Disclosed are splash-proof covers and methods of use to prevent liquid within a pipe under the drain of a sink having a basin from splashing out of the sink. The covers include a central body portion having an undersurface from which plural spaced apart, suction cups project downward. The covers may include an anti-microbial and/or anti-fungal agent and are configured to be disposed in the sink with each of the suction cups releasably engaging respective portions of the basin surrounding the drain and with the central body portion being located directly over the drain and spaced slightly thereabove. The central body portion enables water from a faucet to flow under it into the drain while providing a barrier to prevent any liquid within a pipe under the drain from splashing back into the sink.

Disclosed are splash-proof covers and methods of use to prevent liquid within a pipe under the drain of a sink having a basin from splashing out of the sink. The covers include a central body portion having an undersurface from which plural spaced apart, suction cups project downward. The covers may include an anti-microbial and/or anti-fungal agent and are configured to be disposed in the sink with each of the suction cups releasably engaging respective portions of the basin surrounding the drain and with the central body portion being located directly over the drain and spaced slightly thereabove. The central body portion enables water from a faucet to flow under it into the drain while providing a barrier to prevent any liquid within a pipe under the drain from splashing back into the sink.

An approach is disclosed for preventing splashing of a liquid under a splashing area from a liquid source utilizing a barrier. The barrier includes a base, a top side of the base, a bottom side of the base, a first side of the base, a second side of the base, suction cups integrated into the bottom side of the base, a first angled foot is attached to the first side of the base, and a second angled foot is attached to the second side of the base. The first angled foot and the second angled foot are designed angled to allow a limited compression of the suction cups. When the barrier is placed on the splashing are, the suction cups are compressed to adhere to the area to form a seepage guard by the first angled foot preventing the liquid from seeping under the first angled foot.

An approach is disclosed for preventing splashing of a liquid under a splashing area from a liquid source utilizing a barrier. The barrier includes a base, a top side of the base, a bottom side of the base, a first side of the base, a second side of the base, suction cups integrated into the bottom side of the base, a first angled foot is attached to the first side of the base, and a second angled foot is attached to the second side of the base. The first angled foot and the second angled foot are designed angled to allow a limited compression of the suction cups. When the barrier is placed on the splashing are, the suction cups are compressed to adhere to the area to form a seepage guard by the first angled foot preventing the liquid from seeping under the first angled foot.

A fluid treatment and disposal system includes a sink, having a basin, a sink drain inlet, and a sink drain trap. An open cavity is disposed behind a rearward wall of the sink basin, between a top portion of the sink and the sink drain trap. A curved transition surface receives fluid entering the sink. Embodiments of the drain are shaped to promote the evacuation of fluid from the basin while limiting turbulence. An exhaust port fluidly coupled with the open cavity evacuates the open cavity and surrounding environment. Embodiments optionally associate one or more of the following with the open cavity: Ultra-Violet (UV) Germicidal Lights, and Ozone water, copper-silver ionization, and/or sanitizing agent injection systems.

A fluid treatment and disposal system includes a sink, having a basin, a sink drain inlet, and a sink drain trap. An open cavity is disposed behind a rearward wall of the sink basin, between a top portion of the sink and the sink drain trap. A curved transition surface receives fluid entering the sink. Embodiments of the drain are shaped to promote the evacuation of fluid from the basin while limiting turbulence. An exhaust port fluidly coupled with the open cavity evacuates the open cavity and surrounding environment. Embodiments optionally associate one or more of the following with the open cavity: Ultra-Violet (UV) Germicidal Lights, and Ozone water, copper-silver ionization, and/or sanitizing agent injection systems.

A sink to reduce or eliminate infection from being transmitted may include a front wall; a back wall being opposed to the front wall; and a pair of opposing side walls connecting the front wall to the back wall. The front wall, back wall and sidewalls defining a sink cavity, and the cavity includes a drain positioned closer to the back wall than positioned to the front wall.

A sink to reduce or eliminate infection from being transmitted may include a front wall; a back wall being opposed to the front wall; and a pair of opposing side walls connecting the front wall to the back wall. The front wall, back wall and sidewalls defining a sink cavity, and the cavity includes a drain positioned closer to the back wall than positioned to the front wall.

A mop sink assembly having a mop sink with a back wall, a left side wall, a right side wall, a front wall; and a bottom with a drain opening. The mop sink is comprised of a heavy gauge stainless steel; preferably 12 gauge 304 stainless steel. The mop sink assembly may further include a backsplash and a seamless joint seal. In practice the backsplash and the seamless joint seal are beneficially made of a fiberglass reinforced plastic.

A mop sink assembly having a mop sink with a back wall, a left side wall, a right side wall, a front wall; and a bottom with a drain opening. The mop sink is comprised of a heavy gauge stainless steel; preferably 12 gauge 304 stainless steel. The mop sink assembly may further include a backsplash and a seamless joint seal. In practice the backsplash and the seamless joint seal are beneficially made of a fiberglass reinforced plastic.