Spring device and securing device for securing a machine element, and use thereof

What is claimed is: 1. A spring device comprising: a piston; a housing configured to movably receive the piston, the piston and the housing defining a cavity therebetween; and a compressible solid body spring disposed in the cavity comprising a solid body that is configured to be compressed by the piston, wherein the solid body spring fills the cavity between the piston and the housing substantially completely or completely at least under an operating load; wherein the piston includes a concave surface facing the solid body spring, the surface corresponding to a corresponding convex form of the solid body, wherein the piston and the concave surface of the piston are comprised of metal, wherein a movement of the piston reducing the cavity leads to a spreading of the piston, wherein a first surface of the spring body that is in contact with the housing forms an obtuse angle with a second surface of the spring body that adjoins the first surface and is in contact with the piston, with the obtuse angle being measured through an interior of the spring body. 2. The spring device of claim 1 wherein the solid body spring comprises a plastic or an elastomeric material. 3. The spring device of claim 1 wherein the solid body spring has a bulk modulus in the range from 100 MPa to 100,000 MPa. 4. The spring device of claim 1 wherein one or both of the piston and the solid body spring is arranged concentrically about a cylindrical passage hole in which a screw is disposed, wherein the screw extends completely through the solid body spring. 5. The spring device of claim 1 wherein one or both of: the piston lies or is brought to rest on an inside of the housing, and wherein the piston together with the housing forms an inner delimitation or inner casing surface of the cavity, which cavity is at least compressible by the piston. 6. The spring device of claim 1 wherein one or both of: the housing includes two end faces with the piston arranged on the two end faces; and wherein the piston has a pressure face for receiving and transmitting the forces to be transmitted to the solid body spring. 7. The spring device of claim 1 wherein the piston in an unloaded state overlaps the housing on at least one side of the housing and protrudes therefrom. 8. The spring device of claim 1 wherein the solid body spring has at least one conically convex end. 9. The spring device of claim 1 wherein the housing includes a shoulder and wherein the solid body spring is configured to rest or may be brought to rest against the shoulder, wherein the spring device is configured to change in volume by way of one or both of the shoulder provided in the housing and by way of several segments of the solid body spring which are arranged unaligned with but acting on each other. 10. The spring device of claim 1 wherein the modulus of elasticity of one or both of the housing and the piston is at least three times greater than the bulk modulus of the solid body spring. 11. A sealing system comprising a sealing lense and the spring device of claim 1 . 12. The spring device of claim 1 wherein all surfaces of the piston facing the solid body spring element are concave, corresponding to a convex form of the solid body spring lying against the piston. 13. The spring device of claim 1 wherein all corners of the solid body spring that contact the housing are adjoined by surfaces of the sold body spring that form obtuse angles as measured through an interior of the spring body. 14. The spring device of claim 1 wherein the cavity is defined by at least one of: concave surface portions of the piston and the housing, or flat surface portions of the piston and the housing, wherein transitions between the flat surface portions are either curved or form an angle of greater than 90° . 15. The spring device of claim 1 wherein the solid body spring is free of recesses, inclusions, fluid-filled cavities, foamed structures, and pores. 16. The spring device of claim 1 wherein an entirety of an interface between the piston and the housing is free of sealing rings. 17. The spring device of claim 1 wherein at each junction where the spring body, the housing, and the piston come together, two directly adjoining surfaces of the spring body form an obtuse angle relative to one another as measured across the interior of the spring body. 18. The spring device of claim 1 wherein the solid body spring is cylindrical and includes conically convex ends on opposite sides. 19. The spring device of claim 1 wherein a longitudinal axis of the piston is normal to a plane that extends through the solid body spring, wherein the solid body spring is symmetrical across the plane. 20. A spring device comprising: a piston; a housing configured to movably receive the piston, the piston and the housing defining a cavity therebetween; and a compressible solid body spring disposed in the cavity comprising a solid body that is configured to be compressed by the piston, wherein the solid body spring fills the cavity between the piston and the housing substantially completely or completely at least under an operating load; wherein the piston includes a concave surface facing the solid body spring, the surface corresponding to a corresponding convex form of the solid body, wherein the piston and the concave surface of the piston are comprised of metal, wherein a movement of the piston reducing the cavity leads to a spreading of the piston, wherein the solid body spring is at least one of: assembled from at least two coated segments each with a different bulk modulus; or formed from at least two segments which are arranged contacting each other in different action directions, wherein the cavity is one of several cavities between the piston and the housing, wherein each of the at least two segments is disposed in a separate one of the several cavities.