DE102019214096A1 - Tilting segment with improved oil supply - Google Patents

Abstract

The invention relates to a tilting segment (101, 201, 301) for a tilting segment bearing. The tilting segment (101, 201, 301) has at least one oil line (103, 207, 303) which opens into a sliding surface (107, 209, 305) of the tilting segment (101, 201, 301).

Description

The invention relates to a tilting segment according to the preamble of claim 1.

Tilting pad bearings with an integrated oil supply are known from the prior art. The oil supply is designed in such a way that a base body in which the tilting segments are fixed is provided with oil lines. The oil lines open into a space between two adjacent tilting segments.

The invention is based on the object of improving the oil supply to a tilting pad bearing compared to the solutions known from the prior art.

This object is achieved by a tilting segment according to claim 1. Preferred developments are contained in the subclaims and result from the exemplary embodiments shown in the figures.

A tilt pad is part of a tilt pad bearing. It is characterized in that it forms a sliding surface and can be tilted and fixed in a base body. The base body has one or more tilting segments and forms a first bearing half.

A second bearing half of the tilting segment bearing is provided with a sliding surface which forms a pair of sliding surfaces with the sliding surfaces of the tilting segments. This means that the sliding surfaces face each other in pairs, so that a bearing gap runs between the sliding surfaces, which is preferably filled with oil.

The two bearing halves can be rotated relative to one another about an axis of rotation. The tilting segments are preferably tiltable with respect to the axis of rotation of the bearing. This means that they can be tilted or rotated about axes which run orthogonally to the axis of rotation of the bearing. Accordingly, the tilting segment bearing is preferably an axial sliding bearing. Due to the tiltability of the tilting segments, a lubricating film that can be loaded in the axial direction is formed between the sliding surfaces of an axial tilting segment bearing.

According to the invention, the tilting segment has at least one oil line which opens into the sliding surface of the tilting segment. A first opening of the oil line is therefore arranged in the sliding surface. In particular, there is a border of the mouth in the sliding surface.

The oil line guides oil into the bearing gap that the sliding surface forms with the sliding surface of the second bearing half. This improves the efficiency of the oil supply, since freshly supplied oil can no longer flow past the tilting segment. In particular, this benefits the load-bearing capacity of the lubricating film and the dissipation of heat.

In a preferred development, the oil line is designed as a through hole. A through hole is a hole with exactly two mouths. One of the two mouths is in the sliding surface of the tilting segment, the other mouth is outside the sliding surface. The tilting segment forms the two mouths and a wall of the through hole. The two mouths are connected to one another in an oil-conducting manner through the wall.

In a preferred development, the through hole is designed as a through hole. A through hole is straight and has a circular cross-section. In particular, a through hole can be made in the tilting segment by drilling.

Alternatively, in an equally preferred development, the oil line is curved. A central axis of the oil line thus forms a curved curve.

In a further preferred development, the tilting segment is manufactured additively. This has the advantage that almost any geometry of the tilting segment can be realized. In particular, a curved oil line can be manufactured additively.

Additive manufacturing, also known as 3D printing, additive manufacturing or generative manufacturing, is a generic term for manufacturing processes in which three-dimensional components are manufactured by applying material in layers. In the present case, laser sintering is an option as an additive manufacturing process.

The tilting segment according to the invention or a preferred further development is preferably part of a tilting segment bearing with at least one base body, which in addition preferably has other, similar tilting segments. The base body is provided with at least one oil line and at least one recess.

A recess, also called a depression or trough, is a hole with exactly one mouth. The tilting segment is let into the recess. This means that at least part of the tilting segment is located in the recess. As a result, the tilting segment is fixed positively and tiltably in the recess.

The oil line of the base body opens into the recess. An opening of the oil line is therefore located in the recess or in a wall of the recess. The oil line of the tilting segment also opens into the recess. This means that the oil line of the tilting segment opens into the part of the tilting segment that is located in the recess. As a result, there is one mouth of the oil line - that of the two mouths of the oil line that is not in the sliding surface of the tilting segment - in the recess. The oil line of the tilting segment and the oil line of the base body then open into a gap which runs between the tilting segment or the part of the tilting segment that is located in the recess and the base body or the recess. This gap forms an oil-conducting connection between the oil line of the tilting segment and the oil line of the base body. Oil can therefore be fed into the oil line of the tilting segment via the oil line of the base body. Finally, via the oil line of the tilting segment, the oil reaches the bearing gap formed by the tilting segment.

In a preferred development, the oil line of the base body is designed as a through hole. The base body forms a wall of the hole which connects its mouths to one another in an oil-conducting manner.

• 1 eine Schnittdarstellung eines ersten Kippsegments;
• 2 eine Schnittdarstellung eines zweiten Kippsegments; und
• 3 eine Ansicht eines dritten Kippsegments.

Preferred embodiments are shown in the figures. Corresponding reference numbers identify features that are the same or have the same function. Specifically shows:

• 1 a sectional view of a first tilting segment;
• 2 a sectional view of a second tilting segment; and
• 3 a view of a third tilt segment.

This in 1 shown tilting segment 101 can be done in a conventional manner using an in 1 spring, not shown, are mounted tiltably in a recess of a base body. The tilting segment 101 has a system of several peripheral holes 103 and a central hole 105 on.

The peripheral holes 103 open into a sliding surface 107 of the tilting segment. Starting from the sliding surface 107 run the peripheral holes 103 to a central axis of the tilting segment 101 there together and flow into the central bore 105 .

A central axis of the central hole 105 and the central axis of the tilt segment 101 are identical. Via the central hole 105 gets oil in the tilting segment 101 initiated. The oil spreads from the central bore 105 into the peripheral holes 103 and gets through the peripheral holes 103 to the sliding surface 107 .

This in 2 shown tilting segment 201 is additively manufactured. It has a basic body 203 and a feather 205 on. The basic body 203 and the pen 205 are integrally connected to each other.

Also the tilting segment 201 has peripheral oil channels 207 on. These lead to a sliding surface on one side 209 of the tilting segment 201 and on the other side into a central oil channel 211 . Whose central axis is with a central axis of the tilting segment 201 identical.

The additive manufacturing of the tilting segment 201 enables a curved course of the peripheral oil channels 207 . The course is free of edges or discontinuities. In particular, go to the central oil channel 211 and the peripheral oil passages 207 without edges or discontinuities into each other.

This in 3 shown tilting segment 301 has grooves 303 on that on an outer peripheral surface of the tilting segment 301 axially with respect to a central axis of the tilting segment 301 run away. The grooves 303 together with the wall of a recess form oil lines. The oil lines open onto an edge of a sliding surface 305 of the tilting segment 301 .

List of reference symbols

101

Tilting segment

103

peripheral hole

105

central hole

107

Sliding surface

201

Tilting segment

203

Base body

205

feather

207

peripheral oil channel

209

Sliding surface

211

central oil channel

301

Tilting segment

303

Groove

305

Sliding surface

Claims (7)

Tilting segment (101, 201, 301) for a tilting segment bearing; characterized by at least one oil line (103, 207, 303) which opens into a sliding surface (107, 209, 305) of the tilting segment (101, 201, 301). Tilting segment (101, 201) Claim 1 ; characterized in that the oil line (103, 207) is designed as a through hole. Tilting segment (101) according to the preceding claim; characterized in that the oil line (103) is designed as a through hole. Tilting segment (201, 301) Claim 1 or 2 ; characterized in that the oil line (207, 303) is curved. Tilting segment (101, 201, 301) according to one of the preceding claims; characterized in that the tilting segment (101, 201, 301) is manufactured additively. Tilting pad bearing with at least one base body; wherein the base body has at least one oil line and at least one recess; characterized by at least one tilting segment (101, 201, 301) according to one of the preceding claims; wherein the tilting segment (101, 201, 301) is let into the recess; and wherein the oil lines of the base body and of the tilting segment (101, 201, 301) open into the recess. Tilting pad bearing according to the preceding claim; characterized in that the oil line of the base body is designed as a through hole.

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