The present general inventive concept relates to the field of ventilation for toilets and other waste or storage containers, including, but not limited to, trash receptacles, storage containers, diaper hampers, and vessels for animal waste, such as litter boxes. More specifically, the present general inventive concept relates to a filtration system for removing odors, bacteria, and/or particulate matter from air drawn from a toilet bowl.
The benefit of ventilating air from various areas and devices has long been recognized. Accordingly, many devices have been developed to provide such a function.
Example embodiments of the present general inventive concept provide filtration systems to filter odor, bacteria, and/or particulate matter emanating from toilets or other types of waste containers.
Example embodiments of the present general inventive concept may be achieved by providing a filtration system to filter air from a toilet bowl including an air flow channel and fan assembly in fluid communication with a toilet bowl, a housing interposing the toilet bowl and the fan assembly, the housing having a filter receptacle to receive a filter unit therein, the filter unit being in fluid communication with the air flow channel, and a controller to selectively activate the fan assembly such that, when activated, the fan assembly draws air from the toilet bowl and through the filter unit to exhaust the air out of the air flow channel.
Example embodiments of the present general inventive concept may be also be achieved by providing a filtration system to filter air from a toilet bowl including a housing having an inlet port and an exhaust port and a filter receptacle interposing the inlet port and the exhaust port to receive a filter unit therein, a conduit having a first end and a second end, the first end securable adjacent to a toilet bowl, the second end connected to the inlet port, a fan assembly in fluid communication with the toilet bowl such that the filtration system defines an air flow channel to draw air from the toilet bowl through the conduit into the inlet port, through the filter unit, and through the exhaust port, and a controller to selectively activate the fan assembly.
Example embodiments of the present general inventive concept may further include a ventilated toilet seat pivotally coupled to the toilet bowl by a toilet seat hinge, the toilet seat hinge including an inlet portion to engage with the toilet seat and an exhaust portion in fluid communication with the air flow channel to deliver air from an underside of the ventilated toilet seat to the air flow channel.
A filtration system may also include a ventilated toilet seat coupled to the toilet bowl using an elliptical member to resistively inhibit the toilet seat from pivoting when the toilet seat is substantially raised relative to the toilet bowl, and to freely allow the toilet seat to pivot when the toilet seat is substantially lowered relative to the toilet bowl.
A filtration system may also include a toilet seat that includes an intake to receive the toilet seat hinge, the intake in fluid communication with the toilet bowl, the hinge including an exhaust portion coupled to the conduit, whereby the fan assembly, when activated, draws air from the toilet bowl through the toilet seat hinge and into the air flow channel. In some embodiments, the inlet portion is a noncircular member to resistively hold the ventilated toilet seat in an elevated position with respect to the toilet. In some embodiments, the intake is a noncircular member to resistively hold the ventilated toilet seat in an elevated position with respect to the toilet.
A filtration system may also include a received filter unit that is removably secured within the filter receptacle, and a filtration media contained within an interior volume of the filter unit, the filtration media to collect odors, bacteria and/or particulate matter when air passes through the filtration media. In some embodiments, the filtration media traps and kills bacteria that enter the filter unit.
In various example embodiments of the preset general inventive concept, the fan assembly is interposed between the inlet port and the exhaust port of the housing.
Example embodiments of the present general inventive concept may also be achieved by providing a fitting to the conduit and the housing.
In some embodiments, a fitting is provided having a first part coupled to the conduit and a second part coupled to the housing, the first part and second part cooperatively mating to secure the conduit to the housing in a substantially air tight engagement. In some embodiments, the fitting is a connector that is selectively coupled to the conduit, to the housing, or both.
Example embodiments of the present general inventive concept may be achieved by providing a filtration system including a filter unit having an inlet and an outlet such that air is drawn from the toilet bowl through the conduit, through the inlet port of the housing, into the filter unit inlet, through the filter unit outlet, and through the exhaust of the housing. In some embodiments, the filter unit inlet and outlet define a plurality of openings sized to permit air containing odors, bacteria, and/or particulate matter to enter and exit the filter unit's interior while substantially preventing the filtration media from exiting the filter unit's interior. In some embodiments, the filter unit includes a sealing material on an exterior surface thereof, and the housing includes a sealing material on an interior surface thereof to receive the filter unit in a manner such that substantially all moving air travels through the filter unit.
Example embodiments of the present general inventive concept may include a fan assembly located outside the housing. In some embodiments, the air flow channel is further defined by a fan receptacle, the fan receptacle being selectively connectable to the housing and to the fan assembly. The fan assembly may be a preexisting fan assembly, such as a ceiling fan or exhaust system.
Example embodiments of the present general inventive concept may further include an activation switch communicating with the controller to selectively activate or deactivate the fan assembly. In some embodiments, the activation switch is located on or in the housing. The activation switch may be located on a remote control. The activation switch may be influenced by a light sensor, a motion sensor, and/or a pressure sensor.
Example embodiments of the present general inventive concept include a filtration system to filter air from a waste vessel including a fan assembly having a fan and/or an air flow channel in fluid communication with the waste vessel to draw air from the waste vessel, a housing interposing the waste vessel and the fan assembly, the housing having a filter receptacle to receive a filter unit therein, the received filter unit being in fluid communication with the air flow channel wherein the fan assembly draws air through the filter unit to exhaust the air out of the air flow channel, an activator to activate the fan assembly, and a decimator for killing or eliminating particulate matter in the air flow.
The filtration system can include a conduit including a first end and a second end, the first end securable adjacent to the waste vessel, the second end connected to said housing, such that the fan assembly draws air through said conduit to said filter unit.
In some embodiments, the waste vessel is a litter box.
In some embodiments, the waste vessel is a trash container or trash receptacle (hereinafter “trash receptacle”).
In some embodiments, the decimator utilizes at least one of the following: UV light; RF energy; ionizing radiation; chemical emissions; high voltage energy and germicide.
In some embodiments, the housing includes a bottom surface, and means are positioned on the bottom surface of the housing to elevate the housing above a surface when said housing is positioned on a surface.
In some embodiments, the housing includes a bottom surface, and a number of feet are positioned on the bottom surface of the housing to elevate the housing above a surface when said housing is positioned on a surface.
In some embodiments, the feet are sized to allow air flow from out of the air flow channel and to muffle sounds generated by air flow from out of the air flow channel.
Example embodiments of the present general inventive concept can also be achieved by providing a filtration system to filter air from a waste vessel encompassing a housing having an inlet port and an exhaust port, the housing including a filter receptacle interposing the inlet port and the exhaust port to receive a filter unit therein, a conduit comprising a first end and a second end, the first end securable adjacent to the toilet bowl, the second end connected to the inlet port, and a fan assembly comprising a fan in fluid communication with the waste vessel such that the filtration system defines an air flow channel to draw air from the waste vessel through the conduit into the inlet port, through the filter unit, and through the exhaust port when the fan is activated.
In some embodiments, the housing includes a mounting surface and a means for separating the mounting surface from a supporting surface when the housing is mounted to or resting on the supporting surface.
In some embodiments, the housing includes a mounting surface to support the housing on a supporting surface, and the exhaust port is disposed on a side surface of the housing different than the mounting surface.
Some embodiments further encompass a decimator for killing or eliminating particulate matter in the air flow.
In some embodiments, the decimator includes an applicator for applying ultraviolet radiation to the air flow.
In some embodiments, the decimator utilizes at least one of the following: UV light; RF energy; ionizing radiation; charcoal media; chemical emissions; high voltage energy and germicide.
In some embodiments, the housing includes means for elevating the exhaust port.
In some embodiments, the means for elevating the exhaust port include bumpers or feet.
In some embodiments, the housing includes a number of feet to elevate the exhaust port.
Some embodiments further include a filter unit that is removably secured within the filter receptacle and a filtration media contained within an interior volume of the filter unit, the filtration media to collect odors, bacteria, particulate matter, or any combination thereof when air passes through the filtration media.
In some embodiments, the filtration media traps and kills bacteria that enter the filter unit.
Example embodiments of the present general inventive concept can also be achieved by providing a filtration system to filter air from a toilet bowl including a housing having an inlet port and an exhaust port, the housing including a filter receptacle interposing the inlet port and the exhaust port to receive a filter unit therein, a conduit comprising a first end and a second end, the first end connected to the toilet bowl, the second end connected to the inlet port, a fan assembly in fluid communication with the toilet bowl such that the filtration system defines an air flow channel to draw air from the toilet bowl through the conduit into the inlet port, through the filter unit, and through the exhaust port, a controller to activate the fan assembly, and a ventilated toilet seat pivotally coupled to the toilet bowl by a toilet seat hinge, the toilet seat hinge including an inlet portion to engage with the toilet seat and an exhaust portion in fluid communication with the air flow channel to deliver air from an underside of the ventilated toilet seat to the air flow channel, wherein the toilet seat hinge coupling the ventilated toilet seat to the toilet bowl includes an elliptical member that cooperates with a resistance member to control pivoting motion by the toilet seat relative to the toilet bowl, such that when the toilet seat is substantially raised relative to the toilet bowl the elliptical member engages with the resistance member to resistively inhibit the toilet seat from pivoting, and such that when the toilet seat is substantially lowered relative to the toilet bowl the elliptical member disengages with the resistance member, freely allowing the toilet seat to pivot, whereby the fan assembly, when activated, draws air from the toilet bowl through the toilet seat hinge and into the air flow channel, wherein the toilet seat hinge inlet portion is a noncircular and/or substantially noncircular member to resistively hold the ventilated toilet seat in an elevated position with respect to the toilet when the ventilated toilet seat is rotatably elevated.
In some embodiments, the sleeve could be round.
In some embodiments, the resistance member includes a ball bearing, a nylon ball, or other bearing member.
In some embodiments, the resistance member includes a set screw or a bolt.
In some embodiments, the resistance member includes a nylon ball and a set screw.
In some embodiments, the elliptical member encompasses the inlet portion of the toilet seat hinge, said elliptical member including a hollowness permitting through air flow. In some embodiments, the elliptical member could be round.
Example embodiments of the present general inventive concept can also be achieved by providing a toilet seat hinge assembly for use with a filtration system to draw and filter air from a toilet bowl including a ventilated toilet seat pivotally coupled to the toilet bowl by a toilet seat hinge, the toilet seat hinge including an inlet portion to engage with the toilet seat and an exhaust portion in fluid communication with the air flow channel to deliver air from an underside of the ventilated toilet seat to the air flow channel, the toilet seat hinge coupling the ventilated toilet seat to the toilet bowl including an rotating member that cooperates with a resistance member to control pivoting motion by the toilet seat relative to the toilet bowl, such that when the toilet seat is substantially raised relative to the toilet bowl the rotating member engages with the resistance member to resistively inhibit the toilet seat from pivoting, and such that when the toilet seat is substantially lowered relative to the toilet bowl the rotating member disengages with the resistance member, freely allowing the toilet seat to pivot, said rotating member including a hollowness permitting vacuum draw and through air flow, whereby the filtration system, when activated, draws air from the toilet bowl through the toilet seat hinge.
In some embodiments, the resistance member includes a nylon ball, a ball bearing, or other bearing member.
In some embodiments, the resistance member includes a set screw or a bolt.
In some embodiments, the resistance member includes a nylon ball and a set screw. In some embodiments, the rotating member is substantially elliptical in shape. In some embodiments, the rotating member is round.
In some embodiments, said rotating member is configured to cooperate with said resistance member such that when the toilet seat is substantially raised relative to the toilet bowl the rotating member engages with the resistance member such that the rotating member presses against the resistance member with a first pressure, and when the toilet seat is substantially lowered relative to the toilet bowl the rotating member the rotating member engages with the resistance member such that the rotating member presses against the resistance member with a second pressure, the second pressure being less than the first pressure.
In some embodiments, the rotating member is a substantially noncircular member configured to resistively hold the toilet seat in an elevated position with respect to the toilet when the toilet seat is rotatably elevated.
In some embodiments, the rotating member is a round member that provides constant resistance.
In some embodiments, the rotating member is a substantially noncircular member to resistively hold the toilet seat in an elevated position with respect to the toilet when the toilet seat is rotatably elevated.
In some embodiments, the rotating member is a noncircular and/or substantially noncircular member to resistively hold the toilet seat in an elevated position with respect to the toilet when the toilet seat is rotatably elevated.
In some embodiments, the housing includes a mounting surface and a means for separating the mounting surface from a supporting surface when the housing is mounted to or resting on the supporting surface.
In some embodiments, the mounting surface is a bottom surface and the means for separating the mounting surface from the supporting surface is a means for elevating the bottom surface relative to the supporting surface.
In some embodiments, the means for separating the mounting surface from the supporting surface include a plurality of feet positioned on the mounting surface configured to facilitate air flow from out of the air flow channel between the mounting surface and the supporting surface, and to muffle sounds generated by air flow from out of the air flow channel.
In some embodiments, the means for separating the mounting surface from the supporting surface comprise one or more of adhesive members, removable adhesives, and suction cups.
Additional features of the present general inventive concept will be set forth in part in the description which follows, and, in part, will be obvious from the description, or may be learned by practice of the present general inventive concept.
The following example embodiments are representative of example techniques and structures designed to carry out the objects of the present general inventive concept, but the present general inventive concept is not limited to these example embodiments. In the accompanying drawings and illustrations, the sizes and relative sizes, shapes, and qualities of lines, entities, and regions may be exaggerated for clarity. A wide variety of additional embodiments will be more readily understood and appreciated through the following detailed description of the example embodiments, with reference to the accompanying drawings in which:
A filtration system for use with a ventilated toilet seat incorporating various features of the present general inventive concept is illustrated generally at 1 in
As illustrated in
A front view of an example embodiment housing 10 is illustrated at
In the illustrated embodiment, one conduit receptacle, or inlet port 34 is defined near the top of the first depth segment of the housing's front panel for receiving the proximal end 22 of the conduit 20. It will be understood that the inlet port may include two conduit receptacles 34 in situations wherein two conduits 20 are used.
The housing 10 defines an air flow channel comprising a first end 36 and a second end 38 separated by a filter receptacle 50. The first end 36 may have a first depth dimensioned to be received behind a conventional toilet 72. In some embodiments, the first end 36 of the housing 10 defines a depth of approximately three inches (3″). As illustrated and as described above, the conduit receptacle 34 is disposed near the top of the front panel proximate the first end 36. By disposing the first end 36 of the housing 10 behind the toilet 72, with the conduit receptacle 34 defined therein, the conduit 20 is directly routed from underneath the toilet seat 76 to a point behind the toilet 72, under the tank 74, and above the housing 10, thereby concealing a substantial portion of the conduit 20. The second end 38 of the housing 10, in the illustrated embodiment, defines a larger depth in order to better facilitate maintenance of the interior components of the housing 10, as further described below. In the example embodiment, the depth of the second end 38 of the housing 10 is approximately six and one-half inches (6½″), although the present general inventive concept is not limited to any particular dimension. It is possible that the depth of the second end 38 of the housing 10 be less than the dimension from the front of the tank 74 to the wall such that the housing 10 may remain substantially concealed behind the toilet. Further, the length of the housing 10 may be dimensioned to be substantially received under the tank 74. Because these dimensions may be varied in accordance with sound engineering judgment, it will be understood that the present general inventive concept is not limited to these dimensions.
As illustrated, the front panel 12 may include extension members 19A, 19B on either side to accommodate installing the housing against a wall. In this embodiment, the housing 10 is mounted to a wall in a conventional fashion, such as with wall anchors. The selected mounting device will depend upon the application, for example, taking into consideration the need for security from theft or vandalism. However, it will be understood that the present general inventive concept is not intended to be limited by the specific type of conventional fastener chosen to mount the housing 10.
In some embodiments, a fitting or connector is provided to couple the proximal end of the conduit 20 to the housing 10. The fitting may be fabricated from a rigid material such as metal, stainless steel, and/or plastic and includes a means for coupling the conduit 20 to the housing 10. The housing 10 may contain a conduit receptacle 34 that includes a corresponding means for receiving the fitting such that the fitting is mechanically mated with the conduit receptacle 34 to create a substantially air tight engagement and ease of hose change or replacement. In some embodiments, a connector is provided that is selectively attachable to the housing 10, to the conduit 20, or both, thereby facilitating a substantially air tight engagement. In other embodiments, the connector may be integrally formed with the conduit 20, and may be selectively attachable to the housing's conduit receptacle 34, or vice versa, to facilitate a substantially air tight engagement. The receptacle may be an adapter 23 (which may be made from a rigid material (such as metal, stainless steel, plastic, etc.) for connecting with the conduit and extending into the housing. The adapter may be a threaded device for securing and/or sealing the conduit to the housing. It may be made of a rigid material such as steel or stainless steel and molded into the housing.
Referring to
In the exemplary embodiment, the toilet seat hinge 124 and hinge receptor 112 interact to resistively hold the ventilated toilet seat 76 in an elevated position. As used herein, resistively hold refers to a still position achieved by a toilet seat after having been rotatably elevated with respect to a toilet bowl in such a manner as to substantially prevent the toilet seat 76 from rotating back down without an external force being applied. Importantly however, the resistance diminishes when the toilet seat is lowered to the down position. To that extent, in one example embodiment, the hinge receptor's through opening 114 is egg-shaped. Stated differently, the through opening 114 designed for receiving the inlet portion 126 of the toilet seat hinge 124 may be shaped like an ellipsis such that it is not a perfect circle. Likewise, in one example embodiment, the inlet portion 126 of the toilet seat hinge is shaped as an elliptic cylinder. Stated differently, the inlet portion 126 of the toilet seat hinge 124 may be a generally cylindrical member with an elliptical cross section. Thus, when a user wishes to rotate the ventilated toilet seat 76 about the toilet seat hinge 124, the inlet portion 126 of the toilet seat hinge 124 compresses against the internal wall of the hinge receptor's through opening 114, thereby resistively holding the raised ventilated toilet seat 76 with respect to the toilet 72, yet also freely releasing the toilet seat 76 when external force is applied to lower the toilet seat 76 to the down position. It will be understood that either or both the through opening 114 and the inlet portion 126 may be shaped to compress against the other during rotation of the toilet seat to facilitate the resistive holding of the toilet seat 76. One of skill in the art will recognize that the present general inventive concept is not limited to the particular cross sectional shape discussed herein, as other, noncircular shapes may be used to resistively inhibit the toilet seat from pivoting when the toilet seat is substantially raised relative the toilet bowl without departing from the scope or spirit of the present general inventive concept.
In the exemplary embodiment, the inlet portion 126 compresses against the internal wall of the through opening 114 during rotation to an extent that the ventilated toilet seat 76 is resistively held starting at an angle of elevation substantially equal to about sixty (60) degrees with respect to the toilet bowl. Stated differently, when the toilet seat 76 is at an angle of elevation less than about sixty (60) degrees, the elliptical member 126 permits the toilet seat 76 to freely rotate, however when the toilet seat 76 is elevated past sixty (60) degrees, it becomes resistively held in the elevated position by the elliptical member 126. In other embodiments, resistive holding begins at about a seventy-five (75) degree angle. It will be understood that the specific angles where the toilet seat 76 is resistively held are not limited to those which are disclosed herein, and other angles may be chosen with sound engineering judgment to achieve similar results.
Referring to
In some embodiments, a portion of the filter unit 48 is selectively removable to provide access to the inner volume of the filter unit 48 such that the filtration media may be added or removed and replaced. The filtration unit 48 contains an inlet 49A and an outlet 49B. The inlet 49A and outlet 49B each contain a plurality of openings sized to allow air to freely pass while substantially containing the filtration media within the filter unit 48. The filter unit 48 is mechanically disposed within the filter receptacle and may be selectively removed from the filter receptacle.
Referring now to
Referring again to
In the illustrated embodiments, the filter cartridge 48 (with or without grooves) is provided independent of the housing 10. Stated differently, the filter cartridge 48 may be selectively removable from the filter receptacle 50 as a single entity using, for example, a tongue-and-groove assembly. In other embodiments, the filter unit is comprised of the front 12 and rear 14 panels of the housing 10, along with perforated inlet and outlet panels that are selectively and mechanically disposed within the filter receptacle 50. That is, the filter unit 48 may be selectively removable from the filter receptacle 50 as a plurality of entities.
In some embodiments, a fan assembly 52 is provided within the housing 10 to draw air from within the toilet 72, through the conduit 20 to the interior volume 18 of the housing 10, and through the air flow channel, and the filter unit 48. After being filtered, the fan assembly 52 reintroduces the filtered air into the room environment through an exhaust port or outlet (see, e.g.,
In other embodiments the fan assembly 52′ may be located outside the housing 10′ where the fan assembly 52′ may be substantially similar to a central vacuum system or other similar, centrally located device for drawing air from a space. In that instance, the filtration system 1′ may further define a fan receptacle 200 in fluid communication with the fan assembly 52′ and selectively connectable to the air flow channel in order to facilitate a fluid communication between the fan assembly 52′ and the air flow channel. In some embodiments, a pre-existing fan assembly 52′, such as a ceiling fan or exhaust system, is put in fluid communication with the air flow channel, via a fan receptacle 200, to draw air from the toilet bowl 72, through the conduit 20, and through the filter cartridge 48.
Referring again to
The controller 60 receives power from a power source and selectively directs power to the fan assembly 52 and/or 52′. For example, power may be provided from an external source through the use of a power cord. In other embodiments, power is provided internally with respect to the controller 60 such as, for example, with a battery. However, it will be understood that a variety of known or later developed means for powering the controller 60 and the fan assembly 52 and/or 52′ may be effectively incorporated as well, such as, for example, solar power.
The controller 60 is configured to selectively activate and deactivate the fan assembly 52 and/or 52′ for drawing contaminated air through the air flow channel according to various selection criteria. For example, an activation switch may communicate with the controller 60 to initiate or cease operation of the fan assembly 52 and/or 52′ according to predetermined conditions. The activation switch may be located on or in the housing unit 10 or 10′ or may be located externally, such as, for example, on a remote control. Alternatively, there may be an external condition activation switch whereby an external condition, for example, turning on or off a light switch, causes the activation switch to communicate with the controller 60 and initiate or cease operation of the fan assembly 52 and/or 52′. In some embodiments the external condition activation switch is influenced by a light sensor that selectively communicates to the controller 60 to initiate operation of the fan assembly 52 and/or 52′ when the room environment is lit and subsequently deactivate the operation when the room environment is dark. In other embodiments, the external condition activation switch may be influenced by a pressure sensor proximate the ventilated toilet seat 76. In yet other embodiments, the external condition activation switch may be influenced by a motion sensor proximate the ventilated toilet seat 76, to activate and/or deactivate the fan assembly 52 and/or 52′ according to a signal of the sensor.
In the illustrated embodiment of
From the foregoing description, it will be recognized by those skilled in the art that a filtration system for use with a ventilated toilet seat assembly offering advantages over the prior art has been provided. In accordance with various embodiment of the present general inventive concept, a filtration system for removing odors, bacteria, and/or particulate matter from air from a toilet bowl may include an air flow channel partially defined by a housing unit having a filter receptacle located therein. The air flow channel may further defined by a conduit comprising a proximal end and a distal end, the distal end secured adjacent to the toilet bowl, the proximal end in fluid communication with the housing. A connector may be selectively secured to the proximal end of the conduit, to mechanically secure the conduit to the housing in a substantially air tight engagement.
The filtration system may further include a toilet seat hinge to rotatably connect a toilet seat to the toilet bowl between an elevated and down position, the toilet seat hinge comprising an intake portion and an exhaust portion, the intake opening to the toilet bowl, the exhaust portion secured to the distal end of the conduit, the intake portion having an elliptical member to resistively hold the toilet seat in the elevated position when the toilet seat is raised, and to freely release the toilet seat when the toilet seat is lowered to the down position. In one embodiment, the intake portion comprises an inlet disposed on one end of the elliptical member. In one embodiment, the exhaust portion comprises an exhaust post having an exhaust disposed on a distal end thereof, the exhaust post securing a ventilated toilet seat to a toilet and receiving the distal end of the conduit.
A filter cartridge comprising an interior volume to receive filtration media, an inlet, and an outlet, may be located within the housing unit. The filter cartridge is secured within the filter receptacle, and the inlet and the outlet each define a plurality of openings sized to permit air containing odors and particulate matter to enter and exit the filter cartridge interior while substantially preventing the filtration media from exiting the filter cartridge interior. A filtration media may be contained within the filter cartridge interior volume to collect odors and particulate matter and trapping and killing bacteria when the air passes through the filtration media. In one embodiment, the filter cartridge is selectively secured within the filter receptacle by a fastener.
A fan assembly may be placed in fluid communication with the toilet bowl, further defining the air flow channel. When activated, the fan assembly draws air from the toilet bowl through the intake portion of the toilet seat hinge, through the exhaust portion of the toilet seat hinge, though the conduit into the housing, the fan assembly moving the air in the air flow channel into the filter cartridge inlet, through the filtration media, and out of the filter cartridge outlet, the fan assembly exhausting filtered air from the filtration system. In some embodiments, the system includes a plurality of filtration units.
In one embodiment, the fan assembly is located within the housing unit. In another embodiment, the fan assembly is in fluid communication with the air flow channel but is located outside of the housing and includes a fan receptacle to place the fan assembly in fluid communication with the air flow channel.
Further included in some embodiments of the present general inventive concept is a controller that selectively activates the fan assembly; and an activation switch communicating with the controller to selectively activate or deactivate the fan assembly. In one embodiment, the activation switch is located on or in the housing. In another embodiment, the activation switch is located externally with respect to the housing, such as, for example, on a remote control device. In one embodiment, the activation switch is influenced by a light sensor. In another embodiment, the activation switch is influenced by a motion sensor. In yet another embodiment, the activation switch is influenced by a pressure sensor.
Additionally, the general present inventive concept includes a method for filtering air and particulate matter from a ventilated toilet seat. In one embodiment, the method includes placing a ventilated toilet seat in fluid communication with a fan assembly using one or more conduits to create an air flow channel; interposing a filtration unit between the fan assembly and the toilet seat such that the filtration unit is contained within the air flow channel; providing a controller to selectively provide power to the fan assembly, as determined by an activation switch; and activating the fan assembly such that the air in an around the toilet bowl is pulled through the ventilated toilet seat, into the filtration unit, and exhausted out of the air flow channel.
Referring again to
Referring to again to
The decimator may be utilized to eliminate contaminants in the air flow such that the contaminants may not pass through the filter, which may extend the life of the filter between cleaning or replacement.
Referring to again to
In an example embodiment of
Referring to again to
Filtration unit 512 deforms the seal 514 when the unit is inserted into the housing 512 such that the seal forms a seal around the unit to prevent air or other fluid from flowing between the housing and unit and in particular filters, thereby forcing the air through the filter to ensure proper operation of the filtration assembly 501. Filtration unit may include at least one additional seal 524 to further compliment the seal 514 to prevent airflow around the filter. Seal(s) 524 may seal against a cover 530.
To this end, the inside of the housing cover 530 may have sealing material similar to that provided in the housing interior.
In an embodiment, filtration unit 510 may sit or seat on bracket 531, such as angled brackets provided in the housing.
In an embodiment, a sealing material such as foam may cover a substantial portion of the inside of the filter housing excluding areas which would impede the flow of air through the filtration unit.
A decimator 580 similar to decimator 380 may be provided between the filter unit 510 and the exhaust port of housing 512. To this end, an embodiment may have a decimator outside the filter assembly. The decimator may be on the inlet side of the filtration unit, the outlet side of the filtration unit, both sides of the filtration unit, outside the filter assembly, or a combination of all of these embodiments.
In an embodiment, the inside of the housing may comprise a reflective surface such that the output of the decimator is reflected off of various reflective surfaces to improve the efficiency of the decimator in destroying or killing microorganisms.
In an embodiment, power may be provided to both the decimator(s) and fan(s) by one or more power supplies 480, 482, 484 from a variety locations, the particular locations being selected by perhaps construction convenience. The power supplies may provide low or high AC or DC voltage depending on the requirements of the fan(s) or decimator(s). Referring to again to
Referring again to
In some embodiments, the through opening 114 may be shaped substantially circular, round or cylindrical such that the inlet portion 126 and hinge receptor 112 are sized to press fit to provide resistance of the toilet seat relative to the toilet bowl. One or more resistance member(s), such as a set screw 173, 175 (or pin, nylon ball, spring fastener, plug, etc.) may be utilized to provide rotational resistance by urging or being urged against the inlet portion thereby providing a friction or resistance between the two.
In some of its many embodiments, the present general inventive concept embraces ventilation systems and filtration systems for a variety of waste containers, including, but not limited to, trash receptacles and vessels for animal waste, such as litter boxes.
In some embodiments, a single filtration system may be in fluid communication with and in use with two or more litter boxes.
In some embodiments of the present general inventive concept, a filtration system to filter air from a toilet bowl includes a ventilated toilet seat pivotally coupled to the toilet bowl by a toilet seat hinge. As shown in the close-up view in
When the toilet seat 1776 is substantially raised relative to the toilet bowl, the elliptical member inlet portion 1732 is aligned within the hinge receptor space 1712 such that the elliptical member inlet portion 1732 engages with the nylon ball 1779, as shown in
When the toilet seat 1776 is substantially lowered relative to the toilet bowl, the elliptical member inlet portion 1732 is aligned within the hinge receptor space 1712 such that the elliptical member inlet portion 1732 disengages with the nylon ball 1779, as shown in
In some embodiments, the inlet portion of the toilet seat hinge is elliptical. In some embodiments, the inlet portion of the toilet seat hinge is oval. In some embodiments, the inlet portion of the toilet seat hinge is egg-shaped. In some embodiments, the inlet portion of the toilet seat hinge is noncircular or substantially noncircular.
In some embodiments, such as that shown in
Although in the illustrated example embodiment, the resistance member includes a nylon ball and set screw, those of skill in the art will recognize that alternative resistance member configurations exist, and that these alternative resistance member configurations are also within the scope of the present general inventive concept.
In some embodiments of the present general inventive concept, a toilet seat hinge assembly for use with a filtration system to draw and filter air from a toilet bowl includes a ventilated toilet seat pivotally coupled to the toilet bowl by a toilet seat hinge, the toilet seat hinge including an inlet portion to engage with the toilet seat and an exhaust portion in fluid communication with the air flow channel to deliver air from an underside of the ventilated toilet seat to the air flow channel, the toilet seat hinge coupling the ventilated toilet seat to the toilet bowl including an rotating member that cooperates with a resistance member to control pivoting motion by the toilet seat relative to the toilet bowl, such that when the toilet seat is substantially raised relative to the toilet bowl the rotating member engages with the resistance member to resistively inhibit the toilet seat from pivoting, and such that when the toilet seat is substantially lowered relative to the toilet bowl the rotating member disengages with the resistance member, freely allowing the toilet seat to pivot, said rotating member including a hollowness permitting vacuum draw and through air flow, whereby the filtration system, when activated, draws air from the toilet bowl through the toilet seat hinge.
In some embodiments of the present general inventive concept, a filtration system housing includes bumpers, legs, feet, or similar rising members (referred to herein as bumpers or feet) to elevate the filtration system housing above a floor or other mounting surface.
In
The bumpers/feet affixed to or positioned on the filtration system housing thus facilitate the portability and variable usage of the filtration system. In particular, filtration system housings with feet may be used in situations where it is impractical or unadvisable to affix or mount a filtration system housing to a wall. Filtration system housings with feet are well adapted for use in apartments, for being positioned on a floor, or for being positioned on a table or work surface.
Although the illustrated example embodiment shows bumpers/feet affixed to or positioned on the filtration system housing in order to elevate the filtration system housing, the present general inventive concept is not limited to the use of bumpers/feet for this purpose. In various embodiments, numerous methods or means of raising the filtration system housing—e.g., a stand, risers, etc.—are useful for purposes of optimizing airflow, acoustic muffling, noise dampening, baffling, vibration reduction, and other related goals. Those of skill in the art will recognize that a number of such arrangements are possible and that all of them are contemplated by and encompassed by the scope of the present general inventive concept.
In some embodiments of the present general inventive concept, the filtration system housing can be configured to be mounted to a supporting surface such as a wall, floor, table, or other supporting surface of the toilet or container to which the filtration system is connected. For example, the filtration system housing can be configured to rest upon, or be supported by, the floor behind the toilet, or a wall, table top, or other structure proximate the toilet or other container. In some embodiments, the filtration system housing can be mounted to a wall or to another substantially vertical surface, such as the back of a toilet.
The system can include a means for separating a mounting surface of the filtration system housing from the supporting surface when the housing is mounted to the supporting surface. The mounting surface can be the same surface where the air outlet is located such that when the housing is mounted to or rests on the supporting surface, the mounting surface is separated from the supporting surface to facilitate air flow from out of the air flow channel between the mounting surface and the supporting surface, and to muffle sounds generated by air flow from out of the air flow channel. In some embodiments, the mounting surface can be a bottom surface of the housing and the means for separating the mounting surface from a supporting surface can be a means for elevating the bottom surface relative to the supporting surface.
In some embodiments, such as those, for example, in which the filtration system housing is mounted on a wall or another substantially vertical surface, these means for separating the mounting surface from the supporting surface can include a plurality of feet/bumpers positioned on the mounting surface sized to facilitate air flow from out of the air flow channel between the mounting surface and the supporting surface, and to muffle sounds generated by air flow from out of the air flow channel.
In some embodiments, the means for separating the mounting surface from a supporting surface can include one or more of adhesive members, removable adhesives, bumpers, feet, risers, stands, suction cups, and other known or later developed means for accomplishing the same or similar result.
In some embodiments, the housing includes an exhaust port, and the exhaust port can be disposed on the mounting surface of the housing. In some embodiments, the exhaust port can be disposed on a bottom surface of the housing. In some embodiments, the exhaust port can be disposed on a side surface of the housing, which includes a top surface. The system can include optional means for separating the mounting surface from a supporting surface when the housing is mounted to or resting on the supporting surface, such as bumpers/feet, as discussed above. The optional means for separating can be provided regardless of where the exhaust port is disposed, but in the case where the exhaust port is located on the mounting surface, the means for separating can be configured to facilitate air flow between the mounting surface and the supporting surface, and to muffle/baffle noise from air flow, as described herein. For example, in some embodiments, where the exhaust port is disposed on a side surface, or on a top surface, the housing can include, but does not require, the optional means for separating the mounting surface from a supporting surface when the housing is mounted to or resting on the supporting surface. Similarly, where the exhaust port is disposed on a side surface, or on a top surface, the housing can rest directly on a supporting surface, with or without bumpers/feet or other means for separating.
Numerous variations, modifications, and additional embodiments are possible, and accordingly, all such variations, modifications, and embodiments are to be regarded as being within the spirit and scope of the present general inventive concept. For example, regardless of the content of any portion of this application, unless clearly specified to the contrary, there is no requirement for the inclusion in any claim herein or of any application claiming priority hereto of any particular described or illustrated activity or element, any particular sequence of such activities, or any particular interrelationship of such elements. Moreover, any activity may be repeated, any activity may be performed by multiple entities, and/or any element may be duplicated.
While example embodiments of the present general inventive concept have been shown and described in detail, it is not the intention of the applicant to restrict or in any way limit the scope of the appended claims to such detail. Additional modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and methods, and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the scope or spirit of applicant's general inventive concept.
This application is a continuation-in-part of U.S. patent application Ser. No. 13/863,951, filed Apr. 16, 2013, which was a continuation-in-part of U.S. patent application Ser. No. 13/447,373, filed Apr. 16, 2012, the contents of which are both incorporated herein by reference in their entirety.
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Number | Date | Country | |
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20160010318 A1 | Jan 2016 | US |
Number | Date | Country | |
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Parent | 13863951 | Apr 2013 | US |
Child | 14865241 | US | |
Parent | 13447373 | Apr 2012 | US |
Child | 13863951 | US |