WO2016037686A1 - Turbocharger - Google Patents

Abstract

The invention relates to a turbocharger which comprises a first housing section (2) of the turbocharger (1) and a second housing section (3) of the turbocharger (1), the first housing section (2) having a radially outward facing first collar (9) opposite the second housing section (3), and the second housing section (3) having a radially outward facing second collar (10) opposite the first collar (9), and the first housing section (2) and the second housing section (3) extend both radially to the longitudinal axis (11) and axially along the longitudinal axis (11). In order to interconnect the two housing sections (2, 3) a connecting device (12) is provided. Said connecting device (12) comprises a securing element (30) for securing the position.

Description

 turbocharger

The invention relates to an exhaust gas turbocharger specified in the preamble of claim 1. Art.

Expediently, an exhaust gas turbocharger consists of a plurality of housing sections: a first housing section, which is generally traversed by hot gases, usually exhaust gas of an internal combustion engine, a second housing section, which rotatably mounted in the second housing portion Aufinnbare and between the first housing portion and a third

Housing portion, which is permeated by ambient air in general, is positioned. Between the individual housing sections flange surfaces are formed, such that these flange surfaces are designed to be touched, so that leakage of the hot gas and the ambient air is largely avoided. If there are leaks between the flange surfaces, on the one hand, an overall efficiency of the exhaust gas turbocharger is reduced and, on the other hand, polluting exhaust gases occur between the first housing section and the second housing section, which is particularly to be avoided. It should be noted that the exhaust gas turbocharger should be dismantled, that is, for example, a cohesive connection between the individual flange surfaces could bring about a tightness between the flange surfaces, but then the exhaust gas turbocharger is no longer easy to disassemble and reassemble.

Thus, for example, the published patent application DE 10 2010 053 078 A1

Exhaust gas turbocharger removable, with the aid of a force-fit connection in the form of a union nut a fluid-tight seal between the first housing portion and the second housing portion is sought. Here, however, this is one

Threaded union nut produce, resulting in additional and not inconsiderable costs.

The published patent application DE 10 2008 057 504 A1 discloses an exhaust-gas turbocharger which, with the aid of tensioning clamps, clamps a tension between two Housing sections provides. The clamps serve a gas-tight clamping of the housing sections against each other, wherein the clamping clips are positioned in sections on a circumference of the housing sections to be connected. A problem is a quick assembly, since the clamps are to be mounted individually on the circumference.

The object of the present invention is to provide an exhaust gas turbocharger, the connection of two housing sections is fast and easy to produce while ensuring the connection.

This object is achieved by an exhaust gas turbocharger with the characteristics of

Patent claim 1 solved. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the remaining claims.

The invention relates to an exhaust gas turbocharger which has a first housing section of the exhaust gas turbocharger and a second housing section of the exhaust gas turbocharger. The first housing section has a second housing section

opposite radially outwardly directed first collar and the second

Housing portion a the first collar opposite radially outwardly directed second collar, wherein the first housing portion and the second

Housing section around the longitudinal axis both radially and along the

Axially extending longitudinal axis, are formed, and wherein a connection device is provided for connecting the two housing sections. The

Connecting device is the first collar and the second collar in the radial and axial directions at least partially comprehensive formed strip-like. to

Position assurance, the connection device has a securing element.

During operation of the exhaust gas turbocharger, the housing sections have high

Exhaust temperatures on a thermal expansion. Thus, this thermal expansion can be done without significantly affecting the efficiency of the

Exhaust gas turbocharger and in particular without a rotation of the housing sections against each other, originally designed in the form of a V-band clamp connecting device on the fuse element. Thus, a rotation of the housing sections is prevented against each other during operation of the exhaust gas turbocharger, the connecting device is the two

Housing sections formed positioning.

The securing element is wedge-shaped, wherein a groove-shaped recess in the first collar and in the second collar is preferably introduced for producing a non-positive and positive connection, preferably with the aid of a milling method.

By means of the securing element, a radial securing of the connecting device can be achieved. An axial securing of the connecting device is realized by means of the V-band clamp-like configuration of the connecting device.

The advantage of the exhaust gas turbocharger according to the invention is to be seen in that in particular a rotation of the first housing portion and the second housing portion is formed that a settlement behavior is prevented and the formation of a radial fuse is realized.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing. The features mentioned above in the description and

Feature combinations as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figures are not only in the respectively indicated combination but also in others

Combinations or alone, without departing from the scope of the invention.

The drawing shows in:

1 is a perspective view of a first housing portion and a second housing portion of an exhaust gas turbocharger according to the invention,

2 is a perspective view of a connecting device of the exhaust gas turbocharger according to the invention, in a detailed view of the connecting device acc. Fig. 2, in a further perspective view of the connecting device according to. Fig. 2 in a plan view, in a further perspective view fragmentary the first housing portion and the second housing portion of the exhaust gas turbocharger according to the invention, in a further perspective view fragmentary the first housing portion and the second housing portion of the exhaust gas turbocharger according to the invention, in a further perspective view fragmentary the first housing portion and the second housing section of the exhaust gas turbocharger according to the invention without a connecting device, and in a cross section the connecting device in the region of the first housing section.

An inventive exhaust gas turbocharger 1 is in an exemplary

Embodiment of FIG. 1 formed. The exhaust gas turbocharger 1 has a first housing section 2, in the form of a flow-through exhaust gas guide section 2, which is traversed by exhaust gas during operation of the exhaust gas turbocharger 1 by a fluid, as a rule. The exhaust gas is generally but not necessarily a

Combustion product of an internal combustion engine, not shown.

The exhaust gas turbocharger 1 is assigned a second housing section 3, which is designed in the form of a bearing section and serves to support a running gear, not shown, of the exhaust gas turbocharger 1. The bearing portion 3 is positioned between a non-illustrated through-flow air guide portion of the exhaust gas turbocharger 1 and the exhaust gas guide portion 2.

The running gear, not shown, has a not-shown compressor wheel and a not-shown turbine wheel, which are rotatably connected to each other by means of a shaft, not shown. The compressor wheel is not in one Compressor wheel chamber of the air guide section shown in more detail for sucking generally fresh air arranged. The turbine wheel, not shown, is rotatably received in a wheel chamber 4 of the exhaust gas guide section 2.

The turbine is in the operation of the exhaust gas turbocharger 1 of the

Exhaust gas flowing portion 2 exhaust flowing and driven, wherein it can perform a rotational movement. This rotational movement is transferable by means of the shaft to the compressor wheel, which thus simultaneously to the rotational movement of the

Turbine wheel can perform a rotary motion. With the help of the compressor wheel and its rotary motion fresh air is sucked in, which is compressed in the air guide section.

The exhaust gas guide section 2 has a flow-through spiral channel 5, by means of which the fluid can be fed to the turbine wheel. Because of the high temperatures of the fluid flowing through the exhaust gas guide section 2, a heat shield not shown in detail is formed between the exhaust gas guide section 2 and the bearing section 3 for heat-insulating shielding of the bearing section 3. The heat shield is positioned in the area of the turbine wheel near its wheel back.

The exhaust gas guide section 2 has at its end facing the bearing section 3 a first flange surface 7. This second flange surface 7 opposite a second flange 8 of the bearing portion 3 is formed, wherein the two flange surfaces 7, 8 are formed complementary.

The first housing section 2 has a radially outwardly directed first collar 9, which axially adjacent a radially outwardly directed second collar 10 of the second housing section 3 is assigned. The first flange surface 7 and the second flange surface 8 extend over the first collar 9 and the second collar 10, respectively.

The two flange surfaces 7, 8 are opposite to a longitudinal axis 11 of the

Exhaust gas turbocharger 1, which corresponds to a rotational axis of the turbine wheel, formed both radially and axially extending.

The first housing section 2 and the second housing section 3 are connected to each other by means of a connecting device 12 in the region of the flange surfaces 7, 8. The connecting device 12 comprises a first connecting band 13 and a second connecting band 14, which at one end are non-detachable by means of a first connecting element 15 and at the other end by means of a releasable second connecting element 16 are connected. The connecting device 12 is in principle similar to one

Pipe clamp connection formed. In other words, to connect the two housing sections 2, 3, a first band 9 and the second collar 10 in the radial and axial directions at least partially comprehensive band-like

Connecting device 12 is provided.

The first connecting band 13 and the second connecting band 14 are

mirror-symmetrical, circular segment-shaped. A first end portion 17 of the first connecting band 13 and a second end portion 18 of the second

Connecting band 14 is angled to a first central portion 19 and second central portion 20 of the first connecting band 13 and the second

Connecting band 14 is formed, wherein the first end portion 17 and the second end portion 18 is radially formed by a positioned between the first connecting band 13 and the second connecting band 14 imaginary center outwardly extending.

The first end portion 17 and the second end portion 18 each have one

Passage opening, which the second connecting element 16, in this

Record embodiment in the form of a through-bolt with a nut.

The first connecting element 15 is in the form of a rectangular plate 21, wherein the plate 21 has three receiving openings penetrating completely in its thickness, a first receiving opening 22, a second receiving opening 23 and a third receiving opening 24. The first receiving opening 22 and the third

Receiving opening 24 are arranged at a first end 25 of the plate 21 and a second end 26 of the plate 21. The second receiving opening 23 is positioned between the first receiving opening 22 and the third receiving opening 24.

The first receiving opening 22 receives a third end portion 27 of the first

Connecting band 13, which is remote from the first end portion 17, on. The third end portion 27 is partially inserted through the first receiving opening 22. A remote from the first central portion 19 arranged end of the third end portion 27 is formed such that the plate 21 is captively received. In the same way, the third receiving opening 24 receives a fourth end region 28. Thus, the plate 21 is captively disposed between the first connecting band 13 and the second connecting band 14 in the form of a chain link. The first collar 9 and the second collar 10 each have a recess 29, that is, they are partially formed on the first housing portion 2 and the second housing portion 3. The recess 29 of the first housing section 2 is positioned next to the recess 29 of the second housing section 3. The recess 29 is designed for at least partially receiving a wedge-shaped securing element 30.

The securing element 30 is wedge-shaped, with its large base 31 is positioned facing the plate. At this large base 31, a rectangular-shaped pin 32 is formed, which is inserted through the second receiving opening 23. For fixing the securing element 30 to the plate 21, a securing ring 33 is designed to encompass the pin 32. The securing ring 33 is formed adapted to an outer cross-sectional contour of the pin 32 and does not necessarily have a round or circular shape. Furthermore, it is preferably configured in the form of a snap ring.

The securing element 30 is received in the recess 29 in a supporting manner with its small base surface 34 facing away from the large base area 31. Due to the wedge shape of the securing element 30 is thus formed between the first collar 9 and the second collar 10 and the connecting device 12 is a non-positive and positive connection.

For simplified assembly, the two connecting bands 13, 14 are first connected to the plate 21 like a chain. The movable receptacle of the plate 21 between the two connecting bands 13, 14 is required. The respective end regions 27, 28 of the connecting bands 13, 14 can also be welded to their associated central portions 19, 20, whereby an eyelet-like shape of the end region 27, 28 is provided pay attention, so that the movable receptacle of the plate 21 is secured.

With the help of the invention, a positive, biased axial retention of the two housing sections is realized. The advantage of the invention is a reduction of a setting behavior of the connecting device, as occurs, for example, when using a conventional V-band clamp. A twisting of the housing sections against each other is prevented by the locking of the tape with the help of

Securing element on the exhaust gas turbocharger 1.

Claims

claims 1. Exhaust gas turbocharger, comprising a first housing portion (2) of the  Exhaust gas turbocharger (1) and a second housing portion (3) of the  Exhaust gas turbocharger (1), wherein the first housing portion (2) has a radially outwardly directed first collar (9) opposite the second housing portion (3) and the second housing portion (3) has a radially outwardly directed second collar opposite the first collar (9) (10), and the first housing section (2) and the second housing section (3) are formed extending axially about the longitudinal axis (11) both radially and along the longitudinal axis (11), and wherein for connecting the two  Housing sections (2, 3) a the first collar (9) and the second collar (10) in the radial and axial direction at least partially comprehensive comprehensive band-shaped connecting device (12) is provided,  characterized in that  the connection device (12) for securing the position has a securing element (30). 2. Exhaust gas turbocharger according to claim 1,  characterized in that  the securing element (30) is designed such that it can form and frictionally engage with the first housing section (2) and / or the second housing section (3). 3. Exhaust gas turbocharger according to claim 1 or 2,  characterized in that  the securing element (30) is designed to engage in the first collar (9). Exhaust gas turbocharger according to one of the preceding claims,  characterized in that  the securing element (30) is designed to engage in the second collar (10). Exhaust gas turbocharger according to one of the preceding claims,  characterized in that  the securing element (30) is wedge-shaped. 6. Exhaust gas turbocharger according to one of the preceding claims,  characterized in that  the fuse element (30) by means of a between a first  Connecting band (13) of the connecting device (12) and a second connecting band (14) of the connecting device (12) positioned chain link (21) on the connecting device (12) is accommodated. 7. Exhaust gas turbocharger according to claim 6,  characterized in that  the securing element (30) is fixed to the chain link (21) by means of a securing ring (33). 8. Exhaust gas turbocharger according to one of the preceding claims,  characterized in that  for positioning the securing element (30) a groove-like recess (29) in the first collar (9) and in the second collar (10) is formed.