A winder unit (1) for winding cutting line (41), for vehicle glazing panel removal, has a rotatable spindle shaft (61) for winding the cutting line (41) and a ratchet device (90) mounted to the spindle shaft (61) by means of a one-way rotational bearing or clutch (75). Typically the ratchet device (90) has a component mounted to rotate in unison with the one-way rotational bearing or clutch. The improvement provides a rotational directional control providing 2 one-way rotational control devices in concert.

A winder unit (1) for winding cutting line (41), for vehicle glazing panel removal, has a rotatable spindle shaft (61) for winding the cutting line (41) and a ratchet device (90) mounted to the spindle shaft (61) by means of a one-way rotational bearing or clutch (75). Typically the ratchet device (90) has a component mounted to rotate in unison with the one-way rotational bearing or clutch. The improvement provides a rotational directional control providing 2 one-way rotational control devices in concert.

A winder unit for winding cutting line, for vehicle glazing panel removal, has a rotatable spindle shaft for winding the cutting line and a ratchet device mounted to the spindle shaft by means of a one-way rotational bearing or clutch. Typically the ratchet device has a component mounted to rotate in unison with the one-way rotational bearing or clutch. The improvement provides a rotational directional control providing 2 one-way rotational control devices in concert.

A winder unit for winding cutting line, for vehicle glazing panel removal, has a rotatable spindle shaft for winding the cutting line and a ratchet device mounted to the spindle shaft by means of a one-way rotational bearing or clutch. Typically the ratchet device has a component mounted to rotate in unison with the one-way rotational bearing or clutch. The improvement provides a rotational directional control providing 2 one-way rotational control devices in concert.

Carbon fiber winding equipment includes integrated spiral and hooping winding equipment for multi-bundle fibers. The equipment includes a spiral winding unit, a hoop winding unit, and a guide base and a supporting base for supporting the spiral winding unit and the hoop winding unit. An end face of a gear driving plate includes a continuous bulbous iris curve sliding rail, a sliding rod extends into the sliding rail and is capable of driving a yarn guide shaft tube to slide radially along with the rotation of the gear driving plate. A bevel gear is capable of driving the yarn guide shaft tube to do auto-rotation motion along with the rotation of a second transmission gear ring. A ratchet driving plate rotates to drive an electric telescopic rod to push a hoop rotation plate to rotate so as to drive a hoop winding bundling device to complete a hoop winding action.

Carbon fiber winding equipment includes integrated spiral and hooping winding equipment for multi-bundle fibers. The equipment includes a spiral winding unit, a hoop winding unit, and a guide base and a supporting base for supporting the spiral winding unit and the hoop winding unit. An end face of a gear driving plate includes a continuous bulbous iris curve sliding rail, a sliding rod extends into the sliding rail and is capable of driving a yarn guide shaft tube to slide radially along with the rotation of the gear driving plate. A bevel gear is capable of driving the yarn guide shaft tube to do auto-rotation motion along with the rotation of a second transmission gear ring. A ratchet driving plate rotates to drive an electric telescopic rod to push a hoop rotation plate to rotate so as to drive a hoop winding bundling device to complete a hoop winding action.

A filament-reinforced composite material having with load-aligned filament windings enables improvement of mechanical properties for specific loading of parts made from the material. The orientation of the winding within the part may be changed depending on an orientation of an external load to the part. In one example, the part may be a slip in a frac plug or a bridge plug in a downhole application.

A filament-reinforced composite material having with load-aligned filament windings enables improvement of mechanical properties for specific loading of parts made from the material. The orientation of the winding within the part may be changed depending on an orientation of an external load to the part. In one example, the part may be a slip in a frac plug or a bridge plug in a downhole application.

A machine for winding suture into a suture tray package includes a base platform with package nests, each nest including upwardly-extending locating pins. A workstation places an empty tray onto one nest. Another workstation feeds a needle with attached suture in the tray and parks the needle in the tray. A winding station for winding the suture into a tray winding channel includes a rotatable winding head with configurable suture guiding pins, a stripper plate pushing the wound suture off the guiding pins, a suture control arm with proximal and distal ends and top and bottom sides, the distal end having a front standoff and a rear standoff incorporating a suture guiding channel, and a base member mounting the arm to base platform. A lid placement station places a lid onto a nest, a lid attachment station attaches lid to tray and an offloading station removes trays from nests.

A machine for winding suture into a suture tray package includes a base platform with package nests, each nest including upwardly-extending locating pins. A workstation places an empty tray onto one nest. Another workstation feeds a needle with attached suture in the tray and parks the needle in the tray. A winding station for winding the suture into a tray winding channel includes a rotatable winding head with configurable suture guiding pins, a stripper plate pushing the wound suture off the guiding pins, a suture control arm with proximal and distal ends and top and bottom sides, the distal end having a front standoff and a rear standoff incorporating a suture guiding channel, and a base member mounting the arm to base platform. A lid placement station places a lid onto a nest, a lid attachment station attaches lid to tray and an offloading station removes trays from nests.