A control valve for discharging a liquid refrigerant in a control chamber at the time of start-up of a variable capacity compressor has a movable a center post for increasing the area of a passage for discharging the liquid refrigerant when discharging the liquid refrigerant.
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1. A capacity control valve comprising: discharge-side passages for providing communication between a discharge chamber for discharging a fluid and a control chamber for controlling a discharge rate of the fluid;a first valve chamber formed in the middle of the discharge-side passages;a valving elem
1. A capacity control valve comprising: discharge-side passages for providing communication between a discharge chamber for discharging a fluid and a control chamber for controlling a discharge rate of the fluid;a first valve chamber formed in the middle of the discharge-side passages;a valving element integrally having a first valve portion for opening and closing the discharge-side passages in the first valve chamber;suction-side passages for providing communication between a suction chamber for sucking the fluid and the control chamber;a second valve chamber and a third valve chamber formed in the middle of the suction-side passages;a suction-side passage opening/closing device provided in the middle of the suction-side passages; anda solenoid for exerting an electromagnetic driving force for controlling the valving element, and whereinthe suction-side passage opening/closing device has a third valve portion for opening and closing the suction-side passages by receiving the pressure of the control chamber in the third valve chamber, and a second valve portion for opening and closing the suction-side passages by receiving the electromagnetic driving force in the second valve chamber, anda center post which is a constituent member of the solenoid is provided movably in the axial direction in such a manner that one end face thereof is opposed to the second valve portion, and the center post is driven to the direction away from the second valve portion and controlled so that the distance between the second valve portion is increased when discharging a liquid refrigerant. 2. The capacity control valve according to claim 1, wherein the end face opposed to the second valve portion of the center post functions as a valve seat face of the second valve portion. 3. The capacity control valve according to claim 2, wherein the end face opposed to the second valve portion of the center post is formed in a tapered shape. 4. The capacity control valve according to claim 2, wherein the solenoid is provided with an elastic member for urging the center post to the second valve portion side, and the urging force of the elastic member is set smaller than the electromagnetic driving force to the center post when discharging the liquid refrigerant and larger than the electromagnetic driving force to the center post when performing continuous variable control. 5. The capacity control valve according to claim 2, wherein the suction-side passages are composed of an internal passage passing through the inside of the third valve portion, first valve portion, and second valve portion. 6. The capacity control valve according to claim 2, wherein a bypass passage for providing direct communication between the third valve chamber and the second valve chamber is provided in the valve body in addition to the internal passage, and the bypass passage is configured so as to be opened in accordance with the movement of the center post when discharging the liquid refrigerant. 7. The capacity control valve according to claim 6, wherein the end face opposed to the bypass passage of the center post is formed in a flat shape, and an elastic member for sealing is provided on the flat portion. 8. The capacity control valve according to claim 1, wherein the end face opposed to the second valve portion of the center post is formed in a tapered shape. 9. The capacity control valve according to claim 8, wherein the solenoid is provided with an elastic member for urging the center post to the second valve portion side, and the urging force of the elastic member is set smaller than the electromagnetic driving force to the center post when discharging the liquid refrigerant and larger than the electromagnetic driving force to the center post when performing continuous variable control. 10. The capacity control valve according to claim 8, wherein the suction-side passages are composed of an internal passage passing through the inside of the third valve portion, first valve portion, and second valve portion. 11. The capacity control valve according to claim 8, wherein a bypass passage for providing direct communication between the third valve chamber and the second valve chamber is provided in the valve body in addition to the internal passage, and the bypass passage is configured so as to be opened in accordance with the movement of the center post when discharging the liquid refrigerant. 12. The capacity control valve according to claim 11, wherein the end face opposed to the bypass passage of the center post is formed in a flat shape, and an elastic member for sealing is provided on the flat portion. 13. The capacity control valve according to claim 1, wherein the solenoid is provided with an elastic member for urging the center post to the second valve portion side, and the urging force of the elastic member is set smaller than the electromagnetic driving force to the center post when discharging the liquid refrigerant and larger than the electromagnetic driving force to the center post when performing continuous variable control. 14. The capacity control valve according to claim 13, wherein the suction-side passages are composed of an internal passage passing through the inside of the third valve portion, first valve portion, and second valve portion. 15. The capacity control valve according to claim 13, wherein a bypass passage for providing direct communication between the third valve chamber and the second valve chamber is provided in the valve body in addition to the internal passage, and the bypass passage is configured so as to be opened in accordance with the movement of the center post when discharging the liquid refrigerant. 16. The capacity control valve according to claim 15, wherein the end face opposed to the bypass passage of the center post is formed in a flat shape, and an elastic member for sealing is provided on the flat portion. 17. The capacity control valve according to claim 1, wherein the suction-side passages are composed of an internal passage passing through the inside of the third valve portion, first valve portion, and second valve portion. 18. The capacity control valve according to claim 17, wherein a bypass passage for providing direct communication between the third valve chamber and the second valve chamber is provided in the valve body in addition to the internal passage, and the bypass passage is configured so as to be opened in accordance with the movement of the center post when discharging the liquid refrigerant. 19. The capacity control valve according to claim 1, wherein a bypass passage for providing direct communication between the third valve chamber and the second valve chamber is provided in the valve body in addition to the internal passage, and the bypass passage is configured so as to be opened in accordance with the movement of the center post when discharging the liquid refrigerant. 20. The capacity control valve according to claim 19, wherein the end face opposed to the bypass passage of the center post is formed in a flat shape, and an elastic member for sealing is provided on the flat portion.
Kazuya Kimura JP; Masahiro Kawaguchi JP; Hiroaki Kayukawa JP; Tetsuhiko Fukanuma JP, Control valve and variable capacity type compressor having control valve.
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