DE4040414A1 - Axial needle beating with bearing thrust washers - has sleeve fitments, with cylindrical, part-circular guide surfaces, and wedge shaped surfaces - Google Patents

Abstract

The axial needle bearing with needles (3) in a needle-cage (2) has bearing thrust washers made of stamped and drawn sheet metal and which have sleeve fitments (6) concentric with each other and bent towards each other in cylindrical part-circle guide surfaces (8,9) on at least one periphery. In the middle of the part circular guide surfaces (8,9) are recesses or lugs (10) joining them into one component. Next to the recesses or lugs (10) in a peripheral direction are wedge surfaces (11,12) on the cylindrical part-circle guide surfaces (8) of the one sleeve fitment (6) of the one bearing thrust washer. The wedge surfaces (11,12) form a wedge-shaped hydrodynamic lubricating gap together with the cylindrical part-circle guide surfaces (9) on the other sleeve fitment (7) of the other bearing thrust washer. ADVANTAGE - Lubrication is improved with reduced rail lubricant flow.

Description

The invention relates to an axial needle bearing component ment explained in the preamble of claim 1 Art.

From DE-PS 38 22 779 the applicant is already an Ax ial needle bearing component of this type is known, in which the Component by angled towards each other and to each other concentric sleeve approaches with cylindrical part circular guide surfaces and trained in their centers Impressions or noses held together.

In the known axial needle bearing component, the Lubricate the sleeves, which are concentric to each other sentences by arranged between the pitch circle guide surfaces nete conical sleeve approaches ensured that in axial Directional funnel for the lubricant form.

Axial needle bearing components, however, have a relationship moderately high radially directed pumping action, so that the Lubricant throughput for the axial needle bearing component is cheap, but this means that lubricants from other deposits where it is urgent would be needed.

FR-PS 13 27 643 has already developed an axial needle bearing Component known in the art on a needle cage outer material interacting with the bearing thrust washers Sealing lips are formed, which are excessive radial Limit the pumping action of the axial needle bearing component.

The object of the invention is to build an axial needle bearing element of the preamble of claim 1 explained ten kind to improve so that a perfect Schmie tion of the cylindrical pitch circle guide surfaces on the with each other concentrically lying sleeve approaches reduced radial flow with lubricant si is made.

According to the invention, this object is achieved by a Axial needle bearing component in the preamble of the patent Proverb 1 explained the type in the characterizing part of Pa Features claim 1 identified features.

The fact that on the cylindrical pitch circle guide surfaces the sleeve approach adjacent to a bearing thrust washer the indentations or lugs lying in the circumferential direction Wedge surfaces are formed with the cylindrical Sleeve approach of the other bearing thrust washer a hydrody Named lubricating gap, is also at lower ra dialen throughput of lubricant a metallic contact tion between the concentric cylinders avoided sleeve approaches.

Further details of the invention are set out in the claims 2 to 5 explained.

With a correspondingly narrow design of the pitch circle guide surface Chen on a sleeve approach of a bearing thrust washer can already by the formation of the central indentations or noses a part of the pitch circle guide surfaces from their purely cylindrical position so that a wedge-shaped hydrodynamic lubrication gap is formed.

The limitation of the radial flow through the axial nadella ger component can in a known manner  a plastic needle cage with integrated radial seals or because of the gap width in the area be the sleeve concentric to each other be limited.

The axial needle bearing component explained in the invention can be on both the inner or outer circumference of the two Bearing thrust washers are centered, with in an area outside the tread of the needles shaped recesses can be provided to despite the required centering an axial forwarding of Lubricant to other locations in the automatic transmission to enable.

The invention is based on two in the accompanying drawings tion shown embodiments explained in more detail. It shows

Figure 1 is a partial vertical section through an automatic transmission of a motor vehicle in the axial needle bearing components according to the invention are applied.

Fig. 2 shows a vertical section through an axial needle bearing component, as can be applied in the area highlighted by the circle II in Fig. 1;

Fig. 3 shows a side view of the axial needle bearing component in the direction of arrow III in Fig. 2;

FIG. 4 shows an enlarged partial section through the area X in FIG. 2;

Fig. 5 shows an enlarged partial section along the line VV in Figure 4, from which the hydrodynamic lubricating gap can be seen.

Figure 6 is a vertical section through a further embodiment of an axial needle bearing component.

Fig. 7 is a side view of the component in the direction of arrow VII in Fig. 6 and

Fig. 8 is an enlarged partial section through the rich Be Y in Fig. 6.

In Fig. 1 a partial section from an automatic transmission of a motor vehicle is shown, in which the arrangement of the two versions of an axial needle bearing component can be seen by circles II and VI.

From FIGS. 2 through 5, an embodiment is shown in a needle bearing he inventive device. The axial needle bearing component 1 consists of a needle cage 2 made of sheet metal, which carries a plurality of needles 3 and a left and right bearing punched washer 4 and 5 made of punched and drawn sheet metal.

The bearing thrust washers 4 and 5 are at their outer order with angled towards each other concentrically lying sleeve approaches 6 and 7 , which form cylindrical pitch circle guide surfaces 8 and 9 , with in the middle of the cylindrical pitch circle guide surface 8 on a sleeve approach 6 Indentation or nose 10 is formed, via which the component is held together.

On a cylindrical pitch circle guide surface 8 of a sleeve extension 6 are adjacent to the indentation or nose 10 in the circumferential direction lying wedge surfaces 11 and 12 are formed, which form with the cylindrical pitch circle guide surface 9 on the other sleeve extension 7 a hydrodynamic lubrication gap.

By extending the cylindrical pitch circle guide surfaces and the gap width formed between them even without arranging a seal on the needle cage Limitation of the radial flow through the axial needle bearing Component can be achieved with lubricant.

In FIGS. 6 through 8, another embodiment of an inventive needle bearing component is shows 13 ge, which again consists of a needle cage 14 having a plurality of needles 15 and a right and a left La screened rotor disk 16 and 17, which again is on their outer circumference angled cylindrical pitch circle guide surfaces which lie concentrically to one another and on which indentations or noses 22 are seen again are held together.

The special shape of the two sleeve lugs which are concentric to one another is the same as that explained in connection with FIGS . 4 and 5 and therefore these details are not explained again here. Due to the larger diameter due to the outer enclosure z. B. two indentations or tabs 22 are provided on the pitch circle guide surfaces.

As can be seen from the enlarged view in Fig. 8, the needle cage 14 is made of plastic and has a plurality of molded, annular sealing lips 18 and 19 which cooperate sealingly with the bearing thrust washers 17 and 16 .

Of course, these annular sealing lips 18 and 19 are designed so that reliable lubrication of the needles 15 is ensured, ie the seal along the inner circumference of the needle cage 14 is less than the seal on the outer circumference of the needle cage 14 , where the sealing lips are expanded to form wide sealing surfaces .

Characterized in that a radial lubricant supply to the needles 15 is ensured, the arrangement of axially through the bearing thrust washers 16 and 17 erstrec kenden openings 20 and 21, the lubricant can be targeted to white direct bearings in the automatic transmission.

The same purpose, namely the targeted continuation of lubricant used in the embodiment according to FIGS. 2 to 5 on the inner periphery 22 of the bearing thrust washers 4 and 5 are arranged meander-shaped recesses 23, which ensure an axial supply of lubricant to the axial needle bearing device despite inner centering.

Claims (5)

1. Axial needle bearing component with ge in a needle cage needles and made of stamped and drawn sheet metal bearing thrust washers, which lie on at least one circumference by angled in cylindrical pitch circle guide surfaces concentrically lying sleeve approaches and approximately in the middle trained impressions or noses a component are connected, characterized in that

• - On the cylindrical pitch circle guide surfaces ( 8 ) of a sleeve extension ( 6 ) of a bearing thrust washer ( 4 ) adjacent to the indentations or lugs ( 10 ) in the circumferential direction lying wedge surfaces ( 11 and 12 ) are formed with the cylindrical pitch circle guide surfaces ( 9 ) on the other sleeve approach ( 7 ) of the other bearing thrust washer ( 5 ) form a wedge-shaped hydrodynamic lubrication gap.

2. axial needle bearing component according to claim 1, characterized in that

• - The pitch circle guide surfaces ( 8 ) on a Hülsenan set ( 6 ) of a bearing thrust washer ( 4 ) by the formation of the central indentations or lugs ( 10 ) are shifted somewhat from their cylindrical position and form the wedge-shaped hydrodynamic lubricating gap.

3. axial needle bearing component according to claims 1 and 2, characterized in that

• - The needle cage ( 14 ) in a manner known per se made of plastic with integrated annular radial sealing lips ( 18 and 19 ) is designed to limit the radial pumping effect of the component.

4. axial needle bearing component according to claims 1 to 3, characterized in that

• - The inner or outer circumference of the two bearing thrust washers ( 4 and 5 or 16 and 17 ) is used for ra dialen centering and in an area outside the running surface of the needles ( 3 or 15 ) with meandering recesses ( 23 ) for the axial lubricating oil access is provided.

5. axial needle bearing component according to claims 1 to 4, characterized in that

• - The two bearing thrust washers ( 16 and 17 ) in the loading area of the lugs ( 15 ) are provided with axial openings ( 20 and 21 ) for axial lubricant forwarding.