CS198600B1 - Tow-to-top converters - Google Patents

Description

The invention relates to a device for converting synthetic fiber cables.

Synthetic fiber cables are converted into converged cables by the convertor process. For this purpose, devices called converters are used, most of which have been found to work on the principle of breaking the fibers of a cable as it passes through. Such devices, called shredder converters, consist of several cable speed granting systems. The function of shredder converters results in delay and tearing between systems due to the different speed of their speed granting systems. In this way, the cable is converted into a converged cable, composed of parallel staple fibers.

In prior art shear converters, cable speed conferring systems are formed by groups of two or more rollers rotatable about mutually parallel axes, at least some of which are coupled to the drive. In addition to systems in which the axes of the cylinders are fixed, systems in which the cylinders are movable relative to one another and pressed together in a direction perpendicular to the axes of the cylinders are known and very often used. This allows easy cable entry and clamping between the rollers. Often, the friction-coated roller is movable and is pushed to the two driven rollers. Also known is an arrangement in which a set of two driven rollers is pressed against a fixed 030U cylinder provided with a friction layer. To remove heat produced by the tearing of fibers, some rollers are provided with flow cooling.

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Known blast converters have some disadvantages. In operation, the fibers are wrapped on individual rolls, which is particularly evident in speed-granting systems close to the cable outlet, where the diameter of some rolls is limited by the staple length requirement and where there is a significant number of fiber ends in the cable. Despite a number of known measures, such as squeegees, use of cable fiber preparation and the like, this disadvantage is a significant limitation of the reliability of the conversion operation. Thus, the converters situated in the converters in the known embodiments also exhibit an imperfect heat dissipation in the cable during the breaking of the fibers, which is due to the short path of contact between the cable and the cooled rollers. The two disadvantages are reflected in the limitation of the rate of passage of the cable through the converter and in the limitation of the capacity. The pressure exerted by the cable clamping in the speed granting systems is relatively high in the known converters, leading to higher demands on the design of the device and increased wear of the friction coatings on the rollers. Keeping the frictional coatings within technologically acceptable limits is difficult and difficult in the known converters.

These drawbacks are eliminated in a converter apparatus according to the invention, consisting of two or more sets of cable speed granting parts, and characterized in that at least one of these sets consists of at least two toothed pulleys with parallel pairs of belts. a fixed position about which a one-sided toothed belt is wrapped around a tensioning pulley and from a cylinder rotatable about an axis parallel to the axes of the toothed pulleys movable by a known device in a direction forming an angle of less than 45 ° with the orthogonal

In the device according to the invention, the drive of the individual cable speed granting systems may be effected by a toothed belt transmission and pulleys between adjacent pulley axes of two adjacent cable speed granting systems.

In the device according to the invention, said rotary and movable roller can be designed as flow-cooled.

The device according to the invention is explained in greater detail on the basis of examples.

Example 1

FIG. 1 schematically illustrates a converter apparatus comprising two identically formed sets of cable speed granting part. These systems consist of toothed pulleys 1, 2 and 1a. 2a with fixed position axes, from tensioning pulley J and 3a. a single-sided toothed belt 4 and 4a with zinc engaging teeth of pulleys 1, 2, J and cylinder 2, respectively. to the teeth of the pulleys 1a, 2a, Ja and the cylinder * a, provided with flow cooling of water and movable in a direction perpendicular to the plane oe of the pulleys 1,2a 1a, 2a. Between the two systems there is a transmission by toothed pulleys 6 and J and a toothed belt 2, ^{8 by a} tensioning pulley 8. The drive of the device, which is not shown in FIG. la.

During operation of the device is a cable advancing in the direction of arrow A sevřenému between toothed belts £ 4a and rollers £, 5a of the two systems, granted velocity Vg, respectively ^, přiěemž ⁱⁿ 2 ⁷ 1 * occurs tearing fiber cable, and delay of the cable and there is converter cable.

Example 2

The apparatus is made up of three cable speed granting systems, identical to those of Example 1, and two interworking gears, identical to those of the example.

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In the converter device according to the invention, in order to overcome the disadvantages of the prior art converter devices, the converter operation can be carried out at relatively high cable speeds. The operational reliability of the device, which can be connected continuously downstream of the cable manufacturing device, is increased, thereby eliminating or reducing the requirements for cable bundling operations.

It is very easy to replace toothed belts whose smooth side forms a friction surface.

The heat transfer from the cable to the cooled cylinder, which takes place along the entire path of the cable in the speed conferring system, is good. The device according to the invention is relatively simple to manufacture. The converter device can also be used as a snap converter.

Claims (2)

A converter apparatus comprising at least two sets of cable speed granting parts, characterized in that at least one of these set of parts has at least two toothed pulleys (1, 2 and 1a, 2a) with axes of steadiness and tensioning a pulley (3a 3a) which is wrapped by a one-sided toothed belt (4 and 4a) and a roller (5 and 5a), optionally flow-cooled and movable in a direction perpendicular to the plane of the pulley axes (1, 2 and 1a, 2a) less than 45 °. Device according to claim 1, characterized in that the drive of the individual sets of cable speed-granting parts is provided between the axes of the toothed pulley (1, 1a) of one assembly and the pulleys (2, 2a) of the other assembly by a geared pulley (6a). 7), tensioning pulley (8) and toothed belt (9).