Break check valve for hydrant

That which is claimed is: 1. A hydrant comprising: a hydrant body defining a hydrant inner cavity, the hydrant body configured to couple to and be in fluid communication with a fluid distribution system comprising a fluid therein under pressure; and a break check valve coupled to the hydrant body, the valve comprising: a valve body defining a valve inner cavity, the valve inner cavity defining a valve bore, the valve bore defining a longitudinal axis of the valve body; a pivot pin positioned within the valve inner cavity and secured to the valve body, an axis of the pivot pin offset in a radial direction with respect to the longitudinal axis of the valve body by an offset distance; and a valve member positioned within the valve inner cavity and configured to rotate about the pivot pin from an open position to a closed position of the valve, the valve member comprising a plate and an arm extending from the plate, the arm in contact with the hydrant body and configured to prevent movement of the valve member when the hydrant body is coupled to the valve, the plate defining a disc shape and a pivot bore sized to receive the pivot pin, the pivot pin extending through the disc shape and not a lug extending therefrom, in cross-section the pivot pin not extending in a radial direction of the pivot pin past a first side surface or a second side surface of disc shape of the plate. 2. The hydrant of claim 1 , wherein the valve body comprises a stop, the stop extending radially inward from a surrounding portion of the valve bore with respect to the longitudinal axis of the valve body. 3. The hydrant of claim 2 , wherein the stop prevents movement of the valve member past the stop when the valve member is in the closed position of the valve and is configured to reduce a force on the pivot pin from a pressure of the fluid by supporting at least a portion of the valve member when the valve member is in the closed position of the valve. 4. The hydrant of claim 1 , wherein the pivot bore extends through a center of the disc shape. 5. The hydrant of claim 1 , wherein the hydrant is capable of being installed along a vertical axis in any one of multiple angular positions with respect to an angular position of the valve, the valve configured to remain open when the hydrant body is coupled to the valve and remain closed when the hydrant body is separated from the valve. 6. A break check valve for a hydrant, the valve comprising: a valve body defining a mating surface and a valve inner cavity defining a valve bore, the valve body defining an installation height measured between a first axial end and a second axial end; a pivot pin positioned inside the valve inner cavity and secured to the valve body, an axis of the pivot pin offset in a radial direction with respect to a longitudinal axis of the valve body by an offset distance; and a valve member positioned within the valve inner cavity and configured to rotate about the pivot pin from an open position to a closed position of the valve, the valve member comprising a plate and an arm extending from the plate, the valve member configured to remain in the open position of the valve as long as a mating surface of the hydrant remains in contact with the mating surface of the valve body, the valve member further configured to close when the mating surface of the hydrant is separated from the mating surface of the valve body, the plate defining a disc shape and a pivot bore sized to receive the pivot pin, the pivot pin extending through the disc shape and not a lug extending therefrom, in cross-section the pivot pin not extending in a radial direction of the pivot pin past a first side surface or a second side surface of the disc shape of the plate, the plate of the valve member extending in an axial direction past both of the first axial end and the second axial end when the valve is in the open position but not extending in an axial direction past either the first axial end or the second axial end when the valve is in the closed position. 7. The valve of claim 6 , wherein the valve body comprises a stop, the stop extending radially inward from a surrounding portion of the valve bore with respect to the longitudinal axis of the valve body and preventing movement of the valve member past the stop when the valve member is in the closed position of the valve. 8. The valve of claim 6 , wherein the pivot bore and the pivot pin define a gap therebetween. 9. The valve of claim 6 , wherein the valve comprises a dampener configured to slow a speed of the valve member when the valve member is proximate to the closed position, at least a portion of the dampener positioned in an axial direction between the first axial end and the second axial end. 10. The valve of claim 9 , wherein the valve body comprises a support pad supporting the dampener, the dampener positioned between the support pad and the valve member when the valve member is proximate to or in the closed position of the valve. 11. The valve of claim 9 , wherein the dampener comprises one of a biasing member and a hydraulic piston. 12. The valve of claim 11 , wherein the dampener comprises the hydraulic piston, the hydraulic piston positioned within a housing defining a cylinder, the housing defining a slot in an outer wall of the housing, the outer wall defining at least in part the valve inner cavity, the slot extending from an end of the housing proximate to the valve member when in the closed position of the valve. 13. The valve of claim 11 , wherein the dampener comprises the hydraulic piston, the hydraulic piston positioned within a housing defining a cylinder, the housing defining an orifice sized to restrict flow of a fluid to and from the cylinder. 14. The valve of claim 9 , wherein the dampener does not extend in an axial direction past either the first axial end or the second axial end. 15. The valve of claim 6 , wherein the plate of the valve member extends in an axial direction past both of the first axial end and the second axial end when the valve is in the open position but does not extend in an axial direction past either the first axial end or the second axial end when the valve is in the closed position. 16. A break check valve for a hydrant, the valve comprising: a valve body defining a mating surface and a valve inner cavity defining a valve bore, the valve body defining an installation height measured between a first axial end and a second axial end; a pivot pin positioned inside the valve inner cavity and secured to the valve body; and a valve member positioned within the valve inner cavity and configured to rotate about the pivot pin from an open position to a closed position of the valve, the valve member comprising a plate and an arm extending from the plate, the valve member extending across the valve bore and configured to substantially stop flow of fluid therethrough when the valve is in the closed position, the valve member configured to remain in the open position of the valve as long as a mating surface of the hydrant remains in contact with the mating surface of the valve body, the valve member further configured to close when the mating surface of the hydrant is separated from the mating surface of the valve body, the plate defining a disc shape and a pivot bore sized to receive the pivot pin, the pivot pin extending through the disc shape and not a lug extending therefrom, in cross-section the pivot pin not extending in a radial direction of the pivot pin past a first side surface or a second side surface of the plate, the plate of the valve member extending in an axial direction past both of th