DE210250C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 2 \ d. GROUP

Addendum to patent 208304 from September 5, 1907.

Patented in the German Empire on April 30, 1908. Longest duration: September 4, 1922.

The invention relates to current collectors for high-speed unipolar machines. A unipolar machine running at high speed consists essentially, as shown in FIG. 1, of a steel disk a, which circles between ring-shaped pole masses b. The current generated in the radial armature conductors d is taken off near the axis on both sides of the disk by stationary brushes g, which slide on rings h . The current is picked up from the periphery of the disc by a ring of fixed brushes i , which slide on an annular conductor j which surrounds the disc α. It had already been proposed to use running wheels as brushes for collecting current in ordinary DC machines, which were mounted in balls on a fixed brush holder.

The main patent also states that the pantographs are movable and on one. Ball ring can be mounted, or that they consist of contact wheels that are resiliently mounted on the frame of the field magnet. The first type of current draw, which is shown with various modifications in FIGS. 2 to 5, consists in the fact that impellers mounted on balls run in movable support rings at the same time on a ring made of conductive material that sits firmly on the armature, as well as on a ring that is firmly attached to the field magnet. 2 and 3 show, in side view and longitudinal section, current collectors, the contact wheels k of which are made of copper, aluminum or another conductive material. They are mounted in hubs mounted on balls I , which are supported on both sides by movable circular rings m .

In this way, the running wheels are entrained by the disk α of the dynamo as a result of friction on the ring j, which is made of copper or another conductive material, while on the other hand they touch the solid, conductive ring η. This ring η can have a small amount of play in the radial direction in that a groove or recess 0 is provided between it and the machine housing. The pressing of the ring η against the impellers k and this against the slip ring /. of the disc armature is secured by springs p , which are located in the recess between the ring η and the machine housing.

To prevent the running wheels from deviating to the right or left, the ring η, which in turn consists of copper or another conductive metal, can be provided with a central track groove q , which is formed by two beads or flanges r .

In order to prevent the friction as much as possible and at the same time the individual moving parts

To lubricate, the copper impeller and also the ring η can be coated with a fairly thick layer of graphite. The ring-shaped part / the disk can also have a graphite layer and be equipped with two beads or flanges in order to guide the running wheels.

As a result of the rolling of these wheels on the fixed ring η , their center t will become with

ίο move a speed U , which is half of the peripheral speed F of the disk α (see. Fig. 2). As a result, the two lateral rings m, which contain the bearings for the running wheels, rotate at half the speed as the peripheral speed of the disk. As a result, they are subjected to much smaller stresses due to centrifugal force than the disk. Furthermore, the contact is effected entirely by rolling friction, both on the ring of the disc and on the fixed ring. Hence, the heating will be much less than when using sliding friction.

4 and 5 show, in section and in side view, a modification of the embodiment according to FIGS. 2 and 3, in which the running wheels are arranged to the side with respect to the disc. These running wheels k are mounted in balls in outer and inner rings o ¹ and o ² , the outer ring o ¹ itself being mounted on balls on a fixed ring u which is provided with springs u ^1. This arrangement allows the current to be drawn from both sides of the disk a and consequently the two cheeks of the disk to be connected in series.

In order to avoid current losses, all static current collector parts must be insulated by interposing insulating layers. For example, in FIG. 3 the part in which the fixed ring η of the current collector device slides is screwed onto the housing of the machine with the interposition of a suitable insulating layer n ¹ .

Claims (2)

Patent Claims: 1. Device for taking the current from the circumference of snarling unipolar machines according to patent 208304, characterized in that the brushes consist of contact wheels that simultaneously run on the conductive rings of the rotating armature and on the conductive rings of the stationary field magnets. 2. Apparatus according to claim 1, characterized in that on both Sides of the Ariker disc pantographs are attached, their contact rollers on run along the lateral outer edges of the armature disk and on corresponding conductive rings of the field magnet. For this purpose ι sheet of drawings.