Vehicle seat structural component, vehicle seat and method for manufacturing a vehicle seat structural component

The invention claimed is: 1. A vehicle seat structural component for a vehicle seat, comprising: a structural element, the structural element comprising a conical sleeve having an inner surface having a shape of a truncated cone, the conical sleeve having a front surface and the structural element comprising an opening limited by the inner surface of the conical sleeve; a transverse tube, the transverse tube comprising a first deformed section being deformed in radial outer direction, the first deformed section comprising a curling, the circumferential angle of the curling being in a range of 220° to 310° a second deformed section being deformed in radial outer direction and a connecting section connecting the first deformed section and the second deformed section, the connecting section comprising an outer connecting section surface, the outer connecting section surface being inclined corresponding to an inclination of the inner surface of the conical sleeve, the outer connecting section surface contacting the inner surface of the conical sleeve; the connecting section of the transverse tube extending through the opening of the structural element and through the conical sleeve, the first deformed section being arranged on a first axial side of the conical sleeve and the second deformed section being arranged on a second axial side of the conical sleeve so that the structural element is secured in a first axial direction by the first deformed section and secured in a second axial direction by the second deformed section; the first deformed section extending with a first subsection within the inner surface of the conical sleeve, in front of the front surface of the conical sleeve and with a second subsection outside from the outer surface of the conical sleeve so that the conical sleeve is arranged captively in radial direction or radially sandwiched between the first subsection and the second subsection of the first deformed section. 2. The vehicle seat structural component of claim 1 , wherein the conical sleeve is a deformed section of a base body of the structural element. 3. The vehicle seat structural component of claim 1 , wherein the conical sleeve comprises a second opening and the first deformed section is deformed into the second opening resulting in a positive engagement between the first deformed section and the structural element in circumferential direction. 4. The vehicle seat structural component of claim 1 , wherein a front face of the first deformed section is supported on the structural element. 5. The vehicle seat structural component of claim 1 , wherein in a semi longitudinal section the first deformed section is only curved in one single direction without any turning point. 6. The vehicle seat structural component of claim 1 , wherein the structural element is a vehicle seat side frame element, a link, an operation element or a crank. 7. A vehicle seat comprising the vehicle seat structural component of claim 1 . 8. A method for manufacturing a vehicle seat structural component for a vehicle seat, the vehicle seat structural component comprising: a structural element, the structural element comprising a conical sleeve having an inner surface having a shape of a truncated cone, the conical sleeve having a front surface and the structural element comprising an opening limited by the inner surface of the conical sleeve; a transverse tube, the transverse tube comprising a first deformed section being deformed in radial outer direction, the first deformed section comprising a curling, the circumferential angle of the curling being in a range of 220° to 310° a second deformed section being deformed in radial outer direction and a connecting section connecting the first deformed section and the second deformed section, the connecting section comprising an outer connecting section surface, the outer connecting section surface being inclined corresponding to an inclination of the inner surface of the conical sleeve, the outer connecting section surface contacting the inner surface of the conical sleeve; the connecting section of the transverse tube extending through the opening of the structural element and through the conical sleeve, the first deformed section being arranged on a first axial side of the conical sleeve and the second deformed section being arranged on a second axial side of the conical sleeve so that the structural element is secured in a first axial direction by the first deformed section and secured in a second axial direction by the second deformed section; the first deformed section extending with a first subsection within the inner surface of the conical sleeve, in front of the front surface of the conical sleeve and with a second subsection outside from the outer surface of the conical sleeve so that the conical sleeve is arranged captively in radial direction or radially sandwiched between the first subsection and the second subsection of the first deformed section; the method comprising the following method steps: deforming an axial section of the transverse tube for producing the second deformed section, the axial section being located with a distance from an end region of the transverse tube; providing of the opening and the conical sleeve in the structural element; inserting the transverse tube with an insertion direction into the opening of the conical sleeve in a way such that the connecting section of the transverse tube extends inside from the inner surface of the conical sleeve and the second deformed section is supported in the insertion direction and in the second axial direction on the structural element and the end region of the transverse tube protrudes from the opening of the conical sleeve; deforming the protruding end region of the transverse tube in outer direction by curling for providing the first deformed section.