A water container for use by poultry has a container with an inlet opening and an outlet opening, a water hose connected to the inlet opening, and a nozzle affixed to the inlet opening. The inlet opening is positioned below the outlet opening. The water hose is adapted to pass fresh water into an interior of the container. The outlet opening is adapted to allow water from the interior of the container to be released outwardly of the container. The nozzle is positioned adjacent to the bottom of the container and adapted to direct an unobstructed pressurized flow of water toward the bottom of the container so as to pressure wash, clean and remove debris from the interior of the container. A nipple is affixed to the container. The nipple is adapted to allow poultry to access water from the interior of the container.

A hummingbird feeder device is disclosed that is an easier and more convenient way to feed and attract hummingbirds. The hummingbird feeder device comprises a housing component that is configured in a triangular-shaped elongated design with an open interior cavity. An internal bladder or pouch filled with nectar/hummingbird food is disclosed within the open interior cavity. The housing component comprises multiple removable sections on the triangular design, which are removed to access the pouch. Once removed, feeding plugs are pulled out from the pouch on all sides of the triangular design. The feeding plugs typically resemble a live flower with a hole in the center for access to the nectar from the pouch. When the feeding plugs are pulled out, nectar from the pouch is exposed, which will in turn attract and feed nearby hummingbirds.

A top-fill hummingbird feeder is provided having a liquid container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the liquid container, and a valve or sealing mechanism associated with the liquid flow opening and the feeding basin. The feeding basin includes an upwardly extending cylindrical well that receives the lower end of the liquid container, and the valve or sealing mechanism includes a float valve associated with the well. The feeding basin is filled by gravity feed of the liquid in the container through the liquid flow opening when the sealing mechanism is open. When the feeding basin reaches a full position, the liquid nectar raises the float valve which, in turn, acts to close the liquid flow opening.

A top-fill hummingbird feeder is provided having a liquid container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the liquid container, and a valve or sealing mechanism associated with the liquid flow opening and the feeding basin. The feeding basin includes an upwardly extending cylindrical well that receives the lower end of the liquid container, and the valve or sealing mechanism includes a float valve associated with the well. The feeding basin is filled by gravity feed of the liquid in the container through the liquid flow opening when the sealing mechanism is open. When the feeding basin reaches a full position, the liquid nectar raises the float valve which, in turn, acts to close the liquid flow opening.

A top-fill hummingbird feeder is provided having a liquid container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the liquid container, and a sealing mechanism associated with the liquid flow opening and the feeding basin. The sealing mechanism includes a bottle seal assembly configured for removable coupling with a base of the feeding basin, and a float valve captured by said bottle seal assembly to prevent rotation thereof while allowing the float valve to move upwardly and downwardly with changing nectar levels in the feeding basin. The feeding basin is filled by gravity feed of the liquid in the container through the liquid flow opening when the sealing mechanism is open. When the feeding basin reaches a full position, the liquid nectar raises the float valve which, in turn, acts to close the liquid flow opening.

A top-fill hummingbird feeder is provided having a liquid container with a liquid flow opening at a lower end and a removable cap at an upper end, a feeding basin positioned below the liquid container, and a sealing mechanism associated with the liquid flow opening and the feeding basin. The sealing mechanism includes a bottle seal assembly configured for removable coupling with a base of the feeding basin, and a float valve captured by said bottle seal assembly to prevent rotation thereof while allowing the float valve to move upwardly and downwardly with changing nectar levels in the feeding basin. The feeding basin is filled by gravity feed of the liquid in the container through the liquid flow opening when the sealing mechanism is open. When the feeding basin reaches a full position, the liquid nectar raises the float valve which, in turn, acts to close the liquid flow opening.

A drinker system, comprising: a central pressure regulator configured regulate a fluid pressure to a regulated input pressure; and a plurality of pressure reducers each comprising: a high-pressure zone configured to receive the fluid from the regulator at the regulated input pressure, a low-pressure zone configured to provide the fluid to one of multiple drinker lines at a low output pressure maintained at a constant proportion to the regulated input pressure, and a moveable integral piece comprising a small diaphragm rigidly connected to a large diaphragm, wherein the small diaphragm is disposed in the high pressure zone and the large diaphragm is disposed in the low pressure zone, and wherein the constant proportion between the low output pressure and the regulated input pressure corresponds to the ratio between the surface area of the small diaphragm and the surface area of the large diaphragm.

An electrically-controlled water flow regulator for use with a poultry watering system receives potable water at a first, high flow rate and reduces the water flow rate of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a mating port inside the housing of the regulator. A motor controls the linear movement of the control valve in incremental steps to adjust the water flow rate provided to the flock. A feedback component enables the variable control valve to maintain the water flow rate at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

An electrically-controlled water flow regulator for use with a poultry watering system receives potable water at a first, high flow rate and reduces the water flow rate of the water provided to watering valves that dispense water to the flock within a poultry house. A variable control valve uses a needle-shaped cone to engage a mating port inside the housing of the regulator. A motor controls the linear movement of the control valve in incremental steps to adjust the water flow rate provided to the flock. A feedback component enables the variable control valve to maintain the water flow rate at a desired set point for the flock. The desired set point for the flock is controlled or automated to match the growth of the flock over their growth cycle. An electrical controller and suitable cabling enable multiple regulators to be controlled efficiently and cost-effectively.

A top-fill hummingbird feeder has a liquid container with a lower bottom opening which can be screw-threaded into a central collar of a feeding basin. An insert is received within the central collar and is configured to be vertically movable between a first position in which fluid is allowed to flow from the liquid container to the basin, and a second position in which fluid flow from the container to the basin is prevented.