A system for hands-free collection of biomaterials, such as urine, in a vessel disposed below a closable port, the vessel being sealable by an at least partially automated sealing mechanism, the sealed vessel being transferable to a storage area. In general terms this application is directed to a hands-free, biomaterial collection system that is it least partially automated. In one aspect, a biomaterial collection system comprises a biomaterial capture area including a port, a collection area disposed below the capture area, a vessel disposed in the collection area and aligned with the port, and a sealing mechanism disposed in the collection area for sealing the vessel.

A toilet includes a bowl including a supply water plenum providing the water to the basin, a primary drain fluidly connecting and terminating at a drain passage and a secondary drain fluidly connecting the supply water plenum to the sewer drainage pipe. The secondary drain is separate from the primary drain and includes at least one secondary drain inlet that is disposed within the supply water plenum, a second drain channel, and a second drain outlet. The inlet permits rising waste water to flow from the supply water plenum into the second drain channel and out of the second drain outlet to the sewer drainage pipe separately from the waste water of the primary drain. The supply water plenum also includes a diverting wall located upstream of the secondary drain inlet configured to divert water flowing from upstream from flowing into the inlet.

A toilet comprises a toilet body. A water inlet end is disposed at a side of the toilet body. The water inlet end is connected to a water inlet pipe. The toilet body has a frame top, and a groove is formed downwardly along the frame top. A water outlet end is disposed on a bottom of the groove. The water outlet end is connected to a discharge pipe. A frame seat portion is formed at a top of a urinal. A flow deflector is extended downwardly from a back end of the frame seat portion. The frame seat portion is covered onto the frame top, and a front end of the frame seat portion is pivotally connected to a front end of the frame top of the toilet abody.

The present invention is a urinal screen that includes a main body having an extended upper surface, a corresponding extended lower surface, and a marginal edge portion integral with an surrounding the upper surface and the lower surface; a plurality of spaced apart apertures formed to extent through the main body to provide fluid communication between the upper surface and the lower surface of the main body; and a two-sided spreading layer attached to the main body for accepting a urine sample on a upper side and passing the sample to a lower side, opposite and each side containing a reagent that can react with glucose in the urine sample, as it passes through the two-sided spreading layer, to cause a color change in the reagent.

A flush system includes a meter valve, a first pipe, a vacuum breaker, a second pipe, and a ball valve assembly. The meter valve defines a selectively openable outlet. The first pipe is in fluid communication with the meter valve and a water supply source. The vacuum breaker is disposed within the first pipe upstream of the meter valve and oriented to prevent backflow from the meter valve to the water supply source. The second pipe extends from a wall and is downstream from the supply source. The ball valve assembly is disposed between the first pipe and the second pipe upstream of the vacuum breaker to facilitate fluid communication between the first pipe and the second pipe and to selectively isolate the meter valve from the water supply source.

A flush system includes a meter valve, a first pipe, a vacuum breaker, a second pipe, and a ball valve assembly. The meter valve defines a selectively openable outlet. The first pipe is in fluid communication with the meter valve and a water supply source. The vacuum breaker is disposed within the first pipe upstream of the meter valve and oriented to prevent backflow from the meter valve to the water supply source. The second pipe extends from a wall and is downstream from the supply source. The ball valve assembly is disposed between the first pipe and the second pipe upstream of the vacuum breaker to facilitate fluid communication between the first pipe and the second pipe and to selectively isolate the meter valve from the water supply source.

A urinal for receiving and discharging urine having a bowl portion having a bowl surface for receiving urine; a spouting device disposed on a top portion of the bowl portion for spouting flush water onto the bowl surface; and a discharge trap portion, communicating with a discharge port disposed on a bottom portion of the bowl portion, for discharging flush water and forming a water seal on a downstream side of the bowl portion. The discharge trap includes a descending conduit, a horizontal conduit, and an ascending conduit, and a cross section perpendicular to a discharging direction of either the horizontal conduit or the ascending conduit on the discharge trap portion is formed so that an inner side of the urinal from a center of the cross section has a smaller cross sectional area than an outer side of the urinal from the center of the cross section.

A urinal for receiving and discharging urine having a bowl portion having a bowl surface for receiving urine; a spouting device disposed on a top portion of the bowl portion for spouting flush water onto the bowl surface; and a discharge trap portion, communicating with a discharge port disposed on a bottom portion of the bowl portion, for discharging flush water and forming a water seal on a downstream side of the bowl portion. The discharge trap includes a descending conduit, a horizontal conduit, and an ascending conduit, and a cross section perpendicular to a discharging direction of either the horizontal conduit or the ascending conduit on the discharge trap portion is formed so that an inner side of the urinal from a center of the cross section has a smaller cross sectional area than an outer side of the urinal from the center of the cross section.

A flushing device (1) for a sanitary article (2), in particular a urinal or a toilet, said flushing device comprising a control unit (3), and a flushing valve (4) that can be controlled by means of the control unit (3) for controlling a flushing procedure, wherein a fluid for flushing or for cleaning the sanitary article (2) is introduced during a flushing procedure, wherein it is possible by means of the control unit (3) to predetermine a flushing regime for the flush activation. The control unit (3) further comprises a temperature sensor (5) for detecting the ambient temperature (T), wherein the temperature sensor (5) is connected by way of a data channel (7) to the control unit (3) and wherein the flushing regime can be adjusted on the basis of the ambient temperature (T).

A flushing device (1) for a sanitary article (2), in particular a urinal or a toilet, said flushing device comprising a control unit (3), and a flushing valve (4) that can be controlled by means of the control unit (3) for controlling a flushing procedure, wherein a fluid for flushing or for cleaning the sanitary article (2) is introduced during a flushing procedure, wherein it is possible by means of the control unit (3) to predetermine a flushing regime for the flush activation. The control unit (3) further comprises a temperature sensor (5) for detecting the ambient temperature (T), wherein the temperature sensor (5) is connected by way of a data channel (7) to the control unit (3) and wherein the flushing regime can be adjusted on the basis of the ambient temperature (T).