DE102017213502A1 - Floating bush bearing for an exhaust gas turbocharger - Google Patents

Abstract

The invention relates to a floating bush bearing for an exhaust gas turbocharger, which has a tubular segment-shaped floating bush body having an outer shell, an inner shell, an end surface and a rear surface, wherein the inner shell of the Schwimmbuchsenkörpers at the same axial position one or more in the circumferential direction in each case only over part of the total having the inner shell extending circumferential grooves.

Description

The invention relates to a floating bush bearing for an exhaust gas turbocharger. Such a floating bush bearing is disposed between the shaft of the exhaust gas turbocharger and the bearing housing. Usually take two axially spaced apart floating bushes the radial bearing of the shaft of the exhaust gas turbocharger.

From the DE 10 2012 207 010 A1 an exhaust gas turbocharger is known, which is equipped with a two radial bearing bearing housing. The radial bearings enclose a shaft mounted in the bearing housing, are spaced from one another in the axial direction and each have a floating bush body provided between the bearing housing and the shaft. Between the shaft and the floating bush body is an inner lubrication gap and between the bearing housing and the Schwimmbuchsenkörper an outer lubrication gap. The bearing housing has a running in the radial direction lubricating oil supply. Between the two floating bush bodies connected to the Schmierölzuführbohrung lube oil collecting space is provided, from which the lubricating oil in the axial direction in the lubricating gaps of the radial bearings can be conducted.

From the DE 10 2012 208 960 A1 For example, a radial bearing is known which has a shaft mounted in a housing and a floating bush body provided between the housing and the shaft. This floating bush body is equipped with an imbalance to counteract an imbalance of the shaft.

In such floating bush bearings, the set games in the inner lubrication gap between the shaft and the floating bushing as well as in the outer lubrication gap between the floating bushing and the bearing housing have considerable influence on the dynamic properties of the plain bearing. The rigid body modes of rotors stored in this bearing lead to low-frequency, so-called subsynchronous vibrations during operation. The excitation of these vibrations is effected by a compensating movement of the high-speed rotating shaft of the exhaust gas turbocharger during operation under a radial load. In exhaust gas turbochargers occur essentially three different subsynchronous vibrations, which are in different speed ranges. These different subsynchronous vibrations can be distinguished according to their mode shape and their origin, which lies in the inner or outer lubrication gap.

One of these subsynchronous vibrations is formed by a cylindrical rigid body mode in the inner lubricating film of the sliding bearing. This vibration, which is also referred to as a second sub-synchronous or constant tone, can be perceived in the respective motor vehicle as subjectively perceived disturbing noise, which in turn can lead to customer complaints.

The object of the invention is to provide a floating bush bearing in which the constant tone is no longer disturbing in appearance.

This object is achieved by a floating bush bearing with the features specified in claim 1. Advantageous embodiments and further developments of the invention are specified in the dependent claims.

The invention provides a floating bush bearing for an exhaust gas turbocharger which has a tubular segment-shaped floating bush body which has an outer casing, an inner casing, an end surface and a rear surface. The inner jacket of the floating sleeve body has one or more circumferentially extending only over a portion of the entire circumference of the inner shell circumferential grooves. As a result, it is advantageously achieved that the constant tone occurring during operation with one or more floating bush bearings in operation is reduced in such a way that it no longer interferes with its appearance.

• 1 eine Skizze zur Erläuterung des Aufbaus eines einen Schwimmbuchsenkörper aufweisenden Radiallagers,
• 2 eine perspektivische Darstellung eines bekannten Schwimmbuchsenkörpers,
• 3 eine perspektivische Darstellung einer ersten Ausführungsform eines erfindungsgemäßen Schwimmbuchsenkörpers,
• 4 eine erste Schnittdarstellung des in der 3 gezeigten Schwimmbuchsenkörpers,
• 5 eine zweite Schnittdarstellung des in der 3 gezeigten Schwimmbuchsenkörpers,
• 6 Skizzen möglicher Querschnittsformen der Umfangsnuten,
• 7 Skizzen zur Veranschaulichung möglicher Verteilungen der Umfangsnuten entlang des Umfangs des Innenmantels,
• 8 Skizzen zur Veranschaulichung möglicher Breiten und Tiefen der Umfangsnuten,
• 9 eine perspektivische Darstellung einer zweiten Ausführungsform eines erfindungsgemäßen Schwimmbuchsenkörpers,
• 10 eine erste Schnittdarstellung des in der 9 gezeigten Schwimmbuchsenkörpers,
• 11 eine zweite Schnittdarstellung des in der 9 gezeigten Schwimmbuchsenkörpers,
• 12 eine perspektivische Darstellung einer dritten Ausführungsform eines erfindungsgemäßen Schwimmbuchsenkörpers,
• 13 eine erste Schnittdarstellung des in der 12 gezeigten Schwimmbuchsenkörpers,
• 14 eine zweite Schnittdarstellung des in der 12 gezeigten Schwimmbuchsenkörpers,
• 15 eine perspektivische Darstellung einer vierten Ausführungsform eines erfindungsgemäßen Schwimmbuchsenkörpers,
• 16 eine erste Schnittdarstellung des in der 15 gezeigten Schwimmbuchsenkörpers,
• 17 eine zweite Schnittdarstellung des in der 15 gezeigten Schwimmbuchsenkörpers,

Further advantageous features of the invention will become apparent from the following exemplary explanation with reference to the drawings. It shows:

• 1 a sketch to explain the structure of a floating bush body having radial bearing,
• 2 a perspective view of a known floating bush body,
• 3 a perspective view of a first embodiment of a floating bush body according to the invention,
• 4 a first sectional view of the in the 3 shown floating bush body,
• 5 a second sectional view of the in the 3 shown floating bush body,
• 6 Sketches of possible cross-sectional shapes of the circumferential grooves,
• 7 Sketches for illustrating possible distributions of the circumferential grooves along the circumference of the inner shell,
• 8th Sketches to illustrate possible widths and depths of the circumferential grooves,
• 9 a perspective view of a second embodiment of a floating bush body according to the invention,
• 10 a first sectional view of the in the 9 shown floating bush body,
• 11 a second sectional view of the in the 9 shown floating bush body,
• 12 a perspective view of a third embodiment of a floating bush body according to the invention,
• 13 a first sectional view of the in the 12 shown floating bush body,
• 14 a second sectional view of the in the 12 shown floating bush body,
• 15 a perspective view of a fourth embodiment of a floating bush body according to the invention,
• 16 a first sectional view of the in the 15 shown floating bush body,
• 17 a second sectional view of the in the 15 shown floating bush body,

A radial bearing, which has a shaft mounted in a housing and provided between the housing and the shaft floating bush body, wherein between the shaft and the Schwimmbuchsenkörper an inner lubrication gap and between the housing and the Schwimmbuchsenkörper an outer lubrication gap is present in the 1 shown. There is between a rotating shaft 8th that is at a speed n _W turns, and a housing 10 a likewise rotating Schwimmbuchsenkörper 1 that is at a speed n _B turns, provided. Between the case 10 and the swimming-pool body 1 is an outer lubrication gap filled with lubricating oil 9 intended. Between the floating bush body 1 and the wave 8th There is also an inner lubrication gap filled with lubricating oil 11 , The outer lubrication gap 9 the lubricating oil gets through in the housing 10 provided, not shown, supplied in the radial direction bores. Furthermore, in the floating bush body 1 also not shown, also provided in the radial direction bores, through which the inner lubrication gap 11 from the outer lubrication gap 9 supplied with lubricating oil. These lubricating oil films absorb radial forces occurring during operation.

In the 2 is shown a perspective sketch of a conventional floating bush body. This swimming bush body 1 is formed substantially tubular segment-shaped and has extending in the radial direction Ölzuführbohrungen 2 on, through which lubricating oil is transported from the outer lubrication gap to the inner lubrication gap during operation. These oil supply holes 2 each have a predetermined diameter and are realized as through holes. Furthermore, the in the 2 illustrated swimming bush body 1 an outer jacket 1a , an inner jacket 1b , an end face 1c and a back surface 1d on.

In the 3 is a perspective sketch of a first embodiment of a floating bush body according to the invention shown. This swimming bush body 1 is also formed substantially tubular segment-shaped and also has extending in the radial direction Ölzuführbohrungen 2 on, through which lubricating oil is transported from the outer lubrication gap to the inner lubrication gap during operation. These Ölzuführbohrungen also each have a predetermined diameter and are realized as through holes. Also in the 3 illustrated swimming bush body 1 has an outer jacket 1a , an inner jacket 1b , an end face 1c and a back surface 1d on.

Unlike the one in the 2 the known floating bush body shown in the 3 shown floating bush body according to the invention 1 on his inner coat 1b at the same axial position, one or more circumferentially extending circumferential grooves 3 on. Investigations have shown that in a floating bush bearing, which has a Schwimmbuchsenkörper with introduced in its inner circumference, extending in the circumferential direction circumferential grooves, the above-mentioned constant tone is effectively reduced, so that it does not interfere appear in appearance. When in the 3 In the embodiment shown, the circumferential grooves are rectangular.

The Indian 3 shown floating bush body 1 is also characterized by the fact that the oil supply holes 2 , which are each arranged at the same axial position of the floating bush body, preferably in the axial center, and are arranged distributed uniformly in the circumferential direction of the floating bush body, each from the outer shell 1a of the swimming-pool body 1 in the radial direction inwards to the circumferential groove 3 or to the inner jacket 1b extend. Two or more adjacent oil supply holes 2 can have a circumferential groove 3 be fluidly connected to each other.

By using such circumferential grooves, which are at least partially fluidically connected to one or more oil supply holes, the lubricating oil supply of the inner lubricating gap and the circumferential grooves in comparison to improved use of known floating bush body.

According to one embodiment of the invention may be introduced at further axial positions of the floating bush body in the inner circumference further each extending over only a portion of the total circumference circumferential grooves and possibly also be provided with these other circumferential grooves connected Ölzuführbohrungen.

Thus, for example, two or three, each extending over only a part of the total circumference circumferential grooves 3 be provided at different axial positions at a distance x in the axial direction to each other on the inner circumference of the Schwimmbuchsenkörpers 1 are arranged. Furthermore, these circumferential grooves 3 be arranged at equal or different angular intervals ω each other distributed over the inner circumference. An example of this is shown by the sectional views of a floating bush body 1 in the 4 and 5 , From the 4 and 5 is also apparent that the circumferential grooves 3 each fluidly with oil supply holes 2 in connection, with even more, not ending in a circumferential groove oil supply holes 2 are provided. In this example, a plurality of circumferential grooves extending over only a part of the total circumference are respectively provided at two axial positions. However, it can also be provided at each axial position only one such circumferential groove, which are each arranged at an angular distance ω to the respective other circumferential grooves. Furthermore, from the 4 It can be seen that the circumferential grooves are rectangular.

From the 5 it can be seen in particular that in the embodiment shown in total 6 Ölzuführbohrungen 2 are provided per axial position, each extending in the radial direction and are distributed uniformly distributed along the circumference of the inner shell of the Schwimmbuchsenkörpers. Furthermore, it can be seen that in each case three of these Ölzuführbohrungen 2 each with one of the circumferential grooves 3 fluidly connected while the other three oil supply wells 2 not with a circumferential groove 3 are fluidically connected.

The 6 shows sketches of possible cross-sectional shapes of the circumferential grooves. These may be, for example, quadrangular, triangular, oval, semicircular, trapezoidal or sickle-shaped.

The 7 shows sketches to illustrate possible distributions of the circumferential grooves 3 along the circumference of the inner shell 1b , From the upper illustration of 7 it can be seen that the circumferential grooves 3 along the inner mantle 1b the floating bush body can be distributed evenly or symmetrically. From the lower illustration of 7 it can be seen that the circumferential grooves 3 along the inner mantle 1b the floating bush body can also be distributed unevenly or asymmetrically.
The 8th shows sketches to illustrate possible widths and depths of the circumferential grooves. From the upper illustration of 8th it can be seen that the width b and the depth t the circumferential grooves can match. From the lower illustration of 8th It can be seen that the width and the depth of the circumferential grooves can also be chosen differently. So has the in the lower part of 8th the upper of the two drawn circumferential grooves has a width b and a depth t while the lower of the two circumferential grooves has a width b1 and a depth t1 has, being b1 greater than b is and where t1 greater than t is. With d the wall thickness of the Schwimmbuchsenkörpers is respectively designated.

The width b of a circumferential groove 3 may vary in the circumferential direction and / or it may be the width of two circumferentially adjacent circumferential grooves 3 be different. Preferably, the width of the circumferential groove at its widest point is less than 50% of the supporting length of the inner shell 1b of the swimming-pool body 1 ,

The depth t of a circumferential groove 3 is at its lowest point less than 80% of the wall thickness d of the floating bush body, preferably less than 50% of the wall thickness d of the floating bush body. The depth t of a circumferential groove 3 may vary in the circumferential direction and / or the depth t of two circumferentially adjacent circumferential grooves may be different.

Furthermore, in the transition areas between the circumferential grooves 3 and the respective adjacent bearing surface l1 . l2 of the inner jacket 1b of the swimming-pool body 1 one chamfer each 5b be provided, as it is in the upper part of 8th is illustrated.

By this on the basis of 6 to 8th explained options, the respective floating bush bearing can be optimized in terms of the most effective reduction of the constant tone.

These options also exist for the other embodiments, which will be described below with reference to the other 9 to 17 be explained.

In the 9 is a perspective sketch of a second embodiment of a floating bush body according to the invention shown. This Floating bush body 1 is also formed substantially tubular segment-shaped and also has extending in the radial direction Ölzuführbohrungen 2 on, through which lubricating oil is transported from the outer lubrication gap to the inner lubrication gap during operation. These Ölzuführbohrungen also each have a predetermined diameter and are realized as through holes. Also in the 9 illustrated swimming bush body 1 has an outer jacket 1a , an inner jacket 1b , an end face 1c and a back surface 1d on.

Unlike the one in the 2 the known floating bush body shown in the 9 shown floating bush body according to the invention 1 on his inner coat 1b one or more circumferentially extending circumferential grooves 3 on. Investigations have shown that in a floating bush bearing, which has a Schwimmbuchsenkörper with introduced in its inner circumference, extending in the circumferential direction circumferential grooves, the above-mentioned constant tone is effectively reduced, so that it does not interfere appear in appearance. When in the 3 In the embodiment shown, the circumferential grooves are sickle-shaped.

The Indian 9 shown floating bush body 1 is also characterized by the fact that the oil supply holes 2 , which are each arranged at the same axial position of the floating bush body, preferably in the axial center, and are arranged distributed uniformly in the circumferential direction of the floating bush body, each from the outer shell 1a of the swimming-pool body 1 in the radial direction inwards to the circumferential groove 3 or to the inner jacket 1b extend. Two or more adjacent oil supply holes 2 can have a circumferential groove 3 be fluidly connected to each other.

By using such circumferential grooves, which are at least partially fluidly connected to one or more oil supply holes, the lubricating oil supply of the inner lubricating gap and the circumferential grooves is improved compared to a use of known floating bush body.

According to one embodiment of the invention may be introduced at other axial positions of the floating bush body in the inner circumference of further circumferential grooves and possibly also be provided for further Ölzuführbohrungen.

The 10 shows a first sectional view of the in the 9 shown floating bush body 1 , From this representation it can be seen in particular that the in the 10 upper circumferential groove 3 fluidic with an oil feed hole 2 is connected while in the 10 medium oil feed hole not with a circumferential groove 3 is fluidically connected. Furthermore, from the 10 it can be seen that the circumferential grooves are sickle-shaped.

The 11 shows a second sectional view of the in the 9 shown floating bush body 1 , From the 11 It can be seen in particular that in the embodiment shown a total of 6 oil supply holes 2 are provided, each extending in the radial direction and are arranged distributed uniformly along the circumference of the inner shell of the Schwimmbuchsenkörpers. Furthermore, it can be seen that three of these oil supply holes 2 each with one of the circumferential grooves 3 fluidly connected while the other three oil supply wells 2 not with a circumferential groove 3 are fluidically connected.

In the 12 is a perspective sketch of a third embodiment of a floating bush body according to the invention shown. This swimming bush body 1 is also formed substantially tubular segment-shaped and also has extending in the radial direction Ölzuführbohrungen 2 on, through which lubricating oil is transported from the outer lubrication gap to the inner lubrication gap during operation. These Ölzuführbohrungen also each have a predetermined diameter and are realized as through holes. Also in the 12 illustrated swimming bush body 1 has an outer jacket 1a , an inner jacket 1b , an end face 1c and a back surface 1d on.

Unlike the one in the 2 the known floating bush body shown in the 12 shown floating bush body according to the invention 1 on his inner coat 1b one or more circumferentially extending circumferential grooves 3 on. Investigations have shown that in a floating bush bearing, which has a Schwimmbuchsenkörper with introduced in its inner circumference, extending in the circumferential direction circumferential grooves, the above-mentioned constant tone is effectively reduced, so that it does not interfere appear in appearance. When in the 12 In the embodiment shown, the circumferential grooves are sickle-shaped.

The Indian 12 shown floating bush body 1 is also characterized by the fact that the oil supply holes 2 , which are each arranged at the same axial position of the floating bush body, preferably in the axial center, and are arranged distributed uniformly in the circumferential direction of the floating bush body, each from the outer shell 1a of the swimming-pool body 1 in the radial direction inwards to the circumferential groove 3 or to the inner jacket 1b extend. Two or more adjacent oil supply holes 2 are over a circumferential groove 3 fluidly connected.

By using such circumferential grooves, which are at least partially fluidly connected to one or more oil supply holes, the lubricating oil supply of the inner lubricating gap and the circumferential grooves is improved compared to a use of known floating bush body.

According to one embodiment of the invention may be introduced at other axial positions of the floating bush body in the inner circumference of further circumferential grooves and possibly also be provided for further Ölzuführbohrungen.

The 13 shows a first sectional view of the in the 12 shown floating bush body 1 , From this representation, it can be seen in particular that the crescent-shaped circumferential grooves 3 adjacent oil supply holes 2 fluidly interconnect.

The 14 shows a second sectional view of the in the 12 shown floating bush body 1 , From the 14 is particularly apparent that in the embodiment shown here a total of 6 oil supply holes 2 are provided, each extending in the radial direction and are arranged distributed uniformly along the circumference of the inner shell of the Schwimmbuchsenkörpers. Furthermore, it can be seen that all oil supply holes 2 over the circumferential grooves 3 are fluidly connected, wherein a circumferential groove is fluidly connected to three oil supply holes.

In the 15 is a perspective sketch of a fourth embodiment of a floating bush body according to the invention shown. This swimming bush body 1 is also formed substantially tubular segment-shaped and also has extending in the radial direction Ölzuführbohrungen 2 on, through which lubricating oil is transported from the outer lubrication gap to the inner lubrication gap during operation. These Ölzuführbohrungen also each have a predetermined diameter and are realized as through holes. Also in the 15 illustrated swimming bush body 1 has an outer jacket 1a , an inner jacket 1b , an end face 1c and a back surface 1d on.

Unlike the one in the 2 the known floating bush body shown in the 15 shown floating bush body according to the invention 1 on his inner coat 1b one or more circumferentially extending circumferential grooves 3 on. Investigations have shown that in a floating bush bearing, which has a floating bush body with incorporated in its inner circumference, extending in the circumferential direction circumferential grooves, the above-mentioned constant tone is effectively reduced, so that it does not interfere appear in appearance. When in the 15 In the embodiment shown, the circumferential grooves are sickle-shaped. The distribution of the crescent-shaped circumferential grooves along the inner circumference of the Schwimmbuchsenkörper is unbalanced.

The Indian 15 shown floating bush body 1 is also characterized by the fact that the oil supply holes 2 , which are each arranged at the same axial position of the floating bush body, preferably in the axial center, and are arranged distributed uniformly in the circumferential direction of the floating bush body, each from the outer shell 1a of the swimming-pool body 1 in the radial direction inwards to the circumferential groove 3 or to the inner jacket 1b extend. Two or more adjacent oil supply holes 2 can have a circumferential groove 3 be fluidly connected to each other.

By using such circumferential grooves, which are at least partially fluidly connected to one or more oil supply holes, the lubricating oil supply of the inner lubricating gap and the circumferential grooves is improved compared to a use of known floating bush body.

According to one embodiment of the invention may be introduced at other axial positions of the floating bush body in the inner circumference of further circumferential grooves and possibly also be provided for further Ölzuführbohrungen.

The 16 shows a first sectional view of the in the 15 shown floating bush body 1 , From this representation it can be seen in particular that the in the 16 upper and lower circumferential groove 3 fluidic with an oil feed hole 2 is connected while in the 16 middle two oil supply holes 2 not with a circumferential groove 3 are fluidically connected. Furthermore, from the 10 it can be seen that the circumferential grooves are sickle-shaped.

The 17 shows a second sectional view of the in the 15 shown floating bush body 1 , From the 17 It can be seen in particular that in the embodiment shown a total of 6 oil supply holes 2 are provided, each extending in the radial direction and are arranged distributed uniformly along the circumference of the inner shell of the Schwimmbuchsenkörpers. Furthermore, it can be seen that four of these oil supply holes 2 with one or two of the circumferential grooves 3 fluidically connected while the other two Ölzuführbohrungen 2 not with a circumferential groove 3 are fluidically connected. Furthermore, it can be seen that the circumferential grooves are distributed asymmetrically on the inner jacket of the Schwimmbuchsenkörpers.

Hereinafter, preferred dimensions of the circumferential grooves 3 relative to other components of the Schwimmbuchsenkörper 1 explained in more detail. These dimensions of the circumferential grooves 3 are matched to the size of the floating bush bearing, which depends on the size of the respective exhaust gas turbocharger.

The width b of the circumferential grooves 3 is preferably up to 50% of the bearing bearing width of the inner shell 1b of the swimming-pool body 1 , This bearing bearing width results from an addition of both sides of the circumferential groove 3 arranged, extending in the axial direction lengths of the inner shell. It is important that the sum of bearing bearing width and the width of the circumferential groove 3 smaller than the overall axial length of the floating bush body when the inner shell 1b of the swimming-pool body 1 in the area of the face 1c and preferably also in the area of the rear surface 1d and / or in the transition region between the respective circumferential groove and the respective adjacent supporting lengths of the inner shell each having a chamfer.

According to one embodiment of the invention, the width b of the circumferential grooves 3 variable in the circumferential direction.

The depth t of the circumferential grooves 3 is up to 80% of the wall thickness d of the floating bush body 1 , Preferably up to 50% of the wall thickness d of the floating bush body.

According to one embodiment of the invention, the depth t of the circumferential grooves 3 variable in the circumferential direction. Alternatively or additionally, the depth t of two circumferentially adjacent circumferential grooves may be different. Alternatively or additionally, the depth t of the circumferential grooves 3 also vary in the axial direction.

Experiments have shown that by the dimensions described above, the width b of the circumferential grooves 3 and the depth t of the circumferential grooves 3 an effective reduction of the constant tone as a function of the particular exhaust gas turbocharger present can be achieved.

As a Umfangsnutform preferably a rectangle, a triangle, an oval, a semicircle or a sickle is used. Other Umfangsnutformen are possible. When selecting the shape of the circumferential groove, care must be taken to ensure that sufficient lubricating oil volume can be accommodated in the circumferential grooves.

The transition region between the circumferential grooves and the lubrication gap on the inside of the floating bush body can be designed as a chamfer, edge break, edge rounding or even sharp-edged.

A floating bush bearing for an exhaust gas turbocharger preferably has two floating bush body axially spaced. These two floating bush body of a floating bush bearing are preferably constructed identically. Alternatively, however, for the realization of an asymmetric floating bush bearing provided on the inner surface of the floating bush body circumferential groove of the two floating bush body be constructed differently, in particular be dimensioned differently.

Another alternative is to provide the circumferential groove only in one of the two floating bush body of a floating bush bearing.

Furthermore, floating bush bearings, which have one or more equipped with the features of the invention floating bush body, rotating or rotationally fixed floating bush body.

An advantageous development of the invention is to further reduce the disturbing constant tone that, in addition to those described above, on the inner shell 1b of the swimming-pool body 1 provided circumferential grooves 3 at the frontal area 1c and / or on the back surface 1d of the floating bush body additional grooves 4 are introduced, which extend in the radial direction. Such provided on the end face or rear surface of a floating bush body further grooves are used in known floating bush bearings to increase the robustness of the radial bearing at high speeds of the turbocharger shaft by the speed of the floating bushings is reduced by them. Experiments have shown that this reduction in the Schwimmbuchsenendrehzahl has an effect on the constant tone. This has a positive effect on the subjective noise rating in the vehicle if the frequency position of the constant tone is shifted to a range in which other vehicle noise sources are dominant and cause a corresponding acoustic masking of the constant tone.

An embodiment of the invention consists, by a suitable dimensioning in the transition region of the inner shell 1b of the floating bush body to the face 1c of Floating bush body and in the transition area of the inner shell 1b of the floating bush body to the rear surface 1d each of the floating bush body to provide a chamfer to adjust the bearing bearing width of the floating bush body in the desired manner.

The above, on the inner circumference 1b of the swimming-pool body 1 provided circumferential grooves 3 provide an additional oil reservoir between the turbocharger shaft and the float bushing body. When negative pressure areas occur in the inner lubrication gap, lubricating oil from the circumferential groove can be directly and appropriately tracked in order to improve the lubricating properties. The volume of oil in the area of the inner lubricating gap in turn influences the excitation of low-frequency vibrations. In the presence of deficient lubrication in the inner lubrication gap, this deficiency is due to the immediate proximity of the oil volume in the circumferential grooves 3 counteracted effectively to the inner lubrication gap by lubricating oil can be tracked quickly.

When cylindrical rigid body modes occur, the turbocharger shaft oscillates in the radial direction. In this case, a force is exerted on the lubricating oil film in the inner lubrication gap. The lubricating oil film represents a resistance to this pressure force. Nevertheless, lubricating oil is displaced in the axial direction from the inner lubrication gap, which back into the circumferential grooves 3 can flow. Due to the incompressibility of the lubricating oil, the oil volume flow entering the circumferential grooves occurs again on the side facing away from the oscillating movement. In this case, the transition from the cross section of the circumferential grooves to the cross section of the inner lubricating gap acts like a throttle point. As a result, the damping properties of the sliding bearing are favored and thus contribute to the reduction of the constant tone.

Due to the complexity of the flow processes of the lubricating oil in the circumferential grooves 3 the internal friction of the lubricating oil is increased, resulting in an additional damping effect.

The rotational movement of the floating sleeve body creates a centrifugal force effect in the radially directed oil supply bores 2 , This centrifugal effect represents a resistance to the lubricating oil to be supplied to the inner lubricating gap. By the above-described introduction of the circumferential grooves 3 in the inner jacket 1b of the swimming-pool body 1 becomes the oil feed hole 2 shortened, whereby the centrifugal force effect is reduced and the lubricating oil supply of the inner lubricating gap is improved.

A floating bush bearing equipped with one or more floating bush bodies according to the invention, after all, offers advantages in terms of effectively reducing the undesirable constant sound and improving the lubricating oil supply of the inner lubricating gap of the floating bush bearing.

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

• DE 102012207010 A1 [0002]
• DE 102012208960 A1 [0003]

Claims (13)

A floating bush bearing for an exhaust gas turbocharger, comprising a tubular segment-shaped floating bush body (1), which has an outer casing (1a), an inner casing (1b), an end surface (1c) and a rear surface (1d), characterized in that the inner casing (1b) of the Schwimmbuchsenkörpers (1) has at the same axial position one or more in the circumferential direction only over a part of the entire circumference of the inner shell extending circumferential grooves (3). Swimming bush bearing after Claim 1 , characterized in that the floating bush body (1) extending in the radial direction Ölzuführbohrungen (2) extending from the outer shell (1a) of the floating bush body to a circumferential groove (3) or to the inner shell (1b). Swimming bush bearing after Claim 2 , characterized in that the Ölzuführbohrungen (2) in the circumferential direction of the inner shell (1b) of the Schwimmbuchsenkörpers (1) are arranged distributed uniformly or non-uniformly. Swimming bush bearing after Claim 2 or 3 , characterized in that two or more of the Ölzuführbohrungen (2) by a circumferential groove (3) are interconnected in the circumferential direction. Swimming bush bearing according to one of the preceding claims, characterized in that the inner casing (1b) of the floating bush body (1) has two or more in the circumferential direction in each case only over part of the total circumference extending and each axially spaced-apart circumferential grooves (3). Swimming bush bearing according to one of the preceding claims, characterized in that the width (b) of a circumferential groove (3) varies in the circumferential direction and / or that the width of two circumferentially adjacent circumferential grooves (3) is different. Swimming bush bearing according to one of the preceding claims, characterized in that the width (b) of the circumferential groove (3) at its widest point is less than 50% of the load-bearing length of the inner shell (1b) of the Schwimmbuchsenkörpers (1). Swimming bush bearing according to one of the preceding claims, characterized in that the depth (t) of the circumferential groove (3) at its lowest point is less than 80% of the wall thickness (d) of the Schwimmbuchsenkörpers (1), preferably less than 50% of the wall thickness ( d) the floating bush body (1). Swimming bush bearing according to one of the preceding claims, characterized in that the depth (t) of a circumferential groove (3) varies in the circumferential direction and / or the depth (t) of two circumferentially adjacent circumferential grooves (3) is different and / or the depth (t) a circumferential groove (3) varies in the axial direction. Floating bush bearing according to one of the preceding claims, characterized in that in the end face (1c) and / or the rear surface (1d) of the floating bush body (1) extending in the radial direction grooves (4) are introduced. Swimming bush bearing according to one of the preceding claims, characterized in that the inner casing (1b) of the floating bush body (1) in the region of the end face (1c) and / or the rear surface (1d) has a chamfer (5). Swimming bush bearing according to one of the preceding claims, characterized in that the circumferential grooves are rectangular, triangular, oval, trapezoidal or sickle-shaped. Swimming bush bearing according to one of the preceding claims, characterized in that in each case a chamfer (5a) is provided in the transition region between the circumferential grooves and the load-bearing length of the inner shell of the Schwimmbuchsenkörpers.

Images