CZ281551B6 - Weft carrier for jet looms - Google Patents

Abstract

The weft metering feeder for jet weaving machines is provided with an electromagnetic yarn stopping device (8) comprising at least one electromagnetic coil (12) and a movable core (13) of ferromagnetic material. The movable core (13) of the yarn stopping device (8) consists essentially of a cylindrical hollow head (15) of ferromagnetic material and a cylindrical rod (9) of ceramic material axially disposed in the head cavity (15). The outer surface of the rod (9) and the inner surface of the hollow head (15) are provided with grooves (17, 17A, 18, 18A) along their control curves, while the remaining hollow portion between the head (15) and the rod (9) is filled with plastic material ( 16), which is injected by pressure to fix the rod (9) in the head (15). The walls (21, 22) of the recess (10) of the drum (3) into which the end of the rod (9) of the yarn stopping device (4) penetrate along the surface lines of the drum (3) are inclined so as to outwardly wide-spread

Description

Weft feeder for jet weaving machines

BACKGROUND OF THE INVENTION The present invention relates to a weft feeder for jet weaving machines for measuring the length of a weft yarn for insertion into a shed of a weaving machine consisting of a winding arm driven by an electric motor, a cylindrical drum stationarily mounted on the winding arm axis. and counting the yarn windings taken by the weaving machine from the at least one electromagnetic yarn stopping device with a core movable radially with respect to the drum, wherein at least one recess is provided in the drum for positioning the free end of the core.

As is known, a weaving machine nozzle for throwing a weft yarn into a shed draws the length of the weft yarn required for each weft pick from the feeder drum. This length is measured and controlled by the weft feeder, which counts the number of unwound windings by suitable means. As soon as the yarn being fed into the shed of the weaving machine reaches a predetermined length at the outlet of the weft feeder, it is stopped on the drum by a device comprising a bar capable of coming into contact with the yarn at the outlet from the feeder. and an extended operating position in which the end of the rod penetrates into a recess provided for this purpose on the periphery of the drum near its free end, so that the thread is stopped by catching it when it is unwound from the drum. Preferably, the weft yarn stopping device is an electromagnetic device on which the rod protrudes from a movable core comprising a head of ferromagnetic material, exposed to the counter-direction of at least one electromagnetic coil and a return spring to move the rod alternately into an extended, yarn stopping position; retracted rest positions.

BACKGROUND OF THE INVENTION The present invention relates to an improvement of the electromagnetic yarn stopping device and the recess formed thereon on the periphery of the drum in order to improve the performance of the weft feeder.

It should be noted that during operation of the weft feeder, continuous thread friction against the rod of the electromagnetic yarn stopping device causes wear of the rod in the area of contact with the thread, generating grooves and / or notches on the rod which render the device unusable after a short period of use. Meanwhile, attempts have been made to overcome this disadvantage by making the stopping device rod of metal, always metal, capable of withstanding as far as possible the wear-causing effects. Such bars have also been made of materials with low wear resistance, but surface treated or coated to effectively wear. However, these solutions have not produced satisfactory results.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problem by using, in an entirely original manner, rods made of ceramic material suitably mounted in the ferromagnetic core of the device. This object is fulfilled by a weft feeder for jet weaving machines measuring the lengths of the weft yarn for insertion into the shed of the weaving machine, consisting of a winding arm driven by an electric motor, a cylindrical drum stationaryly mounted on the winding arm axis. and hears

Melting yarn wraps, taken by a weaving machine, from at least one electromagnetic yarn stopping device having a core movable radially with respect to the drum, wherein at least one recess is provided in the drum for positioning the free end of the core, the core of the yarn stopping device consists of a cylindrical hollow head of ferromagnetic material in which a rod of ceramic material is coaxial with the head and the recess of the drum for positioning the free end of the core has the shape of an elongated groove of constant width with inclined front walls; towards the thread stopping device.

Advantageously, the rod is provided with annular ribs and / or grooves and the inner surface of the head is provided with annular grooves, the gap between the head and the rod being filled with plastic material, and the annular ribs and / or grooves on the rod are offset relative to the annular grooves. mortarboard.

However, in such a device, which, with its many advantages, also has the disadvantage of using a brittle rod which breaks easily when subjected to bending and especially impact, it appeared appropriate to improve the shape of the recess on the periphery of the drum into which the end of the stop rod thread enters.

It should be noted that the electromagnetic yarn stopping device may be implemented according to two different principles, namely a rod retracted at rest into the device or a rod protruding at rest from the device and extending into a recess formed therein in the drum.

This second embodiment, in which the rod normally protrudes from the device, is particularly preferred in the case of the use of an electromagnetic yarn stop device with a single magnet, whereby the yarn stop is guaranteed even when the machine is not operating.

According to modern construction technology, the drum on which the thread supply is wound is mounted freely rotatable on the motor shaft and is prevented from rotating usually by a magnetic field generated by permanent magnets mounted on the drum and facing other magnets mounted on the weft feeder housing. .

Thus, this design allows the drum to be pivoted about its own axis if suitable external forces are applied to it. This rotation can occur - usually in the form of a rocking action - when the weft feeder is adjusted and thus as a result of handling, or during use thereof, when the weft feeder drum is manipulated to change its span and hence the reeling stock, if a variable diameter drum is used.

Obviously, during the pivoting or swinging of the drum, the rod of the electromagnetic yarn stopping device may strike the walls of the recess in which its end is stored, with consequent damage to both the rod and said walls, the rod being very likely to break if fragile as this is the case with the invention.

According to the invention, this drawback is overcome by the rod having a rounded tip and the end walls of the recesses in the drum being formed by an inclined planar surface.

-2GB 281551 B6

For the wider application of the invention, it is important that the drum is formed by a set of longitudinal radially adjustable arms which are in their outermost position within a circle centered on the axis of rotation of the winding arm, the rod being always outside the circle.

An exemplary embodiment of a weft feeder according to the invention is shown in the drawings, wherein Fig. 1 is a side view of a metering weft feeder incorporating an improvement of the invention; Fig. 2 is a cross-sectional view of a normal electromagnetic yarn stopping device for said weft feeder; Fig. 3 is a fragmentary side cross-sectional view of the moving core according to the invention for the electromagnetic yarn stopping device shown in Fig. 2; Fig. 4 is a front view of the outlet end of the weft feeder shown in Fig. 1; 6 is a perspective view in a reduced scale from the exit end of the weft feeder according to the invention.

The metering weft feeder for feeding the weft yarn to the jet weaving machines comprises, in particular, an electric motor 1 which rotates the winding arm 2 and a drum 3, maintained in a stationary state, onto which the arm 2 winds the weft yarn 4 in uniform windings forming a stock 5 controlled The length of the windings can be adjusted by varying the radial position of the arms 7, which allows the diameter of the drum 3 to be changed. On these weft metering feeders, the yarn 4 fed to the weaving machine is stopped after withdrawing a predetermined yarn length through the weaving machine nozzle. This operation is performed by the electromagnetic device 8 by moving its rod 9 into a protruding position and introducing it into a recess 10 formed thereon on the periphery of the drum 3 near its free end to come into contact with the thread 4 and stop it .

A normal electromagnetic yarn stopping device is shown in FIG. 2. This device 8 includes a cover 11 mounted on a weft metering feeder that houses an electromagnetic coil 12, a movable core 13, and a spring 14. The device 8 could include more than one coil 12 and its construction could be different from the one shown.

In the device 8 shown in FIG. 2, the coil 12 is intended to pull the movable core 13 into a rest position against the action of the spring 14, which in turn is intended to hold the core rod 9 in the projecting, thread stopping position in the recess 10 of the drum 3. It is to be understood that the spring 14 could alternatively be intended to hold the movable core 13 in the rest position, while the electromagnetic coil 12 could serve to move the core 13 into working position, with its rod 9 extending into the recess 10 of the drum

3.

Giant. 3 shows in more detail the movable core 13 of the electromagnetic yarn stopping device 8 according to the invention. The core 13 consists of a substantially cylindrical hollow head 15 of ferromagnetic material capable of responding to the action of the electromagnetic coil 12, and a rod 9 of high abrasion resistance ceramic material which is axially fixed in the head 15 and protrudes therefrom.

-3GB 281551 B6

Still according to the invention, the ceramic rod 9 is rigidly connected to the head 15 by being secured therein by injecting a suitable plastic material 16 into the hollow part between the head 15 and the rod 9. To strengthen this connection, the rods 9 and the inner face are 15, the respective grooves 17, 17A and 18, 18A are formed along the control curves of these surfaces so as to form undercuts into which the injected plastic material 16 penetrates, thereby greatly improving the bond strength between the head 15 and the rod 9.

The two grooves 17, 17A formed on the portion of the rod 9 housed within the head 15 are arranged such that their position does not coincide with the grooves 18, 18A of the head 15 and are offset axially from each other. The protruding free end of the rod 9 has a rounded tip to ensure its immediate release from the weft yarn 4 when the movable core 13 is pulled by the bobbin 12 of the device 8 into the rest position and the weft yarn 4 is to be fed again to the weaving machine.

Since, as is known in the weaving technique, ceramic materials offer the best abrasion resistance due to the friction of threads, in particular threads slipping on a narrow surface, a rod 9 made of ceramic material - which has never been used before because of its difficulty in fixing to the head of ferromagnetic material to form the movable core of the device 8. It significantly improves the durability and reliability properties of the yarn stopping device according to the invention on which the bar is used, compared to conventional yarn stopping devices. Furthermore, the firm and reliable fastening of the rod 9 in the head 15 achieved according to the invention prevents any possible damage that could be caused by such a mechanically brittle material, such as ceramic, due to vibrations, vibrations and possible impacts. This fastening also most effectively prevents the effects of high inertia forces generated by the high speed of the movable core 13 that would tend to expel the rod 9 from the core 13.

Giant. 4 to 6 show the yarn stopping device 8 in the working position, with the rod 9 penetrating into the recess 10 formed thereon on the drum 2.

According to the invention, the recess 10, formed as a wide slot perpendicular to the axis of the drum 3 along the control curve of its cylindrical surface, has end faces 21 and 22 extending along the surface lines of the drum 3, substantially inclined and wide open. These walls 21, 22 may suitably consist of simple inclined planar surfaces, as in the embodiment shown in the drawings, but could also consist of any other inclined surfaces with one or more curvature.

In the case of a recess 10 having the above characteristics, when the drum 3 is rotated about its own axis, designated A in the drawings, the end of the rod 9 comes into contact with one of the two inclined walls 21 or 22 of the recess 10 forming a force component extending along This component causes the rod 9 to be raised, which is facilitated by the smooth contact of its rounded tip with the inclined wall.

Thus, the walls 21, 22 of the recesses 10 are not able to prevent the drum 2 from rotating and even the end of the rod 9 is not exposed to the risk of damage.

Since there is no real impact, but rather only a gradual sliding contact which protects the integrity of both the rod 9 and the recess 10.

It should also be noted that the arrangement of the other parts of the drum 2 allows its full rotation about its own axis. The adjustable arms 7 are located within their maximum span within the center C of the center A, while the free end of the rod 9, although in the projecting position from the device 8, remains outside the circle C, thereby preventing any impact on the adjustable arms 7.

Finally, these characteristics allow a significant increase in the reliability of the weft feeder and protect it against misuse, thus solving a problem which has been strongly felt by designers and weaving machine users and which would actually provide the electromagnetic yarn stopping device with a brittle rod such as a ceramic rod such as in the case of the invention, has made it even more serious.

Claims (5)

A weft feeder for jet weaving machines measuring weft yarn lengths for insertion into a shed of a weaving machine, comprising a winding arm driven by an electric motor, a roller drum stationary mounted on the axis of the winding arm, sensors measuring the amount of thread wound on the drum; counting the threads taken by the weaving machine from the at least one electromagnetic yarn stopping device with a core movable radially with respect to the drum, wherein at least one recess is provided in the drum for locating the free end of the core, characterized in that the core (13) 8) for stopping the thread is formed by a cylindrical hollow head (15) of ferromagnetic material, in which a rod (9) of ceramic material is coaxial with the head (15), and a recess (10) of the drum (3) 13) has the shape of an elongated groove of constant width with inclined end walls (21, 22) ), wherein the groove is open outwardly towards the yarn stopping device (8). Weft feeder according to claim 1, characterized in that the rod (9) is provided with annular ribs and / or grooves (17, 17A) and the inner surface of the head (15) is provided with annular grooves (18, 18A), the gap between the head (15) and the rod (9) is filled with a plastic material (16). The weft feeder according to claim 2, characterized in that the annular ribs and / or grooves (17, 17A) on the rod (9) are offset relative to the annular grooves (18, 18A) in the head (15). Weft feeder according to claim 1, characterized in that the rod (9) has a rounded tip and the end walls (21, 22) of the recess (10) in the drum (3) are formed by an inclined planar surface. -5GB 281551 B6 Weft feeder according to claim 1, characterized in that the drum (3) is formed by a set of longitudinal radially adjustable arms (7), which are in their outermost external position within a circle (C) centered on the axis of rotation (A) of the winding arm (2), wherein the rod (9) is outside the circle