Provided is an enclosure with an integrated hydrant. The enclosure includes a fluid flow conduit that transfers fluid from a fluid supply tube to a fluid outlet, which may be associated with the backflow preventer. The enclosure has a conduit that carries water from the fluid supply tube to the backflow preventer. Thus, a lower profile, lighter, and more aesthetically pleasing enclosure is provided.

Disclosed is a hydrant (1) comprising a hydrant housing (2) and a valve seat (3) arranged inside the hydrant housing (2). The hydrant (1) also comprises a valve body (4) resting against the valve seat (3) when the hydrant (1) is closed, wherein the valve seat (3) is arranged on an inner bayonet ring (5) being connected to an outer bayonet ring (6) through a bayonet coupling (7) and wherein the outer bayonet ring (6) is connected to the hydrant housing (2). A method for mounting a valve seat (3) in a hydrant (1) is also disclosed.

The present invention is provide an industrial hydrant comprising an inlet operatively connected to a hydrant body. An inlet valve is in fluid communication with the inlet. A valve guiding is operatively connected to the inlet valve. A main valve within the inlet valve has a main valve outer diameter greater than six inches. The main valve is operatively connected to the valve guiding. A pilot valve within the inlet valve is operatively connected to the main valve and the valve guiding. The pilot valve has a pilot valve outer diameter that is less than the main valve outer diameter.

The present invention is provide an industrial hydrant comprising an inlet operatively connected to a hydrant body. An inlet valve is in fluid communication with the inlet. A valve guiding is operatively connected to the inlet valve. A main valve within the inlet valve has a main valve outer diameter greater than six inches. The main valve is operatively connected to the valve guiding. A pilot valve within the inlet valve is operatively connected to the main valve and the valve guiding. The pilot valve has a pilot valve outer diameter that is less than the main valve outer diameter.

An infrastructure monitoring assembly includes a nozzle cap defining an internal cavity; an antenna positioned at least partially external to the internal cavity; and the antenna covered with a non-metallic material. An infrastructure monitoring assembly includes a nozzle cap defining a first end and a second end, the first end defining a threaded bore configured to mount on a nozzle of a fire hydrant; a cover coupled to the nozzle cap opposite from the first end; an enclosure positioned at least partially between the cover and the first end, the enclosure at least partially defining a cavity; a monitoring device positioned within the cavity; and an antenna positioned between the cover and the first end of the nozzle cap, the antenna connected in electrical communication with the monitoring device, the antenna covered by a non-metallic material.

A freeze resistant wall hydrant including an outdoor housing joined to the outer end of an outlet tube for securing to a building and a fitting joined to the inner end of the outlet tube for coupling to a water supply. The fitting includes a fluid closure valve having a valve part movable between first and second positions for closing and opening the valve. A stem extends through the outlet tube and has an outer end coupled to a handle of the outdoor housing and an inner end coupled to the valve part. The handle moves the valve part to close and open the valve. The outlet tube and the stem can each be made from a cross-linked polyethylene or flexible plastic to facilitate installation of the wall hydrant. Methods for using or resizing the wall hydrant are provided.

Embodiments disclosed herein are directed to a removable plug assembly configured to inhibit debris from passing through is provided. The removable plug assembly includes a support member portion and a plug portion. The support member portion has a plurality of support members extending outward from a center portion. The plug portion has a continuous wall sloping in an inwardly central axis direction from a top surface to a bottom surface. The top surface defining a perimeter of the of the plug portion. The support member portion coupled to the top surface. Each one of the plurality of support members extend beyond the perimeter. The continuous wall operable to contact a portion of an inner surface of a tube to inhibit the plug portion from advancing fully into the tube.