KR0139908B1 - Weft Feeding Device for Fluid Jet Weaving Machine - Google Patents

Abstract

Combining live yarn at the outlet of the weft feeder in a measuring weft feeder for a fluid jet weaving machine having a moving core of ferromagnetic material subjected to a return spring and a coil and an electromagnetism stopper having at least one electromagnet coil Move between the discharge pause position and the projected green stop position to stop, the end of the rod is located in a cavity formed on the drum outer periphery adjacent the free end, and the movable core of the production stop device is axially in the hollow portion of the head Formed with a cylindrical rod of ceramic material and a cylindrical hollow head of ferromagnetic material, the outer surface of the rod and the inner surface of the hollow head being provided with grooves along their perimeter, and the remaining hollow portion between the head and the rod is It is filled with a plastic material that is press-injected to prevent the rod from inside. According to the invention, the ends of the rods of the live-stopping device located along the generator base line of the drum are inclined such that the walls of the drum cavity therein are wide open to the outside.

Description

Weft Feeder for Fluid Jet Looms

1 is a side view of a weft feeder for measurement improved in accordance with the present invention;

2 is a cross-sectional view of an electromagnetic weft stop device for the weft supply device.

3 is a cross-sectional partial cross-sectional view of the movable core according to the invention for use with the electromagnetic weft stop device shown in FIG.

4 is a front view as seen from the outlet end of the weft supply device shown in FIG.

FIG. 5 is an end view of the weft feeder drum of FIG. 1 shown in the weft feeder direction. FIG.

6 is a perspective view of the scale seen from the outlet end of the weft supply device according to the invention.

* Explanation of symbols for main parts of the drawings

1: electric motor 2: winding arm

3: drum 4: weft

6: sensor 8: electromagnetic device

10: Joint 14: Spring

15: head 21, 22: head wall

The present invention relates to an improvement of a weft feed device for a fluid jet loom known as a weft feed device for measurement which is suitable for measuring the weft length to be inserted into the shed of the loom.

As is known, this type of weft supply device has an electric motor which causes the winding arm to rotate, and a stop around which the arm winds the weft with an even number of turns and forms a weft of length controlled by a suitable sensor. A drum is provided. Loom nozzles provided to launch the weft yarn in the warp shed draw the weft length required for each weft insertion from the weft feeder drum. The length is measured and controlled by a weft feeder that counts the number of turns to be displaced by appropriate means. As soon as the weft of the weft feeder outlet projected into the loom shed reaches a predetermined length, it is stopped on the drum by a device with a rod that properly engages the weft at the outlet of the feeder, the rod being dismantled from the drum when It is movable between a retracted and retracted stop position where the end of the rod moves into a cavity formed for this purpose on the drum periphery adjacent to the free end to engage and stop the weft thread. Preferably, the weft stop device is an electromagnetic device, wherein the rod is made of a ferromagnetic material which is counteracted by a return spring and at least an electromagnetic coil which alternately moves into the protruding weft stop position and the retracted stop position. Protrudes from a movable core having a fixed head.

The present invention relates to an improvement on the cavity formed on the electromagnetic weft stop device and the drum periphery to improve the performance of the weft feed device.

While the weft feed device is in operation, the constant friction of the weft against the rod of the electromagnetic stop device causes the constant friction of the weft to form grooves and / or cuts that make the device no longer usable after a short period of use. Causing wear of the rod within. To date, several attempts have been made to overcome these shortcomings by making rods of stop devices made of a material (always a metal material) suitable to withstand this wear action as long as possible. These rods were made of low wear resistant materials but were surface treated or coated to have adequate wear resistance. However, such a solution did not provide satisfactory results.

The present invention solves this problem by using a novel method, i.e., a rod made of a ceramic material suitably fixed to the ferromagnetic core of the device.

More precisely, according to the present invention, the electromagnetic stop device in the weft feed device mounted inside the housing is configured to move the weft stop rod extending in the longitudinal direction alternately between the protruding weft stop device and the retracted stop position. At least one electromagnetic coil and a return spring and a movable coil made of ferromagnetic material subjected to the opposing action of the coil, the movable coil into a substantially cylindrical hollow head made of ferromagnetic material and into the hollow portion of the head. It is formed from a cylindrical rod made of ceramic material located in the longitudinal axis, and the outer surface of the rod and the inner surface of the hollow head are provided with grooves along their directrices and the remaining hollow between the head and the rod. A portion is hydraulically sprayed to block entry of the rod into the head. It is to be filled with the stick material to its features.

Suitably, the grooves of the rod and the hollow head do not coincide when mounting two parts of the movable core, and the protruding free ends of the rod are rounded in shape.

It is appropriate to improve the cavity shape on the drum periphery that accommodates the ends of the weft stop rods by using a device formed in this way which has many advantages but has the inconvenience of using a weak rod that breaks easily under bending stress, in particular an impact stress. Done.

It should be borne in mind that the electromagnetic weft stop device can be manufactured with two different theories: a rod of stop position retracted into the device and a rod of stop position projecting from the device and engaging into a cavity provided in the drum.

This second arrangement (where the rod normally protrudes from the device) is particularly good when employing an electromagnetic stop device with a single magnet in that the stop of the weft is ensured even when the device is not in operation.

According to the state-of-the-art technology as described above, the drum in which the weft yarn is wound around it is mounted stationarily on the motor shaft (usually opposed to the other magnet fixed on the main body of the weft feeder for measurement). Rotation is prevented by a magnetic field generated by a permanent magnet fixed to it.

This arrangement of the structure rotates the drum under the action of a suitable external force, and in fact the rotation is of its extension length, i.e., when a weft feed device is installed or used by its operation, or when a drum having a variable diameter is used. It may also occur in the form of normal vibrations when manipulating the weft feeder drum to change the weft length wound on the phase.

Obviously, during the rotation or vibration of the drum, the rod of the electromagnetic stop can hit the wall of the cavity in which its end is embedded, which in turn damages the rod and the wall. (If the rod is weak as in the present invention, it is easy to break.)

According to the invention, this minor and cumbersome drawback is overcome by forming a wall of the drum cavity which is inclined to open wide outwardly, ie located along the drum's generating line.

The present invention will be described in detail with reference to the accompanying drawings which show preferred embodiments of the invention.

The measuring weft supply device for supplying the weft yarn to the fluid jet loom has an even number forming the electric motor 1 for generating the rotation of the winding arm 2 and the weft storage section 5 controlled by the sensor 6. With a fixed drum 3 in which the weft yarn 4 is wound around it by the drum 2 in turns, the length of the winding being radial in the column 7 which can change the diameter of the drum 3. It can be adjusted by changing the position. In these measuring weft supply devices, the weft yarn 4 supplied to the loom is stopped after a predetermined length is recovered from the loom nozzle, and this operation is performed by the rod 9 moving into the protruding position and the drum adjacent to the free end thereof. It is achieved by the electromagnetic device 8 when it is introduced into the cavity 10 provided on the periphery of (3) and thereby engages and stops the weft yarn 4.

An electromagnetic weft stop device is shown in FIG. The apparatus 8 is provided with a main body 11 fixed to a measuring weft supply device for embedding an electromagnetic coil 12, a movable core 13, and a spring 14. The device 8 may additionally comprise one or more coils, the configuration of which may differ from that shown.

In the apparatus 8 shown in FIG. 2, the coil 12 acts to hold the rod 9 of the core in the protruding weft stop position into the cavity 10 of the drum 3. In contrast to the action of), the movable core 13 is retracted to the stop position. The spring is designed to hold the movable core in the rest position, while an electromagnetic coil may be provided with the rod 9 protruding into the drum cavity to move the core to the acting position.

3 shows in detail the movable core 13 of the electromagnetic weft stop device 8 according to the invention. The core 13 has a substantially cylindrical hollow head 15 made of ferromagnetic material to facilitate response to the action of the electromagnetic coil 12, and a large protruding block from the head 15 in the longitudinal direction. It consists of a rod 9 made of a wear resistant ceramic material.

According to the invention, the ceramic rod 9 is fixedly connected to the head 15 which is sealed by spraying a suitable synthetic plastic material 16 into the hollow portion between the head and the rod. To make this connection stronger, the outer surface of the rod 9 and the inside of the head 15 to form a cut through the injected plastic material and to significantly improve the gripping between the head 15 and the rod 9. Grooves 17, 17A and 18, 18A are formed in the plane, respectively.

The two grooves 17 and 17A formed on the rod portion embedded inside the head 15 are arranged so as not to coincide with the grooves 18 and 18A of the head and to be offset in the longitudinal axis direction. The protruding free end of the rod 9 has a rounded tip to ensure rapid detachment from the weft thread 4 when the movable core 13 is retracted by the coil 12 of the device 8 to the rest position. And weft 4 must be fed back to the loom for new insertion.

As is known in the weaving art, ceramic materials are particularly resistant to wear caused by the friction of the wefts sliding on narrow surfaces, making it difficult to fix them into the head of the ferromagnetic material, forming the movable core of the device. The rod 9 made of a ceramic material that has not been used to make it significantly improves the reliability and durability of the weft stop device of the present invention using the rod with respect to the conventional weft stop device. Moreover, the rigid and secure fixing of the rod 9 in the head 15 as achieved by the present invention prevents any damage that may occur to mechanically weak materials such as ceramics by vibrations and possible impacts. Such fastening can most effectively counteract the effect of large inertia forces determined by the large speed of the movable core, which may cause the rod to fall out of the core.

4 to 6 show the rod 9 passing through the cavity 10 provided on the drum 3 and the weft feed device 8 in the operating position.

According to the present invention, a cavity 10 formed of a wide slit perpendicular to the axis of the drum 3 along the line of the cylindrical surface is located along the head wall located along the generating line of the drum, which faces outwardly and is substantially inclined ( 21, 22). The walls may suitably be composed of simply inclined flat surfaces as in the embodiment shown in the figures, but they may also be composed of other similar inclined surfaces having one or more curvatures.

By using a cavity 10 having the above-described characteristics, the end of the rod 9 when the drum 3 rotates about its axis (indicated by A in the figure) is the component force in the direction along the axis of the rod 9. Contact with one of the two inclined walls 21, 22 of the cavity 10, which generates. The component force causes the rod 9 to rise, which is facilitated by the smooth contact of the inclined wall with the rounded tip.

Therefore, the wall of the cavity 10 not only prevents rotation of the drum 3 but also prevents rotation of the drum 3 in that there is a gradual sliding contact that protects the integrity of the rod 9 and the cavity 10 instead of the impact. Ensure that the end of 9) is not damaged.

The shape of the other part of the drum 3 can be rotated completely about the axis, and the adjustable column 7 actually falls inside the circle C centered on A even in its maximum extended position, while the rod ( The free end of 9) remains outside of circle C, even when in the protruding position from each device 8, avoiding the possibility of impact on the adjustable column 7.

These properties ultimately significantly increase the reproducibility of the weft feed device and prevent the device from being used improperly, thereby providing an electromagnetic weft stop device with a weak rod, such as, for example, a ceramic rod. It helps solve the problem of facts being considered more serious and the problems that users and loom designers feel more.

Claims (6)

An electric motor for generating rotation of the winding arm, a fixed-supported drum around which the winding arm winds the weft yarn in even number of turns so as to form a weft storage portion whose length is controlled by an appropriate sensor, and a weft stop rod The weft stop rod suitable for engaging and stopping the weft at the outlet of the weft feed device between the protruding weft stop position and the retracted stop position located in the cavity formed on the periphery of the drum adjacent to the free end. Weft length inserted into the loom shed (measuring weft feeder), comprising an electromagnetic weft stop device having a moving core made of ferromagnetic material subjected to the opposite action of the return spring and the coil and at least one electromagnetic coil. In the weft supply device for a fluid jet loom of the form easy to measure, The movable core of the yarn stop device is formed of a substantially cylindrical hollow head made of ferromagnetic material and a cylindrical rod made of ceramic located longitudinally in the hollow portion of the head, the outer surface of the rod and the inside of the hollow head. The face is provided with grooves along their perimeter, and the remaining hollow portion between the head and the rod is filled with a plastic material that is pressurized to prevent entry of the rod into the head. Weft feeder. The weft supply device for a fluid jet loom according to claim 1, wherein the hollow head of the weft stop device and the groove of the rod do not coincide when two parts of the movable core are mounted. The weft supply device for a fluid jet loom of claim 1, wherein the protruding free end of the rod is rounded in shape. The weft feed device for a fluid jet loom according to claim 1, wherein the wall of the drum cavity embedded with the end of the rod of the weft feed device and positioned along the generating line of the drum is inclined to open wide and spaced outward. 5. The weft supply device for a fluid jet loom according to claim 4, wherein said inclined wall of the drum cavity containing the end of the rod of the weft stop device is an inclined flat surface. 5. A drum according to claim 4, comprising a drum having a column that protrudes adjustablely from the cylindrical body, wherein in the maximum protruding position the column belongs to an interior of a circle about which the drum axis of rotation is centered. A weft supply device for a fluid jet loom, which is always kept outside of the circle.