Cyclonic separating apparatus

The invention claimed is: 1. A cyclonic separating apparatus comprising a first cyclonic separating unit and, downstream from the first cyclonic separating unit, a second cyclonic separating unit comprising a plurality of cyclones arranged fluidly in parallel about a first axis and a dust collector arranged to receive dust from each of the plurality of cyclones, each of the plurality of cyclones in the second cyclonic separation unit comprising a fluid inlet and a fluid outlet, the plurality of cyclones being divided into at least a first set of cyclones and a second set of cyclones, the fluid inlets of the first set of cyclones being arranged in a first group and the fluid inlets of the second set of cyclones being arranged in a second group that is spaced along the first axis from the first group such that the fluid inlets of the second group are non-overlapping with the fluid inlets of the first group in a direction that is parallel to the first axis, wherein each outlet of the plurality of cyclones in the second cyclonic separation unit is provided by a common vortex finder plate that comprises a first portion that includes vortex finders for the first set of cyclones and a second portion that includes vortex finders for the second set of cyclones, and wherein the second portion is spaced apart from the first portion in the direction that is parallel to the first axis. 2. The cyclonic separating apparatus of claim 1 , wherein the second set of cyclones is at least partially received inside the first set of cyclones. 3. The cyclonic separating apparatus of claim 1 , wherein the first set of cyclones comprises a greater number of cyclones than the second set of cyclones and wherein the cyclones of the second set of cyclones are angularly spaced so as to be positioned between a respective pair of cyclones in the first set of cyclones. 4. The cyclonic separating apparatus of claim 1 , wherein the first and second portions are annular portions that are arranged concentrically and connected by a wall of the vortex finder plate. 5. The cyclonic separating apparatus of claim 4 , wherein each of the first and second annular portions includes a plurality of segments each of which defines a single vortex finder. 6. The cyclonic separating apparatus of claim 4 , wherein a first end of the wall defines an outer edge of the first portion and a second end of the wall defines an inner edge of the second portion. 7. The cyclonic separating apparatus of claim 1 , wherein an exhaust manifold is located above the vortex finder plate such that the vortex finder plate is sandwiched between the plurality of cyclones and the exhaust manifold. 8. The cyclonic separating apparatus of claim 7 , wherein the exhaust manifold channels the air from the vortex finders into an air duct located along the first axis of the separating apparatus about which the plurality of cyclones are arranged, the air duct receiving a filter plate. 9. The cyclonic separating apparatus of claim 8 , wherein the filter plate is engageable with a centrally located aperture in the outer surface of the exhaust manifold. 10. The cyclonic separating apparatus of claim 9 , wherein the filter plate comprises a generally tubular filter media portion adjacent a mounting portion which is engageable with the exhaust manifold. 11. The cyclonic separating apparatus of claim 10 , wherein the mounting portion defines a fluid inlet of the filter plate into which fluid is admitted radially into an inner elongate chamber of the filter plate. 12. The cyclonic separating apparatus of claim 11 , wherein the fluid inlet is defined around the circumference of the mounting portion.