Control valve for variable displacement compressor

What is claimed is: 1. A control valve for a variable displacement compressor for varying a discharging capacity of the compressor for compressing refrigerant led into a suction chamber and discharging the compressed refrigerant from a discharge chamber, by regulating a flow rate of the refrigerant led into a crankcase from the discharge chamber, the control valve comprising: a body having a discharge chamber communication port communicating with the discharge chamber, a crankcase communication port communicating with the crankcase, and a valve hole formed in a passage connecting the discharge chamber communication port and the crankcase communication port; a valve element for opening and closing a valve section, the valve element being arranged in such a manner as to move toward and away from the valve hole; a solenoid, provided in the body, which generates a solenoidal force with which to drive the valve element in a closing direction in accordance with an amount of current supplied; and a transmitting rod that transmits the solenoidal force to the valve element, the transmitting rod being slidably supported in a direction of axis line in the body, the solenoid including: a bottomed sleeve secured to the body wherein a pressure of refrigerant is introduced to an interior of the sleeve; a core secured coaxially to the sleeve; a plunger, contained in the sleeve on a bottom side of the sleeve and disposed opposite to the core in the direction of axis line, the plunger being displaceable integrally with the transmitting rod in the direction of axis line; a first spring that applies a biasing force in a valve opening direction to the transmitting rod; a second spring that applies a biasing force in a valve closing direction to the plunger; a shaft support member secured to an inner wall of the sleeve near a bottom portion of the sleeve and slidably supporting an end part of the transmitting rod, wherein the second spring is set between the shaft support member and the plunger; and wherein the shaft support member is secured to the sleeve by a contact surface pressure of the shaft support member against the inner wall of the sleeve, the shaft support member is pressed in the direction of axis line by deformation of the bottom portion of the sleeve in the direction of axis line in such a manner as to regulate a press-fitting position of the shaft support member relative to the sleeve, whereby a set load of the first spring and the second spring is adjusted, wherein an outer periphery of the shaft support member is partially cut out to form a communication path between the sleeve and the shaft support member, and wherein the shaft support member has a through-hole in which the transmitting rod is inserted. 2. The control valve, for the variable displacement compressor, according to claim 1 , wherein the control valve is applied to a refrigeration cycle in which a refrigeration operation is performed in a supercritical range exceeding a critical temperature of the refrigerant. 3. The control valve, for the variable displacement compressor, according to claim 1 , wherein the body has a suction chamber communication port that communicates with the suction chamber, wherein the interior of the sleeve communicates with the suction chamber communication port, wherein the valve element is arranged in a valve chamber formed between the valve hole and the crankcase communication port, wherein one end side of the transmitting rod is coupled with the valve element in the valve chamber, and the other end side of the transmitting rod is coupled with the plunger inside the sleeve, and wherein control is performed such that a differential pressure between a discharge pressure of the discharge chamber and a suction pressure of the suction chamber is maintained at a preset differential pressure according to the amount of current supplied to the solenoid. 4. The control valve, for the variable displacement compressor, according to claim 3 , wherein the body includes a working chamber, which communicates the interior of the sleeve and the suction chamber communication port, a partition wall, which divides an internal space of the body into the valve chamber and the working chamber, and a guiding passage formed in the partition wall, and wherein the transmitting rod is slidably supported along the guiding passage. 5. The control valve, for the variable displacement compressor, according to claim 4 , wherein the transmitting rod is configured such that a shaft, which is inserted into the sleeve, and an actuating rod, which penetrates through the guiding passage, are coupled together in the direction of axis line. 6. The control valve, for the variable displacement compressor, according to claim 3 , wherein the discharge chamber communication port, the crankcase communication port and the suction chamber communication port are formed in this order from one end side of the body, and the solenoid is provided on the other side of the body. 7. The control valve, for the variable displacement compressor, according to claim 4 , wherein the discharge chamber communication port, the crankcase communication port and the suction chamber communication port are formed in this order from one end side of the body, and the solenoid is provided on the other side of the body. 8. The control valve, for the variable displacement compressor, according to claim 5 , wherein the discharge chamber communication port, the crankcase communication port and the suction chamber communication port are formed in this order from one end side of the body, and the solenoid is provided on the other side of the body. 9. The control valve, for the variable displacement compressor, according to claim 2 , wherein the body has a suction chamber communication port that communicates with the suction chamber, wherein the interior of the sleeve communicates with the suction chamber communication port, wherein the valve element is arranged in a valve chamber formed between the valve hole and the crankcase communication port, wherein one end side of the transmitting rod is coupled with the valve element in the valve chamber, and the other end side of the transmitting rod is coupled with the plunger inside the sleeve, and wherein control is performed such that a differential pressure between a discharge pressure of the discharge chamber and a suction pressure of the suction chamber is maintained at a preset differential pressure according to the amount of current supplied to the solenoid.