CS230375B1 - Method of and measuring unit circuitry for measuring length of weft thread withdrawn from a supply in the form of a body of rotation in axial direction thereof over a light gate - Google Patents

Description

The present invention relates to a method for measuring the speed and length of a weft yarn drawn from a rotationally shaped pattern in the direction of its axis through a light barrier and to an apparatus for carrying out the method.

Two methods of measuring the length and velocity of moving threads are known. The first method is based on contact measurement of the moving thread by means of a rolling roller. The second method is non-contact and is based on the principle of marking the yarn with static charge or ferromagnetic material at very precise distances.

Both measurement methods have a number of disadvantages. In the case of contact measurement, this is primarily an additional yarn stress which, in particular in the case of intermittent weft yarn draw-off, as in the case of worm-less weaving machines, makes this method unusable. Also, the non-contact method of measuring the speed and length of the weft yarn is not suitable for use on cordless weaving machines due to the need to apply marks to the weft yarn.

It is also an object of the invention to find a simple circuit for carrying out such a method.

This is achieved by the method according to the invention, which is essentially based on the fact that the impulses generated by the passage of the rotating weft thread through the light curtain are added at a given time to the number of revolutions of the original after amplification and shaping. weft threads.

The principle of a simple wiring of a measuring unit equipped with a light barrier for performing the method of measuring the speed and length of the weft yarn being drawn is in particular that the light barrier is connected via a shaping circuit to a computer to which the timing unit is connected. number and sense of rotation of the original.

In order to further simplify the connection, it is possible to use as a computer a counter connected to an operational arithmetic unit, to which a display unit and a sensor of the number and sense of rotation of the original are connected to the timing unit.

Further advantages of the invention are evident from the description of exemplary embodiments schematically illustrated in the drawing, wherein FIG. 1 indicates an alternative wiring of the yarn speed and length measuring unit comprising a counter and an operational arithmetic unit;

The rotary shape master 1, which is an example of measuring at 2330375: the weft yarns 2, is provided with a speed sensor 12. Before the master 1, a light barrier 3 is placed in a known manner, behind which the conductor 4 is in the yarn withdrawal direction.

The actual velocity measuring unit is formed in the embodiment according to FIG. 1 by the aforementioned light barrier 3, the sensor 12 of the number and sense of rotation of the original 1, the shaping circuit S, the computer 10 and the timing unit 8.

The light barrier 3 is a known embodiment. It comprises a light source 11 to which a beam transmitter 14 built in the housing 16 is connected, which in an annular embodiment can replace the conductor 4, see FIG. 2. The beam receiver 15 is also incorporated in the housing 4.

The speed sensor 12 of the master 1 may be of any embodiment, a pulse given thereto convertible into an electrical pulse. Other parts of the measuring unit may also be known. The connection of the measuring unit according to FIG. 1 is carried out in such a way that the photocell 3 is connected by its beam receiver 15 via the shaping circuit 5 to a computer 10, to which the timing unit 8 and the number and sense rotation sensor of the original 1 are also connected.

In a simpler embodiment, as shown in FIG. 1, the computer can be replaced by a counter 6, an operational arithmetic unit 7, to which the display unit 9 can advantageously be connected.

In this embodiment, the light barrier 3 is connected by its beam receiver 15 through the shaping circuit 5 to a counter 6, which is then connected to an operational arithmetic unit 7, to which the sense and speed sensor 12, timing unit 8 and the aforementioned display unit 9.

The function of the measuring unit is the same in both versions. The yarn 2 withdrawn from the pattern 1 towards its axis is rotated to form a balloon and for each revolution of the weft yarn a light beam passing between the emitter 4 and the beam receiver 15 is interrupted twice. The resulting pulses are amplified and shaped by a pulse former 5 with a definable leading edge and are summed in a computer 10 with pulses obtained by the sense sensor 12 and the number of revolutions of the original 1, according to the set time in the timing unit 8. The result is then. converts to the speed or length of the withdrawn thread at the set time.

Similarly, the velocity measurement of the embodiment of FIG. 1 is performed where the counter counts in a counter at a given time in the operation arithmetic unit 7 with pulses obtained by the sense sensor 12 and the number of revolutions of the master. which it records in the display unit 9.

In case the template is non-rotatable, the measuring unit can be simplified by omitting the 12 sense and speed sensor 1. The measurement accuracy can be increased by a greater number of light curtains 3.

The use of the method of measuring the speed and length of the drawn yarn 2 according to the invention is possible when the length of one wrap from the drawn weft yarn 2 is known, as is the case with weft yarn gauges on unorthodox weaving machines.

Claims (3)

A method for measuring the speed and length of a weft yarn withdrawn from a rotational-shaped master in the direction of its axis through a light barrier, characterized in that the impulses generated by passing the rotating weft thread through the light barrier are amplified and formed. the result is converted for a given time to the speed or length of the weft yarn being withdrawn. 2. Connection of a measuring unit equipped with a light barrier for carrying out the method according to claim 1, characterized in that the light source of the rafter (3) is connected via a shaping circuit [5] to a computer (10) to which the timing unit (8) is connected. in the case of a rotating template (1) carrying a thread (2j), a sensor (12) of the number and sense of rotation of the template (I) · Connection according to claim 2, characterized in that the computer (10) is formed by a counter (6) connected to an arithmetic unit (7j) to which a display unit (9J) and a sense sensor (12) are connected to the timing unit (8); the number of revolutions of the lead. 1 sheet of drawings