Drum brake assembly and wear monitoring device for such an assembly

The invention claimed is: 1. A brake assembly comprising a camshaft for the actuation of brake shoes in a brake drum and a lever actuating the camshaft, the camshaft comprising opposite to its cam end a splined section, whereby the lever is being rotatably fixedly connected to the splined section by a splined groove section, further comprising a wear monitoring device for measurement of the wear status of the brake shoes, the wear monitoring device comprising a housing statically arranged relative to the camshaft and a rotating element rotatably arranged in the housing and rotatably fixedly connected to the splined section of the camshaft, said rotating element configured to provide an angular position to be sensed, characterized in that the camshaft comprises at least one first alignment mechanism and in that the wear monitoring device comprises at least one second alignment mechanism, wherein the first and second alignment mechanisms are configured to cooperate with each other and are arranged to allow only one particular angular position between the camshaft and the rotating element of the wear monitoring device, wherein the first alignment mechanism of the camshaft is arranged on one of a peripheral surface of the splined section or a surface defining a distal end of the splined section. 2. The drum brake assembly of claim 1 , in which the rotating element of the wear monitoring device comprises the second alignment mechanism in such a way that only one particular angular position between the camshaft and the rotating element and in relation to the stationary housing of the wear monitoring device is possible. 3. The drum brake assembly of claim 2 , in which the first and second alignment mechanisms of both the camshaft and the rotating element are configured so as to also rotatably fixedly connect the camshaft with the rotating element. 4. The drum brake assembly of claim 1 , in which the first alignment mechanism of the camshaft is arranged on the peripheral surface of the splined section. 5. The drum brake assembly of claim 4 , in which the first alignment mechanism is made as a geometric alteration in the form of a recess, hole, protrusion or deviation in the repetitive pattern of the splines. 6. The drum brake assembly of claim 1 , in which the first alignment mechanism of the camshaft is arranged on the surface defining the distal end of the splined section. 7. The drum brake assembly of claim 6 , in which the first alignment mechanism is made as a hole or protrusion. 8. The drum brake assembly of claim 2 , in which the second alignment mechanism of the rotating element is made as a hole or protrusion. 9. The drum brake assembly of claim 1 , in which the housing of the wear monitoring device is rotatably fixedly connected to the lever or to a vehicle underframe part. 10. A camshaft for actuation of brake shoes in a brake drum of a drum brake assembly comprising a cam end cooperating with the brake shoes and opposite of its cam end a splined section for rotatably fixedly connection to an actuating lever, characterized by a first alignment mechanism which is configured and arranged to cooperate with a second alignment mechanism of a wear monitoring device for the drum brake assembly so as to allow only one particular angular position between the camshaft and the wear monitoring device, wherein the first alignment mechanism of the camshaft is arranged on one of a peripheral surface of the splined section or a surface defining a distal end of the splined section. 11. The camshaft of claim 10 , in which the first alignment mechanism is arranged on the peripheral surface of the splined section. 12. The camshaft of claim 11 , in which the first alignment mechanism is made as a geometric alteration in the form of a recess, hole, protrusion or deviation in the repetitive pattern of the splines. 13. The camshaft of claim 10 , in which the first alignment mechanism is arranged on the surface defining the distal end of the splined section. 14. The camshaft of claim 13 , in which the first alignment mechanism is made as a hole or protrusion.