Pneumatic membrane actuator and method of assembly

The invention claimed is: 1. A pneumatic actuator and support pad assembly comprising: a pneumatic actuator including: a flex member including a central axis, a flexible wall and a connection feature disposed along said flexible wall, said connection feature including a connector wall that at least partially defines a connector passage, said flexible wall being formed from a polymeric material, said flexible wall including: a central portion disposed in transverse relation to said central axis and at least partially defining a closed end of said flex member; a side portion spaced radially-outwardly from said central portion and extending in approximate alignment with said central axis such that an open end of said flex member is at least partially defined by said side portion with said central portion and said side portion at least partially defining an actuator chamber such that said connector passage is disposed in fluid communication with said actuator chamber; an end surface formed along said open end of said flexible wall and disposed in transverse relation to said central axis; and, a mounting bead spaced radially-outwardly from said side portion and least partially defining an outermost periphery of said flex member, said mounting bead including a bead recess surface extending radially-outwardly from along said side portion and a bead projection surface extending radially-outwardly from along said bead recess surface, said bead recess surface disposed in spaced relation to said end surface such that a recess dimension is formed therebetween and said bead projection surface disposed in spaced relation to said end surface such that a projection dimension is formed therebetween, said projection dimension being greater than said recess dimension such that a mounting recess is at least partially defined by said bead recess surface, said mounting recess extending along said flexible wall about said central axis; and, a mounting base operatively connected along the flex member such that a substantially fluid-tight seal is formed therewith along the end surface thereof and such that said actuator chamber is at least partially defined between said flex member and said mounting base, said mounting base including a base portion and a bead portion, said base portion of said mounting base disposed in transverse relation to said central axis of said flex member, said bead portion extending along said base portion of said mounting base about said central axis of said flex member, at least a part of said bead portion being received within said mounting recess and abuttingly engaging at least a part of said bead recess surface of said flex member such that at least a part of said end surface of said flex member is urged toward and into abutting engagement with said base portion of said mounting base to form said substantially fluid-tight seal between said flex member and said mounting base; and, a support pad abuttingly engaging at least a portion of said pneumatic actuator, said support pad including a support pad wall, said support pad wall including a base portion and a side portion projecting axially from along said base portion of said support pad wall, said base portion of said support pad wall including an outer surface adapted to abuttingly engage an associated support surface and an inner surface disposed opposite said outer surface, said side portion including an outer surface and an opposing inner surface, said inner surface of said base portion of said support pad wall and said inner surface of said side portion together at least partially defining a support pad cavity of said support pad; and, at least a portion of said pneumatic actuator being received within said support pad cavity of said support pad such that at least a portion of said mounting base abuttingly engages at least a portion of said inner surface of at least one of said base portion of said support pad wall and said side portion of said support pad wall. 2. A pneumatic actuator and support pad assembly according to claim 1 , wherein said mounting base includes a fluid passage extending through said base portion of said mounting base and in fluid communication with said actuator chamber, and said support pad includes a fluid passage extending through a part of said support pad wall and in fluid communication with said actuator chamber through said fluid passage in said base portion of said mounting base. 3. A pneumatic actuator and support pad assembly according to claim 2 , wherein said support pad wall includes a connector wall projecting outwardly from along one of said base portion and said side portion of support pad wall, said connector wall defining at least a portion of said fluid passage extending through said support pad wall. 4. A pneumatic actuator and support pad assembly according to claim 1 , wherein said side portion of said support pad wall includes an end surface disposed opposite said outer surface of said base portion of said support pad wall, and said support pad wall includes a tube support portion projecting axially outwardly beyond said end surface of said side portion and including an opening extending therethrough that is dimensioned to receive an associated tube. 5. A pneumatic actuator and support pad assembly according to claim 4 , wherein said tube support portion projects axially-outwardly from along said end surface of said side portion. 6. A pneumatic actuator and support pad assembly according to claim 1 , wherein said flex member includes a connection feature disposed along said flexible wall, said connection feature including a connector wall that at least partially defines a connector passage fluidically isolated from said actuator chamber by a portion of said flexible wall. 7. A pneumatic actuator and support pad assembly according to claim 1 , wherein said support pad includes a wall portion projecting outwardly from along said side portion in a direction transverse to said central axis of said flex member, said wall portion including an opening formed therethrough in a direction that is in approximate alignment with said central axis. 8. A method of assembling a pneumatic actuator, said method comprising: a) providing a flex member that includes a central axis, a flexible wall and a connector wall projecting outwardly from along said flexible wall and at least partially defining a fluid passage, said flexible wall being formed from a polymeric material, said flexible wall including: a central wall portion disposed in transverse relation to said central axis and at least partially defining a closed end of said flex member; a side wall portion spaced radially-outwardly from said central wall portion and disposed in approximate alignment with said central axis such that an open end of said flex member is at least partially defined thereby; an end surface formed along said open end of said flex member and disposed in transverse relation to said central axis; and, a mounting bead spaced radially-outwardly from said side wall portion and at least partially defining an outermost periphery of said flex member, said mounting bead including a bead recess surface extending radially-outwardly from along said side wall portion and a bead projection surface extending radially-outwardly from along said bead recess surface, said bead recess surface disposed in spaced relation to said end surface such that a recess dimension is formed therebetween, said bead projection surface disposed in spaced relation to said end surface such that a projection dimension is formed therebetween, said projection dimension being greater than said recess dimension such that a mounting recess is at least partially defined by said bead recess surface with said mounting recess extending along s