SUPERCHARGING DEVICE FOR A COMBUSTION ENGINE

Abstract

A supercharging device (20), having: a housing (21) which has a longitudinal axis (L); at least one housing inlet (1) which leads into the housing (21); at least one housing outlet (2) which leads out of the housing (21); at least one compressor wheel (5) which is arranged in a compressor chamber (15) and which is driven by a motor shaft (16) and which is arranged between the housing inlet (1) and the housing outlet (2) of the housing (21) as viewed in the flow direction, and at least one bypass duct (17) which is integrated in the housing (21) and which connects the housing inlet (1) to the housing outlet (2) so as to bypass the compressor chamber (15). The bypass duct (17) has a self-adjusting valve (22). The housing inlet (1) and the housing outlet (2) are formed as an axial inlet and an axial outlet respectively.

Claims

1. A supercharging device (20), having a housing (21) which has a longitudinal axis (L); at least one housing inlet (1) which leads into the housing (21); at least one housing outlet (2) which leads out of the housing (21); at least one compressor wheel (5) which is arranged in a compressor chamber (15) and which is driven by a motor shaft (16) and which is arranged between the housing inlet (1) and the housing outlet (2) of the housing (21) as viewed in the flow direction, and at least one bypass duct (17) which is integrated in the housing (21) and which connects the housing inlet (1) to the housing outlet (2) so as to bypass the compressor chamber (15), the bypass duct (17) having a valve (22), wherein the housing inlet (1) and the housing outlet (2) are formed as an axial inlet and an axial outlet respectively.

2. The supercharging device as claimed in claim 1, wherein the valve (22) has a valve body (8) which is guided movably along the longitudinal axis (L) and which is preloaded into a closed position by a spring (11).

3. The supercharging device as claimed in claim 2, wherein the valve body (8) is arranged on a guide (19) which is part of a compressor housing (18) which is arranged in the housing (21).

4. The supercharging device as claimed in claim 2, wherein the valve body (8) has a first seal (13) which, in the closed position of the bypass duct (17), bears against an inner wall surface region (23) of the housing (21).

5. The supercharging device as claimed in claim 3, wherein a second seal (12) is provided which is arranged on the guide (19) and which bears against an inner wall (24) of a guide recess (25) of the valve body (8).

6. The supercharging device as claimed in claim 2, wherein the valve body (8) is arranged, by way of a fin arrangement (9A to 9D) running in a radial direction (R), on a foot part (10) of the valve (22).

7. The supercharging device as claimed in claim 1, wherein a guide pin (7) is provided which is fixed to the compressor housing (18) by way of a further fin arrangement (6A to 6D).

8. The supercharging device as claimed in claim 6, wherein the foot part (10) is guided in slidingly movable fashion on the guide pin (7).

9. The supercharging device as claimed in claim 8, wherein the foot part (10) is guided on the guide pin (7) by way of a bushing (14).

10. The supercharging device as claimed in claim 1, wherein the compressor wheel (5) is connected in terms of drive via the motor shaft (16) to an electric motor.

11. The supercharging device as claimed in claim 1, wherein the valve (22) is a self-adjusting valve.

12. The supercharging device as claimed in claim 1, wherein the valve (22) is an active valve.

Description

[0009] Further details, advantages and features of the present invention become apparent from the following description of an embodiment with reference to the drawing, in which:

[0010] FIG. 1 shows a longitudinal section through a supercharging device according to the invention,

[0011] FIG. 2 shows a sectional illustration of the supercharging device along the line A-A in FIG. 1,

[0012] FIG. 3 shows a sectional illustration of the supercharging device along the line B-B in FIG. 1, and

[0013] FIG. 4 shows a schematic illustration of a combustion engine equipped with a supercharging device.

[0014] FIG. 1 shows a longitudinal section through a supercharging device 20 according to the invention, wherein the illustration shows only the half of the supercharging device 20 arranged above the longitudinal central line L.

[0015] The supercharging device 20 has a housing 21 which comprises a housing inlet 1 and a housing outlet 2. In the housing 21 there is arranged a compressor housing 18 in which a compressor chamber 15 is provided, in which compressor chamber a compressor wheel 5 is arranged. As shown in FIG. 1, the compressor wheel 5 is arranged between the housing inlet or air inlet 1 and the housing outlet or air outlet 2 as viewed in the flow direction.

[0016] The compressor wheel 5 is fastened to a motor shaft 16 of an electric motor 4, which may be equipped with a power source (not illustrated in FIG. 1) and a suitable control device (likewise not illustrated in FIG. 1).

[0017] As indicated in FIG. 1, the housing 21 is formed out of the housing inlet 1 and the housing outlet 2, which are both of tubular form. The shape of said two components can be adapted to the respective usage and installation situation. This likewise applies to the inner contour of the housing 21, which is additionally influenced by the outer contour of the compressor housing 18 and of a valve 22 which will be described in detail below.

[0018] The inner system formed from the compressor housing 18 and the component installed therein is guided in the housing 21 by way of a set of radial fins 3, which may be of streamlined form and which may moreover perform the function of a diffuser.

[0019] As FIG. 1 also shows, the housing inlet 1 and the housing outlet 2 are each formed as an axial inlet, which means that the inlet surface EF of the housing inlet 1 is oriented at least substantially at a right angle with respect to the longitudinal axis or longitudinal central line of the housing 21. In the ideal situation, the value of the angle is exactly 90.

[0020] Accordingly, the outlet surface AF of the housing outlet 2 is oriented at an angle with respect to the longitudinal axis L, said angle likewise being at least substantially a right angle and, in the ideal situation, exactly a right angle.

[0021] The valve 22 serves for opening and closing a bypass duct 17 that is integrated in the housing 21. As shown in FIG. 1, the bypass duct 17 is connected to the housing inlet or inlet duct 1 and to the housing outlet or outlet duct 2 so as to bypass the compressor chamber 15. As shown in FIG. 1, the geometry of the bypass duct 17 is dependent on the inner and outer contours of the housing 21 and of the valve 22 and also of the compressor housing 18, and can be adapted to the respective usage and installation situation.

[0022] The valve 22 has a valve body 8 which is guided movably along the longitudinal axis L and which is preloaded by a spring 11 into the closed position shown in FIG. 1, in which the bypass duct 17 is closed.

[0023] For this purpose, the valve body 8 is arranged on a guide 19 which is an axially projecting region, or a region which projects in the longitudinal direction L, of the compressor housing 18.

[0024] The valve body 8 has a first seal 13 which, in the closed position illustrated in FIG. 1, serves for sealing off the bypass duct 17 and, for this purpose, bears against an inner wall surface region 23 of the housing 21.

[0025] Furthermore, a second seal 12 is provided which is arranged on the guide 19 and which bears against an inner wall 24 of a guide recess 25 of the valve body 8.

[0026] As can be seen from a juxtaposition of FIGS. 1 and 2, the valve body 8 is guided on a foot part 10 by way of a first fin arrangement 9A, 9B, 9C, 9D extending in a radial direction R. The foot part 10 is in turn mounted, preferably by way of a bushing or plain bearing bushing 14, on a guide pin 7 which can also be seen in FIG. 3 and which, together with a second fin arrangement 6A to 6D extending in the radial direction R, forms a holding means which fixes the compressor housing 18 in the housing 21.

[0027] The fins 6A to 6D may be in the form of vanes which are either formed integrally with, or fixed to, the compressor housing 18. The vanes 6A to 6D may be designed so as to generate or reduce turbulence in a fluid flow to the compressor wheel 5.

[0028] The foot 10 of the valve 22 is arranged in slidingly movable fashion on the guide pin, wherein the plain bearing bushing 14 serves for reducing friction. One or more ducts may be provided radially or axially in the region between the pin 7 and the foot 10 in order to be able to compensate pressure fluctuations in the corresponding volume. The spring 11 acts between the foot 10 and the holding means 6, 7 and closes the valve 22, as shown in FIG. 1.

[0029] Arranged on the foot 10 is the second vane arrangement 9A to 9D, which holds the valve body 8. The characteristics of the valve 22 with regard to pressure losses and flow splitting behavior can be influenced by means of the shape of said valve body 8.

[0030] The seals 12 and 13 may preferably be in the form of O-rings and, aside from the positions shown in FIG. 1, may also be provided at other suitable locations depending on design and usage situation. The seals are designed to withstand pressure differences between the pressure and suction sides of the compressor 4, 5, 16 during the operation thereof.

[0031] FIG. 4 is a schematically highly simplified illustration of a combustion engine 31, for example in the form of an internal combustion engine (diesel or Otto-cycle engine). The combustion engine 31 has an intake line 33 in which the compressor, with its motor 4, the motor shaft 16 and the compressor wheel 5, is arranged as illustrated in FIG. 1. A charge-air cooler 34, followed by a throttle 35, may be arranged downstream of the compressor in the intake line 33 in which the supercharging device 20 may be arranged. The compressed air, which is symbolized by the arrow CA, from the compressor is supplied to an intake manifold 32, and the cylinders of the combustion engine 31 are supplied with the compressed air from said intake manifold.

[0032] The exhaust gas EG is supplied to an exhaust line 27 via an exhaust manifold 26.

[0033] In the preferred embodiment which is illustrated in FIG. 4, the internal combustion engine 31 is also provided with an exhaust-gas recirculation line 28 in which an exhaust-gas cooler 29 and a valve 30 are arranged. However, said exhaust-gas recirculation line 28, together with its components 29 and 30, is not mandatory, but rather constitutes merely a particularly preferred embodiment.

[0034] As has already been explained in the introduction, the supercharging device 20 is furthermore particularly suitable for a two-stage engine supercharging arrangement with a high-pressure stage formed by an exhaust-gas turbocharger and a low-pressure stage formed by a further exhaust-gas turbocharger. In addition to the above written disclosure of the invention, reference is hereby explicitly made, for supplementary disclosure thereof, to the diagrammatic illustration of the invention in FIGS. 1 to 4.

LIST OF REFERENCE SYMBOLS

[0035] 1 Housing inlet/housing inlet line [0036] 2 Housing outlet/housing outlet line [0037] 3 Radial fins [0038] 4 Electric motor [0039] 5 Compressor wheel [0040] 6,7 Holding means (6A to 6D fins; 7: pin) [0041] 8 Movable valve body [0042] 9A to 9D Vanes [0043] 10 Valve foot [0044] 11 Spring [0045] 12 Seal/O-ring [0046] 13 Seal/O-ring [0047] 14 Bushing/plain bearing bushing [0048] 15 Compressor chamber [0049] 16 Shaft [0050] 17 Bypass duct [0051] 18 Compressor housing [0052] 19 Guide [0053] 20 Supercharging device [0054] 21 Housing [0055] 22 Valve/shut-off element [0056] 23 Inner wall surface region [0057] 24 Inner wall [0058] 25 Guide recess [0059] 26 Exhaust manifold [0060] 27 Exhaust line [0061] 28 Exhaust-gas recirculation line [0062] 29 Exhaust-gas cooler [0063] 30 Valve [0064] 31 Combustion engine [0065] 32 Intake manifold [0066] 33 Intake line [0067] 34 Charge-air cooler [0068] 35 Throttle [0069] , Angles [0070] CA Compressed air [0071] EG Exhaust gas [0072] L Longitudinal axis/longitudinal central line