The utility model relates to the technical field of a pet water dispenser, and provides an intelligent wireless omnidirectional auto-induction pet water dispenser, including a base, a water pump, a wireless induction device, a water tank, a supporting layer, a top cover and a water outlet device. When a pet is in an induction area, a power supply device is electrified and the water pump starts to work. After the pet leaves the induction area, the power supply device stops electrifying, and the water pump stops working. The water dispenser realizes automatic water delivery under the mutual cooperation of the base, the water pump, the wireless induction device, the water tank, the supporting layer, the top cover, and the water outlet device. A water pump water outlet hole and a water pump water inlet hole are sequentially connected to a water outlet and a water inlet. Positive and negative metal sheets are connected to positive and negative elastic pins. A polymer battery or a dry battery can be changed respectively in the base. In the water dispenser, a front end of the base is upward provided with an omnidirectional intelligent induction head, and an area where a pet is located can be induced omnidirectionally and the power supply device can be controlled through a wireless induction device so that a service is provided for the pet to drink water.

A method and apparatus for delivering sanitized drinking water to a poultry or other animal husbandry facility with water supplied from either a potable or non-potable source. In the case of a non-potable water source, ozone and antimicrobial copper or copper alloy are employed as primary and secondary sanitizing agents to eliminate chemical and biological drinking water contaminants. Ozone gas is generated onsite and serves as the primary sanitation agent prior to distribution of water to nipple drinker conduits within the facility. In the case of a potable water source, water is delivered directly to the drinking water distribution system. In either case, at least one conduit is filled with a woven mesh of antimicrobial copper to perform as a passive sanitation agent to inhibit microbial propagation and prevent development of biofilm within a nipple drinker system during periods of low flow and high temperatures. In the case of non-potable water source, as animals mature and consume more water, increasing concentrations of residual ozone clean the copper/copper alloy mesh surface and sanitize exposed nipple drinker actuator pins.

A liquid dispenser is described, having a tank configured to deliver and present a liquid in a drink basin within a tray base. The liquid may be a liquid bait for population control of small animals. To reduce evaporation and liquid waste, the tray base may be partially covered by a tray top. A spill basin may surround the drink basin, and may be configured so that tilting or inverting the liquid dispenser drains a liquid from the spill basin and drink basin back into the tank.

A leash attachment and method for using the leash attachment are provided. The leash attachment has a built-in flip open cup that allows an animal to drink from the flip open cup once liquid is expelled to the distal end of the cup via a nozzle. Unused liquid form the flip open cup drains back via a funnel into the leash attachment by way of a fill hole. The leash attachment attaches to a leash via a rolling cam with ridges on the cam's outer surface.

A watering tank circulating assembly includes a frame submerged in a livestock watering tank. A fluid pump is coupled to the frame to circulate the water when the fluid pump is turned on. In this way the fluid pump inhibits the water from freezing. A heating coil is coupled to the frame to heat the water when the heating coil is turned on, thusly inhibiting the water from freezing. A thermostatic switch is coupled to the frame and each of the fluid pump and the heating coil is electrically coupled to the thermostatic switch. The thermostatic switch turns on each of the fluid pump and the heating coil when the temperature of the water drops below a trigger temperature. Additionally, the thermostatic switch turns off each of the fluid pump and the heating coil when the temperature of the water rises about the trigger temperature.

A leash attachment and method for using the leash attachment are provided. The leash attachment has a built-in flip open cup that allows an animal to drink from the flip open cup once liquid is expelled to the distal end of the cup via a nozzle. Unused liquid from the flip open cup drains back via a funnel into the leash attachment by way of a fill hole. The leash attachment attaches to a leash via a rolling cam with ridges on the cam's outer surface.

An automatic animal watering assembly includes a base that has a bowl section therein and a receiver section. A container is removably inserted into the receiver section of the base. The container contains water and the container releases the water into the bowl section. The container has an opening extending through a top end of the container for filling the container. A plug is movably positioned within the container. The plug is positionable in a closed position and an open position. A lid is hingedly coupled to the top end of the container. A lever is pivotally coupled to the container and the plug rests on the lever. The lever lifts the plug when the lever is lifted and the lever lowers the plug when the lever is lowered. The lever is in mechanical communication with the lid such that the lid lowers and lifts the lever.

A canine water tank and housing device includes a cabinet having an access door. An aperture extends through a front wall of the cabinet. A base has a reservoir removably couplable to a hollow bottle. A bowl is insertable through the aperture. The bowl is used to contain a fluid from the bottle. A duct in the base defines a channel which is fluidically coupled to the reservoir and the bowl. The channel has a top end lower than a rim end of the bowl.

A drinking bowl (100) for domestic animals comprises a collecting basin (1), a removable container (2), a filtering element (3) which is arranged so as to close an opening (20) of the removable container (2) and a ventilation pipe (4) which extends between opposite ends of the removable container (2) and which opens inside the removable container (2) at a first end (41, 42) and downstream of the filtering element (3) at a second end (41, 42). The second end (41, 42) further comprises a widened portion (420) which is capable of channeling a flow of liquid inside the ventilation pipe (4) for introducing liquid inside the removable container (2).

An animal water dispenser is disclosed, including a water storage tank, a water pump provided at a bottom of the water storage tank, the water pump being provided with a water inlet side, a limit side and two positioning sides; water in the water storage tank entering the water pump from the water inlet side , the limit side being provided opposite to the water inlet side, the two positioning sides being opposite to each other and both connected with the water inlet side and the limit side; a positioning block being provided on each positioning side, a positioning hole being defined on each positioning block, a positioning column being provided on the bottom of the water storage tank, two positioning holes being respectively sleeved on the two positioning columns, the bottom of the water storage tank being convexly provided with a baffle for abutting against the limit side.