DE102017202740A1 - Tilting pad bearing and method of manufacturing a tilting pad bearing - Google Patents

Abstract

The invention relates to a tilting pad bearing (100) which has at least one tilting segment (104), a bearing base body (102) and a damping element (206) which is arranged between tilting segment (104) and bearing base body (102).

Description

State of the art

The invention relates to a tilting pad bearing and a method for producing a tilting pad bearing according to the preamble of the independent claims. The subject of the present invention is also a computer program.

Tilting pad bearings (called tilting pad bearings) are available in many forms and designs. They are used for the storage of rotating shafts, which are preferably radially, but in some cases axially aligned. Most of them are designed for use in fluids, preferably in oil. Again other tilting pad bearings are designed for operation as a gas bearing. However, the basic principle is always the same. A fast rotating shaft is supported radially, occasionally also axially, by closely fitting bearing surfaces. These surfaces slide on a cushion of the surrounding medium on the shaft, so that it is similar to an oil-lubricated plain bearing to no wear. Unlike a plain bearing, however, the lubricating film does not enter the bearing through a bore and pressure, but is drawn in by the interruptions in the bearing surface. The individual tilting segments should be able to adapt their position to the shaft in order to realize the minimum media gap. These are, depending on the design, connected via thin webs with their bearing sleeve (as solid joints) or they are available as items on the bearing sleeve so that they can tilt.

Disclosure of the invention

Against this background, a tilting pad bearing, a method for producing such a tilting pad bearing and finally a corresponding computer program according to the main claims are presented with the approach presented here. The measures or features listed in the dependent claims advantageous refinements and improvements of the independent claim device are possible.

• zumindest ein Kippsegment;
• ein Lagergrundkörper; und
• ein Dämpfelement, das zwischen Kippsegment und Lagergrundkörper angeordnet ist..

The approach presented here creates a tilting pad bearing that has at least the following features:

• at least one tilting segment;
• a bearing body; and
• a damping element which is arranged between tilting segment and bearing base body ..

A tilting segment can be understood as a bearing element which can be movably mounted about a tilt axis in the tilting pad bearing. Advantageously, the installation of the damping element can mitigate critical speeds of a shaft on the at least one tilting segment or within tilting pad bearings or shift a resonant frequency of the tilting segments and / or increase the dynamic stability of the bearing system. One of the main aspects of a dowel element is the introduction of support flexibility and cushioning in the bearing structure. This can result in lower transmitted forces and longer bearing life of the tilt pad bearing, particularly for machines designed to operate at supercritical speeds.

According to one embodiment, the tilting segment can in this case be installed as a movable element in a tilting pad bearing, wherein the tilting segment can be connected to the bearing base body via at least one (for example only thin) web and / or rests as an individual part on the bearing base body. The tilting segment can be arranged, for example, both radially and axially about the bearing axis of the bearing base body, wherein the tilting segments can be arranged spaced apart in the circumferential direction. By using a tilting segment connected to at least one web with the bearing main body, a stability and fixing of a position of the tilting segment in the tilting pad bearing can be ensured.

Depending on the embodiment of the tilting pad bearing, a damping element may be formed on the radially outer main surfaces of the tilting segment, for example as a hemispherical protuberance or elevation. Also, the damping element in a molding variant of the sealing member may be annular, for example, formed as an O-ring. Preferably, a damping element in O-ring shape has a circular, elliptical or polygonal cross-section. According to a further embodiment, the sealing element may also be formed mushroom-shaped. An advantage of such an embodiment of the approach presented here can be seen in the fact that a damping element formed in this way is simple to produce and yet has an efficient damping effect.

Advantageously, the damping element, according to one embodiment, be formed of a viscoelastic element having an elastic as well as a viscous material behavior and therefore can maintain its flexibility and damping or resilient properties when subjected to high deformation forces and increasing temperature, even with prolonged loading time.

A tilting segment may have at least one recess which extends, for example, on one side of the bearing surfaces of the tilting segment into the same. The recess may, according to one embodiment, be at least one bore which is shaped so that it can receive a damping element. According to one embodiment, the damping element can engage in a recess of the tilting segment. In this way it can be advantageously ensured that the damping element can be securely fastened or held in or on the tilting segment.

According to one embodiment, the recess for receiving the damping element is arranged around the tilting point of the tilting segment. In particular, a tilting edge may have a shorter length than a width of the tilting segment. Such an embodiment of the approach presented here has the advantage that the damping element can also be securely and reliably held in a desired position between the tilting segment and the bearing base body.

A bearing base body may be formed as a hollow cylinder according to one embodiment of the tilting pad bearing. Such an embodiment of the approach presented here offers the advantage of a secure and stable receiving and fixing of the tilting segment in the bearing base body, in particular if the tilting segment is arranged within the bearing base body.

The embodiments presented here of a tilting pad bearing with a (separate) damping element make it particularly advantageous to increase the stability of the tilting pad bearing. Furthermore, the susceptibility to vibration of tilting segments is reduced within the Kippsegmentlagers and possibly occurring Kippschwingungen the Kippsegmente can be damped or cushioned. With the presented embodiment of a tilting pad bearing with at least one damping element, a possible wear of the tilting segments during the tilting process can be contained.

• Bereitstellung eines Kippsegments, eines Dämpfelements und eines Lagergrundkörpers; und
• Montage des Kippsegmentes, des Dämpfelementes und des Lagergrundkörpers, um das (mehrteilige) Kippsegmentlager gemäß einer hier vorgestellten Ausführungsform herzustellen.

Furthermore, a method for producing a tilting pad bearing is presented, wherein the method comprises the following steps:

• Providing a tilting segment, a damping element and a bearing body; and
• Assembly of the tilting pad, the damping element and the bearing body to produce the (multi-part) Kippsegmentlager according to an embodiment presented here.

Also of advantage is a computer program product or computer program with program code which can be stored on a machine-readable carrier or storage medium such as a semiconductor memory, a hard disk memory or an optical memory and for carrying out, implementing and / or controlling the steps of the method according to one of the embodiments described above is used, especially when the program product or program is executed on a computer or a device.

Even by such an embodiment of the approach presented here, the advantages of the present invention can be implemented efficiently and technically simple.

• 1 eine Querschnittsansicht eines Kippsegmentlagers mit Festkörpergelenken (links) sowie eine dreidimensionale Ansicht eines mehrteiligen Kippsegmentlagers (rechts);
• 2 eine dreidimensionale Ansicht eines Kippsegmentlagers mit Dämpfelementen gemäß einem Ausführungsbeispiel;
• 3 eine dreidimensionale Ansicht eines Kippsegments mit einem als O-Ring ausgeformten Dämpfelement zur Verwendung in einem Kippsegmentlager gemäß einem Ausführungsbeispiel;
• 4 eine dreidimensionale Ansicht eines Kippsegments mit mehreren Dämpfelementen zur Verwendung in einem Kippsegmentlager gemäß einem Ausführungsbeispiel;
• 5 eine Querschnittsansicht eines monolithischen Kippsegmentlagers mit Festkörpergelenken und mehreren Dämpfelementen gemäß einem Ausführungsbeispiel; und
• 6 ein Ablaufdiagramm eines Verfahrens zur Herstellung eines Kippsegmentlagers gemäß einem Ausführungsbeispiel.

Embodiments of the approach presented here are shown in the drawings and explained in more detail in the following description. It shows:

• 1 a cross-sectional view of a Kippsegmentlagers with solid joints (left) and a three-dimensional view of a multi-part Kippsegmentlagers (right);
• 2 a three-dimensional view of a Kippsegmentlagers with damping elements according to an embodiment;
• 3 a three-dimensional view of a tilting segment with a formed as an O-ring damping element for use in a tilting pad bearing according to an embodiment;
• 4 a three-dimensional view of a tilting segment with a plurality of damping elements for use in a tilting pad bearing according to an embodiment;
• 5 a cross-sectional view of a monolithic tilting pad bearing with solid joints and multiple damping elements according to an embodiment; and
• 6 a flowchart of a method for producing a Kippsegmentlagers according to an embodiment.

In the following description of favorable embodiments of the present invention, the same or similar reference numerals are used for the elements shown in the various figures and similar acting, with a repeated description of these elements is omitted.

1 shows a cross-sectional view of a tilting pad bearing 100 with solid joints (left) and a three-dimensional view of a multipart tilting pad bearing 100 (right).

Both tilting pad bearings 100 each initially comprise a bearing body 102, which is formed in both cases a hollow cylinder. Furthermore, both Kippsegmentlager 100 each with three curved tilting segments 104 that radially around the bearing axes of the bearing body 102 arranged and are arranged spaced apart in the circumferential direction. The tilting segments 104 have a radially outer bearing surface and are designed to tilt at least one tilting axis.

2 shows a three-dimensional view of a multi-part tilting pad bearing 100 with a plurality of damping elements 206 according to an embodiment. According to the approach presented here, an attenuation of the tilting segments 104 in tilting pad bearings 100 by means of a (separate) damping element 206 achieved, this being between tilting segment 104 and bearing body 102 is arranged.

The use of viscoelastic materials in the damping elements 206 is depending on the tilting pad bearing 100 to realize differently. The implementation in a multi-part tilting pad bearing 100 can be made very simple when the damping element 206 has the shape of an O-ring, preferably with a circular, elliptical or polygonal cross-section. Due to its circular cross-section can be an O-ring sealing element 206 axially and / or radially seal.

The installation of single or several damping elements 206 per tilting segment 104 , can be done quite easily during installation. One of the main surfaces of the tilting segments 104 For example, it can be designed accordingly with a recess. An advantageous embodiment is to make the area of the tiltable bearing surface a matching recess. This can shorten the bearing surface in the axial direction to the damping element 206 not axially over the tilting segment 104 to be left standing.

3 shows a three-dimensional view of a tilting segment 104 with a molded as O-ring damping element 206 according to an embodiment. In the enlarged view of a tilting segment 104 is an O-ring on the bearing surface of the tilting segment 104 shown. According to the in the 3 illustrated embodiment, the O-ring on the radial bearing surface of the tilting segment 104 For example, be formed as a hemispherical protuberance or elevation. The damping element 206 This is in a corresponding recess on the bearing surface of the tilting segment 104 used. An advantageous embodiment is to the area of the tiltable support to the bearing body 102 to design a suitable recess. This recess can shorten the support surface in the axial direction to the damping element 206 not axially over the tilting segment 104 to be left standing.

4 shows a three-dimensional view of a tilting segment 102 with several damping elements 206 , In the enlarged view of a tilting segment 102 are four damping elements 206 on the bearing surface of the tilting segment 102 shown. The damping elements 206 In this case are in corresponding holes on the bottom surface of the tilting segment 102 used or vulcanized, which, however, from the representation in the 4 is not recognizable. Vulcanization is a particularly effective form of attachment of damping elements 206 within a tilting pad bearing 100 because the vulcanization serves to stabilize the seal in a recess or bore. According to one embodiment, the recesses or bores may be mushroom-shaped. You can see in the presentation of the 4 only those of one of the bearing surfaces of the tilting segment 104 protruding parts of the damping elements 206 ,

5 shows a cross-sectional view of a monolithic tilt pad bearing 100 with solid joints and multiple damping elements 206 according to an embodiment. In a monolithic or solid-state articulated tilting bearing 100 is the single tilting segment 104 over thin webs with the bearing body 102 connected. The surrounding bearing body 102 is formed in this case a hollow cylinder. Furthermore, the tilting pad bearing has 100 over three curved tilting segments 104 that radially around the bearing axis of the bearing body 104 arranged and are arranged spaced apart in the circumferential direction.

In this illustration, the use of a damping element 206 in a monolithic tilting pad bearings 100 illustrated, wherein the damping elements 206 in this case not in a recess of the tilting segment 104 to grab. When using one or more damping elements 206 in a monolithic tilting pad bearing 100 are preferably primitive processes for use of the damping element 206 directly into the appropriate intermediate columns of the tilting pad bearing 104 used. Urformende processes are in this case such methods, wherein by casting or sintering a solid body is made of liquefied or powdered material. Accordingly, the damping elements arise 206 ideally either by vulcanization or curing of a castable or kneadable precursor in the intermediate gap between tilting segment 104 and tilt pad bearings 100 ,

6 shows a flowchart of a method 600 for producing a tilting pad bearing 100 according to an embodiment. In one step 601 be at least a tilting segment 104 , a damping element 206 and a bearing body 102 provided. In step 603 The individual parts then become a (for example multi-part) Kippsegmentlager 100 assembled.

If an exemplary embodiment comprises a "and / or" link between a first feature and a second feature, then this is to be read so that the embodiment according to one embodiment, both the first feature and the second feature and according to another embodiment either only first feature or only the second feature

Claims (11)

Tilting pad bearing (100), which has at least the following features: at least one tilting segment (104); a bearing main body (102); and a damping element (108) which is arranged between tilting segment (104) and bearing base body (102). Tilting pad bearing (100) according to Claim 1 wherein the tilting segment (104) is connected to the bearing base body (102) via at least one web and / or rests as an individual part on the bearing base body (102). Tilting pad bearing (100) according to one of the preceding claims, wherein the damping element (206) in the form of an annular sealing element and / or an O-ring is formed and / or mushroom-shaped. Tilting pad bearing (100) according to one of the preceding claims, wherein the damping element (206) is formed of a viscoelastic element having an elastic and / or a viscous material behavior. Tilting pad bearing (100) according to one of the preceding claims, wherein the damping element (206) engages in a recess of the tilting segment (104). Tilting pad bearing (100) according to one of the preceding claims, wherein the recess for receiving the damping element (206) around the tilting point of the tilting segment (104) is arranged, in particular wherein a tilting edge has a smaller length than a width of the tilting segment (104). Tilting pad bearing (100) according to one of the preceding claims, wherein a recess for receiving a damping element (206) as a bore on one of the main surfaces of the tilting segment (104) is formed. Tilting pad bearing (100) according to one of the preceding claims, wherein the at least one tilting pad (104) surrounding bearing base body (102) is formed as a hollow cylinder. Method (600) for producing a tilting pad bearing (100) according to one of the preceding claims, the method (600) comprising the following steps: - providing (601) a tilting segment (104), a damping element (206) and a bearing base body (102); and - Mounting (603) of the tilting segment (104), the damping element (206) and the bearing base body (102) to produce the Kippsegmentlager (100) according to one of the preceding claims. A computer program adapted to perform the method (600) in accordance with Claim 9 perform. Machine-readable storage medium on which the computer program is based Claim 10 is stored.

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