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In an item of furniture having a movable furniture part, such as a drawer, door or folding part, a damping apparatus damps movement of the movable furniture part. The damping apparatus is constructed as a negative-pressure damping apparatus or combined pressurized and negative-pressure damping appar

In an item of furniture having a movable furniture part, such as a drawer, door or folding part, a damping apparatus damps movement of the movable furniture part. The damping apparatus is constructed as a negative-pressure damping apparatus or combined pressurized and negative-pressure damping apparatus. It has a piston ( 3 ) and a resiliently deformable piston part ( 6 ) in the piston rod ( 4 ). This resiliently deformable piston part ( 6 ) is pressed against the cylinder wall during the damping procedure.

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1. A damping apparatus comprising:a cylinder having a cylinder chamber and a channel communicating with said cylinder chamber;a piston arranged in said cylinder chamber so as to be linearly moveable therein; anda piston rod arranged in said channel and attached to said piston, said channel having a

1. A damping apparatus comprising:a cylinder having a cylinder chamber and a channel communicating with said cylinder chamber;a piston arranged in said cylinder chamber so as to be linearly moveable therein; anda piston rod arranged in said channel and attached to said piston, said channel having a smaller cross section than said piston, said piston rod including a resiliently deformable part shaped and arranged to widen radially under an axial compressive load so as to abut against an inner wall of said channel. 2. The damping apparatus of claim 1, wherein said piston rod is arranged in said channel with play when said resiliently deformable part is not under an axial compressive load so as to abut against an inner wall of said channel. 3. The damping apparatus of claim 1, wherein said piston rod further includes a first rigid portion and a second rigid portion, said resiliently deformable part being located between said first rigid portion and said second rigid portion. 4. The damping apparatus of claim 1, wherein said resiliently deformable part comprises a solid rubber body. 5. The damping apparatus of claim 1, wherein said piston rod has a first end connected to said piston and has a second end opposite said first end, said piston rod further including a covering cap at said second end, said covering cap having at least one through-opening formed therein. 6. The damping apparatus of claim 1, wherein said piston is arranged in said cylinder chamber so as divide said cylinder chamber into two chamber sections, said piston having a nozzle for allowing said two chamber sections to communicate with each other. 7. The damping apparatus of claim 1, wherein said piston is arranged to seal against an inner wall of said cylinder chamber, and said resiliently deformable part is operable to widen radially so as to seal against said inner wall of said chamber under the axial compressive load so that a negative pressure is developed in said cylinder between said piston and said resiliently deformable part when the axial compressive load is applied to said piston rod. 8. The damping apparatus of claim 7, wherein said inner wall of said cylinder chamber has at least one axially-extending depression. 9. The damping apparatus of claim 7, wherein said piston is arranged in said cylinder chamber so as divide said cylinder chamber into two chamber sections, further comprising at least one overflow channel arranged between said two chamber sections for controlling flow therebetween. 10. The damping apparatus of claim 1, wherein said piston comprises a first piston, further comprising a second piston arranged in said cylinder chamber, said first piston and said second piston being arranged to divide said cylinder chamber into a pressurized chamber section, a negative-pressure chamber section, and a neutral-pressure chamber section between said first piston and said second piston, further comprising at least one overflow channel arranged between said pressurized chamber section and said neutral-pressure chamber section for controlling flow therebetween. 11. The damping apparatus of claim 10, wherein said negative-pressure chamber section and said pressurized chamber section have different diameters. 12. The damping apparatus of claim 11, wherein said first piston is arranged between said negative-pressure chamber section and said neutral-pressure chamber section, and said second piston is arranged between said neutral-pressure chamber section and said pressurized chamber section, a diameter of each of said negative-pressure chamber section and said first piston being larger than a diameter of each of said pressurized chamber section and said second piston. 13. The damping apparatus of claim 10, wherein said first piston is arranged between said negative-pressure chamber section and said neutral-pressure chamber section, said resiliently deformable part being located on a negative-pressure chamber section-side of said first piston opposite said second piston. 14. The damping apparatus of claim 1, wherein said resiliently deformable part has an uneven surface. 15. The damping apparatus of claim 14, wherein said resiliently deformable part has a ribbed outer surface. 16. The damping apparatus of claim 15, wherein said resiliently deformable part has a ribbed outer surface with annular ribs. 17. The damping apparatus of claim 15, wherein at least one of said annular ribs has a triangular cross-section. 18. The damping apparatus of claim 15, wherein said resiliently deformable part has a ribbed outer surface with axially-extending ribs. 19. The damping apparatus of claim 1, further comprising a cylindrical sleeve surrounding said resiliently deformable part. 20. The damping apparatus of claim 19, wherein said cylindrical sleeve has a slot. 21. The damping apparatus of claim 19, wherein said piston rod further includes a first rigid and a second rigid portion, said resiliently deformable part being located between said first rigid portion and said second rigid portion, said cylindrical sleeve being arranged so as to abut against each of said first rigid portion and said second rigid portion. 22. The damping apparatus of claim 19, wherein said cylindrical sleeve is formed of a harder and more wear-resistant material than said resiliently deformable part. 23. The damping apparatus of claim 1, wherein said inner wall of said channel has annular ribs. 24. The damping apparatus of claim 23, wherein each of said annular ribs has a saw-tooth cross section.