DE3509604A1 - BEARING - Google Patents

Abstract

In a bearing mount (15) which is especially well-suited for three phase generators, a bushing is inserted, preferably of a plastic material, which presents a material thinning in the direction of the machine axis, i.e. in its lengthwise direction. The bushing is mounted between the bearing recess (13) of the housing (10) (B-bearing shield) and the outer surface (18) of the roller bearing (16) which is to be set inside the bearing recess. The material thinning can be in the form of a grooved section (Fig. 4) having ridges and clefts, at least above a pass diameter of the bushing, or of a longitudinal slot opening (25) in the ring form of the bushing. This makes calibration procedures easier to perform since displaced material can escape into the hollows, or the calibration process can be eliminated entirely.

Description

Bearing seat

PRIOR ART The invention is based on a bearing seat the genre of the main claim. It is known, in bearing recesses of a housing, for example, if this is made of aluminum in the area comprising the bearing recess o. The like. There is to insert an intermediate socket with its outer wall in the The bearing recess is seated and its inner wall accommodates the outer surface of the bearing, for example a roller bearing outer ring. Such intermediate sockets are also referred to as fitting rings and are mainly used by their dimensional accuracy to ensure a good bearing seat service life and, above all, tolerance differences to be absorbed, even when in operation with significant temperature shifts must be expected.

Since the invention is preferred for the bearing seat design in three-phase generators suitable for automobiles and the like, will be explained in more detail below on this point of view received, although the invention is not limited to here. So it is known the B-bearing in three-phase generators, which is supported by an aluminum bearing hub in the B-end shield is made to be provided with a fitting ring or an intermediate bushing so is designed that they the play ratios between the aluminum bearing hub and keeps the corresponding roller bearing outer diameter approximately constant and at all is able to compensate for corresponding tolerances. Have such fitting rings smooth fitting diameter and can be used on both sides before assembly, for example, i.e. with reference to the bearing hub (outside) and with reference to the in they to be used roller bearing outer ring (ie inside) are made dimensionally accurate that put them into a calibration hub and press in a calibration stamp be shaped accordingly. However, such a production process is cumbersome, so that there is the possibility of using the fitting rings or intermediate sleeves to be calibrated directly in the respective bearing hub, which results in a tight fit on the outside, that is, in the housing hub, by itself and the dimensional accuracy of the inner diameter of the fitting ring is ensured by the calibration stamp. However, surrendered problems arise here that can lead to calibration directly in the bearing hub, that this is widened or out of round by the calibration process.

The invention is therefore based on the object Bearing seat, in particular for three-phase generators for motor vehicles and the like. that on the one hand calibration steps prior to the actual assembly are superfluous and this can either be done directly in the bearing hub, or press-fit processes of the fitting ring or the intermediate sleeve become completely superfluous, nevertheless particularly good clearance ratios between the housing hub and the outer diameter of the roller bearing achieved or this can be kept constant, independently or only little affected by changing temperatures.

Advantages of the Invention The invention solves this task with the characteristic Features of the main claim and has the. Advantage that by in the axial direction of the fitting ring, i.e. at least one material thinning running in its longitudinal direction an evasion of the bushing or fitting ring material is possible in the radial direction is, so that the fit relationships are more accurate and the press-in forces are smaller; furthermore directly in the area of the respective bearing hub concerned, that is to say during the assembly can be calibrated or worked and under certain circumstances even on each previous press-fit process (i.e. a corresponding calibration step) completely dispensed with and the intermediate bushing is simply used with the rotor assembly is, whereby the forces of the rotor assembly can be significantly reduced.

The two exemplary embodiments of the invention represent in approximately each end regions of solutions characterizing the invention, wherein Interim solutions are of course possible; while with the arrangement of Grooves and depressions with at least one fitting diameter of the socket still in the Can or should, if necessary, calibrate the bearing hub during assembly, is upon arrangement of a longitudinal slot in the socket only the. Wall thickness decisive; Inside- respectively.

The outer diameter of the bushing results from the final assembly Installation on the recess of the bearing hub, i.e. the bearing shield, or on the ball bearing outer ring.

The measures listed in the subclaims are advantageous Developments and improvements of the bearing seat specified in the main claim possible. It is particularly advantageous when the fitting ring is in the form of a Plastic bushing a longitudinally grooved inner and outer fitting diameter, whereby when calibrating directly during assembly using the bearing hub displaced material can escape into the grooves of the grooves and a Deformation of the hub is prevented with certainty. This is a particularly good way of achieving this good fit, a perfect and secure fit of the bushing in the bearing hub and a reduction in the press-fit forces when calibrating and when inserting the This side formed rotor bearing (B-bearing) if the invention is preferred Embodiment of a three-phase generator is used. Through the flawless Dimensional accuracy of the inner fitting diameter of the plastic bushing used the press-in forces for the ball bearing to be used are also lower. the Reduction of the press-in forces in general is advantageously due to that the material of the bushing or of the fitting ring radially on a shorter path to deformation can flow, while with smooth pass diameters it necessarily flows on both sides there is particularly high radial pressures in the hub area, so that the material of the bushing can then move approximately axially.

If the fitting ring is immediately designed as a plastic bushing with a longitudinal slot, then this can be done, for example, on the ball bearing outer ring when the rotor is being installed simply snapped on, and the whole thing is then inserted into the female aluminum bearing hub of the B-sign inserted.

Exemplary embodiments of the invention are shown in the drawing and are explained in more detail in the following description. Show it Fig. 1 shows schematically and only in detail a preferred application example of the Bearing seat in a three-phase generator, FIG. 2 is a plan view and FIG. 3 is a Section through a first embodiment of a fitting ring or an intermediate bush with a groove-like formation of at least one fitting diameter, FIG. 4 being larger Detail indicates the formation of the grooves here on the outer fitting diameter, and Fig. 5, 6 and 7 a further embodiment of an intermediate bushing for a bearing seat in plan view as well as in a first and in a second, to this one Sectional view rotated by 900.

Description of the exemplary embodiments The basic idea at hand Invention consists in the material of the intermediate bushing or the fitting ring - in the following, both are simply referred to as bushing - in the axial direction with the proviso to weaken so that even coarser manufacturing tolerances can easily be achieved yielding dimensional stability in the final seat of the bearing, completely below Dispensing with calibration steps prior to assembly and preferably in that the Calibrating the socket is part of the assembly process itself.

In Fig. 1 is the area of the B-end shield 10 of a three-phase generator 11 shown in more detail; Usually this end shield is made of aluminum, the bushing forming the bearing seat is denoted by 12 and is seated in a bearing recess 13 (aluminum bearing hub) of the B end shield 10. In the illustration of FIG the rotor shaft end 14 and the ball bearing mounted in the bearing seat 15 can still be seen 16 with ball bearing inner ring 17 and ball bearing outer ring 18. Adjacent to this bearing sit on the rotor shaft two slip rings 19a, 19b; furthermore there is one more Rectifying diode 20 to be recognized. More precisely needs the training of the alternator not to be entered, since the invention exclusively the bearing seat for in in this case the B-camp concerns.

The socket 12 can be made of any material, but is preferred a plastic bushing made of a suitable material. In the embodiment of Fig. 2-4, the bushing 121 forming the bearing seat comprises an annular one. closed wall 21, which are made in one piece and with gradations in a base part with a larger, central opening 22 transitions; on the opposite outer edge is the ring wall 21, as shown at 23, bent like a flange outwards, so that a flush insertion in the bearing hub 13 receiving this bushing is possible up to the stop; one the anti-rotation nose 24 completes the socket structure. Essential is that at least one of the fitting diameter formed by the ring wall 21, inside or outside, is grooved, so. Has grooves or depressions that are designed so that taking into account the predetermined bore diameter the bearing hub 13 during assembly or during a calibration process in the bearing hub this displaced material can escape into these depressions. The representation FIG. 4 shows in detail a region designated by Y in FIG. 2, and one recognizes that, taking into account an already relatively precise dimensional accuracy Grooving during the production of the bushes, preferably in the injection molding process is not very in-depth and, in order to be able to give numerical information, the Distance between the indentations and the outer diameter of the bushing, for example, between 15-30 % of the bushing wall thickness. The grooving is like that. enlargement 4 makes clear, finely rasterized trained and running preferably over the entire outer and / or inner diameter of the socket, where there is also a mean passport diameter, i.e. the mean value between one respective elevation and a respective depression of the grooving is applied, can be envisaged in the manufacture of the socket. This ensures that when inserting deformation work is done in any case, what a safe Seat benefits. The fit relationships are based on such a grooving much more accurate in each case; you avoid the deformation of the hub during implementation of the calibration process in the respective assigned bearing hub directly and significantly Lower press-in forces, on the one hand, of the bushing in the bearing hub and, on the other hand, of the ball bearing outer ring into the socket.

In the embodiment shown in FIGS. 5-7, attention is paid to it turned off that with the dimensionally stable wall thickness of the wall ring 21 of the socket 12 "on compliance with the specified fitting diameter inside or outside of the socket need not be taken into account, because in this embodiment contains the Plastic bushing 12 'has a longitudinal section 25, which is the closed ring shape of the Socket completely separates at one point and through a material removal in this Area is established. It is therefore possible by expanding or compressing it the socket, whereby the cut surfaces of the longitudinal slot either from one another remove or approach each other, the desired fitting diameter inside and outside to be produced automatically during assembly, so to speak, being the minor Removal of material through the longitudinal slot for the later firm and secure bearing seat remains meaningless.

In this embodiment, it is therefore the one that forms the bearing seat Plastic socket also possible, the plastic socket without any calibration process to be used by - with the wall thickness adhered to as precisely as possible - at the Final assembly inserted between the ball bearing outer ring and the bearing hub of the housing by first pulling the bush over the outer ring of the ball bearing and then press the whole thing into the bearing hub (bore 13) of the housing. Exhibited In this way, the inside or outside diameter of the socket is obtained during final assembly automatically through the installation of the outer wall or the inner wall of the wall ring 21 of the socket 12't on the ball bearing or on the bearing plate, and also coarser Manufacturing tolerances can be easily absorbed. A particular advantage in this embodiment there is still the fact that the longitudinal slot is inexpensive to manufacture is, a previous pressing process of the bushing into the bearing hub is superfluous and the forces required to mount the rotor are reduced.

It is particularly advantageous when using plastic bushings generally, whether in the first embodiment with at least one grooved Diameter or in the embodiment with a longitudinal slot, that the greater coefficient of expansion of the plastic used in each case is able to adjust the play ratios between the aluminum bearing hub and the roller bearing Outside diameter approx to keep constant, assuming that the material is aluminum, which For example, the B-end shield can be constructed, a greater coefficient of expansion has than, for example, the ball bearing outer ring; the ore in proper plastic bushing in both embodiments is therefore able to withstand significant temperature changes, the $ zfauischen 20-150.OC lie, at least roughly to catch up and the playing conditions to be kept essentially constant, so that the bearing seat service life is increased considerably can be.

All in the description, the following claims and the drawing Features shown can be used individually or in any combination be essential to the invention with one another.

Claims (6)

Claims 1. Bearing seat with one between the bearing recess (13) of a housing (10) and the outer surface of the bearing (for example roller bearing outer ring 18) inserted socket (12, 12 ', 12 "), especially for three-phase generators Motor vehicles, railways. and the like., characterized in that the bearing seat (Ball bearing seat 15) forming bush (12, 12 ', 12 ") at least one axially (in Longitudinal direction) has thinning material. 2. Bearing seat according to claim 1, characterized in that the material thinning one preferably around the entire inner and / or outer diameter of the socket (12 ') circumferential grooving with alternating grooves and elevations is such, that when inserting the bushing into the bearing hub (13) displaced material into the Can evade depressions of the grooving. 3. Bearing seat according to claim 1, characterized in that the material thinning a longitudinal slot (25) in the socket (12 ") is such that this one at a predetermined Point has an open ring shape. 4. Bearing seat according to claim 2, characterized in that the socket (121) in the associated bearing hub, which will later be the bearing seat for a Ball bearing forms, through a calibration process with a calibration stamp to the specified Inside dimension is brought. 5. Bearing seat according to claim 3, characterized in that at substantially specified wall thickness of the inside and outside diameter of the with a longitudinal slot (25) provided bush (12 ") by contact with the ball bearing outer ring or the bearing hub inner bore is formed, dispensing with a previous calibration process. 6. Bearing seat according to one of claims 1-5, characterized in that that the socket is made of plastic.