CN1447038A

CN1447038A - Rolling bearing esp. for dynamo

Info

Publication number: CN1447038A
Application number: CN03107582A
Authority: CN
Inventors: 米歇尔·鲍特鲁克斯; 阿米尔·L·多耶尔; 弗朗西斯科·加卢奇
Original assignee: SKF AB
Current assignee: SKF AB
Priority date: 2002-02-05
Filing date: 2003-02-05
Publication date: 2003-10-08
Also published as: KR200363918Y1; FR2835580A1; FR2835580B1; ITTO20030067A1; JP2003239957A; DE20301647U1; KR20030066441A

Abstract

A bearing assembly (21), comprises an outer race (24) adjusting in the cylindrical flute. The outer race (24) comprises a runner face in contact with several balls (26) etc., while at least one expansion compensating race (35) is located in an annular groove (33) in the cylindrical outer face of the outer race. The expansion compensating race is of material with a larger expansion coefficient than that of the outer race. The expansion compensating race has an outer diameter between the outer diameter of outer race, minus 50 microns, and the outer diameter of outer race, plus 20 microns.

Description

Especially for the rolling bearing in the motor

Technical field

The present invention relates to the rolling bearing field, in particular for such as in the motor.

Background technique

Motor generally comprises a housing, is wherein fixing stator and is being mounted to rotor rotated in stator.Motor is mounted to by means of two bearing rotations, and this bearing generally is the rigidity ball bearing, and they are positioned on each end of rotor shaft.

" rigid ball " profile shaft holds has the bearing race that cross section is a ring usually, and it is a symmetry with respect to the plane through ball center, and this bearing works to bigger radial load and moderate axial load.These two bearings are installed on the axle with press fit by means of their inner rings.

The outer ring of bearing is installed in the cylinder shape groove of electric machine casing, and housing generally is made of light aluminum alloy.One of them outer ring of two bearings is axially fixed in the electric machine casing as circlip and/or shoulder, and can selects to be installed in the described housing by clamping by proper device.

The outer ring of another bearing axially is mounted freely in the housing, that is to say, allows axial clearance.In fact, the temperature rising along with motor under the different expansion of each parts of motor, can change second bearing with the axial distance that the clutch shaft bearing of relative housing axial restraint separates slightly.Therefore second bearing must axially move slightly with respect to housing, and its outer ring can be with respect to described housing in time rotation improperly.

FR-A-2585095 discloses a kind of bearing, is equipped with the axle collar of synthetic resin on its outer ring, and this synthetic resin is dual molded in the mach annular groove of described outer ring periphery.These axle collars are radially outstanding with respect to the exterior cylindrical surfaces of bearing outer ring, and prevent that when motor temperature raises the outer ring from rotating with respect to the groove on the housing.

The expansion coefficient of the electric machine casing of being made by light alloy approximately is the twice of expansion coefficient of the steel of each circle of bearing.Therefore temperature rise has caused radially loosening between the groove of bearing outer ring and housing.This axle collar of being made by plastic materials has with respect to the remarkable big expansion coefficient of housing light alloy, because the internal friction of bearing is to preventing the unintentional rotation of outer ring with respect to groove.The axle collar has very large external diameter with respect to bearing outside diameter.

By this way, for example for the bearing of 32mm external diameter, for the bearing of identical nominal value, axle collar external diameter tolerance from+20 to+50 μ m, from+30 to+70 μ m just, yet the tolerance of bearing outer diameter from 0 to-10 μ m.The result is that the axle collar is with respect to bearing outer ring radial surface and for good and all outstanding.

Though this equipment is for preventing that the outer ring unintentional rotation from being that the people is satisfied very in addition, it also has certain defective.

Bearing Installation is needed to make its contraction in groove, and therefore must under pressure, carry out.Because the axle collar is arranged on the outer ring and with respect to the latter's outer surface and obviously radially gives prominence to, this just makes in shrinking the operation process of installing must emit the risk of damaging and pulling out the axle collar.The clamping bearing makes bearing can not have in the process of temperature change and moves axially enough degrees of freedom in groove.As a result, this bearing bears unusual axial load, particularly under low temperature and middle temperature.The life-span that above-mentioned unusual axial load has infringement property ground to reduce bearing bracket stand probably.

Summary of the invention

The present invention is proposed to have solved the problems referred to above.

The invention provides a kind of improved bearing with compensating collar.

According to an aspect of the present invention, bearing means comprises an outer ring that is intended to regulate in cylinder shape groove, a bearing race that is formed on the described outer ring, contact a scrolling series element of arranging with raceway, and at least one expansion compensation axle collar, this axle collar is installed in the annular narrow orifice (throat) that the exterior cylindrical surfaces by the outer ring forms, and the axle collar is formed by the expansion coefficient material bigger than the expansion coefficient of the material that constitutes the outer ring.Axle collar external diameter deducts 50 μ m and the outer ring external diameter adds between the 20 μ m between the outer ring external diameter.

Advantageously, the adjusting of carrying out between the external diameter of bearing outer ring and the groove of light alloy housing will be selected, and can suitably slide at ambient temperature.

In an embodiment of the present invention, between+10 and-50 μ m, especially, this tolerance can be between+10 and-30 μ m with respect to the tolerance of nominal diameter for the external diameter of the axle collar.

In one embodiment of the invention, the outer ring external diameter with respect to the tolerance of nominal diameter between 0 and-10 μ m.

This bearing preferably includes two compensating collars, and they are arranged in two narrow orifices on the outer ring, and described narrow orifice is axially separated.This bearing is symmetrical with respect to the radial plane through the rolling element center preferably.

Bearing can comprise an inner ring solid or that made by sheet material, and it is provided with and the contacted external bearings raceway of rolling element.

In one embodiment of the invention, inner ring is made by composite.Especially this inner ring can be made by polyamide.

Bearing can be fixed in the groove, and this groove is provided with cylindrical bore and forms mechanical part, as the part of the stator component of motor.Groove can be made by light alloy.

The present invention also provides a kind of motor, and it comprises that a housing, one are installed in stator in the housing, rotor and at least one bearing between housing and the rotor of being fixed on as above describing.

In one embodiment of the present of invention, housing is made by light alloy, particularly comprises the metal alloy of aluminium and/or magnesium.

In one embodiment of the invention, the thermal expansion coefficient of the axle collar is than the material that comprises bearing outer ring and comprise that the material coefficient of thermal expansion coefficient of groove of described outer ring is big.

In other words, the outer surface of the axle collar can radially be given prominence to 10 μ m with respect to the cylindrical outer surface of bearing outer ring, or with respect to the former indentation 25 μ m.Because the external diameter of bearing outer ring is from 0 to-10 μ m with respect to the tolerance of its nominal side, and the groove of light alloy is from 0 to+16 μ m with respect to the tolerance of its nominal side, the nominal side of its further groove is identical with the nominal side of the external diameter of bearing outer ring, because the axle collar is outstanding very little with respect to the maximum radial that the outer ring may reach, so bearing can be installed in its groove at an easy rate, and do not have the danger that damages the axle collar.

When low temperature, particularly be lower than or during near 0 °, between the groove of outside steel ring of bearing and housing light alloy, have bigger interference.This interference has guaranteed centering, and guarantees that bearing outer ring can not rotate in groove, and these public affairs are full of and also allow the outer ring reasonably can light axial moving in its groove under the thrust load simultaneously.

Otherwise when temperature raise, for example high during to 120 ℃, the interference between the axle collar and the groove guaranteed centering more, and guaranteed that bearing outer ring does not rotate with respect to its groove.In fact, the expansion coefficient of the steel of outer ring is 1.5 * 10 ^-5About, the expansion coefficient of the light alloy of housing is 2.3 * 10 ^-5About, and the expansion coefficient of compensating collar is 13 * 10 ^-5About.This axle collar expands much larger than the outer ring, and then has guaranteed good expansion compensation under the temperature of normal temperature and rising.

Particularly, the expansion of axle collar expansion ratio housing groove diametrically is faster, and is bonded in effectively among the latter, has avoided any rotation of bearing outer ring in housing, and guaranteed the centering between bearing and the groove, and thereby guaranteed centering between rotor and the stator.Last point is very important, because a motor properties especially depends on the gap that exists between stator and the rotor, the minimizing in gap can improve motor properties.As everyone knows, this gap is more little then just high more to the required precision of centering between rotor and the stator.

In application-specific, such as the motor that is used for automobile power-assisted direction (assisted direction), wherein these are required especially strictness, rotor must can not surpass 50 μ m with respect to the error of centralization of stator.So the present invention can satisfy these requirements.

In addition, in high temperature range, the structure of the axle collar can temporary transient be improved, and the axle collar can become soft and bigger ductility, and it can be to realize outer ring slight moving axially when bearing load.

By way of example, can select for use the following PA11 type polyamide of its mechanical features to make the axle collar:

Young's modulus is 2200MPa in the time of-20 ℃

-Poisson's coefficient is 0.4

-thermal expansion coefficient is 13 * 10 ^-5

Description of drawings

The present invention will make it more understandable by the explanation in embodiment's the detailed description and the accompanying drawings of the several non-limiting of back.

Fig. 1 is the view of motor axial component of the prior art,

Fig. 2 is the front view according to the bearing of one aspect of the present invention,

Fig. 3 is mounted in the view of the bearing axial component among Fig. 2 on the motor,

Fig. 4 and Fig. 5 are the details drawings of Fig. 3 under high temperature and low temperature condition respectively, and

Fig. 6 be illustrate the axial force that is applied on the bearing as the function of temperature so that the curve of bearing translation in its groove.

Embodiment

As can be seen from Figure 1, motor 1 comprises a housing 2 of being made by light alloy, and the axle 5 of rotor 4 is installed with 3, one rotors of housing 2 all-in-one-piece stators 4 with on it.Housing 2 comprises and is substantially the radial ringed part 7 that 6, one of columniform parts are positioned at column part 6 one ends, and an opposite end, location and be the radial component 8 of annular shape.

Axial component 9 with cylindrical bore 10 becomes one with radial ringed parts 7 with boring 10 adjacent shoulders 11 and the grooves 12 arranged with respect to shoulder 11 along boring 10.Axial component 13 with cylindrical bore 14 is integral with radial ringed part 8, and extends axially towards motor 1 inside.The bearing 15 of traditional type is installed in the boring 10 of axial ledge 9 by its outer ring, and by shoulder 11 and circlip 16 axial restraints that are arranged in the groove 12.Bearing 15 is installed on the exterior cylindrical surfaces of axle 5 by its inner ring, and by being arranged on the shoulder 17 on the axle 5 and being installed on circlip 18 axial restraints in the mach groove on the axle 5.

Bearing 19 is force-fitted in an axle end of 5 by means of its inner ring, up to its shoulder 20 against described axle 5.Though this press fit has guaranteed the integrity of bearing 19 and axle 5, can the inner ring of bearing and spool between additional connection set is provided, for example be installed in the circlip of shaft end.The selection that the outer ring of bearing 19 can move to axial with respect to axial component 13 with its outer ring is installed in the boring 14 of described axial component 13.Each circle and the ball of bearing generally are formed from steel, and housing 2 is made by light alloy, for example based on the alloy of aluminium.

Because light alloy presents the expansion coefficient more much higher than steel, the special expansion coefficient more much higher than the outer ring of bearing 19, so be appreciated that in low temperature range, need sizable axial force to make outer ring translation in housing of bearing 19, in fact applying one on bearing may be to the disadvantageous axial load of described bearing.On the contrary, in high temperature range, excessive interval can be transformed by the rotation of outer ring with respect to housing by means of the internal drag distance of bearing 19.

For fear of the generation of this situation, will replace bearing 19 with bearing 21 as shown in Figure 3.Bearing 21 comprises a fixing interior ring 22 with annular bearing raceway 23, fixing outer ring 24 with annular bearing raceway 25, a scrolling series element 26, be ball in the case, it is arranged between bearing

race

23 and 25, and keeps the circle spacing clocklike by the retainer of being made by composite 27.

Outer ring 24 comprises two

grooves

28 and 29, they are arranged on the either side of bearing race 25, and play the effect of supporting

sealing flange

30 and 31, and the sealing flange is made by metal sheet, and extension forms sealing near the cylindrical hole of inner ring 22 by the constriction passage.

In addition, outer ring 24 comprises an exterior cylindrical surfaces 32, wherein processes two

narrow orifices

33 and 34, they be annular and with respect to radial plane symmetry through rolling element 26 centers, and can present the gabarit of U-shaped at axial section.Being installed in each

narrow orifice

33,34 is respectively by composite, and such as the

axle collar

35,36 that polyamide PA11 makes, they make the cylindrical outer surface 32 of outer ring 24 concordant substantially.

More particularly, each

axle collar

35 and 36 has a cylindrical outer surface, and its external diameter deducts 50 μ m and outer ring 24 external diameters increase between the 20 μ m between the external diameter of outer ring 24.In order to finish above-mentioned target, with the

axle collar

35 and 36 external diameters with respect to the tolerance of the nominal diameter of the described

axle collar

35,36 outer surfaces be set in+10 μ m and-50 μ m between, described tolerance is preferably between+10 μ m and-30 μ m.

Also can be arranged to: the external diameter of outer ring with respect to the tolerance of its nominal diameter between 0 and-10 μ m.Therefore at ambient temperature, the

axle collar

35 and 36 can not protrude in the outer surface 32 of external diameter 24, or outstanding very little, so that bearing can realize easily such as the press fit in the boring of the boring 14 of housing 2 axial ledge 13, and can not apply power or infringement to the

axle collar

35,36.

The

axle collar

35,36 is preferably by at

groove

34 and 33 injection moldings and molded.In this manner, they can be outstanding slightly with respect to outer surface 32 behind injection molding, as shown in Figure 4, or caves in slightly, as shown in Figure 5.

Narrow orifice

33 and 34 is axially separated, cylindrical outer surface 32 in outer ring 24 is divided on the meaning of three parts, a part is in one of them of bearing radially between front surface and the narrow orifice 33, second portion is between

narrow orifice

33 and 34, and third part is at narrow orifice 34 and relative with first portion radially between the front surface.

In order to be beneficial to bearing 21 is installed in the boring 14 of axial ledge 13, described boring can have with respect to the tolerance of its nominal side between 0 to+16 μ m.This means bearing can easily be installed.

Give an example in passing, be less than or equal to the bearing of 50mm for external diameter, the tolerance that can suppose described external diameter is between 0 to-10 μ m, yet for the bearing of external diameter between 50 to 80mm, the tolerance that can suppose its described external diameter is between 0 to-50 μ m.

Inner ring 22 can be installed on the axle 5.

Fig. 6 illustrates and is applied to the situation of change of power under different temperatures that makes it mobile in the hole of axial ledge on the bearing, is formed with bearing groove on the axial ledge.This bearing nominal outside diameter is 32mm, and the external diameter tolerance provides maximum interference between the bearing of groove and tape spool ring.Therefore, this curve is one and goes out the envelope curver in a zone at abscissa and described curve limit, and is with respect to other curves of minor diameter interference more in this zone.

For the temperature that is lower than 0 ℃, contact is preponderated between the steel of the light alloy/bearing outer ring of housing, and for the temperature that is higher than 0 ℃, the contact of the light alloy/compensating collar of housing is preponderated.It is to be noted for being higher than 0 ℃ temperature axial load, and for the ambient temperature between 0 to 30 ℃, axial load is between 400 to 500N less than 500N.

Based on 20 ℃ temperature, load reduces as the function of temperature always, near being 80 ℃ in temperature, load less than 200N till.Be lower than 0 ℃ in temperature and locate, load reduces with more obvious gradient equally as the function of temperature always.

It will be appreciated that, because the present invention, can obtain a kind of various application that are suitable for, the bearing in machine field particularly, this bearing has compensating collar, this compensating collar can be not outstanding with respect to the outer surface of bearing outer ring when low temperature, making it can the press fit easily of calm strategical vantage point, and when high temperature, because sizable expansion of compensating collar can keep described press fit, the expansion that prevents groove is by separately changing into two rotations between the element, and the expansion of the expansion ratio bearing outer ring of its further groove is much bigger.

Therefore, motor can constitute with littler radial clearance, thereby and improves performance.Can avoid axial load excessive on the bearing equally, the latter is harmful to the life-span of bearing bracket stand, and has avoided equally prejudicial outer ring of the life-span of motor being rotated with respect to groove.

Claims

1. a bearing means (21), comprise the outer ring (24) that in cylinder shape groove, to regulate, be arranged on the bearing race on the described outer ring, the a scrolling series element (26) that contacts and arrange with bearing race, with at least one expansion compensation axle collar (35), this axle collar is arranged in the annular narrow orifice (33) that the exterior cylindrical surfaces by the outer ring forms, the described axle collar is formed by the expansion coefficient material bigger than the expansion coefficient of the material that forms the outer ring, it is characterized in that the external diameter of the described axle collar deducts 50 μ m and the outer ring external diameter adds between the 20 μ m between the outer ring external diameter.

2. the device described in claim 1 is characterized in that, the external diameter of the axle collar with respect to the tolerance of nominal diameter between+10 and-50 μ m.

3. device as claimed in claim 1 or 2 is characterized in that, the external diameter of the axle collar with respect to the tolerance of nominal diameter between+10 and-30 μ m.

4. each described device as in the above-mentioned claim is characterized in that, the external diameter of outer ring with respect to the tolerance of nominal diameter between 0 and-10 μ m.

5. as each described device in the above-mentioned claim, it is characterized in that this device comprises two compensating collars (35,36), they are installed in two narrow orifices (33,34) of outer ring, and described narrow orifice is axially separated.

6. as each described device in the above-mentioned claim, it is characterized in that the outer ring is formed from steel.

7. as each described device in the above-mentioned claim, it is characterized in that the axle collar is made by composite.

8. mechanical component, comprise a groove that is provided with cylindrical bore and as above-mentioned claim in each described device, this device is installed in the described groove.

9. element as claimed in claim 8 is characterized in that this groove is made by light alloy.

10. element as claimed in claim 9 is characterized in that, this groove is by making based on the alloy of aluminium or magnesium.

11., it is characterized in that the thermal expansion coefficient of the axle collar is than the material coefficient of thermal expansion coefficient that constitutes bearing outer ring and to constitute the material coefficient of thermal expansion coefficient of groove of described outer ring big as each described element in the claim 8 to 10.