DE102007000668A1 - Rotor for electric machine i.e. hydrogenerator, has winding head retained against centrifugal forces arising by retaining device, which comprises set of radial bolts, where radial bolts have heads that are rigidly fixed to shaft - Google Patents

Abstract

The rotor (10) has a rotor armature (12) with axial winding grooves (13) that are distributed around an outer periphery. Winding rods (14, 15) of a rotor winding are inserted into the grooves. Winding ends (16, 17) of the rods form a winding head (11), where the winding ends protrude axially from the rotor armature. The winding head is retained against the centrifugal forces that arise by a retaining device (19), which comprises a set of radial bolts (24). The bolts have heads that are rigidly fixed to a shaft.

Description

TECHNICAL AREA

The The present invention relates to the field of electrical Machinery. It relates to a rotor of an electric machine, in particular a hydrogenerator, according to the preamble of Claim 1.

STATE OF THE ART

By the changed market conditions on the open electricity markets and improved technologies In the field of power electronics, the topic has variable speed Drives for energy production gained in importance. For this purpose will be especially for services over 60 MVA prefers double-fed asynchronous machines used.

The stator of this type of machine does not differ from the salient pole synchronous machines commonly used in this application. Machines of this type are characterized by the fact that they are equipped both on the stator and on the rotor with a three-phase winding. Usually, the winding heads of the rotor winding are arranged on a cylindrical surface (see, for example, FIGS DE-A1-19513457 ).

• • Bei kleineren Maschinen wird der gesamte Wickelkopf mit mehreren Lagen aus Stahldraht umwickelt. Dies ist bei grösseren Durchmessern aus herstellungstechnischen Gründen nicht sinnvoll.
• • Bei Maschinen mit Durchmessern grösser als 2 Meter werden die Wickelköpfe entweder durch radiale Bolzen oder Gewindestangen mit einer Halterung auf der axialen Verlängerung des Rotorjochs befestigt, wie dies in der oben genannten Druckschrift beschrieben ist, oder
• • der gesamte Wickelkopf wird von einem aufgeschrumpften Stahlzylinder umgeben, wie dies bei Vollpolsynchronmaschinen bekannt ist.

Due to the centrifugal force, the winding rods tend to move radially outward from the center during operation. The difficulty with the mentioned execution of the winding heads is to protect the rods of the winding against deformation by mechanical forces sufficient. There are generally three solutions available:

• • For smaller machines, the entire winding head is wrapped with several layers of steel wire. This is not useful for larger diameters manufacturing reasons.
• • For machines with diameters greater than 2 meters, the windings are either fixed by radial bolts or threaded rods with a holder on the axial extension of the rotor yoke, as described in the above-mentioned document, or
• • The entire winding head is surrounded by a shrunk-on steel cylinder, as is known in full-pole synchronous machines.

The o. Gen. Document focuses mainly on the description of the overall construction with the associated winding head support system. The bolts used in this case serve the radial support of the rotor winding heads and are anchored in the axially raised rotor yoke (see 4 and 5 the document with bolts 37 ). The bolts are threaded rods which are bolted on the one hand in the rotor yoke ( 36 ) and on the other hand on the air gap side by means of rectangular individual elements and nuts absorb the centrifugal forces incurred. The disadvantage of the system described is the large number of parts and the associated risk of destruction of the machine in case of loss of a bolt or a nut.

The The development described below is closer to the used bolt and in particular their secure fixation.

PRESENTATION OF THE INVENTION

It The object of the invention is to further develop the rotor mentioned in the introduction, that the disadvantages of the known solution are avoided and in particular results in a secure fixation of the radial bolt.

The The object is solved by the totality of the features of claim 1. Essential to the invention is that the radial bolts have heads firmly connected to the shaft. hereby On the one hand, the number of components used is drastically reduced. On the other hand, the risk is eliminated that outgoing Loosen nuts or washers and damage or damage the machine can destroy completely.

According to An embodiment of the invention are the heads of the radial Bolt materially connected to the shaft, preferably forged or welded. As a result, in particular the use specially shaped heads relieved.

Around It is there to reduce the air resistance of the rotating rotor advantageous if the heads of the radial bolt an aerodynamic have favorable shape, in particular the heads of the radial bolts are rounded on the top and for tightening the bolt on opposite sides two straight flanks exhibit.

A Another embodiment of the invention is characterized in that a plurality of radial bolts arranged one behind the other in the axial direction in each case a common, extending in the axial direction retaining strip of Press the outside against the winding head. As a result, a uniform pressure distribution reached the tightened bolt on the winding head without passing through Separate washers the number of elements used essential must be increased. In this case, too, the air resistance To keep low, the retaining strips to improve the aerodynamics rounded longitudinal edges on.

Another embodiment of the invention is characterized in that hammer-shaped recesses are provided for fixing the bolt on the outer circumference of an axial extension of the rotor yoke located within the winding head, in which in the axial direction provided with threaded holes counter ledges for screwing the radial bolts are inserted, in particular to each one Holding strip belonging radial bolts are screwed into a common counter-strip. As a result, not only the assembly is simplified, but it is also the number of components kept small.

Preferably are further means for securing the radial bolt against a Provided twisting, wherein in particular the radial bolts respectively at the inner end a recess with a rectangular contact surface and the radial bolts through into the recesses axially inserted, applied to the contact surfaces fuse strips secured against twisting.

SHORT EXPLANATION THE FIGURES

The Invention will be described below with reference to embodiments explained in more detail in connection with the drawing become. Show it

1 Seen in the radial direction from the outside the winding head with a retaining device according to a preferred embodiment of the invention;

2 an enlarged section 1 with the aerodynamically shaped heads of the radial bolts;

3 a plan view of the winding head 1 ;

4 an enlarged section 3 with the fastening and securing elements for the radial bolts; and

5 in two sub-figures 5 (a) and 5 (b) show two different views of a radial bolt, as in the restraint of the 1 is used.

WAYS TO EXECUTE THE INVENTION

The proposed solution is based on the idea of the number to individual parts of the winding head restraint to reduce and at the same time all parts mechanically against loosening to secure by vibrations. This will be a significant increase achieved the security of the system.

In 1 Seen in the radial direction from the outside is a section of a rotor 10 a large hydro generator / motor with a winding head 11 illustrated, which is equipped with a retaining device according to a preferred embodiment of the invention. The basic structure of the rotor 10 can be taken from the cited document. The rotor 10 has a cylindrical rotor yoke 12 with distributed on the outer circumference arranged axial winding grooves 13 , In the winding grooves 13 are (in pairs one above the other) winding bars 14 . 15 the rotor winding inserted. The axially out of the rotor yoke 12 leaking coil ends 16 . 17 are bent and according to a predetermined winding or phase diagram with each other at the ends by means of round eyelets 18 electrically connected. The winding ends 16 . 17 are part of the winding head 11 ,

Inside the winding head 11 extends in the axial direction of a (cylindrical) axial extension 21 of the rotor yoke 12 , the front side by a press plate 29 is completed, at which a variety of axial clamping bolt 30 supported, which is the laminated core of the rotor yoke 12 hold together in the axial direction. At the outer circumference of the extension 21 are in the axial direction behind each other several wheel rims 34 arranged in which uniformly distributed over the circumference hammer-shaped recesses 19 are provided, the attachment of the inventive retaining device for the winding head 11 serve. The retainer includes a plurality of radial bolts 24 ,

How out 2 and 5 it can be seen are radial bolts 24 used that stuck to the shaft 31 connected heads 25 exhibit. The firm connection of the heads 25 with the bolts 24 is preferably cohesively, for example by forging or welding. So, in particular, bolts 24 with forged or fix welded heads 25 used. The heads 25 have two opposite straight flanks 26 . 27 on, for tightening the bolts 24 with a fork wrench or the like. Serve. Next, instead of rectangular washers axially extending retaining strips 23 used, which the retaining forces of the bolt 24 evenly on the winding or the winding head 11 to distribute.

The screw heads 25 as well as the retaining strips 23 are characterized by their aerodynamic shape (round heads 25 and rounded edges of the retaining strips 23 ), which leads to a reduction of friction losses during operation.

The radial bolts 24 run in the radial direction through the winding head 11 and are in the hammer-shaped recesses 19 in the axially extended rotor yoke ( 21 ). Bolts 24 be offset by means of a threaded holes counterstrip 20 retained. According to the retaining strip 23 on the front runs the counter bar 20 over the length of the Rotorjochverlängerung. Every bolt 24 can thus be individually screwed and brought to the necessary tension. Between winding head 11 and the extension 21 of the rotor yoke 12 are additionally axial spacer body 22 arranged through which the bolts 24 through rich.

How out 5 it can be seen have the otherwise round bolts 24 at the free end a recess 32 with a rectangular contact surface 33 , This has the following reason: The bolts 24 be tightened by means of suitable tools to the necessary voltage, so that in the final position, the straight edges 26 . 27 the screw heads 25 transverse to the longitudinal axis of the machine; like this in 1 and 2 is shown. In this position, the rectangular contact surface runs 33 the ends of the bolts 24 parallel to the flanks of the hammer-shaped recesses 19 , As soon as all the bolts 24 one row (retaining strip 23 ), can be a fuse strip 28 ( 4 ) are introduced into the remaining recess. Here is the fuse bar 28 dimensioned so that the bolts 24 Do not turn anymore. This principle allows in a simple manner to secure all parts of the restraint device against unforeseen loosening of the screwed parts. Furthermore, it is also possible in the same way the bolts 24 Secure on both sides with an inserted strip, if the ends of the bolts are provided accordingly with two parallel contact surfaces. Finally, there is another way of securing it, the bolts 24 provided with slots at the rear, through which a metal wire can be inserted for securing.

10

rotor

11

winding

12

rotor yoke

13

winding groove

14 15

winding bar

16 17

winding end (Cranked)

18

round eye

19

recess

20

counterstrip

21

renewal (Rotor yoke)

22

spacer body

23

retaining strip

24

bolt

25

head (Bolt)

26 27

flank

28

fuse strip

29

press plate

30

clamping bolt

31

shaft

32

recess

33

contact surface

34

rim

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 19513457 A1 [0003]

Claims (11)

Rotor ( 10 ) of an electrical machine, in particular a hydrogenerator, which rotor ( 10 ) a rotor yoke ( 12 ) with distributed on the outer circumference axial winding grooves ( 13 ), in the winding rods ( 14 . 15 ) of the rotor winding are inserted, whose axially from the rotor yoke ( 12 ) emerging winding ends ( 16 . 17 ) a winding head ( 11 ) formed by means of one of a plurality of radial bolts ( 24 ) comprehensive retention device ( 19 .., 28 ) is retained against the attacking centrifugal forces, characterized in that the radial bolts ( 24 ) firmly with the shaft ( 31 ) connected heads ( 25 ) exhibit. Rotor according to claim 1, characterized in that the heads ( 25 ) of the radial bolts ( 24 ) with the shaft ( 31 ) are cohesively connected. Rotor according to claim 2, characterized in that the heads ( 25 ) of the radial bolts ( 24 ) with the shaft ( 31 ) are welded. Rotor according to claim 1 or 2 or 3, characterized in that the heads ( 25 ) of the radial bolts ( 24 ) have an aerodynamically favorable shape. Rotor according to claim 4, characterized in that the heads ( 25 ) of the radial bolts ( 24 ) are rounded on the top and for tightening the bolts ( 24 ) on opposite sides two straight flanks ( 26 . 27 ) exhibit. Rotor according to one of claims 1 to 5, characterized in that a plurality of axially successively arranged radial bolts ( 24 ) in each case a common, extending in the axial direction retaining strip ( 23 ) from the outside against the winding head ( 11 ) press. Rotor according to claim 6, characterized in that the retaining strips ( 23 ) have rounded longitudinal edges to improve aerodynamics. Rotor according to one of claims 1 to 7, characterized in that for fastening the bolt ( 24 ) on the outer circumference of a within the winding head ( 11 ) axial extension ( 21 ) of the rotor yoke ( 12 ) hammer-shaped recesses ( 19 ) are provided, in which provided in the axial direction with threaded holes counter strips ( 20 ) for screwing in the radial bolts ( 24 ) are inserted. Rotor according to claim 6 and 8, characterized in that the in each case a retaining strip ( 23 ) belonging radial bolt ( 24 ) into a common counter bar ( 20 ) are screwed. Rotor according to claim 8 or 9, characterized in that means ( 28 . 32 . 33 ) for securing the radial bolts ( 24 ) are provided against twisting. Rotor according to claim 10, characterized in that the radial bolts ( 24 ) in each case at the inner end a recess ( 32 ) with a rectangular contact surface ( 33 ), and that the radial bolts ( 24 ) through into the recesses ( 19 ) axially inserted, at the contact surfaces ( 33 ) attached fuse strips ( 28 ) are secured against twisting.