The present invention provides a disposal splash guard that enables water flowing into the disposal splash guard to be directed through peripheral openings in the disposal splash guard. The disposal splash guard comprises a body and a baffle. A size of the peripheral openings is operable to direct water flowing into the disposal splash guard through the peripheral openings in the baffle. At least one of a shape of the body and a shape of the baffle is operable to direct water flowing into the disposal splash guard through the peripheral openings in the baffle. At least one of a size of the peripheral openings, a shape of the body, and a shape of the baffle is operable to direct at least ten percent of water flowing into the disposal splash guard through the peripheral openings in the baffle.

An excreta sample capture device includes a primary influent pipe that receives influent from a toilet(s) and includes an upstream end and a downstream end. The excreta sample capture device also includes a first valve positioned at the downstream end of the primary influent pipe, and a second valve positioned between the upstream end and the downstream end of the primary influent pipe. In some cases, an excreta sample capture device further includes spray jet positioned above the second valve and a sample extraction vessel located downstream from the second valve. A method of using an excreta sample capture device includes receiving influent in the primary influent pipe, initiating a closing of the first valve, opening the second valve, and capturing a sample of the excreta.

An excreta sample capture device includes a primary influent pipe that receives influent from a toilet(s) and includes an upstream end and a downstream end. The excreta sample capture device also includes a first valve positioned at the downstream end of the primary influent pipe, and a second valve positioned between the upstream end and the downstream end of the primary influent pipe. In some cases, an excreta sample capture device further includes spray jet positioned above the second valve and a sample extraction vessel located downstream from the second valve. A method of using an excreta sample capture device includes receiving influent in the primary influent pipe, initiating a closing of the first valve, opening the second valve, and capturing a sample of the excreta.

The present disclosure relates to popup drain stopper and popup drain stopper assemblies. The popup drain stopper includes a debris trap having a plurality of bristle arranged to trap debris flowing into a drainpipe in which the stopper is positioned. Popup drain stopper assemblies include the popup drain stopper with the debris trap and the ability to remove the drain stopper from the drainpipe without disassembly. The stopper includes a cylindrical shaped bristle body having the bristles and which is removable from the stopper assembly.

A drain guard for a sink equipped with a garbage disposal, the drain guard having a support ring and at least two interior surfaces extending inward and terminating internal of the support ring. The interior surfaces may have free edges that are laterally proximate but separated by a vertical distance to allow for the passage of food waste but prevent utensils and other objects from entering the garbage disposal.

A drain guard for a sink equipped with a garbage disposal, the drain guard having a support ring and at least two interior surfaces extending inward and terminating internal of the support ring. The interior surfaces may have free edges that are laterally proximate but separated by a vertical distance to allow for the passage of food waste but prevent utensils and other objects from entering the garbage disposal.

An apparatus and methods for the separation of macroscopic solid body particles (SBPs) from a fluid stream contained in a conduit, such as a hose or pipe. The method involves utilizing a particle separator having a fluid inlet port connected to a fluid inlet conduit and a fluid outlet port connected to a fluid outlet conduit to change the direction (and optionally the velocity) of the fluid stream within a lumen of an enclosed vessel component of the particle separator sufficiently to permit SBPs to fall by gravity (and/or to descend due to inertia) into a removable receptacle within a bottom portion of the vessel component while directing the flow of cleansed fluid to the fluid outlet port of the particle separator.

An apparatus and methods for the separation of macroscopic solid body particles (SBPs) from a fluid stream contained in a conduit, such as a hose or pipe. The method involves utilizing a particle separator having a fluid inlet port connected to a fluid inlet conduit and a fluid outlet port connected to a fluid outlet conduit to change the direction (and optionally the velocity) of the fluid stream within a lumen of an enclosed vessel component of the particle separator sufficiently to permit SBPs to fall by gravity (and/or to descend due to inertia) into a removable receptacle within a bottom portion of the vessel component while directing the flow of cleansed fluid to the fluid outlet port of the particle separator.

A waste outlet having a top section, with an inlet and an outlet, and a bottom section, with an inlet and an outlet. The top section and the bottom section are both mounted upon a substantially elongate member. A tubular seal element encloses the outlet of the top section and the inlet of the bottom section and one of the top section and the bottom section is connected to the elongate member and the other of the top section and the bottom section is slidably mounted on the rigid elongate member so that it can slide therealong to adjust the distance between the respective sections.

An overflow assembly including an overflow cap and a locking ring is described that allows liquid (e.g., water) being received or collected in a plumbing fixture (e.g., a bathtub) to flow into an overflow pipe in an effective, aesthetically pleasing manner using components that are easier to install than some conventional solutions. The locking ring has a threaded inner surface that is designed to be threaded onto an externally threaded end of the overflow pipe that is extended through a wall of the plumbing fixture to secure the overflow pipe with respect to the wall. The overflow cap may then be pressed onto the externally threaded end of the overflow pipe, such that it engages the externally threaded end via engagement tabs. The overflow cap can be removed from the end of the overflow pipe by rotating the cap to unthread it from the threaded end of the overflow pipe.