DE2439383A1 - ELECTRIC ASYNCHRONOUS MACHINE WITH A SLIP RING RUNNER - Google Patents

Description

SIEMENS AKTIENGESELLSCHAFT Erlangen, AUG. 1, 2015. 1974 Berlin and Munich Werner-von-Siemens-Str.

Our symbols VPA 74/3786 D / Zp

Electric asynchronous machine with a slip ring rotor

In asynchronous machines with slip ring rotors, the So far, the end windings have only insufficiently cooled because the individual rods are usually designed as two-layer rod windings The rotor windings are very close to one another in the winding head and, in the case of machines with higher performance, also by means of a Bandage or cap are set on a winding support. Attempts have therefore already been made in the copper of the end winding dissipate resulting losses through cooling flags at the winding ends. But since these positions in the company may be stronger contaminate, flashovers can occur here, so that the Operational safety suffers. For these reasons, in most cases, the cooling vanes must be insulated, and this works almost completely lost its function as a cooling vane. They then only act as fan blades and generate a flow of cooling air, which ventilates the stator winding head.

Insufficient cooling of the rotor end winding can lead to that locally extremely high excess temperatures occur and the maximum permissible "excess temperatures" accordingly the insulation class are exceeded. This can damage the insulation and lead to soldering of the rod ends to lead. The present invention is based on the problem of ventilating the end winding on asynchronous machines of this type to improve with slip ring rotors.

To solve this problem, the invention is based on an electrical one Asynchronous machine with a slip ring rotor, in which the rotor winding is designed as a two-layer bar winding and is fixed in particular in the end winding by means of a bandage or cap on a winding support. According to the invention

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axially extending cooling channels are provided in the end winding between the top and bottom of the rods. This will created the possibility of a flow of cooling air between the top and bottom of the rotor winding in the end winding can. Sufficient heat dissipation of the end winding can be achieved by appropriately dimensioning the height of these cooling channels will.

To form the axial cooling channels, it is advisable to use each Groove upper and lower bar to be kept at a distance from one another by intermediate strips and in the winding head accordingly high, in to arrange spacers extending in the axial direction in the circumferential direction at a distance from one another. This will be in the simplest Way formed in the winding head running axially cooling channels, the height of the height of the intermediate strips or the spacers is equivalent to. Another useful measure for the formation of the axial cooling channels in the end winding is that in the Rotor winding in the winding head each with the upper bar on the underside and the lower bar on the upper side offset in height are. The space now remaining between the two layers allows a flow of cooling air to pass through in the axial direction.

In the following the invention will be explained in more detail with reference to the embodiment shown in FIGS. Fig. 1 shows schematically a longitudinal section through the rotor of an asynchronous machine designed according to the invention with a slip ring rotor,
FIG. 2 shows a development along the line AB in FIG. 1.

In the slip ring rotor 1 of an electrical asynchronous machine, the rotor winding is designed as a two-bar winding. That's why an upper bar 3 and a lower bar 4 lie one above the other in each groove of the laminated core 2. In the winding head 5 are all upper rods 3 bent in one direction and thus form the upper layer 6, while correspondingly in the other Lower bars 4 bent in the direction of the base 7 form. Around

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the centrifugal forces occurring during the operation of the machine take up, the top and bottom 7 are held together by a bandage 8 in the winding head 5. At a standstill the forces exerted by this bandage 8 (pretension) are in turn absorbed by a winding support 9, which also serves to center the winding head 5.

In the machine designed according to the invention, the upper bar 3 and lower bar 4 are in each groove by intermediate strips kept at a distance from each other. In addition, there are correspondingly high spacers extending in the axial direction in the winding head 5 10 provided that in the circumferential direction in regular Are spaced from each other. As a result, 10 axially extending in the winding head 5 between the spacers Cooling channels 11 formed. In this way, a significantly improved cooling of the winding head 5 is achieved, as can be seen from FIG. evident. In this, the flow of cooling air through the machine is shown by arrows. Most of the Cooling air flows through the axial cooling channels 12 and radial cooling slots 13 present in the laminated core 2. In addition, now another cooling air flow is passed over the end winding 5, as the axially directed cooling channels. 11 over the front of the face of the laminated core 2 between the rods emerging from the grooves remaining interspaces 14 with the general Cooling air flow in the machine are in connection, while the bandage 8 only ends at the end face of the laminated core 2 »

The passage of the cooling air through the axial cooling channels 11 can also be promoted in that the upper rods 3 or Lower bars 4 are provided with fan blades 15 at the ends. However, you can also use one at a suitable point on the machine insert additional fan.

3 claims

2 figures.

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Claims (3)

VPA 74/3786
- 4 - Claims 1 ^ / Electric asynchronous machine with a slip ring rotor, in which the rotor winding is a two-layer bar winding
and is fixed in particular in the end winding by means of a bandage or cap on a winding support, characterized in that axially extending cooling channels (11) are provided in the end winding (5) between the top (6) and the base (7) of the bars. 2. Electric asynchronous machine according to claim 1, characterized in that in each groove upper (3) and lower bar (4)
are kept at a distance from one another by intermediate strips, while in the end winding (5) correspondingly high spacers (10) extending in the axial direction are arranged at a distance from one another in the circumferential direction. 3. Electric asynchronous machine according to claim 1, characterized in that that in the winding head (5) in each case the upper bar (3) on the underside and the lower bar (4) on the top in the height are deducted. 6098 1 0/0388