DE102008054242A1 - Arcuate slide bearing element i.e. spacer disk, has flat material section with thickness increasing from one side to another side before bending of section in breadth direction such that element has uniform thickness after bending - Google Patents

Abstract

The element has a strip-shaped flat material section (4) bent about an axis (6) that is perpendicular to a plane of a disk shape. The material section has a thickness increasing from a side forming an inner diameter (8) to another side forming an outer diameter (10) before bending of the section in a breadth direction such that the element has uniform thickness after bending of the section. The disk shape is rounded at the side forming the outer side, and the material section has a breadth of 6 to 10 millimeters. An independent claim is also included for a method for producing a slide bearing element.

Description

The Invention relates to a curved slide bearing element, with a substantially flat disc shape, in particular thrust washer, and a method for producing the arcuate sliding bearing element.

It It is known to punch thrust washers from a metal strip. The Thrust washers consist of a flat ring or ring segment with an outer diameter and an inner diameter. When punching the thrust washer falls a material waste which is discharged as a waste product must be, what elaborate and costly.

Of the present invention is based on the object, a sliding bearing element to propose the type mentioned, which is cheaper to produce.

These Task is in a plain bearing element of the aforementioned Type according to the invention thereby solved, that it consists of a strip-shaped flat material section about an axis perpendicular to the plane of the disc shape axis is bent and an outside diameter and an inner diameter and that the strip-shaped flat material portion before bending in the width direction of the later inner diameter forming Page to the later outer diameter forming side has increasing thickness, such that the sliding bearing element after bending the sheet portion at least at least almost same thickness. The strip-shaped flat material section is preferably cut to length from an endless strip-shaped flat material. It is conceivable that already the band-shaped Flat material has a width increasing in thickness. Preferably, the band-shaped Flat material before cutting to length in strip-shaped Rolled flat portions such that it after rolling in Width direction has increasing thickness.

Of the Inner diameter and outer diameter the finished bent sliding bearing element preferably run in the Essentially concentric to a center.

At the Bending the strip-shaped Flat material section around the axis becomes the outer diameter stretched side and compressed the inner diameter side. The material is distributed on the side forming the outer diameter of the strip-shaped Flat material section over a larger area. As a result, the thickness decreases from. After bending, a plain bearing element becomes substantially uniform Thickness achieved.

Previous known Slide bearing elements of the type in question here, it turns out as advantageous that a much lower material waste is created.

It proves to be advantageous if the strip-shaped flat material section cuneiform is trained. In this case, the slope with which the thickness of the strip-shaped flat material section increases, basically any. However, it will be an increase of more than 5/100 prefers.

Furthermore is in a further development of the invention, the disc shape or the sliding bearing element formed therefrom on the outside diameter rounded side forming, whereby the wear is reduced.

The Slide bearing element has at least one in one embodiment in the radial direction extended projection. This lead may for example comprise a retaining cam, by means of which the Slide bearing element can be arranged against rotation in a bearing point is.

Further it proves to be advantageous if the sliding bearing element itself in the circumferential direction of 90 ° -360 °, in particular 180 ° or 360 ° extends.

Basically the strip-shaped flat material section include any width. However, it proves to be advantageous if the strip-shaped Flat material section has a width of 6-30 mm, preferably 6-20 mm, preferably 6-15 mm, preferably 6-10 includes mm. As a result, the sliding bearing element for conventional Slide bearings can be used.

Finally, points the sliding bearing element in the invention at least a lubricating groove.

• – Walzen eines streifenförmigen Flachmaterials, wobei eine hierfür verwendete Walze bezüglich der Ebene des streifenförmigen Flachmaterials in einem spitzen Winkel angestellt ist, so dass das streifenförmige Flachmaterial nach dem Walzen in Breitenrichtung zunehmende Dicke aufweist;
• – Biegen des streifenförmigen Flachmaterials um eine senkrecht auf der Ebene der späteren Scheibenform stehende Achse.

The invention also provides a method for producing the plain bearing element according to the invention with the following method steps:

• - Rolling a strip-shaped sheet, wherein a roller used for this purpose is employed with respect to the plane of the strip-shaped sheet at an acute angle, so that the strip-shaped flat material after rolling in the width direction has increasing thickness;
• - Bending the strip-shaped sheet about an axis perpendicular to the plane of the later disc shape axis.

The flat material may in this case comprise an endless band-shaped flat material or cut-sheet material sections. It is irrelevant whether the strip-shaped flat material or the flat cut from this sheet material sections rolled become.

It proves to be advantageous if the strip-shaped sheet around the perpendicular to the level of the later Disc-shaped axis is bent endless, in particular helically endless is wound up.

includes the flat material is an endless ribbon-shaped flat material It is according to a first embodiment The invention is advantageous if the formation of the flat material sections the band-shaped Flat material in strip-shaped Sections cut to length and then bent.

Further be in a development of the invention, the two ends of a 360 ° sliding bearing element with each other, in particular material or positively connected, in particular welded.

Further can also two 180 ° each Slide bearing elements with their ends material or positive fit with each other get connected.

Furthermore it proves to be advantageous if the disc shape after the Bending re its thickness is calibrated, in particular by a pressing process. This results in a precisely uniform thickness of the sliding bearing element guaranteed.

Finally will in another embodiment introduced the invention in the disc shape at least one lubrication. As a result, the lubricant supply can be improved and the wear of the sliding bearing element be reduced.

Further Features, details and advantages of the invention will become apparent the attached claims and from the drawings and description below a preferred embodiment the invention.

In show the drawing:

1 a strip-shaped flat material section for producing a plain bearing element according to the invention;

2 a sectional view according to sectional plane I in 1 (not to scale);

3 a plan view of an inventive sliding bearing element, which consists of the strip-shaped flat material section according to 1 is bent;

4 a sectional view according to sectional plane II in 3 (not to scale);

5 a sectional view through a bearing with a sliding bearing element according to the invention;

6 A helically endlessly wound strip-shaped flat material for producing a slide bearing element according to the invention.

3 shows a flat disc-shaped sliding bearing element 2 , which consists of a strip-shaped flat material section 4 who in 1 shown is an axis 6 perpendicular to the plane of the plain bearing element 2 stands, is bent. The strip-shaped flat material section 4 has a side forming the later inner diameter 8th and a side forming the later outer diameter 10 on. 2 shows that the thickness of the strip-shaped flat material section 4 from the later inner diameter forming side 8th in the direction of the later outer diameter forming side 10 increases. The strip-shaped flat material section 4 gets around the axis 6 bent until it conforms to an arch shape 3 has reached. 4 shows that the thickness of the sliding bearing element 2 after bending in the width direction is at least at least nearly uniform, which can be perfected by a shock / Presskalibrierung.

1 shows the flat material section 4 before bending. The later inner diameter forming side 8th is the axis 6 facing; the later outer diameter forming side 10 is the axis 6 away.

2 shows a section along the line I according to 1 , The thickness of the strip-shaped flat material section 4 takes from the later inner diameter forming side 8th in the direction of the later outer diameter forming side 10 to. The strip-shaped flat material section has a wedge-shaped cross section. This can be realized by rolling the sheet with lightly set rolls.

3 shows that from the strip-shaped flat material section 4 according to 1 by bending around the axis 6 obtained sliding bearing element 2 , This extends at the in 3 illustrated embodiment by 180 °. By bending around the axis 6 became the outer diameter forming side 10 stretched and the inner diameter forming side 8th compressed. 4 shows that while a uniform thickness in the sliding bearing element 2 can be achieved.

5 shows a schematic section through a bearing, in which a sliding bearing element 2 rests against a sliding partner. The sliding bearing element 2 is on the outside diameter 10 rounded side (not to scale shown).

6 shows a schematic representation of a strip-shaped sheet 14 that's about the axis 6 endlessly bent and helically wound endlessly. Before bending and endless winding around the axle 6 becomes the strip-shaped flat material 14 rolled so that it has increasing thickness after rolling in the width direction (in 6 not shown). For producing sliding bearing elements according to the invention, the helically wound arrangement is used 16 by one or more cuts parallel to the axis 6 separated so that individual arcuate segments of the arrangement 16 to be obtained.

Claims (14)

Arc-shaped plain bearing element ( 2 ), with a substantially flat disc shape, in particular thrust washer, characterized in that it consists of a strip-shaped flat material portion ( 4 ) about an axis perpendicular to the plane of the disc shape ( 6 ) is bent and an outer diameter ( 10 ) and an inner diameter ( 8th ) and that the strip-shaped flat material section ( 4 ) before bending in the width direction of the later inner diameter ( 8th ) forming side to the later outer diameter ( 10 ) forming side increasing thickness, such that the sliding bearing element ( 2 ) after bending the sheet material section ( 4 ) has at least at least approximately uniform thickness. Plain bearing element ( 2 ) according to claim 1, characterized in that the strip-shaped flat material section ( 4 ) is wedge-shaped. Slide bearing element according to claim 1 or 2, characterized characterized in that the pitch with which the thickness of the strip-shaped flat material section increases, more than 5/100. Plain bearing element ( 2 ) according to one of the preceding claims, characterized in that the disc shape on the outer diameter ( 10 ) forming side is rounded. Plain bearing element ( 2 ) according to one of the preceding claims, characterized in that it comprises at least one radially extended projection. Plain bearing element ( 2 ) according to one of the preceding claims, characterized in that it extends in the circumferential direction of 90 ° to 360 °, in particular 180 ° or 360 °. Plain bearing element ( 2 ) according to one of the preceding claims, characterized in that the strip-shaped flat material section ( 4 ) has a width of 6-30 mm, preferably 6-20 mm, preferably 6-15 mm, preferably 6-10 mm. Plain bearing element ( 2 ) according to one of the preceding claims, characterized in that the disc shape has at least one lubrication groove. Method for producing a plain bearing element ( 2 ), in particular thrust washer, according to one or more of the preceding claims, characterized by the following method steps: - rolling a strip-shaped flat material, wherein a roller used for this purpose are employed with respect to the plane of the strip-shaped sheet at an acute angle, so that the strip-shaped flat material after rolling having increasing thickness in the width direction; Bending the strip-shaped flat material about an axis perpendicular to the plane of the later slice shape ( 6 ). A method according to claim 9, characterized in that the strip-shaped flat material about the standing perpendicular to the plane of the later disc shape axis ( 6 ) is bent endlessly, in particular helically wound endlessly. A method according to claim 9 or 10, characterized in that to form a flat material section ( 4 ) or the sliding bearing element ( 2 ) a strip-shaped flat material is cut into strip-shaped sections. Method according to one of claims 9 to 11, characterized in that the two ends of the strip-shaped flat material section ( 4 ) after bending about the axis ( 6 ), in particular material or form-fitting, are connected. Method according to one of claims 9 to 12, characterized that the disk shape is calibrated after bending with respect to its thickness, in particular by a pressing process. Method according to one of claims 9 to 13, characterized that introduced into the disc shape at least one lubrication becomes.