CN104728272B - Bearing assembly - Google Patents

Abstract

The present invention relates to a bearing assembly for rotatably supporting an element about an axis of rotation, the bearing assembly comprising: a plurality of rolling bodies arranged on a circumference around the rotational axis; a bearing cage for supporting the rolling elements in an axial direction; an outer ring for supporting the rolling bodies on a radially outer side thereof; wherein first and second tabs are alternately arranged on a circumference around the rotational axis on the first axial end of the outer ring. The first web is directed radially inward to delimit the axial position of the bearing cage, and the second web is directed radially outward to be mounted on the element to be supported in the axial direction.

Description

Bearing assembly

Technical field

The present invention relates to a kind of bearing assemblies.The invention particularly relates to the bearing assemblies with annular bearing with rolling contact.

Background technique

Rolling bearing for receiving radial axle load includes multiple rolling elements, and the rolling element is arranged in around rotation axis On the circumference of line.These rolling elements are received in bearing retainer, which supports rolling element in the axial direction And usually also ensure the spacing in the adjacent rolling elements on the circumference of pivot center.In the radial outside of rolling element On be disposed with outer ring, which is also referred to as cartridge housing.Inner ring, mandrel (Achse) or axis can be set on radially inner side (Welle) it is inserted into the inner ring.In another embodiment, inner ring can be saved and rolling element is directly described It is rolled on the radial surface of mandrel or the axis.

Axial position of the described bearing assembly on element to be supported is usually in the first axial direction by convex Edge, connection strap or another axial stop limit.Commonly using such as interior relieving ring on another axial end portion of bearing assembly Or outer relieving ring it is such, for the safety element of axial restraint.

This kind of axial relief on element to be supported needs assembly that is expensive, may cause manufacturing cost raising.This Outside, the axial relief needs relatively large axial arrangement space.Therefore, the arrangement of rotating element may in the axial direction not It is so compact, also, in the region of bearing assembly layout elements, the free space in structure may be reduced.

Summary of the invention

Therefore, the present invention is based on such tasks, that is, proposes a kind of bearing assembly, the bearing assembly is in known bearing group The upper dominance of at least one of these aspects of part aspect.

According to the present invention it is proposed that a kind of bearing assembly, the bearing assembly is for making element can turn around pivot center Dynamic mode is supported, and the bearing assembly includes following elements: multiple rolling elements, and the rolling element is arranged in be turned around described On the circumference of shaft line；Bearing retainer is used to support the rolling element in the axial direction；Outer ring is used for described The rolling element is supported on the radial outside of rolling element；Wherein, on the first axis end of the outer ring, turn around described The first contact pin and the second contact pin are alternately disposed on the circumference of shaft line, also, first contact pin is radially inwardly directed toward, With the axial position of bearing retainer described in limit, also, second contact pin is radially outwardly directed toward, so as in the axial direction by Be mounted on the element to be supported, wherein in a radial outer region in the first section in the second contact pin Extend in axial direction to the direction of the outer ring and radially inwardly extends in the second section followed.

Bearing assembly packet according to the present invention, for supporting element in a manner of it can surround pivot axis It includes: multiple rolling elements on the circumference of the pivot center is arranged in, for supporting the rolling element in the axial direction Bearing retainer and outer ring for supporting the rolling element on the radial outside of the rolling element, wherein described outer On the first axis end of circle, the first contact pin and the second contact pin are alternately disposed on the circumference around the pivot center. First contact pin is radially inwardly directed toward, and with the axial position of bearing retainer described in limit, and the second contact pin is radially outwardly It is directed toward, to be installed on the element to be supported in the axial direction.

The bearing assembly needs few axial arrangement space and can be easily mounted on element to be supported, example Such as by indentation, until the second contact pin axially sticks on element to be supported.The outer ring with contact pin can integrate as a result, Ground is arranged for axial relief.In addition, bearing assembly may be constructed the construction package that can be independently operated, thus bearing Installation of the component on element to be supported can be carried out simply, and quickly.Additional tightening member can be removed.As a result, Production cost can be saved.In addition, the bearing assembly can be and can dismantle, that is, can again with element to be supported point It opens.In order to which element to be mounted in contact pin, different embodiments is possible.

In the axial direction to the outer ring in a radial outer region preferably in the first section in second contact pin Direction extends and radially inwardly extends in the second section followed.The second section being directed radially inwardly toward can stick on Prevent bearing assembly axial from element to be supported in the abutment face of element to be supported and by form locking or force closure It removes on ground.It is on the element to be supported, individual for the bearing assembly to be axially fixed to thus, it is possible to save Safety element.The installation of the bearing assembly can be further simplified and even toollessly carry out.

Preferably, first section and second section surround the angle less than substantially 90 °.As a result, described second Section can ground diameter steep enough to pointing inwardly toward, to insure the bearing assembly described wait prop up in the axial direction On the element held.Preferably, the contact pin further includes third section, in third section linking to second section, wherein Third section extends radially out and surrounds at least substantially 90 ° of angle with the second section.

Third section can be used for assembling auxiliary.The bearing assembly is set to be axially mounted to the element to be supported Upper period, oblique outwardly extending third section can generate with the element and recline and the second section can be made relative to first Section is bend radially outward.Transitional region depending on the characteristic of element to be supported, between the second section and third section Such as can be caught in the radial depressions portion of element to be supported, so that the bearing assembly is insured in the axial direction.

Preferably, the outer ring is constituted one-piece with contact pin.In addition, the element that is permanently connected with outer ring can also be with It is constituted one-piece with outer ring.The bearing assembly can be and can simply and cost-effectively manufacture as a result,.Described outer It can be disposed with the section being directed radially inwardly toward on second axial end portion of circle, be used for the axial direction of bearing retainer described in limit Position.Here, can for example be related to connection strap that is circular, being directed radially inwardly toward.Alternatively, also can be set one or Multiple contact pin being radially inwardly directed toward.Thus, it is possible to the axial position of bearing retainer described in limit in two directions.? In another embodiment, the second adjacent contact pin is connected with each other by means of connection strap.The connection strap for example can be along surrounding The circumference of pivot center extends.The axially and/or radially intensity of the second contact pin can be enhanced as a result,.

In another embodiment, the bearing assembly also includes the element to be supported, wherein described to be supported Element on be provided with the axial gap of the second section for receiving the second contact pin.Use can be specially arranged in the axial gap In second and third section for receiving the contact pin.Reclining for the second contact pin especially can be provided on the notch Boundary, wherein the boundary preferably supports the form locking for the second section of the second contact pin being radially inwardly directed toward.One In embodiment, each second contact pin is associated with a notch in element to be supported.In another embodiment, institute State element to be supported include around the pivot center, for all the second contact pin correspondingly constituted recline recline Face.Preferably, the element to be supported has the side radially rabbeted for second contact pin recessed.

Detailed description of the invention

The present invention is more accurately described referring now to attached drawing, in which:

Fig. 1 and 2 shows bearing assembly；

The bearing assembly that Fig. 3 and 4 shows Fig. 1 is on centrifugal force pendulum；

Fig. 5-7 shows the bearing assembly of Fig. 1 to 4 in another embodiment；

Fig. 8-10 shows the bearing assembly of Fig. 1 to 7 without element to be supported；

Figure 11 and 12 shows the bearing assembly of Fig. 8-10 without rolling element and bearing retainer；

Figure 13 shows the centrifugal force pendulum with another bearing assembly；

Figure 14 shows another view of the bearing assembly of Figure 13；

Figure 15 shows the details of the bearing assembly of Figure 13；

Figure 16 shows the bearing assembly of Figure 14 without element to be supported；

Figure 17 shows the element to be supported of the bearing assembly for Figure 14；

Figure 18 shows the centrifugal force pendulum of Figure 13, the bearing assembly with another embodiment and

Figure 19 shows the details of the bearing assembly of Figure 18.

Specific embodiment

Fig. 1 and Fig. 2 shows for by can around pivot center 110 rotate in a manner of support an element 105 to be supported Bearing assembly 100.In various embodiments, bearing assembly 100 also includes element 105 to be supported.100 quilt of bearing assembly It is arranged on pushing sleeve to axis or mandrel (Achse) and in the institute of bearing in the radial direction for the axis or mandrel State element 105.Bearing assembly 100 includes: multiple rolling elements 115, and rolling element is arranged on the circumference of pivot center 110； For supporting the bearing retainer 120 of rolling element 115 in the axial direction；It is somebody's turn to do with for being supported on the radial outside of rolling element The outer ring 125 of rolling element 115.

Rolling element 115 may be embodied to spherical, barrel-shaped, cone-shaped or cylinder shape.It is different from spherical rolling in its shape In the case where kinetoplast 115, the longitudinal axis 130 of the rolling element is preferably parallel to the extension of pivot center 110.Bearing retainer 120 Usually make rolling element 115 fixed on the two axial directions.Additionally, bearing retainer 120, which is preferably arranged, is used for, and keeps Spacing in the rolling element 115 on the circumference of pivot center 110.In addition, bearing retainer 120 can ensure, roll Body 115 is radially inwardly kept, so that assembly transfiguration of the rolling element 115 on outer ring 125 is easy.Bearing retainer 120 is for example Can be can be manufactured by plate or plastics.

Outer ring 125 includes multiple contact pin, and the contact pin extends in radial directions on first axis end.First contact pin 135 radially inwardly be directed toward and the second contact pin 140 be radially outwardly directed toward.First contact pin 135 and the preferred friendship of the second contact pin 140 It is alternately arranged on the circumference of the pivot center 110.Moreover it is preferred that contact pin 135,140 and outer ring 125 1 Constitute likes.During the manufacturing process of outer ring and contact pin 135,140, contact pin 135,140 can be initially directed to an axial direction side simultaneously And it then radially-inwardly or is bent outwardly.

In one embodiment, the second adjacent contact pin 140 is connected with each other by means respectively of connection strap 145.Connection strap 145 The second contact pin 140 can be made mutually circlewise to connect.Second contact pin 140 is in the first section 150 preferably on purely radial direction Extend, which surrounds substantially 90 ° of angle with pivot center 110.In at least one second contact pin 140, first 150 uplink of section is connected to the second section 155, wherein section 150 and 155 preferably mutually surrounds the angle less than substantially 90 °.The The extending direction of two sections 155 is directed toward pivot center 110 and surrounds acute angle with the pivot center.Third section 160 can be held in the mouth It is connected on the second section 155, wherein section 155 and 160 preferably mutually surrounds at least substantially 90 ° of angle.Third section 160 Extending direction extend with leaving from pivot center 110.Transition between section 150 and 155 or section 155 and 160 Radius in portion can be selected relatedly with the desired bending hardness of the material of the second contact pin 140, the second contact pin 140 or It is selected relatedly with the characteristic of element 105 to be supported.

Element 105 to be supported includes the abutment face 165 for second contact pin 140 that reclines.Shown in abutment face 165 surround Pivot center 110 is constituted.Here, abutment face 165 preferably substantially follows the extension side of the second section 155 of the second contact pin 140 To.In particular it is preferred that element 105 to be supported has side recessed, the side is recessed to pass through 165 limit of abutment face.It as a result, if should In the axial direction, the outer ring 125 with the second contact pin 140 is removed from element 105 to be supported to the right in the illustration of FIG. 1, The stress that tabbing material must then be resisted increases the angle between the first section 150 of the second contact pin 140 and the second section 155 Greatly.The elastic stress of second contact pin 140 in this region insures the axial position of outer ring 125.It is preferably provided in wait prop up Another abutment face 170 on element 105 held, the first section 150 that another abutment face is parallel to the second contact pin 140 prolong It stretches, so that outer ring 125 is insured in opposite axial directions by the second contact pin 140.

In the preferred embodiment shown in, outer ring 125 in the axial direction with the first contact pin 135 and the second contact pin 140 The section 175 being directed radially inwardly toward is provided on opposite axial side.It is preferred that the section 175 and outer ring 125 are real one-piece It applies.

The bearing assembly 100 that Fig. 3 and 4 shows Fig. 1 is on centrifugal force pendulum 200.Centrifugal force pendulum 200 includes: pendulum flange 205, which is arranged in a manner of it can rotate around pivot center 110；With multiple pendulum masses 210, the pendulum mass is staggered Ground is arranged on the circumference of pivot center 110.Each pendulum mass 210 is in rotational plane relative to pendulum flange 205 with energy The mode enough moved is installed, wherein also changes pendulum mass 210 along or against the moving for rotation direction of pendulum flange 205 Radial position.Pendulum flange 205 is the element 105 to be supported of Fig. 1 and 2.Bearing assembly 100 is mounted in pendulum flange 205 and is used for Pendulum flange 205 is supported in the axial direction.Here, pendulum flange 205 is in the region of bearing assembly 100 as shown in Fig. 1 and 2 Such configuration.Bearing assembly 100 can also be used for the purpose for being different from supporting the pendulum flange 205 of centrifugal force pendulum 200, However, it is possible to the purpose technically supported especially suitable for this pendulum flange to centrifugal force pendulum.

Fig. 5 to 7 shows the bearing assembly 100 of Fig. 1 in another embodiment.Here, Fig. 7 shows element to be supported 105 vertical section.Different from embodiment shown in Fig. 1 to 4, abutment face 165 is circumferentially constructed in element herein On 105.It replaces, each second contact pin 140 is provided with a dedicated notch 215 on element 105, wherein Notch 215 optionally extends through entire element 105 in the axial direction or can be configured to blind hole form.Herein Preferably, 165 limit side of abutment face is recessed, so that the second section 155 of the second contact pin 140 ensures that the shape on element 105 is locked It closes.

Fig. 8 to 10 shows the bearing assembly 100 of Fig. 1 to Fig. 7 without element 105 to be supported.Figure 11 and 12 shows Fig. 8 To Figure 10 bearing assembly 100 without rolling element 115 and bearing retainer 120.

Figure 13 to 17 shows bearing assembly 100 in another embodiment.With referring to figs. 1 to embodiment described in 12 Difference, herein, the second contact pin 140 only include the first section 150, which extends radially outwardly.Bearing assembly 100 exists It is carried out with insurance also in circumferential direction when necessary by means of fixing element 305 on axial direction, is having contact pin 135, After 140 outer ring 125, rolling element 115 and bearing retainer 120 is mounted on element 105 to be supported, the fixing element quilt It is mounted on the element to be supported.Here, the first section 150 of the second contact pin 140 is in 305 He of fixing element in the axial direction Between the axial abutment face 310 of element 105.It is preferred that being provided with another axial abutment face 315, fixing element on element 105 305 stick on except the first section 150 of the second contact pin 140 radially in another axial abutment face.Thus, it is possible to limit The clamping force of fixing element 305 processed to work in the axial direction.Fixing element 305 for example can be by screw, rivet, molten Weldering or soldering are fixed on element 105.

Figure 13 shows the centrifugal force pendulum 200 of the embodiment with bearing assembly 100.Figure 14 shows bearing assembly 100 Vertical section.Figure 15 illustrates the details of Figure 14 with another solid.Figure 16 shows bearing assembly 100 without element to be supported 105.Figure 17 shows the element 105 to be supported before abutment face 310 is completed processing with vertical section.Abutment face 310 is for example It can be manufactured by the turning in the region of other abutment face 315 or milling.

Figure 18 and 19 shows the bearing assembly 100 of the variant schemes of the embodiment of Figure 13 to Figure 17.Figure 18, which is shown, to be had The centrifugal force pendulum 200 and Figure 19 of the embodiment of bearing assembly 100 show the details of Figure 18.In current variant schemes It saves: the abutment face 310 and 315 on element 105 being made to be staggered in the axial direction.Correspondingly, fixing element 305 exists radially It is not sticked on element 105 first in the axial direction except first section 150 of the second contact pin 140.Area more outward radially There are reclining between fixing element 305 and element 105 to be supported by Duan Zhongcai, wherein the section more outward with recline There are the radial segments of fixing element 305 between the section in the second contact pin 140.

List of reference signs

100 bearing assemblies

105 elements to be supported

110 pivot centers

115 rolling elements

120 bearing retainers

125 outer rings

130 longitudinal axis

135 first contact pin (radially-inwardly)

140 second contact pin (radially outward)

145 connection straps

150 first sections

155 second sections

160 third sections

165 abutment faces

170 other abutment faces

175 sections

200 centrifugal force pendulums

205 pendulum flanges

210 pendulum masses

215 notches

305 fixing elements

310 abutment faces

315 other abutment faces

Claims (9)

1. bearing assembly (100), which is used to make element (105) can surround the side of pivot center (110) rotation Formula is supported, and the bearing assembly includes following elements:

Multiple rolling elements (115), the rolling element are arranged on the circumference of the pivot center (110)；

Bearing retainer (120) is used to support the rolling element (115) in the axial direction；

Outer ring (125) is used on the radial outside of the rolling element support the rolling element (115)；

Wherein, on the first axis end of the outer ring (125), on the circumference around the pivot center (110) alternately Ground is disposed with the first contact pin (135) and the second contact pin (140), also,

First contact pin (135) is radially inwardly directed toward, with the axial position of bearing retainer described in limit (120), and And

Second contact pin (140) is radially outwardly directed toward, to be installed in the element to be supported in the axial direction (105) on, which is characterized in that

One in second contact pin (140) is in the radial outer region in the first section (150) in the axial direction to the outer ring (125) direction extends and radially inwardly extends in the second section (155) followed.

2. bearing assembly (100) according to claim 1, wherein first section (150) and second section (155) angle less than 90 ° is surrounded.

3. bearing assembly (100) according to claim 1 or 2, wherein second contact pin (140) arrives institute in linking It states in the third section (160) on the second section (155) and radially outwardly to extend and second section and the third Section (160) surrounds at least substantially 90 ° of angle.

4. bearing assembly (100) according to claim 1 or 2, wherein the outer ring (125) and second contact pin (140) it constitutes one-piece.

5. bearing assembly (100) according to claim 1 or 2, wherein the second axial end in the outer ring (125) It is disposed with the section (175) being radially inwardly directed toward in portion, is used for the axial position of bearing retainer described in limit (120).

6. bearing assembly (100) according to claim 1 or 2, wherein adjacent the second contact pin (140) is by means of even Narrow bars (145) are connected with each other.

7. bearing assembly (100) according to claim 1 or 2, which further includes the element to be supported (105), wherein the second section for receiving second contact pin (140) is provided on element (105) to be supported (155) axial gap.

8. bearing assembly (100) according to claim 1 or 2, wherein the rolling element (115) be cylinder shape and And the longitudinal axis (130) of the rolling element (115) is extended parallel to the pivot center (110).

9. bearing assembly (100) according to claim 1 or 2, wherein the element (105) to be supported, which has, to be used It is recessed in the side of second contact pin (140) radially rabbeted.