ES2862925T3 - Stretching device for spinning frame - Google Patents

Abstract

A stretching device (10) for a spinning frame, wherein the stretching device (10) includes an upper rear roll (14b), a lower rear roll (14a), and a feed stopping device of the bundle of fibers (30), the fiber bundle feed stopping device (30) includes a stopping member (31) provided with a wedge (33), the wedge (33) is forced between the upper rear roller (14b) and the lower rear roller (14a) to block the transmission of the rotation of the lower rear roller (14a) to the upper rear roller (14b) and clamp a bundle of fibers (S1), which is fed to the stretching device (10), With the upper rear roll (14b), the stop member (31) is configured to move between a fiber bundle release position which is where the stop member (31) is separated from the upper rear roll (14b) and a fiber bundle clamping position that is where the upper rear roll (14b) and wedge (33) hold the fiber bundle (S1), wherein the stop member (31) includes a combing portion (32) located upstream of the site at that the rear upper roller (14b) and the wedge (33) hold the fiber bundle (S1), wherein the combing portion (32) is configured for, when the stop member (31) is in the position of holding the fiber bundle while operating the stretching device (10), piercing the fiber bundle (S1) and allowing the fiber bundle (S1) to move through the combing portion (32), combing and unwinding thus the bundle of fibers (S1).

Description

DESCRIPTION

Stretching device for spinning frame

Background of the invention

The present invention relates to a stretching device for a spinning frame.

A spinning frame turns the yarn on a wick or ribbon. In the spinning frame, spinning is performed simultaneously by a plurality of spindles. During spinning, when a yarn breaks, the spinning stops at the spindle where the yarn broke (hereinafter referred to as "the broken yarn spindle") but continues on the other spindles. One type of spinning frame continues to feed a drawing device corresponding to the broken yarn spindle with a bundle of fibers which is drawn in and collected when it is discharged from the drawing device. There is another type of spinning frame that includes a stop device to stop feeding the drawing device that corresponds to the broken yarn spindle with a bundle of fibers. As one type of such a stopper device, Japanese Public Patent Publication JP 57-133224 A describes a wick stopper device.

The stopper of Japanese Patent Publication JP 57-133224 A includes a stopper hook fitted to a rear lower roll of a stretching device. The hook extends over half the circumference of the lower rear roller. The stop hook does not rotate integrally with the lower rear roller when there is no broken thread. When a yarn break is detected, the stop hook pivots (rotates), and the edge of the stop hook is forced between a wick and the lower rear roller and is held between the upper rear roller and the lower rear roller of the locking device. stretching. This blocks the transmission of rotation from the lower rear roller to the upper rear roller. The stop hook restricts the rotation of the upper rear roller, and the wick is held between the stop hook and the upper rear roller. Under this condition, the stretching device is continuously operated. The stretching device pulls and cuts the wick on the downstream side of the upper rear roll in the wick feed direction. This stops the feeding of the broken yarn spindle drawing device with the wick.

In the wick stop device of Japanese Patent Publication JP 57-133224 A, if the wick includes, for example, high fracture strength rayon fibers, the wick may not break when held between the stop hook and the upper rear roller and is pulled down the downstream side of the upper rear roller in the wick feed direction. In the stretching device, for example, a lower hopper runs around a middle lower roller, and an upper hopper runs around a middle upper roller. Thus, when the wick is not broken, the lower and upper hopper, which continue to rotate, slide on the wick. This results in wear on the lower hopper and upper hopper.

Document US 4538 328 A discloses a device for interrupting the feeding of a wick in a drawing frame. In this device, a clamp is provided with a tab. The tab is forced between the upper and lower rollers to block the transmission of rotation from the lower to the upper rollers and clamp a wick with the upper roller. The clamp includes teeth located upstream from where the upper barrel and tab hold the wick. In this structure, an area provided with a toothed profile is attached to a clamping edge and cooperates with the edge of the clamp to interrupt the feeding of the wick by engaging the wick with the teeth formed therein.

US 1103329 A discloses a device for stopping a spinning frame. In this device, a plunger is provided with barbs, which pierce a wick. In this structure, the continuous movement of the wick causes the tines, or rough portions of the plunger, to engage with the wick, thus driving the plunger with the wick until the plunger is so strongly attracted into the opening of the type guide. trumpet that the wick can no longer be drawn forward by the feed rollers.

Summary of the invention

It is an object of the present invention to provide a stretching device for a spinning frame that easily cuts a fiber bundle.

This object is solved with a stretching device with the characteristics of claim 1. Further developments are indicated in the dependent claims.

Other aspects and advantages of the present invention will become apparent from the following description, taken in conjunction with the accompanying drawings, which illustrates by way of example the principles of the invention.

Brief description of the drawings

The invention, together with the objects and their advantages, may be better understood by reference to the following description of the presently preferred representations in conjunction with the accompanying drawings in which:

Fig. 1 is a schematic side view of a stretching device in one embodiment;

Fig. 2 is an enlarged partial schematic side view of the stretching device shown in Fig. 1;

Fig.3A is a schematic side view of a stop member;

Fig. 3B is a plan view of the stop member;

Fig. 4 is a schematic side view of a wedge forced between a rear upper roll and a rear lower roll;

Fig. 5 is a schematic plan view showing a wick that is not twisted;

Fig. 6A is a schematic perspective view of a stop member in a further embodiment; and

Fig. 6B is a schematic side view showing the wedge forced between the upper rear roll and the lower rear roll.

Detailed description of the preferred embodiments

An embodiment of a fiber bundle feed stop device 30 for a spinning frame will now be described with reference to Figs. 1 to 5. The fiber bundle feed stop device 30 stops feeding a drawing device 10 with a wick S1, which serves as the fiber bundle.

Referring to Fig. 1, the stretching device 10 has a three-roll configuration and includes the front rollers 11, hoppers 13 running around the middle rollers 12, and rear rollers 14. The front rollers 11 include a roller. lower front 11a and an upper front roller 11b. The middle rollers 12 include a lower middle roller 12a and an upper middle roller 12b. A lower hopper 13a runs around the lower middle roller 12a, and an upper hopper 13b runs around the upper middle roller 12b. The rear rollers 14 include a rear lower roller 14a and a rear upper roller 14b.

The lower front roller 11a is supported by a roller support 15. The lower middle roller 12a is supported on the roller support 15 by a lower middle roller support 16 and a bearing (not shown). The lower rear roller 14a is supported on the roller support 15 by a lower rear roller support 17 and a bearing (not shown). The middle rear lower roller bracket 16 and the rear lower roller bracket 17 are each attached to the roller bracket 15 in a manner that allows adjustment of the positions of the middle rear lower roller bracket 16 and the rear lower roller bracket. 17 relative to the roller support 15 in the front-rear direction of the frame (lateral direction in Fig. 1).

A support shaft 19, which is pivotally supported by the roller support 15, supports a pressure arm 18 with a support 20. The front upper cylinder 11b, the middle upper cylinder 12b, and the rear upper cylinder 14b are respectively supported by the upper cylinder brackets (not shown) on pressure arm 18.

A support bar 21 extends behind and parallel to the lower rear roller 14a. A horn 22 is fixed to the support bar 21 to guide the roller S1. The wick S1 is fed from a coiled wick, which is suspended from a basket (not shown), through the horn 22 and onto the rear rollers 14.

Referring to FIG. 2, the stretching device 10 includes a fiber bundle feed stop device 30. The fiber bundle feed stop device 30 includes a stop member 31 engaged with approximately half of the outer circumferential surface of the lower rear roller 14a. The stop member 31 is arcuately curved like a crescent. The stop element 31 does not rotate integrally with the lower rear roller 14a.

As shown in Figs. 3A and 3B, stop member 31 includes a combing portion 32 defined by a region located near one end (distal end) of the curved outer circumferential surface. Styling portion 32 includes teeth 32a. The teeth 32a are arranged in rows, each of which extends in a direction orthogonal to the feeding direction of the wick S1. The rows of teeth are arranged side by side in the wick feeding direction S1. In the present embodiment, four rows of teeth are arranged side by side in the feeding direction. The teeth 32a of each row of teeth are offset by half a tooth pitch relative to the teeth 32a of the adjacent row of teeth in the wick feed direction S1. The portion of the stop member 31 on the distal side of the combing portion 32 defines a wedge 33 that is forced between the upper rear roll 14b and the lower rear roll 14a.

Referring to FIG. 4, the stop member 31 is rotated between a fiber bundle release position, as shown in the broken lines, and a fiber bundle clamping position, as shown in the solid lines. . When the stop member 31 is located in the fiber bundle release position, the stop member 31 moves away from the upper rear roll 14b. When the stop member 31 is in the fiber bundle clamping position, the rear upper roller 14b and wedge 33 clamp the fiber bundle. A rod-shaped drive force transmitting member 36 is coupled by a bracket 35 to the stop member 31.

As shown in Fig. 1, a switch 37 is coupled to the end of the drive force transmission member 36 on the opposite side of the bracket 35. A controller (not shown) controls the switch 37 based on a detection signal from a yarn break sensor (not shown). The configuration of the switching device 37 is not particularly limited. The switching device 37 need only be configured to switch the stop member 31 between the fiber bundle release position and the fiber bundle clamping position with the driving force transmitting member 36 and the bracket 35 under the Controller control based on the detection signal from the yarn break sensor.

Referring to Fig. 4, in the present embodiment, the switching device 37 is actuated to linearly reciprocate the actuating force transmitting member 36. The linear reciprocity of the actuating force transmitting member 36 rotates the member. stop 31 with support 35. Combing portion 32 is allowed to contact upper rear roller 14b. Contact of combing portion 32 with upper rear roller 14b restricts further rotation of stop member 31 and positions stop member 31 in the fiber bundle clamping position.

When the stop member 31 is placed in the fiber bundle clamping position, the wedge 33 is forced between the upper rear roller 14b and the lower rear roller 14a, and the wedge 33 clamps the wick S1 with the upper rear roller 14b. . Furthermore, under this condition, the combing portion 32 pierces the wick S1 at a location upstream from the site where the wick S1 is clamped between the upper rear roll 14b and the wedge 33. "Upstream" is defined with reference to the wick feed S1.

The operation of the present embodiment will be described below.

When there are no broken yarns, the stop member 31 is held in the fiber bundle release position. A state in which there are no broken yarns includes a state in which the spinning is performed when the yarn S1 is fed through the trumpet 22 to the stretching device 10 and a state before starting the spinning in which the yarn S1 not yet fed to the stretching device 10. In a state before the start of spinning, the controller does not determine whether a yarn has broken or not, since the yarn break sensor does not yet detect a yarn break, and the switch device 37 does not rotate stop member 31 to the fiber bundle clamping position.

When the spinning frame starts to run, the roving S1 is guided from the wound roving, which is suspended from the basket (not shown), to the trumpet 22 and fed to the rear rollers 14. The yarn S1 is fed to the rear rollers 14 is wound in fleece between the rear rollers 14 and the hoppers 13 and between the hoppers 13 and the front rollers 11. The yarn is formed from the fleece. The yarn is guided to a snail wire (not shown) and a winder (not shown) and is wound around a spool (not shown).

When a yarn break occurs, the broken yarn spindle is located from the detection signal of each yarn break sensor, and the controller operates the switching device 37 corresponding to the broken yarn spindle. The switching device 37 rotates the stop member 31 from the fiber bundle release position to the fiber bundle clamp position. This forces the wedge 33 between the upper rear roller 14b and the lower rear roller 14a. The wedge 33 blocks the transmission of rotation from the lower rear roller 14a to the upper rear roller 14b. In addition, the wedge 33 holds the wick S1 with the upper rear roller 14b, the combing portion 32 contacts the upper rear roller 14b, and further rotation of the stop member 31 is restricted. This positions the stop member 31 in the position of the fiber bundle clamping. Furthermore, the combing portion 32 pierces the wick S1 upstream of the place where the wick S1 is clamped between the upper rear roller 14b and the wedge 33 in the feeding direction of the wick S1. As the wick S1 passes through the styling portion 32 when the stretching device 10 is actuated, the styling portion 32 combs and unscrews the wick S1.

As shown in Fig. 5, the teeth 32a of each row of teeth are offset by half a tooth pitch relative to the teeth 32a of the adjacent row of teeth in the feeding direction of the wick S1. This facilitates the separation of the fibers S2 in the tooth spinning frame S1 with the teeth 32a and effectively unscrews the spinning frame S1. Furthermore, the teeth 32a weaken the bonding of the fibers S2 and decrease the strength of the wick S1. Therefore, even when the wick S1 has a high strength, the wick S1 pulled by the stretching device 10 is cut between the rear rollers 14 and the hoppers 13. In addition, the wedge 33 blocks the transmission of the rotation of the lower roller. rear 14a to the rear upper roller 14b, even when the device stretch 10 is continuously operated. This stops the feeding of the wick S1 to the spindle stretching device 10 where a yarn was broken.

The above embodiment has the advantages described below.

(1) The stop member 31 includes the combing portion 32, which unwinds the wick S1, at a location upstream from where the wick S1 is clamped between the upper rear roll 14b and the wedge 33. As the wick S1 moves through styling portion 32 when stretching device 10 is actuated, styling portion 32 combs and unscrews wick S1. This weakens the bonding of the S2 fibers in the S1 roving and decreases the strength of the S1 roving. Thus, the wick S1 is easily cut when it is drawn by the stretching device 10.

(2) The combing portion 32 is allowed to come into contact with the upper rear roller 14b. The contact of the combing portion 32 with the upper rear roller 14b increases the positioning accuracy of the stop member 31 relative to the upper rear roller 14b. Thus, the wedge 33 can be precisely forced between the upper rear roller 14b and the lower rear roller 14a.

(3) Even when the wick S1 includes, for example, rayon fibers with high fracture strength, the combing portion 32 combs and unwinds the wick S1. This weakens the bonding of the S2 fibers in the S1 roving and decreases the strength of the S1 roving. Therefore, the S1 wick is cut even when the S1 wick has a high fracture strength. This prevents wear of the lower hopper 13a and upper hopper 13b that would occur if the lower hopper 13a and upper hopper 13b rotated and slid on the wick S1 when the wick S1 is not cut.

(4) The teeth 32a of each row of teeth are displaced by half a tooth pitch relative to the teeth 32a of the adjacent row of teeth in the feeding direction of the wick S1. Thus, when the stretching device 10 is actuated and the wick S1 passes through the teeth 32a, the rows of teeth facilitate the separation of the fibers S2. This unscrews wick S1 more efficiently.

The above embodiment can be modified as described below.

In the above embodiment, the combing portion 32 does not have to come into contact with the upper rear roller 14b, provided that the switching device 37 can be precisely driven and controlled, so that the wedge 33 is forced between the rear upper roll 14b and rear lower roll 14a to hold wick S1 with rear upper roll 14b and restrict rear rotation of stop member 31. Furthermore, as shown in Figs. 6A and 6B, the two edges of the locking element 31 located on opposite sides in a direction orthogonal to the feeding direction of the wick S1 may each include a projection 34 that contacts the upper rear roller 14b and is spaced from the combing portion 32. When the stop member 31 is rotated from the fiber bundle release position to the fiber bundle clamping position, the projections 34 come into contact with the upper rear roller 14b before the combing portion. 32 and restrict the contact of the combing portion 32 with the upper rear roller 14b. Therefore, the sharp teeth 32a of the combing portion 32 do not come into contact and damage the circumferential surface of the upper rear roller 14b when the wick S1 is combed. In addition, the projections 34 can be used to position the stop member 31.

In the above embodiment, the teeth 32a of each row of teeth do not have to be displaced by half a tooth pitch relative to the teeth 32a of the adjacent row of teeth in the feed direction of the wick S1. The teeth 32a of each row of teeth can be arranged without being displaced from the teeth 32a of the other rows of teeth.

In the above embodiment, there may be two or three rows of teeth arranged side by side in the wick feed direction S1. Alternatively, there may be five or more rows of teeth arranged side by side in the wick feed direction S1.

In the above embodiment, there can only be one row of teeth extending in a direction orthogonal to the feed direction of the wick S1.

In the above embodiment, the teeth 32a only have to be arranged next to each other in a direction that intersects the feed direction of the wick S1 and they do not have to be arranged in a direction orthogonal to the feed direction of the wick S1. .

In the above embodiment, the fiber bundle is not limited to the wick S1 and can be a ribbon. For example, the fiber bundle feed stop device 30 can be used in a ring spinning frame that rotates the yarns of a ribbon with a stretching device, which stretches a fiber bundle with a much higher draw ratio. than typical three-roll stretching device.

In the above embodiment, the spinning frame is not limited to a ring spinning frame and may be, for example, a belt spinning machine or a friction spinning machine.

In the above embodiment, the spinning frame can be a roving frame.

Therefore, the present examples and embodiments are to be considered illustrative and not restrictive, and the invention should not be limited to the details presented herein, but may be modified within the scope and equivalence of the appended claims.

A fiber bundle feed stop device for a spinning frame. The fiber bundle feed stop device includes a stop member provided with a wedge. The wedge is forced between an upper rear roll and a lower rear roll of a stretching device to block the transmission of rotation from the lower rear roll to the upper rear roll and clamping a bundle of fibers, which is fed to the stretching device, with the rear upper roller. The stop member includes a combing portion located upstream from where the upper rear roll and wedge grip the fiber bundle. The combing portion unscrews the fiber bundle.

Claims (6)

1. A stretching device (10) for a spinning frame, wherein the stretching device (10) includes an upper rear roll (14b), a lower rear roll (14a), and a feed stopper device. fiber bundle (30), the fiber bundle feed stopping device (30) includes a stopping member (31) provided with a wedge (33), the wedge (33) is forced between the upper rear roller ( 14b) and the lower rear roller (14a) to block the transmission of the rotation of the lower rear roller (14a) to the upper rear roller (14b) and clamp a bundle of fibers (S1), which is fed to the stretching device (10 ), with the upper rear roller (14b), the stop member (31) is configured to move between a fiber bundle release position which is where the stop member (31) is separated from the upper rear roller ( 14b) and a fiber bundle clamping position q which is where the upper rear roller (14b) and the wedge (33) hold the fiber bundle (S1), wherein the stop member (31) includes a combing portion (32) located upstream of the site where the upper rear roll (14b) and wedge (33) grip the fiber bundle (S1), wherein The combing portion (32) is configured to, when the stop member (31) is in the fiber bundle clamping position while the stretching device (10) is actuated, to pierce the fiber bundle (S1) and allow that the fiber bundle (S1) moves through the combing portion (32), thus combing and unwinding the fiber bundle (S1). The stretching device (10) according to claim 1, characterized in that the combing portion (32) comes into contact with the upper rear roller (14b) when the stop member (31) is in the clamping position of the fiber bundle. The stretching device (10) according to claim 1, characterized in that the stop member (31) includes a projection (34) that is spaced from the combing portion (32), the projection (34) enters contact with the upper rear roller (14b) and restricts the contact of the combing portion (32) with the upper rear roller (14b) when the stop member (31) is in the fiber bundle clamping position. The stretching device (10) according to claim 3, characterized in that the projection (34) comes into contact with the upper rear roller (14b) to restrict the contact of the combing portion (32) with the upper roller rear (14b). The stretching device (10) according to any one of claims 1 to 4, characterized in that the combing portion (32) includes a row of teeth (32a) arranged side by side in a direction intersecting the direction of feeding of the fiber bundle (S1). The stretching device (10) according to any one of claims 1 to 4, characterized in that: the combing portion (32) includes rows of teeth arranged side by side in the feeding direction of the fiber bundle (S1), Each of the rows of teeth includes teeth (32a) arranged side by side in a direction that intersects the feeding direction of the fiber bundle (S1); and the teeth (32a) of each of the rows of teeth are displaced by half a tooth pitch relative to the teeth (32a) of the row of teeth that is adjacent in the feeding direction of the fiber bundle (S1 ).