SU537235A1 - Device for determining the tangential resistance of textile fibers - Google Patents

Description

one

The invention relates to textile industry apparatuses designed to determine the tangential resistance of textile fibers.

A device by V. V. Taleporovskaya for determining the tangential resistance of textile fibers, comprising a mechanism for fastening a bundle of fibers and a measuring device, is known.

However, this device is characterized by low sensitivity.

In order to improve sensitivity, the proposed device has an elastic plate rigidly connected with the device case, on which the fiber beam fastening mechanism is installed, and the measuring device is a mechano-optical converter consisting of a ferromagnetic mirror, two wedges, one of which is non-magnetic, and the other is made of magnetom of a soft material and is provided with a magnetizing winding, a non-magnetic gasket, a light source and a fixing element for the position of the reflected beam, and a nonmagnetic lin is set on an elastic plate to cooperate with a broken plane mirror ferromagnetic and non-magnetic spacer mounted fixedly between the rib and the wedge mirror ferromagnetic edge of magnetizable

material. In this case, the nonmagnetic gasket has a flat shape and is installed perpendicular to the axis of the wedge of magnetically soft material.

The drawing shows a schematic diagram of the device.

The device for determining the tangential resistance of textile fibers consists of an elastic plate 1, a fiber bundle fixing mechanism 2, a nonmagnetic wedge 3, a ferromagnetic mirror 4, a magnetic wedge 5 with a magnetizing winding, a nonmagnetic laying 6, a fixation element 7 of the reflected beam and a light source 8.

The operation of the instrument is carried out as follows.

The application of force to the fiber bundle causes the plate 1 to bend, which, in turn, due to the interaction of the nonmagpetized wedge 3 strengthened on the plate, with the non-working plane of the ferromagnetic mirror causes the position of the latter to change. The change in position of the ferromagnetic mirror 4 is recorded by the fixing element 7.

the position of the reflected beam and allows judging the magnitude of the force applied to the fiber bundle.

The proposed instrument allows tangential resistance to be measured between the individual components of a bundle of fibers of both natural and chemical fibers. The device allows a wide sensitivity adjustment due to: a change in the current in the winding wound on the magnetic wedge 5, and a change in the distance between the edges of the non-magnetic and magnetic wedge (and it is necessary that the non-wedge 3 always touch the surface of the ferromagnetic grain 4).

The design of the device makes it possible to measure the forces of tangential resistance both between individual fibers and between staples of fibers of the same or different textile materials, and then, after appropriate processing of the test results, compare them by convergence.

Claims (2)

1. A device for determining the tangential resistance of textile fibers, comprising a mechanism for fastening a fiber bundle and a measuring device, characterized in that, in order to increase sensitivity, it has an elastic plate rigidly connected to the housing of the device on which the fiber fastening mechanism is installed and the measuring device is a mechano-optical converter consisting of a ferromagnetic mirror, two wedges, one of which is non-magnetic, and the other is made of a magnet material and is equipped with a magnetizing winding, non-magnetic spacer, light source and the element fixing the position of the reflected beam, with a non-magnetic wedge mounted on an elastic plate that can interact with a non-working ferromagnetic mirror, and a non-magnetic gasket is fixed between the edge of the ferromagnetic mirror and the edge of the wedge of magnet. . 2. An apparatus according to claim 1, characterized in that the non-magnetic gasket has a flat shape and is installed perpendicular to the axis of the wedge of magnetically soft material. eight