Valve device

What is claimed is: 1. A valve device comprising: a case having an open bottom portion and a receiving space formed therein; a rotor arranged in the receiving space and including a rotor shaft; a pinion gear rotatably coupled to the rotor shaft and to be rotated along with the rotor; a pad gear arranged on a side of the pinion gear to be engaged with the pinion gear, and to be rotated by the pinion gear, the pad gear including a pad valve shaft, which is a rotation shaft of the pad gear; a base plate to cover the open bottom portion of the case; a flow-in pipe coupled to the base plate to introduce a-refrigerant to the receiving space therethrough; a boss installed to the base plate, and including a plurality of refrigerant flow-in/out holes through which the introduced refrigerant flows in/out; a plurality of flow-in/out pipes coupled to the plurality of refrigerant flow-in/out holes and through which the introduced refrigerant flows in/out; and a pad arranged on the boss and rotatably coupled to the pad valve shaft so that the pad is rotatable with respect to the boss, the pad including: an open cavity formed therein to selectively open one of the plurality of refrigerant flow-in/out holes, and a connection cavity formed therein to selectively connect to one or two of the plurality of refrigerant flow-in/out holes, wherein the connection cavity is a closed cavity which is not directly opened to the receiving space, and the open cavity and the connection cavity are formed on a bottom surface of the pad facing the boss. 2. The valve device of claim 1 , wherein the boss comprises a plurality of insertion holes to which the plurality of flow-in/out pipes are inserted, and the plurality of insertion holes are formed to be connected to the plurality of refrigerant flow-in/out holes. 3. The valve device of claim 1 , wherein the open cavity and the connection cavity are each formed to have a shape of a groove recessed from the bottom surface of the pad facing the boss. 4. The valve device of claim 3 , wherein the open cavity is formed to extend to an edge of the pad in a radial direction of the pad. 5. The valve device of claim 3 , wherein the connection cavity is configured to connect two adjacent refrigerant flow-in/out holes together among the plurality of refrigerant flow-in/out holes. 6. The valve device of claim 1 , wherein the plurality of refrigerant flow-in/out holes comprise: a first refrigerant flow-in/out hole; a second refrigerant flow-in/out holed; a third refrigerant flow-in/out hole; and a fourth refrigerant flow-in/out hole; and wherein the plurality of refrigerant flow-in/out holes are formed in positions sequentially rotated 90 degrees counterclockwise starting from the first refrigerant flow-in/out hole to the fourth refrigerant flow-in/out hole based on a center of the boss. 7. The valve device of claim 6 , wherein the plurality of flow-in/out pipes comprise: a first flow-in/out pipe coupled to the first refrigerant flow-in/out hole; a second flow-in/out pipe coupled to the second refrigerant flow-in/out hole; a third flow-in/out pipe coupled to the third refrigerant flow-in/out hole; and a fourth flow-in/out pipe coupled to the fourth refrigerant flow-in/out hole. 8. The valve device of claim 7 , wherein the flow-in pipe is connected to an outlet pipe of a condenser to receive a-refrigerant from the condenser therethrough, the second flow-in/out pipe is connected to one end of a hot pipe, the third flow-in/out pipe is connected to an other end of the hot pipe, and the first flow-in/out pipe and the fourth flow-in/out pipe are connected to a capillary tube. 9. The valve device of claim 8 , wherein in a valve-closed state, the open cavity is located in between the first refrigerant flow-in/out hole and the fourth refrigerant flow-in/out hole so that all of the plurality of refrigerant flow-in/out holes are closed. 10. The valve device of claim 9 , wherein in response to the pad being rotated 45 degrees counterclockwise around the center of the boss from a position in the valve-closed state, the first refrigerant flow-in/out hole is opened by the open cavity, the fourth refrigerant flow-in/out hole is closed, and the second refrigerant flow-in/out hole and the third refrigerant flow-in/out hole are connected by the connection cavity. 11. The valve device of claim 10 , wherein the refrigerant flowing into the receiving space through the flow-in pipe flows out into the first flow-in/out pipe through the first refrigerant flow-in/out hole and flows into the capillary tube, and the fourth refrigerant flow-in/out hole is closed, thereby closing an outflow into the fourth flow-in/out pipe. 12. The valve device of claim 9 , wherein in response to the pad being rotated 135 degrees counterclockwise around the center of the boss from the position in the valve-closed state, the second refrigerant flow-in/out hole is opened by the open cavity, the first refrigerant flow-in/out hole is closed, and the third refrigerant flow-in/out hole and the fourth refrigerant flow-in/out hole are connected by the connection cavity. 13. The valve device of claim 12 , wherein the refrigerant flowing into the receiving space through the flow-in pipe flows out into the second flow-in/out pipe through the second refrigerant flow-in/out hole and flows into the third flow-in/out pipe through the hot pipe, and the refrigerant flowing into the third flow-in/out pipe flows out into the fourth flow-in/out pipe through the fourth refrigerant flow-in/out hole connected to the third refrigerant flow-in/out hole by the connection cavity and flows into the capillary tube. 14. The valve device of claim 8 , the one end of the hot pipe is an entrance where the refrigerant from the receiving space flows into and the other end of the hot pipe is an exit where the refrigerant in the hot pipe flows out. 15. A valve device comprising: a case having a receiving space formed therein, a flow-in hole, and a boss hole; a rotor installed in the receiving space and including a rotor shaft; a pinion gear rotatably coupled to the rotor shaft and to be rotated by the rotor; a pad gear engaged with the pinion gear to be rotated with the pinion gear, the pad gear including a pad valve shaft; a flow-in pipe coupled to the flow-in hole to introduce a-refrigerant to the receiving space therethrough; a boss installed to the boss hole and including a plurality of flow-in/out holes; a plurality of flow-in/out pipes respectively coupled to the plurality of refrigerant flow-in/out holes and through which the introduced refrigerant flows in/out; and a pad coupled to the pad gear so that the pad is rotatable with respect to the boss to selectively open or close the plurality of flow-in/out holes, the pad including: an open cavity formed therein to selectively open one of the plurality of refrigerant flow-in/out holes, and a connection cavity formed therein to selectively connect one or two of the plurality of refrigerant flow-in/out holes, wherein the connection cavity is a closed cavity which is not directly opened to the receiving space, and the open cavity and the connection cavity are formed on a bottom surface of the pad facing the boss.