A toilet bowl ventilation system exhausts air in and around the toilet bowl to an area adjacent to the room in which the toilet is located. The toilet bowl ventilation system includes an odor exhaust system which is configured to be installed within the interior cavity of a toilet. The odor exhaust system includes a fan positioned within a housing. The system further includes a controller that regulates power to the fan. Upon activation, the system is operable to transport air from in and around the toilet bowl, through the housing, and to an area adjacent to the room in which the toilet is located (e.g. outdoors).

An integrated bathroom electronic system including a plurality of sensors to detect conditions within a bathroom and to provide signals indicative thereof to a controller. A plurality of distinct and exclusive modules or subsystems are illustratively provided for integration into the system. Such modules may include a quick hot water module, a roman tub module, a custom shower module, a hands free faucet module, and a tub shower module. In certain illustrative faucet modules, a controller is configured to select between a manual mode of operation and a hands-free mode of operation in response to a mode signal, and is configured to control an electrically operable valve in response to a proximity signal during the hands-free mode of operation.

An integrated bathroom electronic system including a plurality of sensors to detect conditions within a bathroom and to provide signals indicative thereof to a controller. A plurality of distinct and exclusive modules or subsystems are illustratively provided for integration into the system. Such modules may include a quick hot water module, a roman tub module, a custom shower module, a hands free faucet module, and a tub shower module. In certain illustrative faucet modules, a controller is configured to select between a manual mode of operation and a hands-free mode of operation in response to a mode signal, and is configured to control an electrically operable valve in response to a proximity signal during the hands-free mode of operation.

A portable restroom includes an enclosed interior including a door, a waste tank, a commode disposed within the enclosed interior and coupled to the waste tank, a power source, a microprocessor coupled to the power source, a door sensor positioned to sense whether the door is open or closed, and a door lock sensor positioned to sense whether the door is locked or unlocked. Sensors can be provided to sense the closed status of the door and the status of the door lock. Additional sensors can monitor various levels and usage of consumables. The microprocessor monitors the sensed data and wirelessly alerts a service provider when the restroom needs service. A payment receiving means can be provided to the portable restroom and coupled to the microprocessor so that a user can provide payment for access to the portable restroom.

A portable restroom includes an enclosed interior including a door, a waste tank, a commode disposed within the enclosed interior and coupled to the waste tank, a power source, a microprocessor coupled to the power source, a door sensor positioned to sense whether the door is open or closed, and a door lock sensor positioned to sense whether the door is locked or unlocked. Sensors can be provided to sense the closed status of the door and the status of the door lock. Additional sensors can monitor various levels and usage of consumables. The microprocessor monitors the sensed data and wirelessly alerts a service provider when the restroom needs service. A payment receiving means can be provided to the portable restroom and coupled to the microprocessor so that a user can provide payment for access to the portable restroom.

The present invention relates to an air admittance valve (AAV) that operates automatically at low pressures to selectively open and close an air passageway between an inlet and an outlet. The AAV comprises a valve body having a centrally disposed, internal valve chamber in communication with the ambient environment, and having a valve seat. The AAV includes a sealing member having a flexible diaphragm that is fastened to a support ring, the ring defining one or more lugs on an outer periphery thereof. The AAV further includes a cap member within which the sealing member may be disposed, such that the one or more lugs may interact with an interior surface of the cap. The sealing member may selectively seal or unseal from the valve seat in response to pressure differentials between the inlet and the outlet.

A temporary restroom may form a complete enclosure, including a front wall, a back wall, two sidewalls, a floor, a ceiling, and a door. The front wall, the back wall, the two sidewalls, the floor and the ceiling each includes multiple support members, which together form a frame. Inside the enclosure, the temporary restroom includes a, coupled with a waste drainage pipe, a sink in, coupled with a water pipe and a waste water drainage pipe, and multiple connections for connecting the waste drainage pipe and the waste drainage pipe to waste plumbing, connecting the water pipe to water plumbing, and connecting the temporary restroom to a source of electric power. The temporary restroom does not include a waste storage tank or a built-in source of water.

A temporary restroom may form a complete enclosure, including a front wall, a back wall, two sidewalls, a floor, a ceiling, and a door. The front wall, the back wall, the two sidewalls, the floor and the ceiling each includes multiple support members, which together form a frame. Inside the enclosure, the temporary restroom includes a, coupled with a waste drainage pipe, a sink in, coupled with a water pipe and a waste water drainage pipe, and multiple connections for connecting the waste drainage pipe and the waste drainage pipe to waste plumbing, connecting the water pipe to water plumbing, and connecting the temporary restroom to a source of electric power. The temporary restroom does not include a waste storage tank or a built-in source of water.

An elevated flush valve comprising a vent cover may be used with various assemblies, particularly for high efficiency and high performance toilets, which vent cover has a wall that includes an upper portion, a lower portion configured to define a vent cover inlet opening for receiving air and/or liquid passing upwardly from within a valve body and/or from within a toilet through a toilet inlet when the vent cover is installed on a valve body, an exterior surface, and an interior surface defining a vent cover passage for air passing upwardly from the vent cover inlet opening. At least the upper portion of the vent cover wall is configured for contacting an interior surface of a valve body at a location above an inlet of an overflow or venting tube on a valve body when the vent cover is installed on a valve body and wherein the valve cover wall is configured to at least partially divert flow of fluid from entering an inlet of an overflow tube or a venting tube on a valve body when the vent cover is installed on a valve body.

An elevated flush valve comprising a vent cover may be used with various assemblies, particularly for high efficiency and high performance toilets, which vent cover has a wall that includes an upper portion, a lower portion configured to define a vent cover inlet opening for receiving air and/or liquid passing upwardly from within a valve body and/or from within a toilet through a toilet inlet when the vent cover is installed on a valve body, an exterior surface, and an interior surface defining a vent cover passage for air passing upwardly from the vent cover inlet opening. At least the upper portion of the vent cover wall is configured for contacting an interior surface of a valve body at a location above an inlet of an overflow or venting tube on a valve body when the vent cover is installed on a valve body and wherein the valve cover wall is configured to at least partially divert flow of fluid from entering an inlet of an overflow tube or a venting tube on a valve body when the vent cover is installed on a valve body.