A nozzle cap spacer for a hydrant nozzle cap includes a substantially planar spacer body defining an outer body edge; and a resilient spacer spring arm extending from the outer body edge at a proximal arm end, the spacer spring arm configurable in an extended orientation and a compressed orientation, the spacer spring arm biased to the extended orientation; wherein, in the extended orientation, the nozzle cap spacer defines a substantially oblong shape, and in the compressed orientation, the nozzle cap spacer defines a substantially circular shape

A freezeless outdoor shower assembly that is self-draining to prevent freezing and damage to the assembly when the assembly is exposed to cold and freezing weather. The assembly includes a riser coupled to a self-draining riser coupler assembly which drains water from the assembly when water from a water source it turned off. Preferably the freezeless outdoor shower assembled is coupled to an outdoor freezeless hydrant providing hot and cold water.

A freezeless outdoor shower assembly that is self-draining to prevent freezing and damage to the assembly when the assembly is exposed to cold and freezing weather. The assembly includes a riser coupled to a self-draining riser coupler assembly which drains water from the assembly when water from a water source it turned off. Preferably the freezeless outdoor shower assembled is coupled to an outdoor freezeless hydrant providing hot and cold water.

A supply assembly for use with a hydrant comprising a first supply valve adapted for coupling to a first supply line of the hydrant and a second supply valve adapted for coupling to a second supply line of the hydrant. A housing contains a first drain valve and a second drain valve. The first supply valve is coupled to the first drain valve for permitting water to be drained from the first supply line when a first outlet of the hydrant is off, and the second supply valve is coupled to the second drain valve for permitting water to be drained from the second supply line when a second outlet of the hydrant is off. The first supply valve is above the second supply valve to permit radially compact nesting of the first supply valve and the second supply valve. Related assemblies, valves and methods are provided.

A supply assembly for use with a hydrant comprising a first supply valve adapted for coupling to a first supply line of the hydrant and a second supply valve adapted for coupling to a second supply line of the hydrant. A housing contains a first drain valve and a second drain valve. The first supply valve is coupled to the first drain valve for permitting water to be drained from the first supply line when a first outlet of the hydrant is off, and the second supply valve is coupled to the second drain valve for permitting water to be drained from the second supply line when a second outlet of the hydrant is off. The first supply valve is above the second supply valve to permit radially compact nesting of the first supply valve and the second supply valve. Related assemblies, valves and methods are provided.

A fire hydrant system includes a fire hydrant (upper barrel and bonnet) that is separate from a first cover tube and a second cover tube that house a valve stem. To activate the system, a user opens a gate valve via the valve stem, thereby allowing water to enter the upper barrel of the fire hydrant. When the gate valve is closed, a drain valve allows water to exit the upper barrel, lower barrel, and shoe fitting, preventing damage during freezing temperatures.

A fire hydrant system includes a fire hydrant (upper barrel and bonnet) that is separate from a first cover tube and a second cover tube that house a valve stem. To activate the system, a user opens a gate valve via the valve stem, thereby allowing water to enter the upper barrel of the fire hydrant. When the gate valve is closed, a drain valve allows water to exit the upper barrel, lower barrel, and shoe fitting, preventing damage during freezing temperatures.

A nozzle cap spacer for a hydrant nozzle cap includes a spacer body defining an outer edge and an inner edge, the inner edge defining an opening formed through a center of the spacer body; and a leak path notch formed in the spacer body, the leak path notch extending radially inward from the outer edge of the spacer body.

A nozzle cap spacer for a hydrant nozzle cap includes a spacer body defining an outer edge and an inner edge, the inner edge defining an opening formed through a center of the spacer body; and a leak path notch formed in the spacer body, the leak path notch extending radially inward from the outer edge of the spacer body.

A nozzle cap spacer for a hydrant nozzle cap includes a spacer body defining an outer body edge, the spacer body defining a spacer body thickness; and a resilient first spacer spring arm extending from the outer body edge and biased away from the spacer body in an extended orientation, wherein the first spacer spring arm defines a first spring arm thickness; wherein the first spring arm thickness of the first spacer spring arm is equal to the spacer body thickness of the spacer body.