the base 30q as shown in
The conduit 49q is connected to the base 30q with a connector 69q as shown in
Referring now to
When installing the mounting clip 60p on the toilet rim 14, the L-shaped bracket 73p is placed on top of the toilet rim as shown in
The nozzle 80 is mounted to the side wall 64p of the clip 60p. The conduit 49p is connected to a fluid passageway in the mounting strip 74p, the base wall 62p, and the side wall 64p. The fluid passageway receives chemical from the conduit 49, and the spray nozzle 80 engages an end of the fluid passageway and receives chemical from the fluid passageway.
The side wall 64p of the mounting clip 60p defines a space that houses a proximity sensor 98p. The proximity sensor 98p detects the presence of a person. A control circuit for operation of the proximity sensor 98p is described below. The control circuit and the proximity sensor 98p are placed in electrical communication by way of wire 51p that extends from the proximity sensor 98p to the control circuit. Using the device of
Referring now to
An illustration of the use of the spray nozzle 80a can be detailed with reference to
Turning to
The spray nozzle 80b has a fluid spinner 87b located within the tubular flow passage 86b. The fluid spinner 87b is generally cylindrical and has a helical groove 88b extending from one end to the other end of the fluid spinner 87b. An interference fit can be used to keep the fluid spinner 87b in the tubular flow passage 86b of the spray nozzle 80b. The spray nozzle 80b also has a deflector plate 91b connected to the bottom end of the fluid spinner 87b. The deflector plate 91b has a connector shaft 92b that may be inserted in a central hole in the end of the fluid spinner 87b for rotation with respect to the fluid spinner 87b. The deflector plate 91b also has radial ribs 93b that extend radially from the connector shaft 92b to the edge of the deflector plate 91b.
An illustration of the use of the spray nozzle 80b can be detailed with reference to
Referring now to
The spray nozzle 80c has a disc 89c with radial slots 90c. The disc 89c is located within the disc shaped flow chamber 84c. The spray nozzle 80c also has a deflector plate 91c connected to the disc shaped flow chamber 84c. An interference fit can be used to keep the deflector plate 91c connected to the disc shaped flow chamber 84c. The deflector plate 91c has teeth 94c around its perimeter that create dispensing slots 95c around a perimeter of the deflector plate 91c.
An illustration of the use of the spray nozzle 80c can be detailed with reference to
Turning to
The spray nozzle 80d has a deflector plug 91d connected to the flow chamber 84d. An interference fit can be used to keep the deflector plug 91d connected to the flow chamber 84d. The deflector plug 91d has a generally dome-shaped section 96d with dispensing channels 95d around its perimeter. A lower flange 94d extends outward from the bottom of the dome-shaped section 96d.
An illustration of the use of the spray nozzle 80d can be detailed with reference to
Referring now to
The spray nozzle 80e also includes a fluid spinner 87e and associated mounting disc 89e. The fluid spinner 87e is placed on the disc shaped flow chamber 84e by inserting the sealing head 81e and the middle section 83e through a central hole 91e in the fluid spinner 87e. The mounting disc 89e may be press fit into the fluid spinner 87e such that the fluid spinner 87e and the mounting disc 89e may rotate with respect to the disc shaped flow chamber 84e. The fluid spinner 87e has flow deflectors 88e that extend outward from an annular section 85e of the fluid spinner 87e.
An illustration of the use of the spray nozzle 80e can be detailed with reference to
Referring now to
The spray nozzle 80f has a tubular fluid spinner 86f that is press fit into an annular channel 87f in the tubular flow passage 84f as shown in
The spray nozzle 80f also has a domed deflector button 91f connected to the top end of a cylindrical mounting tube 92f that is press fit into the fluid spinner 86f. A deflector plate 93f has a split connector shaft 94f that may be inserted in a central hole 97f in the end of mounting tube 92f for rotation with respect to the fluid spinner 86f. The deflector plate 93f also has radial ribs 95f that extend upward from the deflector plate 93f and extend radially from the connector shaft 94f to the edge of the deflector plate 93f. As shown in
An illustration of the use of the spray nozzle 80f can be detailed with reference to
With respect to the devices described above, manual delivery of the chemical from the container to the conduit can be achieved in many different manners. For example, as described above, manual activation buttons or foot pedals can be used to move the valve of a pressurized container and deliver chemical into the conduit 49 and into the spray nozzle 80. Alternatively, a manual trigger type sprayer, such as that shown in U.S. Pat. No. 4,618,077 can be used to introduce chemical from a container into the conduit 49 and into the spray nozzle 80.
An electric motor driven sprayer such as that shown in U.S. Patent Application Publication No. 2005/0133540 can also be used to introduce chemical from a container into the conduit 49 and into the spray nozzle 80. In this type of electric motor driven sprayer, batteries power a motor for a piston pump. A flexible pick-up tube extends from the container with the chemical. An air vent is provided from the sprayer back down to the container to vent the container as liquid is pulled out. The motor in the spray head housing drives a circular member with a radial projection. The projection rides in a slot of a cam follower up and down to drive a piston head forward and back in a piston cylinder adjacent the outlet nozzle. Suitable check valves permit flow from the container to the outlet in response to piston movement, yet prevent return flow from the piston chamber. The nozzle of such an electric motor driven sprayer could be connected to the conduit 49.
Automatic delivery of the chemical from the container to the conduit and into the spray nozzle can be achieved in many different ways. When using a pressurized container with a tilt valve, chemical can be released from the container into the conduit and into the spray nozzle using a control circuit and a solenoid. In particular, the control circuit can energize the solenoid and when energized, the core of the solenoid moves against (depresses) the tilt valve of the container to release the chemical from the pressurized container and into the conduit. Other means for releasing the chemical from the pressurized container and into the conduit are also suitable. The control circuit can energize a motor that meshes with gears with a lever, and the lever moves against the tilt valve of the container to release the chemical from the pressurized container and into the conduit. The control circuit can also energize a motor that meshes with gears that move against the tilt valve of the container to release the chemical from the pressurized container and into the conduit. The control circuit can also energize a motor that meshes with gears with a cam, and the cam moves against the tilt valve of the container to release the chemical from the pressurized container and into the conduit as shown in
The control circuit may include a battery and a programmable time-of-day timer such that the solenoid is energized and chemical is released from the container into the conduit according to an adjustable time pattern. For instance, chemical may be released from the container into the conduit at eight hour intervals. Of course, such programmable time-of-day timers allow for any number of time periods between release of chemical into the conduit and spray nozzle. Thus, a control circuit with a programmable time-of-day timer provides for a continuous action toilet bowl cleaning system.
Other control circuits are also suitable. For example, the control circuit may include a processor in electrical communication with a proximity sensor that detects the presence of a person near the toilet. The processor includes a timing circuit such that the solenoid is energized and chemical is released from the container into the conduit at a time period after a person is no longer sensed near the toilet. For instance, the proximity sensor sends a signal to the processor that a person is near the toilet. When the person leaves, the proximity sensor sends another signal to the processor indicating that no person is now near the toilet. A countdown timer in the processor then delays release of chemical from the container into the conduit. The processor then allows for additional time periods between release of chemical into the conduit and spray nozzle. In one example, after the proximity sensor indicates to the processor that a person has left the area of the toilet, delivery of the chemical begins 30 minutes later and continues at periodic intervals. Alternatively, delivery of the chemical may begin immediately after the user presses an activation button and then continues at eight hour (or any other time period) intervals. Thus, these control circuits provide for a continuous action toilet bowl cleaning system that reduces time and effort in cleaning the toilet bowl. Any time period may be chosen for the periodic interval of chemical delivery. Suitable intervals may be at least 30 minutes, at least 2 hours, at least 6 hours, etc.; approximately 8 hours is preferred.
Automatic delivery of chemical from the container to the conduit can also be achieved using an electrically driven pump and a control circuit. For instance, the electrically driven pump sprayer of U.S. Patent Application Publication No. 2005/0133540 described above could include a control circuit with programmable time-of-day timer such that the pump operates according to an adjustable time pattern thereby delivering chemical from the container to the conduit and into the spray nozzle. Such control circuits can be quite advantageous in that automatic and/or manual override of the programmed time periods can be implemented to stop initiation of a spray cycle of the chemical. For example, a user may turn off the device, or a proximity sensor in electrical communication with the control circuit can stop initiation of a spray cycle if a person or household animal is near the toilet bowl. Another example of control circuit can include a toilet water proximity sensor where the level drop of the top of the toilet water during a flush is sensed by the toilet water proximity sensor and a timer circuit automatically initiates a spray cycle at a set time period after the flush.
Turning now to
The hook 116 for supporting the base 118 and attaching the clip 110 to the toilet bowl 112 has three main segments. A bowl segment 128, a top rim segment 131, and an inner rim segment 132. All three segments 128, 131, 132 are preferably integrally molded from plastic (e.g., polyethylene or polypropylene) and form a flexible hook 116. The bowl segment 128 has a substantially rectangular cross-section and secures the clip 110 to the toilet bowl 112. The bowl segment 128 extends substantially vertically upward and transitions into the top rim segment 131 at a flexible elbow 135 that allows the hook 116 to flex to secure the clip 110 to toilet bowls of various shapes and sizes. The top rim segment 131 has a substantially rectangular cross-section and extends horizontal across the rim 114 of the toilet bowl 112 where it transitions into the inner rim segment 132 at another flexible elbow 136, also allowing the hook 116 to flex. The inner rim segment 132 extends vertically downward from the elbow 136 and is configured to engage and support the base 118.
The inner rim segment 132 of the hook 116 has a front face 137 and a rear face 144 joined by two short side faces 143. The short side faces 143 have ratchet teeth 146 used in conjunction with the base 118 to restrain vertical movement of the base 118 along a vertical axis 148. Other restraints may be used, such as a friction fit between the hook 116 and base 118, or the like.
The bowl segment 128 and the top rim segment 131 include a C-shaped channel 149 that restrain the conduit 124 as it is routed around the perimeter of the hook 116 on its way to the nozzle 120 in the base 118. The base 118 has a back face 152, a pair of spaced apart side faces 154 extending forward of the back face 152, a top face 156 and a front face 158 extending between the side faces 154, and a curved face 168 extending between the side faces 154, top face 156, and front face 158. The faces 152, 154, 156, 158, 168 define a partial cavity 161 housing a portion of the nozzle 120. The base 118 has a tab 153 that extends rearward from the back face 152 of the base 118. The tab 153 and a tab 151 help orientate the base 118 with respect to the rim 114 when the clip 110 is mounted to the toilet bowl 112 The tab 153 may be one continuous member as shown in the example embodiment, or alternatively, the tab 153 may include a plurality of members extending from the base 118. The base 118 is preferably molded from plastic (e.g., polyethylene or polypropylene).
The base 118 further includes a means to attach a fluid delivery device (e.g., a nozzle 120). In the example embodiment, the nozzle 120 is restrained laterally between a fluid inlet 180 and a barrel 178. The base 118 includes an arm 176 extending downward from the base 118. The arm 176 has a flat bar support segment 177 with a J-shaped bend extending forward with the barrel 178 located at the distal end of the support segment 177. The barrel 178 includes a tubular recess for receiving the bottom of the nozzle 120. The fluid inlet 180 and the barrel 178 are used in conjunction to restrain lateral movement of the nozzle 120, but allow the nozzle 120 to rotate about the nozzle axis 182. The nozzle 120 is restrained laterally in the base 118 by inserting a spindle 192 extending from the underside of a fluid deflection plate 184 into the recess in the barrel 178 of the arm 176 and by inserting the tapered end of the fluid inlet 80 into a passageway 186.
A sensor 198 for sensing the environment surrounding the clip 110 is mounted to the base 118 or hook 116. Preferably, the sensor 198 is mounted substantially to the front face 158, but may be mounted on the angled face 168 or any other suitable location providing a view, for example, of the user to accurately determine the presence or absence thereof. The sensor 198 may be a proximity sensor, a light sensor, a sound sensor, a vibration sensor, a motion sensor, a tilt sensor, a flush sensor, or any combination of two or more of these sensors. The sensor 198 is electrically connected to the controller to influence when the fluid is dispensed to the toilet bowl 112 based upon predetermined logic.
In operation, fluid is moved from the containers 121, 122 through the conduit 124 which is routed through the channel 149 along the hook 116, and into the fluid inlet 180 on the base 118. Fluid flows into the top of the nozzle 120, down the passageway 186 in the nozzle where it is directed radially outward. As the fluid exits, its path is altered by angled fins flanking the passageway 186. The reaction causes the nozzle 120 to rotate counterclockwise. As a result, the fluid is expelled radially outward from the plate 184 of the nozzle 120 onto the inside surface 126 of the toilet bowl 112.
Turning now to
Still looking at
The first interface of the container holder 123 is in fluid communication with a first conduit 209, which is in fluid communication with a first one way check valve 211 (such as a ball valve) that allows fluid flow away from the first container 121 but does not allow for fluid flow back toward the first container 121. A conduit 213 provides a fluid path from the first check valve 211 to the pump 204. The second interface of the container holder 123 is in fluid communication with a second conduit 218, which is in fluid communication with a second one way check valve 222 (such as a ball valve) that allows fluid flow away from the second container 122 but does not allow for fluid flow back toward the second container 122. A conduit 224 provides a fluid path from the second check valve 222 to the pump 204. On a suction stroke of the pump 204, fluid from the first container 121 and fluid from the second container 122 are drawn into a chamber of the pump. On an ejection stroke of the pump 204, the mixed fluids that are in the pump chamber are delivered from the pump chamber out of a pump outlet 226 and into the conduit 124 in the toilet bowl cleaning device 108. The fluids continue to the nozzle 120 to rotate the nozzle 120 counterclockwise. As a result, the fluid is expelled radially outward from the plate 184 of the nozzle 120 onto the inside surface 126 of the toilet bowl 112.
The pump 204 can be automatically activated during a spray cycle in that the controller 206 includes a timing circuit for automatically initiating and terminating the spray cycle. The timing circuit provides a method of automatically spraying the chemical. The timing circuit initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
In general, the sensor is a device that measures a physical quantity and converts it into a signal which can be processed by the controller 206. For example, a passive infrared sensor (PIR sensor) is an electronic device that measures infrared light (i.e., the physical quantity) radiating from objects in its field of view and converts it into an electrical signal. Motion is detected when an infrared source with one temperature, such as a human or household pet, passes in front of an infrared source with another temperature, such as a wall.
In one example version of the invention, the sensor 198 is a proximity sensor that detects the presence of a person or household pet near the toilet bowl. The sensor 198 is in electrical communication with the timing circuit of the controller 206 for preventing automatic initiation of the spray cycle when a person or household pet is near the toilet bowl 112.
In another example version of the invention, the sensor 198 is a light sensor that detects a change in light intensity, such as when a light is turned on and then off in a bathroom. After the turning off of a light is detected by the light sensor, the timing circuit of the controller 206 initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
In another example version of the invention, the sensor 198 is a sound sensor that detects the sound from a toilet flush. After the flush sound is detected by the sound sensor, the timing circuit of the controller 206 initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
In another example version of the invention, the sensor 198 is a vibration sensor that detects movement around the toilet bowl. After the vibration is detected by the vibration sensor, the timing circuit of the controller 206 initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit also automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
In another example version of the invention, the sensor 198 is a flush sensor that detects a flush either by contact with the flush water or sensing a change in the water level, such as by a proximity sensor. After the flush is detected by the flush sensor, the timing circuit of the controller 206 initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
In another example version of the invention, the sensor is a pressure sensor that senses when the toilet lid 20 is down. After the “lid down” position is detected by the pressure sensor, the timing circuit of the controller 206 initiates a first countdown. At the expiration of the first countdown, the pump 204 is activated automatically to deliver chemical from the first container 121 and second container 122 through the conduit 124 and to the spray nozzle 120. The timing circuit automatically initiates a second countdown at the end of which the spray cycle is automatically terminated by deactivating the pump 204.
Turning now to
The housing 250 includes a top part 251 that mates with a bottom part 252. The top part 251 and the bottom part 252 can be fastened together with screws or other another suitable fastening method. The bottom part 252 has a bottom wall 253 with downward bulges 254 that provide floor supports for the housing 250. The top part 251 and the bottom part 252 can be constructed from a suitable polymeric material such as a polyolefin. The bottom part 252 includes a hollow battery chamber 255 that extends upward from the bottom wall 253 of the bottom part 252. The battery chamber 255 has hollow cylindrical regions 256 that accept batteries that serve as the source of electricity 208. The battery chamber 255 has a lower open end 261. In the example embodiment shown, the battery chamber 255 houses four AA batteries. The battery chamber 255 can be configured to receive other numbers and sizes of batteries. The bottom wall 253 of the bottom part 252 has generally rectangular openings 258, 259, 260 that form part of a hinge assembly as explained below.
Looking at
The battery cover 262 includes at its forward end an outwardly directed first tab 270 with an upwardly directed projection 271 and an outwardly directed pin 272. The battery cover 262 also includes an outwardly directed second tab 274 with an upwardly directed projection 275 and a downwardly directed rib 276 on an opposite side of the second tab 274. The battery cover 262 also includes an outwardly directed third tab 278 with an upwardly directed projection 279 and an outwardly directed pin 280.
Looking at
Having described the components of the housing 250 of
The battery cover 262 is moved first from an open position of
Various cleaning and/or deodorizing chemicals are suitable for use with a toilet bowl cleaning device according to the invention. For example, mildly acidic and near neutral pH antimicrobial compositions such as those described in U.S. Pat. Nos. 6,471,974 and 6,162,371 can be advantageous when used with a toilet bowl cleaning device according to the invention. Alkaline antimicrobial toilet bowl cleaning formulations such as those described in U.S. Pat. No. 6,425,406 can also be advantageous. Acidic compositions such as those described in U.S. Pat. No. 6,812,196 may also be suitable. When using acidic compositions, a steel container with a plastic liner or a bladder with a surrounding propellant may be desirable to minimize acidic corrosion of the steel container. Aluminum containers may also be an option for acidic compositions. The amount of chemical applied to the toilet bowl and/or toilet water depends on the composition chosen. For example, in an acidic composition including lactic acid, surfactant, and solvent, a 2-10 milliliter dose of chemical may be appropriate. The above chemicals are non-limiting illustrative examples of cleaning and/or deodorizing chemicals suitable for use with a toilet bowl cleaning device according to the invention. Other example suitable chemicals include, for example, enzymes, chelating agents, corrosives and amino acids.
Thus, the present invention provides a toilet bowl cleaning device that manually or automatically sprays a chemical laterally around a perimeter of a nozzle of the device. As a result, full coverage of the chemical around the inner surface of the toilet bowl is possible.
Although the present invention has been described in detail with reference to certain embodiments, one skilled in the art will appreciate that the present invention can be practiced by other than the described embodiments, which have been presented for purposes of illustration and not of limitation. Therefore, the scope of the invention should not be limited to the description of the embodiments contained herein.
INDUSTRIAL APPLICABILITYThe present invention provides a toilet bowl cleaning device for spraying an inner surface of the toilet bowl, and/or the toilet water, and/or under the toilet rim with a chemical.
Claims
1. A device for spraying an inner surface of an enclosure with a fluid, the device comprising:
- a container for the fluid;
- a fluid delivery device through which the fluid can be applied to the inner surface of the enclosure;
- a fluid conduit in fluid communication with the container and the fluid delivery device;
- means for delivering fluid from the container through the fluid conduit and to the fluid delivery device; and
- a clip for mounting the fluid delivery device adjacent the inner surface of the enclosure, the clip including a sensor.
2. The device of claim 1 wherein:
- the sensor is selected from proximity sensors, light sensors, sound sensors, pressure sensors, vibration sensors, motion sensors, tilt sensors, flush sensors, and combinations thereof.
3. The device of claim 1 wherein:
- the means for delivering fluid from the container is a pump; and
- the device further includes a control circuit in electrical communication with the pump and the sensor and a source of electricity, wherein the control circuit executes a stored program to initiate a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device.
4. The device of claim 3 wherein:
- the enclosure is a toilet bowl,
- the sensor is a flush sensor, and
- the control circuit executes the stored program to initiate the cycle after the flush sensor senses a flush.
5. The device of claim 4 wherein:
- the control circuit includes a timer circuit which automatically initiates the cycle at a set time period after the flush.
6. A device for spraying an inner surface of a toilet bowl of a toilet with a fluid, the device comprising:
- a container for the fluid;
- a hanger suitable for suspending the container from the toilet;
- a fluid delivery device through which the fluid can be applied to the inner surface of the toilet bowl;
- a fluid conduit in fluid communication with the container and the fluid delivery device; and
- a pump for delivering fluid from the container through the fluid conduit and to the fluid delivery device;
- a control circuit in electrical communication with the pump, the control circuit initiating a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device.
7. The device of claim 6 wherein:
- the hanger is suitable for suspending the container from a rim of the toilet bowl.
8. The device of claim 7 wherein:
- the container is dimensioned such that the container contacts a floor on which the toilet is mounted when the container is suspended from the rim of the toilet bowl.
9. The device of claim 6 wherein:
- the device further includes a sensor in electrical communication with the control circuit, and
- the control circuit executes initiates the cycle in response to an electrical signal from the sensor.
10. The device of claim 6 wherein:
- the sensor is a flush sensor, and
- the control circuit initiates the cycle after the flush sensor senses a flush.
11. A device for spraying an inner surface of an enclosure with a fluid, the device comprising:
- a first container for a first fluid chemical system;
- a second container for a second fluid chemical system;
- a fluid delivery device through which fluid can be applied to the inner surface of the enclosure;
- means for delivering fluid from the first container and the second container to the fluid delivery device; and
- a clip for mounting the fluid delivery device adjacent the inner surface of the enclosure.
12. The device of claim 11 further comprising:
- a holder attached to the clip, the first container and the second container being removably attached to the holder.
13. The device of claim 12 wherein:
- the first container and the second container are attached below the holder.
14. The device of claim 11 wherein:
- the means for delivering fluid from the container is a pump; and
- the device further includes a control circuit in electrical communication with the pump and a source of electricity, wherein the control circuit executes a stored program to initiate a cycle in which the pump delivers fluid from the container through the fluid conduit and to the fluid delivery device.
15. The device of claim 14 wherein:
- the device further includes a sensor in electrical communication with the control circuit, and
- the control circuit executes initiates the cycle in response to an electrical signal from the sensor.
16. An electrical device comprising:
- a housing having a battery chamber;
- a battery cover; and
- a hinge for connecting the battery cover and the housing, the hinge comprising an opening in a wall of the housing and a tab connected to the battery cover, the opening and the tab being dimensioned such that the tab can be inserted into the opening when the battery cover is connected to the housing, and the opening and the tab being dimensioned such that the tab can move in the opening so that the battery cover can pivot with respect to the wall of the housing,
- wherein the device includes a latch comprising a section of the wall of the housing and a portion of the tab, the latch releasably securing the battery cover to the housing in a closed position for covering an open end of the battery chamber.
17. The device of claim 16 wherein:
- the section of the wall comprises a resilient finger, and the portion of the tab comprises a rib, the finger engaging the rib in releasably locking relationship when the cover is moved into the closed position.
18. The device of claim 16 wherein:
- the hinge further comprises at least one additional opening in the wall of the housing and at least one additional tab connected to the battery cover, each additional opening being dimensioned such that an associated additional tab can be inserted into the additional opening when the battery cover is connected to the housing, and each additional opening and associated additional tab being dimensioned such that the associated additional tab can move in the additional opening so that the battery cover can pivot with respect to the wall of the housing.
19. The device of claim 16 wherein:
- the hinge further comprises a projection at an end of the tab, the projection preventing the tab from falling out of the opening after the battery cover is connected to the housing.
20. The device of claim 16 further comprising:
- means for delivering fluid from a container through a fluid conduit and to a fluid delivery device.
Type: Application
Filed: Jun 5, 2009
Publication Date: Oct 8, 2009
Inventors: Michael M. Sawalski (Racine, WI), Joel E. Adair (Racine, WI), Ronald J. Schmidt (Grayslake, IL), William R. Kissner (Muskego, WI), Jeffrey L. Harwig (Franklin, WI)
Application Number: 12/479,149