Suction valve for a refrigeration compressor and its mounting process

The invention claimed is: 1. A refrigeration compressor of the type which comprises: a compressor block; a valve plate attached to the compressor block and provided with at least one suction orifice; and a suction valve (V) formed, with the same nominal thickness as the valve plate, by a spacer body, provided with a median opening having a continuous inner edge and to be seated on the valve plate, and by a flexible vane, having a peripheral edge with a contour corresponding to the inner edge of the median opening and said flexible vane being formed, along a longitudinal axis (X), by a fixing end portion, to be seated and secured to the valve plate, in the interior of the median opening, a bending median portion and a sealing end portion, operatively associated with the suction orifice, wherein one of the fixing end portion comprises a peripheral edge portions and the median opening comprises an inner edge portions, and wherein the peripheral edge portions are seated against the inner edge portions without a gap between the peripheral edge portions and the inner edge portions and restrict coplanar displacement of the fixing end portion in relation to the spacer body and limit linear and angular displacements, in any direction, of the flexible vane in relation to the spacer body and in the plane of the latter, by the flexible vane being seated against the valve plate, in the interior of said median opening. 2. The suction valve, as set forth in claim 1 , characterized in that the peripheral edge portions of the fixing end portion of the flexible vane define, with the confronting inner edge portions of the median opening, of the spacer body, a gap which is smaller than a respective gap defined, in the same direction of a restriction of the coplanar displacement of the flexible vane in relation to the spacer body, between the portions of the peripheral edge of the bending median portion and of the sealing end portion of the flexible vane and the confronting portions of the continuous inner edge of the median opening. 3. The refrigeration compressor, as set forth in claim 2 , characterized in that the peripheral edge portions be seated against the respective inner edge portions of the median opening, according to directions respectively orthogonal and parallel to the longitudinal axis (X), upon seating the flexible vane against the valve plate, in the interior of the median opening. 4. The refrigeration compressor, as set forth in claim 1 , characterized in that the fixing end portion presents a contour asymmetrical in relation to the longitudinal axis (X). 5. The refrigeration compressor, as set forth in claim 4 , characterized in that one of the parts of fixing end portion and of median opening of the spacer body includes an end cutout provided in a peripheral edge portion, of the respective part, which intercepts the longitudinal axis (X), said end cutout being provided in an eccentric position in relation to the longitudinal axis (X), so as to provide, to the respective part, a contour asymmetrical in relation to the longitudinal axis (X). 6. The refrigeration compressor, as set forth in claim 5 , characterized in that the end cutout presents, internally, peripheral edge portions of the respective part, seated against confronting inner edge portions defined in a projecting portion of the confronting contour of the other of said parts, so as to limit displacements of the flexible vane in its seating plane on the valve plate. 7. The refrigeration compressor, as set forth in claim 5 , characterized in that one of the parts of the fixing end portion and of the median opening of the spacer body includes a pair of lateral cutouts, each presenting, internally, peripheral edge portions seated against confronting inner edge portions defined in a projecting portion of the confronting contour of the other of said parts, so as to impede the flexible vane from displacing in its seating plane on the valve plate. 8. The refrigeration compressor, as set forth in claim 7 , characterized in that each of the lateral cutouts has a length defined by the axial distance of its median axis, in relation to the peripheral edge portion of said parts, the median axis intercepting the longitudinal axis (X), and wherein a contour of each of the lateral cutouts and the length of each of said lateral cutouts is equal to the other. 9. The refrigeration compressor valve, as set forth in claim 7 , characterized in that each of the lateral cutouts presents has a length defined by the axial distance of its median axis, in relation to the peripheral edge portion of said parts, the median axis intercepting the longitudinal axis (X), and wherein a contour and the length of each of said lateral cutouts is different from each other. 10. A process for mounting a suction valve in a refrigeration compressor of the type which comprises: a compressor block; a valve plate attached to the compressor block and provided with at least one suction orifice; and a suction valve (V) formed, with the same nominal thickness as the valve plate, by a spacer body, provided with a median opening having a continuous inner edge and to be seated on the valve plate, and by a flexible vane, having a peripheral edge with a contour corresponding to the inner edge of the median opening, said flexible vane being formed, along a longitudinal axis (X), by a fixing end portion, to be seated and secured to the valve plate, in the interior of the median opening, a bending median portion and a sealing end portion, operatively associated with the suction orifice, the process being characterized in that it comprises the steps of: stamping the flexible vane having the portions of the edge of its fixing end portion comprising peripheral edge portions shaping the spacer body, wherein the median opening comprises inner edge portions; wherein the peripheral edge portions are configured to be seated against confronting portions of the inner edge portions of the median opening of the spacer body, wherein the peripheral edge portions are seated against the inner edge portions without a gap between the peripheral edge portions and the inner edge portions, so as to restrict coplanar displacements of the fixing end portion in relation to the spacer body, limiting linear and angular displacements, in any directions, of the flexible vane in relation to the spacer body and in the plane of the latter; seating and maintaining the spacer body seated against a confronting face of the valve plate in a predetermined position; seating and maintaining seated the flexible vane against the confronting face of the valve plate, in the interior of the median opening, in the spacer body; and affixing the valve plate, already carrying the suction valve (V), against the compressor block. 11. The process as set forth in claim 10 , characterized in that the flexible vane is maintained seated against the valve plate, before attaching the latter to the compressor block, by previously applying an amount of viscous liquid on at least one of the confronting faces of the valve plate and of the flexible vane. 12. The process as set forth in claim 10 , characterized in that the flexible vane is maintained seated against the valve plate, before attaching the latter to the compressor block, by seating the peripheral edge of the fixing end portion against the confronting inner edge of the median opening of the spacer body. 13. The process as set forth in claim 10 , characterized in that the spacer body is maintained seated, in said predetermined position, against the valve plate, before attaching the latter to the compressor block, by previously applying an amount of viscous liquid on at l