초록 ▼

A method and a system for monitoring the functional capability of a particle detector connected downstream, in the flow direction, of a particle filter, in which particles occurring upon the regeneration of the particle filter, in particular ions, are detected by the particle detector and the result

A method and a system for monitoring the functional capability of a particle detector connected downstream, in the flow direction, of a particle filter, in which particles occurring upon the regeneration of the particle filter, in particular ions, are detected by the particle detector and the resultant measurement finding are compared with an expected finding. The measurement and evaluation are effected in a control and evaluation unit. The invention enables monitoring of the functional capability of a particle detector that does not interrupt normal operation and thus increases the reliability of the entire system.

대표청구항 ▼

The invention claim is: 1. A method for monitoring the functional capability of a particle detector (3) in a gas flow stream, using a regenerated particle filter (7) connected upstream of the particle detector (3) in terms of the flow direction (2), the method comprising, regenerating the particle

The invention claim is: 1. A method for monitoring the functional capability of a particle detector (3) in a gas flow stream, using a regenerated particle filter (7) connected upstream of the particle detector (3) in terms of the flow direction (2), the method comprising, regenerating the particle filter, detecting particles that occur in the regeneration of the particle filter (7) by the particle detector (3), and comparing the resultant measurement finding with an expected finding. 2. The method of claim 1, wherein the expected finding from the measurement of the particle detector (3) is determined on the basis of the fill status of the particle filter (7) and on the regeneration conditions. 3. The method of claim 2, wherein the particle filter comprises a soot filter (7) and wherein the particle detector comprises a soot detector (3), and further comprising using the soot filter (7) which can be regenerated by being burned off, and detecting ions that occur during the regeneration by the soot detector (3). 4. The method of claim 2, wherein, during the monitoring of the functional capability of the particle detector (3), the regeneration conditions are changed by increasing the temperature in the environment of a soot filter (7) which comprises the particle filter. 5. The method of claim 1, wherein the particle filter comprises a soot filter (7) and wherein the particle detector comprises a soot detector (3), and further comprising using the soot filter (7) which can be regenerated by being burned off, and detecting ions that occur during the regeneration by the soot detector (3). 6. The method of claim 5, further comprising measuring the temperature in, at or downstream in the flow direction (2) of the soot filter (7), and determining the expected finding of the measurement by the soot detector (3) from the fill status of the soot filter (7) and the measured temperature. 7. The method of claim 5, wherein, during the monitoring of the functional capability of the particle detector (3), the regeneration conditions are changed by increasing the temperature in the environment of the soot filter (7). 8. The method of claim 5, wherein for regeneration of the soot filter (7), the temperature in its environment is increased to above 500�� C. 9. A computer program with program code means, for performing the steps of claim 8, and executing said computer program on a system for monitoring the functional capability of a particle detector (3), using a regeneratable particle filter (7) connected upstream of the particle detector (3) in terms of flow direction (2), the system comprising, means for regenerating the filter (7), and a control and evaluation unit (9), operable during the regeneration of the particle filters (7) to detect measurement findings furnished by the particle detector (3) and compare the detected measurements with expected findings. 10. The method of claim 1, further comprising determining the deviation of the measurement finding from the expected finding and comparing the deviation with a limit value, and if the limit value is exceeded the particle detector (3) is classified as defective. 11. The method of claim 10, wherein, during the monitoring of the functional capability of the particle detector (3), the regeneration conditions are changed by increasing the temperature in the environment of a soot filter (7) which comprises the particle filter. 12. The method of claim 10, wherein for regeneration of the soot filter (7), the temperature in its environment is increased to above 500�� C. 13. The method of claim 1, wherein, during the monitoring of the functional capability of the particle detector (3), the regeneration conditions are changed by increasing the temperature in the environment of a soot filter (7) which comprises the particle filter. 14. The method of claim 13, wherein for regeneration of the soot filter (7), the temperature in its environment is increased to above 500�� C. 15. A computer program with program code means, for performing the steps of claim 1, and executing said computer program on a system for monitoring the functional capability of a particle detector (3), using a regeneratable particle filter (7) connected upstream of the particle detector (3) in terms of flow direction (2), the system comprising, means for regenerating the filter (7), and a control and evaluation unit (9), operable during the regeneration of the particle filters (7) to detect measurement findings furnished by the particle detector (3) and compare the detected measurements with expected findings. 16. A computer program product with program code means which are stored in memory on a computer-readable data medium, for performing the method of claim 1, and executing said computer program on a system for monitoring the functional capability of a particle detector (3), using a regeneratable particle filter (7) connected upstream of the particle detector (3) in terms of flow direction (2), the system comprising, means for regenerating the filter (7), and a control and evaluation unit (9), operable during the regeneration of the particle filters (7) to detect measurement findings furnished by the particle detector (3) and compare the detected measurements with expected findings. 17. A system for monitoring the functional capability of a particle detector (3), using a regeneratable particle filter (7) connected upstream of the particle detector (3) in terms of flow direction (2), the system comprising, means for regenerating the filter (7), and a control and evaluation unit (9), operable during the regeneration of the particle filters (7) to detect measurement findings furnished by the particle detector (3) and compare the detected measurements with expected findings. 18. The system of claim 17, wherein the control and evaluation unit (9) is designed such that by means of a predetermined model, an expected measurement finding can be determined from the current fill status of the filter and the given regeneration conditions. 19. The system of claim 17, further comprising a temperature sensor (8) located in, at or downstream in the flow direction (2) of the particle filter (7).