DE3840529A1 - STEP SELECTOR FOR STEP TRANSFORMERS WITH CONCENTRIC DRIVE SHAFTS - Google Patents

Abstract

Cylindrical tap selector for step-down transformers, in which fixed contacts (4) are arranged in at least two circular paths (I,...,VI) situated above one another, and in which there is provided for each circular path a contact bridge (5), the inner end of which slides on a contact ring (6) situated in the plane of the circular path, and the outer end of which comes into contact in steps with the tap contacts of the corresponding circle. The contact bridges of different planes are guided by means of two tubular actuating shafts (7, 8), which are actuated at their upper ends by means of intermittent gearing (2). One actuating shaft (8) - the inner one - extends at least partially inside the other actuating shaft (7). In its region situated outside the outer actuating shaft (7), it is widened to the diameter of the outer actuating shaft and guided with the widened lower end in a central bearing (11) of the tap selector. At its lower free end, the outer actuating shaft is mounted on the inner actuating shaft by means of a plurality of guide blocks (12), which are arranged between the two actuating shafts.

Description

The invention relates to a cylindrical step selector for step transformers, as it is in the preamble of Claim is specified in more detail.

Such step selector are known: CH-PS 3 95 243.

The design of this step selector leads to a certain Inconsistency of various components of the level selector each according to whether these components are the outer or the inner Drive shaft are assigned. So must the outside Contact rings enclosing the drive shaft e.g. a bigger one Have diameters as the contact rings that the inner Enclose drive shaft as the inner drive shaft too usually a smaller one in its exposed part Has diameter. Also the management of the contact bridges is different depending on whether the leadership from the outer drive shaft with the larger diameter or from the inner drive shaft with the smaller diameter must be done. Now that the affected tap selector in one A large number of variants are required, one tries to do so Variants based on the modular principle from one if possible small number of uniform parts. It is clear that the known design meets these requirements does not fully correspond.

It is therefore an object of the invention to improve the step selector mentioned so that the multitude of different parts required decreased.

This task is done with the step selector mentioned at the beginning according to the invention in the characterizing part of the claim  specified means solved.

The advantage achieved with the invention is essentially that that now for the required variants of the level selector uniform contact rings and also uniform guides of the movable contact bridges can be used completely regardless of whether this is the outer or the inner Drive shaft are to be assigned.

An embodiment of the invention is in the drawing shown and will be described in more detail below. The Figure shows a schematic representation of a longitudinal section of the new level selector.

As can be seen, the new step selector has a cylindrical housing 1 , which is provided at the top with a gear 2 and at the bottom with a bearing plate 3 . The housing 1 carries, in a plurality of levels I, II... VI arranged one below the other, stationary step contacts 4 seated in a circle in the cylinder wall. Each level I to VI is assigned a movable contact bridge 5 , which connects to a slip ring 6 . Two concentric drive shafts 7 , 8 extend axially in the middle of the cylinder within the slip rings 6 and can be actuated alternately by the transmission 2 . A drive shaft 7 , the outer one, extends approximately to the middle of the cylindrical housing 1 . It extends over the three upper contact levels I, II, III and is provided with three drivers 9 for the contact bridges 5 . The three contact rings 6 of levels I, II, III are loosely arranged around the drive shaft and essentially fixed by the connecting lines 10 , with which they are firmly connected. The inner drive shaft 8 extends within the described outer drive shaft 7 , but then extends even further, to the lower end plate 3 of the cylindrical housing 1 , where it is mounted in the bearing 11 . As soon as it has left the outer drive shaft 7 , this drive shaft 8 is widened to exactly the same diameter as the outer drive shaft 7 , and this widened part of the inner drive shaft 8 extends, analogously to the outer drive shaft, also via three contact planes IV to VI arranged one below the other. It is readily apparent that the contact rings 6 and driver 9 of the contact bridges 5 assigned to this part of the drive shaft correspond in their structural design with the parts as they are assigned to the outer drive shaft 7 . As already stated, the inner drive shaft 8 is mounted in a bearing 11 of the bearing plate 3 . The outer drive shaft 7 , on the other hand, is guided by means of a plurality of plastic blocks 12 , which are arranged at the lower end of the outer drive shaft 7 between the outer and the inner drive shaft.

Claims (1)

Cylindrical step selector for step transformers, in which fixed contacts ( 4 ) are arranged in at least two superimposed circular paths (I, ..., VI) and in which a contact bridge ( 5 ) is provided for each circular path, the inner end of which is at one in the plane the circular path lying contact ring ( 6 ) grinds and the outer end of which gradually comes into contact with the step contacts of the corresponding circle, at least two contact bridges lying in different planes each being guided by a separate tubular drive shaft ( 7 , 8 ) which within the contact rings in Axial direction of the tap selector and are driven at their upper ends by means of a drop-out gear ( 2 ), one drive shaft ( 8 ) - the inner - at least partially inside the other drive shaft ( 7 ) - the outer -, characterized in that the inner Drive shaft ( 8 ) in its outside of the outer Drive shaft ( 7 ) lying area is expanded to the diameter of the outer drive shaft and that the outer drive shaft is guided at its lower free end by means of several guide blocks ( 12 ), which are arranged between the two drive shafts, only the inner drive shaft with its expanded lower End is guided in a central bearing ( 11 ) of the tap selector.