DE2221655B2 - THREAD STORAGE AND DELIVERY DEVICE - Google Patents

Description

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The invention relates to a thread storage and delivery device according to the preamble of Claim 1.

Such a thread storage and delivery device is known from GB-PS 11 68 905. This device works with a rotating storage drum on which an annular thrust element is tiltably mounted. As the amount of thread in reserve increases, this sliding element is swiveled out of its inclined position, until it actuates a switch that turns off the electric motor that drives the storage drum. In intermittent operation, this device works as follows. With the electric motor switched on thread becomes very fast on the storage drum until the maximum thread supply is reached wound up and the storage drum then stopped. When the storage drum is at a standstill, thread will now be used removed until the minimum thread supply is reached on the storage drum. Then the The thread reserve is replenished up to the maximum thread reserve. This mode of operation has the following disadvantages:

Since the tension of the withdrawn thread is influenced by the thread supply ^(> 5 amount located on the storage drum), there are fluctuations in tension at cyclical intervals, which are disadvantageously noticeable in the textile goods produced Cycle thread is taken up and taken off, a different degree of twisting occurs in the withdrawn thread, which can lead to the formation of knots and is also visible in some manufactured textile goods With each cycle of movement, the devices emit a thread balloon caused by centrifugal forces acting on the emerging thread, which balloon collapses again with each cycle, causing additional periodic fluctuations in the tension of the drawn-off thread n thread. In thread storage and delivery devices, thread brakes are often also provided, which are also subjected to different centrifugal forces during such a movement sequence and therefore cannot develop a constant braking effect.

It is already in GB-PS 1168 905 addressed to adjust the speed of rotation of the storage drum to the thread consumption, whereby the intermittent operation would be exited, however, this continuous operation is not executed can be reached.

A modified form of a thread storage and delivery device emerges from CH-PS 4 39 161. In this device, the storage drum is designed to be stationary and surrounded by a winding arm, the winds thread onto the storage drum during the winding process. For scanning the on the storage drum the amount of thread stored at the moment is provided with a photodetector that detects the amount of thread from the drum surface light that is reflected or transmitted through the drum measures the immediate Relation to the amount of thread stored on the storage drum. In one embodiment this electronic sensing device is connected to a coupling with which a constantly with constant speed running motor can be coupled to the wrapping arm. In another Embodiment is provided, the power supply of the motor with omission of the clutch to be controlled directly by the sensing device, the motor upon reaching a maximum permissible The amount of thread supply on the storage drum is to be brought to a standstill immediately. As another Modification is proposed there, not to move the wrapping arm at a constant speed, but its speed continuously decrease with increasing amount of thread supply on the storage drum leave and stop the wrapping arm only at a predetermined maximum amount of thread supply. Like these Speed control is to be carried out in detail, is not to be found in this publication.

From DT-OS 19 29 485 a control circuit for the winding drive is an intermittent one Operation working yarn storage and delivery device known as having a photodetector has to scan the current supply of thread and, depending on this, the winding drive and turn off. Thyristors are provided in the supply lines for the electric motor of the winding drive Depending on the signals supplied by the photodetector, they can be ignited.

The present invention is based on the object of providing the simplest possible thread storage and

Specify delivery device with which a more constant tension of the outgoing thread can be achieved.

This object is achieved according to the present invention by the characterizing features of Main claim solved.

In the present invention one is of the known principle, the thread on the storage drum Wind up to a maximum thread reserve and then with the winding drive at a standstill down to a minimum value of the thread reserve to deduct, departed. The sensitively designed feeler device, with the deviations in the amount of thread supply detectable on the storage drum from a specified target value of less than ± 5% are, causes in the specified control for the drive motor of the winding drive that the The speed of the motor is set independently of the thread take-off speed to a speed in each case that adjusts the speed of the wound thread to that of the withdrawn thread, without the Winding drive is stopped when the maximum thread supply is reached. For devices with rotating Storage drum does not form a thread balloon. In addition, the known devices that are in work intermittent operation, occurring different twisting of the outgoing thread avoided, whereby a significant risk of knot formation is avoided. Even those with these known devices occurred disturbing influences of very different centrifugal forces the thread and any braking devices are thus switched off. Another, with the present The advantage achieved by the device is that the supply of thread kept practically constant on the storage drum within the small range limits is approximately equal to the maximum amount of thread supply required can be selected. The nominal value of the thread reserve only needs to be as large as the minimum thread supply, which is found in devices that was allowed to work in intermittent operation. This considerably simplifies the winding process. In addition, in this mode of operation as a drive motor for the winding drive with regard to their Motor characteristics Use cheaper motors, for example asynchronous motors or hysteresis synchronous motors.

Further advantageous refinements can be found in the subclaims.

On the basis of an embodiment shown in the drawing, the invention is described below explained in more detail. It shows

Fig. 1 is a plan view of a thread storage and delivery device,

F i g. 2 shows a partial view of the device according to FIG. 1, in which the sensing device and its assigned Switches are visible and

3 shows an embodiment of the associated electrical control for the electric motor of the Winding drive.

In Fig. 1, a thread bobbin 2 is mounted on a vertical pin 3 on a support arm 1 which is connected to a frame (not shown) of a textile machine, for example a knitting, weaving or winding machine. From this a thread F is drawn off upwards and fed tangentially through or via various thread guide or guide elements 4, 5 and 6 to a storage drum generally designated 7. In the nature of the thread F between the bobbin 2 and the

Storage drum 7 has a thread brake 8 of known design, for example a plate brake, installed.

The storage drum 7 is rotatably mounted on the underside of the support arm 1 and can be driven to rotate in the winding direction by a motor not visible in this figure (cf. part 1 in FIG. 3). In the embodiment shown, it has a circular cylindrical rod cage as the actual winding body. The thread is wound onto the outer surface lines of the bars forming the cage. In the interior of the drum, a spoke star, not shown in detail and recognizable in more detail in FIG. Its spoke arms reach through the bars of the storage drum and are connected at their free ends by a thrust ring 9, which in the area of the storage drum 7, in which the thread is fed, rests closely on the outer surface of the bars of the storage drum. The thrust ring 9 is in the direction of FIG. 2 shown double arrow / ^ pivotable.

With the thrust ring 9 is arranged in the thrust ring center over the spokes of the spoke star and connected to the thrust ring plane perpendicular pin 10. In the range of motion this Pin 10 is a total of 11 designated switch. In the housing of this switch there are two switch contacts 13 connected to connecting lines 12, which are spring-loaded by a Ball 14 are connectable. A mechanically actuatable switch pin 15 is guided through the housing wall, with the help of which the ball 14 can be lifted off the contacts 13. The switch pin 15 rests on one sliding body 16 attached to its end on pin 10.

The thread F coming from the bobbin is guided to the storage drum 7 at point A (FIG. 2). The inclined thrust ring 9 takes the thread down with it and has the effect that it is wound onto the already existing, here multi-layer thread ball 17. The thrust ring 9 is tilted by the growing supply of thread at the feed point on the ball of thread. The pin 10 connected to it has the effect that the ball 14 located in the switch 11 is lifted off the contacts 13 via the switching pin. As a result, the electric motor 18, as will be described in more detail below, is disconnected from the voltage. It should also be noted that the ball of thread loaded by the thrust ring 9 is subject to constant axial movement.

The switching device shown in Figure 3 for the electric motor 18 is a three-phase system with the phase conductors R, S and T. In each phase conductor there is an electrically controllable switching element 19, for example a tyhristor. The control line 20 of each of these switching elements 19 is via a resistor 21, the switch 11 already described and a diode 22 are connected to the anode of the same switching element 19. A diode 23 is connected in parallel to the switching elements 19. The resistors 21 serve to protect the switching elements 19 from excessive loading.

When the switch 11 is open, the control electrodes are the switching elements 19 de-energized, as a result of which they represent a very high resistance. The engine 18 is in the switched-off state. By closing the switch U, the control lines are obtained via the respective diode 22 and the resistor 21

Tension. As a result, the switching elements 19 go into the open state, which means that the motor 18 is switched on. Since the usual electrically controllable switching elements are usually only in one Direction are conductive, the diodes 23 connected in parallel to them are provided, which conduct the power take over in the other direction. A thyristor 19 forms each with the diodes 23 of the the other two thyristors and the motor winding form a closed circuit via the voltage source. The flow of current is therefore controlled by the thyristors 19, while the flow of current is controlled by the diodes 23 free is. The motor 18 is thus charged with full alternating current phases.

When the feeder is in operation, there is a stationary one State in which the speed at which the thread is wound is the speed with that the thread is removed adjusts. At one only slightly compared to the unwinding speed lower winding speed causes the switch 11 that the motor 18 is switched on again, whereby the winding speed is immediately adapted to the unwinding speed. The at the specified setting of the feeler element, maximum fluctuations of ± 5%, i.e. deviations of a nominal thread reserve of a maximum of 5% upwards and 5% downwards, arise at rotating storage drum. These relatively small deviations practically do not have different effects Tension on the outgoing thread. The twisting of the outgoing thread is also kept practically constant. An easily achievable range of fluctuation is ± 3% and can even be less. In a specific exemplary embodiment, at a withdrawal speed of the outgoing thread, which fluctuated between 100 and 235 m / min, deviations from the Storage drum located thread reserve of approx. ± 1.5% observed.

For this purpose 3 sheets of drawings

Claims (3)

Patent claims: 1. Thread storage and delivery device for thread processing machines, with a storage drum, on which the thread can be wound tangentially and axially withdrawn therefrom, one a Winding drive having an electric motor for winding the thread onto the storage drum, one of the instantaneous amount of thread supply located on the storage drum scanning ι ο device, a switch connected to the pushbutton device, which, when a predetermined positive and negative deviations in the amount of thread supply from a specified target value assumes a first or second switching position and controls the electric motor in such a way that this at When the minimum thread supply is reached, it is switched on and when the maximum thread supply is reached, it is switched off is, characterized in that the sensing device (9) and its associated switch (11) if the thread reserve deviates from the nominal value by a maximum of ± 5% with the rotating Address the winding drive. 2. Yarn storage and delivery device according to claim 1, characterized in that the electric motor is a polyphase motor (18) that a controllable switching element (19) is arranged in each of the three supply lines (R, S, T) of the motor (18), and that the control lines (20) of all three controllable switching elements (19) are connected to the switch (11) in such a way that the controllable switching elements (19) can be switched to their conductive state when the switch (11) is closed. 3. thread storage and delivery device according to claim 2, characterized in that as controllable switching element (19) a thyristor with a diode connected in parallel is used.