Abstract: Disclosed is a portable device for winding thread around a bobbin from a spool of thread. The device includes a height adjustable thread holder configured to receive the spool of thread, a thread guide bar pivotable between a stored position and an operative position, and an adjustable tension feed device for applying tension to the thread during winding. The device also includes a spindle slot configured to receive one of a plurality of rotatable spindles that are interchangeable within the spindle slot so that different corresponding spindles can be used with the device. Also, a speed control knob for adjusting a speed at which the spindle rotates and thus at which thread is wound around the bobbin from the spool of thread, a fill knob for adjusting the amount of thread to be wound on the bobbin, and an automatic shut off mechanism are disclosed.

Abstract: A plurality of relatively long wires having the same diameter are bundled together to obtain a bundle wire in a continuous wire bundling process. A wire bundling device includes a plurality of reels rotated by a rotating drive and wind a wire while a first end is engaged. A wire second-end pressing device collects and presses a second end of each of a plurality of wires having a predetermined length which is fed from a single spool and individually wound around each of a plurality of reels. The wires are withdrawn in a collected state from the reels by a withdrawing device between the plurality of reels and the wire second-end pressing device. The wire second-end press includes first and second pressing devices. The reels are rotated by an electric motor with a contact roller that rotates in contact with an outer circumference of the reel. The motor can be moved so that the contact roller selectively makes contact with the outer circumferences of the reels.

Abstract: A filament winding apparatus equipped with a transfer mechanism of a terminating end of a fiber bundle using a transfer ring that can be switched from a mandrel after the winding process to a mandrel before the winding process. A cutter cuts a fiber bundle wound around a first transfer ring integral with a mandrel after the winding process and a second transfer ring is moved to the mandrel before the winding process between the first and second transfer rings; and a friction roller positions and holds the second transfer ring when cutting the fiber bundle. The friction roller is pressed and biased against the second transfer ring by a compression spring.

Abstract: The invention proposes an apparatus (100) for winding a cable-like material (200), having a winding arrangement (150), a first gripping arrangement (130), for linearly advancing the leading end of the cable-like material (200) and for transferring the same to the winding arrangement (150), and a second gripping arrangement (140), for receiving the abovementioned leading end of the cable-like material from the winding arrangement (150) and for moving this leading end linearly away from the winding arrangement (150). It is possible for the first gripping arrangement (130) to grip the trailing end of the cable-like material (200) and, in conjunction with the second gripping arrangement, even it out to a predetermined difference between the ends. In specific configurations, the winding arrangement (150) has a coil gripper (154), with which the winding operation can be carried out on a winding container (152).

Abstract: A tensile yarn force sensor (7) has a measuring member (17), with which the tensile force of a traveling yarn (1) is detected as a function of the measurable pressure the yarn (1) exerts on the measuring member (17) during winding onto a cheese (2) at the work station of a multi-station textile machine, e.g., a winding machine or a combined spinning/winding machine. At preselectable intervals, a control device (11) actuates cutting of the traveling yarn (1), and triggers the performance of a zero compensation at the measuring member (17) thereby relieved of the yarn pressure, whereby external influences on the measured result are sufficiently compensated by the zero compensation, even if the chronological sequence of bobbin changes, yarn breaks or cleaning cuts triggered by imperfections in the yarn alone do not offer a sufficient opportunity for performing the required zero compensations.