Suspension bearing device, motor vehicle equipped with such a strut bearing device and manufacturing method

What is claimed is: 1. A suspension bearing device, comprising: a bearing; a lower cup; and an upper cup centered on a central axis, the central axis being parallel to an axial direction of the suspension bearing device, the lower cup having a body including a tubular axial portion and an annular outward radial portion, wherein the lower cup is provided with a damper pad comprising: an inner portion disposed against the annular outward radial portion of the body; an outer portion configured to bear against a suspension spring such that the outer portion and the inner portion are configured to be interposed axially between the suspension spring and the annular outward radial portion of the body of the lower cup; and an annular recess on the outer portion for receiving a creep of material of the damper pad when the outer portion is constrained by the suspension spring, wherein a distance defined along the central axis between an upper point of the inner portion and a lower point of the outer portion is greater than a distance between the upper point of the inner portion and a bottom of the annular recess, and the annular recess being radially spaced from the tubular axial portion of the lower cup, wherein the damper pad has a cambered shape delimited by the inner portion and the outer portion, wherein the inner portion has a first convex shape, and the outer portion having a second convex shape. 2. The suspension bearing device according to claim 1 , wherein the damper pad has a maximal thickness, defined parallel to the central axis, which is superior to 5 millimeters. 3. The suspension bearing device according to claim 1 , wherein the damper pad has a maximal thickness, defined parallel to the central axis, which is equal to 8 millimeters. 4. The suspension bearing device according to claim 1 , wherein the damper pad has a maximal thickness, defined parallel to the central axis, which is superior to a maximal thickness of the tubular axial portion, defined perpendicular to the central axis. 5. The suspension bearing device according to claim 1 , wherein the annular recess is located closer to the tubular axial portion than to the annular outward radial portion of the body. 6. The suspension bearing device according to claim 1 , the damper pad further includes a damper pad tubular axial portion extending along the tubular axial portion, to avoid contact of the suspension spring with the tubular axial portion of the body. 7. The suspension bearing device according to claim 6 , wherein the annular recess is located beside the damper pad tubular axial portion. 8. The suspension bearing device according to claim 1 , wherein the outer portion of the damper pad has a convex shape, including two different slopes. 9. The suspension bearing device according to claim 1 , wherein the lower cup is provided with at least one seal disposed in sealing contact with the upper cup. 10. The suspension bearing device according to claim 9 , wherein the at least one seal is formed integral with the damper pad. 11. The suspension bearing device according to claim 9 , wherein the at least one seal is separated from the damper pad. 12. The suspension bearing device according to claim 9 , wherein the at least one seal and the damper pad are made of two different materials and are manufactured in contact with each other. 13. The suspension bearing device according to claim 1 , wherein the lower cup is provided with two seals in sealing contact with the upper cup. 14. A motor vehicle, equipped with a suspension bearing device, the suspension bearing device comprising: a bearing; a lower cup; and an upper cup centered on a central axis, the central axis being parallel to an axial direction of the suspension bearing device, the lower cup having a body including a tubular axial portion and an annular outward radial portion, wherein the lower cup is provided with a damper pad comprising: an inner portion disposed against the annular outward radial portion of the body; an outer portion configured to bear against a suspension spring such that the outer portion and the inner portion are configured to be interposed axially between the suspension spring and the annular outward radial portion of the body of the lower cup; an annular recess on the outer portion for receiving a creep of material of the damper pad when the outer portion is constrained by the suspension spring, wherein a distance defined along the central axis between an upper point of the inner portion and a lower point of the outer portion is greater than a distance between the upper point of the inner portion and a bottom of the annular recess, and the annular recess being radially spaced from the tubular axial portion of the lower cup; wherein the damper pad has a cambered shape delimited by the inner portion and the outer portion, wherein the inner portion has a first convex shape, and the outer portion having a second convex shape; wherein the suspension bearing device is integrated into the motor vehicle. 15. A method for manufacturing a suspension bearing device, the suspension bearing device comprising: a bearing; a lower cup; and an upper cup centered on a central axis, the central axis being parallel to an axial direction of the suspension bearing device, the lower cup having a body including a tubular axial portion and an annular outward radial portion, wherein the lower cup is provided with a damper pad comprising: an inner portion disposed against the annular outward radial portion of the body; an outer portion configured to bear against a suspension spring such that the outer portion and the inner portion are configured to be interposed axially between the suspension spring and the annular outward radial portion of the body of the lower cup; an annular recess on the outer portion for receiving a creep of material of the damper pad when the outer portion is constrained by the suspension spring, wherein a distance defined along the central axis between an upper point of the inner portion and a lower point of the outer portion is greater than a distance between the upper point of the inner portion and a bottom of the annular recess, and the annular recess being radially spaced from the tubular axial portion of the lower cup; wherein the damper pad has a cambered shape delimited by the inner portion and the outer portion, wherein the inner portion has a first convex shape, and the outer portion having a second convex shape; the method comprising steps of: molding the damper pad; and assembling the lower cup with the bearing and the upper cup to form the suspension bearing device.