DE8911295U1 - Three-phase generator for vehicles - Google Patents

Description

R.22946
["■ 19.9.1989 Ws/Hm

ROBERT BOSCH GMBH, 7000 STUTTGART 10

i^ ehstroRTeneratcr for rahrs- 2
Stand Oivr Technology

The invention is based on a three-phase generator for vehicles with a Kiauen^ol armature according to the preamble of the main claim.

j '. „. From DE-OS 30 12 634 a three-phase generator for motor vehicles is already known, which has a claw pole armature, the

: Excitation winding via an encapsulated slip ring arrangement with

Carbon brushes are supplied. The encapsulation of the slip ring space

:; follows through a plastic sleeve, which is attached to a front side in the

Three-phase generator fixed rectifier assembly

" This unit also carries a voltage regulator

I. and a brush holder for the carbon brushes. The slip ring

The plastic sleeve which encompasses the space is provided with an opening for receiving the brush holder. The front ends of the plastic sleeve are accommodated in labyrinth-like sealing rings, one of which is attached to the front side of the claw pole armature and the other

is attached to the front side of the bearing plate that accommodates the brush-side end of the armature shaft.

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From DE-OS 33 00 494 it is also known to manufacture the brush-side bearing shield with the brush holder and the rectifier assembly as an integral component for accommodating the brush-side armature bearing and the voltage regulator from plastic. The plastic sleeve surrounding the slip ring space is also a component of the bearing shield, with the bearing being inserted into a bearing bore that is closed at the front and the armature-side front end of the plastic sleeve reaching up to the front of the claw-pole armature, with a small air gap.

The known solutions do offer sufficient protection of the slip ring space against the ingress of dirt and moisture. However, they have the disadvantage that the slip rings are mounted in an isolated manner on the armature shaft and therefore have a relatively large diameter and thus result in relatively high wear on the carbon brushes due to correspondingly high peripheral speeds. In order to avoid this, it is known from DE-OS 30 19 118 to mount the slip ring arrangement behind the brush-side bearing of the machine directly at the end of the armature shaft.

However, this results in the disadvantage that the slip ring arrangement arranged at the end of the armature shaft would be exposed to moisture and dirt more than before during operation and therefore needs to be protected against this even more consistently by encapsulation.

The aim of the present invention is to provide reliable oscillation in the simplest and thus most cost-effective manner possible for generators whose slip rings are arranged behind the brush-side armature bearing at the end of the armature shaft.

The solution according to the invention with the characterizing features of the main claim has the advantage that the pot-shaped insulating bushing completely seals the slip ring arrangement at the end of the drive shaft, so that no moisture can reach the

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slip ring arrangement. The ventilation opening or openings on the other end of the plastic sleeve, which is in front of the bearing point of the armature, also advantageously reliably dissipate the heat generated on the carbon brushes and slip rings by brush fire or friction. Another advantage is that this solution does not require any additional individual parts and also enables an assembly sequence suitable for large-scale production.

The measures listed in the subclaims result in advantageous further developments and improvements of the features specified in the main claim. It is particularly advantageous to provide the plastic sleeve in front of the bearing point of the armature with several openings distributed around the circumference, which extend into a molded collar that covers the armature bearing and ensures good long-term ventilation in order not to increase the ball bearing temperature.

drawing

Several embodiments of the invention are shown in the drawing and explained in more detail in the following description. Figure 1 shows a longitudinal section through a three-phase generator and a plastic sleeve encapsulating the slip ring space in a first embodiment, Figure 2 shows the plastic sleeve of the three-phase generator from Figure 1 in longitudinal section and Figure 3 shows the plastic sleeve in front view. Figures 4 and 5 show a second embodiment of a plastic sleeve molded onto a cover cap of the three-phase generator and Figures 6 and 7 show a third embodiment of a plastic sleeve molded onto a connection plate of the rectifier assembly of the three-phase generator. Figure 8 shows the bearing-side end of the plastic sleeve, covered by a ring wall attached to the bearing point, Figure 9 shows a plastic sleeve with a sealing collar on the brush holder receptacle and Figure 10 shows a section X-X from Figure 9.

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Description of the embodiments

The three-phase generator for motor vehicles shown in longitudinal section in Figure 1 essentially consists of a stator 10 in the form of a layered laminated core, which carries a three-phase stator winding 11 and to which two housing shells 12 and 13 are screwed using screws 14. The housing shells 12, 13 form bearing shields 15, 16 on the front side, in which a relatively large drive bearing 17 is inserted on the drive side λ and a weaker slip ring bearing 18 is inserted on the brush side B. A claw pole rotor 19 is rotatably arranged in the stator 10, which consists of two claw pole disks 20, 21 and a flux guide piece 22 clamped between them, onto which an excitation winding 23 is placed. The claw pole rotor 19 is pressed onto a rotor shaft 24, which is accommodated in the two bearings 17 and 18 and has a threaded projection 25 at the drive-side end A for fastening a drive disk. A fan disk 26, 27 is fastened to the rotor shaft 24 on both sides of the claw pole rotor to dissipate the waste heat of the three-phase generator. A slip ring arrangement of two spaced-apart slip rings 26, 29 is provided at the brush-side end B of the rotor shaft 24, which are fastened to the rotor shaft 14 insulated from one another and from the latter and are connected to terminals 30 via conductors (not shown) which are guided insulated in the rotor shaft 24, which are contacted with the line ends 31 of the excitation winding to supply power to the excitation winding. A rectifier assembly 32 (not shown in detail) is attached to the outside of the bearing plate 16 of the brush-side housing shell 13 by means of screws 33, and a brush holder 34 with the carbon brushes (not shown) for the slip rings 28. 29 and a voltage regulator 35 is also attached and connected. This assembly 32 is finally enclosed by a pot-shaped cover cap 36, which is also attached to the brush-side housing shell 13 and accommodates the electrical connections 37 of the generator.

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For the "damp and dirt-tight encapsulation of the slip ring space 38, a plastic sleeve 39 shown in Figures 1 to 3 is provided, which has an opening 40 for receiving the brush holder 34, which is sealed to the outside by a sealing ring 41 at the lower end of the brush holder 34. The plastic sleeve 39 is closed at its outer end 39a so that it surrounds the slip rings 28, 29 arranged behind the slip ring bearing 18 on the free end of the rotor shaft 24 in a pot-shaped manner. For dirt and moisture-free ventilation of the slip rings 28, 29, the plastic sleeve 39 is provided with three openings 42 evenly distributed around the circumference at its inner end 39b in front of the slip ring bearing 18 of the rotor shaft 24. Furthermore, the bearing-side end 39b of the plastic sleeve 39 is designed as a bearing fitting ring 43, which fits into the bearing bore of the housing shell 12. can be used in a rotationally fixed manner and accommodates the outer ring of the slip ring bearing 18. The bearing fitting ring 43 covers the slip ring bearing 18 on the outside by an annular wall 44, whereby the openings 42 of the plastic sleeve 39 for bearing ventilation extend into this annular wall 44.

Another embodiment of the invention

The cooling element housing is shown in Fig. 4. The cover cap 36 shown in Figure 1, which covers the rectifier assembly 32, the brush holder 34 and the voltage regulator 35, is designed here as a cover cap 36a in such a way that a plastic sleeve 45 for encapsulating the slip ring space is formed on the inside of the cover cap 36a. The cover cap 36a has a recess 46 open at the front as an opening for receiving the brush holder, since the cover cap 36a is the last part to be placed on the slip ring side housing shell 13 when assembling the three-phase generator. The recess 46 of the plastic sleeve 45 is also sealed here by a suitably designed sealing ring on the brush holder of the three-phase generator.

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The plastic sleeve for encapsulating the slip ring space can also be combined with the rectifier assembly 32 as a further embodiment. Figure 6 shows such a further developed rectifier assembly 32a, in which a plastic sleeve 47 according to the invention is molded onto the inner bore 48 of a connection plate 32a of the rectifier assembly 32. As Figure 7 shows in a longitudinal section A-A from Figure 6 of the middle area of the connection plate 32a of this rectifier assembly 32 with the plastic sleeve 47, an opening 49 to be sealed is also provided here for receiving the brush holder. When assembling the three-phase generator, the rectifier assembly 32 - as Figure 1 shows - is arranged outside in front of the slip ring-side bearing point of the claw pole rotor 19 and fastened to the brush-side housing shell 13 of the generator.

Figure 8 shows a cross section through the slip ring-side bearing point when encapsulating the slip ring space with a plastic sleeve according to the embodiments according to Figures 4 to 7. There, the plastic sleeve 47 ends while maintaining an annular air gap in front of the slip ring-side bearing of the rotor shaft 24, whereby this annular air gap 50 is covered by a circumferential lip 51 of a position fitting ring 52. The lip 51 extends beyond the end 47a of the insulating sleeve 47.

An improved seal of the plastic sleeve as the brush holder receptacle is possible according to Figures 9 and 10 in that the receptacle opening 40 is also provided with an outwardly directed collar 53. A sealing ring 55 is placed on the head 54 of the collar 53 from the outside so that it surrounds the edge 54 all around. On the wrong side, the sealing ring 55 has a sealing strip 56 which fits tightly against the collar 53 of the plastic sleeve 39 when the brush holder 34 is inserted into the latter.

Claims (8)

• · · it · · · &igr;• · &igr;&igr; « t t * «I (Il &igr; f · · c t &igr;&igr; it I« R. 22946 19.9.1989 Ws/Hm RC3ERT BOSCH GMBH, 7000 STUTTGART 10 j. Claims 1. Three-phase generator for vehicles with a claw pole armature, the excitation winding of which is supplied via an encapsulated slip ring arrangement by means of carbon brushes, the encapsulation of the slip ring space being carried out by a plastic sleeve which is attached to one of the fixed generator parts - housing shell for an armature bearing, rectifier assembly or cover cap - and has a sealed opening for receiving a brush holder, characterized in that the plastic sleeve (39, 45, 47) is closed at its outer end (39a, 45a, 47a) so that it surrounds the slip rings (28, 29) arranged behind the slip ring-side bearing (18) on the free end of the rotor shaft (24) in a pot shape and has at least one ventilation opening (42, 50) with its inner end (39b, 45b, 47b) in front of the bearing point of the rotor shaft 24. 2. Three-phase generator according to claim 1, characterized in that the plastic sleeve (39) has a plurality of openings (42) distributed around the circumference as ventilation openings in front of the bearing point of the claw pole rotor (19) and covers the bearing (18) on the slip ring side with a molded-on ring wall (44). - 2 - R.22946 3. Three-phase generator according to claim 2, characterized in that the openings (42) in the plastic sleeve (39) for bearing ventilation extend into the molded-on ring wall (44). 4. Three-phase generator according to claim 3, characterized in that the bearing-side part of the plastic sleeve (39) is designed as a bearing fitting (4'&iacgr;) which can be inserted into the bearing bore of the generator housing (13) and accommodates the outer ring of the bearing (1w) · &tgr;- 5. Three-phase generator according to claim 1, characterized in that the plastic sleeve (45) is molded onto the inside of a cover cap (36a) which comprises a rectifier assembly (32) and the brush holder (34) and is attached to the generator housing (13). 6. Three-phase generator according to claim 1, characterized in that the plastic sleeve (45) is molded onto the inner bore (48) of a connection plate (32a) of the rectifier assembly (32), which is arranged outside in front of the bearing point of the claw pole rotor (19) and is fastened to the generator housing (13). 7. Three-phase generator according to claim 5 or 6, characterized in that the plastic sleeve (45, 47) is provided with an axial ring air /' gap (50) ends in front of the slip ring-side bearing point of the claw pole rotor (19), whereby this annular air gap (50) is covered by a circumferential lip (51) of a bearing fitting ring (52) inserted on the bearing (18), which extends beyond the end (47b) of the insulating sleeve (47). 8. Three-phase generator according to one of the preceding claims, characterized in that the opening (40) of the plastic sleeve (39) for receiving the brush holder (34) is provided with an outwardly directed collar (53) onto which a sealing ring (55) enclosing the edge (54) of the collar (53) is placed from the outside.