Blast furnace cooling plate with integrated wear detection system

The invention claimed is: 1. A cooling plate for a metallurgical furnace comprising: a body with a front face and an opposite rear face, said body having at least one coolant channel therein; wherein in use said front face is turned towards a furnace interior comprises alternating ribs and grooves; and wear detection means adapted to monitor the wear of said body; wherein said wear detection means comprise: a plurality of closed pressure chambers distributed at different locations in said body, said pressure chambers being positioned at predetermined depths below said front face of said body; and a pressure sensor associated with each pressure chamber is configured to measure a fluid pressure inside each pressure chamber in order to detect a deviation of pressure from a reference pressure inside said pressure chamber when said pressure chamber becomes open due to wear out of said body, wherein the reference pressure is different from a furnace operating pressure. 2. The cooling plate according to claim 1 , wherein said pressure chambers are formed as blind bores drilled from said rear face of said body, and closed by a sealingly mounted plug. 3. The cooling plate according to claim 2 , wherein said pressure chambers, respectively said blind bores, are elongate hollow chambers extending substantially perpendicularly to said front face of said body. 4. The cooling plate according to claim 2 , wherein said pressure sensor is supported by said plug, and connecting wires of said pressure sensor sealingly pass through said plug towards the exterior. 5. The cooling plate according to claim 3 , wherein said pressure chambers, respectively said blind bores, have a diameter of less than 5 mm. 6. The cooling plate according to claim 1 , wherein said pressure chambers are distributed at said different locations by groups of at least two pressure chambers, each pressure chamber within the group being positioned at a different predetermined depth below the front face of said body. 7. The cooling plate according to claim 6 , wherein within each group, a pressure chamber is positioned underneath a rib and a pressure chamber is positioned underneath a groove. 8. The cooling plate according to claim 7 , wherein said groups of pressure chambers are located in the upper, bottom and central regions of the body. 9. The cooling plate according to claim 1 , wherein said pressure sensor is of the piezoelectric type. 10. The cooling plate according to claim 1 , wherein each pressure chamber is at a reference pressure selected from: vacuum pressure, a gas pressure lower than the furnace operating pressure, a gas pressure higher than the furnace operating pressure. 11. A blast furnace comprising a shell lined with cooling plates according to claim 1 , comprising a control system configured to: receive pressure signals from each of the pressure sensors of said pressure chambers in said cooling plates; detect pressure deviations from the reference pressure at one or more of said pressure sensors; display a mapping of the wear status of said cooling plate lining based on the information from said pressure signals and the known location of the cooling plates in said blast furnace. 12. The cooling plate according to claim 1 , wherein each pressure chamber is a hole from the rear face of the cooling plate and extending substantially perpendicular to the front face of the cooling plate.