FILTER CONTROL DEVICE
(19)AUSTRALIAN PATENT OFFICE (54) Title FILTER CONTROL DEVICE (51)6 International Patent Classification(s) F01N 003/02 (21) Application No: 2003257819 (22) Application Date: 2003.08.08 (87) WIPONo: WO04/01691G (30) Priority Data (31) Number (32) Date 2002/235854 2002.08.13 (33) Country JP 7 (43) Publication Date : 2004.03.03 (43) Publication Journal Date : 2004.04.22 (71) Applicant(s) BOSCH AUTOMOTIVE SYSTEMS CORPORATION (72) Inventor(s) HAMAHATA, Toshihiro; WATANABE, Tomonori (H) Application NoAU2003257819 A1(19)AUSTRALIAN PATENT OFFICE (54) Title FILTER CONTROL DEVICE (51)6 International Patent Classification(s) F01N 003/02 (21) Application No: 2003257819 (22) Application Date: 2003.08.08 (87) WIPONo: WO04/01691G (30) Priority Data (31) Number (32) Date 2002/235854 2002.08.13 (33) Country JP 7 (43) Publication Date : 2004.03.03 (43) Publication Journal Date : 2004.04.22 (71) Applicant(s) BOSCH AUTOMOTIVE SYSTEMS CORPORATION (72) Inventor(s) HAMAHATA, Toshihiro; WATANABE, Tomonori In order to calculate an estimation of the quantity of accumulated particulates in a filter (32), a first estimation calculation unit (100) that outputs first estimation data (XA) calculated from the filter before and after differential pressure, and a second estimation calculation unit (110) that outputs second estimation data (XB) based on the engine operation status. Of the first and second estimation data (XA, XB), the estimation data having the higher dependability, as viewed from the engine speed at that time, is selected, whether or not to regenerate the filter is determined and with the differential between the first and second estimation (XA, XB) also taken into consideration, when the differential is larger than a prescribed value, even if the engine speed is high, the first estimation data XA is not selected since there is a risk that the dependability of the estimation value is low due to cracking of the accumulated particulates. <IMAGE> In a filter control apparatus that estimates an accumulated particulate quantity in a filter for trapping particulates contained in engine exhaust gas and regenerates the filter based on the estimation result, a filter control apparatus that includes detection means for detecting the engine operation status, first estimation means that estimates an accumulated particulate quantity of the filter based on a before and after exhaust-gas differential pressure of the filter, second estimation means that estimates an accumulated particulate quantity of the filter based on the engine operation status, and differential calculation means that calculates a differential of the accumulated particulate quantity estimation values obtained by the first and second estimation means, selects either of the estimation results of the first and second estimation means in response to the differential calculation means and detection means, and determines regeneration timing of the filter in accordance with the selected estimation result. A filter control apparatus as claimed in claim 1, wherein in the second estimation means, calculation is carried out for estimating an accumulated particulate quantity based on at least one from among quantity of fuel injected to the engine, engine speed, ratio of exhaust gas recirculation in the engine, and filter before temperature. A filter control apparatus as claimed in claim 1, wherein in the second estimation means, estimation calculation of accumulated particulate quantity is carried out using mapping calculation employing measured data obtained by measuring accumulated particulate quantity increase per unit time using an actual engine. A filter control apparatus as claimed in claim 3, wherein the second estimation means is configured to obtain estimated values of accumulated particulate quantity in the filter by integrating data obtained by the mapping calculation. A filter control apparatus as claimed in claim 4, wherein estimated values of accumulated particulate quantity used in filter regeneration control each time the engine is stopped are stored and the stored accumulated particulate values are used as initial values for integration in the second estimation means. A filter control apparatus as claimed in claim 1, wherein when selecting either of the estimation results of the first and second estimation means, deviation amount between the two estimation results is calculated, the deviation amount is stored as a learning value and calculated values in the second estimation means are corrected in accordance with the learning value. A filter control apparatus as claimed in claim 6, wherein a coefficient is calculated in accordance with the amount of deviation and the coefficient is used to correct calculated values in the second estimation means. A filter control apparatus as claimed in claim 6, wherein when the deviation amount exceeds a prescribed value, a gist thereof is displayed to the operator. A filter control apparatus as claimed in claim 1, wherein when the differential when the engine is started equals or exceeds a prescribed value, the estimation result of the second estimation means is selected regardless of the detection result of the detection means. A filter control apparatus as claimed in claim 1, wherein when the differential when the engine is started equals or exceeds a prescribed value, the estimation result of the second estimation means is selected within a prescribed time period regardless of the detection result of the detection means. A filter control apparatus as claimed in claim 10, wherein the prescribed time period is a period of time from the starting of the engine to a time at which estimated accumulated particulate quantity reaches a prescribed value. A filter control apparatus as claimed in claim 9, wherein in a case in which the differential has become smaller than a prescribed value, an estimation result of the first estimation means is used instead of an estimation result of the second estimation means.