Controllable coupling assembly and coupling member for use in the assembly

What is claimed is: 1 . A coupling member for use in a controllable coupling assembly, the member comprising: a first coupling face oriented to face axially along a rotational axis and having a set of locking formations, each of the set of locking formations defining a first load-bearing surface adapted for abutting engagement with a load-bearing surface of a first locking element; and a second coupling face oriented to face radially with respect to the axis and having a reverse pocket receiving a reverse locking element and defining a second load-bearing surface adapted for abutting engagement with a load-bearing surface of the reverse locking element. 2 . The coupling member as claimed in claim 1 , wherein the set of locking formations are spaced-apart forward cams. 3 . The coupling member as claimed in claim 1 , wherein the set of locking formations are forward locking formations. 4 . The assembly as claimed in claim 1 , wherein the reverse locking element is a radial pawl. 5 . The assembly as claimed in claim 1 , wherein the coupling member is an outer coupling member. 6 . The assembly as claimed in claim 1 , further comprising a biasing member to bias the reverse locking element. 7 . The assembly as claimed in claim 6 , wherein the biasing member biases the reverse locking element towards an uncoupling position. 8 . A controllable coupling assembly having multiple operating modes, the assembly comprising: first and second coupling members supported for rotation relative to one another about a common rotational axis in a first operating mode, the first coupling member including: a first coupling face oriented to face axially along the axis and having a set of locking formations, each of the set of locking formations defining a first load-bearing surface adapted for abutting engagement with a load-bearing surface of a first locking element in a second operating mode; and a second coupling face oriented to face radially with respect to the axis and having a reverse pocket receiving a reverse locking element and defining a second load-bearing surface adapted for abutting engagement with a load-bearing surface of the reverse locking element in a third operating mode. 9 . The assembly as claimed in claim 8 , wherein the second coupling member is a plate and has a set of forward pockets angularly spaced about the axis and a set of spaced-apart reverse cams. 10 . The assembly as claimed in claim 9 , wherein the reverse cams are greater in number than the forward pockets. 11 . The assembly as claimed in claim 9 , wherein the spaced-apart reverse cams are spaced-apart locking teeth. 12 . The assembly as claimed in claim 9 , wherein the plate has a width and wherein each reverse cam extends the entire width of the plate. 13 . The assembly as claimed in claim 8 , wherein the second coupling member is a splined ring having an outer circumferential surface formed with a set of locking formations. 14 . The assembly as claimed in claim 9 , wherein the set of forward pockets receive forward locking elements and the set of locking formations are forward locking formations. 15 . A controllable coupling assembly for use in an electronic vehicular transmission, the assembly comprising: first and second coupling members supported for relative rotation about a rotational axis, the first coupling member having a first coupling face oriented to face radially with respect to the axis and the second coupling member having a second coupling face oriented to face radially with respect to the axis and having a set of locking formations, each of the locking formations defining a load-bearing second surface, the first coupling face being in close-spaced opposition to the second coupling face and having a reverse pocket defining a load-bearing first surface, a reverse locking element received within the reverse pocket in an uncoupling position and movable outwardly from the reverse pocket to a coupling position to couple the first and second coupling members together, the coupling position being characterized by abutting engagement of the reverse locking element with the load-bearing first and second surfaces; and an electromechanical component supported by the first coupling member and including: a housing part having a closed axial end; an electromagnetic source including at least one excitation coil at least partially surrounded by the housing part; and a reciprocating member arranged concentrically relative to the at least one excitation coil and being axially movable to move the reverse locking element to either the coupling position or the uncoupling position when the at least one excitation coil is supplied with current. 16 . The assembly as claimed in claim 15 , wherein the reverse locking element includes at least one projecting leg portion, wherein each leg portion has an aperture and wherein the assembly further includes a pivot pin received within each aperture to allow rotational movement of the locking element in response to reciprocating movement of the reciprocating member. 17 . The assembly as claimed in claim 16 , wherein a leading end of the reciprocating member is connected to the reverse locking element via the pivot pin. 18 . The assembly as claimed in claim 15 , wherein the reverse locking element is spring-loaded. 19 . The assembly as claimed in claim 15 , wherein the housing part has at least one attachment flange to attach the component to the first coupling member. 20 . The assembly as claimed in claim 15 , wherein the locking formations comprise radially extending, angularly-spaced teeth. 21 . The assembly as claimed 15 , wherein the component comprises a solenoid. 22 . The assembly as claimed in claim 15 , wherein the second coupling member has a width and wherein each locking formation extends the entire width of the second coupling member. 23 . The assembly as claimed in claim 15 , further comprising a biasing member to bias the reciprocating member to an extended position. 24 . The assembly as claimed in claim 15 , wherein the reciprocating member and the reverse locking element are connected together.