Liquid discharge apparatus having a pressure regulator

What is claimed is: 1. A liquid discharge apparatus, comprising: a head including a nozzle; a tank unit having a first tank to which liquid from the head is supplied and a second tank from which liquid is supplied to the head, the second tank being connected to the first tank; and a pressure regulator including: a first cylinder fixed and airtightly connected to an upper portion of the first tank; a first piston movable in the first cylinder; a first pulse motor connected to a first screw mechanism which moves the first piston linearly when the first pulse motor rotates the first screw mechanism; a first valve configured to open and close a path between the first tank and the first cylinder according to a position of the first piston; a second cylinder fixed and airtightly connected to a bottom portion of the first cylinder and an upper portion of the second tank; a second piston movable in the second cylinder; a second pulse motor connected to a second screw mechanism which moves the second piston linearly when the second pulse motor rotates the second screw mechanism; a second valve configured to open and close a path between the second tank and the second cylinder according to a position of the second piston; and a third valve configured to open and close a path between the second cylinder and an atmosphere according to the position of the second piston. 2. The liquid discharge apparatus according to claim 1 , wherein the first valve is closed when the first piston is at a first position and open when the first piston is at a second position, gas volume in the first cylinder being less when the first piston is at the second position than when at the first position. 3. The liquid discharge apparatus according to claim 2 , wherein the second valve is closed when the second piston is at a third position and open when the second piston is at a fourth position, gas volume in the second cylinder being less when the second piston is at the fourth position than when at the third position. 4. The liquid discharge apparatus according to claim 3 , wherein the third valve is closed when the second piston is at the third position and open when the second piston is at a fifth position, gas volume in the second cylinder being less when the second piston at the fifth position than at the third position. 5. The liquid discharge apparatus according to claim 3 , wherein gas volume in the second cylinder when the second piston is at the fifth position is greater than gas volume in the second cylinder when the second piston is at the fourth position. 6. The liquid discharge apparatus according to claim 5 , further comprising: a controller configured to cause the first pulse motor to rotate the first screw mechanism to move the first piston in the first cylinder and the second pulse motor to rotate the second screw mechanism to move the second piston in the second cylinder. 7. The liquid discharge apparatus according to claim 6 , wherein the controller is further configured to cause the first piston to be at the first position and the second piston to be at the fifth position, and then cause the first piston to move to the second position, such that the first tank has an atmospheric pressure. 8. The liquid discharge apparatus according to claim 6 , wherein the controller is further configured to cause the first piston to be at the first position and the second piston to be at the fourth position, such that the second tank has an atmospheric pressure. 9. The liquid discharge apparatus according to claim 6 , wherein the controller is further configured to cause the first piston to be at the second position and the second piston to be at the fourth position, such that the first and second tanks have an atmospheric pressure. 10. The liquid discharge apparatus according to claim 9 , wherein the controller is further configured to cause, when at least one of the first tank and the second tank has the atmospheric pressure: the first piston to be at the first position and the second piston to be at the fifth position, the first piston then to be moved to a sixth position from the first position, gas volume in the first cylinder being greater when first piston is at the sixth position than when at the first position, and the second piston then to be moved to the third position from the fifth position. 11. The liquid discharge apparatus according to claim 6 , wherein the controller is further configured to cause, when a pressure in the first tank is adjusted, the first piston to be at the second position and the second piston to be at a position at which gas volume in the second cylinder is increased as compared to gas volume in the second cylinder when the second piston is at the third position. 12. The liquid discharge apparatus according to claim 1 , further comprising: a supplemental tank connected to the first tank; and a pump configured to convey liquid in the supplemental tank to the first tank. 13. A liquid discharge apparatus, comprising: a head including a nozzle; a tank unit having a first tank to which liquid from the head is supplied and a second tank from which liquid is supplied to the head, the second tank being connected to the first tank; and a pressure regulator including: a first cylinder fixed and airtightly connected to an upper portion of the first tank; a first piston movable in the first cylinder; a first pulse motor connected to a first screw mechanism which moves the first piston linearly when the first pulse motor rotates the first screw mechanism; a first valve configured to open and close a path between the first tank and the first cylinder according to a position of the first piston; a second cylinder fixed and airtightly connected to a bottom portion of the first cylinder; a second piston movable in the second cylinder; a second pulse motor connected to a second screw mechanism which moves the second piston linearly when the second pulse motor rotates the second screw mechanism; and a second valve configured to open and close a path between the second cylinder and an atmosphere according to a position of the second piston, wherein the first valve is closed when the first piston is at a first position and open when the first piston is at a second position, gas volume in the first cylinder being less when the first piston is at the second position than when at the first position. 14. The liquid discharge apparatus according to claim 13 , wherein the second valve is closed when the second piston is at a third position and open when the second piston is at a fourth position, gas volume in the second cylinder being less when the second piston is at the fourth position than when at the third position. 15. The liquid discharge apparatus according to claim 14 , further comprising: a controller configured to cause the first pulse motor to rotate the first screw mechanism to move the first piston in the first cylinder and the second pulse motor to rotate the second screw mechanism to move the second piston in the second cylinder. 16. The liquid discharge apparatus according to claim 15 , wherein the controller is further configured to cause the first piston to be at the first position and the second piston to be at the fourth position, and then cause the first piston to move to the second position, such that the first tank has an atmospheric pressure. 17. The liquid discharge apparatus according to claim 16 , wherein the controller is further configured to cause, when the air in the first tank has the atmospheric pressure: the first piston to