The pressure pad which pressure-sensing fabric which is within a gasket and which measures the distribution of pressure on the gasket. Thus, the gasket protects the pressure-sensing fabric from damage due to water or mechanical trauma. The pressure pad includes multiple piezoresistive depositions of piezoresistive depositions ink or paste which act as individual pressure-sensing points. Conductive tracks between the piezoresistive depositions transmit the pressure measurements in the form of electrical signals. The pressure-sensing fabric is connected to a controller and transmits pressure measurements to the controller. Algorithms stored on the controller create a map of absolute mechanical loading to each pressure-sensing point of the pressure pad. The gasket may be mounted beneath a toilet or between plumbing joints. The pressure pad may detect weaknesses in the gasket, a toilet user's weight, a weight of excrement added to the toilet, or a toilet user's posture.

A toilet includes a module including a sensor that is configured to determine a characteristic of urine with the urine in a non-contact position with a surface of the toilet, wherein the module is configured to calculate point coordinates of the non-contact position of the urine.

A toilet includes a module including a sensor that is configured to determine a characteristic of urine with the urine in a non-contact position with a surface of the toilet, wherein the module is configured to calculate point coordinates of the non-contact position of the urine.

A toilet for measuring excreta is disclosed. The toilet is adapted to measure the amount of excreta received by the bowl and then the flush water. A pressure sensor is configured to monitor the pressure exerted by the flush water and any excreta contained therein. Data from monitoring the pressure of the flush water and excreta therein is used to determine the weight or volume of the excreta received by the bowl. This toilet can provide data which may be used to analyze how the volume of flush water changed due to excreta deposit. A volume change feature can be associated with a urination event and the data associated with the event can be used to determine a urine characteristic of the event.

An analytical toilet comprising a bowl for receiving excreta from a user; a base supporting the bowl; a supply of flush water; and a plurality of receptacles, each providing mechanical attachment, a power supply, and a data connection to an analytical device, which analytical device is adapted to provide data useful to the user is disclosed.

An apparatus for analyzing excreta samples in a toilet comprising one or more fluid inlets configured to receive fluids from a toilet including excreta samples; at least one outlet configured to discharge the fluids to the toilet; a connection for receiving electrical power; and at least one sensor configured to measure at least one property of the fluids in the apparatus is disclosed.

An analytical toilet comprising a bowl for receiving excreta from a user; a flush mechanism for cleaning the bowl after use; at least one analytical test device wherein a sample of excreta is analyzed; a manifold comprising conduits and valves for distributing one or more fluids to and from the at least one receptacle; and a digital control device controlling the valves to distribute the sample to the analytical test device for analysis; and distribute fluid to remove the sample from the analytical test device after analysis and to clean the analytical test device is disclosed.

An analytical toilet comprising a bowl adapted to receive excreta; one or more conduits for transporting a sample from the bowl; one or more fluid sources in fluid connection with the one or more conduits; and one or more microfluidic chips, comprising at least one fluid inlet; at least one fluid outlet; and a sensor configured to detect at least one property of an excreta sample is disclosed.

A emesis funnel assembly for facilitating a person sitting on a toilet to vomit into the toilet includes a stand is removably positionable around a toilet. A funnel is coupled to the stand, the funnel has a top end and a bottom end, and the funnel tapers inwardly between the top and bottom ends. The funnel is positionable in a deployed position having the top end being aligned with the person's mouth and having the bottom end being directed between the user's legs toward the toilet. In this way the funnel can direct emesis into the toilet. A hose is coupled to the stand, the hose is fluidly coupled to a fluid source and a spray nozzle is fluidly coupled to the hose for washing vomit from the funnel.

A urinal and a urinal flushing control method. The urinal includes a urinal body, an electromagnetic valve for turning on and off flushing, a capacitive sensor for sensing a liquid amount on an outer wall of the urinal body, and a controller for receiving a capacitance value signal to control on and off of the electromagnetic valve. The controller sets a flushing timing reference point when determining that a capacitance value exhibits a dropping trend after a first period since the electromagnetic valve is controlled to be turned off, and controls to turn on the electromagnetic valve when the flushing timing reference point is present for a second period. The above solution can reduce the chance of erroneous flushing and facilitate the adaptability respect to the glazed surface of the urinal body.