Damper system

1 . A damper system for orthopedic devices, having a proximal fastening device and a distal fastening device which are coupled to each other and displaceable relative to each other, having a first hydraulic or pneumatic damper device, which is arranged between the proximal and distal fastening devices and which has a flexion chamber and an extension chamber which are separated from each other by a movable piston and which are fluidically connected to each other by at least one overflow line, the damper system further including a second damper device with parallel action, and with a speed-independent hysteresis behavior, the second damper device being arranged between the proximal and distal-fastening devices and being designed as a tube structure damper. 2 . The damper system of claim 1 , wherein the second damper device is made from an elastomer. 3 . The damper system of claim 1 , wherein the second damper device surrounds the first damper device circumferentially. 4 . The damper system of claim 1 , wherein the damping behavior of the first damper device is adjustable. 5 . The damper system of claim 1 , wherein the tube structure damper has at least one outwardly curved, barrel-shaped or bell-shaped portion. 6 . The damper system of claim 1 , wherein the tube structure damper has a plurality of outwardly curved, barrel-shaped and/or bell-shaped portions with different diameters and/or different heights. 7 . The damper system of claim 1 , wherein the tube structure damper has an inwardly and/or outwardly projecting support portion, which bears on a housing of the first damper device. 8 . The damper system of claim 1 , wherein the first damper device is assigned a switching element which at least reduces the flow resistance in the extension direction or flexion direction and keeps it at a set flow resistance value in the opposite direction. 9 . The damper system of claim 8 , wherein the flow resistance of the first damper device is reduced in the compression direction of the second damper device. 10 . The damper system of claim 1 , wherein the hysteresis behavior of the second damper device is softer than that of the first damper device. 11 . The damper system of claim 1 , wherein one of the fastening devices forms a cylinder for receiving the piston. 12 . The damper system of claim 1 , wherein the second damper device is arranged within the fluid of the first damper device. 13 . The damper system of claim 6 , wherein at least one of the barrel-shaped and/or bell-shaped portions is arranged above the first damper device, and at least one of the barrel-shaped and/or bell-shaped portions is arranged below the first damper device. 14 . A damper system for orthopedic devices, the damper system comprising: a proximal fastening device and a distal fastening device, the proximal and distal fastening devices being coupled to each other and displaceable relative to each other; a first hydraulic or pneumatic damper device arranged between the proximal and distal fastening devices, the first hydraulic or pneumatic damper device having a flexion chamber and an extension chamber which are separated from each other by a movable piston and which are fluidically connected to each other by at least one overflow line; the damper system further including a second damper device configured as a tube structure damper device made from an elastomer which surrounds the first damper device circumferentially, the second damper device having parallel action and with a speed-independent hysteresis behavior, the second damper device being arranged between the proximal and distal fastening devices. 15 . The damper system of claim 14 , wherein the damping behavior of the first damper device is adjustable. 16 . The damper system of claim 14 , wherein the tube structure damper has at least one outwardly curved, barrel-shaped or bell-shaped portion. 17 . The damper system of claim 16 , wherein the tube structure damper has a plurality of outwardly curved, barrel-shaped and/or bell-shaped portions with different diameters and/or different heights. 18 . The damper system of claim 1 , wherein the tube structure damper has an inwardly and/or outwardly projecting support portion, which bears on a housing of the first damper device. 19 . The damper system of claim 1 , wherein the first damper device is assigned a switching element which at least reduces the flow resistance in the extension direction or flexion direction and keeps it at a set flow resistance value in the opposite direction. 20 . A damper system for orthopedic devices, the damper system comprising: a proximal fastening device and a distal fastening device, the proximal and distal fastening devices being coupled to each other and displaceable relative to each other; a first hydraulic or pneumatic damper device with adjustable damping behavior, the first hydraulic or pneumatic damper device being arranged between the proximal and distal fastening devices, and the first hydraulic or pneumatic damper device having a flexion chamber and an extension chamber which are separated from each other by a movable piston and which are fluidically connected to each other by at least one overflow line; the damper system further including a second damper device configured as a tube structure damper device with at least one outwardly curved, barrel-shaped or bell-shaped portion, the tube structure damper device being made from an elastomer and which surrounds the first damper device circumferentially, the second damper device having parallel action and with a speed-independent hysteresis behavior, the second damper device being arranged between the proximal and distal fastening devices.