Water delivery apparatuses and associated methods that minimize the amount of time and preparation and/or maintenance work required for a user to supply water to one or more animals are disclosed. In an aspect, water delivery apparatuses and associated methods of use are disclosed that are configured to maintain a substantially consistent water quantity within at least one water reservoir that provides drinkable water to one or more animals. The substantially consistent water quantity may be maintained by configuring at least one float mechanism that comprises at least one sealing element to at least partially block at least one orifice associated with at least one water supply inlet connected to a continuous water supply once the water within the reservoir reaches a certain level, thereby slowing and/or stopping the incoming water flow. When the water later falls below that level, the float mechanism and its associated sealing element may also drop and the orifice of the water supply inlet may become unblocked, thereby allowing more water to enter the reservoir. In this way, a user may not be required to constantly refill or otherwise maintain a water container in order to provide water to one or more animals, thereby saving the user time.
