RU224313U1 - Thread tension control device for cable core winding mechanism - Google Patents

Abstract

The utility model relates to mechanisms for adjusting the tension of filamentary materials and can be used in the manufacture of an optical cable in the process of twisting reinforcing threads around the cable core before applying the outer polymer sheath of the cable. The technical result is to simplify the operation of the equipment while simultaneously increasing the stability of maintaining thread tension values and operating reliability, preventing thread breaks, as well as expanding the arsenal of technical means in the field of optical cable manufacturing. For this purpose, the device contains belt brake devices, pulleys 1 of which are mounted on support shafts 2 mounted on a support disk 3, fixedly mounted on a tubular guide 4 with a die for the passage of threads (not shown in the drawing). On the other side of the support disk 3, bobbins 5 with threads 6 are fixed on the supporting shafts 2, directed to the cable core 7 emerging from the tubular guide 4. Brake bands 8 are fixed at one end at equal intervals around the circumference on the support disk 3 by means of a bolted connection 9, and the other end is secured through adjusting bolts 10 with compression springs 11 on the driven gear 12, interacting with the drive gear 13 of the rotation drive with a stepper motor 14 mounted on the support disk 3. The technical result is to simplify the operation of the equipment while simultaneously increasing the stability of maintaining thread tension values and reliability of operation, prevention of thread breaks, as well as expanding the arsenal of technical means in the field of manufacturing optical cables.

Description

The utility model relates to mechanisms for adjusting the tension of filamentary materials, in particular, to devices for adjusting the tension of filaments during their application around the core of an optical cable and can be used in the manufacture of an optical cable in the process of twisting reinforcing threads around the cable core before applying the outer polymer sheath of the cable using the method extrusion.

Devices for regulating thread tension are known in the textile industry (see, for example, RF patent No. 2280005 according to IPC B65H 59/04, published on July 20, 2006), as well as in the production of material handling machinery (see Russian Federation patent No. 2271982, published on March 20. 2006). Known devices for regulating thread tension are complex in design and manufacture.

Devices for regulating thread tension that are simpler in design are known, in which electromagnetic thread tension devices are used (see, for example, author's certificate No. 792320, published 12/30/80, RF patent No. 2602616 according to IPC B65H 59/36, published 30.07 .1994).

However, known devices for regulating thread tension are expensive, difficult to maintain, repair of the devices is often impossible and require replacement when they fail.

The technical result is to simplify the operation of the equipment while simultaneously increasing the stability of maintaining thread tension values and operating reliability, preventing thread breaks, as well as expanding the arsenal of technical means in the field of optical cable manufacturing.

The technical result is achieved in that the device for regulating thread tension for the cable core winding mechanism contains band brake devices, the pulleys of which are mounted on support shafts mounted for rotation on a support disk of the winding mechanism mounted on a tubular guide for the cable core, on the other side of which on supporting bobbins with threads are fixed on the shafts, directed to the cable core emerging from the tubular guide, and the brake bands are fixed at one end at equal intervals around the circumference on the support disk, and at the other end they are fixed through the brake band tension regulators on a gear wheel mounted on the tubular guide with the possibility rotation by means of a rotation drive. The support disk is fixedly fixed on the tubular guide. The driven gear rotation drive consists of a drive gear and a stepper motor mounted on a support disk. The brake bands are secured to the support disk by means of a bolted connection. The brake band tension regulators are made in the form of adjusting bolts with compression springs, screwed into brackets on the gear wheel. Aramid threads or glass threads are used as threads.

The essence of the utility model is illustrated by schematic drawings explaining thread tension control device for the cable core winding mechanism.

Figure 1 shows the proposed device for regulating thread tension; in fig. Figure 2 shows a fragment of the device (side view).

The thread tension control device for the cable core winding mechanism contains belt brake devices, pulleys 1 of which are mounted on support shafts 2 mounted on a support disk 3, fixedly mounted on a tubular guide 4 with a die for passing threads (not shown in the drawing). On the other side of the support disk 3, bobbins 5 with threads 6 are fixed on the supporting shafts 2, directed to the cable core 7 emerging from the tubular guide 4. Brake bands 8 are fixed at one end at equal intervals around the circumference on the support disk 3 by means of a bolted connection 9, and the other end is secured through brake band tension regulators in the form of adjusting bolts 10 with compression springs 11 on the driven gear 12, interacting with the drive gear 13 of the rotation drive with a stepper motor 14 mounted on the support disk 3. The tubular guide 4 is mounted on supports with the possibility rotations (not shown in the drawing). The support shafts 2 are mounted on the support disk 3 using bearings 15. The driven gear 12 is mounted on a tubular guide 4 using a bearing 16.

The adjusting bolts 10 are screwed into brackets 17, fixed at regular intervals around the circumference on the driven gear 12. The number of tape brake devices is determined by the number of threads 6 required in the manufacture of a particular optical cable.

The device works as follows.

Before starting work, after installing the bobbins 5 with thread 6 on the supporting shafts 2, the tension of the thread 6 is checked using a dynamometer, which is adjusted by the position of the adjusting bolts 10 with compression springs 11. This operation is performed for all band brake devices.

At a given linear speed of movement of the cable core 7 and a given speed of simultaneous rotation of the tubular guide 4 with the support disk 3 and the driven gear 12, the threads 6 passing through the holes of the die fixedly mounted on the tubular guide 4 for the passage of threads (not shown in the drawing) are twisted around cable core 7 with a given winding pitch.

When the diameter of the winding of the threads 6 on the bobbins 5 decreases during the production of thread 6, the tension of the threads 6 increases. To compensate for the increased tension of the threads 6 during operation of the device, software control of the tension is carried out in accordance with the software.

The change in the force of the band brake devices occurs when the position of the driven gear 12 shifts relative to the support disk 3 using a rotation drive with a stepper motor 14. The driven gear 12 and the support disk 3 rotate together with the tubular guide, since the driven gear 12 is fixed by the rotation drive , the stepper motor 14 of which is mounted on the support disk 3.

The stepper motor 14 of the rotation drive periodically shifts the position of the driven gear 12 with the ends of the brake bands 8 attached to it, thereby weakening the compression spring 11 and the action of the band brake devices so that the tension of the threads 6 when the winding diameter on the bobbins 5 decreases is unchanged.

The tension control of threads 6 is controlled on the touch control panel, where the maximum tension value and the corresponding signal level from the stepper motor sensor 14 are entered. To indicate the operating mode of the device, data is entered for automatic tension control as threads 6 are produced on bobbins 5. On the touch panel The device is configured to calculate the tension of threads 6 on bobbins 5. The following parameters are set on the touch panel: the diameter of bobbins 5 with thread 6, winding length, winding pitch, working tension of thread 6 and data on the current work is displayed. The device's operating limits are configured.

The thread tension control device adjusts the tension automatically as the thread is used.

The proposed device provides automatic regulation of thread tension, reduced tension fluctuations with minimal control error, convenience and ease of maintenance with the ability to adjust tension during equipment operation.

The tests confirmed the achievement of the technical result.

Claims (6)

1. A device for regulating thread tension for a cable core winding mechanism, characterized in that it contains band brake devices, the pulleys of which are mounted on support shafts mounted for rotation on a support disk of the winding mechanism mounted on a tubular guide for the cable core, on the other side of which there is a the supporting shafts are secured with bobbins with threads directed to the cable core emerging from the tubular guide, and the brake bands are fixed at one end at equal intervals around the circumference on the support disk, and at the other end they are secured through the brake band tension regulators on the driven gear mounted on the tubular guide with the possibility of rotation by means of a rotation drive. 2. The device according to claim 1, characterized in that the support disk is fixedly mounted on the tubular guide. 3. The device according to claim 1, characterized in that the drive for rotation of the driven gear consists of a drive gear and a stepper motor mounted on the support disk. 4. The device according to claim 1, characterized in that the brake bands are secured to the support disk by means of a bolted connection. 5. The device according to claim 1, characterized in that the brake band tension regulators are made in the form of adjusting bolts with compression springs, screwed into brackets on the gear wheel. 6. The device according to claim 1, characterized in that aramid threads or glass fibers are used as threads.