Heat pump system with a flow directing system

The invention claimed is: 1. A heat pump system, comprising: a reversing valve configured to circulate a refrigerant through a closed loop in a first direction when the heat pump system is operating in a heating mode and in a second direction opposite of the first direction when the heat pump system is operating in a cooling mode; a compressor configured to compress the refrigerant; an indoor heat exchanger operable as a condenser in the heating mode and as an evaporator in the cooling mode; an outdoor heat exchanger operable as a two-pass condenser in the cooling mode and as a single-pass evaporator in the heating mode, the outdoor heat exchanger comprising: a first manifold; a second manifold subdivided by a baffle into a first section and a second section; and a plurality of tubes in fluid communication with the first manifold and the second manifold; at least one expansion device disposed in the closed loop between the indoor heat exchanger and the outdoor heat exchanger, and configured to reduce pressure of the refrigerant; and a flow directing system configured to direct the refrigerant from the reversing valve into the first section of the second manifold and out of the second section of the second manifold to the expansion device in the cooling mode and to direct the refrigerant from the expansion device into the first section and the second section of the second manifold and subsequently out of the first manifold to the reversing valve in the heating mode, wherein the flow directing system comprises at least a first valve disposed in a first piping segment and a second piping segment to block flow of the refrigerant from the first manifold to the reversing valve in the cooling mode and to block flow of the refrigerant from the first section of the second manifold to the reversing valve in the heating mode, and a second valve disposed in a third piping segment to block the refrigerant from bypassing the second section of the second manifold in the cooling mode. 2. The heat pump system of claim 1 , wherein the first piping segment is configured to direct the refrigerant exiting the first manifold to the reversing valve in the heating mode; the second piping segment is configured to direct the refrigerant exiting the reversing valve into the first section of the second manifold in the cooling mode; and the third piping segment is configured to direct the refrigerant exiting the expansion device into the first section of the second manifold in the heating mode. 3. The heat pump system of claim 1 , wherein the first and second valves are external to the first manifold and external to the second manifold. 4. The heat pump system of claim 1 , wherein the plurality of tubes comprise a first plurality of tubes in fluid communication with the first manifold and the first section of the second manifold and a second plurality of tubes in fluid communication with the first manifold and the second section of the second manifold, wherein the outdoor heat exchanger is configured to direct the refrigerant through the first plurality of tubes and the second plurality of tubes in series in the cooling mode, and wherein the outdoor heat exchanger is configured to direct the refrigerant through the first plurality of tubes and the second plurality of tubes in parallel in the heating mode. 5. The heat pump system of claim 1 , wherein the second manifold is configured to receive the refrigerant entering the outdoor heat exchanger in the heating mode and to receive the refrigerant entering the outdoor heat exchanger in the cooling mode. 6. The heat pump system of claim 1 , wherein the outdoor heat exchanger is configured to receive the refrigerant from both the first section of the second manifold and the second section of the second manifold in the heating mode. 7. The heat pump system of claim 1 , wherein at least one of the outdoor heat exchanger or the indoor heat exchanger comprises an air-cooled heat exchanger. 8. The heat pump system of claim 1 , wherein the tubes comprise multichannel tubes. 9. The heat pump system of claim 1 , comprising a distributor tube disposed in the first manifold to distribute the refrigerant within the first manifold. 10. A heat pump system, comprising: a reversing valve configured to circulate a refrigerant through a closed loop in a first direction when the heat pump system is operating in a heating mode and in a second direction opposite of the first direction when the heat pump system is operating in a cooling mode; a compressor configured to compress the refrigerant; an indoor heat exchanger operable as a condenser in the heating mode and as an evaporator in the cooling mode; an outdoor heat exchanger operable as a two-pass condenser in the cooling mode and as a single-pass evaporator in the heating mode, the outdoor heat exchanger comprising: a first manifold; a second manifold subdivided by a baffle into a first section and a second section; and a plurality of tubes in fluid communication with the first manifold and the second manifold; a pair of unidirectional expansion devices disposed in the closed loop between the indoor heat exchanger and the outdoor heat exchanger, and configured to reduce pressure of the refrigerant; and a flow directing system comprising one or more valves and piping segments of the closed loop, the flow directing system configured to direct the refrigerant from the reversing valve into the first section of the second manifold and out of the second section of the second manifold to the expansion device in the cooling mode and to direct the refrigerant from the expansion device into the first section and the second section of the second manifold and subsequently out of the first manifold to the reversing valve in the heating mode. 11. The heat pump system of claim 10 , wherein the flow directing system comprises one or more switching valves. 12. The heat pump system of claim 10 , wherein the indoor heat exchanger is operable as another two-pass condenser in the heating mode and as another single-pass evaporator in the cooling mode. 13. The heat pump system of claim 10 , comprising a first distributor device disposed in the first section of the second manifold and a second distributor device disposed in the second section of the second manifold. 14. A heat pump system, comprising: a reversing valve configured to circulate a refrigerant through a closed loop in a first direction when the heat pump system is operating in a heating mode and in a second direction opposite of the first direction when the heat pump system is operating in a cooling mode; an outdoor heat exchanger, comprising: a first manifold; a second manifold subdivided by a baffle into a first section and a second section; and a plurality of tubes in fluid communication with the first manifold and the second manifold; an indoor heat exchanger, comprising: a third manifold; a fourth manifold subdivided by an indoor heat exchanger baffle into a first section and a second section; and a plurality of tubes in fluid communication with the third manifold and the fourth manifold; and a flow directing system comprising one or more valves and piping segments of the closed loop, the flow directing system configured to, in the cooling mode, direct the refrigerant from the reversing valve into the first section of the second manifold of the outdoor heat exchanger and out of the second section of the second manifold of the outdoor heat exchanger to an expansion device and, in the heating mode, to direct the refrigerant from the expansion device into the first and second sections of the second manifold of the outdoor