Brake assembly for medical device support system

What is claimed is: 1. A brake assembly for a medical device support system having a central shaft, the brake assembly comprising: first and second backing portions and first and second liners supported by the backing portions, wherein at least the first liner is supported by the first backing portion by the first liner being snap-fitted to the first backing portion; wherein the first and second backing portions are configured to flex to urge the first and second liners radially inward toward and radially outward away from each other to respectively increase and decrease a frictional braking force to the central shaft; wherein the first and second backing portions and first and second liners have an arc shape and form a split collar around the central shaft that is configured to contract and expand relative to the central shaft in response to flexural movement of the first and second backing portions; wherein the first arc shape liner is snap-fitted to the first arc shape backing portion in a radially outward direction such that a convex portion of the first arc shape liner is in nested relationship with a concave portion of the first arc shape backing portion. 2. The brake assembly of claim 1 , wherein the split collar is a multi-piece split collar wherein the first and second backing portions are discrete pieces. 3. The brake assembly of claim 1 , wherein the split collar is a multi-piece split collar wherein the first and second liners are discrete pieces. 4. The brake assembly of claim 1 , wherein the first liner is snap-fitted to the first backing portion to resist radial and circumferential movement of the first liner relative to the first backing portion. 5. The brake assembly of claim 1 , wherein the first liner and first backing portion include a circumferential tongue and groove connection that resists axial movement of the first liner relative to the first backing portion. 6. The brake assembly of claim 5 , wherein the tongue and groove of the circumferential tongue and groove connection are configured to slide relative to one another as the first liner is snap-fitted to the first backing portion. 7. The brake assembly of claim 5 , wherein the circumferential tongue and groove connection extends along a circumferential portion of the first arc shape liner on circumferentially opposite sides of where the first arc shape liner is snap-fitted to the first arc shape backing portion. 8. The brake assembly of claim 1 , wherein the first and second liners have an identical geometry. 9. A medical device support system, comprising: a central shaft; an extension arm having a support for a medical device and a hub at its proximal end mounted to the central shaft for pivotable movement about the central shaft; and, a brake assembly as set forth in claim 1 the brake assembly secured in the hub for rotation therewith; wherein the brake assembly includes an actuator configured to flex the first and second backing portions to urge the first and second liners toward and away from each other to respectively increase and decrease a frictional braking force to the central shaft. 10. The medical device support system of claim 9 , wherein the split collar is a multi-piece split collar wherein the first and second backing portions are discrete pieces. 11. The medical device support system of claim 9 , wherein the split collar is a multi-piece split collar wherein the first and second liners are discrete pieces. 12. The medical device support system of claim 9 , wherein when the first and second liners are urged toward each other to increase the frictional braking force to the central shaft, the first and second liners have an arc shape contact with the outer periphery of the central shaft. 13. The medical device support system of claim 9 , wherein the brake assembly is configured to operate in a passive manner, preventing motion of the extension arm relative to the central shaft by means of the frictional braking force, wherein the frictional braking force can be overcome by a user pushing on the extension arm. 14. The medical device support system of claim 9 , wherein the first and second liners are diametrically opposed from one another on opposite sides of the central shaft. 15. The medical device support system of claim 9 , wherein the medical device is a surgical light. 16. The medical device support system of claim 9 , wherein the first and second liners are made of a material selected from polyolefins, polyesters, acetals, polyamides, fluorinated polymers, vinyls, acrylics, polycarbonates, polyimides, polysulphones, and blends and alloys thereof. 17. The medical device support system of claim 9 , wherein the first and second liners include unreinforced, semi-crystalline thermoplastic polyester based on polyethylene terephthalate (PET-P). 18. The medical device support system of claim 9 , wherein the first and second liners include respective first and second polymer liners made of UHMW-PE. 19. A method of installing a brake assembly as set forth in claim 1 in a medical device support system having a central shaft, the method comprising: providing the brake assembly as set forth in claim 1 ; and, securing the brake assembly in a hub of an extension arm for rotation with the extension arm about the central shaft. 20. The method of claim 19 , wherein the supporting includes positioning the first liner radially inward of the first backing portion such that the first liner and first backing portion are substantially in the same transverse plane. 21. The method of claim 19 , wherein the first liner includes a dovetail having one or more protruding parts and the first backing portion includes a receptacle having one or more undercuts, and the supporting includes fitting the dovetail into the receptacle so that the one or more protruding parts seat within the one or more undercuts. 22. The method of claim 19 , wherein the first liner and first backing portion include a circumferential tongue and groove connection, and the supporting includes sliding the tongue and groove relative to one another as the first liner is snap-fitted to the first backing portion. 23. A brake assembly for a medical device support system having a central shaft, the brake assembly comprising: first and second backing portions and first and second liners supported by the backing portions, wherein at least the first liner is supported by the first backing portion by the first liner being snap-fitted to the first backing portion; wherein the first and second backing portions are configured to flex to urge the first and second liners toward and away from each other to respectively increase and decrease a frictional braking force to the central shaft; wherein the first liner includes one or more protruding parts and the first backing portion includes one or more undercuts, and wherein the first liner is snap-fitted to the first backing portion by the one or more protruding parts being seated in the one or more undercuts. 24. The brake assembly of claim 23 , wherein the one or more protruding parts form a radially protruding dovetail and the one or more undercuts form a radially protruding receptacle into which the dovetail seats when the first liner is snap-fitted to the first backing portion.