Bolt-type angular gear mechanism

1 . Bolt-type angular gear mechanism ( 1 ), comprising angular bolts ( 3 ) each with two limbs, which are angled in relation to each other, a first bolt carrier ( 11 ), which is rotatable about a first axis ( 13 ) and has first bolt receptacles ( 15 ), in each of which a first limb ( 5 ) of one of the angular bolts ( 3 ) is at least partially received, and a second bolt carrier ( 21 ), which is rotatable about a second axis ( 23 ), which is different from the first axis ( 13 ), and has second bolt receptacles ( 25 ), in each of which a second limb ( 7 ) of one of the angular bolts ( 3 ) is at least partially received, so that the first bolt carrier ( 11 ) and the second bolt carrier ( 21 ) are connected by means of the angular bolts ( 3 ), wherein the limbs of the angular bolts ( 3 ) have a flattened portion ( 39 , 41 ), wherein the flattened portion extends in the longitudinal direction of the limb. 2 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the flattened portion ( 39 , 41 ) is formed over at least a substantial portion of the length of the limb. 3 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the flattened portion is in the form of an inner flattened portion ( 39 ) or in the form of an outer flattened portion ( 41 ). 4 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the angular bolts ( 3 ) are each rounded with an inner rounded portion ( 43 ) between the inner flattened portions ( 39 ) of the two limbs. 5 . Bolt-type angular gear mechanism ( 1 ) according to claim 4 , wherein a point ( 65 ) positioned on the inner rounded portion ( 43 ) and on an angle bisector ( 63 ) of the two limbs is situated within a first cylindrical envelope ( 47 ) of the first limb ( 5 ) and within a second cylindrical envelope ( 49 ) of the second limb ( 7 ). 6 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the limbs each have a cylindrical region ( 51 ) with a first limb surface ( 53 ), wherein the first limb surface ( 53 ) is at least partially in the form of a cylinder lateral surface. 7 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the limbs each have a second limb surface ( 57 ) in a conical region ( 55 ) of the limb, the conical region adjoining an end side ( 37 ) of the limb, wherein the second limb surface ( 57 ) is at least partially in the form of a frustoconical lateral surface. 8 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the conical region ( 55 ) extends over at least 20% of the entire limb length. 9 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein a cone angle ( 65 ) of the conical region ( 55 ) is at most 2 degrees and/or at least 0.03 degree. 10 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the limbs comprise at least one cutout, which is in the form of a pocket ( 71 ) and extends in the longitudinal direction of the limb. 11 . Bolt-type angular gear mechanism according to claim 10 , wherein the limbs have at least one pocket ( 71 ) on a limb inner side and one pocket ( 71 ) on a limb outer side. 12 . Bolt-type angular gear mechanism ( 1 ) according to claim 10 , wherein the pocket ( 71 ) comprises a pocket base surface ( 73 ) and an oil discharging slope, which adjoins the pocket base surface ( 73 ) in the longitudinal direction of the limb. 13 . Bolt-type angular gear mechanism ( 1 ) according to claim 10 , wherein the pocket ( 71 ) is formed as far as an end side ( 37 ) of the limb. 14 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein an angular bolt is composed of two bolt halves ( 81 ) along its limb longitudinal axis. 15 . Angular bolt for a bolt-type angular gear mechanism according to claim 1 . 16 . Bolt-type angular gear mechanism ( 1 ) according to claim 1 , wherein the flattened portion ( 39 , 41 ) is formed over an entire length of the limb.