Separator device

The invention claimed is: 1. A magnetic filter for use in a hydronic heating system, the magnetic filter comprising: a housing, having first and second apertures for ingress and egress of fluid into and out of the housing; a first separator chamber for removing particles from suspension in the fluid, the first separator chamber being disposed at one end of the housing; a second separator chamber for removing particles from suspension in the fluid, the second separator chamber being disposed at the other end of the housing, and a central chamber disposed between the first and second separator chambers, a magnet being provided in the central chamber for attracting ferrous particles from fluid in the central chamber, the first and second separator chambers each being apertured for ingress of fluid from the central chamber, and the first and second separator chambers each being apertured for egress of fluid to the central chamber, the first separator chamber containing a first set of walls and/or protrusions providing a barrier to the flow of fluid, configured to slow the flow of fluid within the first separator chamber, and the second separator chamber containing a second set of walls and/or protrusions providing another barrier to the flow of fluid, configured to slow the flow of fluid within the second separator chamber. 2. The magnetic filter of claim 1 , in which the first set of walls and/or protrusions defines passageways within the first separator chamber. 3. The magnetic filter of claim 2 , in which the first set of walls and/or protrusions further defines cavities for collecting solid particles. 4. The magnetic filter of claim 1 , in which at least one of the first set of walls and/or protrusions and the second set of walls and/or protrusions is adapted to increase an overall distance which must be traversed by fluid through the respective separator chamber. 5. The magnetic filter of claim 1 , in which the second set of walls and/or protrusions is configured to provide an extended fluid flow pathway within the second separator chamber. 6. The magnetic filter of claim 1 , in which at least one of the first and second separator chambers includes collection areas for collection of particles removed from suspension in the fluid. 7. The magnetic filter of claim 1 , in which each of the first and second separator chambers includes collection areas for collection of particles from suspension in the fluid. 8. The magnetic filter of claim 1 , in which the first and second separator chambers are removable from the housing. 9. The magnetic filter of claim 8 , in which the first and second separator chambers are provided as part of a removable insert, the separator chambers being mounted at either end of a central section of the insert. 10. The magnetic filter of claim 1 , in which an end of the first separator chamber facing the housing is open. 11. The magnetic filter of claim 1 , in which the first separator chamber is apertured for ingress of fluid from the central chamber by having inlets in a side of the first separator chamber leading from the central chamber. 12. The magnetic filter of claim 11 , in which the inlets spiral into the first chamber. 13. The magnetic filter of claim 12 , in which the inlets spiral in opposing arcuate directions. 14. The magnetic filter of claim 9 , in which the second separator chamber comprises a tray and a roof section. 15. The magnetic filter of claim 14 , in which the roof section is attached to the central section of the insert. 16. The magnetic filter of claim 14 , in which the tray is removable for cleaning. 17. The magnetic filter of claim 14 , in which the second separator chamber is apertured for ingress and egress of fluid into and out of the second separator chamber by having apertures in the roof section of the second separator chamber. 18. The magnetic filter of claim 14 , in which a raised flow guide extends radially from the roof section of the second separator chamber, wherein the second separator chamber is apertured for ingress and egress of fluid into and out of the second separator chamber by having apertures, wherein the raised flow guide overhangs each aperture of the second separator chamber in a different direction for directing flow into the second separator chamber from both sides of the raised flow guide. 19. The magnetic filter of claim 1 , in which a swirl of fluid is set up by means of deflectors mounted within the apertures in the housing. 20. The magnetic filter of claim 19 , in which the deflectors extend into the central chamber of the housing.