Chemical testing device with a sample chamber having a piston therein with a chamber sealing element thereon

The invention claimed is: 1. A testing device for testing a level of a selected chemical in a central heating system water in a central heating system circuit, the testing device comprising: a sample chamber for holding a sample of central heating system water to be tested, the sample chamber being connected to the central heating system circuit to allow fluid to pass between the central heating system circuit and the sample chamber; a piston for controlling filling of the sample chamber with the central heating system water from the central heating system circuit, and emptying of the sample chamber, the piston being movable to a retracted position for drawing water out of the central heating system circuit into the sample chamber, and to an extended position for emptying the sample chamber and returning the water to the central heating system circuit; at least one valve for isolating the sample of central heating system water from the central heating system circuit during testing; and an optical testing apparatus including a light source and a detector, for measuring an optical property of the sample of central heating system water isolated within the sample chamber and thereby making a determination as to whether or not the level of the selected chemical in the water is greater than a predetermined threshold level, wherein the valve for isolating the sample during testing is integrated into the piston, and wherein a sealing element on the piston seals the entrance to the sample chamber where the piston is in a retracted position, for preventing any further flow between the sample chamber and the central heating system circuit. 2. The testing device of claim 1 , wherein the selected chemical is a corrosion inhibitor. 3. The testing device of claim 1 , wherein the sample chamber is emptied by returning the central heating system water in the sample chamber to the central heating system circuit. 4. The testing device of claim 1 , wherein a single flow passage is provided between the sample chamber and the central heating system circuit, to allow fluid to pass in both directions between the central heating system circuit and the sample chamber. 5. The testing device of claim 1 , wherein the piston includes a wiper seal for sealing against and cleaning the internal walls of the sample chamber. 6. The testing device of claim 1 , wherein the piston includes a necked-down section in front of the piston crown, and the sealing element being attached to the piston crown via the necked-down section. 7. The testing device of claim 6 , wherein the necked-down section is located asymmetrically to a one side of the piston, in front of the piston crown. 8. The testing device of claim 1 , wherein a control means is provided and adapted to control the testing device for fully-automated testing, including drawing water from the central heating system circuit into the sample chamber, sealing the sample chamber, testing the sample with the optical testing apparatus, and opening the valve and emptying the chamber. 9. The testing device of claim 8 , wherein the control means is adapted to wait for a period of time between closing the valve and testing the sample with the optical testing apparatus. 10. The testing device of claim 9 , wherein the period of time is at least one minute. 11. The testing device of claim 1 , wherein the level of the selected chemical is determined indirectly, by using the optical testing apparatus to measure a concentration of a tracer chemical which has been added to the selected chemical in a known concentration. 12. The testing device of claim 11 , wherein the tracer chemical is 1,3,6,8 Pyrenetetrasulfonic acid tetrasodium salt (PTSA). 13. The testing device of claim 1 , wherein the light source and detector are disposed at an acute angle to each other, facing into the sample chamber. 14. The testing device of claim 1 , wherein at least one filter is provided on at least one of the detector and the light source. 15. The testing device of claim 1 , wherein the optical property is fluorescence. 16. The testing device of claim 1 , wherein a calibration element is provided within the sample chamber. 17. The testing device of claim 16 , wherein the calibration element is moved automatically into the sample chamber where the sample chamber is emptied, and moved out of the sample chamber where water is drawn into the sample chamber for testing. 18. The testing device of claim 17 , wherein the calibration element is provided as part of the piston. 19. The testing device of claim 1 , wherein a magnet is provided for attracting any magnetic particles entrained in water in the sample chamber. 20. The testing device of claim 19 , wherein the magnet is movable between an in-use position adjacent to the sample chamber and an out-of-use position spaced from the sample chamber. 21. The testing device of claim 20 , wherein the magnet is movable on a pivoting arm. 22. The testing device of claim 21 , wherein the pivoting arm is arranged to automatically pivot as the piston is operated to draw fluid into and out of the sample chamber, so that the magnet is in the in-use position where the chamber is full and in the out-of-use position where the chamber is empty. 23. The testing device of claim 1 , further comprising a reservoir of the selected chemical, and a means for introducing a quantity of the selected chemical into the central heating system circuit, in response to a determination by the optical testing apparatus that the concentration of the selected chemical in tested water is inadequate.