Disposable injector having a sound-proofing layer

What is claimed is: 1. A single use injector ( 4 ) having a housing ( 10 ), having a resiliently loaded piston actuation ram ( 60 ) which is arranged in the housing ( 10 ), the resiliently loaded piston actuation ram ( 60 ) having a cylindrical guiding journal ( 62 ), a ram plate ( 73 ) affixed to the cylindrical guiding journal ( 62 ) and a piston sliding member ( 76 ) affixed to the ram plate ( 73 ), the cylindrical guiding journal ( 62 ) configured to carry and guide a helical compression spring ( 50 ), the ram plate ( 73 ) is configured as a disk-like member and is oriented normally with respect to a longitudinal center axis ( 7 ) of the single use injector ( 4 ), the helical compression spring ( 50 ) at the bottom thereof contacts the ram plate ( 73 ) in an operative position, a trigger unit ( 80 ) is configured to unlock the resiliently loaded piston actuation ram ( 60 ), having a cylinder/piston unit ( 100 ) which comprises a cylinder ( 101 ) and a piston ( 111 ) which is spaced apart from the piston actuation ram ( 60 ), the piston sliding member ( 76 ) slidable within the cylinder ( 101 ) and adapted to strike the piston ( 111 ) within the cylinder ( 101 ) upon actuation of the piston actuation ram ( 60 ) and having means for damping at least one of structure-borne noise and airborne noise during triggering of the resiliently loaded piston actuation ram ( 60 ) for preventing recoil of a patient or other user during injection of the single use injector ( 4 ). 2. The single-use injector of claim 1 , characterized in that the means for damping at least one of structure-borne noise and airborne noise during triggering of the resiliently loaded piston actuation ram ( 60 ) for preventing recoil of a patient or other user during injection of the single use injector ( 4 ) includes a closed noise insulation material layer ( 140 ) configured to surround the piston actuation ram ( 60 ) at least partially and protrudes therebeyond in a triggering direction ( 6 ). 3. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the closed noise insulation material layer ( 140 ) comprises a resiliently deformable material. 4. The single-use injector ( 4 ) as claimed in claim 3 , characterized in that the resiliently deformable material is an open-pore material. 5. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the closed noise insulation material layer ( 140 ) is arranged on a carrier component ( 82 ; 143 ). 6. The single-use injector ( 4 ) as claimed in claim 5 , characterized in that the thickness of the closed noise insulation material layer ( 140 ) corresponds to at least the thickness of a carrying region ( 135 ) of the carrier component ( 82 ; 143 ) which carries it. 7. The single-use injector ( 4 ) as claimed in claim 5 , characterized in that the closed noise insulation material layer ( 140 ) is connected to the carrier component ( 82 ; 143 ) which carries it by a chemical or physical connection. 8. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the triggering unit ( 80 ) comprises a tubular triggering element ( 82 ) which can be displaced in an axial direction relative to the housing ( 10 ). 9. The single-use injector ( 4 ) as claimed in claim 8 , characterized in that the housing ( 10 ) and/or the triggering element ( 82 ) carries the closed noise insulation material layer ( 140 ). 10. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the material of the closed noise insulation material layer ( 140 ) is a foam material. 11. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the triggering of the piston actuation ram ( 60 ) is blocked by locking rods ( 21 ) having at least one wrap-around hook ( 26 ) or having triggering cams ( 22 ), wherein the closed noise insulation material layer ( 140 ) is arranged on the housing ( 10 ) and/or on the triggering element ( 82 ) and configured to surround at least the wrap-around hooks ( 26 ) or the triggering cams ( 22 ). 12. The single-use injector ( 4 ) as claimed in claim 2 , characterized in that the piston actuation ram ( 60 ) comprises a composite material including a cylindrical core ( 63 ) comprising a first material and a sheath ( 64 ) comprising a second material configured to surround the cylindrical core ( 63 ), wherein the elasticity modulus of the first material of the cylindrical core ( 63 ) is at least twice as high as the elasticity modulus of the second material of the sheath ( 64 ) which surrounds the cylindrical core ( 63 ), whereby when the single-use injector ( 4 ) is triggered a structure-borne noise spread along the cylindrical core ( 63 ) is damped by the sheath ( 64 ).