Valve apparatus and controlling method therefor

The invention claimed is: 1. A valve apparatus provided in a pipe, the valve apparatus comprising: a bypass pipe connected in parallel to the pipe; a first valve configured to adjust a flow rate of a fluid flowing in an inlet part of the pipe to an outlet part of the pipe; a second valve configured to adjust a flow rate of the fluid flowing in the bypass pipe to the outlet part; and a valve housing disposed between the inlet part and the outlet part to communicate with each of the inlet part and the outlet part, wherein the bypass pipe has one end communicating with the valve housing and another end communicating with the inlet part, and the first valve includes: a ball valve body rotatably provided in the valve housing to block the fluid flowing from the inlet part to the outlet part; and a first passage passing through the ball valve body in a first direction and allowing the inlet part and the outlet part to communicate with each other when the ball valve body rotates at a first angle, wherein the second valve includes: a second passage passing through the ball valve body in a second direction and allowing the bypass pipe and the first passage to communicate with each other; a third passage passing through the ball valve body in a third direction and allowing the first passage and the outlet part to communicate with each other; and a pintle valve body provided to be movable forward and backward in a longitudinal direction thereof in the bypass pipe and thereby to adjust a degree of opening of the second passage. 2. The valve apparatus of claim 1 , wherein the first, second, and third directions are perpendicular to each other. 3. The valve apparatus of claim 1 , wherein the first passage has a size greater than a size of each of the second and third passage. 4. The valve apparatus of claim 1 , wherein the second passage has a diameter that gradually decreases toward an inside of the ball valve body, and an end of the pintle valve body corresponding to the second passage has a shape corresponding to a shape of the second passage. 5. The valve apparatus of claim 1 , wherein the second passage is provided at a rotating center of the ball valve body. 6. The valve apparatus of claim 1 , wherein the first valve further includes a first driving part configured to allow the ball valve body to rotate. 7. The valve apparatus of claim 6 , wherein the first driving part includes: a first pinion fixed to a rotating center of the ball valve body; a first rack engaged with the first pinion to allow the first pinion to rotate; and a first driving source configured to allow the first rack to reciprocate. 8. The valve apparatus of claim 7 , wherein the first driving source is a pneumatic cylinder, and the first rack is provided on a piston of the pneumatic cylinder. 9. The valve apparatus of claim 1 , wherein the second valve further includes a second driving part configured to allow the pintle valve body to move forward and backward. 10. The valve apparatus of claim 9 , wherein the second driving part includes: a second rack defining one surface of the pintle valve body; a second pinion engaged with the second rack to allow the second rack to reciprocate forward and backward; and a second driving motor or pneumatic cylinder configured to allow the second pinion to rotate. 11. A method for controlling the valve apparatus of claim 1 , the method comprising: allowing a degree of opening of the second valve to gradually increase so that a flow rate of the fluid flowing from the bypass pipe to the outlet part increases in an initial state in which the first and second valves are closed; and allowing a degree of opening of the first valve to gradually increase so that a flow rate of the fluid flowing from the inlet part to the outlet part increases while maintaining a fully opened state of the second valve when the second valve is fully opened. 12. The method of claim 11 , further comprising closing the second valve while maintaining a fully opened state of the first valve when the first valve is fully opened in the allowing of the degree of opening of the first valve to gradually increase. 13. A method for controlling the valve apparatus of claim 1 , the method comprising: allowing the pintle valve body to gradually move backward in a direction in which the second passage is opened so that a flow rate of the fluid flowing through the bypass pipe to the outlet part increases in an initial state in which the first passage is closed by the ball valve body, and the second passage is closed by the pintle valve body; and allowing the ball valve body to rotate and thereby to open the first passage so a flow rate of the fluid flowing from the inlet part to the outlet part increases while maintaining a fully opened state of the second passage when the second passage is fully opened. 14. The method of claim 13 , further comprising allowing the pintle valve body to move forward so that the second passage is closed while maintaining a fully opened state of the first passage when the first passage is fully opened in the opening of the first passage.