Linear actuator

What is claimed is: 1. A linear actuator for moving a load comprising: an actuator housing including a tube, a housing bottom at one end of the tube, and a housing head at another end of the tube, the housing head defining an inner side facing an interior space of the actuator housing; a piston guided longitudinally in the actuator housing; an actuator rod assembled with the piston and configured to protrude out of the actuator housing in a manner which is guided in the housing head; and at least one plastically deformable buffer element supported on the inner side of the housing head, the at least one plastically deformable buffer element configured (i) to be deformed in case of an impact of the piston, and (ii) to convert kinetic energy at least partially into deformation work. 2. The linear actuator according to patent claim 1 , wherein: the at least one plastically deformable buffer element includes an existing plastically deformable buffer element having a honeycomb-like structure, and cavities of the honeycomb-like structure extend in a movement direction of the actuator rod. 3. The linear actuator according to patent claim 2 , wherein the existing plastically deformable buffer element consists of an aluminum material. 4. The linear actuator according to patent claim 1 , wherein: the at least one plastically deformable buffer element includes a plurality of plastically deformable buffer elements, and the plurality of plastically deformable buffer elements is arranged distributed uniformly over 360° around the actuator rod. 5. The linear actuator according to patent claim 1 , wherein: the housing head includes a disk assembled fixedly with the tube, and a guide bushing for the actuator rod, the guide bushing extends through a central passage of the disk, the guide bushing projects on at least one side beyond a section of the disk which encloses it tightly, and the guide bushing is displaceable axially with respect to the disk. 6. The linear actuator according to patent claim 5 , wherein: an outer annular space is formed, on a side of the disk which faces away from the interior space of the actuator housing, radially between the disk and the guide bushing, in which outer annular space at least one buffer element is arranged, and into which outer annular space a flange on the actuator rod is configured to dip. 7. The linear actuator according to patent claim 5 , wherein: the guide bushing has a bushing flange at an axial spacing from the disk in front of a side of the disk which faces the interior space of the actuator housing, the at least one buffer element is arranged in an inner annular space which is delimited axially by the disk and the bushing flange. 8. The linear actuator according to patent claim 7 , wherein the interior space of the actuator housing is loaded with pressure. 9. The linear actuator according to patent claim 8 , further comprising: a sealing ring situated between the bushing flange and the tube, wherein the inner annular space is open toward the atmosphere. 10. The linear actuator according to patent claim 1 , further comprising: a rotatably drivable threaded spindle mounted rotatably in the housing bottom and configured to extend in the interior of the actuator housing from the housing bottom in the direction of the housing head, wherein the piston includes a spindle nut in engagement with the threaded spindle, and wherein the actuator rod is hollow and the threaded spindle dips into the hollow actuator rod. 11. A linear actuator for moving a load comprising: an actuator housing including a tube, a housing bottom at one end of the tube, and a housing head at another end of the tube, the housing head defining an outer side facing away from an interior space of the actuator housing; a piston guided longitudinally in the actuator housing; an actuator rod assembled with the piston and configured to protrude out of the actuator housing in a manner which is guided in the housing head; a flange fastened to the actuator rod; and at least one plastically deformable buffer element supported on the outer side of the housing head, the at least one plastically deformable buffer element configured (i) to be deformed in case of an impact of the flange, and (ii) to convert kinetic energy at least partially into deformation work. 12. The linear actuator according to patent claim 11 , wherein: the at least one plastically deformable buffer element includes an existing plastically deformable buffer element having a honeycomb-like structure, and cavities of the honeycomb-like structure extend in a movement direction of the actuator rod. 13. The linear actuator according to patent claim 12 , wherein the existing plastically deformable buffer element consists of an aluminum material. 14. The linear actuator according to patent claim 11 , wherein: the at least one plastically deformable buffer element includes a plurality of plastically deformable buffer elements, and the plurality of plastically deformable buffer elements is arranged distributed uniformly over 360° around the actuator rod. 15. The linear actuator according to patent claim 11 , wherein: the housing head includes a disk assembled fixedly with the tube, and a guide bushing for the actuator rod, the guide bushing extends through a central passage of the disk, the guide bushing projects on at least one side beyond a section of the disk which encloses it tightly, and the guide bushing is displaceable axially with respect to the disk. 16. The linear actuator according to patent claim 15 , wherein: an outer annular space is formed, on a side of the disk which faces away from the interior space of the actuator housing, radially between the disk and the guide bushing, in which outer annular space at least one buffer element is arranged, and into which outer annular space a flange on the actuator rod is configured to dip. 17. The linear actuator according to patent claim 15 , wherein: the guide bushing has a bushing flange at an axial spacing from the disk in front of a side of the disk which faces the interior space of the actuator housing, the at least one buffer element is arranged in an inner annular space which is delimited axially by the disk and the bushing flange. 18. The linear actuator according to patent claim 17 , wherein the interior space of the actuator housing is loaded with pressure. 19. The linear actuator according to patent claim 18 , further comprising: a sealing ring situated between the bushing flange and the tube, wherein the inner annular space is open toward the atmosphere. 20. The linear actuator according to patent claim 11 , further comprising: a rotatably drivable threaded spindle mounted rotatably in the housing bottom and configured to extend in the interior of the actuator housing from the housing bottom in the direction of the housing head, wherein the piston includes a spindle nut in engagement with the threaded spindle, and wherein the actuator rod is hollow and the threaded spindle dips into the hollow actuator rod.