A rotatable connection for a stand apparatus to be arranged in an operating room and including an adaptable stop mechanism which can be arranged between a first connection component and a second connection component mounted rotatably around a rotational axis relative to the first connection component and is configured to define at least two different relative rotational angles of the connection components or at least two different rotational ranges is provided. A carrier system or a stand apparatus having such a rotatable connection is also provided.

An apparatus includes first and second portions configured for relative movement; and a compression transmission arrangement extending between them and configured to enable movement of the first portion and the second portion towards each other and further configured to transmit compression forces between the first portion and the second portion to limit movement of the first portion and the second portion towards each other. The apparatus further includes a tension transmission arrangement extending between those portions which is configured to enable movement of the first portion and the second portion away from each other and further configured to transmit tension forces between the first portion and the second portion to limit movement of the first portion and the second portion away from each other. Both transmission arrangements may be on the same side of an equilibrium plane of the apparatus.

A connection mechanism and manufacturing method for a surgical instrument includes an inner shaft member that extends at least partially through an elongated shaft member of the instrument and defines proximal and distal ends and is selectively movable in a longitudinal direction with respect to the elongated shaft member and includes at least one aperture that extends partially along the longitudinal direction and disposed distally from the proximal end. The inner shaft member enables a drive collar member to slide on the inner shaft member and reciprocate along the longitudinal direction. A drive collar stop member slides on the inner shaft member and moves along the longitudinal direction. The drive collar stop member then moves in a direction relative to the longitudinal axis to engage the aperture and limit further longitudinal motion of the drive collar member. An inner shaft stop member limits movement of the inner shaft.

A rotatable connection for a mounting device for arrangement in an operating room, the rotatable connection includes an adjustable stop mechanism, which can be disposed between a first connection component and a second connection component, and is configured to define at least two different relative rotational angles of the connection components relative to each other or at least two different ranges or rotation. The adjustable stop mechanism includes at least one stop device having a respective counterstop, which is axially disposed between a first part and a second part that are each mounted in a torsion-proof manner. The at least one stop device is configured to define the different relative rotational angles or ranges of rotation by way of the respective counterstop. The invention further relates a support system or a mounting device comprising such a rotatable connection, and to a method for setting the adjustable stop mechanism.

A connector assembly includes a shank having an inner abutment proximate to an inner extremity, and an outer abutment proximate to an outer extremity. A connector includes an inner loop that encircles the shank between the inner abutment and the outer abutment and that is movable reciprocally along the shank, a first portion that extends outwardly from the inner loop to a second portion that extends from the first portion past the outer extremity and the abutment to a third portion that extends inwardly and forwardly from the second portion to a pivotally mountable outer loop. Tensioned compression springs encircle the shank between the inner abutment and the inner loop, and act between the inner abutment and the inner loop urging the inner loop toward the outer abutment.

A rotatable connection for a stand apparatus to be arranged in an operating room and including an adaptable stop mechanism which can be arranged between a first connection component and a second connection component mounted rotatably around a rotational axis relative to the first connection component and is configured to define at least two different relative rotational angles of the connection components or at least two different rotational ranges is provided. A carrier system or a stand apparatus having such a rotatable connection is also provided.

A connection mechanism and manufacturing method for a surgical instrument includes an inner shaft member that extends at least partially through an elongated shaft member of the instrument and defines proximal and distal ends and is selectively movable in a longitudinal direction with respect to the elongated shaft member and includes at least one aperture that extends partially along the longitudinal direction and disposed distally from the proximal end. The inner shaft member enables a drive collar member to slide on the inner shaft member and reciprocate along the longitudinal direction. A drive collar stop member slides on the inner shaft member and moves along the longitudinal direction. The drive collar stop member then moves in a direction relative to the longitudinal axis to engage the aperture and limit further longitudinal motion of the drive collar member. An inner shaft stop member limits movement of the inner shaft.

A connection mechanism and manufacturing method for a surgical instrument includes an inner shaft member that extends at least partially through an elongated shaft member of the instrument and defines proximal and distal ends and is selectively movable in a longitudinal direction with respect to the elongated shaft member and includes at least one aperture that extends partially along the longitudinal direction and disposed distally from the proximal end. The inner shaft member enables a drive collar member to slide on the inner shaft member and reciprocate along the longitudinal direction. A drive collar stop member slides on the inner shaft member and moves along the longitudinal direction. The drive collar stop member then moves in a direction relative to the longitudinal axis to engage the aperture and limit further longitudinal motion of the drive collar member. An inner shaft stop member limits movement of the inner shaft.

A rotatable connection for a stand apparatus to be arranged in an operating room and including an adaptable stop mechanism which can be arranged between a first connection component and a second connection component mounted rotatably around a rotational axis relative to the first connection component and is configured to define at least two different relative rotational angles of the connection components or at least two different rotational ranges is provided. A carrier system or a stand apparatus having such a rotatable connection is also provided.

A connection mechanism and manufacturing method for a surgical instrument includes an inner shaft member that extends at least partially through an elongated shaft member of the instrument and defines proximal and distal ends and is selectively movable in a longitudinal direction with respect to the elongated shaft member and includes at least one aperture that extends partially along the longitudinal direction and disposed distally from the proximal end. The inner shaft member enables a drive collar member to slide on the inner shaft member and reciprocate along the longitudinal direction. A drive collar stop member slides on the inner shaft member and moves along the longitudinal direction. The drive collar stop member then moves in a direction relative to the longitudinal axis to engage the aperture and limit further longitudinal motion of the drive collar member. An inner shaft stop member limits movement of the inner shaft.