JPH03115066A - Thread rewinding method - Google Patents

Abstract

PURPOSE:To make applicable even for winding large-sized packages with a simultaneously control possible for all spindles by detecting a rotary speed of the 1-spindle type packages of a plurality of rewinding devices driven with a single driving source for feeding back to control the rotary speed of the driving source. CONSTITUTION:In all spindles in a plurality of rewinding devices 1, shafts 3 are rotated by rotating a common drive shaft 2 to wind packages 4 and also a traverse guide 10 traverses threads 9 by reciprocating motion of a traverse bar 11 in common for all the spindles, while the traverse bar 11 receives power of the drive shaft 2, whereby close winding of the packages 4 is made possible with the spindles under the same condition. Then by detecting the rotary speed of a touch roller 6 of a first rewinding device N1, the output is fed to a CPU8 which calculates whether a predetermined speed is obtained or not, and a correction signal of the speed is outputted to a motor 15 which is rotated by a proper speed at that time. In this way, all the spindles can uniformly wind the packages 4.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field 1] The present invention relates to a yarn winding machine that performs closed winding. (Conventional technology χ) Closed winding has the following advantages: ■ The winding shape is stable and the winding appearance is beautiful, which increases the product value when selling yarn. ■ The winding hardness increases, so the diameter of the rolled ball increases. is smaller, easier to handle, requires less packaging cost and space for transportation, and at the same time prevents the system layer from collapsing during transportation.
■It is used in sewing machines because it has many advantages, such as the outer layer falling off when unwinding is smaller than with open wind, but twisting machines do not wind it with open wind at all. Ta. In a conventional rewinding machine that performs closed winding, a friction disk for each spindle is driven by a friction tire or the like. Even in this case, a connecting rod type R4111 or the like for changing the position of the friction tire with respect to the winding diameter is provided for each weight alone, but the adjustment is complicated. [Problems to be Solved by the Invention] In view of the above points, the present invention is to change the spindle rotation speed for each spindle individually, but to change the spindle rotation speed for all spindles simultaneously to perform a closed wind. The purpose is to make it possible. Means for Solving Problem K] A single drive source rotates and traverses packages of a plurality of winding HMs through one drive system, and one spindle of the plurality of winding devices detects the rotation speed of the package, feeds back the value to the drive source, and controls the rotation speed of the drive source. In addition, the 1 that detects the rotation speed
When a thread breakage occurs in one of the spindles, the rotational speed of the second weight is detected, and the number of rotations of the second weight is detected, and the ranking is lowered for each thread breakage. ``Embodiment'' An example of an apparatus for implementing the present Komei method will be described below with reference to the drawings.The apparatus for implementing the present method includes a plurality of winding devices 1.1.
...... are installed in a row, and each winding device is 1.1゜...
... are driven by one common drive system, that is, a drive shaft 2 in the illustrated example. The winding device W1 attaches a package 4 to a spindle 3 supported by a support member (not shown).
is inserted, and the pant part of the spindle 3 and the drive shaft 2 are connected by a rotation transmission means 5 such as a drive belt. A touch roller 6 is provided in contact with the package 4, and its rotation speed can be detected by a rotation detector 7, and the detected value is determined by the CPU.
input to a. Further, a traverse guide 10 is provided for traversing the yarn 9 to be wound onto the package 4. The traverse guide 10 is provided on a traverse bar 11 provided through a plurality of winding devices 1 arranged in a row, and causes the yarn 9 to perform a traverse motion by reciprocating the traverse bar 11. The traverse bar 11 is driven in circulation by a gearbox 12. Power is transmitted to the gearbox 12 from the drive shaft 2 by a power transmission means 13 such as a belt. Further, a yarn breakage detector 14 is provided along the yarn 9 wound by each winding device, and the signal of the detector 14 is
Input to CPU 8. The drive shaft 2 receives the rotation of the motor 15 via the power transmission means 16 and rotates. The motor 15 receives a signal from the CPU and rotates with its rotation speed controlled. Winding device! In I11, with the above structure, all the spindles of the plurality of winding devices receive rotation of the same drive shaft 2, rotate the spindle 3, and wind up the package 4. The traverse guide 10 also traverses the yarn 9 and guides it to the package by reciprocating the traverse bar 11 common to all spindles. Since the traverse bar is also driven by receiving power transmitted from the drive shaft 2 via the power transmission means 13, it is possible to close wind all the weights under the same conditions. Therefore, by detecting the rotation of one of the plurality of winding devices, the drive source motor 15
control the rotation of That is, the rotation of the touch roller 6 of the first winding device N1 is detected, the output thereof is sent to the CPU 8, it is calculated whether the rotation is at a predetermined level, and a correction signal is sent to the motor 15, and the motor 15 is activated. Rotate at the appropriate rotation speed at that time. This allows the package to be rolled up evenly across all weights. Assume that a yarn breakage occurs in the winding device N1 during winding. When the thread breakage detector 14 detects this, the signal is sent to the CPU 8, and the thread breakage detector 14 immediately sends the signal to the CPU 8.
The CPU is configured to receive the signal from the rotation detector 7 of the winding device.
8 input is switched, and after that, the winding device MN which is second in the order
The number of revolutions of the winding device MN2 becomes equal to M, and winding is performed, and yarn breakage detection is also performed for the winding device MN2. The winding device that serves as the above standard does not need to be ranked among all the spindles, and can be determined based on the normal thread breakage occurrence rate for the total number of spindles. A thread breakage detector 14 may be provided. If yarn breakage occurs in the last winding device, a machine stop signal is issued and the motor rotation is stopped. K Effects of the Invention The present invention allows a package of a plurality of winding devices to be rotated and traversed through one drive system by one drive VJ source, and one spindle of the plurality of winding devices is The rotation speed of the package was detected and the value was fed back to the drive source to control the rotation speed of the drive source. Conventionally, a rotation detector was attached to each spindle to control the spindle rotation speed. Closed winding can now be performed with full spindle-spindle control, and can now be applied to winding large-diameter packages. In addition, when a thread breakage occurs in one reference weight whose rotational speed is being detected, the rotational speed of the second weight is detected instead, and if the thread breaks again, it is detected by lowering the ranking. As a result, even if the reference weight thread is cut,
Winding can be carried out immediately using the next M single spindle, and uniform winding can be performed from beginning to end.

[Brief explanation of drawings]

The drawing is a schematic layout of an apparatus for carrying out the method of the invention. 1... Winding device, 2... Drive shaft. 3...Spindle, 4...Package. 5, 13.16...Power transmission means. 10...Traverse guide.

Claims (1)

[Claims] 1. One drive source rotates and traverses the package of a winding device with multiple spindles through one drive system, Detects the rotation speed of the package and feeds the value back to the drive source,
A yarn winding method characterized by controlling the rotational speed of a drive source. 2. In the yarn winding method of claim 1, when a yarn breakage occurs in one of the spindles whose rotational speed is being detected, the rotational speed of the second weight is detected instead, and the thread breakage is detected. A yarn winding method characterized in that detection is performed by lowering the ranking for each time.