We disclose a system which may be used to analyze data collected from a customized test strip. The customized test strip may include a set of reaction pads which are selected to address the medical needs of a specific user. The system may include a data analysis platform which analyzes the data and proposes a second customized test strip. The second test strip may comprise of a set of reaction pads that the data analysis platform selects for the user based on the analysis of the first customized test strip. The data analysis platform may propose that additional diagnostic metrics be collected from the user to assist in diagnosis. The customized test strips and the additional diagnostic metrics may be within a medical toilet.

A device adapted for installation onto a toilet overflow pipe to indicate a leaking condition of a toilet flush valve. The device having a stem portion with a diameter configured for receipt within an interior diameter of a toilet overflow tube. The device including a housing forming a reservoir for collection of water prior to entering the overflow tube. The reservoir including a cavity for the placement of a water soluble pigment, wherein the pigment is dissolved within water in the housing and into the overflow tube. An alternate embodiment of the device, includes a stay member configured to support a ball float member in an off condition.

An in-toilet leak detector is disclosed, as are communication systems for reporting toilet leaks. The leak detector comprises an inlet that receives water from the toilet's fill tube and diverts it through a flow tube. A capacitive sensor is located between the inlet and an opening of the flow tube from which water flows into the overflow tube of the toilet tank. A housing is connected to the flow tube and the inlet and contains a controller and other electronics, including one or more transceivers. The leak detector measures the duration of water flow and establishes an alert if the water flow is shorter or longer in duration than a calibrated normal duration. The transceivers connect the leak detector to a computer network, and leak alerts are communicated to a server or servers so that they can be forwarded directly to those responsible for fixing the toilets.

An antimicrobial toilet includes an inner surface of a toilet bowl which includes a non-doped titanium dioxide coating. The titanium dioxide coating is photocatalytic and antimicrobial in the presence of ultraviolet (UV) light. In the absence of UV light, the inner surface of the toilet bowl is not antimicrobial. The UV light source may be actuated after the waste has exited the toilet bowl. Consequently, the waste may be used in digesters used to produce clean energy or for analysis to assess the user's health status without being exposed to the antimicrobial properties of the titanium dioxide coating. The UV light may then be actuated to disinfect the toilet bowl. The outer shell of the toilet is coated with a doped titanium dioxide. The doped titanium dioxide is photocatalytic and antimicrobial in the presence of visible light. The outer shell is antimicrobial when standard room lights are actuated.

An antimicrobial toilet includes an inner surface of a toilet bowl which includes a non-doped titanium dioxide coating. The titanium dioxide coating is photocatalytic and antimicrobial in the presence of ultraviolet (UV) light. In the absence of UV light, the inner surface of the toilet bowl is not antimicrobial. The UV light source may be actuated after the waste has exited the toilet bowl. Consequently, the waste may be used in digesters used to produce clean energy or for analysis to assess the user's health status without being exposed to the antimicrobial properties of the titanium dioxide coating. The UV light may then be actuated to disinfect the toilet bowl. The outer shell of the toilet is coated with a doped titanium dioxide. The doped titanium dioxide is photocatalytic and antimicrobial in the presence of visible light. The outer shell is antimicrobial when standard room lights are actuated.

The splash guard for plunging a toilet includes a corrugated panel having a top layer and a bottom layer. There is a first portion with first flaps and a second portion with second flaps, respectively. The front side of the first portion is hinged to the back side of the second portion by either the top layer or the bottom layer. The corrugated panel has a first configuration with the first portion folded to the second portion with the first and second flaps locked in position relative to each other and a second configuration with the first portion flush or coplanar to the second portion with the first and second flaps folded downward. The first portion is locked in position relative to the second portion by the first and second flaps in the second configuration. The corrugated panel is placed to cover a toilet bowl in the second configuration.

The splash guard for plunging a toilet includes a corrugated panel having a top layer and a bottom layer. There is a first portion with first flaps and a second portion with second flaps, respectively. The front side of the first portion is hinged to the back side of the second portion by either the top layer or the bottom layer. The corrugated panel has a first configuration with the first portion folded to the second portion with the first and second flaps locked in position relative to each other and a second configuration with the first portion flush or coplanar to the second portion with the first and second flaps folded downward. The first portion is locked in position relative to the second portion by the first and second flaps in the second configuration. The corrugated panel is placed to cover a toilet bowl in the second configuration.

The embodiments of this application disclose a control system and a control method of intelligent toilets. The control system includes a toilet body, a communication device which is set on the toilet body to acquire the geographic location information of the toilet body, and transmit the acquired geographic location information to a server which acquires the external environment information of the toilet body based on the geographic location information and generates the adjustment parameters based on the external environment information. The external environment information includes the environment temperature information, the environment humidity information, and the sensory temperature information. The control system also includes a controller which is set on the toilet body to receive the adjustment parameters from the server and control the working temperature of the toilet body based on the adjustment parameters.

We disclose a system which may be used to analyze data collected from a customized test strip. The customized test strip may include a set of reaction pads which are selected to address the medical needs of a specific user. The system may include a data analysis platform which analyzes the data and proposes a second customized test strip. The second test strip may comprise of a set of reaction pads that the data analysis platform selects for the user based on the analysis of the first customized test strip. The data analysis platform may propose that additional diagnostic metrics be collected from the user to assist in diagnosis. The customized test strips and the additional diagnostic metrics may be within a medical toilet.

An in-toilet leak detector is disclosed, as are communication systems for reporting toilet leaks. The leak detector comprises an inlet that receives water from the toilet's fill tube and diverts it through a flow tube. A capacitive sensor is located between the inlet and an opening of the flow tube from which water flows into the overflow tube of the toilet tank. A housing is connected to the flow tube and the inlet and contains a controller and other electronics, including one or more transceivers. The leak detector measures the duration of water flow and establishes an alert if the water flow is shorter or longer in duration than a calibrated normal duration. The transceivers connect the leak detector to a computer network, and leak alerts are communicated to a server or servers so that they can be forwarded directly to those responsible for fixing the toilets.