DE587381C - High voltage transformer, especially voltage transducer - Google Patents

Description

High-voltage transformer, in particular voltage transducer In: the additional patent 579 677 describes a high-voltage transformer, in particular voltage transducer, according to main patent 576 o8i for use as a tap transformer or choke coil with variable inductance, in which the winding layers opposite the coil box flange are tapped through the known tapping Flange are guided to contacts arranged on this. In the subject of the main patent, it has been shown that when using the transformer or transducer for very high voltages, it is advantageous to control the potential of the connection or execution insulator.

According to the invention, the contacts arranged on the flange can for this purpose or connections located above the flange. So it can when in use of the idea expressed in the additional patent for the subject of the main patent those through the punctures and the execution isolators that may be attached to them led out potentials for the otherwise known inevitable control the potential distribution on the insulating body, in particular the terminal insulator, is used will. The housings connected in Kasklde can be used as insulating bodies, for example Current transformers come into consideration, in which it is known, the iron core of the individual systems to apply an inevitable potential by fitting it finitely to a coil Potential of a voltage converter.

. In the figures are exemplary embodiments according to the invention shown. According to Fig. I, in which a thread-roll-like shape one-piece bobbin case i i which extends over its entire axial length Layer winding 12 introduced and connected in such a way that its beginning at the grounded Sheath i9 lies and its end is led out through the connection insulator 17. the Upper span winding is tapped approximately in the middle at the point i So and that The potential of this point is led out through a perforation 63 in the flange 16, which is drawn in dotted here. This puncture is involved with the Flange 16, one piece of execution insulator 151 on. That by means of a wire through the flange and the connection insulator potential is applied to a the conductive ring 152 placed around the terminal isolator 17 a Wire 1.53 applied. Thereby the potential distribution on the connection insulator 17 controlled.

According to Fig. 2, two voltage transformers designed according to Fig. I are placed on a common square iron core 1.34 in such a way that the connection insulators 17 and the execution insulators 15i of the taps are facing away from one another. The iron core 154 is suspended via an insulator suspension chain 155 and insulated from half the high-voltage potential. A cross-coupling winding 156. In the embodiments is insulators 17 conductive rings 152 are provided which are controlled by the potential of the taps on the lines 153 on its from the one-piece coil boxes ii comprised legs. In this case, the potential of the taps is still used to control the iron cores 157, 158 of a staggered current transformer, the windings of which are housed in bottle-like insulating bodies with passages extending transversely through them. The iron core of the top current transformer is earthed. The iron core 157 is controlled from the tap via a line 159 to approximately 3o kV and the iron core 158 from the tap via the line 16o to 6o kV. The end of the high-voltage winding of the voltage converter is connected via line 161 directly to a terminal of the current converter connection 162 at about go kV. Voltage transformers and current transformers are shown in a hanging arrangement, which does not exclude the possibility that this set of transducers can also be used upside down by simply reversing it.

Fig.3 shows a section through the perspective shown design of the voltage converter with a partial section through the windings and the jacket, only with the difference that here there is another tap 162, which is through a. Piercing 163 and an adjoining execution insulator 16: 1. is led out to the other side of the one-piece insulating body ii. In this case, there are perforations 63 and 163 in both flange parts 16 of the one-piece bobbin 1 . This results in the advantage that the potential control lines emanating from the ends of the execution insulators 151 and 164 can be continued separately from one another through the length of the coil box plus the execution insulators.

Applying this embodiment to Fig. 2 results in that the control line 16o from the execution isolator 151 and the control line 159 would start from the execution insulator 164 if the coil box according to Fig.3 rotated by 180 ° would be installed in the arrangement according to Fig. 2.

Claims (3)

PATI; NTANPIZLCHE: i. High voltage transformer, especially voltage converter, for use as a tapping transformer or choke coil with variable inductance, in which the winding layers are tapped opposite the coil box flange and the taps passed through punctures of the flange to connections arranged above the same are according to additional patent 579 677, characterized in that the punctures and any execution insulators attached to it Potentials for the otherwise known inevitable control of the potential distribution are used on insulating bodies, in particular the terminal insulator. 2. High voltage transformer according to claim i, characterized in that there are piercings in both flanges are. 3. High-voltage transformer according to claim i and 2, characterized in that that when assembling two coil boxes on a common, high voltage lying square iron core with punctures on flanges facing away from each other are. High-voltage transformer according to claims i to 3, characterized by the Continuation of the potentials led out from the connection insulator to in insulating housings current transformer systems located in cascade.