A toilet assembly is provided and includes an inlet conduit, a waste conduit, a flush-assist subsystem, and a plug. The waste conduit is configured to fluidly communicate with the inlet conduit. The flush-assist subsystem includes a flush-assist inlet and a flush-assist outlet. The flush-assist inlet is configured to fluidly communicate with the inlet conduit. The flush-assist outlet is configured to fluidly communicate with the waste conduit. The plug is disposed within the flush-assist subsystem and configured to prevent fluid communication between the inlet conduit and the waste conduit through the flush-assist subsystem.

A smart toilet includes: a toilet body; a urine cup disposed outside the toilet body; a urine collection device disposed in the toilet body, including a rotation shaft and a front urine storage cup, a middle urine storage cup and a rear urine storage cup distributed around the rotation shaft, the front urine storage cup is provided with a first urine detection sensor and a first valve, the middle urine storage cup is provided with a second urine detection sensor and a second valve; a drive motor, connected with the rotation shaft; a controller, configured to control the drive motor to drive the rear urine storage cup to rotate to the urine collection position and control the second valve to be turned on upon urine volume in the middle storage cup reaching a volume threshold. An operation control method and device of a smart toilet are also provided.

A smart toilet includes: a toilet body; a urine cup disposed outside the toilet body; a urine collection device disposed in the toilet body, including a rotation shaft and a front urine storage cup, a middle urine storage cup and a rear urine storage cup distributed around the rotation shaft, the front urine storage cup is provided with a first urine detection sensor and a first valve, the middle urine storage cup is provided with a second urine detection sensor and a second valve; a drive motor, connected with the rotation shaft; a controller, configured to control the drive motor to drive the rear urine storage cup to rotate to the urine collection position and control the second valve to be turned on upon urine volume in the middle storage cup reaching a volume threshold. An operation control method and device of a smart toilet are also provided.

A smart toilet includes: a toilet body; a urine cup disposed outside the toilet body; a urine collection device disposed in the toilet body, including a rotation shaft and a front urine storage cup, a middle urine storage cup and a rear urine storage cup distributed around the rotation shaft, the front urine storage cup is provided with a first urine detection sensor and a first valve, the middle urine storage cup is provided with a second urine detection sensor and a second valve; a drive motor, connected with the rotation shaft; a controller, configured to control the drive motor to drive the rear urine storage cup to rotate to the urine collection position and control the second valve to be turned on upon urine volume in the middle storage cup reaching a volume threshold. An operation control method and device of a smart toilet are also provided.

The present disclosure provides a toilet and a flushing control method thereof. The toilet includes a toilet bowl, a toilet lid, a water tank, at least one image collector, at least one sprayer, and a controller. The toilet lid is arranged on the toilet bowl, the controller is arranged at any one of the toilet bowl, the toilet lid and the water tank, the image collector is arranged at a surface of the toilet lid facing the toilet bowl and communicatively connected to the controller, and the sprayer is movably arranged at the surface of the toilet lid facing the toilet bowl, connected to the water tank and communicatively connected to the controller.

The present disclosure provides a toilet and a flushing control method thereof. The toilet includes a toilet bowl, a toilet lid, a water tank, at least one image collector, at least one sprayer, and a controller. The toilet lid is arranged on the toilet bowl, the controller is arranged at any one of the toilet bowl, the toilet lid and the water tank, the image collector is arranged at a surface of the toilet lid facing the toilet bowl and communicatively connected to the controller, and the sprayer is movably arranged at the surface of the toilet lid facing the toilet bowl, connected to the water tank and communicatively connected to the controller.

The present disclosure describes a toilet apparatus for detecting a drug marker in a urine sample. The drug markers are fluorophores each of which emits a unique fluorescence spectrum. Accordingly, the toilet does not detect the drug but rather, the drug marker. The user consumes a drug composition which includes a drug and a fluorescent drug marker. The user urinates normally into the toilet and fluorescence spectrometer within the toilet analyzes the urine for drug markers based on their unique fluorescent spectra. Computer software associated with the toilet identifies, and in some embodiments, quantifies the fluorescent spectra by comparing the detected spectra to known spectra of fluorescent markers associated with the drug.

The present disclosure describes a toilet apparatus for detecting a drug marker in a urine sample. The drug markers are fluorophores each of which emits a unique fluorescence spectrum. Accordingly, the toilet does not detect the drug but rather, the drug marker. The user consumes a drug composition which includes a drug and a fluorescent drug marker. The user urinates normally into the toilet and fluorescence spectrometer within the toilet analyzes the urine for drug markers based on their unique fluorescent spectra. Computer software associated with the toilet identifies, and in some embodiments, quantifies the fluorescent spectra by comparing the detected spectra to known spectra of fluorescent markers associated with the drug.

The present disclosure describes a toilet apparatus for detecting a drug marker in a urine sample. The drug markers are fluorophores each of which emits a unique fluorescence spectrum. Accordingly, the toilet does not detect the drug but rather, the drug marker. The user consumes a drug composition which includes a drug and a fluorescent drug marker. The user urinates normally into the toilet and fluorescence spectrometer within the toilet analyzes the urine for drug markers based on their unique fluorescent spectra. Computer software associated with the toilet identifies, and in some embodiments, quantifies the fluorescent spectra by comparing the detected spectra to known spectra of fluorescent markers associated with the drug.

The present disclosure describes a toilet apparatus for detecting a drug marker in a urine sample. The drug markers are fluorophores each of which emits a unique fluorescence spectrum. Accordingly, the toilet does not detect the drug but rather, the drug marker. The user consumes a drug composition which includes a drug and a fluorescent drug marker. The user urinates normally into the toilet and fluorescence spectrometer within the toilet analyzes the urine for drug markers based on their unique fluorescent spectra. Computer software associated with the toilet identifies, and in some embodiments, quantifies the fluorescent spectra by comparing the detected spectra to known spectra of fluorescent markers associated with the drug.