Fuel injection system having a fuel-carrying component, a fuel injector and a suspension

The invention claimed is: 1. A suspension for a fuel injection system for connecting a fuel injector to a fuel-carrying component, comprising: a connecting body having a receiving space and having an opening, via which a fuel fitting of the fuel injector is at least partially insertable into the receiving space of the connecting body; an annular disk, which is fully situated within the connecting body and at least partially situated inside an annular groove of the fuel fitting; and an elastically deformable element, wherein the fuel fitting is able to be supported on the connecting body via the annular disk and the elastically deformable element along an axis of the receiving space of the connecting body, wherein: the fuel fitting insertable into the receiving space of the connecting body is supportable along the axis on the connecting body via the annular disk and the elastically deformable element in a direction toward the opening of the connecting body, a bottom surface of the elastically deformable element directly contacts and abuts on a supporting surface of the connecting body provided in an area of the receiving space, a top surface of the elastically deformable element directly contacts and abuts against a bottom surface of the annular disk, a first interior surface of the connecting body is formed as a shoulder in the area of the receiving space, the supporting surface is a top surface of the shoulder, the opening of the connecting body is developed within the shoulder, and a clearance exists between the elastically deformable element and the fuel fitting so that no direct contact exists between surfaces of the elastically deformable element and the fuel fitting. 2. The suspension as recited in claim 1 , further comprising: an additional elastically deformable element, wherein the fuel fitting insertable into the receiving space of the connecting body is supportable along the axis on the connecting body via the annular disk and the additional elastically deformable element in a direction that is opposite to a direction toward the opening of the connecting body. 3. The suspension as recited in claim 2 , wherein the additional elastically deformable element abuts on the one hand against an additional supporting surface of the connecting body provided in the area of the receiving space and, on the other hand, against the annular disk. 4. The suspension as recited in claim 2 , wherein one of the elastically deformable element and the additional elastically deformable element is formed at least partially from at least one of an elastomer, a plastic, and a metal wire mesh. 5. The suspension as recited in claim 2 , wherein one of the elastically deformable element and the additional elastically deformable element is developed at least mainly in a disk-shaped manner. 6. The suspension as recited in claim 1 , wherein the supporting surface is perpendicular to the axis of the receiving space. 7. The suspension as recited in claim 1 , further comprising: a sealing element disposed in the receiving space and above the elastically deformable element and above the annular disk along a direction of the axis. 8. The suspension as recited in claim 1 , wherein: a portion of an interior wall of the connecting body is formed as a recess, the recess has a diameter that is greater than a diameter of a remainder of the interior wall, the recess includes mutually opposed surfaces separated from one another by a distance that correspond to a height of the recess along the axis, the supporting surface is one of the mutually opposed surfaces, and the elastically deformable element and the annular disk are disposed in the recess. 9. The suspension as recited in claim 1 , wherein an inner surface of the annular disk is closer to the axis than an inner surface of the elastically deformable element. 10. The suspension as recited in claim 1 , wherein the elastically deformable element includes planar surfaces for respectively abutting the supporting surface and the annular disk. 11. The suspension as recited in claim 1 , wherein the bottom surface of the elastically deformable element is closer, along the axis, to a nozzle of the fuel injector than is the top surface of the elastically deformable element. 12. The suspension as recited in claim 1 , wherein the supporting surface faces a top of the connecting body. 13. The suspension as recited in claim 1 , wherein the top surface of the elastically deformable element is closer, along the axis, to a top of the connecting body than is the bottom surface of the elastically deformable element. 14. A fuel injection system, comprising: at least one fuel-carrying component; at least one fuel injector; and at least one suspension via which the fuel injector is connected to the fuel-carrying component, the at least one suspension including: a connecting body having a receiving space and having an opening, via which a fuel fitting of the fuel injector is at least partially insertable into the receiving space of the connecting body; an annular disk, which is fully situated within the connecting body and at least partially situated inside an annular groove of the fuel fitting; and an elastically deformable element, wherein the fuel fitting is able to be supported on the connecting body via the annular disk and the elastically deformable element along an axis of the receiving space of the connecting body, wherein: the fuel fitting insertable into the receiving space of the connecting body is supportable along the axis on the connecting body via the annular disk and the elastically deformable element in a direction toward the opening of the connecting body, a bottom surface of the elastically deformable element directly contacts and abuts on a supporting surface of the connecting body provided in an area of the receiving space, a top surface of the elastically deformable element directly contacts and abuts against a bottom surface of the annular disk, a first interior surface of the connecting body is formed as a shoulder in the area of the receiving space, the supporting surface is a top surface of the shoulder, the opening of the connecting body is developed within the shoulder, and a clearance exists between the elastically deformable element and the fuel fitting so that no direct contact exists between surfaces of the elastically deformable element and the fuel fitting. 15. The fuel injection system as recited in claim 14 , wherein the fuel injection system is for a mixture-compressing internal combustion engine with an externally supplied ignition. 16. The fuel-injection system as recited in claim 14 , wherein: the annular disk is fixed in place on both sides in the annular groove of the fuel fitting along the axis of the receiving space. 17. The fuel injection system as recited in claim 14 , wherein the fuel fitting is suspended in the receiving space at a distance from the connecting body. 18. The fuel injection system as recited in claim 14 , wherein the supporting surface is perpendicular to the axis of the receiving space. 19. The fuel injection system as recited in claim 14 , further comprising: a sealing element disposed in the receiving space and above the elastically deformable element and above the annular disk along a direction of the axis. 20. The fuel injection system as recited in claim 14 , wherein: a portion of an interior wall of the connecting body is formed as a recess, the recess has a diameter that is greater than a diameter of a