The present invention relates to a positive yarn feeder for textile machines, of the type provided with a tension-limiting device for preventing tension peaks on the yarn.
As known, in a general knitting using knitting machines and the like, the yarn may be fed to the downstream machine by a so-called “positive” yarn feeder. With this type of feeder, the yarn is wound on a motorized, yarn-winding drum, which draws the yarn from a reel and feeds it to the downstream machine.
It is desirable to measure and control the yarn tension along the knitting line in order to maintain it substantially constant and to prevent surging of tension, which may cause defects in the finished clothes and affect the production yield. Since this tension depends on the difference between the speed of rotation of the drum of the feeder and the drawing speed of the downstream machine, it is conventionally controlled by modulating the speed of rotation of the drum on the basis of a signal received from a tension sensor arranged downstream of the feeder, by means of a tension control loop. In other words, the variation of tension to be applied is converted into a difference between the yarn-feeding speed and the yarn-drawing speed which is set on the downstream machine.
Although the above system effectively operates in steady state, a drawback well known to the person skilled in the art occurs in the transient state at the start of the feeding process, when the yarn is subjected to tension peaks due to the relatively low quickness of movement of the yarn-winding drum with respect to the high quickness of drawing of the downstream machine.
In order to overcome the above drawback, it is known, e.g., from EP 0 256 519, to provide the yarn feeder with a tension-limiting device capable of storing a reserve between the feeder and the downstream machine, which reserve is releasable during the starting transients in order to prevent the above tension peaks. In the embodiment of EP 0 256 519, a reserve is formed by deviating the yarn from its natural path between two stationary eyelets, by means of a rigid bar connected to the driving shaft of a motor. At rest, as well as in steady state, the bar is positioned in such a way as to deviate the yarn from its natural path. In the transient state at the start of the feeding process, the bar is rotated in such a way as to temporarily release the yarn.
The above tension-limiting device requires very accurate control of the movement of the bar and, therefore, introduces considerable complications in the control system of the feeder, with consequent rise in costs. A simpler system, which is very effective in reducing the tension peaks, is described in U.S. Pat. No. 3,962,891, wherein, likewise the previous system, a reserve is formed by deviating the yarn from its natural path between two stationary eyelets. Unlike the previous system, however, in U.S. Pat. No. 3,962,891 the yarn is not deviated “actively” by a rigid bar connected to a controlled motor, but “passively” by an arm integral with a flat spiral spring which is loaded to a predetermined tension. During the starting transients, the arm bends in contrast to the returning action of the spring and the reserve is released. At this stage, the yarn is maintained at a desired level of tension depending on the preload on the spring.
The above system is effective and easy to put into practice, but it has the drawback that, when it is desired to adjust the operative tension in relation to any variations of the feeding tension—which, as known, are managed in a fully automated way on the basis of the characteristics of the yarn, of the type of processing, of the type of downstream machine, etc.—the load of the spring must be manually adjusted, with consequent reduction of the degree of automation of the line.
Hence, it is a main object of the present invention to provide a positive yarn feeder provided with a tension-limiting device which is capable of adjusting its operative tension in a fully automated way on the basis of the parameters which are set on the knitting line.
The invention will be now described in more detail with reference to a few preferred, non-exclusive embodiments shown by way of non-limiting example in the attached drawings, wherein:
Feeder YF is provided with a tension-limiting device TL adapted to operate during the transients at the start of the feeding process, in order to prevent tension peaks due to the relatively low quickness of movement of the yarn-winding drum with respect to the high quickness of drawing of the downstream machine.
Positive yarn feeder YF with tension-limiting device TL is shown in detail in
Feeder YF comprises a housing 12 on which motorized drum D is supported. The operative parameters of feeder YF are set using a push-button panel 16 provided with a display 18. The yarn unwinding from drum D passes through tension sensor S, which is incorporated within feeder YF. Tension-limiting device TL comprises a flat spiral spring 24, whose outer end projects into a guiding member shaped as an arm 26 terminating with a hook-shaped end 28 which engages yarn F unwinding from drum D.
At rest, spring 24 biases arm 26 against a stop 30, at a position such that yarn F unwinding from drum D is deviated from its natural path, thereby forming a reserve which will be temporarily releasable during the above-mentioned starting transients. Arm 26, subject to the tension of the yarn, may rotate in contrast to the elastic return action of spring 24, thereby releasing the reserve. At this stage, the yarn is subject to an operative tension depending on the preload on spring 24.
According to this invention, with particular reference to
Having particular reference to
Similarly to the previous embodiment, the yarn unwinding from drum D′ is deviated from its natural path, thereby forming a reserve which will be temporarily releasable during the starting transients of the feeding process.
In particular, guiding member 126, subject to the tension of the yarn, will be pulled outwards in contrast to the elastic return action applied by spring 124, thereby releasing the yarn forming the reserve. At this stage, the yarn is subject to a tension depending on the preload on spring 124.
The opposite end of spring 124 is connected to an operating rod 134 of a linear actuator 136 connected operatively to control unit CPU. The latter, likewise the previous embodiment, is programmed to control the position of actuator 136 such as to automatically adjust the preload on spring 124 on the basis of the feeding tension.
The positions of the various parts of the device are designed such that, with the actuator at its outer stop position, the spring is substantially released (
A few preferred embodiments of the invention have been described herein, but of course many changes may be made by a person skilled in the art within the scope of the claims. For example, in the first embodiment the stepping motor could be replaced by other motor means, e.g., a brushless motor with feedback control, by techniques falling within the normal knowledge of the person skilled in the art. Similarly, in the second embodiment the linear actuator could also be replaced by other driving means having a linear stoke, such as a stepping/brushless motor coupled with a screw gearing. Although in the above-described embodiments the guiding member is made enbloc from the spring, of course it could be formed as a separate part. Moreover, the shape and the size of the guiding member can be extensively varied, any mechanical member being suitable as far as it is capable of slideably engaging the yarn unwinding from the drum and deviating its path in contrast to the tension of the yarn. Of course, in the second embodiment the spiral spring can be replaced by any other technically equivalent, elastic member acting by traction, such as a rubber rope, and the like.
The disclosures in European Patent Application No. 08425821.9 from which this application claims priority are incorporated herein by reference.
Number | Date | Country | Kind |
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EP 08 425 821.9 | Dec 2008 | EP | regional |
This is a divisional application of U.S. patent application Ser. No. 12/654,407 filed on Dec. 18, 2009.
Number | Date | Country | |
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Parent | 12654407 | Dec 2009 | US |
Child | 13694166 | US |