Magnetic filter for a central heating system

The invention claimed is: 1. A magnetic filter for a central heating system, the filter comprising: a separation chamber in the form of a canister having an open end, a magnet for capturing magnetic particles within the separation chamber, an inlet for fluidly connecting to a central heating system circuit, an outlet for fluidly connecting to the central heating system circuit, and a filter shut-off valve provided between the inlet, the outlet and the separation chamber, and operable to select between at least two positions, the filter shut-off valve in a first position fluidly connecting the inlet to the separation chamber and also fluidly connecting the outlet to the separation chamber and the filter shut-off valve in a second position isolating both the inlet and the outlet from the separation chamber, the open end of the canister fitting onto a fitment to close the canister, a bleed valve and a drain port being provided at the top and bottom respectively of the canister, and the filter shut-off valve between the inlet, the outlet and the separation chamber being movable between the first position and the second position by means of an external handle, in which the filter shut-off valve is a ball valve, the ball of the filter shut-off valve including two substantially right-angled passages for connecting the inlet and outlet respectively to the separation chamber, when the filter shut-off valve is in the first position, and the ball of the filter shut-off valve being provided within a valve housing which includes a bypass chamber disposed in the valve housing substantially opposite the separation chamber, and in which the filter shut-off valve in the second position isolates both the inlet and the outlet from the separation chamber but fluidly connects the inlet to the outlet via the bypass chamber. 2. The magnetic filter of claim 1 , wherein a flow director is provided at an interface between the filter shut-off valve and the separation chamber, for separating inlet and outlet flow paths at the filter shut-off valve interface and to direct flow towards and around the magnet. 3. The magnetic filter of claim 1 , wherein the magnet is disposed inside the separation chamber. 4. The magnetic filter of claim 1 , wherein the ball of the filter shut-off valve is rotatable by substantially 180 degrees so that the ends of the right-angled passages which face into the separation chamber in the first position face into the bypass chamber in the second position. 5. A magnetic filter for a central heating system, the filter comprising: a separation chamber in the form of a canister having an open end, a magnet for capturing magnetic particles within the separation chamber, an inlet for fluidly connecting to a central heating system circuit, an outlet for fluidly connecting to the central heating system circuit, and a filter shut-off valve provided between the inlet, the outlet and the separation chamber, and operable to select between at least two positions, the filter shut-off valve in a first position fluidly connecting the inlet to the separation chamber and also fluidly connecting the outlet to the separation chamber and the filter shut-off valve in a second position isolating both the inlet and the outlet from the separation chamber, the open end of the canister fitting onto a fitment to close the canister, in which the filter shut-off valve is a ball valve, the ball of the filter shut-off valve including two substantially right-angled passages for connecting the inlet and outlet respectively to the separation chamber, when the filter shut-off valve is in the first position, a bleed valve and a drain port being provided at the top and bottom respectively of the canister, and the filter shut-off valve between the inlet, the outlet and the separation chamber being movable between the first position and the second position by means of an external handle. 6. The magnetic filter of claim 5 , wherein the filter shut-off valve in the second position isolates both the inlet and the outlet from the separation chamber but fluidly connects the inlet to the outlet. 7. The magnetic filter of claim 5 , wherein the ball of the filter shut-off valve is provided within a valve housing which includes a bypass chamber. 8. The magnetic filter of claim 7 , wherein the bypass chamber is disposed in the valve housing substantially opposite the separation chamber. 9. The magnetic filter of claim 8 , wherein a flow director is provided at an interface between the filter shut-off valve and the separation chamber, for separating inlet and outlet flow paths at the valve interface and to direct flow towards and around the magnet. 10. The magnetic filter of claim 5 , wherein the magnet is disposed inside the separation chamber. 11. The magnetic filter of claim 7 , wherein the ball of the filter shut-off valve is rotatable by substantially 180 degrees so that the ends of the right-angled passages which face into the separation chamber in the first position face into the bypass chamber in the second position.