CZ11083U1 - A device for two-sided weft picking - Google Patents

Description

Equipment for weft picking on both sides

Technical field

The technical solution relates to a device for double-sided weft insertion by a profile beam on air-weaving looms.

BACKGROUND OF THE INVENTION

At present, devices are known which enable the weft to be wiped by a stream of compressed air from one side, which, in addition to many advantages, presents some problems. One of them is the high concentration of functional knots in a small space on the entrance side of the pick, especially in multicolored weaving. Here, it is very problematic to direct the mouth of the main nozzles into a relatively small channel in the profile beam. Another serious problem is the heterogeneity of the physico-mechanical properties of fabrics, especially of glass silk for electrical purposes. The non-uniformity of the fabric properties is manifested in particular by the fact that the fabric at the main nozzle is formed by a portion of the weft which is more stretched than the weft portion at the range side. This results in different fabric formation resulting in loosening of a portion of the fabric on the range side.

The essence of the technical solution

These drawbacks are eliminated by the device for double-sided weft insertion through the air stream through the cane profile beam according to the present invention. The device consists of transducers, main nozzles, tensioning nozzles, shearing devices, control sensors and control system. The principle of the present invention is that the main nozzles of the tensioning nozzle, the metering devices, the shearing device and the weft presence sensors are located symmetrically on both sides of the profile beam, along whose channel the auxiliary nozzles for weft picking from the left side of the profile beam and the auxiliary nozzles for weft picking from the right side of the profile beam connected to the control system, for alternately supplying the auxiliary nozzles with a pressurized medium, the profile beam being formed by canes having alternately inclined bevels in the channel region relative to the longitudinal axis of the channel.

The advantage of the device is that it allows to practically double the range of multicolored weaving. The alternate bevels of the cane from the left and right sides ensure the flow of air coming out of the holes in the auxiliary nozzles longitudinally through the channel.

Advantageously, the inclination angle of the bevel relative to the longitudinal axis of the channel is selected from an interval of <1 ° to 5 °>. At this angle, trouble-free passage of the weft through the channel of the profile beam is reliably ensured by directing the air flow coming from the holes in the auxiliary nozzles.

Another advantageous embodiment of the device is characterized in that the device according to the invention has a control system equipped with a distribution unit, the switching circuits of said distribution unit being included between the control system outputs and auxiliary nozzle solenoid valves and provided with an input for weft presence sensors. The advantage here is the possibility of assigning the individual transducers and all the solenoid valves of the nozzles to the respective picking direction by both hardware settings and software programming.

In a further preferred embodiment of the device, the control system is provided with two independent freely programmable pick-up control circuits from two directions. The weaving process proceeds according to the order of swaps given by the control system program.

Advantageously, the device is arranged so that openings for withdrawing the cut weft into the collecting container are open in front of the mouth of the tensioning nozzles.

-1 CZ 11083 Ul

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawings, in which Fig. 1 is a general view of the device for double-sided weft insertion, the sides being marked with the letters "A" and "B".

FIG. 2 is a cross-sectional view of a profile beam channel;

Fig. 3 schematically illustrates the connection of the distribution unit to the control system.

Examples of technical solution

As can be seen from FIG. 1, the picking means namely the main nozzles 3a, 3b, the metering devices 1a, Lb, the shearing device 4a, 4b and the tensioning nozzles 5a, 5b with the weft presence sensors 7a, 7b are distributed symmetrically on the sides "A" and "B", in the direction of the longitudinal axis of the profile beam 8, wherein the auxiliary nozzles 6a, 6b supplied with compressed air from the solenoid valves 11a, 11b are distributed alternately over the width of the profile beam 8. The main nozzles 3a, 3b are connected to the solenoid valves 12a. 12b and tensioning nozzles 5a, 5b for solenoid valves 13a. 13b. The tensioning nozzles 5b with the weft presence sensors 7b located on the side "B" cooperate with the picking means from the side "A" and vice versa. Collecting containers 9a, 9b are connected to the tensioning nozzles 5a, 5b. FIG. 2 shows a cross-section along the line a-a of the channel 10 of the profile beam 8. The profile beam 8 is formed by canes 14,14 'which are provided with alternately inclined bevels 15 in the region of the channel 10 relative to the longitudinal axis of the channel 10.

Control system 100 instructs to swap from side A, metering 1a, thereby commanding the preparation and activation of solenoid valve 12a and main nozzle 3a, solenoid valves Ha, auxiliary nozzles 6a, solenoid valve 13b, tension nozzle 5b with sensor 7b. The weft 2 is released from the transducer 1 by compressed air through the main nozzle 3a and the auxiliary nozzles 6a through the channel 10 in the profile beam 8 to the side "B" where it is controlled by the weft presence sensor 7b and captured into the tensioning nozzle 5b. The swapped weft 2 is conveyed by a profile beam 8 to a punch to the fabric face and cut on both sides by a cutting device 4a and 4b. The cut-off end of the weft 2, trapped in the tensioning nozzle 5b, is introduced into the collecting container 9b by the flowing air. The end of the weft 2 cut off at the main nozzle 3a is stabilized in the main nozzle 3a by a continuous flow of air. The weft presence sensor 7b in this case commands the weaving process to continue, unless the weft 2 passes the weft presence sensor 7b, then the control system 100 commands the machine to be stopped. This is followed by the swap from side B, the metering lb, which proceeds in the same way as the swap from side A, with the difference that the metering lb and the solenoid valves 12b of the main nozzle 3b, the solenoid valves 1b of the auxiliary nozzles 6b, nozzle 5b and weft presence sensor 7a 2. In the case that weft sweep 2 from side "B" is evaluated as successful, the sweep from side "A" follows, etc.

The change in the direction of weft picking 2 is preferably solved by adding control system 100 to distribution unit 101 according to FIG. 3 to which the range sensors 102 are connected. The switching circuits of control system 100 of this distribution unit 101 are interposed between control system 100 outputs and solenoid valves 11a. 1b of the individual auxiliary nozzles 6a, 6b and also into the signal path of the weft presence sensors 7a, 7b. At the input of the distribution unit 101, signals are provided for activating the individual transducers ja, jb. The assignment of the individual transducers i, jb and all solenoid valves of the auxiliary nozzles 6b to the respective picking direction can be accomplished by both hardware setup and software programming. The weaving process continues according to the order of swaps given by the program of the control system 100.

Industrial use

The device according to the present technical solution finds use especially in multicolored weaving.

Claims (5)

PROTECTION REQUIREMENTS An apparatus for reversing weft flow through a cane-shaped air jet channel comprising baffles, main nozzles, tensioning nozzles, shearing devices, control sensors and a control system, characterized in that the main nozzles (3a, 3b), tension nozzles ( 5a, 5b), gauges (1a, 1b), shearing device (4a, 4b), weft presence sensors (7a, 7b) are located on both sides of the profile beam (8), along whose channel (10) are alternately positioned auxiliary nozzles (6a) for weft picking (2) from the left side (A) and auxiliary nozzles (6b) for weft picking (2) from the right side (B) connected to the control system (100) The profile beam (8) is formed by canes (14, 14 ') which are provided with alternately inclined bevels (15) in the region of the channel (10) with respect to the longitudinal axis of the channel (10). Device according to claim 1, characterized in that the inclination angle of the bevel (15) is 1 ° to 5 °. Device according to claim 1 or 2, characterized in that the control system (100) is equipped with a distribution unit (101), the switching circuits of this distribution unit (101) being arranged between the outputs of the control system (100) and the solenoid valves (11a). , 11b) of the auxiliary nozzles (6a, 6b) and are provided with an input for a signal from the weft presence sensors (7a, 7b). Device according to claim 1 or 2, characterized in that the control system (100) is equipped with two independent, freely programmable circuits for controlling the pick from two directions. Device according to one of Claims 1, 2, 3 or 4, characterized in that openings for withdrawing the cut weft (2) into the collecting container are in front of the mouth of the tensioning nozzles (5a, 5b).