Differential deflection measurement in structural members

The invention claimed is: 1. A deflection measuring device for measuring differential vertical deflection between first and second discrete points in response to the application of force to the device, the device comprising a transducer attachable to a structural member and comprising at least one strain responsive element, the transducer being operable to resolve any force applied thereto into a differential vertical deflection between a first point and a second point on the transducer when a load is applied thereto; the strain responsive element being operable to measure the differential vertical deflection in the transducer. 2. A deflection measuring device according to claim 1 , wherein the transducer is unconstrained against shear, bending and torsional deflection. 3. A deflection measuring device according to claim 1 , wherein the transducer comprises a first loading member and a second loading member coupled together and capable of relative vertical and torsional deflection with respect to one another, a first flexure element and a second flexure element coupled to the first and the second loading member respectively and connected to one another by a connecting portion and being arranged to deform in response to the relative vertical deflection between the first and the second loading members. 4. A deflection measuring device according to claim 3 , wherein such the strain responsive element is coupled to the first and second flexure elements and is operable to detect the deformation therein. 5. A deflection measuring device according to claim 1 , wherein the transducer is formed of a plate or a block of material attachable to a structural member. 6. A deflection measuring device according to claim 5 , wherein the plate or the block of material is formed with the first and the second loading members coupled together by first and second flexure elements united by a connecting portion at one of their ends and each being connected to a respective loading member at the other of their ends. 7. A deflection measuring device according to claim 6 , wherein the block of material or plate further comprises a pair of parallel elongate recesses in and perpendicular to a top edge of the block of material or plate and an elongate recess in and perpendicular to an opposing bottom edge thereof, the recesses being configured so as to form the two loading members coupled together by first and second flexure elements united by a connecting portion at one of their ends and each of which are connected to a respective loading member at the other of their ends. 8. A deflection measuring device according to claim 1 , wherein the strain responsive element is a displacement transducer. 9. A deflection measuring device according to claim 1 , wherein the strain responsive element is a strain gauge. 10. A load measuring assembly comprising a deflection measuring device and a structural member to which the deflection measuring device is attached, the deflection measuring device comprising a transducer attached to the structural member and comprising at least one strain responsive element, the transducer being operable to resolve any force applied thereto from the structural member into a differential vertical deflection between a first point and a second point on the transducer when a load is applied thereto; the strain responsive element being operable to measure the differential vertical deflection in the transducer. 11. A railroad rail assembly including a rail and a load measuring assembly according to claim 10 attached to a side of the rail. 12. A load measuring assembly according to claim 10 , wherein the transducer is attached to the structural member by a coupling element. 13. A load measuring assembly according to claim 12 , wherein the coupling element comprises a plurality of bolts. 14. A load measuring assembly according to claim 10 , further comprising a spacer element between the transducer and the structural member. 15. A load measuring assembly according to claim 14 , wherein the spacer element is in contact with a coupling element between the transducer and the structural member. 16. A load measuring assembly according to claim 13 , wherein the structural member comprises a plurality of apertures therethrough for receiving the plurality of bolts, each aperture being circumscribed by a counter-bore in the surface of the structural member. 17. A load measuring assembly according to claim 10 , comprising a first deflection measuring device and a second deflection measuring device attached on or about the neutral axis of the structural member and longitudinally spaced apart from one another, each of said first and said second deflection measuring device comprising at least one strain responsive element operable to detect a vertical deflection in the transducer resulting from a force applied to the structural member. 18. A load measuring assembly according to claim 10 , wherein the structural member is a rail. 19. A load measuring assembly according to claim 10 , wherein the load measuring assembly is an axle load measuring assembly for a railway. 20. A load measuring assembly according to claim 19 , wherein the axle load measuring assembly comprises two pairs of differential deflection measuring devices located in predetermined spaced configuration along the railway, each differential deflection measuring device of each pair being located together in side by side relation, one on each rail secured to the web thereof. 21. A deflection measuring kit for assembly to form a deflection measuring device for measuring differential vertical deflection between first and second discrete points in response to the application of force to the device from a structural member, the kit comprising four nuts and bolts, a transducer formed of a block of material and having four bolt holes therethrough and at least one strain responsive element affixed to the block of material, four structural member spacer elements each having an annular surface to contact the structural member and the bolt shaft circumference of one of said bolts. 22. A method of measuring a load applied to a structural member, the method comprising the steps of providing a deflection measuring device according to claim 1 , attaching the deflection measuring device on or about the neutral axis of a structural member, applying a load to the structural member thereby inducing a differential vertical deflection between first and second points on the transducer of the differential measuring device, measuring the differential vertical deflection in the transducer using a strain responsive element and determining the applied load from the output of the strain responsive element. 23. A method of installing a differential measuring device on a structural member, the method including the steps of providing a deflection measuring device according to claim 1 , the transducer having at least a pair of apertures therethrough for securing the deflection measuring device to the structural member, providing a pair of apertures in the structural member for alignment with the pair of apertures in the deflection measuring device, providing a counter-bore in the surface of the structural member about each of the pair of apertures therethrough, providing a spacer element about each bolt shaft circumference and in contact therewith, securing the deflection measuring device to the structural member by passing a bolt and spacer element assembly through each of the ape