Bellows accumulator fixation apparatus for suspension dampers

What is claimed is: 1. A damper, comprising: a damper housing; a pressure tube arranged within the damper housing; a piston slidably disposed within the pressure tube defining a rebound chamber and a compression chamber; a piston rod that is fixedly coupled to the piston; and an accumulator connected to an accumulator port on the damper housing, wherein the accumulator includes an outer shell with an open end that is coupled to the accumulator port on the damper housing and a distal end having an end wall that extends radially inward to a gas charging port, a bellows assembly having an annular bellows wall extending between a proximal plate and a distal plate to define a pressurized gas chamber therein that is arranged in fluid communication with the gas charging port, and an accumulation chamber that is arranged in fluid communication with the compression chamber and positioned between the distal plate of the bellows assembly and the open end of the outer shell, wherein the gas charging port includes a stem that extends inwardly from the end wall of the outer shell and wherein an inner diameter of the distal plate of the bellows assembly is received on and is coupled to the stem of the gas charging port by a fixation component, wherein the fixation component is a circlip that engages both the stem and the distal plate of the bellows assembly, wherein the stem of the gas charging port has a tubular wall with an outwardly facing groove, the inner diameter of the distal plate of the bellows assembly includes an inwardly facing groove, and the circlip is received within the outwardly facing groove on the stem of the gas charging port and the inwardly facing groove on the distal plate of the bellows assembly to couple the distal plate of the bellows assembly to the stem of the gas charging port at a fixed axial position. 2. The damper of claim 1 , wherein the distal plate of the bellows assembly includes an annular collar that is positioned co-axially with the inner diameter of the distal plate and that extends axially from the distal plate towards the end wall of the outer shell and wherein the accumulator includes a biasing ring that extends annularly about the annular collar of the distal plate and axially between the distal plate and the end wall of the outer shell. 3. The damper of claim 2 , wherein the biasing ring is configured to apply a biasing force to the distal plate that urges the distal plate away from the end wall of the outer shell, wherein gas pressure within the pressurized gas chamber of the bellows assembly applies a counter force on the distal plate that urges the distal plate towards the end wall of the outer shell, and wherein increasing the gas pressure within the pressurized gas chamber of the bellows assembly by adding gas to the pressurized gas chamber through the gas charging port operates to slide the distal plate towards the end wall when the counter force applied by the gas pressure to the distal plate exceeds the biasing force of the biasing ring and operates to self-seat the circlip in the outwardly facing groove on the stem of the gas charging port and the inwardly facing groove on the distal plate of the bellows assembly. 4. The damper of claim 1 , wherein each of the distal and proximal plates of the bellows assembly has a disc shape and an outer diameter that is fixed to the annular bellows wall. 5. A damper, comprising: a damper housing; a pressure tube arranged within the damper housing; a piston slidably disposed within the pressure tube defining a rebound chamber and a compression chamber; a piston rod that is fixedly coupled to the piston; and an accumulator connected to an accumulator port on the damper housing, wherein the accumulator includes an outer shell with an open end that is coupled to the accumulator port on the damper housing and a distal end having an end wall that extends radially inward to a gas charging port, a bellows assembly having an annular bellows wall extending between a proximal plate and a distal plate to define a pressurized gas chamber therein that is arranged in fluid communication with the gas charging port, and an accumulation chamber that is arranged in fluid communication with the compression chamber and positioned between the distal plate of the bellows assembly and the open end of the outer shell, wherein the gas charging port includes a stem that extends inwardly from the end wall of the outer shell and wherein an inner diameter of the distal plate of the bellows assembly is received on and is coupled to the stem of the gas charging port by a fixation component, wherein the fixation component is a blind rivet nut that is attached to a terminal end of the stem and includes a rivet nut bore. 6. The damper of claim 5 , wherein the distal plate of the bellows assembly includes an annular collar that extends annularly about the stem of the gas charging port and terminates at a collar flange that has a smaller diameter than the inner diameter of the distal plate. 7. The damper of claim 6 , wherein the gas charging port includes a mechanical deformation where the blind rivet nut and the stem meet, the mechanical deformation has a larger diameter than the smaller diameter of the collar flange, and the collar flange is positioned axially between the stem and the mechanical deformation to couple the distal plate of the bellows assembly to the stem of the gas charging port at a fixed axial position. 8. The damper of claim 5 , wherein the gas charging port has a tubular wall with a pre-assembled diameter and a pre-assembled length and wherein the tubular wall is configured to deform to an assembled diameter that is greater than the pre-assembled diameter and an assembled length that is less than the pre-assembled length when the tubular wall is compressed by a rivet tool to couple the distal plate of the bellows assembly to the stem of the gas charging port at a fixed axial position. 9. A damper, comprising: a damper housing; a pressure tube arranged within the damper housing; a piston slidably disposed within the pressure tube defining a rebound chamber and a compression chamber; a piston rod that is fixedly coupled to the piston; and an accumulator connected to an accumulator port on the damper housing, wherein the accumulator includes an outer shell with an open end that is coupled to the accumulator port on the damper housing and a distal end having an end wall that extends radially inward to a gas charging port, a bellows assembly having an annular bellows wall extending between a proximal plate and a distal plate to define a pressurized gas chamber therein that is arranged in fluid communication with the gas charging port, and an accumulation chamber that is arranged in fluid communication with the compression chamber and positioned between the distal plate of the bellows assembly and the open end of the outer shell, wherein the gas charging port includes a stem that extends inwardly from the end wall of the outer shell and wherein an inner diameter of the distal plate of the bellows assembly is received on and is coupled to the stem of the gas charging port by a fixation component, wherein a cylindrical bore surface extends about the inner diameter of the distal plate and wherein the cylindrical bore surface includes an annular groove that receives a sealing element. 10. A damper, comprising: a damper housing; a pressure tube arranged within the damper housing; a piston slidably disposed within the pressure tube defining a rebound chamber and a compression chamber; a piston rod that is fixedly coupled to the piston; and an accumulator connected to an accumulator port on the damper housing, wherein the accumulator includes