CS220622B1 - The drive mechanism of the entrainment media of the jet weaving machine - Google Patents

Abstract

The present invention provides a drive for conveying the entrainment medium of a jet weaving machine, wherein the distribution of the entrainment medium is disposed on the pivoting portion of the machine and its drive is derived from the drive provided on the fixed machine part. It is an object of the present invention that the driver of the entrainment medium mounted rotatably parallel to the axis of oscillation of the swiveling part of the machine is provided with a gear wheel which is coupled to the next gear wheel via a freely rotatable intermediate ring. This further gearwheel is mounted rotatably, as well as a timing actuator member, on the swivel portion of the machine and is coupled to one end of the bending gear member, the other end of which is driven to drive on a fixed portion of the weaving machine. In addition to the features of the present invention, there are other possible variants. The invention is intended for use primarily in pneumatic or hydraulic jet weaving machines.

Description

The invention solves the drive of the entrainment medium of the jet weaving machine, where the entrainment medium distribution is mounted on the pivoting part of the machine and its drive is derived from the drive provided on the fixed part of the machine.

It is an object of the invention that the drive member of the entrainment medium mounted rotatable parallel to the pivot axis of the pivoting part of the machine is provided with a gear wheel which is coupled to another gear wheel via a freely rotatable intermediate wheel. The other gear wheel is rotatably mounted, as well as the timing actuator, on the pivotable part of the machine and is connected to one end of the bending gear member, the other end of which is drive-coupled to the drive on the fixed part of the weaving machine. In addition to the above features of the invention, there are other possible variants.

The invention is intended especially for use in pneumatic or hydraulic jet weaving machines.

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The invention relates to an entrainment drive of a jet weaving machine, wherein the entrainment distribution is mounted on a pivotable part of the machine and its drive is derived from a drive mounted on a fixed part of the machine.

In order to clog larger weft lengths on known pneumatic jet weaving machines, the picking channels of these machines are provided with blowing nozzles. This ensures that sufficient tensile force is exerted on the plugged weft as well as its guidance over the entire length of the picking channel. The blowing nozzles are connected via a pressure line to the entrainment medium distribution, which for reasons of economy dispenses the entrainment medium to the blowing nozzles only at the moment of weft insertion, depending on its progress through the picking channel. In this case, it is desirable that the length or the length of the pipe is approx. the internal pressure of the pressure line between the entrainment medium distribution and the blowing nozzles was as small as possible, since after the end of the entrainment of the entrainment medium through the manifold, the entrainment medium expands from the pressure pipe via the blowing nozzles out into the atmosphere. Conversely, when the entrainment medium is started, the internal volume of the pressure line must be filled in advance so that the entrainment flow rate of the entrainment medium from the respective blower nozzle is sufficient at the time of passing the insertion weft.

All this increases the consumption of the entrainment medium and adversely affects the quality of weft clogging.

In order to keep the length and thus the volume of the pressure line as small as possible, the entrainment medium distribution is located as close as possible to the blowing nozzles, directly on the swiveling part of the weaving machine, on the bidlen or sword. However, the actuator of the entrainment medium, usually a rotatably mounted shaft mounted on a pivotable part of the machine, provided with cams for actuating the timing valves, must be precisely synchronized with the speed of the main shaft of the weaving machine. Therefore, the timing actuator is coupled to a drive that is provided on a fixed part of the weaving machine. The drive mechanism of the timing actuator is, in known weaving machines, usually formed by gear wheels with a toothed belt or chain. Since the entrainment control member performs a pivotal movement of the weaving machine from the weaving position to the stroke and back position with the pivot of the weaving machine and its drive is coupled to a drive on the fixed part of the weaving machine, Shafts of the machine, depending on whether the swiveling part of the machine goes to the stroke or sweep position. This has an adverse effect primarily on the timing of the entrainment medium and hence on the quality of the weft clogging and the consumption of the entrainment medium.

These drawbacks and drawbacks are largely eliminated by the entrainment drive mechanism of the entrainment, in which the entrainment control member is provided with a gear wheel that is coupled to another gear wheel rotatably mounted on a pivotable part of the machine via a freely rotatable intermediate gear. connected to one end of the bending gear member, the other end of which is driven in a drive manner on a fixed part of the weaving machine.

The main advantage of the mechanism according to the invention is to reduce the deceleration and acceleration of the rotational speed of the entrainment medium control member from the pivoting movement of the pivot part of the weaving machine, thereby improving the entrainment timing of the entrainment medium, weft quality and weft consumption.

Exemplary embodiments of the invention are shown in the accompanying drawing, in which Fig. 1 is a sectional view of a pneumatic weaving machine with a drive medium drive mechanism, and Fig. 2 schematically shows an alternative embodiment of a drive medium drive mechanism in longitudinal section.

A fixed part 1 of a pneumatic weaving machine, not shown, comprises a housing 2 of a machine drive, not shown, in which the pendulum shaft 3 is mounted and also driven. The pendulum 4 of the machine is arranged on the pendulum shaft 3. It is formed on the rocker shaft 3 by the attached swords 5 with the bldlen 6 attached to the swords 5, for example by screws 7. The Bidlen 6 then carries a beam 8 whose cane 9 passes through the warp threads (not shown). The beams 9 of the beam 8 are provided with coaxial picking holes 10 with threading gaps 11 and form a picking channel for weft insertion. The blowing nozzles 12 extend into the picking channel and are connected to the carrier medium distribution 13. In this exemplary embodiment, the entrainment medium distribution 13 is formed so that the blowing nozzles 12 are provided on the hollow rod bodies 14, at their upper end. Each blower nozzle body 14 is slidably mounted in the baffle 6 from the picking position to the non-picking position and springed into the lower end with its cam 15. In the picking position, the blowing nozzle 12 extends into the picking channel and its body 14 is hollowly connected to the inlet media. In the non-picking position, the blowing nozzle 12 is inserted outside the picking channel, its hollow body 14 being disconnected from the entrainment medium supply. The cams 15 are provided on a shaft 16, which is mounted on a pivotable part 4 of the machine rotatably parallel to the swiveling drive shaft thereof, i.e. the pivot shaft 3; and forming the actuating member 17 of the entrainment medium distribution 13. The actuating member 17 of the entrainment medium 13 is provided with a gear wheel 18 which, via a freely rotatable intermediate ring 19, e.g. This gear wheel 20 is rotatably mounted on the pivoting part 4 of the machine on the arm 21 and is driven by a bending lead member 22 to drive the fixed part 1 of the machine into the housing 2. That is, one the end of the bending gear member 22 is connected to the gear wheel 20 and the other end is to drive in the housing 2. The bending gear member 22 itself is formed by a shaft 23 consisting of at least four serially connected portions 26, 27, 28, 29. there are two cross-joints 24, 25 and an axial sliding connection 30 when the portions 26 to 29, for example, when the end portion 29 of the shaft 23 is formed as a sleeve on which the portion 26 of the shaft 23 is slidably mounted.

In the exemplary embodiment of the invention of FIG. 2, unlike FIG. 1, the intermediate wheel 19 is configured as a two-wheel 31 with gear wheels 32, 33 of different diameters. Here, the smaller gear wheel 32 is engaged with the gear wheel 18 of the actuator member 17, and the second larger gear wheel 33 is engaged with the gear wheel 20 at the first end of the bending gear member 22.

During weaving, the weft is introduced into the picking channel by a main nozzle (not shown), which can be mounted, similarly to the blowing nozzles 12, on the pivoting part 4 of the weaving machine. Then, the main nozzle can also advantageously be connected to the entrainment medium distribution 13, also located on the pivoting part 4 of the machine.

In the described exemplary embodiments, the drive mechanism drive mechanisms 13 are driven by gears, but within the scope of the invention at least a part of these transmissions may be performed otherwise, eg by a toothed belt or the like.

Claims (4)

An entrainment drive mechanism for a jet weaving machine, wherein the entrainment distribution means is arranged on a pivotable machine part, and its actuator is rotatable parallel to the pivot axis of the pivotable machine part, and coupled to a drive provided on the fixed part of the weaving machine characterized in that the actuating member (17) of the carrier medium (13J) is provided with a gear wheel (18) which is coupled via a freely rotatable intermediate gear (19) to another gear wheel (20) rotatably mounted on the pivoting portion (4) and connected to one end of the bending transmission member (22), the other end of which is drive-coupled to the drive on a fixed part (1) of the weaving machine. 2. Mechanism according to claim 1, characterized in that the intermediate wheel (19) is freely rotatably mounted in the pivot axis of the pivoting part (4) of the weaving machine. VYNALEZU 3. Mechanism according to claim 1, characterized in that the intermediate wheel (19) consists of a wheel set (31) with gear wheels (32, 33) of different diameters, its smaller gear wheel (32) being engaged with the gear wheel (18). and the second larger gear wheel (33) is engaged with the gear wheel (20) provided at the first end of the bending gear member (22). 4. The mechanism according to claim 1, 2, 3, characterized in that the bending transmission member (22) is formed by a shaft (23) consisting of at least four serially connected parts (26, 27, 28, 29), the connecting members between its the individual adjacent portions (26, 27, 28, 29) are at least two cross-members (24, 25) and at least one axial sliding connection (30). 2 sheets of drawings