DE102015122403A1 - Bearing device for an exhaust gas turbocharger and turbocharger - Google Patents

Abstract

The invention relates to a bearing section for an exhaust gas turbocharger (1), comprising a section housing (3) in which a bearing device (7) comprising a bearing bush (8) is arranged in a receiving recess (22) of the section housing (3), wherein a shaft ( 4) in an inner space (23) of the bearing bush (8) is rotatably receivable, and wherein a fixing element (14) for fixing the bearing bush (8) in the section housing (3) is formed.
According to the invention, the fixing element (14) is designed to secure the position of the bearing bush (8) and to transmit axial forces to the section housing (3).

Description

The invention relates to a bearing device for an exhaust gas turbocharger of the type specified in the preamble of patent claim 1 and to an exhaust gas turbocharger according to claim 8.

During operation of high-speed machines, in particular in exhaust gas turbochargers, vibrations occur at high speeds. Exhaust gas turbochargers, which are operated at very high speeds, rotational speeds of about 270000 rev / min, are particularly affected. Floating plain bearings, which are referred to as so-called full-floating plain bearings, have the advantage that occurring during operation vibrations can be damped, as between the bearing portion and the bearing bush, a fluid, generally a lubricating oil, is present. With the help of this fluid, the vibrations are damped, so that a relatively smooth and smooth running of the shaft can be secured.

In addition to these full-floating plain bearings, which are characterized by the fact that the relative movement between shaft and bushing is possible, there are so-called semi-floatling plain bearings, with the help of which also the vibration damping can be brought about, but here is no or a minimum Relative movement between the bearing bush and bearing section possible, since the bearing bush is secured by means of a fixing element against rotation and axial displacement in the bearing section. A minimal axial movement of the bearing bush is provided so that a tolerance compensation and adequate lubrication of the bearing are secured.

From the publication JP 2006-029148 A goes out an exhaust gas turbocharger, which has an air guide portion, an exhaust guide portion and a shaft, wherein the shaft is formed as a rotationally fixed connection between a first receiving space of the air guide portion positioned in a first impeller and a second receiving space of the exhaust gas guide portion positioned second impeller.

The shaft is rotatably mounted in a bearing portion, wherein the bearing portion between the air guide portion and the exhaust gas guide portion is arranged. The bearing section has a bearing device with at least one bearing bush. The shaft is rotatably mounted within the bearing bush. The bearing bush is fixed by means of a fixing element in the bearing section, so that a relative movement, d. H. a rotational movement and an excessive longitudinal movement, between the bearing bush and the bearing portion is avoided.

The object of the present invention is to provide a bearing section for an exhaust gas turbocharger, as well as an exhaust gas turbocharger, which is cheaper to manufacture compared to the prior art.

This object is achieved by a bearing portion with the features of claim 1 and by an exhaust gas turbocharger with the features of claim 8. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the respective subclaims, wherein advantageous embodiments of the bearing portion are to be regarded as advantageous embodiments of the exhaust gas turbocharger - as far as applicable - and vice versa.

According to the invention, the bearing section for an exhaust-gas turbocharger has a section housing in which a bearing device comprising a bearing bush is accommodated. The bearing bush is arranged in a receiving recess of the section housing, wherein a shaft is rotatably receivable in an interior of the bearing bush. For fixing the bearing bush, a fixing element is formed in the bearing section. The fixing element is designed for securing the position of the bearing bush and for transmitting axial forces to the section housing. Since the fixing is formed in addition to a position assurance of the bearing bush both in the axial direction and against a rotation in the housing portion at the same time for transmitting or receiving the axial forces, the advantage of a compact design of the bearing section is given.

Preferably, the fixing element is predominantly cylindrical. This has the advantage that the male or the absorbed forces can be absorbed uniformly distributed in the fixing over the cross-sectional area.

In a further embodiment of the bearing section, the fixing element along its longitudinal axis element over its circumference in sections elastic regions. The advantage is that an over the circumference of the fixing element vollumfängliche press fit between the fixing and the section housing is not necessary, since a fixing contact between the fixing and the section housing is brought about by the elastic regions. This fixing contact serves to transmit the forces acting on the bearing bushing forces.

In a preferred form, the fixing element is designed in the form of a grooved pin or a notched nail. This serves a quick and simple and thus cost-effective installation. While in the usual fixing a Screw connection is formed, wherein the usual fixing element is to be mounted with a tool, the fixing element of the storage device according to the invention is quick and inexpensive to install. The shape of a grooved pin is space-saving in comparison to a notched nail, since no additional space for a nail head of the notched nail, which has a larger diameter, is provided. Another advantage of a notched nail and / or a grooved pin is to be seen in that due to the elastic regions which are present in the region of the notch, an axial displacement in a receiving opening is prevented.

In a further embodiment, the fixing element has four notches extending along an element longitudinal axis. The advantage is the possibility of non-destructive disassembly of the fixing element, since the notches are subject only to elastic and no plastic deformation. With four notches can still be ensured that a reliable induction of a fixation with the help of at least three further notches can be formed.

Preferably, the fixing element is formed of a metallic material, whereby the advantage of a temperature-resistant element is given.

Alternatively, the fixing element is formed from a plastic. This has the advantage that it can be produced inexpensively. Preference is given to using temperature-resistant plastics.

The second aspect of the invention relates to an exhaust gas turbocharger, comprising a bearing portion for supporting a rotatable shaft, wherein the bearing portion is formed according to one of claims 1 to 7. Thus, a functionally reliable and cost-effective exhaust gas turbocharger is to be provided.

Further advantages, features and details of the invention will become apparent from the following description of a preferred embodiment and from the drawing. The features and feature combinations mentioned above in the description as well as features and feature combinations mentioned below in the description of the figures and / or in the single figure alone can be used not only in the respectively specified combination, but also in other combinations or in isolation, without the scope of To leave invention. The single FIGURE shows a longitudinal section of an exhaust gas turbocharger according to the invention with a bearing device according to the invention.

An inventive exhaust gas turbocharger 1 is formed according to the figure. The turbocharger 1 comprises a non-illustrated through-flow air guide portion, a non-illustrated through-flow exhaust guide portion and a positioned between the air guide portion and the exhaust guide portion bearing portion 2 , which is a section housing 3 having. In the section housing 3 is a wave 4 rotatably mounted, which is positioned in a not shown in detail first receiving space of the air guide portion first impeller 5 with a second impeller positioned in a second receiving space, not shown, of the exhaust gas guide section 6 rotatably connects. For example, an operation of the exhaust gas turbocharger takes place 1 with the help of an internal combustion engine, not shown.

In operation, exhaust gas emitted from the internal combustion engine is guided through exhaust pipes not shown in detail, wherein the exhaust pipes are arranged connecting an outlet region of the internal combustion engine not shown in detail with an inlet region of the exhaust gas guide portion, not shown.

The exhaust gas is the second impeller via the inlet region 6 flowing on, thereby causing an expansion of the exhaust gas in the exhaust gas guide portion, so that the second impeller 6 is put into a rotary motion. With the help of the wave 4 becomes the first wheel 5 also set in a rotational movement, so that air is sucked in and compressed in the air guide section. The compressed air can then be supplied to the internal combustion engine via fresh air lines, which are not shown in greater detail, and which are arranged so as to connect an outlet region (not shown in more detail) of the air guide section to an inlet region of the internal combustion engine (not shown).

The bearing portion according to the invention shown in the figure 2 has a storage device 7 in the section housing 3 on which a sleeve-like bearing bush 8th includes. The bearing bush 8th is simultaneously formed in this embodiment as a radial bearing, the ends 9 . 10 the bearing bush 8th are designed in the form of a radial bearing. Likewise, the bushing could 8th be arranged between two radial bearings to secure an axial position of the radial bearings. The bearing device is in an axially completely through the section housing 3 extending receiving recess 22 added.

The bearing bush 8th is formed hollow cylindrical, wherein the shaft 4 in an interior 23 the bearing bush 8th is recorded rotatable.

A lubricant supply to the bearing device 7 takes place with the help of a first oil supply channel 11 or a second oil supply channel 12 which of one in the section housing 3 positioned oil supply channel 13 are arranged branching.

For fixing the bearing bush 8th is a fixing element 14 educated. With the help of the fixing element 14 becomes both a rotational and a longitudinal axis 15 the wave 4 and in the radial direction of the shaft 4 oriented movement of the bearing bush 8th prevented. In other words, the fixing secures the bearing bush 8th against axial displacement and against rotation in the section housing 3 , Furthermore, with the help of the fixing element 14 axial bearing forces and friction moments of the trained in the form of a semi-floating bearing bearing 7 on the section housing 3 transfer.

The fixing element 14 is in the form of a grooved pin and has along its longitudinal axis element 16 partially elastic regions over its circumference 17 on. The term elastic regions should be understood to mean that these regions are plastically present, but have an elastic function during assembly. These elastic areas 17 lie in the area of the notches 18 , which extend along the element longitudinal axis 16 are designed to extend. Overall, the fixing element 14 This embodiment four notches 18 on. The scores 18 have a kerf length L which is smaller than a total length GL of the fixing element 14 ,

The fixing element 14 is in a receiving opening 19 of the section housing 3 added. At his element head 20 , which in a further receiving opening 21 the bearing bush 8th is formed, the fixing element 14 secured by means of a clearance fit, in which case the securing of the position of the bearing bush 8th is executed.

An element diameter D of the fixing element 14 is predominantly smaller than an opening diameter DO of the receiving opening 19 , A secure connection between the fixing element 14 and the section housing 3 is using the elastic areas 17 brought about in these areas 17 the diameter of the fixing element 14 relative to the element diameter D due to the elasticity of the regions 17 deviating, ie larger, is formed. That means that in these elastic areas 17 in which a contact with the section housing 3 is made, the force absorption of the axial forces and the friction moments takes place.

In the present embodiment, the receiving openings 19 . 21 formed in the form of a bore. However, they could also be made deviating from a bore.

The fixing element is formed of a metallic material.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 2006-029148 A [0004]

Claims (8)

Bearing section for an exhaust gas turbocharger ( 1 ) comprising a section housing ( 3 ) in which a storage device ( 7 ) comprising a bearing bush ( 8th ) in a receiving recess ( 22 ) of the section housing ( 3 ), wherein a shaft ( 4 ) in an interior ( 23 ) of the bearing bush ( 8th ) is rotatably receivable, and wherein a fixing element ( 14 ) for fixing the bearing bush ( 8th ) in the section housing ( 3 ), characterized in that the fixing element ( 14 ) for securing the position of the bearing bush ( 8th ) and for transmitting axial forces to the section housing ( 3 ) is trained. Bearing portion according to claim 1, characterized in that the fixing element ( 14 ) is formed predominantly cylindrical. Bearing portion according to claim 1 or 2, characterized in that the fixing element ( 14 ) along its element longitudinal axis ( 16 ) elastic portions over its circumference ( 17 ) having. Bearing portion according to claim 3, characterized in that the fixing element ( 14 ) is formed in the form of a grooved pin or a notched nail. Bearing portion according to one of the preceding claims, characterized in that the fixing element ( 14 ) four along an element longitudinal axis ( 16 ) extending notches ( 18 ) having. Bearing portion according to one of the preceding claims, characterized in that the fixing element ( 14 ) is formed of a metallic material. Bearing portion according to one of claims 1 to 5, characterized in that the fixing element ( 14 ) is formed of a plastic. Exhaust gas turbocharger, comprising a bearing section ( 2 ) for supporting a rotatable shaft ( 4 ), characterized in that the bearing section ( 2 ) is formed according to one of claims 1 to 7.

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