Vibration absorbing features for plastic assemblies

What is claimed is: 1. An apparatus, comprising: a instrument cluster assembly, including: a light housing; at least one biasable member integrally formed with the light housing; a graphics layer generally juxtaposed the light housing; a mask selectively connected to the light housing such that the at least one biasable member absorbs vibration between the light housing and the mask; a perimeter sidewall formed as part of the light housing, the at least one biasable member integrally formed with the perimeter sidewall; an inner perimeter sidewall formed as part of the mask; a base portion integrally formed with the perimeter sidewall, the base portion being part of the at least one biasable member; and a flange portion being part of the at least one biasable member such that the flange portion is integrally formed with the base portion, the flange portion being in contact with the inner perimeter sidewall such that the flange portion deflects along an arc when there is relative movement between the light housing and the mask, absorbing vibration between the light housing and the mask; wherein the mask is positioned such that the mask is only in contact with the flange portion of the at least one biasable member. 2. The apparatus of claim 1 , the at least one biasable member further comprising a plurality of biasable members integrally formed with the perimeter sidewall. 3. The apparatus of claim 1 , the flange portion further comprising: an outer surface; a first end connected to the base portion, a portion of the outer surface being part of the first end; and a second end, a portion of the outer surface being part of the second end; wherein the second end is in contact with the inner perimeter sidewall such that when the mask and light housing move relative to one another, the mask applies force to the second end of the flange portion causing the flange portion to deflect and absorb vibration between the light housing and the mask. 4. The apparatus of claim 3 , wherein the flange portion is positioned at an angle relative to the light housing such that as the flange portion deflects towards the light housing by force applied from the mask, the mask contacts a larger area of the outer surface of the flange portion in proximity to the second end. 5. The apparatus of claim 4 , wherein the biasable member flange portion is generally perpendicular to the base portion and the flange member is generally straight. 6. An instrument cluster assembly having a plurality of biasable members, comprising: a light housing; a perimeter sidewall integrally formed as part of the light housing; a plurality of biasable members integrally formed as part of the perimeter sidewall; a mask connected to the light housing; an inner perimeter sidewall integrally formed as part of the mask; each of the plurality of biasable members further comprising: a base portion integrally formed to the perimeter sidewall; and a flange portion integrally formed with the base portion; wherein the inner perimeter sidewall is only in contact with the flange portion of each of the plurality of biasable members, and the flange portion of each of the plurality of biasable members deflect and move along an arc when there is relative movement between the mask and the light housing, absorbing vibration between the mask and light housing. 7. The instrument cluster assembly having at least one a plurality of biasable members member of claim 6 , each of the plurality of biasable members further comprising: an outer surface; a first end connected to the base portion, a portion of the outer surface being part of the first end; and a second end, a portion of the outer surface being part of the second end; wherein the second end is in contact with the inner perimeter sidewall such that when the mask and light housing move relative to one another, the mask applies force to the second end of the flange portion causing the flange portion to deflect and absorb vibration between the light housing and the mask. 8. The instrument cluster assembly having a plurality of biasable members of claim 7 , wherein the flange portion is positioned at an angle relative to the light housing such that as the flange portion deflects towards the light housing by force applied from the mask, the mask contacts a larger area of the outer surface of the flange portion near the second end. 9. The instrument cluster of assembly of claim 8 , wherein the bias able member flange portion is generally perpendicular to the base portion and the flange member is generally straight. 10. An instrument cluster assembly having a biasable member for reducing noise produced by vibration, the instrument cluster assembly comprising: a light housing; a perimeter sidewall formed as part of the light housing; at least one biasable member integrally formed with the perimeter sidewall; a base portion formed with the perimeter sidewall, the base portion being part of the at least one biasable member; a flange portion integrally formed with the base portion, the flange portion being part of the at least one biasable member; a mask selectively connected to the light housing; and an inner perimeter sidewall formed as part of the mask; wherein the inner perimeter sidewall of the mask is in contact with only a portion of the flange portion, such that the flange portion moves along an arc and deflects to absorb vibration between the light housing and the mask. 11. The instrument cluster assembly of claim 10 , the flange portion further comprising: an outer surface; a first end connected to the base portion, a portion of the outer surface being part of the first end; and a second end, a portion of the outer surface being part of the second end; wherein the second end is in contact with the inner perimeter sidewall such that when the mask and light housing move relative to one another, the second end deflects, absorbing vibration between the light housing and the mask. 12. The instrument cluster of assembly of claim 11 , wherein the flange portion is positioned at an angle relative to the perimeter sidewall such that as the flange portion deflects towards the perimeter sidewall by force applied from the inner perimeter sidewall, the inner perimeter sidewall contacts a larger area of the outer surface of the flange portion near the second end. 13. The instrument cluster of assembly of claim 12 , wherein the bias able member flange portion is generally perpendicular to the base portion and the flange member is generally straight. 14. The instrument cluster of assembly of claim 10 , the at least one biasable member further comprising six biasable members integrally formed with the perimeter sidewall.