NL8001887A - THREE-PHASE LOAD SELECTOR FOR BRANCH TRANSFORMERS. - Google Patents

Description

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Three-phase load selector for branch transformers. %

The invention relates to a three-phase load selector for branch transformers / in which the fixed branch contacts are located on the inner wall of a cylindrical oil vessel / and in which an insulating tube is mounted centrally within the oil vessel, which carries movable contacts and which is mounted on the upper end attached Malteser wheel can be rotated stepwise, with three movable rotary switch contact bridges between the branch contacts and the Malteser wheel around the insulating tube, each of which interacts with three fixed rotary switch contacts which are also located on the inner wall of the oil vessel and which are connected by means of a top end of the insulating tube alloyed and rotatable drive ring is limited relative to the insulating tube.

With such load selectors it is possible to subject the entire load selector / thus, for example, the rotary switch contacts to an examination in prescribed time periods. Placing the rotary switch contacts in the cylindrical oil barrel of the load selector, however, results in certain problems in addition to the advantage of good accessibility during inspection, in particular with regard to the voltage load of the rotary switch contacts. Obviously, because of the location of the rotary switch contacts in the cylindrical oil vessel, it is not desired to increase the extraction of the oil vessel beyond the size predetermined by the branch contacts. On the other hand, it should of course be taken into account that the rotary switch contacts are not placed in the pure oil of the transformer, but that they lie in the gradually contaminated oil of the load selector.

The object of the invention is to improve a load selector of the above-mentioned type, in order to achieve a high voltage breakdown strength at the rotary switch contacts when optimum use is made of the limited, available space, also taking into account that the oil within the load selector 800 1 887 - 2 - r gradually undergoes contamination and contamination. In order to achieve this object, it is ensured according to the invention that each contact bridge of the rotary switch at the bottom end is provided with a shell-shaped insulating part each extending in the longitudinal direction of the insulating tube, which is held by the drive ring. shaped contact bridge also extends in the longitudinal direction of the insulating tube.

According to the invention, the advantage is achieved of good utilization of the available space and furthermore an increase of the voltage breakdown strength at the movable part of the rotary switch. If the entire circumference of the cylindrical oil vessel 15 is nevertheless available for the arrangement of the fixed rotary switch contacts, the circumference at the location of the movable rotary switch contacts, because they lie in the interior, becomes considerably smaller. By using three shell-shaped carriers for the movable rotary switch contacts, eg instead of a further insulating tube and by arranging both the carrier of insulating material and the contact bridges of the rotary switch in the longitudinal direction, in particular the distance between the contact bridges of the phases of the rotary switch, or the bridging over the insulating parts which may have arisen due to soot deposition is considerably more difficult.

The invention will be explained in more detail below with reference to the single drawing, which shows a cross-section of a favorable embodiment of the load selector according to the invention.

The favorable embodiment of the load selector according to the invention shown in the single drawing mainly consists of a cylindrical oil vessel 1, which is closed by a bottom flange 2 and by a cover 3 and which carries the fixed branch contacts 4, of a space 35 insulating tube 5 centrally located within the oil container, which carries the movable branch contacts 6 and which can be rotated stepwise by means of a Malteser wheel 7 via a drive mechanism 8 (not shown), and from a rotary switch 9, which is between the branch contacts 4, 6 and the drive part is also located in the space inside the oil barrel 800 1 887 - 3 - 1. The insulating housing 5, which carries the movable branch contacts 6, is / is mounted on the one hand on an bearing block 10 of the bottom flange 2 and on the other hand firmly connected with the Malteser wheel 7, which in turn is mounted on the cover 3. At the top end of the insulating tube 5 is provided around an intermediate piece 11 with an engagement ring 12 for the rotary switch 9, which can be rotated with respect to both the cylindrical oil vessel 1 and the insulating tube 5. This drive 12 carries three shell-shaped insulating parts 13, which extend in the longitudinal direction of the oil vessel 1, respectively. from the insulating tube 5 and each carrying a U-shaped contact bridge 14 of the rotary switch 9 at their lower end. The drive ring 12 is conventionally depending on the position of the drive by means of an expansion mechanism (not shown in more detail).

Maltese wheel 7 rotatable over the required switching step of the rotary switch. This rotary switch switching step moves the contact bridge 14, which has one end 16 along a sector-shaped fixed rotary switch contact 17, is dragged with its other end 18 from the first associated fixed rotary switch contact 19 to the second fixed rotary switch contact 15 located in the same plane. The fixed rotary switch contacts 15, 17 and 19, like the fixed branch contacts 4, are fixed in the wall of the cylindrical oil vessel 1. The distance between the individual fixed rotary switch contacts lying in one plane therefore represents the entire circumference of the cylindrical oil barrel 1 available. In order to also achieve a high voltage breakdown strength between the movable contact bridges 14 of the rotary switch, the three separate insulating parts 13 are arranged so that free oil paths are present between the individual phases of the movable part of the rotary switch 9, so that, despite the 35 oil barrel 1 smaller circumference prevents electric bridging between the phases. These insulating parts 13 become narrower at the lower ends, which bear the contact bridges 14, so that a large oil trajectory between the insulating parts is achieved here. The greater distance between the movable contact bridges 14 is also achieved in that 800 1 887 r-4 extend in the longitudinal direction of the insulating tube .5. In order to complicate harmful soot deposits on the insulating parts 13, these are provided with circumferential ribs '20. This in particular improves the voltage breakdown strength between the contact bridges 14 of the rotary switch 9 and the earth potential occurring on the drive part.

- conclusions - 8001887

Claims (3)

1. Three-phase load selector for branch transformers, wherein the fixed branch contacts are located on the inner wall of a cylindrical oil vessel and in which there is an insulating tube mounted centrally in the interior of the oil vessel, which carries the movable contacts and which is connected by means of a the top end of the Maltese wheel is rotatable in steps, with three movable rotary switch contact bridges between the branch contacts and the Maltese wheel being provided around the insulating tube, each of which interacts with three three rotary switch contacts which are also located on the inner wall of the oil vessel and which are connected by means of a rotary switch The top end of the insulating tube is alloyed and rotatable drive ring is limited and limited to the insulating tube and can be operated, characterized in that each contact bridge (14) of the rotary switch (9) is at the bottom end of a shell, in the longitudinal direction of the insulating tube (5) extending insulating part (13) is held by the drive (12), the ü-shaped contact bridge 20 (14) also extending in the longitudinal direction of the insulating tube. Load selector according to claim 1, characterized in that the insulating part (13) is narrower at the end bearing the contact bridges (14). 25 Load selector according to claim 1 or 2, characterized in that on the insulating part (13) between the rotary switch contact bridge (14) and the drive ring (12) there are several ribs (20) extending transversely to the longitudinal direction. . 800 1 887