A device comprising: (a) a body portion including: (i) a first end and ii. a second end; (b) a holder at the first end; (c) a holder at the second end; (d) a rotation device at the first end in communication with the holder at the first end; and wherein the holder is fixedly attached to a split gear having a channel therethrough so that one or more flexible mediums may be placed through the channel and removed from a work area located between the holder at the first end and the holder at the second end.

A device comprising: (a) a body portion including: (i) a first end and ii. a second end; (b) a holder at the first end; (c) a holder at the second end; (d) a rotation device at the first end in communication with the holder at the first end; and wherein the holder is fixedly attached to a split gear having a channel therethrough so that one or more flexible mediums may be placed through the channel and removed from a work area located between the holder at the first end and the holder at the second end.

In an aspect, a braiding machine is provided, and has a set of spool shuttles that each dispense a strand of flexible material under tension. A strand retractor releasably retracts the strands from the spool shuttles. A plurality of shuttle stations at which the spool shuttles can be positioned are arranged in a circuit. At least one shuttle carriage, when driven, repeatedly selects an immediately previously unselected spool shuttle and moves the immediately previously unselected spool shuttle from an associated shuttle station to another shuttle station along the circuit spaced from the associated shuttle station by at least one shuttle station that is intermediate the associated shuttle station and the other shuttle station. At least one spool shuttle is parkable at the at least one shuttle station. A drive arrangement is coupled to the shuttle carriage to drive the shuttle carriage.

In an aspect, a braiding machine is provided, and has a set of spool shuttles that each dispense a strand of flexible material under tension. A strand retractor releasably retracts the strands from the spool shuttles. A plurality of shuttle stations at which the spool shuttles can be positioned are arranged in a circuit. At least one shuttle carriage, when driven, repeatedly selects an immediately previously unselected spool shuttle and moves the immediately previously unselected spool shuttle from an associated shuttle station to another shuttle station along the circuit spaced from the associated shuttle station by at least one shuttle station that is intermediate the associated shuttle station and the other shuttle station. At least one spool shuttle is parkable at the at least one shuttle station. A drive arrangement is coupled to the shuttle carriage to drive the shuttle carriage.

In some aspects, a device comprises a plurality of walls defining a slot and one or more channels wherein the one or more channels are intersected by the slot; wherein the one or more channels have a cross-section in a plane perpendicular to a vertical axis of the device that changes along the vertical axis; and one or more floats sized to allow movement of the one or more floats within said one or more channels, wherein the one or more floats have a surface characteristic that is different from the surface characteristic of the walls such that, upon contact with a fluid, said walls and said floats form different contact angles and induce a repulsive capillary force between the walls and the one or more floats at a surface of the fluid; and wherein the slot has a width that is smaller than the width of the one or more channels such that the one or more floats are prevented from moving between the one or more channels.

In some aspects, a device comprises a plurality of walls defining a slot and one or more channels wherein the one or more channels are intersected by the slot; wherein the one or more channels have a cross-section in a plane perpendicular to a vertical axis of the device that changes along the vertical axis; and one or more floats sized to allow movement of the one or more floats within said one or more channels, wherein the one or more floats have a surface characteristic that is different from the surface characteristic of the walls such that, upon contact with a fluid, said walls and said floats form different contact angles and induce a repulsive capillary force between the walls and the one or more floats at a surface of the fluid; and wherein the slot has a width that is smaller than the width of the one or more channels such that the one or more floats are prevented from moving between the one or more channels.

A shock absorbing cap provides shock abortion in the space between the interior of a traditional safety helmet and the head of the wearer. The cap has a first region next to the scalp which is made of 100% knitted cotton for comfort and the absorption of sweat. A second region is made of 100% wool fleece braided fiber bundles that extend alternately in longitudinal and lateral directions sufficiently to nearly fill the space. The outermost region is made of one or more layers of braided 100% carbon fiber bundles, which run the opposite direction of the last wool lock. In an alternative, the first region is used but the second region completely fills the space with woven aramid and carbon fiber squares laid on top of each other and sewn together. The uppermost portion is laser cut for a tight but comfortable fit under the helmet.

A shock absorbing cap provides shock abortion in the space between the interior of a traditional safety helmet and the head of the wearer. The cap has a first region next to the scalp which is made of 100% knitted cotton for comfort and the absorption of sweat. A second region is made of 100% wool fleece braided fiber bundles that extend alternately in longitudinal and lateral directions sufficiently to nearly fill the space. The outermost region is made of one or more layers of braided 100% carbon fiber bundles, which run the opposite direction of the last wool lock. In an alternative, the first region is used but the second region completely fills the space with woven aramid and carbon fiber squares laid on top of each other and sewn together. The uppermost portion is laser cut for a tight but comfortable fit under the helmet.

The present invention relates to a system for producing structural profiles by means of continuous fibre braiding, which comprises: a machine for braiding fibres around a mandrel, the forward movement of which defines a longitudinal axis of the system; a module for injecting resin into the braided fibres; a module for curing the resin-impregnated fibres; a device for inserting and removing the mandrel; and a device for pulling the profile, wherein the braiding machine is a dual braiding machine connected to a respective fibre-reloading machine.

The present invention relates to a system for producing structural profiles by means of continuous fibre braiding, which comprises: a machine for braiding fibres around a mandrel, the forward movement of which defines a longitudinal axis of the system; a module for injecting resin into the braided fibres; a module for curing the resin-impregnated fibres; a device for inserting and removing the mandrel; and a device for pulling the profile, wherein the braiding machine is a dual braiding machine connected to a respective fibre-reloading machine.