DE386559C - Machine for the conversion or for the simultaneous generation of alternating currents of different frequencies - Google Patents

Description

Machine for uniformity or for the simultaneous generation of alternating currents different frequency. For the conversion or simultaneous generation of alternating currents different frequency a machine has already been specified in which the alternating currents of different frequencies in a common induced winding can be superimposed and then separated by special circuits. At this known design but the achievable frequency ratio is dependent on the number of phases; and that only comes low-frequency polyphase current and High-frequency single-phase current into consideration. This makes it possible to use the machine very limited.

This inconvenience does not arise in the invention. The induced (stator) winding is designed as a continuous, self-contained ring or drum winding and is evenly distributed with a number of taps corresponding to the number of poles in the field with a high number of poles and the number of phases. The low-frequency alternating current can then be tapped between tapping points which are distributed over the winding according to the number of phases of the high-frequency current. It is only necessary for the winding parts lying between two such points to be traced back to groups of two bars connected in series and separated by an even number of poles of the field with a high number of poles. The various taps of the winding form a plurality of systems of this type, on each of which there is a pure voltage of low frequency. On the other hand, a voltage of high frequency also occurs between the connection points of different systems, but not pure, but together with a voltage of low frequency. In order to obtain the pure high frequency alternating current, a separation is thus required which can be sawn by means of a werkstelligt to the taps i connected Transforinatorensystems.

An embodiment of the invention is shown in the drawing, and it is assumed that the field for the low frequency has two poles, which has six poles for the high frequency j, the number of poles ratio is I 1: 3, and that the two currents are three-phase currents are. The stator winding (Fig. I) is designed as a continuous, self-contained drum winding, similar to the normal armature winding, with a winding pitch approximately equal to one pole pitch of the field with a small number of poles. This winding now has nine evenly distributed taps (Fig. 1a) corresponding to three phases and three pole pairs. The taps 1-q.-7 are points of equal potential with regard to the high frequency, as are the taps 2-5-8 and 3-6-9. If, for example, the taps 1-4-7 were to be connected to one another, a current of the high frequency could not occur in the connecting lines. In contrast, these tapping groups do not have the same potential with regard to the lower frequency, but rather form the connection points of a three-phase system for this purpose. There is a potential difference between the three groups of taps themselves for both the high frequency and the low frequency. So you can probably get the small frequency separately by z. B. at points 1-q.-7 of the winding, but not the high frequency, for example by connecting to points 1-2-3-A complete separation of the high frequency from the low frequency can be achieved by connects the taps to a transformer system, as shown in Fig. 2. The taps 1-q-7 are on the small ones of the primary winding of a transformer A, the taps 2-5-8 on the terminals of the primary winding of a second transformer B and the taps 3-6-9 on the terminals of the primary winding of a third transformer C. Each of the three transformers A, B, C is connected in star, and the star points 10, 11, 12 are connected to the terminals of the primary winding of a fourth transformer D. The pure current of the high frequency then appears in the transformer D, since the low frequency does not generate any voltage difference between the three star points 10, 11, 12. The three-phase currents of the low frequency can be taken from the secondary windings of the transformers A, B, C (not shown), the three-phase currents of the high frequency from the secondary windings of the transformer D.

With a corresponding change, the innovation is also applicable to other pole and phase numbers can be used.

Claims (2)

PATENT CLAIMS: i. Machine for forming or for simultaneous Generation of alternating currents of different frequencies with for the different alternating currents common induced winding, characterized in that the self-contained induced winding of groups of two around an even number of poles of the field with a high number of poles is made of distant conductors lying in series and with tapping points which result in a plurality of low frequency systems while the neutral points of these systems are the connection points for the high-frequency current form. 2. Machine according to claim i, characterized in that the tapping groups (1, q., 7; 2, 5, 8; 3, 6, 9) which are determined by the number of phases times the number of pole pairs of the field of high number of poles and which result in the systems of low frequencies are connected to transformers (A, B, C) are connected and at the star points of these transformers (A, B; C) there is another transformer (D) for the high frequency.