Separation device for removing a profiled element from a conveying surface, and extrusion machine provided with such a separation device

The invention claimed is: 1. A separation device intended to separate a profiled element from a conveying surface which conveys the profiled element in a longitudinal direction so as to forward the profiled element with an advancing movement in a direction of which the profiled element displays a free end front edge, the separation device comprising: a detachment roller which is mounted so as to be able to rotate on a support about a detachment axis, and which is intended to be interposed between the profiled element and the conveying surface in order to cause the profiled element to become detached from the conveying surface, the support and the detachment roller being arranged to be able to adopt an engagement configuration, in which the detachment axis is oriented transversely to the longitudinal direction and parallel to the conveying surface, and in which the detachment axis is situated at a distance from the conveying surface which is such that a gap remains between the detachment roller and the conveying surface, that the detachment roller forms a stop which opposes a progression of the free end front edge of the profiled element on the conveying surface and prevents the free end front edge from crossing the gap, and that a detachment rotation of the detachment roller can be generated about the detachment axis that constrains the free end front edge of the profiled element to become detached from the conveying surface so that the profiled element can continue advancing movement by bypassing and crossing the detachment roller on an opposite side from the gap, while following the detachment rotation; and a detachment motor designed to generate the detachment rotation according to which the detachment roller is driven with respect to the support. 2. The separation device according to claim 1 , wherein the detachment motor operates between an active detachment mode, according to which the detachment motor is activated so as to actively drive the detachment roller in the detachment rotation with respect to the support, and a passive detachment mode, in which the detachment motor is deactivated and/or disconnected from the detachment roller so as to allow the detachment roller to rotate freely. 3. The separation device according to claim 1 , wherein the detachment rotation is such that a norm of a tangential speed of a surface of the detachment roller, at a point where the profiled element comes into contact with the surface of the detachment roller, is equal to a norm of a tangential speed of the conveying surface, in the longitudinal direction, at a point where the profiled element is separated from the conveying surface. 4. The separation device according to claim 1 , wherein, in the engagement configuration, the distance between the detachment axis and the conveying surface is equal to or less than a thickness of the profiled element, or equal to or less than 0.8 times the thickness of the profiled element, equal to or less than 0.7 times the thickness of the profiled element, or even equal to or less than 0.5 times the thickness of the profiled element. 5. The separation device according to claim 1 , further comprising a plurality of auxiliary rollers which are mounted rotatably on the support and arranged in succession to one another and in succession to the detachment roller, parallel to the detachment roller, and being spaced from one another by intervals a size of which is strictly less than a thickness of the profiled element, in order to accompany the profiled element, when the latter has crossed the detachment roller, in a curved path which deviates from the conveying surface. 6. The separation device according to claim 5 , wherein the auxiliary rollers have diameters greater than a diameter of the detachment roller. 7. The separation device according to claim 1 , wherein the support is carried by a positioning mechanism, comprising a rectilinear guide rail, which makes it possible to adjust a distance of the support, and therefore of the detachment axis, with respect to the conveying surface. 8. The separation device according to claim 7 , wherein the positioning mechanism makes it possible to selectively place the support, and the detachment roller, either in the engagement configuration, such that the detachment roller can cooperate with the profiled element to separate the latter from the conveying surface, or in a disengagement configuration in which, once the profiled element is engaged on a receiving surface separate from the conveying surface and situated at a distance from the conveying surface downstream of the separation device, the separation device is disengaged from the profiled element so as to no longer touch the profiled element. 9. The separation device according to claim 7 , wherein the positioning mechanism has a damping member which allows the support to recoil elastically under a thrust of the profiled element, and wherein the separation device detects that a recoiling movement of the support exceeds a predetermined threshold when the profiled element exerts a pressure on the detachment roller beyond a pressure of the predetermined threshold. 10. The separation device according to claim 9 , wherein the positioning mechanism is driven by a pneumatic cylinder, which also forms the damping member. 11. The separation device according to claim 1 , further comprising a tilting harrow which is mounted pivotably about a harrow axis, which is parallel to the conveying surface, and transverse to the longitudinal direction, wherein the tilting harrow has a row of teeth which are positioned opposite the conveying surface, at a distance from the conveying surface which is non-zero and strictly less than a thickness of the profiled element, such that, when the profiled element is subjected to the advancing movement the longitudinal direction on the conveying surface, the free end front edge of the profiled element can poke onto the teeth and cause a tilting of the tilting harrow about the harrow axis, a consequence of which tilting is to detach the free end front edge of the profiled element from the conveying surface. 12. An extrusion installation comprising: a die for continuously producing a profiled element by extrusion, and which comprises a conveying surface which receives the profiled element downstream of the die and which forwards the profiled element to a predetermined distance from the die; and the separation device according to claim 1 , arranged to remove the profiled element from the conveying surface when the profiled element reaches the predetermined distance. 13. The extrusion installation according to claim 12 , wherein the conveying surface is formed by a main roller which defines, with the die, a gap which determines a thickness of the profiled element. 14. The extrusion installation according to claim 12 , wherein a material bead, a fold, a partial detachment of the free end front edge of the profiled element, or a combination thereof is generated at the free end front edge of the profiled element, upstream of a position of the detachment roller with respect to the advancing movement, so as to give the free end front edge of the profiled element an excess thickness with respect to a nominal thickness of the profiled element, with a result that the free end front edge of the profiled element has, when it reaches the detachment roller, an apparent height with respect to the conveying surface that is greater than the nominal thickness of the profiled element, thereby facilitating the crossing of the detachment roller by the free end front edge of the profiled element, in the direction of the detachment rotation