SU1073812A1 - Machine for winding ring-shaped windings - Google Patents

Abstract

A device for winding ring-shaped windings, containing a spool with a reserve of a hole connected with a rotational drive, a slider installed in the guide elements of the spool, and a brake element in contact with the spool, characterized in that, in order to expand technological capabilities due to winding wires rigidity and increase in productivity, the device is equipped with a slider installed in the shupuli guiding elements and a longitudinally elastic element, for example, a tension spring, located in elements and one end connected to the slider, and the other end with a slider, with the braking element attached to the slider. (L from 00

Description

The invention relates to process equipment for manufacturing electric ring coils and can be used in the electrical, instrument-making and radio engineering industries.

A device for winding ring windings comprising a hook with a wire stripper attached to it, a spool with a margin of wire, a hook and a spool are concentric, the hook being connected to the drive of the device, and the spool being driven by the hook by a wire. To create the necessary tension on the wire, there is a brake attached to the frame and interacting with the spool.

This device is most common for winding medium and large windings. The spool, as a rule, carries a large supply of proyoda 1.

The disadvantage of such a device is the relatively low winding speed due to the dynamic load on the wire from the mass of the spool with a margin of wire when it is unevenly rotated.

Closest to the invention is a device for winding ring windings containing a spool with a margin of wire, a slider for removing the wire provided with a brake cooperating with the spool, and two spring-loaded cheeks located inside the spool, designed to tension the wire and guide the wire to the winding plane.

In this device, due to the uniform rotation of the shunt and the small mass of the slider, it is possible to significantly reduce the dynamic effect of the rotating parts on the wire and thereby significantly increase the winding speed 2.

However, this device has limited application with respect to the diameter of the winding wire. This is due to the mandatory use of spring-loaded cheeks for this device. After the maximum wire length has been drawn, a free loop is formed, which these cheeks serve to support. But in the cheeks, a relatively non-rigid wire can be routed, which are wires in enamel insulation up to about 0.4 mm in diameter. For more rigid wires, a stronger cheek effect on the wire is required, which violates the wire insulation.

The presence of cheeks is generally harmful to any wire in connection with the possibility of damage to the insulation.

The aim of the invention is to expand the technological capabilities of the device by providing winding of wires of different stiffness and improving performance.

The goal is achieved by the fact that a device containing a spool with a margin of wire associated with a rotational drive, a slider mounted in guides

the spool elements and the brake element in contact with the shaper are equipped with a slider installed in the spool emitting guides and longitudinally elastic element, for example, a tension spring located in the guide elements and connected at one end to the slider and slider, while the brake element is fixed to the slider.

FIG. 1 shows a common device

view; in fig. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one; in fig. 5 - the device, a general view on his work.

The device for winding the ring windings contains a spool 1 with a margin of wire wound in the direction opposite to the winding of the ring winding installed with the possibility of uniform rotation along arrow K (Fig. 1). Slider 2 is mounted on the sliders 1, to which roller 3 is attached. The slider is grooved (Fig. 2) to remove the wire from spool 1 and feed it to roller 3. Slider 4 is planted on the same guide spool 1, in which a screw 5 is installed, pressing the flat spring 6 to the surface of the spool 1. With the screw 5 it is possible to adjust the force of pressing the spring 6 to the slider 1 and thereby adjust the braking force of the slider 4 relative to the rod 1. With the screws 7 the slider 2 and the slider 4 are interconnected spring loaded

8, laid in the annular groove of shpuly 1 (Fig. 3).

The device works as follows.

The end of the wire, passing through the groove of the slider 2 and the roller 3, is fixed to the ring core and turns on the spinner in the direction of the arrow K. This is because the linear speed of the center of the roller 3 is less than the linear speed of the wire that comes off the spool and forms two branches. At the same time, the slider 4 moves with the linear speed of the spool 1, since the spring 6, which acts as a brake, holds the slider on the shaper 1. As a result, the spring 8, which connects the slider 2 with the slider 4, expands. The spring 8 is stretched until the friction force of the spring b is equal to the tensile force

springs 8. Subsequently, the slider 4 begins to slip relative to the spool 1 and move at the speed of the slider 2.

After the slider 2 passes point D (Fig. 5) at which the maximum stretching of the wire takes place, the effect of the wire on slider 2 ceases, since it must be weakened by further rotation of the pinch I due to the geometry. At the same time, the movement of the slider 4 relative to the spool 1 stops, and the spring 8 begins to contract, pushing the slider 2, which now moves at a linear speed, greater than the speed of the spool 1 and, pushing the wire, does not allow it to form a free loop, putting "extra the wire to the spool 1, and ensuring its tension.

The length of the spring tension must ensure that the “extra wire” is laid on the shaft, and also provide

The wire tension required. For this, it is desirable to have a sufficiently long spring with a “soft characteristic. The length of the tension of the spring 8 is defined as the difference between the maximum stretched wire and the semi-perimeter of the winding winding. By adjusting the braking force of the slider 4 relative to the spool 1 using screw 5, it is possible to obtain different tension values for different diameters and types of wires.

Thus, in the proposed device, the " excess wire " is wiped with a low weight without using guide cheeks, which increases the winding speed for more rigid wires with a diameter of 0.5 mm and above.

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Claims (1)

DEVICE FOR WINDING RING WINDS, comprising a spool with a supply of wire associated with a rotation drive, a slider installed in the guide elements of the spool, and a brake element in contact with the spool, characterized in that, in order to expand technological capabilities by winding wires of different stiffness and to increase productivity, the device is equipped with a slider installed in the guide elements of the spool, and a longitudinally elastic element, for example, a tension spring located in the guide their elements and one end connected with the slider - and others - with a slider, with the braking element is mounted on the slider.