RU40050U1 - THREAD MOTION CONTROL SENSOR - Google Patents

Abstract

The utility model relates to the field of textile production and can be used mainly for spinning, weaving, etc. machines for monitoring the integrity of the thread, yarn. The objective of the utility model is to increase the noise immunity of the sensor from external mechanical and acoustic influences. The essence of the utility model lies in the fact that in the sensor for controlling the movement of yarn on spinning and weaving machines, containing a housing in which a damping element is installed, covering the yarn guide with a piezoelectric transducer rigidly connected to it, the sensor housing is made of sound-absorbing material, for example, thermoplastic plastic, while the inner and / or outer surface is covered with a layer of electrically conductive material.

Description

The utility model relates to the field of textile production and can be used mainly for spinning, weaving, etc. machines for monitoring the integrity of the thread, yarn.

Known sensors for controlling the movement of the thread, comprising a housing, a damping element, a yarn guide with a piezoelectric transducer rigidly connected to it (see ed. St. USSR No. 342970 of 06.22.72, ed. St. USSR No. 36719] of 03.26.73 g ., USSR patent No. 1600635 dated 10.15.90, Swiss patent No. 622561 dated 04.15.81, sensor for monitoring the weft thread SW10C of the Swiss company LOEPFE). The listed devices do not ensure the normal operation of the sensor for monitoring the movement of the thread under the influence of mechanical, vibration, shock, and acoustic loads on the sensor, especially with a low level of the useful signal in the case of work with thin and slightly twisted threads.

Of the known devices closest in technical essence to the claimed, and taken as a prototype, is a sensor for controlling the movement of the thread (hereinafter sensor), described in the description of patent RU 2129090 from 04.20.99 g, Bull. No. 11. The specified sensor contains a housing in which a damping element is installed, covering the yarn guide with a piezoelectric transducer rigidly connected to it. A flange is made on the side surface of the damping element, which is fixed in the sensor housing.

The disadvantage of the design of the prototype is the high probability of false responses of the sensor under the influence of mechanical, vibration, shock, acoustic loads, especially with a low level of the useful signal in the case of work with thin and slightly twisted threads. The noted drawback is due to the following circumstances. In the design of the prototype, the body is made of metal. Therefore, mechanical vibrations excited in the sensor case by external influences (vibrations, shocks, acoustic noise, etc.) are not only not absorbed by the sensor case, but can, depending on the features of its construction (physical properties of the metal used, case dimensions, wall thickness, etc.) strengthen. Through the attachment points of the damping element in the housing, through the air gap, they are transmitted from the side surface of the housing to the damping element, and then, they are slightly weakened penetrate directly

to the yarn guide and piezoelectric transducer, which leads to false alarms of the sensor.

The objective of the utility model is to increase the noise immunity of the sensor from external mechanical and acoustic influences.

The essence of the utility model lies in the fact that in the sensor for controlling the movement of yarn on spinning and weaving machines, containing a housing in which a damping element is installed, covering the yarn guide with a piezoelectric transducer rigidly connected to it, the sensor housing is made of sound-absorbing material, for example, thermoplastic plastic, while the inner and / or outer surface is covered with a layer of electrically conductive material.

The level of mechanical vibrations excited in the design of the sensor by external factors is reduced due to the sound-absorbing properties of the housing material, which can be made of thermoplastic plastic, for example, polyamide.

Coating, for example, by spraying, the inner and / or outer surface of the housing with a layer of electrically conductive material protects the sensor from electromagnetic interference.

Claims (1)

A sensor for controlling the movement of yarn on spinning and weaving machines, comprising a housing in which a damping element is installed, covering the yarn guide with a piezoelectric transducer rigidly connected to it, characterized in that the sensor housing is made of sound-absorbing material, for example thermoplastic plastic, with an inner and / or its outer surface is covered with a layer of electrically conductive material.