Separator device

The invention claimed is: 1. A filter for a hydronic heating system, the filter comprising: a cylindrical housing having first and second ends and a curved wall, and having a central longitudinal axis, an inlet port for ingress of fluid into the cylindrical housing, and an outlet port for egress of filtered fluid out of the cylindrical housing; and a first separation chamber for separating solid particles from the fluid, and a second separation chamber for separating non-magnetic particles from the fluid, the inlet and outlet ports being arranged in parallel and extending, in the same direction, perpendicularly from the curved wall of the cylindrical housing, the second separation chamber being disposed at an end of the cylindrical housing nearest to one of the inlet or outlet ports, and at least one deflector being provided in at least the one of the inlet and outlet ports which is nearest to the second separation chamber, the at least one deflector being angled to direct flow towards the second separation chamber and, in use, set up a flow of fluid in circular motion about the central longitudinal axis. 2. A filter as claimed in claim 1 , in which a third separation chamber is provided at the other end of the cylindrical housing to the second separation chamber, for separating non-magnetic particles from the fluid, and the at least one deflector includes first and second deflectors which are provided within the inlet and outlet ports respectively, wherein the one of the first and second deflectors which is provided within the inlet port is angled to direct flow towards the nearest one of the second separation chamber or the third separation chamber. 3. A filter as claimed in claim 1 , in which the first separation chamber includes a magnet for separating magnetic particles from the fluid. 4. A filter as claimed in claim 1 , in which the at least one deflector includes first and second deflectors which are provided within the inlet and outlet ports respectively. 5. A filter as claimed in claim 1 , in which the at least one deflector is angled from the vertical with respect to the central longitudinal axis of the cylindrical housing, to provide vertical deflection of flow towards the near end of the housing and horizontal deflection of flow into the circular motion about the central longitudinal axis. 6. A filter as claimed in claim 1 , in which the at least one deflector is fixed in position or moulded as an integral part of the cylindrical housing. 7. A filter as claimed in claim 1 , in which at least one of the inlet and outlet ports is circular in cross-section, and the at least one deflector has an extent one quarter of the diameter of an adjacent inlet or outlet port, blocking a minor segment of the relevant circular cross-section port. 8. A filter for a hydronic heating system, the filter comprising: a cylindrical housing having first and second ends and a curved wall, and having a central longitudinal axis, an inlet port for ingress of fluid into the cylindrical housing, and a single outlet port for egress of filtered fluid out of the cylindrical housing; and a first separation chamber for separating solid particles from the fluid, and a second separation chamber for separating non-magnetic particles from the fluid, the inlet and outlet ports being arranged in parallel and extending, in the same direction, perpendicularly from the curved wall of the cylindrical housing, the second separation chamber being disposed at an end of the cylindrical housing nearest to one of the inlet or outlet ports, and at least one deflector being provided in at least the one of the inlet and outlet ports which is nearest to the second separation chamber, the at least one deflector being angled to direct flow towards the second separation chamber and, in use, set up a flow of fluid in circular motion about the central longitudinal axis. 9. A filter as claimed in claim 8 , in which a third separation chamber is disposed at the other end of the cylindrical housing to the second separation chamber, for separating non-magnetic particles from the fluid, and the at least one deflector includes first and second deflectors which are provided within the inlet and outlet ports respectively, wherein the one of the first and second deflectors which is provided within the inlet port is angled to direct flow towards the nearest one of the second separation chamber or the third separation chamber. 10. A filter as claimed in claim 8 , in which the at least one deflector includes first and second deflectors which are provided within the inlet and outlet ports respectively. 11. A filter as claimed in claim 8 , in which the at least one deflector is angled from the vertical with respect to the central longitudinal axis of the cylindrical housing, to provide vertical deflection of flow towards the near end of the housing and horizontal deflection of flow into the circular motion about the central longitudinal axis. 12. A filter as claimed in claim 8 , in which at least one of the inlet and outlet ports is circular in cross-section, and the at least one deflector has an extent one quarter of the diameter of an adjacent inlet or outlet port, blocking a minor segment of the relevant circular cross-section port.