Exhaust gas purifying system and exhaust gas purifying method

The invention claimed is: 1. An exhaust gas purifying system comprising: a filter configured to collect particulate matters (PM) in exhaust gas from an engine; a differential pressure detector configured to detect a differential pressure between an inlet and outlet of the filter; a flow rate detector configured to detect a flow rate of the exhaust gas flowing in the filter; a regeneration controller configured to calculate a differential-based deposition amount of the particulate matters deposited in the filter based on detection results of the differential pressure detector and the flow rate detector, configured to calculate a model deposition amount using a deposition model of the particulate matters when a time change rate of the calculated differential-based deposition amount is larger than a predetermined value, configured to calculate a PM-deposition amount based on the calculated differential-based deposition amount and the calculated model deposition amount, and configured to set a regeneration processing temperature of the filter based on the calculated differential-based deposition amount of the particulate matters; and an engine controller configured to perform a regeneration processing of the filter based on the regeneration processing temperature that is set by the regeneration controller, wherein the regeneration controller is configured to: based on the calculated differential-based deposition amount of the particulate matters being greater than a predetermined threshold, set a first regeneration processing temperature at a start of the regeneration processing, and change the regeneration processing temperature to a second regeneration processing temperature that is higher than the first regeneration processing temperature when the calculated differential-based deposition amount of the particulate matters falls at or below the predetermined threshold. 2. The exhaust gas purifying system according to claim 1 , wherein the regeneration controller is configured to set the second regeneration processing temperature when the calculated differential-based deposition amount falls below the calculated PM-deposition amount. 3. The exhaust gas purifying system according to claim 2 , wherein the deposition model is a model in which the PM amount combusted in the filter is subtracted from the PM amount in the exhaust gas inputted to the filter, and the regeneration controller is configured to multiply the calculated differential-based deposition amount with a first coefficient to obtain a first deposition amount and multiply the calculate model deposition amount with a second coefficient to obtain a second deposition amount, a sum of the first and second coefficients being a predetermined value, and to calculate the PM-deposition amount as a sum of the first deposition amount and the second deposition amount. 4. The exhaust gas purifying system according to claim 1 , wherein the regeneration controller is configured to change the regeneration processing temperature from the first regeneration processing temperature to the second regeneration processing temperature over a predetermined time. 5. An exhaust gas purifying system comprising: a filter configured to collect particulate matters (PM) in exhaust gas from an engine; a differential pressure detector configured to detect a differential pressure between an inlet and outlet of the filter; a flow rate detector configured to detect a flow rate of the exhaust gas flowing in the filter; a regeneration controller configured to calculate a differential-based deposition amount of the particulate matters deposited in the filter based on detection results of the differential pressure detector and the flow rate detector, configured to calculate a model deposition amount using a deposition model of the particulate matters when a time change rate of the calculated differential-based deposition amount is larger than a predetermined value, configured to calculate a PM-deposition amount based on the calculated differential-based deposition amount and the calculated model deposition amount, and configured to set a regeneration processing temperature of the filter based on the calculated differential-based deposition amount of the particulate matters; and an engine controller configured to perform a regeneration processing of the filter based on the regeneration processing temperature that is set by the regeneration controller, wherein the regeneration controller is configured to set a first regeneration processing temperature at a start of the regeneration processing and to set a second regeneration processing temperature that is higher than the first regeneration processing temperature when the calculated PM-deposition amount falls at or below a predetermined threshold. 6. The exhaust gas purifying system according to claim 5 , wherein the regeneration controller sets the second regeneration processing temperature when the calculated differential-based deposition amount falls below the calculated PM-deposition amount. 7. The exhaust gas purifying system according to claim 6 , wherein the deposition model is a model in which the PM amount combusted in the filter is subtracted from the PM amount in the exhaust gas inputted to the filter, and the regeneration controller is configured to multiply the calculated differential-based deposition amount with a first coefficient to obtain a first deposition amount and multiply the calculated model deposition amount with a second coefficient to obtain a second deposition amount, a sum of the first and second coefficients being a predetermined value, and to calculate the PM-deposition amount as a sum of the first deposition amount and the second deposition amount. 8. The exhaust gas purifying system according to claim 5 , wherein the regeneration controller is configured to change the regeneration processing temperature from the first regeneration processing temperature to the second regeneration processing temperature over a predetermined time.