SU130117A1 - Wire winding machine for small toroidal cores - Google Patents

Description

Machines are known for winding wires onto small toroidal cores using controlled grippers for moving the bobbin, the carriage carrying the grippers, and the copier guiding the grippers.

The proposed machine differs from the known ones in that the copier is made in the form of a disk with a closed shaped groove, in which the tail parts of the grippers are placed, moving along the groove with the engaging rotating disk, in the radial groove of which the carriage is located. Such an execution of the machine allows to increase its performance.

The drawing shows schematically the machine, top view.

The engine pulley through the belt 1 and the pulley 2 is connected to the shaft 3, which rotates the gear 4 mounted on the shaft 5 with its gear. The latter drives the disk 6 fixed on it, a non-slotted needle holder head and a carrier. The disk 6, rotating in the direction of arrow A, leads in the guides of its groove the head of the needle holder and the carrier.

In the guide grooves of the disk, the slider 7 moves, carrying the mechanism holding the needle. The movement of the slide to the center, then from the center of the shaft, 5 is as follows.

In the groove 8 of the copier 9, two ball bearing 10 are pressed, pressed on the protruding ends of the sleeves I, pressed into the housing 12. The housing is located in the opening of the slide 7. The disk 6 rotates and drives the slide 7 in its guides. in the direction of arrow A. The sub-bearings move along the groove S of the copier 9. When cornering, the body 12 rotates in the hole of the slider 7 in the direction of the groove 8 of the copier 9. During the movement of the slider 7, the slider 13 runs with a thickened end to the stop 14. This compresses the spring 15 and the second the end repels the sponge 16 holder and ly.

№ 130117-2-. The sponge moves away from the needle 17, the ends of the jaws J8 are not behind the earrings 19 and the axis 20. . (At this time, the needle moves through the hole of the toroid). At the same time gear 2 / runs onto the rail 22, -turns the needle holder in arrow B by 180 °. Following this, the rod 13 escapes from the stop 14. With the scrap of J5, the holder closes — the needle is squeezed after the toroid passes. Following this, the second needle holder triggers in the same order, seizes the second end of the needle after the passage of the toroid. In this manner, the needle is guided through the opening of the toroid. Then the needle goes in the direction of the groove in a circle, turning, makes a new approach with the same end, passes through the toroid in the same order, etc. In the needle's passage zone through the toroid, it goes along the straight line of the groove. After turning from straight to arc, the wire on the needle pulls on the core, unwinds from the needle at the farthest point from the center of the shaft 5. At the time of unwinding the wire, the needle rotates. The clamps open at this time so that the needle can easily rotate from the tension of the wire.

The toroid holder has a cross and longitudinal slide for convenient installation using handles 23. On the upper slide there is a holder consisting of three rubber rollers 24. Two of them are leading ones. The driven roller is fixed on the bracket 25. The latter, when adjusted, moves in the direction of arrow K.

Two leading rollers are fixed on the levers 26. The levers under the action of the spring 27, turning on the axles 28, the leading rollers press the toroid to the driven roller and hold it.

The rotation of the toroid is carried out from the shaft 5 through the tongs 29 mounted on the guitar 30 (the 29-shift tongs). The shaft 31, rotating from the splinters 29, rotates the flexible shaft 32. The latter rotates the screw to 33. Movement is transmitted from it by the worm gear 34, which rotates the axes 28. The axes 28 rotate the gears 35 fixed on them. These gears are parasitic gears 36 rotate the gears mounted on the axles of the rubber rollers 24. Thus, the rubber rollers rotate the toroid with the correct clamp in accordance with the diameter of the wire. Toroids of various diameters can be wound on the machine through a universal clamp. In all cases, the machine is benchtop.

The subject is invented and

A wire winding machine for compact toroidal cores containing a cable shunt, controllable grippers for moving the shunt along a closed path that passes through the window of the winding-up core, a carriage that grips the grippers, a copier, a guide gripper, and a mechanism for fastening and turning the core, characterized in that, in order to increase productivity, the copier is made in the form of a disk with a closed shaped groove, in which the tail parts of the grippers moved along the groove by means of a rotating disk are placed in for The groove is located inside the carriage.

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