DE641408C - Single-phase or multi-phase ironless inductor with a coil system formed from one or more ring-shaped or cylindrical winding layers, fastened between components - Google Patents

Description

To suppress short-circuit currents in high-voltage systems, single © or multiphase ironless choke coils are used, which consist of a coil system that has 5 or more ring or cylindrical winding layers. The individual turns of the coils are built into a frame that made of metal or concrete. If a metallic frame is used, pressure plates are used which are held together by bolts. When using concrete, the frame can consist of sectors arranged at a distance from one another, which are connected by a concrete disc, the individual turns of the .. spool pass for multi-phase coils of the individual phases can be prepared in this manner and are one above the other set, with the interposition of insulators by the sectors If the upper part to lie -the coil in the vicinity of a part, so he can also using insulators on this be attached so that the ü Stacked parts cannot shift or tilt.

According to the invention, in the event that the choke coil, be it a single-phase, be it a multi-phase, arranged between components, the assembly and one · / construction of such a coil can be significantly simplified in that it becomes a coil system Corresponding winding layers from each other only by means of individual insulating spacers are separated, and that the coil system from the components only by pressure isolators insulated and clamped against the components by special, adjustable clamping devices is.

Compared to the installation of a choke coil in metal frames with bolts, the new arrangement has the particular advantage that the clamping bolts are omitted, which by the coils themselves passed through or were installed in their immediate vicinity. Metallic bolts have the disadvantage that they allow flashovers, whereby the The amount of allowable voltage for the coils is limited. Made from insulating material Clamping bolts require a special design. Your strength is limited the delivery time is long and the cost is high. Compared to the one described, with concrete housing manufactured choke coil, the new coil is lighter. It can be much faster manufactured. because the sectors of the concrete choke yes using auxiliary boxes must be cast around the turns and tamped. In case of damage are their components easily replaceable,

The patent seeker stated as the inventor:

Lorenz Soelch in Berlin-Tempelhof.

while for a concrete choke the whole coil or a phase with the concrete sectors removed and replaced with a new one. The heat dissipation is also with the new choke better because the concrete slabs: on which the sectors of concrete slips stand, impede the movement of cooling air. The insulation can also be chosen to be stronger for the new choke than for ίο the concrete throttle; because the new one Choke used alone, individual insulating spacers can consist of unhygroscopic Material can be selected that has a greater insulating capacity than the hygroscopic concrete. The new throttle, coil can therefore be designed for much higher voltages. Will be used with multiphase coils the phases are arranged in such a way that alternating forces occur between the individual phases, becomes insulators in the case of a concrete choke, between the concrete pieces and the components with feet and putty-up caps, the putty is destroyed by the repulsive and attractive forces. It works ? _5 then metal on porcelain, and the porcelain can also be destroyed. The components between which the coil lies can be damaged. This is how they are made from the usual materials Floors and ceilings rubbed at the joints, and the whole coil system loosens themselves. When using the new throttle, there is therefore a considerable number of Benefits.

In the figures, arrangements of choke coils according to the invention are shown. With ι and 2, the walls of the structure, such as the ceiling and floor of the Cell, referred to, in which the choke coil is arranged. 3 and 4 are pressure isolators, z. B. made of porcelain, which press against the winding 5 of the choke coil. There are additional print 4.5 between the individual layers 5 of the inductor winding Pieces 6 of insulating material switched on, which provide the necessary distance between each Secure winding layers.

To the mechanical tension under which the turns of the inductor coil are held are to be able to change at will, the compressive forces from the wall 1 of the building Transferred to the pressure insulators 6 by screws 7. The screws 7 can be threaded into the Ceiling ι of the structure embedded anchors 8 are moved.

. . In the Fig. Ι is the installation of a single ■ piiasigen ironless inductor shown, ■ in the same way can also be multiphase ; sige choke coils, e.g. B. for a three-phase system, as it is in Fig. 2 is illustrated. The * individual phases are arranged one above the other and insulated from one another by pressure insulators 9.

In the arrangement shown in Fig. 2, the screw is not in the wall, but between the wall of the structure 1 and the one against the turns of the inductor laying pressure insulators 3 arranged.

The invention makes it extremely easy to install ironless inductors in buildings where, apart from the tensioning screws and the pressure insulators, no special parts for the restraint are required. A particular advantage of the arrangement described still consists in the fact that there are no metal parts in the vicinity of the choke coils, the eddy currents that arise in such metal parts give rise to losses could give.

Claims (3)

Patent claims: 1. Single-phase or multi-phase ironless inductor fixed between components with one formed from one or more ring or cylindrical winding layers Coil system, characterized in that it becomes a coil system Corresponding winding layers from each other only by means of individual insulating spacers that the coil system is isolated from the components only by pressure insulators and by special, adjustable clamping means is clamped against the components. 2. choke coil according to claim 1, characterized in that as an adjustable Clamping means adjustable pressure screws are provided. 3. choke coil according to claim 2, characterized in that the pressure screws are embedded in the components supporting the coil system. For this purpose ι sheet of drawings