Rotary actuator

The invention claimed is: 1. A rotary actuator comprising: an output shaft; a housing including at least one arcuate bore that extends around the output shaft; a first piston and a second piston coupled to the output shaft and configured to be moved in the at least one arcuate bore, wherein the first and second pistons are located at opposite sides of the output shaft, wherein fluid pressure is configured to move the first and second pistons in the at least one arcuate bore; and a friction reducer configured to reduce friction between each of the first and second pistons and an inner circumferential surface of the housing, wherein each of the first and second pistons includes a head and a non-head portion, wherein the output shaft includes a first arm and a second arm coupled to the corresponding first and second pistons, wherein the first and second pistons and the corresponding first and second arms are coupled in an axial direction of the output shaft, and wherein the friction reducer further comprises a coupler rod that is configured to couple the first piston and the second piston in a radial direction to reduce the force that causes the first and second pistons to press against the inner circumferential surface of the housing. 2. A rotary actuator comprising: an output shaft; a housing including an arcuate bore that extends around the output shaft; a piston coupled to the output shaft and moved in the arcuate bore, wherein pressure fluid acts to move the piston; and a rolling bearing that includes a rotational race and a bearing roller, wherein the rotational race forms the arcuate bore, the rotational race is in contact with the peripheral surface of the piston, and the bearing roller is located between the inner circumferential surface of the housing and the rotational race. 3. The rotary actuator according to claim 2 , wherein the piston includes an outer side surface, and at least a portion of the outer side surface of the piston and the inner circumferential surface of the housing are spaced apart by a gap. 4. A rotary actuator comprising: an output shaft; a housing including at least one arcuate bore that extends around the output shaft; a first piston and a second piston coupled to the output shaft and configured to be moved in the at least one arcuate bore, wherein the first and second pistons are located at opposite sides of the output shaft, wherein fluid pressure is configured to move the first and second pistons in the at least one arcuate bore; and a friction reducer configured to reduce friction between each of the first and second pistons and an inner circumferential surface of the housing, wherein each of the first and second pistons includes a head and a non-head portion, and wherein the friction reducer comprises a ring configured to couple the first piston and the second piston so as to reduce a force that causes the first and second pistons to press against the inner circumferential surface of the housing.