Integrated space conditioning and water heating/cooling systems and methods thereto

The invention claimed is: 1. A variable refrigerant flow (VRF) conditioning system comprising: an outdoor unit comprising a compressor, a condenser coil, and a fan; a water heater coupled to the outdoor unit; a first air conditioning unit coupled to the outdoor unit; and a controller configured to: determine that a cooling operation mode is active during a first time interval; cause vapor refrigerant to be directed from the outdoor unit to the water heater and liquid refrigerant to be directed from the outdoor unit to the first air conditioning unit, such that the water heater heats water and the first air conditioning unit simultaneously outputs cooled air during the first time interval; determine that a heating operation mode is active during a second time interval; and cause the vapor refrigerant to be directed from the outdoor unit to both the water heater and the first air conditioning unit, such that the water heater heats the water and the first air conditioning unit simultaneously outputs heated air during the second time interval. 2. The VRF conditioning system of claim 1 , wherein the controller is further configured to: cause, during the first time interval, heat energy extracted from the liquid refrigerant to be directed to the water heater. 3. The VRF conditioning system of claim 1 , further comprising: a second air conditioning unit coupled to the outdoor unit, wherein the second air conditioning unit is configured to operate in an air heating mode and an air cooling mode independent of the first air conditioning unit. 4. The VRF conditioning system of claim 1 , further comprising: a VRF network comprising a vapor refrigerant conduit, a liquid refrigerant conduit, and a return refrigerant conduit, the VRF network extending between the outdoor unit, the water heater, and the first air conditioning unit; wherein the water heater is a first terminal of the VRF network, and the first air conditioning unit is a second terminal of the VRF network. 5. The VRF conditioning system of claim 4 , wherein the VRF network is a three-pipe network. 6. The VRF conditioning system of claim 4 , wherein the VRF network further comprises: a branch selector component configured to: separate a mixture of refrigerant into the vapor refrigerant and the liquid refrigerant, wherein the mixture is being directed from the outdoor unit to the branch selector component. 7. The VRF conditioning system of claim 6 , wherein the branch selector component is configured to direct the vapor refrigerant to the second terminal when the first air conditioning unit is heating air, and to direct the liquid refrigerant to the second terminal when the first air conditioning unit is cooling air. 8. The VRF conditioning system of claim 1 , wherein the outdoor unit is a single outdoor unit. 9. The VRF conditioning system of claim 1 , wherein the water heater has a plurality of predetermined temperature set points. 10. The VRF conditioning system of claim 1 , wherein the controller is further configured to: cause the water heater to operate in a water heating mode at a predetermined scheduled time. 11. The VRF conditioning system of claim 1 , wherein the water heater is configured to heat or cool water for a pool. 12. The VRF conditioning system of claim 1 , wherein the water heater is positioned in a first interior area of a building and the first air conditioning unit is positioned in a second interior area of the building, the second interior area being different than the first interior area. 13. The VRF conditioning system of claim 1 , wherein the water heater is a heat pump water heater. 14. A variable refrigerant flow (VRF) conditioning system comprising: an outdoor unit comprising a compressor, a condenser coil, and a fan; a water heater coupled to the outdoor unit; a first air conditioning unit coupled to the outdoor unit; a second air conditioning unit coupled to the outdoor unit, wherein the second air conditioning unit is configured to operate in an air heating mode and an air cooling mode independent of the first air conditioning unit; and a controller configured to: determine that a cooling operation mode is active during a first time interval; cause vapor refrigerant to be directed from the outdoor unit to the water heater and liquid refrigerant to be directed from the outdoor unit to the first air conditioning unit, such that the water heater heats water and the first air conditioning unit simultaneously outputs cooled air during the first time interval; determine that a heating operation mode is active during a second time interval; and cause the vapor refrigerant to be directed from the outdoor unit to both the water heater and the first air conditioning unit, such that the water heater heats the water and the first air conditioning unit simultaneously outputs heated air during the second time interval. 15. The VRF conditioning system of claim 14 , wherein the controller is further configured to: cause, during the first time interval, heat energy extracted from the liquid refrigerant to be directed to the water heater. 16. The VRF conditioning system of claim 14 , wherein the outdoor unit is a single outdoor unit. 17. The VRF conditioning system of claim 14 , wherein the water heater has a plurality of predetermined temperature set points. 18. The VRF conditioning system of claim 14 , wherein the controller is further configured to: cause the water heater to operate in a water heating mode at a predetermined scheduled time. 19. A variable refrigerant flow (VRF) conditioning system comprising: an outdoor unit comprising a compressor, a condenser coil, and a fan; a water heater coupled to the outdoor unit; a first air conditioning unit coupled to the outdoor unit; and a controller configured to: determine that a cooling operation mode is active during a first time interval; cause vapor refrigerant to be directed from the outdoor unit to the water heater and liquid refrigerant to be directed from the outdoor unit to the first air conditioning unit, such that the water heater heats water and the first air conditioning unit simultaneously outputs cooled air during the first time interval; determine that a heating operation mode is active during a second time interval; cause the vapor refrigerant to be directed from the outdoor unit to both the water heater and the first air conditioning unit, such that the water heater heats the water and the first air conditioning unit simultaneously outputs heated air during the second time interval; and cause, during the first time interval, heat energy extracted from the liquid refrigerant to be directed to the water heater. 20. The VRF conditioning system of claim 19 , further comprising: a second air conditioning unit coupled to the outdoor unit, wherein the second air conditioning unit is configured to operate in an air heating mode and an air cooling mode independent of the first air conditioning unit.