A system for making surgical braids. The apparatus comprises a braiding machine. The braiding machine comprises a plurality of horn gears and a plurality of bobbin carrier assemblies engaging the plurality of horn gears. A cutting machine is arranged to receive a continuous braid directly from the braiding machine. The cutting machine has a cutter. The braiding machine and cutting machine define a continuous path extending from the bobbin carrier assemblies and through at least a portion of the cutting machine.

A method of making a cut braid. The method comprises moving a plurality of bobbins around an endless track in a braiding machine; braiding a plurality of strands from the bobbins into a braid; passing the braid through a take-up mechanism; moving the braid along a continuous path, the continuous path extending from the braiding machine, through a take-up mechanism, and at least partially through a cutting machine; and cutting the braid in the cutting machine to form a cut braid.

A method of making a surgical braid. The method comprises moving a plurality of bobbins along an active track, the active track being an endless track; and selectively moving a bobbin to a passive track while continuing to move the remaining bobbins along the active track.

Apparatuses and methods for making surgical braids, the apparatuses and methods having active and passive tracks. Additionally, various embodiments of surgical braids having changing patterns of traces, alternating colors, alternating cores, and tubular and flat sections, and combinations thereof.

Apparatuses and methods for making surgical braids, the apparatuses and methods having active and passive tracks. Additionally, various embodiments of surgical braids having changing patterns of traces, alternating colors, alternating cores, and tubular and flat sections, and combinations thereof.

An apparatus for manipulating a material is provided. The apparatus may comprise one or more stator coils arranged in a three-dimensional configuration, and a surface on which at least one carrier is configured to move. The stator coils of the apparatus may be configured to generate an electromagnetic field for driving the carrier on the surface to manipulate a material.

An apparatus for manipulating a material is provided. The apparatus may comprise one or more stator coils arranged in a three-dimensional configuration, and a surface on which at least one carrier is configured to move. The stator coils of the apparatus may be configured to generate an electromagnetic field for driving the carrier on the surface to manipulate a material.

A module element for driving and retaining braiding bobbin carriers on a predetermined bobbin path has at least one base element that can rotate about an axis of rotation, and at least one retaining element that is formed integrally with the base element. The retaining element is configured to releasably hold at least one braiding bobbin carrier offset from the rotary axis.

A module element for driving and retaining braiding bobbin carriers on a predetermined bobbin path has at least one base element that can rotate about an axis of rotation, and at least one retaining element that is formed integrally with the base element. The retaining element is configured to releasably hold at least one braiding bobbin carrier offset from the rotary axis.

A braiding machine including several rings for passing spools. The braiding machine may include an inner ring and an outer ring which may be comprised of rotor metals, and an intermediate ring that may be comprised of horn gears. Spools may pass along the inner and outer rings, and the horn gears in the intermediate ring may allow spools to be passed back and forth between the inner ring and the outer ring.