A reciprocating mechanism for a spinning reel includes a first gear, a second gear, a slider, and an annular elastic body. The first gear is configured to rotate in accordance with rotation of a handle shaft. The second gear includes a gear body configured to mesh with the first gear and a boss protruding from the gear body. The slider has an engagement groove where the boss engages. The slider is configured to move a spool shaft in a front-rear direction as the boss moves along the engagement groove. The annular elastic body is attached to the boss so as to contact an open end of the engagement groove.

A reciprocating mechanism for a spinning reel includes a first gear, a second gear, a slider, and an annular elastic body. The first gear is configured to rotate in accordance with rotation of a handle shaft. The second gear includes a gear body configured to mesh with the first gear and a boss protruding from the gear body. The slider has an engagement groove where the boss engages. The slider is configured to move a spool shaft in a front-rear direction as the boss moves along the engagement groove. The annular elastic body is attached to the boss so as to contact an open end of the engagement groove.

A bobbin loader apparatus and method includes a bobbin connected with a first motor. A thread holder is connected with a second motor where the thread holder is configured to hold thread. A thread guide is connected with a third motor where the thread guide directs thread from the thread holder to the bobbin. A motor controller is connected with the first motor, the second motor and the third motor where the motor controller operates the first motor to turn the bobbin in a first direction and the second motor to turn the thread holder in a second direction such that tension is applied to the thread as thread is added to the bobbin.

A frictionless service carriage system including: a shaft 1 having a first 2 and a second 3 helix-shaped guide in its surface, each helix shaped-guide 2, 3 defining a linear movement along the longitudinal axis of the shaft 1 of a carriage 4 in opposite directions and both helix shaped-guides 2, 3 crossing each other 2, 3 along the longitudinal axis of the shaft 1, wherein the carriage 4 includes a movable element 5 located successively in each of the helix-shaped guides 2, 3 and movable along the guides 2, 3, the movable element 5 comprising a set of rolling elements 6 along the first or second helix-shaped guide 2, 3 of the shaft 1 and configured such that in a crossing with the other helix-shaped guide 2, 3, the set of rolling elements 6 has at least two contact points with the helix-shaped guide 2, 3 for which it rolls.

A paper sheet storing apparatus includes: a supply reel that supplies a wound threadlike material; a winding drum around which a paper sheet is wound around together with the threadlike material supplied from the supply reel; and a guide mechanism that guides the threadlike material through a conveyance path between the supply reel and the winding drum.

A frictionless service carriage system including: a shaft 1 having a first 2 and a second 3 helix-shaped guide in its surface, each helix shaped-guide 2, 3 defining a linear movement along the longitudinal axis of the shaft 1 of a carriage 4 in opposite directions and both helix shaped-guides 2, 3 crossing each other 2, 3 along the longitudinal axis of the shaft 1, wherein the carriage 4 includes a movable element 5 located into a helix-shaped guide 2, 3 and movable along it 2, 3, the movable element 5 comprising a set of rolling elements 6 along the first or second helix-shaped guide 2, 3 of the shaft 1 and configured such that in a crossing with the other helix-shaped guide 2, 3, the set of rolling elements 6 has at least two contact points with the helix-shaped guide 2, 3 for which it rolls.

Workstation of a two-for-one twisting or cabling machine for production of carpet yarn, including winding device having package cradle with two frame arms for rotatable mounting of an empty tube or twisting package, package drive roller for frictionally driving twisting package, yarn traversing device for traversing transfer of a yarn to the twisting package, advance roller for regulating a yarn tension, and cover in area of the advance roller with an opening for yarn guided through the yarn traversing device to the twisting package. Package cradle has at least one movable, partially rotatable frame arm and designed so an empty tube with length of at least 315 mm is insertable, that the package drive roller has length of at least 286 mm, that yarn traversing device has traversing stroke of at least 11 inches, and that opening in cover corresponds with the yarn path arising due to the traversing stroke.

The invention relates to a winding device for winding strand-like material to be wound onto a rotating reel (2), which winding device has a laying apparatus (9) by means of which the material to be wound is guided to the run-on point on the winding. The laying apparatus (9) is substantially movable in the direction of the axis of rotation (3) of the reel (2). Furthermore the winding device (1) has at least one sensor for determining the run-on angle of the material to be wound onto the winding. The winding device (1) is designed in such a way that the movement of the laying apparatus (9) during the winding process is regulated as a function of the run-on angle determined by means of the at least one sensor. According to the invention the distance between the run-off point at which the material to be wound leaves the laying apparatus (9) and the run-on point during the winding process at least at times is at most four times, preferably at most twice, more preferably at most equal to the diameter of the material to be wound. Due to this small distance, a good winding of the reel is achieved, in which the individual turns rest against one another. In particular the crossing over of individual turns is avoided and the material to be wound is treated carefully.

The present invention is a part of a yarn transfer system used for transferring yarn from a full bobbin to an empty bobbin typically fitted on a winder frame. The invention broadly comprises a yarn traverse device used in transferring a continuously arriving yarn onto an empty bobbin for commencing of winding process during bobbin changeover process in automatic turret winder without any stoppage. This is achieved with the provision of an actuation device that facilitates axial movement of the yarn traverse device. In the present invention, during the bobbin changeover operation, the yarn traverse device is moved axially through the actuation device and allows the traverse guidewhile maintaining its normal traverse speed at all timesto move beyond the normal yarn winding zone such that the advancing yarn is within the reach of the yarn grasping device of the ready-to-be-wound empty bobbin. After the yarn transfer is completed, the traverse device moves back to the normal winding zone.

A braid separation apparatus for separating rope strands of a braided rope, thereby allowing reuse of the separated rope strands, is provided and may include an input assembly configured to move a braided rope made of at least three rope strands, into the apparatus. Further, the apparatus may comprise three or more winding carriers, each being coupled to one of the rope strands. The winding carriers configured to move about each other in serpentine path such that rope strands of the braided rope are separated. Each winding carrier may comprise a spool which is connected to the rope strand coupled to the winding carrier. Each winding carrier may further comprise a torque creating unit configured to provide a torque on the spool and to cause the spool to rotate such that the rope strand is wound around the spool.