A combined toilet device comprises a platform for supporting a user in a squatting defecation position. The platform is mountable over a toilet bowl wherein the opening in the platform is aligned with the opening in the toilet bowl. The device includes a urinal pan to prevent dispersion of the urine. The frame of the urinal pan is formed by a pipe arc having long and short parts which are continued one into other and are in different planes with 90 grade between them. The urinal pan walls are comprised of flexible material framed with the pipe arc. Pipe arc serves for converting of the urinal pan into functional or nonfunctional position. The urinal pan is covered in a nonfunctional position by a cover which is formed from two leafs attached pivotally to the platform at either side of the pan. In a functional position the leafs of the cover fix the urinal pan at any desirable point.

A toilet modified for disposal of dialysis waste includes a base, a bowl, a water supply port, and a dialysis drain port. In the dialysis drain port is a two piece air gap device that establishes a gap between ends of first and second drain tubes of a dialysis machine and a fluid level in the air gap. RO water and effluent from the dialysis machine enter the chamber of the air gap and mix, before being passed along a path from the dialysis drain port to the bowl of the toilet, where it can be dispelled in a sanitary manner in compliant with all pertinent codes and regulations.

The toilet bowl separately collects urine and feces for analysis or other uses. The toilet bowl includes a toilet bowl wall with at least two holes in it. The first hole is a fecal collection aperture positioned below a user where a user may defecate into it. The second hole is a urine collection orifice through which a user's urine may flow. The two holes may be separated by a ridge which may act like a dam to inhibit cross-contamination of collected feces and urine. Conduits may connect to the two holes to direct the waste into analytical devices or containers for additional uses including composters and digesters which produce clean energy.

A combined shower and toilet arrangement 10 comprises a shower, comprising: a shower fluid outputting arrangement 12; and a shower floor 14; and: a toilet 16, comprising a receiving area 19 for receiving human waste; wherein the combined shower and toilet arrangement is operable in a shower use mode or a toilet use mode, wherein, in the toilet use mode, the shower floor is in a position that does not obstruct use of the toilet, and is in a non-use position, not usable as a floor for the shower; and in the shower use mode, the shower floor 14 is in a shower use position, above a portion or a whole of the receiving area of the toilet 16, and is usable as a floor for the shower.

Toilet like device, which saves water through the separation of solid and liquid depositions, in a hygienic, comfortable, simple, autonomous and aesthetic manner. It's composed by a main toilet body, which has an open space within itself, connected to the main toilet bowl, a space which is open in its front and superior sides. This space works as a water and urine recipient, the water and urine come from the urinal, which at the same time works as a drainage for urine and water. This space also works as a liquid recipient when the urinal is in vertical position, since it is very likely that, after a liquid deposition, the urinal needs to be raised towards a vertical position, for various different reasons. Any liquid remaining in the urinal falls into this space, without going into the rest toilet body, and much less onto the user.

A toilet modified for disposal of dialysis waste includes a base, a bowl, a water supply port, and a dialysis drain port. In the dialysis drain port is an air gap device that establishes a gap between ends of first and second drain tubes of a dialysis machine and a fluid level in the air gap. RO water and effluent from the dialysis machine enter the chamber of the air gap and mix, before being passed along a path from the dialysis drain port to the bowl of the toilet, where it can be dispelled in a sanitary manner in compliant with all pertinent codes and regulations.

The invention discloses a suction seat for an intelligent nursing toilet bowl. The suction seat comprises a housing installed on a base, the interior of the housing is an inner cavity, a temperature and humidity sensor, an excrement sensor and a flushing nozzle are respectively installed in the cavity body of the inner cavity, a urine sensor is arranged on the outer side of the lower part of the cavity body, and a discharge port connected with an external negative pressure pipeline is vertically formed in the bottom of the cavity body; and a cleaning device and a ventilation device which are communicated with the interior of the cavity body are arranged on the outer side of the rear part of the cavity body. The cleaning device can automatically adjust the height of the nozzle as well as the pressure and flow rate of running water, thereby realizing overall cleaning on human hip, and overcoming the defects that the existing nozzle is fixed and the flushing area cannot be adjusted. Since the temperature and humidity sensor is arranged inside the suction seat, optimal skin comfort is achieved by adjusting air parameters under the circumstance that neither excrement nor urine is generated. The whole suction seat is compact in structure, and high cleanness of the inner cavity is kept after long-term use; and the whole suction seat adopting the structural design conforming to ergonomics achieves an optimal using effect.

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.

A flushing structure of a toilet and a toilet includes a main waterway, a jet waterway and a rim waterway. An inlet of A main waterway inlet is in communication with an outlet on the toilet tank. A main waterway outlet is in communication with a jet waterway inlet and a rim waterway inlet. A jet waterway outlet is in communication with a jet hole beneath a water surface of a first water seal at the bottom of the toilet bowl. A waterway outlet is in communication with a rim hole provided on the toilet bowl for flushing the inner wall of the toilet bowl. A second water seal, whose water surface is on the same level with surface of the first water seal, is provided on the rim waterway. The main waterway and the jet waterway are isolated from air via the first water seal and second water seal.

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.