CS257030B1 - Contro device for weft yarn before a picking nozzle clamped on a batten of pneumatic weaving machines - Google Patents

Abstract

The aim of the solution is to throw the weft thread for air weaving machines with profile beam or active confusor to remove weft yarns. It comes mainly to him for heavier weft types or for larger working widths of weaving machines. The target is reached by the swing arm, stored on the device holder. Between the swinging arm and the adjustable projection is formed flexible bond, allowing voltage regulation in the weft thread by the flying weft itself the time of each cast. To improve contact with a weft thread, the swing arm is provided with a guide eye whose axis is parallel with the main picking nozzle axis. For dissipation The shock energy is the swing arm with a flexible damping element.

Description

BACKGROUND OF THE INVENTION The present invention relates to the operation of a weft thread in an air weaving machine by a profile beam or an active confuser, in particular between a metering and a main picking nozzle.

In profile weaving machines with an active beam or active confuser, the possibility of arresting hardening occurs when wefts with a larger metric number or larger picking widths are used. free weft. The auxiliary inflating nozzles on the range side no longer sufficiently tension the flying weft, especially on the pick nozzle side, so that especially in these places the weft is wavy, which in this form is then clamped by crossing the warp yarns and thereby arresting the free weft. This problem is solved, for example, according to EP 155 431 by providing a bending means between the metering device and the main picking nozzle having two fixed levers and a third movable lever interposed therebetween to form a loop at the moment before the weft thread picking is completed.

By forming a loop, the weft yarn pulls in the opposite direction to the picking direction, thereby eliminating the weft of the flying weft, particularly in the part of the picking channel facing the main picking nozzle where the wave is the largest. The movement and timing of the lever movement is derived from the cam mechanism.

Another known device that compensates for the weft tension during picking in air-weaving machines with a movable main nozzle, the compensation lever is actuated by the same mechanical means, i.e. a cam mechanism. The loop formed by the compensating lever in the weft path is then released in parallel with the movement of the picking nozzle, thereby compensating for the weft tension resulting from the weft switching as the main nozzle moves into the stroke.

The disadvantage of both solutions is the complexity of the device, the difficulty of manufacturing the cam mechanism and thus the higher production costs of the entire device. A further disadvantage of these solutions is that the loop formation in the weft path is due to the cam path and the eventual unevenness in the weft tension, which may arise due to heterogeneity or different weft elasticity in the individual pickings.

These drawbacks are overcome by the weft yarn control device in front of the picking nozzle mounted on the air loom of the weaving machine and downstream of the weaving machine metering device. The principle of the weft control device according to the invention, consisting of a rocker arm mounted on a holder in a plane transverse to the pick axis, is that the rocker arm is connected by means of a spring member, in this case a spring, to an adjustable projection on the holder of the device. The elastic coupling thus formed allows the weft tension to be regulated by the flying weft itself during each pick.

The swing arm may be provided with a guide loop for better contact with the weft thread, the axis of which is preferably parallel to the axis of the main picking nozzle.

Further, the rocker arm in its starting position, determined according to the type of weft thread _; is in contact with a resilient damping element for absorbing the impact energy produced when the weft thread is cut. This damping element is located between the pivot arm and the adjustable projection.

By designing the device according to the invention, the weft yarn undulations caused by uneven tension in the weft yarn during the picking time are eliminated, thereby improving the fabric quality. Another advantage is that the weft tension compensation is adapted according to the given weft picking characteristic. The device is able to eliminate any differences between individual pickings, which are caused by the weft homogeneity. Another advantage of the device according to the invention is its simplicity of construction, low production costs and reliable operation.

In the accompanying drawing, FIG. 1 shows schematically the operation of the weft thread between the metering device and the main nozzle arranged on the bidlen. FIG. 2 shows a side view of the device according to the invention; and FIG. 3 shows a top view of the device.

On a rod (not shown) connected to the weaving machine frame, a holder 6 is mounted between the metering knob 9 and the main picking nozzle 8, which has an adjustable projection 5 on one side and a swinging arm L on the opposite side. several holes are provided on the rocker arm 1 for fine adjustment of the preload.

In the rocker arm 1 a weft thread guide eye 6 is inserted. The swivel arm holder 6 is mounted such that the swivel plane of the swivel arm 7 is transverse to the pick axis in line with the main nozzle axis 14 The weft thread 7 is guided from the metering device 9 through the guide eyelet 9 in the swivel arm K parallel to the axis 14 of the picking nozzle 8 so that the path of the weft thread 7 is broken during each revolution of the main shaft of the air loom. The rocker arm 1 is in its initial position in contact with a resilient damping element 13, for example made of rubber mounted on a holder 6 between the rocker arm 2 and the adjustable projection 5.

Due to the air flow in the main picking nozzle 13 operated by the valve (not shown here), a shock to the weft thread occurs at the beginning of the picking. The fractured course of the weft yarn and the elastic bond formed by the spring 2 substantially reduce the impact effect of the air flow on the starting weft yarn. This reduces the degree of damage to the capillaries, especially for sensitive types of weft threads. During the picking itself, especially when the weft reaches, when the weft speed decreases sharply, especially in heavier types of weft or larger pick widths, uneven speed distribution along the length of the weft occurs. Due to these differences in the weft velocity, an uneven distribution of the weft tension will occur, which will also be reflected in the shape of the weft in the picking channel, ie, a wave will occur.

Since the rocker arm 7 is in constant contact with the weft 7 to be swapped, due to the elastic bond 3, these unevennesses are compensated and the weft picking becomes quieter, which has the effect of improving the fabric quality. After cutting the weft yarn 7, due to the elastic bond, these unevennesses are compensated and the weft pick becomes quieter, which has the effect of improving the fabric quality. After cutting the weft yarn 7 by the cutting device 10 located between the bidlen 12 and the profile beam 11, the weft arm 7 stops acting on the swing arm 7 and the swing arm 7 is returned to the starting position by the spring 3, the shock energy of the swing arm 7 being absorbed by the damping element 13 and the end of the weft thread itself is drawn into the main picking nozzle jk

This prevents the loose end of the weft from collapsing into coils or nodules during subsequent swapping, and the conditions of underrunning are not created by trapping the coils on the closing shed.

The weft yarn control device according to the invention can be used in all air weaving machines where the picking channel is formed by a profile beam and blowing nozzles or in air weaving machines with a picking channel formed by an active confuser.

Claims (3)

SUBJECT OF THE INVENTION A device for operating a weft yarn in front of a picking nozzle mounted on the air loom and after the metering device and associated magazine means comprising a rocker arm mounted on a holder in a plane transverse to the picking axis, characterized in that the rocker arm (1) it is connected by a spring member, for example a spring (3), to an adjustable projection (5) mounted on the device holder (6). Device for operating the weft yarn in front of the picking nozzle according to claim 1, characterized in that the swing arm (1) is provided with a guide eye (4) for the weft yarn (7) whose axis (15) is parallel to the picking axis (14). nozzles (8). Device for operating the weft yarn in front of the picking nozzle according to claim 1 or 2, characterized in that the swing arm (1) in its initial position is in contact with a flexible damping element (13) which is mounted on the device holder (6) between the pin. (2) swingarm (1) with adjustable projection (5).