SU1302189A1 - Device for determining orientation angle of fibres - Google Patents

Abstract

This invention relates to optical methods for controlling textile materials. The aim of the invention is to improve the accuracy of control by reducing the influence of impurities and nodules. The signal from the photo sensor 10 is a sequence of pulses of duration t - d / V, where d is the diameter of the fibers; V is the rate of movement of the sample fibers. The use of a standby multivibrator 11 with a predetermined pulse duration, elements NOT 12, OR 13, And 14 makes it possible to take into account the average sizes of impurities and nodules. At the output of the element OR 13, a signal is formed, the duration of which corresponds to the length of the viewed sample area. The duration of this signal is measured by means of an oscillator 16, elements AND 15 ,, 18, a counter 17, having one or more outputs. From the output of the element AND 14 pulses, corresponding to the number of fibers, are received through the element 20 and controlled by the trigger 19 and 20 and through the switch 21 to the counters 22, 23, the Computing unit 24 calculates the orientation angle in accordance with the algorithm .d arc tg K. / Kj, where K, K is the number of fibers, determined in two mutually perpendicular directions of movement of the sample. 2 Il. I (L with about 00; o

Description

one

The invention relates to optical methods for controlling textile materials and can be used to determine the orientation angle of fibers, e.g.

The aim of the invention is to improve the accuracy of control by reducing the influence of impurities and nodules.

FIG. 1 shows the optical layout of the device in FIG. 2, its functional diagram, I The device contains a sample of a comb, placed between glass 2., fastened with screws 3 on a slide table 4, the latter is fixed on a holder 5, which is moved through a gearbox b by an electric motor 7 .

In the bracket 8 are light holes 9, connected respectively with the illuminator and the photodetector (not shown) of the photosensor 10,

The output of the photo sensor 10 is connected to the inputs of the standby multivibrator 11 of the element HE 12, the output of the standby multivibrator 11 is connected to the first inputs of the elements OR 13 and AND 14, the second inputs of which are connected to the code of the element NOT 12, the output of the element OR 13 is connected to the first input of the element 15, to the second input of which is connected a generator of 16 pulses.

The output element And 15 through the counter 17 pulses 5 element And 1.8 and the trigger 19 is connected to the first input element And 20, to the second input of which is connected to the output element And 14, The output element And 2.0 is connected through a switch 21 to the inputs of the counter 22 and 23 pulses The outputs of which are connected respectively to the first and second inputs of the computing unit 24, which is connected to the indicator 25. The control input of the calculating unit 24 is connected with the button 26 "Shaper outputs. 27 pulses are connected to the reset inputs of counters 17, 22 and 23 and the installation input 1 of the trigger 19.

The device works as follows.

Glasses 2 with sample 1 are mounted on the stage 4 so that it shifts in the direction of the webs of the fibers. The output element And 2 switch 21 is connected to the input of the counter 22, the Signal from the imaging unit 27 is set to zero

892

state counters 17 and 22 and translate into one state trigger 19

The motor 7, which drives the gearbox 6, moves: the holder 5 with the stage 4 relative to the bracket 8, the optical signals from the optical fibers 9 are converted by the photosensor U into a sequence of electrical pulses, the length of which is proportional to the sample fiber. At the output of the w ith multivibrator 11, a pulse of a predetermined duration, determined by the average size of possible impurities in a sample or a knot, arises at each photocell impulse.

Elements IL 13 and 14 produce signals that are equal, respectively, to the length of the test section and the number of fibers, taking into account the duration and number of impurities and sample nodules,

From the output of the element And 20, open a single signal trigger 19, the pulses arrive at the counter 22, which captures the number of fibers of the sample in the direction of the batt.

Simultaneously with the pulses from the element OR 13, the element 15 receives impulses from the generator 16, the number of pulses x proportional to the length of the test section, comes from the output of the element 15 to the input of the counter 17, the numerical bits of which are connected to the corresponding inputs of the element And 18, When a certain state of the numeric bits of the counter 17, defined by a predetermined length, controlled by the sample plot, at the output of the element And 18, an impulse occurs that takes the trigger 19 to the zero state, which leads to the termination of the steps of the signals on the counter 22,

Then the glasses 2 with the sample are turned 90 so that the subject table 4 moves perpendicularly to the direction of the webs of the fibers. The output of the element And 20 by the switch 21 is connected to the input of the counter 23, the counters 17 and 23 are set to the zero state, and the trigger 19 is transferred to one state by a signal from the pulse former 27.

The motor 7 is turned on and the number of fibers at a predetermined length of the test section in the direction perpendicular to the batt is determined similarly.

The number of fibers fixed by the counters 22 and 23 is transmitted to the computing unit 24, where after turning on the button 26, the angle of the fibers is calculated

with arc tg

to

To

where K,

IR is the number of fibers, determined respectively in directions parallel and perpendicular to the web. The magnitude of the orientation angle is fixed by the indicator 25.

Claims (1)

Invention Formula A device for determining the orientation angle of fibers, containing a stage for placing fibers with a mechanism for its movement, a photo sensor connected to the input of a waiting multivibrator, the output of which is connected And characterized in that, in order to increase accuracy by reducing the influence of impurities and nodules, it has NOT, OR elements, a pulse generator, a trigger, a pulse shaper, a number of blocks, a switch, and additionally two AND elements and two pulse counters, the photo sensor is NOT connected to the second input of the first element AND and the first input of the OR element, the second input of which is connected to the output of the waiting Multivibrator, and the output to the first f5 input of the second element AND, the second input connected to the generator pulses, and output - to the input of the first counter, the one-bit outputs of which through the third element I are connected to the first input of the trigger, the output of which is connected to the first input of the fourth element I, the second input connected to the output of the first element I, and the output of the fourth element And through the switch it is connected with the inputs of the second and third counters, the outputs of which are connected to the corresponding inputs of the computing unit, and the outputs of the driver 20 25 with the first input of the first element, 30 pulses are connected, with the reset inputs of the second element I and the counter of the counters and the second input of the trigger. J Have z: ipus-i 02189 pulses fO four characterized in that, in order to increase accuracy by reducing the influence of impurities and nodules, it has NOT, OR elements, a pulse generator, a trigger, a pulse shaper, a number of blocks, a switch, and additionally two AND elements and two pulse counters, the photo sensor is NOT connected to the second input of the first element AND and the first input of the OR element, the second input of which is connected to the output of the waiting Multivibrator, and the output to the first f5 input of the second element AND, the second input connected to the generator pulses, and output - to the input of the first counter, the one-bit outputs of which through the third element I are connected to the first input of the trigger, the output of which is connected to the first input of the fourth element I, the second input connected to the output of the first element I, and the output of the fourth element And through the switch it is connected with the inputs of the second and third counters, the outputs of which are connected to the corresponding inputs of the computing unit, and the outputs of the driver 20 25 z: w. Compiled by, Morozov Editor Oh, Yurkovetskaya Tehred M.Khodanych Proofreader L. Patay Order 1211/43 Circulation 777 Subscription VNIISH State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Rauschska nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4