DE102018112330A1 - Double row angular contact ball bearing and method for adjusting the bearing - Google Patents

Abstract

Proposed are a double-row angular contact ball bearing (1) and a method for adjusting the radial play of the bearing, comprising an outer ring and a shaft (2) mounted therein in O-arrangement, on which the bearing balls (12) roll off without ringing. The outer ring has a first outer ring part (4) and a second outer ring part (5) axially joined thereto, the first ball row (8) rolling on the shaft on a first outer contact diameter (D) in the first outer ring part and on a first inner contact diameter (d). wherein the second ball row (9) rolls on a second external contact diameter (D) in the second outer ring part and on a second inner contact diameter (d) on the shaft and wherein the shaft between the two inner contact diameters (d, d) has a circumferential groove (19) is dimensioned for temporarily receiving the second row of balls during assembly of the angular contact ball bearing such that the diameter (d) of the Umlaufnut is smaller than the first inner contact diameter and smaller than the second inner contact diameter and that the outer sheath circle (D ') of the received in the Umlaufnut second row of balls smaller than the inner diameter (D) of the first outer ring part facing end portion (21) of the second outer ring part.

Description

The invention relates to a double-row angular contact ball bearing which comprises an outer ring and a shaft mounted therein in an O-arrangement on which the bearing balls roll on without an inner ring. The invention also relates to a method for adjusting the radial bearing clearance of the angular contact ball bearing.

Such an angular contact ball bearing is typically used as a water pump bearing in the cooling system of an internal combustion engine. Since the inner races of the two rows of balls are incorporated directly into the shaft and consequently the bearing has no inner ring, the bearing balls more radial space in favor of the load rating is available.

In current vehicle developments with sole or additional electric drive, a trend is emerging, according to which the vehicle (also) is provided with one or more decentralized and relatively small cooling circuits and correspondingly small-sized cooling water pump.

The present invention has for its object to provide an angular contact ball bearing of the type mentioned above and in particular a water pump bearing, which is designed as small as possible at a relatively high load rating.

The solution to this problem results from the features of the device claim 1 and the method claim. 7

On the device side, the outer ring should have a first outer ring part and a second outer ring part axially joined thereto. The first ball row rolls on a first outer contact diameter in the first outer ring part and on a first inner contact diameter on the shaft. The second ball row rolls on a second outer contact diameter in the second outer ring part and on a second inner contact diameter on the shaft. The shaft has between the two inner contact diameters a circumferential groove which is dimensioned for temporarily receiving the second row of balls during assembly of the angular contact ball bearing such that the diameter of the Umlaufnut is smaller than the first inner contact diameter and smaller than the second inner contact diameter and that the outer peripheral circle in the Circumferential groove received second ball row is smaller than the inner diameter of the first outer ring part facing end portion of the second outer ring part.

The two-part design of the outer ring and the relatively small shaft diameter in the Umlaufnut are prerequisite for at least the second row of balls in favor of the load capacity with a filling angle of significantly more than 190 ° can be mounted. Ideally, the second row of balls is almost vollkugelig. During bearing assembly, the second row of balls mounted after the first row of balls is first positioned in the axial area of the circumferential groove. In this position, the outer shell circle of the second ball row is smaller than the (smallest) inner diameter of the second outer ring part in the region of the end portion which faces the first outer ring part. Thus, the second outer ring part can be pushed over the second row of balls in the direction of the already mounted first outer ring part. Subsequently, the second row of balls is - in the opposite direction - shifted to the second inner and outer contact diameter under magnification of their outer circle diameter.

The process side, the radial bearing clearance of the angular contact ball bearing should be adjusted by the fact that the bearing clearance is adjusted by the dimensional adjustment of an axial gap of the mutually facing Axialstirnseiten the outer ring parts.

Advantageous embodiments of the invention are each the subject of the dependent claims.

• 1 das zweireihige Schrägkugellager im Zusammenbau;
• 2 die Montage der ersten Kugelreihe;
• 3 die Montage des ersten Außenringteils;
• 4 die temporäre Montage der zweiten Kugelreihe;
• 5 die Montage des zweiten Außenringteils;
• 6 die Verlagerung der zweiten Kugelreihe;
• 7 das Auseinanderziehen der beiden Außenringteile.

Further features of the invention will become apparent from the following description and from the figures, in which an embodiment of an angular contact ball bearing according to the invention is shown in longitudinal section. It is a water pump bearing, which is miniaturized compared to known water pump bearings of internal combustion engines. Show it:

• 1 the double row angular contact ball bearing in assembly;
• 2 the assembly of the first row of balls;
• 3 the assembly of the first outer ring part;
• 4 the temporary assembly of the second row of balls;
• 5 the mounting of the second outer ring part;
• 6 the displacement of the second row of balls;
• 7 the pulling apart of the two outer ring parts.

This in 1 Assembled water pump bearing is a double-row angular contact ball bearings 1 with a wave 2 which drives an impeller of the water pump. The angular contact ball bearing 1 has one in a housing bore 3 a bearing housing pressed outer ring with two axially joined outer ring parts 4 and 5 , each one of the outer raceways 6 and 7 for the two rows of balls 8th and 9 with bearing cages 10 respectively. 11 and the bearing balls held therein 12 form. The press federation of the outer ring is over the contact of the Outer shell surfaces of both outer ring parts 4 . 5 with the housing bore 3 produced.

The outer ring parts 4 . 5 are at their mutually facing Axialstirnseiten 13 respectively. 14 by means of cylindrical projections 15 respectively. 16 plugged together. The axial overlap of the outer ring parts 4 . 5 at the projections 15 . 16 facilitates the later explained setting of the bearing clearance after pushing the outer ring parts 4 . 5 over the filled storage cages 10 respectively. 11 ,

The angular contact ball bearing 1 has in favor of the radial space requirement no inner ring, so that the bearing balls 12 on inner raceways 17 and 18 roll over, directly in the shaft 2 are incorporated (s. 2 ). The rows of balls 8th . 9 each comprise six bearing balls 12 , so that the Lagerfüllwinkel is much greater than 190 ° in favor of a high load rating and ideally 360 ° corresponding to a full spherical shape. The diameter dw of the inner raceways 17 . 18 adjacent shaft sections is present 4.4 mm, and the diameter D of the bearing balls 12 is 2.8 mm. The ratio D / dw thus amounts to approximately 0.64, whereby the relationship should generally be: D / dw ≥ 0.5.

The wave 2 is stored in accordance with the indicated pressure angle lines in O arrangement. As is known, the axial distance between the first inner contact diameter d _K1 and the second inner contact diameter d _K2 on which the two rows of balls 8th respectively. 9 on the inner raceways 17 respectively. 18 the wave 2 roll over, greater than the axial distance between the first outer contact diameter D _K1 and the second external contact diameter D _K2 on which the two rows of balls 8th respectively. 9 in the outer ring parts 4 respectively. 5 roll off.

The O-arrangement of the shaft bearing is at the present Lagerfüllwinkel of significantly more than 190 ° by a Umlaufnut 19 allows the axial between the two inner contact diameters d _K1 and d _K2 into the wave 2 is introduced and for temporarily receiving the second row of balls 9 during the assembly of the angular contact ball bearing explained below 1 serves. The diameter d _N the circumferential groove 19 is smaller than the inner contact diameter d _K1 and d _K2 so that the outer envelope circle D ' _H2 the second row of balls 9 (S. 4 ) is significantly reduced when temporarily in the circumferential groove 19 is included.

2 : The first ball row 8th gets on the first inner race 17 assembled.

3 : The first outer ring part 4 gets on the shaft 2 threaded and with the end section 20 ahead of the second outer ring part 5 turned away, over the first row of balls 8th pushed. For this purpose, the in 2 drawn outer envelope D _H1 the mounted first row of balls 8th smaller than the inside diameter D ₁ of the end section 20 ,

4 : The first outer ring part 4 is located with the first external contact diameter D _K1 in play-poor or play-free system at the first row of balls 8th , The second row of balls 9 is temporarily on the Umlaufnut 19 mounted, with the bearing balls 12 on the comparatively small diameter d _N the circumferential groove 19 abut and the second row of balls 9 the comparatively small outer envelope D ' _H2 having.

5 : The second outer ring part 5 gets on the shaft 2 threaded and with the end section 21 ahead of the first outer ring part 4 facing, over the second row of balls 9 pushed. This is the temporary outer envelope D ' _H2 the second row of balls 9 smaller than the inside diameter D ₂ of the end section 21 ,

6 : The pre-assembled angular contact ball bearing 1 is shifted according to the indicated direction of gravity in the vertical, so that the second row of balls 9 Gravity due to the Umlaufnut 19 out and onto the second inner raceway 18 falls.

7 : The outer ring parts 4 . 5 are pulled apart in a mutual position in which the two rows of balls 8th . 9 both at the inner contact diameter d _K1 respectively. d _K2 as well as the external contact diameter D _K1 respectively. D _K2 abut and thus are axially play free. This position can be achieved either under the mere influence of gravity or traction-assisted and then, for example, by measuring the force or the force change on the pulling tool.

Without figures: Then the outer ring parts become 4 . 5 from the exploded (axial play-free) position pushed together by a predetermined path. This path correlates with the specified radial bearing clearance of the not yet in the housing bore 3 pressed-in angular contact ball bearing 1 ,

Subsequently, the outer ring parts 4 . 5 in this collapsed position joined together, the joining assembly prior to pressing the outer ring parts 4 . 5 has provisional character. The joining, for example, by filling the dimensionally adjusted axial gap between the facing axial end faces 13 . 14 the outer ring parts 4 . 5 done with a material that has the axial end faces 13 . 14 cohesively adds together. As a material that in 1 only schematically drawn and with 22 Liquid adhesives, injected plastic, or plastics or metals introduced by means of additive processes (3D printing) are possible, among other things.

Alternatively, there is the possibility of a material connection 23 the outer ring parts 4 . 5 in the axial overlap region of the assembled projections 15 . 16 by gluing them together, soldered or welded together.

Claims (9)

Double-row angular contact ball bearing (1) comprising an outer ring and a shaft (2) mounted therein in O-arrangement, on which the bearing balls (12) roll off without inner ring, characterized in that the outer ring, a first outer ring part (4) and a second outer ring part axially joined thereto (5), wherein the first ball row (8) rolls on a first outer contact diameter (D _K1 ) in the first outer ring part (4) and on a first inner contact diameter (d _K1 ) on the shaft (2), the second ball row (9) on a second outer contact diameter (D _K2 ) in the second outer ring part (5) and on a second inner contact diameter (d _K2 ) rolls on the shaft (2) and wherein the shaft (2) between the two inner contact diameters (d _K1 , d _K2 ) a circumferential groove (19), which is dimensioned for temporarily receiving the second row of balls (9) during assembly of the angular contact ball bearing (1) such that the diameter (d _N ) of the Umlaufnut (19) is smaller than the first Inn enkontaktdurchmesser (d _K1 ) and smaller than the second inner contact diameter (d _K2 ) and that the outer peripheral circle (D ' _H2 ) of the in the Umlaufnut (19) received second ball row (9) smaller than the inner diameter (D ₂ ) of the first outer ring part (4) facing end portion (21) of the second outer ring part (5). Angular contact ball bearing (1) after Claim 1 , characterized in that the outer peripheral circle (D _H1 ) of the first ball row (8) is smaller than the inner diameter (D ₁ ) of the second outer ring part (5) facing away from the end portion (20) of the first outer ring part (4). Angular contact ball bearing (1) after Claim 1 or 2 , characterized in that the filling angle of both rows of balls (8, 9) is greater than 190 °. Angular contact ball bearing (1) according to one of the preceding claims, characterized in that the mutually facing Axialstirnseiten (13, 14) of the outer ring parts (4, 5) have cylindrical projections (15, 16) by means of which the outer ring parts (4, 5) are put together , Angular contact ball bearing (1) after Claim 4 , characterized in that the mutually facing Axialstirnseiten (13, 14) of the outer ring parts (4, 5) are spaced from each other by an axial gap which is filled with a the axial end faces (13, 14) cohesively mating material (22). Angular contact ball bearing (1) according to one of the preceding claims, characterized in that the two rows of balls (8, 9) each comprise six or more bearing balls (12), wherein for the diameter D of the bearing balls (12) and the diameter dw of the inner raceways (17, 18) of the bearing balls (12) adjacent portions of the shaft (2) the relation holds: D / dw ≥ 0.5. Method for adjusting the radial bearing clearance of an angular contact ball bearing (1) according to one of the preceding claims, characterized in that the bearing clearance by adjusting an axial gap of the mutually facing Axialstirnseiten (13, 14) of the outer ring parts (4, 5) is adjusted. Method according to Claim 7 so far up Claim 4 characterized by the following process steps: - pulling apart the assembled outer ring parts (4, 5) in a mutual position in which the two rows of balls (8, 9) are free of axial play, - pushing the outer ring parts (4, 5) by a predetermined distance from the exploded position, - joining the outer ring parts (4, 5) in the collapsed position. Method according to Claim 8 , characterized in that the joining of the outer ring parts (4, 5) takes place by filling the axial gap with a material (17) which integrally bonds the axial end faces (13, 14) to one another.

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