Fastening means for pre-assembly of a pin-shaped joining means in a through-hole of a structural element

The invention claimed is: 1. A fastening apparatus configured for pre-assembly of a pin-shaped joining means in a through-hole of a structural element comprising: a cylinder barrel-shaped sleeve, a plurality of first holding elements disposed at an inner side of the sleeve and projecting inwards, and second holding elements projecting outwards from both ends of the sleeve and being elastically deformable, such that upon insertion of the fastening apparatus into the through-hole, the second holding elements can perform an evasive movement such that the second holding elements are located at least partially within the through-hole, wherein a body forming the barrel-shaped sleeve extends completely between the second holding elements at both ends of the sleeve, wherein at least one of: the second holding elements in a cross-section through a symmetry axis of the sleeve have a longitudinal direction running obliquely outwards and from the plane of the respective end of the sleeve in the direction towards the plane of the other end of the sleeve; the second holding elements in a cross-section through a symmetry axis of the sleeve taper and/or form a tip with increasing distance from the sleeve; or wherein a material weakening is defined between the sleeve and the second holding elements. 2. The fastening apparatus of claim 1 , wherein a plurality of third holding elements projecting outwards are disposed at an outer side of the sleeve, wherein the second holding elements project farther outwards than the third holding elements. 3. The fastening apparatus of claim 2 , wherein the first holding elements and/or third holding elements are formed by surface segments of the sleeve. 4. The fastening apparatus of claim 2 , wherein the first holding elements and/or third holding elements are projections projecting from the sleeve. 5. The fastening apparatus of claim 4 , wherein the projections are ribs which are extending over a major part of the length of the sleeve. 6. The fastening apparatus of claim 2 , wherein the first holding elements and/or third holding elements are elastically deformable, such that the distance and/or the angular position with reference to the longitudinal axis of a through-hole in which the fastening means is being held by the third holding elements can be changed. 7. The fastening apparatus of claim 1 , wherein the material weakening is defined between the sleeve and the second holding elements. 8. The fastening apparatus of claim 1 , wherein the second holding elements in the cross-section through the symmetry axis of the sleeve have the longitudinal direction running obliquely outwards and from the plane of the respective end of the sleeve in the direction towards the plane of the other end of the sleeve. 9. The fastening apparatus of claim 1 , wherein the second holding elements in the cross-section through the symmetry axis of the sleeve taper and/or form the tip with increasing distance from the sleeve. 10. The fastening apparatus of claim 1 , wherein the first and/or second holding elements each comprise a bar-shaped, elastically deformable section which runs substantially in an axial direction of the sleeve, one end of the bar-shaped section being connected to the sleeve. 11. The fastening apparatus of claim 10 , wherein the bar-shaped sections of the first holding elements are inclined radially inwardly with reference to a cylinder barrel surface circumscribing the sleeve. 12. The fastening apparatus of claim 10 , wherein bar-shaped sections of the first holding elements have a smaller cross-sectional area than bar-shaped sections of the second holding elements. 13. The fastening apparatus of claim 1 , wherein the first holding elements each comprise a tooth directed inwardly which can cooperate with a contour of the pin-shaped joining means such that the joining means is held in a form-fit manner. 14. The fastening apparatus of claim 1 , wherein the second holding elements comprise contact surfaces disposed such that they abut a chamfer of the through-hole surface-to-surface when the fastening means is disposed in the through-hole. 15. The fastening apparatus of claim 1 , wherein the second holding elements form a circumferential collar at the respective end of the sleeve. 16. The fastening apparatus of claim 15 , wherein the circumferential collar consists of collar segments separated by slots. 17. The fastening apparatus of claim 15 , wherein the circumferential collar comprises a conical front face at a side directed away from the sleeve. 18. The fastening apparatus of claim 17 , wherein the circumferential collar comprises a conical front face which is merging with the conical front face of the sleeve. 19. The fastening apparatus of claim 1 , wherein a front face of the sleeve is conical. 20. The fastening apparatus of claim 1 , wherein the first holding elements are disposed circumferentially offset with respect to third holding elements. 21. The fastening apparatus of claim 1 , wherein a first holding element and a second holding element are disposed pair-wise at the same circumferential position of the sleeve, wherein in a circumferential direction, first holding elements and second holding elements are disposed in turn. 22. The apparatus of claim 1 , wherein the fastening apparatus is symmetrical about a plane normal to a longitudinal axis of the fastener apparatus. 23. The fastening apparatus of claim 1 , wherein respective lengths of the plurality of first holding elements are at least substantially the same as respective lengths of the second holding elements relative to a longitudinal direction of the sleeve. 24. The fastening apparatus of claim 1 , wherein the plurality of first holding elements have respective thickness as measured on a plane normal to a longitudinal axis of the sleeve that is less than the distance between adjacent holding elements of the plurality of holding first elements, the distance being located on the plane. 25. A structural component with a structural element having a through-hole, a pin-shaped joining means and a fastening means which comprises a cylinder barrel-shaped sleeve, a plurality of first holding elements disposed at an inner side of the sleeve and projecting inwards, and second holding elements projecting outwards from both ends of the sleeve outwards and being elastically deformable, such that upon insertion of the fastening means into the through-hole, the second holding elements can perform an evasive movement such that the second holding elements are located at least partially below or flush with an outer surface of the structural element that is normal to the longitudinal axis of the through-hole, wherein the fastening means is inserted into the through-hole and the joining means is held by the fastening means, and wherein a material weakening is defined between the sleeve and the second holding elements, and a cross-sections through the cylinder barrel-shaped sleeve on a plane normal to a longitudinal axis of the sleeve establishes a contiguous path about the longitudinal axis, the plane being proximate an end of the sleeve. 26. The structural component of claim 25 , wherein the first holding elements are holding the joining means in a force-fit manner, third holding elements are holding the fastening means in the through-hole in a force-fit manner and the second holding elements are holding the fastening means in th