Multi-shaft kneading machine

What is claimed is: 1. A multi-shaft kneading machine comprising: a cylinder that includes grooves on an inner wall thereof; at least two screws that extend in the cylinder in parallel with each other and that can be rotated around first axes of rotation; and a pair of gate rods that sandwich said at least two screws and that are opposite to each other, the gate rods being rotatable on the grooves of the cylinder around respective second axes of rotation that are orthogonal to the first axes of rotation, wherein each of the pair of gate rods has at least two recess parts, and the recess parts that are opposite to each other form respective spaces through which said at least two screws penetrate; and each of the pair of gate rods includes: a first contact surface that comes into surface contact with the screw when the gate rod is rotated to a minimum degree-of-opening position where an area of a channel that is formed between the gate rod and the screw is minimized; a large diameter part that is fitted into the groove of the cylinder; and a small diameter part having a radius of curvature that is equal to half a distance between two second axes of rotation and that is smaller than a radius of curvature of the large diameter part, wherein the small diameter parts of the pair of gate rods are in contact with each other. 2. The multi-shaft kneading machine according to claim 1 , wherein each of the pair of gate rods has two intermediate parts that includes the recess parts and three wall parts that are located to alternate with the two intermediate parts, and the intermediate parts of the pair of gate rods are opposite to each other and the wall parts of the pair of gate rods are opposite to each other. 3. The multi-shaft kneading machine according to claim 2 , wherein the wall part has a second contact surface that is located between the large diameter part and the small diameter part, and the second contact surface comes into surface contact with the second contact surface of the opposite wall part when the gate rod is rotated to the minimum degree-of-opening position. 4. The multi-shaft kneading machine according to claim 2 , wherein the wall part has a third contact surface that is located on a side opposite to the second contact surface between the large diameter part and the small diameter part, and the third contact surface comes into surface contact with the third contact surface of the opposite wall part when the gate rod is rotated to the maximum degree-of-opening position where an area of the channel is maximized. 5. The multi-shaft kneading machine according to claim 3 , wherein the wall part has a third contact surface that is located on a side opposite to the second contact surface between the large diameter part and the small diameter part, and the third contact surface comes into surface contact with the third contact surface of the opposite wall part when the gate rod is rotated to the maximum degree-of-opening position where an area of the channel is maximized.