Urea water supply system

摘要

A pump share-type urea water supply system includes a first supply valve and a second supply valve. A urea water tank is connected with the respective supply valves by a urea water supply path that includes a first supply path for the first supply valve and a second supply path for the second supply valve. The second supply path has a larger capacity than the first supply path by a predetermined volume. A suck-back control controls opening and closing of the respective supply valves such that a first estimated valve-opening time of the first supply valve for suck-back control in the first supply valve and supply path is shorter than a second estimated valve-opening time of the second supply valve for suck-back control in the second supply valve and in-the-second supply path by at least a first control time corresponding to the predetermined volume.

主权项

1. In an exhaust emission control device that is provided in an exhaust passage of an internal combustion engine and has a first NOx catalyst and a second NOx catalyst configured to reduce NOx by using ammonia as a reducing agent, a urea water supply system that supplies urea water to the exhaust passage, the urea water supply system comprising:
a first supply valve that is located in upstream of the first NOx catalyst and is configured to supply urea water to an exhaust emission flowing into the first NOx catalyst; a second supply valve that is located in upstream of the second NOx catalyst and is configured to supply the urea water to the exhaust emission flowing into the second NOx catalyst; a urea water tank that is configured to store the urea water; a urea water supply path that is arranged to connect the urea water tank with each of the first supply valve and the second supply valve and includes a first supply path which only the urea water to be supplied to the first supply valve flows through and a second supply path which only the urea water to be supplied to the second supply valve flows through, wherein the second supply path has a larger capacity than capacity of the first supply path by a predetermined volume; a pump that is configured to pressure-feed the urea water in the urea water supply path; and a controller that is configured to perform suck-back control of the urea water in the first and second supply valves and in the urea water supply path by operating the pump in a specified operating state, opening the first supply valve for a first estimated valve-opening time that is a valve-opening time of the first supply valve estimated to be required for the suck-back control of the urea water in the first supply valve and in the first supply path and opening the second supply valve for a second estimated valve-opening time that is a valve-opening time of the second supply valve estimated to be required for the suck-back control of the urea water in the second supply valve and in the second supply path, the controller performing open-close control of the first supply valve and the second supply valve in the suck-back control such that the first estimated valve-opening time is shorter than the second estimated valve-opening time by at least a first control time corresponding to the predetermined volume.