CS209297B1 - Fibre guide,especially of textile fibres - Google Patents

Description

(54) Conductor of fibers, especially of textile

The invention relates to a fiber conductor, in particular a textile conductor, the body of which is made of a thermally conductive material and the working surface is provided with an abrasion-resistant layer.

Existing wires for guiding or reversing the textile fiber are usually made of ceramic, but there are also steel wires covered with a wear-resistant layer of hard chrome, nickel or plasma-coated oxides. However, these conductors are no longer satisfactory at the high speeds of modern textile machines because of the heating of the conductor and the fiber due to the heat generated by the loss of mechanical energy on the conductor.

At lower fiber speeds, the heating of the fiber and wire is about the same. The total heat generated is given by the product of the fiber velocity and the voltage increase on the conductor, and is divided in the inverse ratio of the relevant factors that characterize the heat dissipation of the fiber or conductor when their temperature increases by 1 ° C.

At higher fiber speeds, only the portion of the fiber surface that touches the conductor is thermally affected. However, the temperature of this portion of the fiber surface also approaches the conductor temperature.

The temperatures of the conductors and their parts can be very high, especially at high voltage increments. E.g. 13.3 tex polyamide fiber at a speed of 300 m / min. a 360 ° wrapping conductor and having an output of 0.9 N at the conductor will result in an increase in the stabilized temperature of the thermally insulated conductor by more than 100 ° C.

These temperatures, in particular in the case of chemical fibers, result in the formation of glazing, i.e. sections of the fiber with different dyeability and reduced mechanical properties of the fiber, and, in the case of shaped fibers, lead to a reduction in the forming effect.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fiber conductor, particularly a textile fiber, in which a low working surface temperature is achieved during operation even at high operating speeds of textile machines.

This is achieved by a fiber conductor, the principle of which is essentially that the textile fiber conductor body is formed of a material with a thermal conductivity of at least 100 W / m < 0 > K.

An advantage of the invention is that it prevents the unevenness on the fiber surface from passing through the conductor.

Further advantages and features result from the following description of an exemplary embodiment, which is schematically shown in the accompanying drawing, in which Fig. 1 indicates a conductor whose body is provided with cooling ribs; Fig. 2 indicates a conductor whose body has an enlarged bearing surface; FIG. 3 is a cross-sectional view of a conductor in which a coolant cavity is formed.

The textile fiber conductor comprises a body 1 made of a material of thermal conductivity Q of at least 100W / m ° K, for example of copper, aluminum or their alloys. A working surface 2 is provided on the body 1, which is covered by a wear-resistant layer, for example of hard chrome, nickel or plasma-coated oxides, on which the fiber 3 is guided. machine.

In the exemplary embodiment of FIG. 1, a portion of the surface of the conductor body 1 is provided with cooling fins 5 for conducting heat from the conductor to the atmosphere.

In the exemplary embodiment of FIG. 2, the bearing surface 4 is formed as a ridge surface of at least 1 cm ² and the conductor is supported on a cold thermally conductive structure.

Claims (1)

SUBJECT A fiber conductor, in particular a textile conductor, the body of which is made of a thermally conductive material and the working surface is provided with an abrasion-resistant layer. The fiber is guided over the work surface 2 and the heat generated by the loss of mechanical energy through the conductor is dissipated by the conductor body 1 into the environment, see the exemplary embodiment according to FIGS. 3. This results in a low operating temperature of the conductor and hence a low temperature of the fiber surrounding the conductor, which results in an increase in the quality of the treated fiber. INVENTION characterized in that the textile fiber conductor body (1) is formed of a material with a thermal conductivity of at least 100 W / m ° K.