Methods for manufacturing a spring, a spring brake, and a spring brake comprising a spring

The invention claimed is: 1. A spring brake comprising: a friction member; and a spring comprising a wire wound in a plurality of turns, each of the turns being centered on a turn axis, the turns being included in a spiral according to which the spring is shaped, the spiral being configured to be coaxial with a main axis of the spring, the spring being mounted within the spring brake and in radial frictional contact with the friction member of the spring brake, wherein a first end portion of the wire, which extends from a first end of the wire, out of the spiral of the spring, is shaped according to a first tab, a second end portion of the wire, which extends from a second end of the wire, out of the spiral of the spring, is shaped according to a second tab, the first tab and the second tab are each directed in a substantially radial direction towards the inside of the spring, in projection in a plane orthogonal to the main axis, the first tab and the second tab are curved towards each other, the curvature of the first tab corresponds to the curvature of the turns, and the curvature of the second tab corresponds to the curvature of the turns. 2. The spring brake according to claim 1 , wherein the wire defines, for each of the turns, in projection in a turn plane orthogonal to the turn axis, an outer coil contour and an inner coil contour, and wherein for outer tolerance circles defined for each of the turns, each of the outer tolerance circles is centered on the turn axis and drawn in the turn plane, each of the outer tolerance circles having an outer radius, for inner tolerance circles defined for each of the turns, each of the inner tolerance circles is centered on the turn axis and drawn in the turn plane, each of the inner tolerance circles having an inner radius having a value less than that of the outer radius with a predetermined tolerance interval value of between 0.05 and 0.15 millimeters, and wherein one of: (i) any selected portion of the outer turn contour of each of the turns lies between the outer tolerance circle and the inner tolerance circle, and (ii) any chosen portion of the inner turn contour of each of the turns lies between the outer tolerance circle and the inner tolerance circle. 3. The spring brake according to claim 2 , wherein the predetermined tolerance value is equal to 0.10 millimeters. 4. The spring brake according to claim 2 , wherein the selected portion extends over the entire turn. 5. The spring brake according to claim 1 , wherein the spring is a torsion spring configured to interact with members exerting torques about the main axis of the torsion spring, the torques being applied on the first tab and the second tab. 6. The spring brake according to claim 1 , wherein the wire is in external radial frictional contact with the friction member, the friction member constituting a drum in which the spring is configured to be housed. 7. The spring brake according to claim 1 , wherein the wire is in contact with the friction member with internal radial friction, the friction member constituting a hub around which the spring is configured to be mounted. 8. A method of manufacturing a spring including a wire having a plurality of turns, each of the turns being centered on a turn axis, the spring being configured to be mounted within a spring brake and to be in radial frictional contact with a friction member of the spring brake, the manufacturing method comprising: conforming and cutting comprising: winding conforming a raw wire according to a plurality of raw turns, so that each of the raw turns is substantially coaxial with a common main axis, the raw wire having a first raw portion extending from a first end of the raw wire over at least one raw turn, a second raw portion extending from a second end of the raw wire, opposite the first end of the raw wire over at least one raw turn, and an intermediate portion between the first raw portion and the second raw portion; separating by cutting the first raw portion and the second raw portion of the raw wire after the winding conforming, the intermediate portion then becoming the wire of the spring, at least a portion of the raw turns of the intermediate portion becoming the turns of the spring; conforming by folding a first tab at a first end of the intermediate portion after the winding conforming and before or after the separating, the first tab being curved, the curvature of the first tab corresponding to the curvature of the turns; and conforming by folding a second tab at a second end of the intermediate portion opposite the first end, after the winding conforming and before or after the separating, the second tab being curved, the curvature of the second tab corresponding to the curvature of the turns. 9. A spring brake comprising: a friction member; and a spring obtained using the manufacturing method of claim 8 , the spring comprising the wire wound in the plurality of turns, each of the turns being centered on a turn axis, the turns being included in a spiral according to which the spring is shaped, the spiral being configured to be coaxial with the common main axis of the spring, the spring being mounted within the spring brake and in radial frictional contact with the friction member of the spring brake, wherein a first end portion of the wire, which extends from a first end of the wire, out of the spiral of the spring, is shaped according to the first tab, a second end portion of the wire, which extends from a second end of the wire, out of the spiral of the spring, is shaped according to the second tab, the first tab and the second tab are each directed in a substantially radial direction towards the inside of the spring, in projection in a plane orthogonal to the main axis, the first tab and the second tab are curved towards each other, the curvature of the first tab corresponds to the curvature of the turns, and the curvature of the second tab corresponds to the curvature of the turns. 10. The manufacturing method according to claim 8 , wherein the first raw portion extends over 1.25 raw turns, and the second raw portion extends over 1.25 raw turns. 11. The manufacturing method according to claim 8 , wherein the wire of the spring formed during the conforming and cutting defines, for each of the turns in projection in a turn plane orthogonal with respect to the turn axis, an outer turn contour and an inner turn contour, the manufacturing method further comprising, after the conforming and cutting, checking compliance of the formed spring, the checking compliance comprising: defining, for each of the turns, an outer tolerance circle centered on the turn axis and drawn in the turn plane, the outer tolerance circle having an outer radius, and defining, for each of the turns, an inner tolerance circle centered on the turn axis and drawn in the turn plane, the inner tolerance circle having an inner radius having a value that is less than that of the outer radius, of a predetermined tolerance interval value, characterizing a conformity of the spring, the characterizing comprising one of: (i) characterizing the spring as being compliant when, for each of the turns, each selected portion of the outer turn contour lies between the outer tolerance circle and the inner tolerance circle, and characterizing the spring as being non-compliant when, for at least one of the turns, at least one selected portion of the outer turn contour protrudes, radially with respect to the turn axis, outwards of the outer tolerance circle or inwards of the inner tolerance circle in at least one point, and (ii) characterizing the spring as being compliant when, for each of the turns, any selected p