Weft tension brake control

Textiles: weaving – Weft manipulation – Weaving with stationary weft supply

Reexamination Certificate

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Details

C318S006000, C242S419400, C139S194000

Reexamination Certificate

active

06328081

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a method and a device for controlling electrically actuated weft brakes for the automatic adjustment of the mechanical tension of a weft thread in textile machines with mechanical insertion; this expression is used to designate textile machines such as gripper looms, bullet looms and picking-type machines in which the weft thread is engaged mechanically by transport elements in order to be inserted in the shed; fluid-jet weft insertion machines are therefore excluded.
As it is known, in modern weaving systems the weft thread that unwinds from the spool is fed to the loom by means of a weft feeder. Such weft feeder is an apparatus which comprises a fixed drum on which a rotating arm winds and restores a plurality of turns of thread which constitute a weft reserve and from which the turns unwind when requested by the loom, at each beat thereof.
Electrically-actuated weft braking devices are inserted between the feeder and the loom and have the dual purpose of maintaining on the thread a sufficiently high mechanical tension in certain critical steps of the weft insertion process and of ensuring that in any case, throughout the insertion process, the instantaneous or peak value of the mechanical tension does not reach excessively high values such as to break the thread, for example at defective points of the thread. The critical steps of the insertion process in which correct control of weft thread tension is indispensable are constituted, e.g. in a gripper loom, by the thread gripping step, by the step for transfer between the retaining gripper and the drawing gripper, and by the step for the arrival of the weft thread.
In order to achieve such dual purpose, the use of weft braking means which are integrated in the feeder and/or separated from it is known.
The present description non-limitatively relates to the latter means, i.e. the so-called duckbill brakes arranged downstream of the feeder and comprising a pair of mutually opposite laminas, respectively a fixed one and a movable one, between which the thread runs and in which an electromechanical actuator actuates the movable lamina so as to press more or less intensely on the fixed one in order to vary the applied braking action. As it is also known, the actuator of the brake is driven with an excitation current modulated by a tension sensor which is inserted between the weft brake and the weaving loom and generates a modulation signal for the excitation current which is proportional to the instantaneous value of the mechanical tension of the weft thread.
More specifically, weft thread tension adjustment systems are known which use, in order to control the weft brake, an adjustment loop in which the reference is constituted by a preset and selected value of the mechanical tension of the weft thread and in which the instantaneous and actual value of the tension, measured by a tension sensor, is subtracted from the reference value in order to obtain an error signal. The error signal is processed by logic means (logic block of the PID type), which obtain an information signal capable of eliminating the error.
This information signal is matched, by means of adequate power circuits, by a proportional braking action applied by the laminar brake to the weft thread; the information signal is therefore termed “brake reference” hereinafter.
This conventional weft brake adjustment and control system, based exclusively on the direct measurement of the mechanical tension that affects the weft thread, despite being widely used, does not fully meet the requirements of modem weaving processes, since it is unable to compensate, sufficiently to avoid unwanted breakages of the weft thread, the rapid variations in mechanical tension to which the thread is subjected during the insertion process.
This severe drawback is substantially due to the fact that the braking action applied by the laminar brake or by other conventional types of driven brakes is heavily influenced by the travel speed of the thread, so that the mechanical tension generated on the weft thread, for an equal braking action applied by the brake, is just as directly dependent on the travel speed.
It is thus evident that the conventional above-cited adjustment systems are entirely insufficient and inadequate in weaving processes with mechanical insertion in which insertion speeds on the order of 2500 or 3000 meters/minute are easily reached and exceeded, and in which, during the insertion steps, the weft is subjected to the intense accelerations and decelerations that characterize the rules of motion of the thread transport elements.
In particular in the case of gripper looms, with reference to the angular positions of the driving shaft of the machine and as shown in the solid-line chart line of
FIG. 2
, the step for gripping the weft thread occurs at approximately 65 shaft degrees. After this, the thread is subjected to a step of transport with a high initial acceleration up to approximately 120 shaft degrees, followed by a deceleration, due to braking, until approximately 180 shaft degrees are reached, this being the position for transfer between the retaining gripper and the drawing gripper. Such drawing gripper, over the remaining arc of the insertion step, subjects the thread to an acceleration-deceleration cycle which is substantially identical to the preceding one, ending insertion at approximately 287 shaft degrees.
Correspondingly, the mechanical tension on the weft thread varies substantially according to the same rule of variation as the thread travel speed and therefore has the plot of the dashed chart line of
FIG. 2
, which is also substantially characterized by two positive half-waves having a minimum cusp which lies substantially at the 180 shaft degrees position; such minimum value, different from zero, corresponds to the value of the static tension that acts on the thread at rest.
SUMMARY OF THE INVENTION
The aim of the present invention, starting from the notion of the variability of the mechanical tension on the weft thread, which is markedly and increasingly linked to the corresponding variability of the thread travel speed during the insertion step, is to provide a method and a device for adjusting the mechanical tension of the weft thread with a loop for generating and controlling the excitation current of the weft brake which is sensitive not only to the variations in the mechanical tension measured on the weft thread but also to the variations in the travel speed of the thread; such speed variations being derived from the rule of motion that governs the mechanical elements for the insertion of the weft thread.
Within the scope of this aim, an object of the present invention is substantially to provide a method and a device for controlling weft brakes which have a highly improved functionality and ensure the substantial absence of weft thread breakage even in the presence of particularly delicate wefts such as wools, silks and low-count synthetic yams.
Another important object of the present invention is to provide a control method which is extremely simple and a control device which is quite inexpensive and has a minimal number of sensors (which are expensive and scarcely reliable) arranged along the path of the weft thread.
According to the present invention, this aim, these and other objects which will become better apparent hereinafter from the following detailed description are achieved with a method and a device which have the specific characteristics stated in the appended claims.
Substantially, the present invention is based on the concept of improving the adjustment loop of conventional types of device by rescaling the braking reference, or brake reference for short, according to the actual instantaneous transport speed of the weft thread.
In other words, the present invention provides an adjustment device with a control loop for generating the excitation current of the weft brake, in which the brake reference parameter, obtained from the difference between the reference and measured mec

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