DE1564487A1 - Device for winding toroidal cores with wire - Google Patents

Description

Apparatus for winding toroidal cores with wire The present The invention relates to a device for winding toroidal cores with wire with a rod carrying a supply of wire to be wound up and with this on leading to a closed trajectory. not passing the core opening Grippers.

There are wire winding devices known, which as a winding = organ have straight rod on which a wire supply reel is placed. When unwinding of the wire from the spool, it can rotate freely on the rod. This staff is moved by a device which has grippers which the rod through the Move the opening of the toroidal coil, but the toroidal coil itself does not pass through this opening. The disadvantage of such devices is that through the opening of the to be wound Coil not. only the rod has to be passed through, but also the one on it sitting wire supply reel. Another disadvantage is the fact that the rod passage the opening of the toroidal coil only holds the rod at one end and the other end of the rod is released from the gripper. This is how the Rod as a cantilever beam, thereby reinforcing the rod diameter up to the dimensions is required which can ensure sufficient rigidity. With such-known Devices can be used to wind toroidal cores with an opening diameter of less than 2 mm cannot be carried out.

There are also known winding devices that the winding of toroidal coils with an opening diameter of less than 1 mm. However, these devices show the disadvantage that the winding is carried out with only short wire sections can be.

The purpose of the invention is to avoid these disadvantages. The invention has for its object to provide a device in which a-. A rod carrying a large (e.g. over 1 m) supply of wire through an opening with a diameter of 0.8 mm or more moves and in this way the winding multilayer toroidal coils with an opening after winding of o, _8mm and more can be done. The task was solved by that the rod is arcuate and the gripper mechanism moving the rod the rod always, even at the moment of passage through the opening of the toroidal core holding onto at least two points at both ends of the rod at the same time Has gripper.

The mechanism for moving the rod can be two rotating discs have, on which grippers are arranged in guides with their head ends clamp one or more bars.

In the drawing is an embodiment of the subject matter of Invention showna It shows: Fig. 1 an arcuate rod with a wire supply; Fig. 2 shows the device for moving the rod; Fig. 3 shows the device according to Fig. 2 in. Top view; FIG. 4 shows the frame of the rod shown in FIG Furnishings. The wire supply 1 is in the form of a spiral on a arcuate rod 2 attached; the inside diameter of the spirals is around 0v05 - 0.1 mm larger than the rod diameter "One end 3 of the wire of the spiral is passed through the opening 4 in the rod and on the toroidal core to be wound 5 attached. When operating the winding device, the rod is in a circular path, the radius of which equals the radius of the curvature of the rod, moved through the opening of the core, wherein the wire is unwound from the wire spiral rotating on the rod and is wound on the toroidal core. The tensile force for keeping the wire taut is caused by friction. the between the spiral and the conically thickened rod part 8 guaranteed performance.

The device points to the rod in the circular path. to move two Coaxially arranged disks 7 (Fig..2), rotatable on two half-axles 8 stored. on.

Openings are provided in the panes at the same distance from the center, in which the holding pins of the grippers 9 and 1o are arranged. Means Springs 11 clamp the holding mandrels with their head ends to the rod 2, the holding borne the grippers' 1o have grooves 12 on their end faces.

The rollers arranged in guides on the holding spikes of the grippers 13 prevent the holding pins from rotating about their axis.

The rod 2 is held at two ends by means of four pairs of retaining mandrels.

Both at the same time by means of gears 14 in loading wegurig offset discJewegen open the stick a circular path, the radius of which is equal to the radius of the curvature of the rod: stop cams 15 are arranged next to the torus to be wound.

The holding pins are when they are pushed one after the other Rolley13 to the stop cams 15 by this in pairs in opposite directions Direction moves, while they bypass the torus to be wound 'the rod but through Pass this through .. After the torus has been moved around, the holding pins slide of the Stop cams, approach each other and capture from the baton again.

The holding pins are arranged so that the rod during bypassing the same around the pie always remains gripped by three pairs of retaining pins, d. H. at both Ends is held. This ensures a stable seal for the rod.

Two guide jaws 16 (Fig. 2) are used to align the material to be wound Turns of wire.

Claims (1)

Claims 1. Device for winding toroidal cores with wire with a supply of wire to be wound up rod and with, this leading on a closed path of movement, not passing the core opening, gripper, characterized "that the rod (2) is arcuate and the The gripper mechanism moving the rod (2) always has the rod (2), even at the moment of passage through the opening of the toroidal core (5), at at least two grippers (9 and 10) which are simultaneously located at both ends of the rod.