Capacity control valve

The invention claimed is: 1. A capacity control valve characterized in being provided with: a discharge-side channel for interconnecting a discharge chamber for discharging a fluid and a control chamber for controlling the amount of the fluid discharged; a first valve chamber formed partway along said discharge-side channel; an intake-side channel for interconnecting an intake chamber for drawing in the fluid and said control chamber; a second valve chamber formed partway along said intake-side channel; a valve body integrally comprising a first valve part for opening and closing said discharge-side channel in said first valve chamber and a second valve part for opening and closing said intake-side channel in said second valve chamber, a reciprocating motion performed by the valve body causing mutually opposite opening and closing actions to be performed; a third valve chamber formed partway along said intake-side channel, nearer said control chamber than said second valve chamber; a pressure-sensitive body arranged in said third valve chamber, the pressure-sensitive body extending and thereby exerting an urging force in a direction so as to open said first valve part, and contracting in concert with an increase in ambient pressure; an adaptor provided to a free end, in the direction of extension, of said pressure-sensitive body, the adaptor having an annular seat surface on its top; a third valve part provided above the adaptor and constituted by a small-diameter section and a large-diameter section, said large-diameter section having an annular tapered engaging surface, which moves integrally with said valve body in said third valve chamber and engages and disengages with respect to the annular seat surface of the adaptor, thereby opening and closing said intake-side channel, said annular tapered engaging surface being tapered extending outward in an upward direction so that a lower part of the annular tapered engaging surface has a diameter smaller than that of an upper part of the annular tapered engaging surface; a solenoid for exerting an electromagnetic driving force on said valve body in a direction so as to close said first valve part, in response to a pulse width modulation signal having a uniform frequency; and a discharged-fluid-receiving part of larger diameter than the diameter of a valve hole interconnecting the first valve chamber and the third valve chamber, the discharged-fluid-receiving part being provided to an upper part of said large-diameter section of said third valve part, wherein the discharged-fluid-receiving part is formed by providing a flange only to the upper part of the large-diameter section of said third valve part above the annular tapered engaging surface, wherein the flange is not in contact with the tapered engaging surface and extends radially outwardly beyond the tapered engaging surface outside the tapered engaging surface as viewed in an axial direction, and an upper surface of the flange constituting the discharged-fluid-receiving part extends perpendicularly to the axial direction. 2. The capacity control valve according to claim 1 , characterized in that a surface of said discharged-fluid-receiving part that receives the discharged fluid is provided as a flat surface orthogonal to a direction in which the discharged fluid flows. 3. The capacity control valve according to claim 1 , characterized in that the outside diameter of the discharged-fluid-receiving part is set to 120% to 170% of the diameter of the valve hole. 4. The capacity control valve according to claim 1 , characterized in that the clearance between a surface of the discharged-fluid-receiving part that receives the pressure of the discharged fluid and a body-side surface that faces the surface is set to 210% to 250% of the maximum stroke of the valve body when the valve is closed. 5. The capacity control valve according to claim 2 , characterized in that the outside diameter of the discharged-fluid-receiving part is set to 120% to 170% of the diameter of the valve hole. 6. The capacity control valve according to claim 2 , characterized in that the clearance between a surface of the discharged-fluid-receiving part that receives the pressure of the discharged fluid and a body-side surface that faces the surface is set to 210% to 250% of the maximum stroke of the valve body when the valve is closed. 7. The capacity control valve according to claim 3 , characterized in that the clearance between a surface of the discharged-fluid-receiving part that receives the pressure of the discharged fluid and a body-side surface that faces the surface is set to 210% to 250% of the maximum stroke of the valve body when the valve is closed.