DE2936019A1 - Generator for vehicle using fixing pins or screws - holding laminar stator packet to casing and permitting accurate centering of bearing plates - Google Patents

Abstract

The generator has its laminar stator packet fixed to its casing via pins (42). The pins engage the stator packet axially or radially through holes (43) in the casing. The pins are anchored in the stator packet. The pins may be fixed permanently between casing and stator packet and may be guided by a slot. The pins may be screws. The casing may be in two parts. The advantage lies in more accurate centering of the generator's bearing plates. The thermal coupling between stator oacket and casing is also increased. Prodn. tolerances are less critical.

Description

Electric machine

PRIOR ART The invention is based on an electrical machine according to the genre of the main claim. The stator core, especially in three-phase generators, is usually stretched between the two end shields. The stator core consists of made of sheet metal lamellas and is therefore a mechanically relatively weak component It is therefore always necessary to center the end shields over the stator core flawed.

Advantages of the Invention The electrical machine according to the invention with the characterizing features of the main claim has the advantage that the centering of the end shields is improved. Another advantage is that that the thermal coupling of the stator core to the machine housing is improved is and that more favorable cooling possibilities are given.

Finally, the manufacturing tolerances of the stator core are for the overall tolerance of the dimensions of the electrical machines is no longer important. The previously required Turning off the stator core on the outside diameter and omitted on the end faces.

The measures listed in the subclaims are advantageous Further training and improvements to the machine specified in the main claim are possible. The advantages are specified in detail in the exemplary embodiments.

Exemplary embodiments of the invention are shown in the drawing and explained in more detail in the following description.

Figure 1 shows an overview of a cross section through a three-phase generator, Figures 2, 3 and 4 details of the attachment of the stator core in the machine housing.

DESCRIPTION OF THE EXEMPLARY EMBODIMENTS In Figure 1 is the cross section sketched by an alternator. The machine housing of this generator comprises a housing shell 11 with an outer circumference circular in cross section 12. On the housing jacket 11 is a drive-side first end shield 14 and a second bearing plate 15 attached.

In the two end shields 14 and 15, bearings 16 and 17 are used, which are used to hold a machine shaft 18.

In the housing jacket 11 is a stator 19 with a stator winding 21 arranged. The stator winding 21 is followed by a rectifier which Rectifier diodes 22 inserted into the second end shield 15 include. On the The drive-side end of the machine shaft 18 is a fan wheel 23 and a belt pulley 24 fastened with the aid of a nut 25.

The machine shaft 18 carries a rotor with a pole core 26, pole wheels 27 and an exciter winding 28. The ends of the exciter winding 28 are on slip rings 29 connected, which are also placed on the machine shaft 18. With the Slip rings 29 are carbon brushes 31 in operative connection, which are guided in a brush holder 32 are. The brush holder 32 is attached to a voltage regulator 33. The electric Parts of the electrical machine are protected from dirt and in front by a cover 34 Damage protected. The bearings 16, 17 are used in bearing bushes 35, 36, which are a component of the respective end shield 14, 15. Recesses 37, 38 in the end shields 14, 15 are used to ventilate the machine.

FIG. 2 shows individual exemplary embodiments, such as the stand 19 inserted into the housing 11 and with the help of screws 1 (Figure 2a) or pins ! l2 (Figure 2b) is attached. The screws 141 or the pins 142 are fit through Openings 43 are introduced in the housing 11 and in holes 44 in the stator core 19 fastened by screwing in or knocking in.

In the figure 3 two embodiments are shown in which the Housing 11 has a stop 45 on its inside. Against this attack 45 the stator core 19 is pushed. The stator core 19 have in the area their outer circumference axial holes 46. Through these holes 46 are either screws 141 or pins 42 are inserted and firmly anchored in holes 47 in the housing 11.

In Figure 4, embodiments are shown in which chip pins are used. The chip pins can be made of rubber or plastic or soft metal exist or metal pins, in particular heavy-duty clamping pins, be. The pencils can in a groove 48 in the stator core 19 or - not in the drawing shown - be guided in a groove in the housing 11. The pins 4 are in the axial Direction firmly caulked between the stator core and the housing 11 (Figures 4a and 4b) or between two stops 45a, 45b one then split in two Housing 11a, 11b pressed in (Figure 4b and 4c). The latter This is particularly possible with spring pins made of rubber, plastic or soft metal appropriate.

The materials used are only given as examples.

The housing shapes shown are also only exemplary embodiments.

The housing 11 is particularly advantageous either as an intermediate housing with two separate end shields or as a two-part housing, with the in the Figures 2 to 4 shown housing part is part of a bearing plate, or as a two-part Housing, with both housing parts being parts of end shields, executed.

Claims (13)

Claims 0 electrical machine, in particular three-phase generator for motor vehicles, with a housing and with a stator core that is in the housing is attached, characterized in that the stator core (19) with the help is attached by pins (42). 2. Machine according to claim 1, characterized in that the pins (42) protrude radially into the stator core (19) through holes (43) in the housing (11). 3. Machine according to claim 2, characterized in that the pins (42) are anchored in the stator core (19). 4. Machine according to claim 1, characterized in that the pins (42) protrude axially into the housing (11) through holes (46) in the stator core (19). 5. Machine according to claim 4, characterized in that the pins (42) are anchored in the housing (11). 6. Machine according to claim 1, characterized in that the pins (42) are firmly caulked between the stator core (19) and the housing (11). 7. Machine according to claim 6, characterized in that the stator core (19) a groove (48) is provided for guiding the pins (42). 8. Machine according to claim 6, characterized in that in the housing (11) a groove (48) is provided for guiding the pins (42). 9. Machine according to one of claims 6 to 8 with one in the axial Direction multi-part housing, characterized in that the pins (42) with the help at least one of the two housing parts (11a, body) between the stator core (18) and the housing (11) are pressed. 10. Machine according to one of claims 1 to 5, characterized in that that the pins (42) are replaced by screws (41). 11. Machine according to one of the preceding claims, characterized in that that the housing (11) is an intermediate housing. 12. Machine according to one of claims 1 to 10, characterized in that that the housing (11) is part of an end shield. 13. Machine according to one of claims 1 to 10, characterized in that that the housing (11) is in two parts and both housing parts (lla, body) parts of End shields are.