Systems and methods for forming a tubular braid are disclosed here-in. A braiding system configured in accordance with embodiments of the present technology can include, for example, an upper drive unit, a lower drive unit, a mandrel coaxial with the upper and lower drive units, and a plurality of tubes extending between the upper drive unit and the lower drive unit. Each tube can be configured to receive individual filaments for forming the tubular braid, and the upper and lower drive units can act in synchronization to move the tubes (and the filaments contained within those tubes) in three distinct motions: (i) radially inward toward a central axis, (ii) radially outward away from the central axis, and (iii) rotationally about the central axis, to cross the filaments over and under one another to form the tubular braid on the mandrel.

Systems and methods for forming a tubular braid are disclosed here-in. A braiding system configured in accordance with embodiments of the present technology can include, for example, an upper drive unit, a lower drive unit, a mandrel coaxial with the upper and lower drive units, and a plurality of tubes extending between the upper drive unit and the lower drive unit. Each tube can be configured to receive individual filaments for forming the tubular braid, and the upper and lower drive units can act in synchronization to move the tubes (and the filaments contained within those tubes) in three distinct motions: (i) radially inward toward a central axis, (ii) radially outward away from the central axis, and (iii) rotationally about the central axis, to cross the filaments over and under one another to form the tubular braid on the mandrel.

A braiding machine for producing a braid includes at least two reel supports, each having at least one reel, and a control device for controlling a braiding process. The reel supports can be moved on at least two predetermined paths. Each reel support can be driven individually by an electromagnetic drive. The reel supports are driven by continuous magnetic fields. A method for producing a braid with the aid of a braiding machine is also provided.

A braiding machine for producing a braid includes at least two reel supports, each having at least one reel, and a control device for controlling a braiding process. The reel supports can be moved on at least two predetermined paths. Each reel support can be driven individually by an electromagnetic drive. The reel supports are driven by continuous magnetic fields. A method for producing a braid with the aid of a braiding machine is also provided.

Systems and methods for forming a tubular braid are disclosed here-in. A braiding system configured in accordance with embodiments of the present technology can include, for example, an upper drive unit, a lower drive unit, a mandrel coaxial with the upper and lower drive units, and a plurality of tubes extending between the upper drive unit and the lower drive unit. Each tube can be configured to receive individual filaments for forming the tubular braid, and the upper and lower drive units can act in synchronization to move the tubes (and the filaments contained within those tubes) in three distinct motions: (i) radially inward toward a central axis, (ii) radially outward away from the central axis, and (iii) rotationally about the central axis, to cross the filaments over and under one another to form the tubular braid on the mandrel.

Systems and methods for forming a tubular braid are disclosed here-in. A braiding system configured in accordance with embodiments of the present technology can include, for example, an upper drive unit, a lower drive unit, a mandrel coaxial with the upper and lower drive units, and a plurality of tubes extending between the upper drive unit and the lower drive unit. Each tube can be configured to receive individual filaments for forming the tubular braid, and the upper and lower drive units can act in synchronization to move the tubes (and the filaments contained within those tubes) in three distinct motions: (i) radially inward toward a central axis, (ii) radially outward away from the central axis, and (iii) rotationally about the central axis, to cross the filaments over and under one another to form the tubular braid on the mandrel.

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 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.