Cooling apparatus for internal combustion engine

The invention claimed is: 1. A cooling apparatus for an internal combustion engine, the cooling apparatus comprising: a circulation circuit for coolant flowing through the internal combustion engine; a pump arranged on the circulation circuit, the pump being configured to change a discharge amount of the coolant; a flow rate adjustment valve arranged on the circulation circuit in series with the pump; and a controller configured to control a pump discharge amount that is the discharge amount of the coolant in the pump, wherein the flow rate adjustment valve includes a valve member configured to rotate to change an open degree of the flow rate adjustment valve, and a stopper that moves between a restriction position at which the stopper engages with the valve member to restrict rotation of the valve member and a retraction position at which the stopper does not engage with the valve member and the rotation of the valve member is permitted, the valve member is configured to rotate in a valve-opening direction that is a rotation direction in which the open degree increases when a pressure difference increases between a position upstream of the valve member and a position downstream of the valve member in a flow direction of the coolant in the circulation circuit and rotate in a valve-closing direction that is a rotation direction in which the open degree decreases when the pressure difference decreases, and the controller is configured to execute, when maintaining the open degree, a preparatory process of moving the stopper to the restriction position after arranging the stopper at the retraction position and arranging the valve member further in the valve-closing direction than the stopper through control of the pump discharge amount. 2. The cooling apparatus according to claim 1 , wherein the flow rate adjustment valve includes a valve member biasing component that biases the valve member in the valve-closing direction, a valve accommodation portion that is part of the circulation circuit and accommodates the valve member, a stopper accommodation chamber separated from the valve accommodation portion by a partition wall, an insertion portion arranged in the partition wall, wherein the insertion portion connects the valve accommodation portion and the stopper accommodation chamber to each other, the stopper is inserted through the insertion portion, and a connection passage connecting the stopper accommodation chamber to a portion of the circulation circuit located upstream of the valve member in the flow direction of the coolant, and the stopper moves toward the restriction position when pressure in the communication passage increases and moves toward the retraction position when the pressure in the communication passage decreases. 3. The cooling apparatus according to claim 2 , wherein the flow rate adjustment valve includes a stopper biasing component that biases the stopper toward the retraction position, and the stopper is located at the retraction position when the pressure in the communication passage is less than or equal to a first pressure and located at the restriction position against a biasing force of the stopper biasing component when the pressure in the communication passage is greater than or equal to a second pressure that is higher than the first pressure. 4. The cooling apparatus according to claim 3 , wherein the valve member biasing component is configured to rotate the valve member to a position further in the valve-closing direction than the stopper when the pressure difference between the position upstream of the valve member and the position downstream of the valve member in the flow direction of the coolant in the circulation circuit becomes less than or equal to a set pressure difference, the pressure difference between the position upstream of the valve member and the position downstream of the valve member in the flow direction of the coolant is less than or equal to the set pressure difference when the pump discharge amount is less than or equal to a first discharge amount, and when the pump discharge amount changes from a value larger than the first discharge amount to a value less than or equal to the first discharge amount, the pressure in the connection passage becomes less than or equal to the first pressure before the pressure difference becomes less than or equal to the set pressure difference. 5. The cooling apparatus according to claim 3 , wherein the controller is configured to, in the preparatory process; arrange the stopper at the retraction position and arrange the valve member further in the valve-closing direction than the stopper by decreasing the pump discharge amount to the first discharge amount or lower; and then move the stopper from the retraction position to the restriction position by increasing the pump discharge amount to a second discharge amount that is larger than the first discharge amount. 6. The cooling apparatus according to claim 5 , wherein the controller is configured to execute, when cancelling a state in which the open degree is maintained, a cancellation process of arranging the stopper at the retraction position by decreasing the pump discharge amount to the first discharge amount or lower and then changing the pump discharge amount from a value less than or equal to the first discharge amount to a third discharge amount that is larger than the second discharge amount. 7. The cooling apparatus according to claim 5 , wherein an increase speed of the pressure difference between the position upstream of the valve member and the position downstream of the valve member in the flow direction of the coolant in the circulation circuit when the preparatory process is executed to increase the pump discharge amount to the second discharge amount is defined as a restriction increase speed, and the controller is configured to execute, when cancelling a state in which the open degree is maintained, a cancellation process of arranging the stopper at the retraction position by decreasing the pump discharge amount to the first discharge amount or lower and then increasing the pressure difference at an increase speed that is higher than the restriction increase speed by increasing the pump discharge amount. 8. The cooling apparatus according to claim 4 , further comprising a restriction portion arranged upstream of the stopper in the flow direction of the coolant in the circulation circuit, the restriction portion restricting further rotation of the valve member in the valve-closing direction by engaging with the valve member that has rotated in the valve-closing direction. 9. The cooling apparatus according to claim 1 , further comprising: a radiator arranged on the circulation circuit in series with the pump and the flow rate adjustment valve; and a bypass passage through which the coolant flows so as to bypass the radiator and the flow rate adjustment valve. 10. The cooling apparatus according to claim 9 , wherein the controller is configured to: restrict rotation of the valve member in the valve-opening direction with the stopper by arranging the stopper at the restriction position when a warm-up operation of the internal combustion engine is not complete; and adjust the open degree by controlling the pump discharge amount when the warm-up operation of the internal combustion engine is complete.