DE916434C - Induction-free execution of the compensation connections of the third kind for double parallel windings of three-phase commutator motors - Google Patents

Description

For rotor-fed three-phase commutator motors, the power is per pole pair due to the transformer which is within certain limits for good commutation Lamella tension limited, which determines the size of the maximum power flow per pole. For these reasons, one is forced to use multiple parallel windings for higher outputs, in particular two-start parallel windings to be used.

As is well known, a two-start parallel winding requires execution of compensation connections of the third kind. These compensation connections must be induction-free be relocated. Usually the compensation connections of the third kind, the connect the heads of the windings of the first parallel gear with the lamellas which switched on the adjacent coils of the second parallel gear of the winding are laid within the rotor between the shaft and the laminated core. Through this they are withdrawn from the influence of the magnetic field.

This implementation of the compensation connections of the third type is very expensive and difficult to implement, especially with rotor-fed three-phase commutator motors, where the direct current winding is in the same slots as the three-phase winding and on the latter lies.

To overcome these difficulties, it is known to use the Compensating connections of the third kind with two-start parallel windings through auxiliary windings replaced with a shortened winding step. On the other hand, one also switches to the commutator ratios To improve a three-phase commutator motor, as is known, resistances between the individual coils of the direct current winding and the associated laminations.

The new design of the compensation connections of the third kind for two-speed parallel windings of three-phase commutator motors is with the use connected by the above mentioned resistance connections between the coils and the lamellas, where the known type of laying of the resistance wires in the grooves is used. The invention relates to the induction-free design of the compensating connections third type for two-speed parallel windings of three-phase commutator motors, which is characterized by the fact that the soldering points that form the beginnings and ends of the Connect winding coils together on the side facing away from the commutator the winding and by known resistance wires lying in the grooves are connected to the commutator bars and the compensation connections from the winding heads lying on the commutator side by the shortest route outside of the Guide iron to the corresponding slats. The advantage of such a design the compensation connections consists in the fact that the induction-free laying on the simplest way can be made outside of the laminated core and that this Connections are very short and therefore have an extremely low resistance. In addition, the equalization connections are significantly easier to produce, a better overview of the circuit and a lower copper consumption. Not least the heat loss of the compensating connections is significantly reduced.

The figure shows a schematic double-turn parallel winding reproduced. With w1, w2 etc. are the resistance connections between the armature winding and commutator. The associated collector lamellas bear the numbers I, 2, etc. From the illustration it can be seen that, for example, on the dem Commutator side facing away from the winding soldering point l1 over the resistor connection w1 is connected to the lamella I. At the same time it is on the commutator side lying head of the second parallel winding s2 through the equalizing connection a1 connected to the lamella I. In the same way, the resistor connection leads from the soldering point l2 w2 and from the winding head of the loop s2 of the second parallel winding the compensation connection a2 to lamella 2. This type of switching can be followed from lamella to lamella.

The figure only gives an example of the application of the invention to a normal double parallel winding, of course it can can also be transferred analogously to other wave or loop windings, see above z. B. on the Latour winding, in the case of the two-start parallel winding a 2p-turn series winding is connected in parallel (p = number of pole pairs).

Claims (2)

PATENT CLAIMS: I. Induction-free execution of the compensating connections of the third type for double-speed parallel windings of three-phase commutator motors, characterized in that the soldering points that connect the beginnings and ends of the winding coils are on the side of the winding facing away from the commutator and by itself known resistance wires lying in the grooves are connected to the commutator bars and the compensating connections lead from the winding heads located on the commutator side by the shortest route outside the iron to the corresponding bars. 2. Induction-free execution of compensation connections of the third kind for two-speed parallel windings of three-phase commutator motors according to claim i, characterized in that it is for a Latour winding with resistance connections is used in which a 2p-turn series winding is used in addition to the two-turn parallel winding is connected in parallel.