DE80436C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

As is known, the apparent resistance of an electrical conductor with self-induction increases with increasing number of pole changes. This phenomenon becomes apparent in the present invention used to avoid the starting resistances in prime movers and to be more advantageous to be able to regulate. Namely, a DC machine becomes independent in itself moving current reversing device and in a so-called electrically connected to the latter asynchronous rotary field drive machine disassembled. As a result, AC operation is as it were introduced and the self-induction which occurs can be expediently utilized.

Such an arrangement is shown in the drawing. The main circuit α c is led to the slip rings S ₁ S _{2 of} the commutator K ; with S ₁ respectively. S ₂ connected brushes b _{ & ₂ , which from the z. B. be driven on the same shaft seated DC drive machine T and grind over the fixed rails of the commutator K , let the direct current in the coils 1, 2, 3, 4 of the ring jR; this creates a rotating field in R, which takes along the armature A , which is provided with a short-circuited winding. Since the commutator K is now independent of the main drive shaft of the armature A , the brushes b _t b ₂ can be moved as quickly as desired.

Due to the aforementioned Er-. appearance, tempering is as follows:

The entry of the current into the commutator is previously interrupted in the off switch U , only the commutator drive T can be switched on; if more current is supplied to it, for example by switching off resistor W , its speed increases, and at the same time that of brushes b ₁ b ₂ \ at a correspondingly high speed, the main circuit in U is now closed first; but only a small current goes to R as a result of the high self-induction, the apparent resistance in R. If the rotational speed of T is now slowed down, e.g. B. by switching on the resistance Wim circuits of the commutator drive machine or by braking the same, then the apparent resistance in R decreases until finally the current is sufficient to set the armature A in motion. The further speed control is carried out by changing the number of revolutions of T. Shutting down of A is done either by interrupting the main current in U or increasing the speed of T. A flywheel controller can be connected to the commutator drive machine T , which is mechanically coupled to U in such a way that only if the number of revolutions of T is high enough, it can be indented in U. The arrangement, design of the commutator K, the small driving machine T, the rotating field ring R (as a flat ring, drum, cylinder) can be changed in various ways, and it is

It does not matter whether the commutator K is fixed and the brushes are rotatable, or vice versa.

Claims (1)

Patent claim: Starting process for rotary field drives whose operating currents are by means of a special Auxiliary motor-operated reversing device removed from a direct current source are characterized in that when the main circuit is open, the auxiliary motor is initially set to the highest possible speed brought and only then the connection of the main circuit with the rotating field ring is established, so that due to the initially high apparent resistance (self-induction) in the rotating field ring only a slow one Increase (creep) of the current with decreasing speed of the commutator can take place for the purpose of bypassing starting resistances. For this purpose ι sheet of drawings.