Primary piston for a tandem master cylinder and tandem master cylinder equipped with such a primary piston

The invention claimed is: 1. A tandem master-cylinder primary piston, comprising: a skirt equipped with a wall in an intermediary position between extremities of the skirt, the wall including a rear face to support a servobrake thrust rod and a forward face to receive a telescoping rod and a compression spring acting on a secondary piston, wherein: the skirt includes a forward extremity equipped with passages cooperating with a supply chamber to connect the supply chamber with a pressure chamber delimited in a body of a master cylinder by a forward part of the primary piston, the passages cooperate with a resupply seal housed in a groove of the body of the master cylinder to allow passage of a hydraulic fluid in an ESP mode, the wall includes a plastic material, the forward extremity of the skirt includes a ribbed crown delimiting grooves closed in a rear and emerging toward a front to ensure passage between the supply chamber and the pressure chamber when the primary piston is in a supply position, and to enable passage of the hydraulic fluid beneath the resupply seal when the primary piston is in a rest position and a brake system is operating in the ESP mode, and the skirt includes ribs delimiting the grooves, each rib including a first cylindrical portion extending from a front transverse face of the skirt, a conical portion connected to the first cylindrical portion, and a second cylindrical portion connected to the conical portion. 2. The tandem master-cylinder primary piston according to claim 1 , wherein a rear, unopen extremity of the grooves is straight and transverse. 3. The tandem master-cylinder primary piston according to claim 2 , wherein the rear extremity is planar. 4. The tandem master-cylinder primary piston according to claim 3 , wherein the rear extremity is perpendicular to an axis of the primary piston. 5. The tandem master-cylinder primary piston according to claim 1 , wherein the grooves have a helical shape. 6. The tandem master-cylinder primary piston according to claim 1 , wherein at least one of the grooves is a slit. 7. The tandem master-cylinder primary piston according to claim 1 , wherein the primary piston is realized as a single piece of plastic material. 8. The tandem master-cylinder primary piston according to claim 1 , wherein the second cylindrical portion corresponds to a rear extremity of the grooves. 9. The tandem master-cylinder primary piston according to claim 1 , wherein the rear face of the wall has a frustoconical shape. 10. The tandem master-cylinder primary piston according to claim 1 , wherein the forward face of the wall has a central boss for accommodating the telescoping rod. 11. A tandem master cylinder, comprising: a primary piston of a plastic material and having a skirt including a forward extremity provided with longitudinal grooves open near a front, wherein: the skirt is equipped with a wall in an intermediary position between extremities of the skirt, the wall including a rear face serving as a support for a servobrake thrust rod, and a forward face receiving a telescoping rod and a compression spring acting on a secondary piston, the skirt includes a forward extremity equipped with passages cooperating with a supply chamber to connect the supply chamber with a pressure chamber delimited in a body of a master cylinder by a forward part of the primary piston, the passages cooperate with a resupply seal housed in a groove of the body of the master cylinder to allow passage of a hydraulic fluid in an ESP mode, the wall includes a plastic material, the forward extremity of the skirt includes a ribbed crown delimiting grooves closed in a rear and emerging toward a front to ensure passage between the supply chamber and the pressure chamber when the primary piston is in a supply position, and to enable passage of the hydraulic fluid beneath the resupply seal when the primary piston is in a rest position and a brake system is operating in the ESP mode, and the skirt includes ribs delimiting the grooves, each rib including a first cylindrical portion extending from a front transverse face of the skirt, a conical portion connected to the first cylindrical portion, and a second cylindrical portion connected to the conical portion. 12. The tandem master cylinder according to claim 11 , wherein the primary piston is realized as a single piece of plastic material. 13. The tandem master-cylinder according to claim 11 , wherein the second cylindrical portion corresponds to a rear extremity of the grooves. 14. A master-cylinder piston, comprising: a skirt equipped with a wall in an intermediary position between extremities of the skirt, the forward extremity of the skirt including a ribbed crown having ribs delimiting grooves closed in a rear and emerging toward a front to enable passage of hydraulic fluid, wherein the skirt and wall are realized as a single piece of plastic, and each of the ribs delimiting the grooves includes a first cylindrical portion extending from a front transverse face of the skirt, a conical portion connected to the first cylindrical portion, and a second cylindrical portion connected to the conical portion.