JPH0325526B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for driving a pneumatic spinning device, such as a spinning device, when trouble occurs.

In a spinning device having a plurality of spinning/winding units arranged in a row, in which the yarn spun by the spinning unit is successively wound by the winding unit, the drive system of the spinning unit and the winding unit has a When a problem occurs, for example, when the air pressure of the spinning nozzle decreases or when the traverse guide is disturbed and stick winding occurs, it is necessary to take measures to resolve these problems, but it is necessary to stop the drive. In the case of inert rotation, the inert rotation of the roller system may cause, for example, insufficiently drawn defective yarn to be caught in the package, or sliver remaining in the draft part may clog the nozzle when restarting, and furthermore, the machine If the rollers cool down and it takes time for the rollers to rotate normally when restarted, this may cause problems.

Therefore, in the present invention, when a trouble occurs, first of all, the yarn or sliver being spun is cut regardless of the location where the trouble occurs, and then, depending on the cause of the trouble in the spinning/winding unit, the machine You can either stop or continue.

An example in which the method of the present invention is applied to an air spinning device will be described below with reference to the drawings.

1 is a spinning machine stand, and above it is a stretching device 2,
Following a spinning unit 6 consisting of an air spinning member 3, a yarn guide 4, a delivery roller 5, etc., a winding unit 7 is provided below the spinning unit 6, and a knotter wheel 50 moves along a plurality of units 6, 7 arranged in parallel.
The stretching device 2 includes each pair of a back roller 8, a middle roller 9, and a front roller 10. Each of the rollers described above is connected to a prime mover (not shown) via a drive system.

The air spinning member 3 has a yarn cutting cutter 11, the structure of which is shown in FIG.

12 is an air nozzle, which is placed on the frame 1 at appropriate regular intervals.
It is fixed at 3. 14 is a dust box,
It is provided surrounding the yarn outlet of the air nozzle 12, and its end converges to form a suction tube 15, which is connected to a suction device (not shown). Dust box 14 has 1 thread
6 passage holes 17 are provided, and the air nozzle 1
The yarn 16 spun from the thread 2 passes through the passage hole 17 and extends linearly to the delivery roller 5. A shaft 1 is provided in the thread passage hole 17 so that the hole 17 can be opened and closed.
A cutter 11 supported by 8 is provided.
The cutter 11 has a wedge-shaped side cross section and a rectangular front face, and as the shaft 18 rotates, the tip edge 19 comes into contact with a receiving blade 20 provided on the ceiling surface of the thread passage hole 17.

A swinging arm 21 is fixed to the shaft 18, and the frame 2
A shaft 23 supported by 2 and an integral swinging arm 24 are connected via a connecting rod 25. A swing arm 26 is further supported on the shaft 23, and a lifting rod 27 is pivotally supported at the tip thereof. The swinging arm 26 is
It is urged by a spring 28 to rotate counterclockwise in the figure. SO is a solenoid, and when the solenoid SO is in operation, it always works to push down the elevator rod 27.

The spinning device is driven as follows.

In Fig. 3, when the start switch PB2 is pressed, the stop switch PB1 is a normally closed switch, so the relay RA1 is activated, the relay RA1 closes the contact RA1-1, the relay RA1 self-holding circuit is formed, and at the same time the contact RA1 -2 opens, the off-delay TR stops operating, and the motor M of the machine is operated with the contact TR closed.

Suppose, for example, that the pressure of the air injection nozzle decreases while the spinning device is in operation. Then, the air down switch PRS detects the drop in pressure and operates, closing the circuit, activating relay RA2, and lighting lamp L2 to notify that the air pressure has dropped. The contact RA2 is also opened by the operation of the relay RA2, so the circuit of the feeler control 40 is turned off.

In addition, for example, if the traverse device cannot reciprocate and becomes stuck, the traverse device becomes hot and the thermal switch THS detects this.
is activated, activating relay RAA3 and lighting lamp L3 to notify that there is an abnormality in the traverse device. The contact RA3 is also opened due to the operation of the relay RA3, and therefore the circuit of the feeler control 40 is turned off. The signal from the filler control 40 enters forward amplifiers AMP1, AMP2, ..., AMPN provided for each spinning unit.
Since the signal of the feeler control 40 is turned off, each unit's forward amplifier AMP1,
AMP2, ..., AMPN are also turned off, and the contacts FW1, FW2, ..., FWN of each unit are also turned off. Forward amplifier AAMP1, AMP2,...
AMPN and contacts FW1, FW2, ..., FWN are
The relay that operates according to the yarn running signal from the slab catcher 30 is activated and remains on while the yarn is traveling, but as mentioned above, when the feeler control 40 is turned off, the contacts FW1 and FW of all units are turned on.
2, ..., FWN can be turned off all at once. By turning off the above contacts FW1, FW2, ..., FWN, the solenoids SO1, SO2, ... of each unit are turned off.
..., SON is also turned off and traction of the lifting rod 27 is stopped in FIG. 2, so the connecting rod 25 moves to the left in FIG. 2 due to the elastic force of the spring 28.
The cutter 11 is rotated counterclockwise via the swing arm 21, and the thread 16 is sandwiched between the receiving blade 20 and the cutter 11 and cut. The cut end of the thread 16 is sucked into the suction tube 15.

The thread is cut in this way, but depending on the location of the failure, i.e. when the air pressure of the nozzle drops as mentioned above, the air pressure can be restored without stopping the drive of the rollers etc. Since it is possible to recover from a failure without stopping the drive of the machine, it is possible to
All you have to do is operate the knot (not shown) at No. 0, splice the yarn, and restart winding, but as mentioned above, the traverse guide is fixed and the shaft that extends to the entire spindle stops, resulting in a bar winding state. When you feel tired, stop the drive of the machine. That is, if you press the stop switch PB1,
The self-holding circuit including RA1-1 is disconnected and relay RA
1 becomes inactive, closing contacts RA1-2 and activating off-delay TR. After a certain period of time, the off-delay TR is activated and the contact TR is activated to stop the machine motor.

In the above embodiment, the cutter 11 is provided between the air injection nozzle 3 and the delivery roller 5, but the cutter 11 may be located after the drawing device or at any other suitable position as long as it is possible to process the yarn ends.

As described in detail above, the method of the present invention is applicable when a trouble occurs in a spinning machine having a plurality of spinning/winding units arranged in a row, which wind up yarn spun by a winding unit following a spinning unit. ,
First, the yarn or sliver being spun is cut regardless of the location where the trouble occurs, and then, depending on the location where the trouble occurs in the spinning/winding unit, either the drive of the machine is stopped or not. In order to do this, there is no need to stop the machine when a problem occurs, and defective yarns spun during speed reduction or inert rotation when the machine is stopped are wound into the package cage when restarted. In addition, it is possible to eliminate sliver clogging, where the sliver remaining in the draft part gets stuck in the spinning nozzle of the air spinning member without being drafted, and it is possible to prevent the mixing of defective yarns. can.

[Brief explanation of the drawing]

FIG. 1 is a schematic side view of an apparatus for implementing the method of the present invention, FIG. 2 is a partial sectional view of an air spinning member, and FIG. 3 is a drive circuit diagram of the apparatus for implementing the method of the present invention. 6... Spinning unit, 7... Winding unit, 1
6... Thread.

Claims (1)

[Claims] 1. When a trouble occurs in a spinning device that is equipped with a plurality of spinning/winding units that wind up the yarn spun by a winding unit following the spinning unit, regardless of the location where the trouble occurs, First, the yarn or sliver being spun is cut,
Next, a method for driving a spinning machine in the event of a trouble, characterized in that the drive of the spinning machine is either stopped or not depending on the location where the trouble occurs in the spinning/winding unit.