A hydrant includes: a hydrant body defining a hydrant inner cavity, the hydrant configured to couple to and be in fluid communication with a fluid distribution system including a fluid therein under pressure; and a break check valve coupled to the hydrant body, the valve including: a valve body defining a valve inner cavity, the hydrant inner cavity defining a valve bore in fluid communication with the fluid during normal operation of the hydrant; a valve member configured to rotate from an open position to a closed position of the valve; and an arm in contact with the hydrant and configured to prevent movement of the valve member when the hydrant is coupled to the valve, the valve defining a hole separate from the valve bore and in fluid communication with each of the hydrant inner cavity and the valve inner cavity.

A method for creating a pressure pulse in a fluid system with a noisemaker, the method includes opening a valve of the noisemaker to allow a fluid of the fluid system to flow through a valve cavity of the noisemaker, the valve disposed within the valve cavity, the noisemaker connected in fluid communication with the fluid system; closing the valve of the noisemaker to abruptly interrupt the flow of the fluid through the valve cavity; and repeatedly opening and closing the valve to generate a pulsating flow to the fluid system.

A method for creating a pressure pulse in a fluid system with a noisemaker, the method includes opening a valve of the noisemaker to allow a fluid of the fluid system to flow through a valve cavity of the noisemaker, the valve disposed within the valve cavity, the noisemaker connected in fluid communication with the fluid system; closing the valve of the noisemaker to abruptly interrupt the flow of the fluid through the valve cavity; and repeatedly opening and closing the valve to generate a pulsating flow to the fluid system.

Example aspects a hydrant shoe assembly and a method for assembling a hydrant shoe assembly are disclosed. The hydrant shoe assembly can comprise a shoe body defining a shoe body outer surface and a shoe body inner surface, the shoe body inner surface defining a void, the void defining an inlet end and an outlet end, an opening extending from the shoe body inner surface to the shoe body outer surface, the opening oriented proximate to the inlet end; a harness received in the void, the harness defining a harness inner surface and a harness outer surface, a protuberance extending radially outward from harness outer surface, the protuberance engaging the opening; and a pipe extending into the void through the inlet end, the harness inner surface engaging the pipe.

Example aspects a hydrant shoe assembly and a method for assembling a hydrant shoe assembly are disclosed. The hydrant shoe assembly can comprise a shoe body defining a shoe body outer surface and a shoe body inner surface, the shoe body inner surface defining a void, the void defining an inlet end and an outlet end, an opening extending from the shoe body inner surface to the shoe body outer surface, the opening oriented proximate to the inlet end; a harness received in the void, the harness defining a harness inner surface and a harness outer surface, a protuberance extending radially outward from harness outer surface, the protuberance engaging the opening; and a pipe extending into the void through the inlet end, the harness inner surface engaging the pipe.

A wall faucet is disclosed which has an elongated section of a PEX tube inserted into the water inlet pipe of the wall faucet. The PEX tube is capable of expanding should there be water in the water inlet pipe during freezing temperatures thereby preventing the water inlet pipe from bursting.

A fire hydrant drain includes an elongated, hollow body having a first portion, a second portion, and a third portion. The first portion is configured to protrude a first length radially through an outer wall of a fire hydrant. The second portion is continuous with and between the first portion and the third portion. The second portion includes a first bend having a first curvature degree and a first curvature direction, and a second bend having a second curvature degree and a second curvature direction. The first curvature degree is larger than the second curvature degree, and a direction of the first curvature is opposite a direction of the second curvature. The first bend is between the first portion and the second bend. The third portion extends a second length, and an angle between the first length and the third length is less than 90 degrees.

A break-away check valve is disclosed. The check valve may be configured between two passageways and may regulate the flow of liquid between the passageways. The check valve may include an actuation assembly that may actuate the check valve upon the system becoming dislodged or otherwise dislocated from at least one of the passageways.

A break-away check valve is disclosed. The check valve may be configured between two passageways and may regulate the flow of liquid between the passageways. The check valve may include an actuation assembly that may actuate the check valve upon the system becoming dislodged or otherwise dislocated from at least one of the passageways.

A fully serviceable frost proof mixing hydrant for supplying water at various temperatures to the exterior of a building. The mixing hydrant includes hot and cold water inlets and a chamber in which the water is mixed based on the position of a cammed wheel acting on a pair of poppets. These poppets act as temperature regulators and check valves to prevent cross-flow leakage and/or contamination. The mixing hydrant includes an inside tube or flow sleeve for delivery of water to an outside body tube in communication with a spout on the head of the hydrant. The flow from the inside tube to the outside body tube reduces turbulence and provides a better outlet flow from the spout. Flow control and temperature control are independent allowing the user to set the flow as desired then adjust the temperature as desired without affecting the flow. A turbulence reducer may be integrated in the vacuum breaker prevents leakage during use of the hydrant by reducing turbulence acting on the vacuum breaker poppet. Additionally, the user is able to service all aspects of the hydrant from outside the building