DE946299C - Circuit arrangement for suppressing radio interference in universal motors for connection to various voltages - Google Patents

Description

Circuit arrangement for suppressing radio interference in universal motors for connection to different voltages It is known, universal motors for the Optional connection to direct and alternating current as well as to various mains voltages to be provided with two separate armature windings, which are led to two commutators are. The two armature circuits are optionally connected in parallel or in series connected to the field winding, which can also consist of several parts or has several taps. The disadvantage of the known designs of this Kind is that in the arrangement of the changeover contacts no consideration a symmetrical arrangement of the field coils was taken, but this was the case with these motors is necessary to avoid radio interference. It is also known for engines with an armature winding and a commutator to symmetrize the field winding in order to To reduce radio interference.

The invention shows how it is possible with the former engines with two armature windings in a simple way despite different mains voltages Maintain symmetry of the field winding.

According to the invention, the field winding is divided into four separate from one another Split parts, two of which are symmetrical about the armature winding and one the other two parts of the field winding symmetrical to the other armature winding are arranged in a fixed circuit. These two from armature winding and field winding parts existing groups can optionally be parallel or in series be switched.

The field winding has already been proposed to solve the same problem to be divided into only two separate parts and one part in series with one side of one armature winding and the other part of the field winding to be arranged in series with the other side of the other armature winding in a fixed circuit. With the higher mains voltage, both groups are connected in series; while at the lower mains voltage only the two armature windings themselves are connected in parallel will. This circuit has the disadvantage that the wire size of part of the field winding for the higher current occurring with the lower mains voltage got to. In the circuit according to the invention, however, this is not necessary because at the lower mains voltage, the current is split into two parts of the Field winding branched .. The space required for the field winding is accordingly smaller.

In Figs. I to 6 are several embodiments of the invention shown. In Fig. I the two commutators of the armature are labeled a and b. The field winding consists of two coils c, c 'and d, d' which are divided in half. Of the Commutator a is connected between the partial coils c, c ', while commutator b between d, d 'lies. The partial coils of the same name are expediently on one pole, if the machine has two poles, so you can use different poles for machines with multiple poles Poland lie. The free ends of the coils are connected to a four-pole terminal board the terminals 1, 2, 3, 4. If terminal I is connected to terminal 2, then the armature and field windings connected in series. However, if terminal I is used with 3 and Terminal 2 is connected to 4, so there is a parallel connection. The net lies in both Cases at 3 and 4. The small number of switching terminals is achieved in that Each armature circuit is assigned a split field winding in a fixed circuit is.

In some cases it is necessary to provide an additional winding for the direct current connection in order to achieve the same speed in direct and alternating current operation. According to the invention, this additional winding is connected on one side to two sub-coils of the main winding as shown in Fig. 2. Here the additional coils e and f are on different poles. An eight-pole terminal board is required for switching over and connecting the motor. When operating with alternating current, the circuit is as shown in Fig. I, with the network in 3 and 4. For direct current, two terminals 7 and 8 are arranged, which are firmly connected to terminals 5 and 6, respectively, on which the free ends of the additional windings e and f are located. For series connection, terminals I and 2 must be connected for direct and alternating current operation. When operating with direct current in parallel, however, terminals I and 5 or 2 and 6 must be bridged.

To simplify the switchover, you can use one in a known manner use common switch; who makes the switch at the same time. In some In cases it is useful to use a simple switching device directly with the Connect motor. Such is shown in Figs. 3 and 6.

The connections of the motor windings are routed to contacts I to 6 of a contact board B (Fig. 3) according to the circuit shown in Fig. 2. For the connection to the mains, the terminals W are used for alternating current; W, terminals G, G are provided for direct current. The switching from series to parallel connection is done here by a switching strip S, which can be placed in three different positions on the contact board B as shown in Fig. 4, 5 and 6 and thereby establishes the necessary connections.

The capacitor required to eliminate radio interference It is practical if K lies between the connection terminals 3 and 4.

As can be seen from the figures, the Commutators between two parts of the field winding. So it will in any case a strong suppression of the disturbances through the throttling effect of the field winding achieved.

Claims (2)

PATENT CLAIMS: i. Circuit arrangement for suppressing radio interference for universal motors for connection to different voltages with two armature windings, which can optionally be connected in series or in parallel, characterized by that the field winding is divided into four separate parts, of which two parts (c, c ') symmetrical to one armature winding and the other two Parts (d, d ') arranged symmetrically to the other armature winding in a fixed circuit are, and that these two consisting of armature winding and field winding parts Groups can be switched either in parallel or in series. 2. Circuit arrangement according to claim i with symmetrically arranged, additional winding for the connection of the motor to a direct current network with unchanged speed compared to operation with alternating current of the same voltage, characterized in that one part of the Additional winding (s) is at one end of one group while the other Additional winding (f) is at the other end of the other group. Considered Publications: VDE regulations 087q: / 1936, p. 7, Fig. I 112; German patent specification No. 731 q.62.