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The invention relates to a coil former for a transformer comprising at least one connection strip at the area where connection wire ends and coil wire ends are interconnected by means of connection pins.
In known, commercially available transformer coils the connection pins are moulded in the connection strips. The coil wire ends are wrapped around these connection pins, preferably by means of automatic coil winding devices. The connection wires of the apparatus are connected to the connection pins at a later stage. It is often desirable that the transformer coils be presented directly with connected connection wires. In that case the connection wires must be secured to the connection strip and be connected to the connection pins, for example, by soldering.
From U.S. Pat. No. 2,929,132 it is known to provide the connection pins for transformer coils with a loop around which a connection wire end can be wound. A coil wire end is then wrapped around such a loop. Due to the necessary threading, this is a very time consuming operation which cannot be automatically performed.
An object of the invention is to provide a coil former for a transformer where the embedding of connection pins can be dispensed with while suitable fixing is still possible.
To this end, a coil former in accordance with the invention is characterized in that each connection pin is formed from twisted loop of the relevant connection wire.
Thus, in a coil former of this kind the connection wire end is used to form a connection pin which has all the properties of an embedded connection pin but which need not be provided as a separate component. It is merely necessary to provide an automatic winding machine with a device for pulling out and twisting the loop.
In a further embodiment in accordance with the invention, duct-shaped inlet paths for the connection wires are provided in the connection strip and at the area of the connection pins to be formed there are provided recesses in which the rectilinearly inserted connection wire can be picked up and pulled out to form a twistable loop. The connection pins can thus be simply formed in that a grip grips the wire in the recess and pulls out the connection wire to form a loop. After the wire is pulled out, the loop is twisted from the top by way of the grip, thus forming the connection pin.
In a further embodiment in accordance with the invention, a tooth-shaped projection projects into the duct-shaped inlet path, said projection having a flat run-on face in the wire insertion direction and a steep hold-back face in the opposite direction. This tooth-shaped projection thus forms a simple strain relief.
An embodiment in accordance with the invention will be described in detail hereinafter, by way of example, with reference to the accompanying diagrammatic drawing, in which:
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FIG. 1 is a perspective view of a coil former in accordance with the invention comprising connection pins in different stages of manufacture,
FIG. 2 is a sectional view, taken along the line II--II, of a detail of the coil former shown in FIG. 1, showing the inlet duct in which a connection wire end is inserted,
FIG. 3 is a sectional view, taken along the line III--III, of a corresponding detail, a loop being formed from the connection wire end by pulling out a central portion of the wire, and
FIG. 4 is a sectional view, taken along the line IV--IV, of a corresponding detail, comprising a connection pin, formed by the twisting of the pulled out loop, and coil winding wire ends connected thereto.
The coil former 1 shown in FIG. 1 comprises a connection strip 3 which serves to establish the connection between the coil wire ends and the connection wire ends. On the connection strip connection pins have to be formed from the connection wire ends themselves.
For each connection wire there is formed a duct-like inlet path 7 in the connection strip 3 (see FIG. 2). The part 11 thereof which is situated near the inlet aperture 9 has a larger diameter for accommodating the insulating jacket 13 which surrounds the connection wire 5. In FIG. 2, the connection wire is slid through the inlet duct 7 and beyond a pick-up recess 15. Transversely of the pick-up recess an aperture 16 extends in the upper part of the connection strip above the inlet duct 7.
A grip 21 (FIG. 3) which is only diagrammatically shown can grip the wire in the pick-up recess 15 in order to pull a loop 17 out of the inlet duct 7. The free, non-insulated end 27 of the connection wire 5 and the part provided with the insulating jacket 13 are then pulled in the direction of the pick-up recess 15 and the loop 17. The loop 17 is formed between the corners 22 of the recess 16.
The loop 17 has a gripping arc 19 which is arranged around the grip 21 and which is denoted by broken lines. When this grip is rotated around an axis 23, the loop 17 is twisted, thus forming the connection pin 25 shown in FIG. 4. The non-insulated connection wire end and the part of the connection wire insulated by means of the jacket 13 are then pulled very far towards the pick-up recess 15. A fixed position of the connection pin 25 is obtained by clamping the connection wire onto deliberately sharp corners 28 of the transition between the recess 16 and the pick-up recess 15. Around the connection pin 25 there are wrapped one or more coil wire ends 29 which are soldered or welded to the connection pin 25 obtained by the twisting of the loop 17.
A tooth-shaped projection 31 projects into the part 11 of the inlet duct 7, said projection comprising
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