Rinse valve for vacuum waste system

What is claimed is: 1. A rinse valve for controlling the flow of rinse fluid to a vacuum waste receptacle comprising: a valve block having an inlet cavity that receives rinse fluid and an outlet that supplies rinse fluid from the rinse valve to the waste receptacle; a primary rinse fluid flow path from the inlet cavity that receives rinse fluid to the outlet that supplies rinse fluid from the rinse valve to the waste receptacle; an inlet venting assembly disposed in the valve block proximal and connected to the inlet opposite the inlet cavity for venting air that enters the inlet cavity with the rinse fluid; a vacuum breaker outlet assembly, wherein the inlet venting assembly includes a first sleeve valve and the vacuum breaker outlet assembly includes a second sleeve valve, wherein the first sleeve valve includes a first sleeve and a first sleeve supporting member, the first sleeve supporting member slidably receiving the first sleeve, the first sleeve supporting member having a vent opening in communication with the atmosphere outside of the rinse valve; a poppet assembly intersecting the primary rinse fluid flow path, the poppet assembly including a poppet channel that drains a pilot chamber to facilitate opening of the poppet assembly to permit the flow of rinse fluid through the primary rinse fluid flow path; a secondary rinse fluid flow path branching off of the primary rinse fluid flow path and leading to the poppet channel; and a solenoid-driven fluid control device having a solenoid armature movable between an inactive state in which the armature engages the poppet assembly to block flow of the rinse fluid through the poppet channel and an active state in which the solenoid armature is disengaged from the poppet assembly to facilitate rinse fluid entering the poppet channel to raise the poppet assembly, permitting the flow of the rinse fluid through the primary rinse fluid flow path and out of the valve, the armature being located at all times out of the primary rinse fluid flow path. 2. The rinse valve of claim 1 , in which the poppet assembly further comprises a poppet member and a resilient diaphragm, the poppet member being disposed within a cavity of the diaphragm. 3. The rinse valve of claim 1 , wherein the poppet assembly has a raised inner seat engaged by the armature in the inactive state. 4. The rinse valve of claim 1 , in which the fluid control device further comprises a pressure tube surrounding the armature and having a spring positioned in a top end of the tube, wherein when the fluid control device moves into the active state, the armature slides in the tube against the force of the spring. 5. A rinse valve for controlling the flow of rinse fluid to a vacuum waste receptacle comprising: a valve block comprising: an inlet that receives rinse fluid; an inlet venting assembly disposed in the valve block connected to the inlet for venting air that enters the inlet; a solenoid-driven fluid control device; a vacuum breaker outlet assembly, wherein the inlet venting assembly includes a first sleeve valve and the vacuum breaker outlet assembly includes a second sleeve valve, wherein the first sleeve valve includes a first sleeve and a first sleeve supporting member, the first sleeve supporting member slidably receiving the first sleeve, the first sleeve supporting member having a vent opening in communication with the atmosphere outside of the rinse valve; an outlet for supplying rinse fluid from the rinse valve to the waste receptacle; and a channel in the valve block for conducting rinse fluid from the inlet to the inlet venting assembly, from the inlet venting assembly to the fluid control device, from the fluid control device to the vacuum breaker outlet assembly, and from the vacuum breaker outlet assembly to the outlet. 6. The rinse valve of claim 5 , further comprising a screen positioned in the channel between the inlet venting assembly and the fluid control device. 7. The rinse valve of claim 5 , wherein the vacuum breaker outlet assembly includes a second sleeve valve. 8. The rinse valve of claim 5 , wherein the first sleeve valve is biased open after the rinse valve is drained allowing ambient air to flow from the vent to the channel. 9. The rinse valve of claim 5 , wherein the second sleeve valve includes a second sleeve and a second sleeve supporting member, the second sleeve supporting member slidably receiving the second sleeve, the second sleeve supporting member having a vent opening in communication with the atmosphere outside of the rinse valve. 10. The rinse valve of claim 5 , wherein the first sleeve has an upper portion, a lower portion and a partition for blocking fluid flow between the upper and lower portions of the first sleeve. 11. The rinse valve of claim 10 , wherein the upper and lower portions of the first sleeve each include a peripheral wall having openings extending through the wall. 12. A rinse valve for controlling the flow of rinse fluid to a vacuum waste receptacle comprising: a valve block having an inlet for receiving rinse fluid and an outlet for supplying rinse fluid from the rinse valve to the waste receptacle; an inlet venting assembly disposed in the valve block connected to the inlet for venting air that enters the inlet, the inlet venting assembly including a first sleeve valve mounted between an expansion chamber and a first cavity, the first sleeve valve adapted to increase a volume of the first cavity by moving into the expansion chamber when rinse fluid in the first cavity freezes and expands; a vacuum break outlet assembly including a second sleeve valve, wherein the first sleeve valve includes a first sleeve and a first sleeve supporting member, the first sleeve supporting member slidably receiving the first sleeve, the first sleeve supporting member having a vent opening in communication with the atmosphere outside of the rinse valve; and a fluid control device for selectively establishing fluid communication between the inlet and the outlet. 13. The rinse valve of claim 12 , wherein air in the rinse valve is permitted to escape as the sleeve valve moves into a closed position and interrupts the fluid communication of air between the first cavity and the atmosphere outside of the rinse valve. 14. The rinse valve of claim 12 , wherein the first sleeve valve in a closed position permits rinse fluid to accumulate in the first cavity, the force of the accumulated rinse fluid maintaining the first sleeve valve in the closed position. 15. The rinse valve of claim 12 , further comprising a spring disposed in the expansion chamber around a portion of the first sleeve valve, wherein when the rinse fluid in the first cavity freezes and expands, the first sleeve valve moves against the force exerted by the spring. 16. The rinse valve of claim 12 , further comprising a primary rinse fluid flow path between the inlet and the outlet and a secondary rinse fluid flow path branching off of the primary rinse fluid flow path and leading to the fluid control device, wherein the fluid control device includes a solenoid-driven armature movable between an inactive state in which rinse fluid is blocked from flowing through the primary rinse fluid flow path and an active state in which rinse fluid flows through the primary rinse fluid flow path, the armature being located at all times out of the primary rinse fluid flow path. 17. The rinse valve of claim 16 , further comprising a poppet assembly intersecting the primary rinse fluid flow path, the armature in the inactive state engaging the poppet assembly.