Mechanical seal assembly comprising a torque meter, and method therefor

The invention claimed is: 1 . A mechanical seal assembly, comprising: a mechanical seal including a rotating slide ring and a stationary slide ring which define a sealing gap between their sliding surfaces, and a torque meter which is configured to detect a torque acting on the stationary slide ring, wherein the torque meter includes a measuring unit and a sensor, wherein the measuring unit is fixed by a foot to a housing and has a free end which protrudes in a groove formed in an outer periphery of the stationary slide ring, and wherein the sensor is configured to detect a position change of the measuring unit in the groove, further comprising a controller which is configured to conclude a wear of the sliding surfaces of the mechanical seal based on the detected torque on the stationary slide ring, wherein the controller is further configured to operate the mechanical seal assembly in such a way that contact between the rotating slide ring and the stationary slide ring occurs at the sliding surfaces, and is further configured to detect a contact torque arising upon contact of the sliding surfaces, and to conclude a wear of the sliding surfaces based on the contact torque. 2 . The mechanical seal assembly according to claim 1 , wherein the measuring unit includes a flat rod that is fixed at one end. 3 . The mechanical seal assembly according to claim 1 , wherein a protruding region is formed on the free end of the measuring unit, on each side facing towards a groove wall of the groove. 4 . The mechanical seal assembly according to claim 1 , wherein the foot of the measuring unit is of a greater thickness than the free end. 5 . The mechanical seal assembly according to claim 1 , wherein the sensor is an optical sensor. 6 . The mechanical seal assembly according to claim 5 , wherein a reflective surface for the optical sensor is formed on the measuring unit. 7 . The mechanical seal assembly according to claim 1 , wherein the sensor includes a strain gauge which is arranged on the measuring unit. 8 . The mechanical seal assembly according to claim 1 , wherein the sensor includes a piezo sensor which is arranged in the groove, on the groove wall. 9 . The mechanical seal assembly according to claim 1 , wherein the groove extends in the axial direction of the mechanical seal assembly, and/or wherein the stationary slide ring is preloaded in the axial direction by means of a preload element. 10 . The mechanical seal assembly according to claim 1 , wherein the controller is further configured to determine the wear of the sliding surfaces based on a comparison of the detected torque value with a threshold value, if the detected torque value is greater than the threshold value. 11 . A method for examining wear of sliding surfaces of the mechanical seal assembly of claim 1 , comprising the steps of: operating the mechanical seal assembly, detecting a torque acting on the stationary slide ring, and comparing the detected torque with a stored threshold value for the torque, wherein, if the torque is greater than the threshold value for the torque, it is determined that there is excessive wear of the sliding surfaces, and further comprising the steps of operating the mechanical seal assembly at a rotating speed such that the sliding surfaces of the rotating slide ring and of the stationary slide ring are in contact, detecting a contact torque occurring on the stationary slide ring upon contact of the sliding surfaces, and comparing the contact torque with a stored threshold value for the contact torque, wherein, if the contact torque is greater than the threshold value for the contact torque, it is determined that there is excessive wear of the sliding surfaces. 12 . The method according to claim 11 , wherein a breakaway torque of the sliding surfaces is detected proceeding from a standstill of the mechanical seal and is compared with a threshold value for the breakaway torque and, if the breakaway torque is greater than the threshold value for the breakaway torque, it is determined that there is excessive wear of the sliding surfaces.