CZ9900216A3 - Apparatus for controlling blowing nozzles of air-jet weaving machine - Google Patents

Abstract

Control unit for auxiliary jets (10) of a pneumatic weaving machine comprising a batten (2) coupled with a main drive and having situated thereon a reed (3) with a direct pick channel (4) provided in said reed (3) and having an open side oriented towards a batten line (5), the auxiliary jets (10) being arranged on the weaving machine batten (2) adjustably in relation to the pick channel (4) and adapted to take up the beat-up position of the auxiliary jets (10) and the pick position of the auxiliary jets (10). The auxiliary jets (10) are coupled with an auxiliary drive (11) separated from the main shaft of the weaving machine. <IMAGE>

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to an apparatus for controlling the blowing nozzles of an air weaving machine, which comprises a bidlen coupled to the main drive of the weaving machine, on which a weaving beam is arranged, in which a direct picking channel is formed. mounted on the weaving machine of the weaving machine, adjustably with respect to the picking channel, being able to assume the stroke position of the blowing nozzles and the swapping position of the blowing nozzles.

BACKGROUND OF THE INVENTION

In known air weaving machines comprising a cane weaving beam in which a direct opening channel with an open profile facing its opening to the point of thrust is formed, for example according to CS 249658, the blowing nozzles are mounted firmly on the batten in front of the weaving beam. the outflow openings are located at a small distance in front of the downstream front of the fabric by the projecting tooth of the weaving beam. This forwardly projecting lower tooth of the weaving beam and the positioning position of the inflating nozzles are progressively displaced from the shed through the lower warp threads during the stroke of the bidlen and take the position below the edge of the fabric to be formed. A disadvantage of the above-described arrangement of the blowing nozzles and the weaving channel is to influence the auxiliary air streams flowing out of the blowing nozzles as a result of bypassing the lower projecting weaving tooth so that some of the air from each The air flow to the weft is small, which reduces the reliability of weft clogging.

Another known device according to CZ 213078 also comprises a weaving beam with a direct picking channel with an open profile directed towards its location by its opening

A-PS321MCZ ι ¹ ι stroke. The blowing nozzles are mounted on the bidlen adjustable in the direction of their longitudinal axis, so that in the porous position the blowing nozzles are ejected by their end portion with the outlet openings before opening the picking channel and are pushed in front of the picking tooth lower position. The retractable reciprocating movement of the blowing nozzles is synchronous with the reciprocating movement of the picking channel and is controlled by mechanisms coupled to the main shaft of the weaving machine. Although the blower nozzles can be adjusted relative to the picking channel so that the position of the outlet opening and the direction of the auxiliary air axis ensures good momentum of the auxiliary air jet to escape, this setting applies only when the two mechanisms are relatively stationary. upper dead center. Beyond this moment, the efficiency of the auxiliary air jets is variable and, in actual use on a weaving machine, even in this solution the transfer of the momentum of the auxiliary jets to the weft is not sufficient.

It is therefore an object of the present invention to provide a device for controlling the air jet weaving nozzles with a high momentum transfer of the auxiliary air streams from the weaving nozzles to the weft moving in the picking channel during picking.

SUMMARY OF THE INVENTION

The object of the invention is achieved by a device for controlling the blowing nozzles of an air weaving machine according to the invention, characterized in that the blowing nozzles are coupled with an additional drive separate from the main shaft of the weaving machine.

The advantage of this solution is the independence of the movement of the blowing nozzles relative to the picking channel of the weaving machine on the movement of the main shaft of the weaving machine and consequently the possibility of keeping the blowing nozzles in optimal position relative to the picking channel during the weft picking .

In order to simplify the construction of the device, it is advantageous if the auxiliary drive is common to all the blowing nozzles.

f ~ PS3204GZf

The blowing nozzles are preferably mounted on a pendulum shaft, which is mounted on the loom of the weaving machine and coupled to the auxiliary drive. The swinging shaft coupled with the auxiliary drive ensures the movement of the blowing nozzles relative to the picking channel.

In this case, it is advantageous if the blowing nozzles are mounted on a support rail which is fastened by means of gladiators to the swing shaft.

To optimize the path of the blower nozzles relative to the other parts of the weaving machine, the swing shaft is mounted on the back of the bidlen, with the gladioles passing through the cutouts in the bidlen into the space in front of the bidlen, where the support bar with the blowers is mounted.

For some designs of weaving machines, it is advantageous if the pendulum shaft is mounted on the front side of the batten.

In terms of the design of the air weaving machine, the auxiliary drive is mounted coaxially with the bidlen, or it may be coaxial with the pendulum shaft, or the auxiliary drive is mounted on the weaving frame and coupled to the pendulum shaft in a suitable manner.

For all embodiments it is advantageous if the auxiliary drive is a servomotor or a stepper motor.

Overview of the drawings

1 shows an axonometric view of a loom of a weaving machine with a weaving jet and blowing nozzles mounted on a pendulum shaft coupled with an auxiliary drive separate from the main shaft of the weaving machine, FIG. 2 Fig. 3 shows the arrangement of the auxiliary drive mounted on the bidena coaxial with the pendulum shaft and Fig. 4 shows the arrangement of the auxiliary drive mounted on the machine frame coaxial with the bidlen. .

/ PS3204CZ /

DETAILED DESCRIPTION OF THE INVENTION

The invention will be described on a known air weaving machine, of which only those parts which are related to the actuation of the inflating nozzles of the air weaving machine will be described.

The air weaving machine comprises a frame 1 in which the bidlen shaft 21 is mounted in a known manner on which the bidlen 2 is fixedly mounted. 2, a well-known weaving beam 3 is fixed, in the lamellas of which a straight picking channel 4 is formed in a known manner, the open side of which is directed towards the striking line 5 of the fabric 51.

At least two brackets 6 are mounted on the bidlen 2, in which the pendulum shaft 7 is mounted in a known manner by means of bearings and is mounted on the rear side of the bidlen 2, i.e. on the side facing away from the stroke line 5. the swords 8 are fixed, which pass through the slots 22, 23 in the bidlen 2 into the space in front of the front of the bidlen 2, where the support strips 9 are fixed thereon. The inflatable nozzles 10 are fastened to the support strips 9 which are connected in a known manner, for example by means of tubing (not shown), to a compressed air distribution system.

The particular embodiments of the brackets 6, their number, the dimensions of the pendulum shaft 7 or the number and dimensions of the gladiolus 8 are not subject of the invention, they differ according to the chosen technical solution and depend in particular on the magnitude of dynamic forces. The axis of rotation of the pendulum shaft 7 is below the weaving plane 52 in all possible embodiments and its specific position can be determined by calculation to allow the necessary path 102 of absolute movement of the orifices 101 of the blowing nozzles 10 at a technologically acceptable angular velocity ωυ. and angular velocities η i of the relative movement of the pendulum shaft 7.

In the embodiment of FIG. 1, at one end of the pendulum shaft 7 is a secondary drive pulley 71, which is wrapped with a secondary toothed belt 72, which is coupled to a secondary drive pulley 73, which is freely rotatably mounted in a known manner. At the same time, the primary drive pulley 74, which is coupled to the secondary drive pulley 73 in a known manner, provides slip-free transmission of torque from the primary drive pulley 74 to the secondary drive pulley 73 regardless of The primary driven pulley 74 is wrapped with a primary toothed belt 75 coupled to the primary drive pulley 76 mounted on the shaft 111 of the auxiliary drive ti, which is rigidly mounted on the frame 1 of the weaving machine and which in the illustrated embodiment is a servomotor. . The additional drive tt is separate from the main shaft of the weaving machine and is therefore independent of the main drive of the weaving machine. In order to reduce the effect of the twisting of the pendulum shaft 7, a second servomotor (not shown) can be coupled to the other end of the pendulum shaft 7, the movement of the servomotors 7 being synchronized.

In the embodiment according to FIG. 3, the shaft 111 of the auxiliary drive 11 is mounted coaxially with the pendulum shaft 7, with which it is connected in some known manner to ensure slip-free transmission of torque from the auxiliary drive t1 to the pivot shaft 7. mounted on the biden 2 of the loom. Also in this embodiment, synchronized auxiliary drives can be assigned to both ends of the pendulum shaft 7.

In the embodiment of FIG. 4, the auxiliary drive 11 is mounted on the frame 1 of the weaving machine and the shaft 111 of the auxiliary drive 11 is coaxial with the shaft 21 of the bidlen 2, the bidlen shaft 21 being coupled to the main drive of the weaving machine. .

In the illustrated embodiment, the auxiliary drive shaft 111 is rotatably mounted in the bidlen 2 by means of a bearing 24. The auxiliary drive shaft 111 is rotatable independently of the rotation of the biden shaft 21. A auxiliary drive pulley 761 is fastened to the auxiliary drive shaft 111, 751 by which it is coupled to a driven pulley 711 which is fixed at the end of the rocker shaft 7.

ý-ps32aiez /

The invention is not limited to the described embodiments, but also includes equivalents and modifications thereof in which the rocker shaft can be mounted in the cavity of the bidlen or at the front thereof.

According to an exemplary embodiment (not shown), the blowing nozzles are mounted in the direction of their longitudinal axis in the direction of their longitudinal axis and are coupled to a mechanism for reciprocating linear movement, the mechanism being coupled to at least one servomotor or other auxiliary drive separated from the main shaft.

In an alternative embodiment of this solution, each inflating nozzle is coupled to an individual drive and the additional drive is thus a set of synchronized individual drives.

In all alternative embodiments, the additional drive t 1 may be a servomotor, a stepper motor or other suitable drive separate from the main shaft of the weaving machine.

During the weaving process, the bidlen shaft 21 is coupled to the main machine drive (not shown) in a known manner, for example by a cam or articulated mechanism, and performs a reciprocating rotary motion characterized by the angular velocity of the bidlen 2 carrier. The beam 3 and the pendulum shaft 7. The bidlen 2, the weaving beam 3 and the pendulum shaft 7 occupy the swiveling position A1 and the punching position B1 at the dead center during weaving as shown in Fig. 2. therefore, an additional reciprocating rotational movement, characterized by an angular velocity tog of the relative movement of the pendulum shaft 7, wherein the parts mounted thereon, i.e. the gladiolus 8, the support bar 9 and the blowing nozzles 10, move with the pivot shaft 7. during weaving, a reciprocating movement consisting of the reciprocating rotational movement of the pendulum 2, which causes the pendulum shaft 7 to be carried, and the additional reciprocating rotational movement of the pendulum shaft 7. In the picking position A1 of the weaving beam 3, the blowing nozzles 10 are 4 of the weaving beam 3 and are in their picking position A2. The warp threads (PS3231CZ-) form a shed in a known manner. In the first phase of movement of the weaving beam 3 from the picking position A1 to the stroke position B1, which is caused by the forward rotational movement of the shaft 21 of the bidlen 2, the auxiliary drive 11 remains stationary, the blowing nozzles 10 are carried by the bidlen 2 and channel 4 of the weave 3 has the same relative position as in the switching position A1, A2. which will hereinafter be referred to as the optimum position A21 of the blowing nozzles 10 relative to the picking channel 4.

Only in the final phase of the movement of the weaving beam 3 from the swiveling position A1 to the stroke position B1 is the auxiliary drive 11 activated which starts to rotate the rocking shaft 7 forward, whereby the swelling nozzles 9 start to swing. 10 and move the additional forward rotational movement and the outflow openings 101 of the blowing nozzles 10 begin to move away from the picking channel 4 of the weaving beam 3, thereby freeing the space in front of the picking channel 4 to open the weft into the punching line 5. plane 52 and assume their stroke position B2.

During the backward rotation of the shaft 21 of the batten 2, the weaving beam 3 moves from the stroke position B1 to the swap position A1 and the auxiliary drive 11 of the pendulum shaft 7 is also reversed, so that the blowing nozzles 10 begin to approach their open side The optimized position A21 relative to the picking channel 4 reaches the blowing nozzle 10 before the weaving beam 3 and the blowing nozzles 10 reach their picking positions A1, A2.

As a result of the independent additional reciprocating movement of the blowing nozzles 10, the blowing nozzles 10 remain in their optimum position A21 relative to the picking channel 4 of the weaving jet 3 for a specified portion of the weaving cycle during which the weft picking takes place.

Claims (10)

PATENT CLAIMS (7) Apparatus for controlling the blowing nozzles (air weaving machine), which comprises a bidlen coupled to the main drive of the weaving machine, on which a weaving beam is disposed, in which a direct picking channel is formed whose open side (57) wherein the blowing nozzles are mounted on the weaving machine -. adjustable on the loom of the weaving machine with respect to the picking channel, 4 being able to assume a blow-in position of the blowing nozzles / and a swiveling position of the blowing nozzles, characterized in that the blowing nozzles (10) are coupled with an additional drive (11) separated from the main weaving machine shafts. Device according to claim 1, characterized in that the auxiliary drive (11) is common to all the blowing nozzles (10). Apparatus according to claim 2, characterized in that the blowing nozzles (10) are mounted on a rocker shaft (7). Apparatus according to claim 3, characterized in that the blowing nozzles (10) are mounted on a support bar (9) which is mounted on swords (8) mounted on the rocker shaft (7). Apparatus according to claim 4, characterized in that the rocker shaft (7) is mounted on the rear side of the bidlen (2), the gladioles (8) passing through the slots (22, 23) in the bidlen (2) into the space in front of the front of the bidlen (2), where a support bar (9) with blowing nozzles (10) is mounted on the swords (8). Device according to claim 4, characterized in that the rocker shaft (7) is mounted on the front side of the bidlen (2). >? SS £ 01GZ- / Device according to one of Claims 3 to 6, characterized in that the auxiliary drive (11) is mounted coaxially with the bidlen (2). Device according to Claims 3 to 7, characterized in that the auxiliary drive (11) is mounted coaxially with the pendulum shaft (7). Apparatus according to claims 3 to 7, characterized in that the auxiliary drive (11) is mounted on the frame (1) of the weaving machine, and is coupled to the pendulum shaft (7) by means of a guide mounted coaxially with the bidlen (2). Device according to one of claims 1 to 9, characterized in that the auxiliary drive (11) is a servomotor or a stepper motor.