DE3900296A1 - Method and device for measuring the length of filamentous textile material - Google Patents

Abstract

Method for measuring the length of filamentous textile material which is wound as a yarn sheet onto a warp (loom) beam, in particular onto a dye (dyeing) beam, in which during the winding a pressing-on roller acts on the beam lap, to which a measuring device is connected. In order to improve a method of the type mentioned at the beginning in such a way that exact measurement of the length of the filamentous textile material is guaranteed even if due to the wrapping yarn or to the rotating beam lap a slip-free rotary drive of the measuring device is no longer guaranteed, it is designed in such a way that use is made as measuring instrument of a position pick-up (encoder) which detects the respective lap radius and respectively transmits a measurement pulse when the lap radius has increased by a predetermined value, that a rotary position transducer driven by the warp beam transmits a predetermined number of counting pulses per revolution of the warp beam, that an arithmetic unit uses the counting pulses transmitted between two measurement pulses to calculate a part length of the lap circumference, and that the arithmetic unit continuously adds all the calculated part lengths and displays them.

Description

The invention relates to a method for measuring the length of thread-like textile goods, which is arranged as a sheet a note tree is wrapped, especially on a dye tree, during which a pressure roller on the Tree wrap acts with which a measuring device in connection stands.

When attaching notes, it is important that all subtrees with the the same length of material or thread. This happens not, so must the slip with the empty part of the first tree are broken off and those on the other subtrees remaining good lengths are waste. It therefore comes with Bewic of the subtrees on that an exact length measurement of the wound goods. This is traditionally there  achieved by a thread length counter of a short before the running of the thread array on the winding arranged thread deflection or overflow roller is driven, or by an press roll that presses on the roll to form a tight roll to achieve construction. In these cases, the thread deflecting roller driven by the coulter without slippage and also the pressure roller rolls on the winding circumference without slipping.

If a less dense tree wrap can be made the pressure of the pressure roller must be reduced, as well as the thread tension. In this case it is no longer ge ensures that the thread deflecting roller or the pressure roller are driven without slip. So there are significant ones Failed to measure the length of the filament to be wound textile goods when using conventional length measuring devices This applies in particular to so-called dyeing trees in which the thread sheet must be wound very loosely so that the color can easily penetrate the inside of the winding during dyeing.

In contrast, the invention is based on the object To improve methods of the type mentioned so that a exact measurement of the length of the thread-like textile material too is guaranteed if a slip-free rotary drive Measuring device through the running threads or through the um running tree wrap is no longer guaranteed.

This object is achieved in that as a measuring device a displacement transducer measuring the respective winding radius is used, which emits a measuring pulse when the Winding radius has increased by a predetermined value that one encoder driven by the slip tree per revolution of the Zettelbaums delivers a predetermined number of counts, that a computing unit with the help of between two measuring pulses emitted counting pulses be a partial length of the winding circumference calculates, and that the computing unit continuously calculates all Part lengths added and displayed.  

It is important for the invention that the pressure roller is still used to determine the good length. they may be due to their rolling on the circumference of the wic kels especially when changing the winding speed slip no longer acts as an exact rotary drive for one Length meter may be suitable, but the winding thickness or exactly record the winding radius of the tree wrap. With help of the winding radius, the winding length can in principle be calculated will. However, it is necessary to change the wic to record the kelradius. According to the invention, this takes place in one fine gradation of the measured values of the winding radius Displacement sensor. The partial length on the outside of the tree wrap between two measuring pulses can be calculated by a Um rotation of the slip tree is divided sufficiently finely. For this are used by the encoder driven by the slip-tree Counts. The partial lengths of the Wrapping circumference are added together and result in the exact Length of the wound thread-like textile material.

A device for performing the above he The inventive method has the features that the pressure roller ze is mechanically coupled to a displacement sensor that the Zettelbaum and an encoder rigidly with each other in terms of drive are connected, and that a computing unit one the count se counting counter, one between two measuring pulses the corresponding counting pulses with one of the first of the measuring pulses Multiplication multiplying the radius value to the length of the part ornamental element and an adder element adding up all the lengths of the parts having. The components used in this device, such as counters, multipliers and adders, are known per se Components for circuits, so that the component effort for the calculation of the good length is small.

A length indicator is expediently attached to the adder device connected with which the wound length of material can be determined.  

The device is advantageously designed such that to the adder one determined by the computing unit Good length value continuously with a preset length value comparative comparator is connected, which in turn with a winding drive shutdown device and / or with is connected to a reporting device. The ongoing Determining the good length makes it possible to do this at any time to be able to determine. In addition, by comparing the Good length with a predetermined maximum good length, a target worth switching off the winding drive and / or a message can be achieved.

The invention is based on a Darge in the drawing presented exemplary embodiment of a device in more detail tert. It shows:

Fig. 1 is a schematic representation of a ne provided with a measuring device OF INVENTION to the invention Zettelmaschi,

Fig. 2 is an illustration for explaining the calculation of egg ner length, and

Fig. 3 is a block diagram.

The slip machine shown in Fig. 1 consists essentially of a slip tree 11 and a tree drive, not shown, which is rotatably connected to the slip tree 11 in a manner not shown, but usually. On the Zet telbaum 11 filamentary textile material 10 is to be wound up who who, for example a sheet of thread that runs from a creel. This family of threads or the good 10 passes through a reed 26 , which gives the individual threads at a predetermined distance from one another to an overflow roller 27 , from which the good 10 runs onto the slip tree 11 , which rotates clockwise.

When winding up a tree wrap 13 is formed , which has a Ra dius r . This radius r is equal to the radius of the tree core, if it is not yet wound and grows up to r max, which corresponds to the largest, shown with a solid line th tree wrap 13 .

So that the winding 13 is sufficiently leveled, there is a pressure roller 12 which bears on the winding surface and rotates during the winding and which engages between the side windows, not shown, of the slip tree 11 . The pressure roller 12 takes relative to the tree axis 11 ', which forms the reference for the winding radii r , always defined positions on the winding surface. Your distance from the tree axis 11 'is equal to the winding radius r . From Fig. 1 it can be seen that the pressure roller 12 can occupy different positions between the plant on the tree core with unwrapped slip tree 11 and the ma ximally wound slip tree 11 . These positions can be detected by a position transducer 14 , which determines the different angles α of a holding arm 28 of the pressure roller 12 in example. This displacement sensor 14 is connected to a pulse generator 14 ', which in each case emits a measuring pulse 15 when the winding radius r has changed by a predetermined value. For example, one measuring pulse is given per 0.1 mm radius change. This measuring pulse 15 reaches a computing unit 18 .

A rotary encoder 16 is rigidly connected to the winding tree 11 in terms of drive. The rotary encoder outputs counting pulses 17 to the computing unit 18 , a predetermined number of counting pulses 17 being generated by the rotary encoder 16 per revolution of the slip tree 11 , for example 314.

In the following it is explained that an exact calculation of a partial length lt of the winding circumference can take place on the basis of measuring pulses 15 and counting pulses 17 . 2 this is shown in Fig. An be arbitrary radius ra of the tree cover 13, in which a measuring pulse was delivered 15 a. From this moment on, thread-like material 10 runs onto the winding circumference, with the partial length according to . After this length, a predetermined increase in radius is assumed, so that a second measuring pulse 15 b is emitted. The corresponding radius rb ends with the radius ra of the time of the measurement pulse 15 an angle Φ a a. For the length lt , the calculation is based on the formula

lt = π × r × Φ : 180.

Here r = ra and Φ is the angle enclosed by the radii ra, rb .

If one goes from the assumption that the rotary encoder 16 at a Flip Cellphone hung the warp beam emits 11,314 pulses, as is the relationship Be for lt:

lt = π × r × 2 × x: 314.

Here, x is the number of counts 17 between the measuring pulses 15 a , 15 b . Accordingly, each part length

lt = r × x: 50,

where r is the radiological value determined by the position transducer 14 at the time of a first measuring pulse 15 , while x corresponds to the number of counting pulses 17 to the following measuring pulse 15 . This calculation is carried out by the computing unit 18 .

The computing unit 18 has a counter 19 , which counts the incoming counting pulses 17 of the rotary encoder 16 . The computing unit 18 also has a multiplier 20 . This multiplies the radius value ra at the time of a first measuring pulse 15 a by the number of counting pulses and, as a result, provides a good part length lta . An adder 21 adds all the good lengths lt to ltn and thus determines the total wound up length of the measured variable to be determined.

Fig. 3 shows a block diagram according to which the path of the pickup 14 and its encoder 14 'measurement pulses 15 generated a gate to be supplied to the 29th This Ver linkage 29 is connected to the displacement transducer 14 to a test circuit 30 which emits a signal when al le loading conditions are met, that is, the tree is inserted and raised. The forwarded by the logic circuit 29 measuring pulse 15 arrives at the multiplier 20 of the computing unit 18 , which in turn still has the previously described counter 19 and adder 21 . From the adder 21 an output signal reaches a switching device 31 , the output of which is connected to the input of a length display device 22 . The switching device 31 has the effect that, instead of the meter display, a diameter display is also possible, that is to say an indication of the thickness of the winding, which is easily possible with the aid of the pulses 15 present . The calibration quantities required for this are supplied by the switching device 31 .

In addition, the output of the adder 21 is still connected to a comparator 23 , which has an input to which a setpoint generator 32 is connected, for example a multi-digit decade circuit with which a desired length end value of the thread-like material can be set. If this comparator 23 determines the difference 0 between the value supplied by the setpoint generator 32 and the value of the adder 21 , its output gives a corresponding message to a winding drive shutdown device 24 and / or to a reporting device 25 . The good length value ln determined by the arithmetic unit 18 or its ad ding member 21 can thus be used to automatically stop the winding device of the tree when the preset good length value has been reached.

Claims (4)

1. A method for measuring the length of thread-like textile goods, which is wound as a sheet on a piece of paper, in particular on a dyeing tree, in which a pressure roller acts on the tree winding during winding, with which a measuring device is connected, since characterized in that a measuring sensor ( 14 ) is used as the measuring device, which detects the respective winding radius ( r ), each of which emits a measuring pulse ( 15 ) when the winding radius ( r ) has increased by a predetermined value such that one of the slip trees ( 11 ) driven encoder ( 16 ) per revolution of the slip tree ( 11 ) a predetermined number of Zählim pulses ( 17 ) that an arithmetic unit ( 18 ) with the help of the between two measuring pulses ( 15 a , 15 b ) delivered counting pulses ( 17 ) Partial length (lt) of the winding circumference is calculated, and that the computing unit ( 18 ) continuously adds up and displays all the calculated partial lengths (lt to ltn) . 2. Device for performing the method according to claim 1, characterized in that the pressure roller ( 12 ) with a displacement sensor ( 14 ) is mechanically coupled, that the slip tree ( 11 ) and a rotary encoder ( 16 ) are rigidly connected to one another in terms of drive, and that a computing unit ( 18 ) a the counting pulses ( 17 ) counting counter ( 19 ), one between two measuring pulses ( 15 a , 15 b ) incoming counting pulses ( 17 ) with a he the most of the measuring pulses ( 15 a ) corresponding radius value (ra) to good part lengths (eg lta) multiplying multiplier element ( 20 ) and an adder element ( 21 ) which adopts all good part lengths (lt to ltn) . 3. Apparatus according to claim 2, characterized in that a length display device ( 22 ) is connected to the adder ( 21 ). 4. Apparatus according to claim 2 or 3, characterized in that a comparator ( 23 ) which is connected continuously to the adder ( 21 ) is a good length value ( ln) determined by the computing unit ( 18 ) with a preset length value ( 1 ) is in turn connected to a winding drive shutdown device ( 24 ) and / or to a signaling device ( 25 ).