CN216807609U - Twisting prevention device for winding machine and winding machine comprising twisting prevention device - Google Patents

Abstract

The present application relates to a kink prevention device for a winding machine and a winding machine including the same. The kink prevention device (4) comprises: a presser element (24) movable according to an actuation stroke along a transversal actuation direction (T-T) from a backward position to a forward position, the presser element (24) being provided with a stem (28) operatively connected to an actuation device (32) and a head (36) associated with the stem and shaped to exert pressure and a friction action on the yarn (12); a striker (40) separated from and opposite the presser element along said transverse actuation direction on opposite sides of a receiving volume (44) of the relative yarn, so that the yarn is located between the head and the striker. The striker is equipped with an end wall (48) defining an end stop for the forward position of the presser element. Through the technical scheme of this application for the tension that produces on the yarn can not change because of the backing-off of yarn.

Description

Twisting prevention device for winding machine and winding machine comprising twisting prevention device

Technical Field

The present invention relates to an improved kink prevention device for a winding machine, a winding machine comprising a kink prevention device.

Background

During the winding operation, the thread or yarn is in motion and unwound from the spool, so as to be able to be rewound on the reel after any possible defects have been eliminated by the clearer, generating a balloon at high speed. The formation of the balloon has been the subject of research, which has led to the finding that balloons generally have a complex ovoid shape, which varies continuously as the yarn unwinding proceeds.

It should be clear that the term "thread" or "monofilament" or "continuous thread" refers to a monofilament or a continuous strand (for example in the case of filaments, staple fibres or synthetic fibres), while the term "yarn" refers to a group of filaments of variable length connected in parallel by twisting. In the following, one or the other term will be used indiscriminately, it being understood that the utility model is not limited in its application to any one type.

Under certain conditions, depending on the speed, the distance of the spool from the unwinding point, and the weight of the unwound section of yarn, the balloon may collapse on the tube, generating high tensions through friction between the yarn and the tube, which cause degradation of the yarn and its breakage. To prevent this effect, the winder is equipped with suitable means adapted to interrupt the formation of this type of balloon, which is commonly known as a balloon breaker.

It should be noted that when a defect is cut by the clearer, the yarn breaks abruptly into two portions or ends, one toward the spool and the other toward the spool. Both ends must be controlled in order to be correctly manoeuvred by the winding head member to form the subsequent splice and to allow the yarn winding on the reel to be resumed.

For this purpose, the reel is braked immediately; however, since its initial rotation speed is high, the portion of the cut yarn directed toward the reel is wound onto the same reel in a short time between cutting and braking, so that its end can be effectively positioned on the reel by means of the movable member or the suction nozzle.

However, the interruptions on the side of the spool are no longer subject to any traction and remain free. The ends of the yarn path on the member along the winding head are sucked and held by fixed, suitably positioned suction nozzles, or by yarn tensioners or other members.

However, the portion separated from the bobbin cone by inertia is still unwound by a small amount and, due to the lack of tension in the yarn, it may form a kink or loop in the yarn by winding on itself.

It is known that the greater the twist of the yarn and the less slack the yarn, the more kinking will occur. Since the transport of kinks or loops through the clearer produces undesired cuts and overall reduces the efficiency of the winder, as well as unnecessary and undesired splices, kinks should be prevented and when the winding process is restarted, those kinks must be pulled out. For particular fibers and high twist yarns, such yarns are typically steamed at elevated temperatures for a period of time to relax the yarn and prevent the self-winding effect of the yarn on itself.

The function of the kink prevention means should be three-fold:

1. just after the yarn clearer cuts, it must come into contact with the yarn to stop its inertia and prevent the yarn from unwinding from the tube; indeed, if the yarn is unwound, this portion of yarn lacks tension and can wind around itself;

2. during the delivery of the yarn to the splicer through the spool nozzle, a small amount of tension must be generated to prevent the yarn from unwinding freely, to prevent the formation of kinks, to improve the sliding in the delivery-related part of the winding head, and finally to make the introduction into the splicer more efficient and to ensure better repeatability of the cycle;

3. at the re-start of the winding, a small amount of tension should be generated in order to unwind any kinks that have formed.

Prior art kink prevention systems include brushes that preferably rest on two areas spaced approximately 180 ° apart on the circumference of the end of the tube; or by a shaped ferrule supported on a portion of the outer circumference of the tube (according to the applicant's patents EP0275596B1 and EP0909736B 1). The support is typically near the top of the bobbin cone.

The slight tension on the yarn is created as follows: the yarn unwinding from the bobbin cone encounters the brush (ferrule) obstacle, forcing the yarn to pass between the brush (ferrule) and the tube, which creates friction and therefore a small tension sufficient to clear any kinks that may have formed; even during the delivery of the spool yarn through the spool nozzle, the kink prevention means remains in contact with the tube in order to maintain a slight tension favorable for introduction into the splicer and to clear the kink as described above during a portion of the actuation ramp.

More specifically, in known solutions for clearer cutting, the kink prevention means are brought into contact with the tube in as short a time as possible to stop the unwinding of the yarn caused by inertia.

Therefore, the kink prevention device must be light and its actuation system must be fast; by remaining in contact with the tube during the suction of the yarn by the spool nozzle and during the delivery of the yarn to the splicer, the kink prevention means generates a slight tension which is useful for the correct insertion of the yarn into the splicer; finally, the kink prevention means creates a slight tension during the winding restart ramp. Then, at some generally adjustable stage of the winding restart acceleration, it is removed from the tube in order to avoid overstressing due to the count, weakness and speed of the yarn.

Common drawbacks of current kink prevention devices are basically the following two. On the one hand, the known devices are necessarily slow acting and therefore do not completely prevent the formation of kinks/loops. The reason for this is that its relative operating time is not very short, since it must be at a distance from the end of the tube to avoid interference with the balloon and to create a surface for collecting dust, and must rest on the tube with limited force to avoid damaging the yarn.

Moreover, the slight tension imparted to the yarn is unstable and not smooth. In fact, it fluctuates between a maximum and a minimum, since in the case of forming loops, the sliding of the yarn between the loop and the tube occurs only once on a small portion of the tube during each turn of yarn unwinding; in the case of brushes, slipping occurs twice in one turn, but does not occur if tension is maintained throughout the unwinding of the turn. This intermittent lack of tension in the yarn is detrimental to complete elimination of kinking and results in irregularities being introduced into the splicer by the yarn.

The problem to be solved is therefore, on the one hand, to have a very rapid intervention of the kink prevention means in order to limit the unwinding caused by inertia and, on the other hand, to significantly improve the slight tension on the yarn, making it stable and regular from the start of the clearer cut until the unwinding.

Therefore, it is desirable to have a kink preventing device which applies a minute and regular tension to the yarn in the unwinding turn of the yarn at a predetermined stage from the time of the yarn clearer cutting to the time when the winding resumes the acceleration slope.

On the other hand, this function is difficult to achieve by acting on the rounded end of the bobbin tube, since the required regularity can only be given by the device spanning the entire 360 ° circumference of the tube end. Thus, the apparatus:

1) should be placed near the end of the spool for quick operation; however, to avoid excessive bulk, it would have a complex design;

2) however, its placement close to the yarn unwinding area is contraindicated because it risks collecting dust.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need to address the shortcomings and limitations cited with reference to the prior art.

The kink prevention device according to the present application fulfills this need. The present application provides a kink preventing device for a winding machine, including: -a presser element movable according to an actuation stroke along a transverse actuation direction from a backward position to a forward position, fitted with a rod operatively connected to an actuation device and a head engaged to the rod and shaped to exert pressure and friction on a yarn, -a striker separated from the presser element and opposite the presser element along the transverse actuation direction, on the opposite side of the receiving volume of the relative yarn, so that the yarn is placed between the head and the striker, -wherein the striker is provided with an end stop wall defining an end stop of the forward position of the presser element.

Further, the kink prevention means comprise a closed loop element surrounding and containing the yarn to limit the movement of the yarn in a transversal plane perpendicular to the yarn itself.

Further, the closed loop element is incorporated into a balloon breaker device placed upstream of the presser element and the striker with respect to the advancing direction of the yarn from the spool to the reel.

Further, the closed-loop element is arranged upstream of the presser element and the striker with respect to the advancing direction of the yarn from the spool to the reel.

Further, the closed-loop element is a ring with a circular cross-section.

Further, the head has a width, measured perpendicular to the transverse actuation direction, that is greater than or equal to a lateral extension of the closed-loop element.

Further, the striker has a stop width, measured perpendicular to the transverse actuation direction, which is greater than or equal to a lateral extension of the closed-loop element.

Further, the head is an element ending with a flat wall perpendicular to the lateral actuation direction.

Further, the end stop wall is flat and perpendicular to the transverse actuation direction of the head of the presser element.

Further, the striker is equipped with an elastic buffer device along the transverse actuation direction.

Further, the head is equipped with elastic damping means along the transversal actuation direction.

Further, the head is provided with elastic return means which oppose the action of the actuating means to return the presser element to the backward position.

Further, the actuation means of the presser element are pneumatic, electric, magnetic, or hydraulic actuation means.

Further, the actuation stroke of the presser element is less than or equal to 15 mm.

According to another aspect of the present application, there is provided a winder comprising the aforementioned kink prevention device, wherein the yarn intercepted by the kink prevention device is unwound from a spool to be rewound on a reel, wherein the winder comprises a balloon breaker device of the yarn having a tubular configuration, ending with the closed loop element on one side of the reel and on the kink prevention device.

Further, the balloon breaker apparatus has a circular neck on one side of the spool, which serves as a closed loop element.

The kink preventing device and the winding machine according to the present application can bring about the following technical effects:

first, the actuation of the kink prevention means is immediate, which is made light and has a very short actuation stroke.

In addition, the friction exerted on the yarn is continuous and not pulsed, thus facilitating the prevention of the formation of kinks in the yarn during the suction operation of the yarn ends in unwinding to deliver the yarn to the splicer, and facilitating the clearing of any kinks that may form when cut by the clearer.

In particular, the yarn is always kept under friction so that the tension generated on the yarn does not vary due to the unwinding of the yarn.

In addition, the continuous friction ensures a controlled introduction into the splicer, with lower error probability and higher cycle efficiency.

Drawings

Further characteristics and advantages of the utility model will become better apparent from the following detailed description of a preferred, non-limiting embodiment thereof, with reference to the attached drawings, wherein:

FIG. 1a depicts a partial plan view of a prior art ferrule-based kink prevention device;

FIG. 1b depicts a graph of the trend of the tension on the yarn created by the kink prevention device of FIG. 1 a;

FIG. 2a depicts a partial plan view of a prior art brush-based kink prevention device;

FIG. 2b depicts a graph of the trend of the tension on the yarn created by the kink prevention device of FIG. 2 a;

fig. 3 depicts a cross-sectional side view of a kink prevention device according to an embodiment of the utility model, wherein the depressor element is in a retracted configuration;

fig. 4 depicts a cross-sectional side view of the kink prevention device of fig. 3 with the depressor element in a withdrawn configuration;

FIG. 5 depicts a view of the kink prevention device of FIG. 3 in a retracted configuration;

fig. 6 depicts a schematic view of a winding machine comprising a kink prevention device according to the utility model.

Elements or parts of elements common to the embodiments described below will be denoted by the same reference numerals.

Detailed Description

With reference to the above figures, a general schematic of a kink prevention device according to the utility model has been indicated jointly by 4.

In particular, the kink prevention device 4 is fitted in the winding machine 8, wherein the yarn 12 intercepted by the kink prevention device 4 is unwound from the spool 16 in a known manner to be wound back onto the reel 20.

The kink prevention means 4 comprise a presser element 24 which is movable along a transverse actuation direction T-T according to an actuation stroke from a rearward position to a forward position.

The presser element 24 has a stem 28 operatively connected to the actuating device 32 and a head 36 associated with the stem 28 and shaped to exert pressure and friction on the yarn 12.

The actuating device 32 of the presser element 24 may be a pneumatic, electric, magnetic or hydraulic actuating device.

Said actuation stroke of the presser element 24 is preferably less than or equal to 15 mm. In this way, the actuation time of the presser element is particularly short.

The kink prevention device 4 further comprises a striker 40, separate from the presser element 24 and opposite thereto along said transversal actuation direction T-T, located on the opposite side of the receiving volume 44 of the associated yarn 12, whereby the yarn 12 is located between the head 36 and the striker 40.

The striker 40 is in turn provided with an end stop wall 48 defining an end stop for the forward position of the presser element 24.

Advantageously, the kink prevention means 4 comprise a closed loop element 52, which surrounds and houses the yarn 12, limiting the movement of the yarn in a transversal plane perpendicular to said yarn 12.

The closed loop element 52 is preferably contained in the balloon breaker device 56 and is located upstream of the presser element 24 and the striker 40 with respect to the direction of advance S-S of the yarn 12 from the spool 16 towards the reel 20.

Preferably, the closed-loop element is arranged upstream of the presser element 24 and the striker 40 with respect to the advancing direction S-S of the yarn 12 from the spool 16 towards the reel 20.

According to one embodiment, the closed-loop element 52 is a ring with a circular cross-section.

The head 36 of the presser element 24 has a width 60, measured perpendicularly to the transverse actuation direction T-T, greater than or equal to a lateral extension 64 of the closed-loop element 52. In the case where the closed loop element 52 has a circular shape, the lateral extension 64 is equal to the diameter of the circle of the closed loop.

The striker in turn has a stop width 68, measured perpendicular to the transverse actuation direction T-T, which is greater than or equal to the lateral extension 64 of the closed-loop element 52.

Preferably, the head 36 of the presser element 24 is an element ending with a flat wall 72 perpendicular to the transverse actuation direction T-T.

Furthermore, according to one embodiment, said end wall 48 of the striker 40 is flat and perpendicular to the transversal actuation direction T-T of the head 36 of the presser element 24.

According to one possible embodiment, striker 40 is provided with elastic buffer means 76 along said transversal actuation direction T-T.

According to one embodiment, the head 36 is provided with elastic damping means 76 along said transversal actuation direction T-T.

According to one possible embodiment, the head 36 is provided with elastic return means 80 which counteract the action of the actuating means 32 to return the presser element 24 to the backward or rest position.

As mentioned above, the kink prevention means 4 comprises a closed loop element 52, which surrounds and contains the yarn 12, limiting the movement of the yarn in a transverse plane perpendicular to said yarn 12.

According to a preferred embodiment, the winder 8 comprises a balloon breaker device 56 of the yarn 12 having a tubular configuration, and said balloon breaker device 56 ends with said closed-loop element 52 on one side of the reel 20 and on the kink prevention means 4.

In other words, the closed loop element 52 is enclosed in the top of the balloon eliminator device 56.

Thus, the balloon eliminator device 56 preferably has a circular neck on one side of the spool 20 that serves as the closed loop element 52.

The operation of the kink preventing means according to the present invention will now be described.

As shown in the figures, the solution according to the utility model does not perform any more a kink prevention function at the circular end of the bobbin tube as in the known solutions, but in another area of the winding head, where it is possible to stop the yarn on the surface quickly and to generate friction on the yarn, which ensures control of the yarn positioning and generates tension without the drawbacks of the prior art.

This embodiment is in fact located just above the unwinding zone, acting immediately after the balloon breaker device 56, which is the first control member of the yarn 12.

In this position, the actuation of the kink prevention means 4 is very fast, since the stroke required to stop the yarn unwinding is very short, of the order of 15 mm.

Preferably, the kink prevention device 4 is located at the existing yarn presence sensor on the winding head at the outlet of the tube of the balloon breaker device 56, so it does not require any additional space in the path of the yarn 12.

In particular, a kink prevention function is imparted to the head or damper 36 of the presser element 24, which is actuated by the actuating means 32, preferably by a pneumatic plunger, so as to abut against the striker 40, preferably spring-loaded with 15 grams.

The stroke of striker 40 is given by the distance between the retracted position and the extracted position of head 36 against striker 40.

Preferably, the stroke zone of the head 36 is located at the outlet of the tube of the balloon breaker device 56, which is the closed loop element 52, where the portion of the yarn 12 on which friction is to be applied after being cut by the clearer is located.

The head or damper 36, which moves towards the striker 40, intercepts the yarn 12 and conveys it towards the striker 40, preferably cushioned by an elastic cushioning device 76, with the aid of the circular shape of the closed-loop element 52 which guides the yarn 12 so that it rests on the center of the striker 40.

The yarn 12 is thus slightly pinched between the head or damper 36 and the striker 40 and is subject to moderate friction regardless of the unwinding of the yarn 12 from the cone of the spool 16.

Advantageously, as shown, the yarn 12 is housed inside the closed-loop element 52 and is therefore always intercepted by the head 36 of the presser element 24 when it moves towards the preferably cushioned striker 40.

Advantageously, the kink prevention device 4 affects the yarn 12 as it unwinds and moves from the spool 16 towards the winding shaft 20, so as to generate a continuous tension on the yarn 12 by friction exerted between the head 36 and the striker 40: said tension on the yarn 12 does not vary due to the unwinding of the yarn 12 as is the case in prior art solutions.

The tension generated on the yarn 12 is not changed by the unwinding of the yarn because the kink prevention device 4 is located outside the unwinding area of the yarn 12.

As can be appreciated from the above description, the present invention overcomes the disadvantages of the prior art.

In particular, the present invention provides many of the following advantages.

First, the actuation of the kink prevention means is immediate, which is made light and has a very short actuation stroke.

In addition, the friction exerted on the yarn is continuous and not pulsed, thus facilitating the prevention of the formation of kinks in the yarn during the suction operation of the ends of the yarn in unwinding to deliver the yarn to the splicer, and facilitating the clearing of any kinks that may form when cut by the clearer.

In particular, the yarn is always kept under friction so that the tension generated on the yarn does not vary due to the unwinding of the yarn.

In addition, the continuous friction ensures a controlled introduction into the splicer, with lower error probability and higher cycle efficiency.

Furthermore, the unwinding area is not obstructed by devices which, although they may be small, always create points for collecting dust which, after accumulating over time, may deposit on the yarn and create defects thereon.

Therefore, the kink prevention device according to the utility model is advantageously located outside the yarn unwinding zone: in this way, the tension generated in the yarn does not vary as a result of the unwinding of the yarn.

In addition, the area where the kink prevention device is placed is preferably located above the balloon breaker where the yarn is guided by the tube, and therefore no additional space is required on the unwinding path of the yarn. Therefore, the kink preventing device of the present invention can be applied to an existing winder (retrofit device).

Furthermore, the kink prevention means according to the utility model may also be used in conjunction with known types of kink prevention means working on top of the tube.

To satisfy contingent and specific requirements, a person skilled in the art may apply to the solution described above many modifications and variations, all of which are included within the scope of the utility model as defined by the following claims.

Claims (16)

1. A kink preventing device (4) for a winding machine, characterized by comprising:

-a presser element (24) movable according to an actuation stroke along a transversal actuation direction (T-T) from a backward position to a forward position, said presser element (24) being equipped with a stem (28) operatively connected to an actuation device (32) and a head (36) engaged to said stem (28) and shaped so as to exert a pressure and a friction action on the yarn (12),

-a striker (40) separate from and opposite to the presser element (24) along the transverse actuation direction (T-T), on opposite sides of a receiving volume (44) of the relative yarn (12), so that the yarn (12) is placed between the head (36) and the striker (40),

-wherein the striker pin (40) is provided with an end stop wall (48) defining an end stop of the forward position of the presser element (24).

2. The kink prevention device (4) according to claim 1 characterized in that said kink prevention device (4) comprises a closed loop element (52) surrounding and containing said yarn (12) to limit the movement of said yarn in a transversal plane perpendicular to the yarn (12) itself.

3. The kink prevention device (4) according to claim 2, characterized in that said closed loop element (52) is incorporated into a balloon breaker device (56) placed upstream of said presser element (24) and said striker (40) with respect to the advancing direction (S-S) of the yarn from the spool (16) to the reel (20).

4. The kink prevention device (4) according to claim 2 or 3, characterized in that said closed loop element (52) is arranged upstream of said presser element (24) and said striker (40) with respect to the advancing direction (S-S) of the yarn from spool (16) to reel (20).

5. The kink prevention device (4) according to claim 2 or 3 characterized in that said closed loop element (52) is a loop with a circular cross section.

6. The kink prevention device (4) according to claim 2 or 3, characterized in that the head (36) has a width (60) measured perpendicular to the transverse actuation direction (T-T) that is greater than or equal to a lateral extension (64) of the closed loop element (52).

7. The kink prevention device (4) according to claim 2 or 3, characterized in that the striker (40) has a stop width (68) measured perpendicular to the transverse actuation direction (T-T) which is greater than or equal to a lateral extension (64) of the closed loop element (52).

8. The kink prevention device (4) according to any one of claims 1 to 3 characterized in that said head (36) is an element ending with a flat wall (72) perpendicular to the transversal actuation direction (T-T).

9. The kink prevention device (4) according to any one of claims 1 to 3, characterized in that said end stop wall (48) is flat and perpendicular to the transversal actuation direction (T-T) of the head (36) of the presser element (24).

10. The kink prevention device (4) according to any one of claims 1 to 3 characterized in that the striker (40) is fitted with resilient buffer means (76) along the transverse actuation direction (T-T).

11. The kink prevention device (4) according to any one of claims 1 to 3 characterized in that said head (36) is fitted with resilient buffer means (76) along the transversal actuation direction (T-T).

12. The kink prevention device (4) according to any one of claims 1 to 3, characterized in that said head (36) is provided with elastic return means (80) which oppose the action of said actuation means (32) to return said presser element (24) to a rearward position.

13. The kink prevention device (4) according to any one of claims 1 to 3, characterized in that the actuation means (32) of the depressor element (24) is a pneumatic, electric, magnetic or hydraulic actuation means.

14. The kink prevention device (4) according to any one of claims 1 to 3, characterized in that the actuation stroke of the depressor element (24) is less than or equal to 15 mm.

15. A winder comprising a kink prevention device (4) according to any of claims 2 to 7, characterized in that the yarn (12) intercepted by the kink prevention device (4) is unwound from a spool (16) to be rewound on a reel (20), wherein the winder comprises a balloon breaker device (56) of the yarn (12) having a tubular configuration, the balloon breaker device (56) ending with the closed loop element (52) on one side of the reel (20) and on the kink prevention device (4).

16. Spooling machine (8) as defined in claim 15, characterized in that the balloon breaker device (56) has a circular neck on one side of the spool (20), which serves as a closed loop element (52).

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