DE2457585C2 - Rotating rectifier assembly - Google Patents

Description

The invention relates to a rotating rectifier arrangement in a rotary current bridge circuit for electrical appliances Machines with two carrier wheels with ring flanges that are isolated on the shaft Inside diameter the active components in the form of heat sinks, rectifier cells and fuses are arranged and wherein the two carrier wheels form the direct current poles and the direct current via radial bolts to the DC lines extending axially in the shaft.

Such an arrangement is known from DT-OS 23 04 935. All of them are one of the components belonging to parallel branches including the associated feeding three-phase current conductor in arranged in a radial plane of the carrier wheel. The maximum occupation of a wheel with active components assumes as many useful radial planes as possible, as they are with the smallest possible and result in even division on the circumference. Since the three-phase conductors are also more uniform Division are arranged on the circumference of the shaft, the difficulty arises, the radial flow connecting bolts from the DC poles to the DC lines laid axially in the shaft, it should be because, one leads the turntable ladder already in the area of one ring flange from the shaft surface radially outwards to the inner circumference of this flange, which aDer additional centrifugal forces and difficulties means for the corresponding compounds. In addition, since turbo generators for such Rectifier arrangements are essentially used, run in a hydrogen atmosphere and this hydrogen can flow in the shaft along the DC lines are for conventional ones Radial power connection bolts to take special sealing measures, which are different Thermal expansion can easily lead to leaks.

The invention is therefore based on the object of the carrier wheels and the radial flow connecting bolts to be designed in such a way that the circumference of the shaft can be filled with three-phase current conductors with an even pitch and the pitch is not determined by the power connection bolts. In addition, a sufficient Gas tightness against possible hydrogen accumulation in the center bore of the shaft simple means guaranteed and the removal and installation of all belonging to the direct current line Parts for testing and overhaul purposes can be easily assembled.

To solve this problem it is provided according to the invention that the carrier wheels each consist of one insulated intermediate ring made of non-magnetic material placed on the shaft and the intermediate ring uninsulated shrunk-on carrier wheel hub are assembled and that at least one intermediate ring and the shaft up to the associated axial direct current conductor radially penetrating connecting bolts is provided, the head of which is in contact with the carrier wheel hub and the intermediate ring. The intermediate ring has axial bores evenly spaced for the implementation of the three-phase current conductor.

With such a design of the carrier wheels and the power connection bolt is an occupation of the Shaft circumference possible with three-phase liters in equal division.

Further expedient refinements of the invention are specified in the subclaims.

A schematic drawing is used to illustrate the structure and mode of operation of an exemplary embodiment the invention explained in more detail. It shows

Fig. 1 is a longitudinal section in the radial direction an entire rectifier arrangement with two carrier

wheels,

2 shows an enlarged longitudinal section through an intermediate ring and the head of the associated power connection bolt,

F i g. 3 a plan view of the bolt head,

4 shows a cross section according to view IV according to FIG. 2, by an intermediate ring in the area of a power connection bolt and the adjacent three-phase current conductor and

5 shows a cross section through the in a shaft bore laid direct current lines in the area of the confluence of two radial current connection bolts.

As from the longitudinal section according to FIG. 1 can be seen, is on the shaft 1 of the not shown Exciter machine or the generator initially isolated by an intermediate layer 2 - an intermediate ring 3 made of non-magnetic material. This non-magnetic intermediate ring is used to carry out the Three-phase conductor 4, as will be explained later. On this intermediate ring 3 is then the hub 5 of the actual carrier wheel 6 uninsulated shrunk on. The carrier wheel 6 also has in a conventional manner on the outer circumference of the flange ring 7 formed in one piece with the hub 5, the alie active one Components such as heat sinks 8, rectifier cells 9 and fuses 10 carries. To accommodate the Centrifugal forces caused by active components is still an on the inner flange ring 7 Cap ring 11 made of high-strength material is shrunk on. The carrier wheel 6 simultaneously forms the one DC pole of the arrangement, while the other pole is formed by the carrier wheel 6 ', which is shown in FIG in the same way, but with a mirror-inverted structure and is mounted back to back to the first carrier wheel 6.

In order to make optimal use of the carrier wheel ring flange for accommodating the active Components in as many radial planes as possible with the smallest possible and even division on the circumference to achieve, and at the same time the three-phase conductors also in equal division on the shaft circumference to be arranged, the direct current is supplied directly from the carrier wheel hub 5 via at least one radial bolt

12 in the associated, in an axial shaft bore

13 laid direct current conductor 14. The slrom connecting bolt 12 penetrates the intermediate ring 3 and the shaft 1 in a radial direction. Direction to the Gleichitromleiter 14, the head 15 of the bolt 12 with both the carrier wheel hub 5 and with the Intermediate ring 3 is in electrical contact.

This contacting and guidance of the bolt 12 is shown on an enlarged scale in FIGS. 2 and 3. the Bolt 12 to be inserted radially from the outside into a corresponding bore 16 of the intermediate ring 3 has in this case a head 15 with a larger diameter than that of the actual bolt shank. The bolt head 15 is fixed to the intermediate ring 3 via radial screws 17 and 18 in the vicinity of its outer circumference tense. To ensure good contact between the surface 20 of the bolt head 15 and the shrink surface 21 to reach the carrier wheel hub 5, it is ■ expedient if the end face 20 after insertion de.s bolt 12 is finished together with the outer surface 22 of the intermediate ring 3. By inserting a sheet metal insert 19 between the protruding underside of the Bohenkopf 15 and the corresponding The contact surface of the intermediate ring 3 results together with the shrinkage compression of the carrier wheel hub 5 precisely defined contact pressures. In addition to the contact between the peripheral surface of the bolt head 15 and the intermediate ring 3 can be improved in the gap between the bolt head 15 and the bore 16 of the intermediate ring 3, one or more rows of Koniakt lamellar strips 40 may be arranged. the Bolt 12 also has an axially continuous clamping bolt 23, which is used to brace the Stromleitbolzens 12 mi 'serves the DC conductor 14, as will be explained later.

As can be seen from Fig.4, are in more uniform Pitch in the vicinity of the outer diameter of the intermediate ring 3 axial bores 25 provided, through which the three-phase conductor 4 from the three-phase exciter through the intermediate rings 3 to the Rectifier cells 9 of the carrier wheel 6 (see Fig. 1) be guided. In order to be able to maintain an even division of these three-phase conductor bushings, the head 15 of the bolt 12 has lateral recesses 26 which are connected to the corresponding bores 25 in the Align intermediate ring 3. The function of the radial flow connecting bolt 12 is not thereby impaired, as there is still enough conductive cross-section available. If necessary it is but possible, the holes 25, which cut the bolt head 15, to offset something in their division, so that they are at a greater distance from each other.

Fig. 5 shows a cross section through the axial bore 13 of the shaft 1 with the two DC conductors 14 and 30, which - as already shown in FIG. 1 can be seen - via the bolts 12 and 31 with the corresponding carrier wheels or DC poles 6 and 6 'in Connected. In the illustrated embodiment, there are two power connection bolts from each carrier wheel 6 12 and 12 'provided in corresponding radial bores 32 and 33 in the associated Direct current conductors 14 open. For firm contact between the bolts 12 and the conductor 14, the lower one is in each case The end of the bolt is provided with a conically tapering axial bore 34 and has corresponding radial incisions. A conical insert 36 is inserted into the expansion contact 35 formed in this way, by means of the clamping bolt 23 screwed into the insert and axially penetrating the bolt the expansion contact 35 is tensioned. As a result, on the one hand, there is a firm contact with the associated DC conductor 14 guaranteed, but on the other hand, sliding in the radial direction is also achieved different thermal expansions possible.

With the arrangement described, there is a simple power connection from the carrier wheel to those in the shaft laid direct current conductors possible, whereby an occupation of the shaft circumference with three-phase current conductors in uniform division is not hindered. In addition, the complete DC line is to be removed and installed possible after shrinking off the carrier rings. There are also no separate seals the power line bolt required in the event of a defect in the generator-side hydrogen seal, as all conceivable outlets for hydrogen gas at the radial bores are enclosed by surfaces the intermediate ring or carrier wheel hub are shrunk on. This does not result in absolute tightness, however are together with additional measures, such as an exchange of air under the exciter cover, Sufficient tightness guaranteed without special, very failure-prone Gas seals would be required.

For this purpose 3 sheets of drawings

Claims (7)

Patent claims: 1. Rotating rectifier arrangement in three-phase bridge circuit for electrical machines with two carrier wheels with ring flanges placed on the shaft in an isolated manner, on their inner diameter the active components in the form of heat sinks, rectifier cells and fuses are arranged and wherein the two carrier wheels form the DC poles und.der DC is conducted via radial bolts to the direct current lines running axially in the shaft, characterized in that the carrier wheels (6, 6 ') each consist of one isolated on the shaft (1) the intermediate ring (3) made of non-magnetic material and the intermediate ring (3) insulated shrunk-on carrier wheel hub (5) are assembled and that at least one the Intermediate ring (3) and the shaft (1) up to the associated axial direct current conductor (14) radially penetrating power connection bolt (12) is provided, the head (15) of which with the carrier wheel hub (5) and the intermediate ring (3) contacted. 2. Rectifier arrangement according to claim 1, characterized in that the intermediate ring (3) Has axial bores (25) evenly spaced to pass through the current conductors (4). 3. Rectifier arrangement according to claim 1, characterized in that the power connection bolt (12) has a head (15) of larger diameter and via radial screws (17,18) is braced with the intermediate ring (3). '*>. Rectifier arrangement according to Claim 1, characterized in that the current connecting bolt (12) at its protruding into a radial bore (32) of the associated direct current conductor (14) End has a conically tapered axial bore (34) and radial incisions and that in the so Formed expanding contact (35) a conical insert (36) is used, which is in the Insert (36) screwed in and the power connection bolt (12) axially penetrating the clamping bolt (23) is braced against the bolt head (15) and expanding contact (35). 5. rectifier arrangement according to claim 1, characterized in that between the preceding Underside of the bolt head (15) and the corresponding contact surface of the intermediate ring (3) Sheet metal shims (19) are used. 6. rectifier arrangement according to claim I or 2, characterized in that the Bolzcnkopf (15) has lateral recesses (26) for the implementation of the three-phase current conductor (4). 7. rectifier arrangement according to claim 1, characterized in that in the gap / wipe Bolt head (15) and the bore (16) of the intermediate ring (3) one or more rows of contact lamellar strips (40) are arranged. 60