Torque limiter
Abstract
A torque limiter for a surgical screwdriver that includes an outer sleeve ( 1 ); a snap sleeve ( 3 ), which is arranged in and rotates with the outer sleeve; a rolling element cage ( 6 ), which is arranged in the snap sleeve; an inner sleeve ( 10 ), which is arranged in the rolling element cage; and a force-transmitting shaft ( 11 ), which is received in and rotates with the inner sleeve. The inner wall of the outer sleeve is provided with recesses ( 8 ) that extend parallel to a rotational axis of the force-transmitting shaft. The rolling element cage is provided with a plurality of rolling element receiving areas ( 5 ), each of which holds a rolling element ( 4 ), and with a number of noses ( 7 ), which engage into the recesses. The inner sleeve is provided with a plurality of notches ( 9 ), which extend in a V-shape parallel to the axis and which receive the rolling elements.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A torque limiter for a surgical screwdriver comprising:
an outer sleeve; a snap sleeve which is arranged in the outer sleeve and which is fixed to rotate with the outer sleeve; a rolling element cage which is arranged in the snap sleeve; an inner sleeve which is arranged in the rolling element cage; and a force-transmitting shaft which is received within the inner sleeve and which is fixed to rotate with the inner sleeve; wherein an inner wall of the outer sleeve is provided with recesses that extend parallel to an axis of rotation of the force-transmitting shaft, wherein the rolling element cage is provided with a plurality of rolling element receiving areas, each of which holds a rolling element, wherein the rolling element cage is also provided with a number of noses, said number corresponding to the number of recesses, wherein the noses are configured to engage into the recesses provided in the inner wall of the outer sleeve, wherein the noses have a width that is less than an open width of the recesses, wherein the inner sleeve is provided with a plurality of V-shaped notches which extend parallel to the axis and which receive the rolling elements such that: when a maximally permissible torque is applied to the outer sleeve in a screwing direction, sides of the noses are pressed against sides of walls of the recesses thereby moving the inner sleeve into a position in which the rolling elements that are slightly offset relative to the noses are flush with the recesses allowing the rolling elements to exit the V-shaped notches of the inner sleeve into the recesses of the outer sleeve while spreading apart the snap sleeve and thereby uncoupling the inner sleeve from the outer sleeve, and when a torque is applied to the outer sleeve in an unscrewing direction, opposite sides of the noses are pressed against opposite sides of the walls of the recesses thereby moving the inner sleeve into a position in which the rolling elements are flush with webs remaining between the recesses, thus preventing the rolling elements from exiting the V-shaped notches of the inner sleeve and thereby coupling the inner sleeve to the outer sleeve, and wherein a tip of the shaft is provided with a cone supported in a bearing cap.
2 . The torque limiter as claimed in claim 1 , wherein the snap sleeve is fixed to rotate with the outer sleeve by a drive element provided on the inner wall of the outer sleeve, said drive element protruding radially inwardly and engaging in a slot in the snap sleeve.
3 . The torque limiter as claimed in claim 1 , wherein the rolling elements are pins and the rolling element receiving areas are slots.
4 . The torque limiter as claimed in claim 1 , wherein the snap sleeve is made of a polyetheretherketone (PEEK).
5 . The torque limiter as claimed in claim 1 , wherein the torque limiter comprises a receptacle designed to receive a medical instrument, wherein, by means of a plain bearing and a slide sleeve, the receptacle is integrated angular-stable into the torque limiter and is supported almost frictionless in the outer sleeve.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.