Control valve for a swash plate compressor having a passage controlled by three orifice holes and variable capacity compressor

What is claimed: 1. A control valve to adjust an angle of a swash plate of a variable capacity compressor, the control valve comprising: a valve housing having a first hole in communication with a discharge chamber of the compressor, a second hole in communication with a crank chamber, and a third hole in communication with a suction chamber; a first passage allowing the first hole to communicate with the second hole and a second passage allowing the second hole to communicate with the third hole in the valve housing; a first switching means for opening and closing the first passage; and a second switching means for opening and closing the second passage, wherein the first passage is fully opened and the second passage is partially opened in a first condition in which an angle of inclination of the swash plate is decreased to minimize a movement distance of a piston, and the first passage is fully closed and the second passage is fully opened in a second condition in which the angle of inclination of the swash plate is increased to maximize the movement distance of the piston, wherein in a third condition in which the angle of the swash olate is adjusted so that the movement distance of the piston corresponds between the first condition and the second condition, the first passage is partially opened to form a partial opening and the second passage is opened to a degree that is larger than the partial opening and smaller than the full opening of the first passage, wherein the second switching means comprises a first orifice hole a second orifice hole and a third orifice hole for opening and closing the second passage, and in the first condition, the second orifice hole opens the second passage, and the first orifice hole and the third orifice hole close the second passage, wherein in the second condition, the first to third orifice holes open the second passage, and wherein in the third condition, the first and second orifice holes open the second passage, and the third orifice hole closes the second passage. 2. The control valve according to claim 1 , wherein the second switching means opens a flow area of the second passage larger in the order of the first condition<the third condition<the second condition. 3. The control valve according to claim 1 , wherein the first switching means is a ball valve that comes into contact with or is separated from the valve housing between the first hole and the second hole to open and close the first passage. 4. A variable capacity compressor comprising: the control valve according to claim 1 ; the crank chamber having the swash plate disposed therein; a cylinder bore in which the piston reciprocates to compress a refrigerant; and a valve assembly configured to suck or discharge the refrigerant into or from the cylinder bore, wherein the valve assembly comprises: a valve plate comprising the following elements: a suction hole for circulation of the refrigerant sucked thereinto, a discharge hole for circulation of the refrigerant discharged therefrom, and first to third circulation holes for connecting the control valve to the suction chamber, the discharge chamber, and the crank chamber; a suction reed disposed on one surface of the valve plate to open and close the suction hole; and a discharge reed disposed on the other surface of the valve plate to open and close the discharge hole. 5. A variable capacity compressor comprising: the control valve according to claim 1 ; the crank chamber having the swash plate disposed therein; a cylinder bore in which the piston reciprocates to compress a refrigerant; and a valve assembly configured to suck or discharge the refrigerant into or from the cylinder bore, wherein the valve assembly comprises: a valve plate comprising the following elements: a suction hole for circulation of the refrigerant sucked thereinto, a discharge hole for circulation of the refrigerant discharged therefrom, first to third circulation holes for connecting the control valve to the suction chamber, the discharge chamber, and the crank chamber, and an assembly hole for housing fastening; a suction reed disposed on one surface of the valve plate to open and close the suction hole; and a discharge reed disposed on the other surface of the valve plate to open and close the discharge hole. 6. A variable capacity compressor comprising: the control valve according to claim 1 ; the crank chamber having the swash plate disposed therein; a cylinder bore in which the piston reciprocates to compress a refrigerant; and a valve assembly configured to suck or discharge the refrigerant into or from the cylinder bore, wherein the valve assembly comprises: a valve plate comprising the following elements: a suction hole for circulation of the refrigerant sucked thereinto, a discharge hole for circulation of the refrigerant discharged therefrom, first to third circulation holes for connecting the control valve to the suction chamber, the discharge chamber, and the crank chamber, an assembly hole for housing fastening, and a coupling hole for coupling a discharge reed; a suction reed disposed on one surface of the valve plate to open and close the suction hole; and the discharge reed disposed on the other surface of the valve plate to open and close the discharge hole. 7. A variable capacity compressor comprising: the control valve according to claim 1 ; the crank chamber having the swash plate disposed therein; a cylinder bore in which the piston reciprocates to compress a refrigerant; and a valve assembly configured to suck or discharge the refrigerant into or from the cylinder bore. 8. The control valve according to claim 1 , wherein the first switching means is a ball valve.