DE52367C - Structure of the armature for dynamo-electric machines - Google Patents

Description

IMPERIAL

PATENT OFFICE

PATENT LETTERING

CLASS 21: Electrical apparatus.

Patented in the German Empire on August 16, 1889.

The dynamo shown in the drawing consists essentially of a cast frame G with a base plate and two side plates PPj, as well as a magnet system JV S and an armature A.

Eight magnetic cores ι to 8, Fig. 1, are attached to both side plates. The coils are completely wound and pushed onto the magnetic cores. The magnets of one side plate, Fig. 2, all have north poles JV on the side facing the armature, those of the other south poles S, so that a south pole is opposite each north pole.

The armature A is made of sheet iron which, as shown in FIG. 2 in cross section, is wound over one another to form a very flat ring. The width B of the ring is greater than usual, in order to produce south poles on the parts of the anchor opposite the north poles and north poles on the parts of the anchor opposite the south poles, in other words, in order to create the lines of force, starting from the north poles, through the iron of the anchor to pull the southern poles without them flowing past the anchor through the air.

The winding is carried out in such a way that the wire, starting from the right, is attached to the right Lateral surface of the anchor raised - as the arrows in Fig. 2 indicate - on the outer Circumference of the ring passed to about the middle, then pushed through the iron, . on the inner circumference of the ring to the left and on the outer side again is led upwards so that the winding wire has the shape of a | _J ~ 1.

Why it is necessary to carry out the winding in this way is shown in Fig. 3 to see that if a magnet system with north poles is a magnet system with south poles juxtaposed and a wire is led past both, a current in the latter arises, which runs either upwards in both wires or downwards in both wires, depending on whether one approaches from the right or the left. From this it follows that the two are mutually exclusive Currents would cancel out if the winding were carried out as in the known dynamos; therefore it is necessary Guide the wire through the iron at the neutral point of the anchor.

Instead of using copper wire for winding, you can use the iron sheet of the anchor use at the same time as the power line. One then gives it the form of a continuous w, Fig. 4, and turns it into an n, 5 shows the form in which it is wound into a ring.

The side plates are slotted at the points χ so that the anchor between the same respectively. the magnets can be brought. Since the winding moves continuously in front of the north pole on the one hand and continuously in front of the south pole on the other, and since this movement, as is well known, only produces a current of one direction, it is clear that there is only one current in the whole armature Direction is present; you therefore need neither commutators nor current collectors with this machine, but only two slip rings CC ¹ to which the two ends of the armature winding are connected.

Claims (2)

Patent claims: ι. An armature winding for dynamo-electric machines in which the poles of the magnetic Are distributed in such a way that on different sides of the anchor unlike, On the other hand, poles of the same name lie on the same side of the armature, characterized by the arrangement of the armature wire on an iron core in such a way that the pieces of wire lying on both sides of the anchor pass through alternately a core-penetrating lead wire connecting the upper end of one with the lower end of the opposite Wire piece and vice versa connects to be combined into a self-contained line. 2. Instead of the copper wire winding arranged on an iron core, the structure the armature winding from an iron band running in a zigzag shape according to FIG. 4, which is bent to complete the ring in such a way that the between the vertical pieces exposed to the induction, oblique pieces of the tape lying crosswise towards each other come lying down. For this purpose ι sheet of drawings.