Medical multi-link boom

What is claimed is: 1 . A suspension arm assembly comprising: at least three horizontally aligned members relatively rotatable about each other, each member of the at least three horizontally aligned members having a load bearing periphery and comprising a body in which an uppermost surface of the body and a lowermost surface of the body define a vertical extent of the load bearing periphery, each adjacent pair of the at least three horizontally aligned members being connected to each other by a joint; conduits extending along the at least three horizontally aligned members, wherein all of the conduits that extend along the at least three horizontally aligned members extend vertically outward of the vertical extent of each of the load bearing peripheries of the at least three horizontally aligned members; a brake system comprising a brake at each joint for selectively preventing movement of respective adjacent ones of the at least three horizontally aligned members about the joint; at least one shell arranged about the at least three horizontally aligned members and the conduits; a connecting assembly rotatably connected to one of the at least three horizontally aligned members; and a service head that is connected to the at least three horizontally aligned members via the connecting assembly, wherein at least one shelf connected to the service head comprises at least one sensor of the brake system for releasing the brake at at least one of the joints. 2 . The suspension arm assembly of claim 1 , wherein the conduits are routed horizontally and not vertically between each adjacent pair of the at least three horizontally aligned members. 3 . The suspension arm assembly of claim 1 , comprising at least one conduit routing housing located between the load bearing peripheries of the at least three horizontally aligned members and the at least one shell. 4 . The suspension arm assembly of claim 3 , wherein the at least one conduit routing housing comprises a plurality of partitioned sections for routing different conduits. 5 . The suspension arm assembly of claim 1 , wherein each of the at least three horizontally aligned members includes a pivot pin for connecting to an adjacent one of the at least three horizontally aligned members, each pivot pin engaging a respective one of the brakes of the brake system for selectively preventing rotation of the adjacent one of the at least three horizontally aligned members about the pivot pin. 6 . The suspension arm assembly of claim 5 , wherein each of the at least three horizontally aligned members includes a removable C-shaped flange for selectively locking the pivot pin in position on the at least three horizontally aligned members. 7 . The suspension arm assembly of claim 1 , wherein the brake system is configured to require activation of at least two sensors to release the brake at each joint. 8 . The suspension arm assembly of claim 7 , wherein the at least two sensors comprise at least two capacitance touch sensors. 9 . The suspension arm assembly of claim 7 , wherein the at least two sensors comprise at least one force sensor. 10 . The suspension arm assembly of claim 1 , wherein the at least three horizontally aligned members are hollow. 11 . The suspension arm assembly of claim 10 , wherein the at least three horizontally aligned members have a rectangular cross-sectional shape. 12 . The suspension arm assembly of claim 1 , comprising a powered system for selectively causing rotations of at least two of the at least three horizontally aligned members about each other. 13 . The suspension arm assembly of claim 1 , wherein the brake system is configured for sequential release of the brakes of the brake system. 14 . The suspension arm assembly of claim 1 , wherein an upper portion of the connecting assembly is configured to funnel the conduits into a central portion of the connecting assembly. 15 . The suspension arm assembly of claim 1 , comprising an attachment member for connecting the suspension arm assembly to a support structure. 16 . The suspension arm assembly of claim 15 , wherein the attachment member is configured for ceiling attachment. 17 . The suspension arm assembly of claim 1 , wherein the service head is supported by the at least three horizontally aligned members for providing medical services or information. 18 . The suspension arm assembly of claim 1 , wherein at least one of the at least three horizontally aligned members has an arm horizontal length smaller than 25% of a total horizontal length of all of the at least three horizontally aligned members. 19 . The suspension arm assembly of claim 1 , wherein the brake at each joint is located outside of an outermost side of the respective adjacent ones of the at least three horizontally aligned members in a direction of a rotational axis of the joint. 20 . The suspension arm assembly of claim 1 , wherein the brake system is configured to sequentially release each brake according to an order of each brake along the suspension arm assembly.