Force sensor for improving and preventing a broken strain body

What is claimed is: 1. A force sensor comprising: a cylindrical main body; a cylindrical movable body movable with respect to the cylindrical main body and including at least three circular openings in a cylindrical surface thereof; a strain body fixed to the cylindrical main body and the cylindrical movable body and deformable according to a movement of the cylindrical movable body; strain sensors provided on the strain body; a first stopper arranged inside each of the at least three circular openings and including a first outer circumferential surface including a first outer diameter less than a diameter of the circular opening and with which the cylindrical movable body can be brought into contact; and a cylindrical second stopper arranged between the cylindrical movable body and the strain body and separate from a first inner circumferential surface of the cylindrical main body by a first distance and including a second outer circumferential surface of a second outer diameter less than a diameter of the first inner circumferential surface, wherein the second outer circumferential surface can be brought into contact with the first inner circumferential surface. 2. The force sensor of claim 1 , wherein the first distance is less than a second distance between the first outer circumferential surface of the first stopper and an inner circumferential surface of the circular opening. 3. The force sensor of claim 2 , wherein the cylindrical main body comprises a second inner circumferential surface having a diameter greater than the diameter of the first inner circumferential surface, and further comprising a first jig to be inserted between the second outer circumferential surface of the cylindrical second stopper and the second inner circumferential surface of the cylindrical main body and configured to adjust the first distance. 4. The force sensor of claim 3 , wherein the first stopper comprises a third outer circumferential surface including a third outer diameter less than the first outer diameter, and a second jig for adjustment is inserted between the inner circumferential surface of the circular opening and the third outer circumferential surface. 5. The force sensor of claim 4 , further comprising: a first fixing member configured to fix each of the first stoppers to the cylindrical main body; and second fixing members configured to fix the cylindrical second stopper to the cylindrical movable body. 6. The force sensor of claim 1 , further comprising: a first sealing member configured to seal each of the at least three circular openings; a second sealing member configured to seal the cylindrical movable body; and a third sealing member configured to seal at least a gap between the cylindrical main body and the second sealing member. 7. The force sensor of claim 6 , wherein a ratio between the stiffness of the strain body and a stiffness of the third sealing member is 100:1 or more. 8. The force sensor of claim 1 , further comprising a suppressing member configured to suppress thermal expansion between the strain body and the cylindrical main body, wherein the suppressing member comprises a coefficient of thermal expansion identical to the strain body. 9. The force sensor of claim 1 , wherein the first stopper is provided on the cylindrical main body, and the cylindrical second stopper is provided between the strain body and the cylindrical movable body. 10. A force sensor comprising: a cylindrical main body; a cylindrical movable body movable with respect to the cylindrical main body and including at least three circular openings in a cylindrical surface thereof; a strain body fixed to the cylindrical main body and the cylindrical movable body and deformable according to a movement of the cylindrical movable body; strain sensors provided on the strain body; a first stopper arranged inside each of the at least three circular openings and fixed to the main body, the first stopper including a first outer circumferential surface which comprises a first outer diameter less than a diameter of the circular opening and with which the cylindrical movable body can be brought into contact; and a cylindrical second stopper arranged between the cylindrical movable body and the strain body and separate from a first inner circumferential surface of the cylindrical main body by a first distance and including a second outer circumferential surface which comprises a second outer diameter less than a diameter of the first inner circumferential surface and can be brought into contact with the first inner circumferential surface. 11. The force sensor of claim 10 , wherein a first gap between the first inner circumferential surface of the cylindrical main body and the cylindrical second stopper comprises the first distance, and a second gap between the circular opening and the first stopper comprises a second distance greater than the first gap. 12. The force sensor of claim 11 , wherein the cylindrical main body comprises a second inner circumferential surface having a diameter greater than the diameter of the first inner circumferential surface, and further comprising a first jig to be inserted between the second outer circumferential surface of the cylindrical second stopper and the second inner circumferential surface of the cylindrical main body and configured to adjust the first distance. 13. The force sensor of claim 12 , wherein the first stopper includes a third gap greater than the second distance between the first stopper itself and the circular opening, and a second jig for adjustment is inserted into the third gap. 14. The force sensor of claim 13 , further comprising: a first fixing member configured to fix each of the first stoppers to the cylindrical main body; and second fixing members configured fix the cylindrical second stopper to the cylindrical movable body. 15. The force sensor of claim 10 , further comprising: a first sealing member configured to seal each of the at least three circular openings; a second sealing member configured to cover the cylindrical movable body; and a third sealing member configured to seal at least a gap between the cylindrical main body and the second sealing member. 16. The force sensor of claim 15 , wherein a ratio between the stiffness of the strain body and a stiffness of the third sealing member is 100:1 or more. 17. The force sensor of claim 10 , further comprising a suppressing member configured to suppress thermal expansion between the strain body and the cylindrical main body, wherein the suppressing member comprises a coefficient of thermal expansion identical to the strain body. 18. The force sensor of claim 10 , wherein the first stopper is provided on the cylindrical main body, and the cylindrical second stopper is provided between the strain body and the cylindrical movable body. 19. A force sensor comprising: a cylindrical main body; a cylindrical movable body movable with respect to the cylindrical main body and including at least three circular openings in a cylindrical surface thereof; a strain body fixed to the cylindrical main body and the cylindrical movable body and deformable according to a movement of the cylindrical movable body; strain sensors provided on the strain body; a first stopper arranged inside each of the at least three circular openings and fixed to the cylindrical main body, the first stopper including a first outer cylindrical surface which comprises a first outer diameter less than a diameter of the ci