SU1744448A1 - Device for monitoring of cross-sectional dimension of moving thread - Google Patents

Abstract

The invention relates to a measurement technique, in particular, to the production of knitted machines, and can be used to improve the accuracy and reliability of the control of the integrity and thickness of the thread fed to the intake system. The purpose of the invention is to improve the accuracy and reliability of control by ensuring a uniform distribution of energy over the launch cross section. The light flux from the radiation source enters the reflector, made of two mirrors, through which the controlled filament passes. Having undergone multiple reflections, the flow exits the reflector and, falling on the photodetector, is converted into an electrical signal and fed to the information processing unit. If there is a filament in the cavity of the reflector, the signal at the output of the photodetector is within certain acceptable limits. When a thread breaks, the signal at the output of the photodetector increases, and when a node passes through or another thickening of the thread decreases, in both cases the output exceeds the permissible limits. Accordingly, at the output of the information processing unit, signals Normally, Breakage, or Node are generated. 1 il. SO with

Description

The invention relates to a measurement technique, in particular, to the production of knitting machines, and can be used to improve the accuracy and reliability of the control of the integrity and thickness of the thread fed to the intake system.

A device of a textile monitor of a textile machine is known, which contains an LED located on opposite sides of the path of movement of the thread and a phototransistor, the output of which is connected

to the processing circuit. In the presence of a filament, a shading of a certain zone of receivers of the phototransistor site takes place, which disappears when the filament is broken. Accordingly, a change in the signal level at the output of the phototransistor occurs, which is fixed in the processing circuit as a breakage signal.

The disadvantage of such a device is that, due to the uneven sensitivity of the photo

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transistor on the receiving pad, and the clock is due to the unevenness of the LED emission indicatrix with vibrations (jitter) of the filament perpendicular to its trajectory, the signal level at the output of the phototransistor also changes, which leads to spurious modulation of the signal, and consequently, the accuracy decreases and reliability control.

The closest to the present invention is a device for transverse dimensions of a moving filament containing a radiation source, a photodetector connected to the input of the information processing unit and a reflector in the form of an ellipsoid, the filament trajectory passing through one of the ellipsoid foci, and in another focus and a photodetector.

During the movement of the controlled filament and its oscillations relative to the focal zone of the reflector, modulation of the light flux entering the photodetector takes place, i.e. a variable signal appears at its output. When the thread breaks or stops, the modulation of the light flux is stopped, i.e. at the output of the photodetector, only a constant signal component is present, which is recorded in the information processing unit as an emergency signal.

The disadvantage of such a device is its rigid direction finding characteristic. Indeed, the characteristic of an ellipsoid as a reflector is such that the device has maximum sensitivity when the trajectory of the thread passes strictly through the focus of the ellipsoid, and for any displacement of the trajectory (caused, for example, by the inevitable technological jitter of the thread), the sensitivity of the device drops sharply to zero, which reduces reliability control

In addition, the device reacts in the same way both to variations in the yarn relative to the focus, and to current changes in its diameter (for example, the presence of knots or technological thickenings), which reduces the accuracy of control.

The aim of the invention is to improve the accuracy and reliability of control by ensuring uniform distribution of energy over the beam section.

The goal is achieved by the fact that in a device for controlling the transverse dimensions of a moving thread containing a radiation source, a reflector, a photodetector and an information processing unit, the reflector is made in the form of two flat mirrors that are located relative to each other at an angle that provides multiple reflection of radiation from the reflecting surfaces of the mirrors and the source

the radiation and the photodetector face the corresponding reflective surfaces.

The drawing shows a schematic diagram of the device

The device consists of a radiation source 1, illuminated by a controlled filament 2 with a reflector composed of two flat mirrors 3.4 and a photodetector 5, whose input is facing a mirror that performs the last reflection, the output of which is connected to the input of information processing unit 6.

The device works as follows.

Hitting a reflector formed by mirrors 3 and 4, radiation from source 1

the radiation undergoes multiple reflections and exits the reflector; collected at the photodetector 5, where it is converted into an electrical signal. The magnitude of this signal depends on the power and aperture

the angle of the radiation source 1, from the aperture angle and sensitivity of the photodetector 5, as well as from the reflection coefficients and geometrical configuration of the mirrors 3 and 4 of the reflector, and for a particular combination

the radiation source 1, the photodetector 5 and the reflector have a certain value. When the filament 2 is introduced into the cavity of the reflector, the conditions for the passage of radiation through the device are violated: the radiation falling on the filament 2 is partially absorbed and partially dispersed by it. As a result, the magnitude of the radiation flux entering the photodetector 5 is reduced. When the thread is broken 2, the signal at the output of the photodetector 5

increases, and when passing through a node or other thickening of the thread 2 decreases, in both cases, the output is beyond the available limits,

Claims (1)

Claims An apparatus for controlling the transverse dimensions of a moving filament, comprising a radiation source, a reflector, a photoreceiver and an information processing unit, characterized in that, in order to increase the accuracy and reliability of the control, the reflector is made in the form of two flat mirrors located one relative to another under an angle that provides multiple reflection of radiation from the reflecting surfaces of the mirrors, while the radiation source and the photodetector face the corresponding reflecting surfaces of the mirrors.