DE102016118463A1 - Channel system for an internal combustion engine - Google Patents

Abstract

The present invention relates to a duct system (10) for an internal combustion engine with a mixing housing (14) and a blow-by channel (18), which is connected to the venting of a crankcase of the internal combustion engine with the crankcase and in the mixing housing (14) opens. The duct system additionally comprises a fresh air duct (22), which opens into the mixing housing (14) via which fresh air can be supplied, an exhaust gas recirculation duct (26) which opens into the mixing housing (14), via which an exhaust gas stream can be fed, and an intake duct (30), via which a mixed flow is discharged, wherein the fresh air duct (22) and the blow-by channel (18) open into the mixing housing (14) in parallel.

Description

The present invention relates to a duct system for an internal combustion engine with a mixing housing, a blow-by channel, which is connected to the venting of a crankcase of the internal combustion engine with the crankcase and opens into the mixing housing, and a fresh air duct, which opens into the mixing housing, over the fresh air can be fed. The duct system further comprises an exhaust gas recirculation channel, which opens into the mixing housing, via which an exhaust gas stream can be fed and an intake duct, via which a mixed stream can be discharged.

Such duct systems are known from the prior art and are used in an internal combustion engine for the return of exhaust gases to the internal combustion engine. In addition, such duct systems can be used simultaneously to return blow-by gases, which arise when venting the crankcase to the internal combustion engine.

Channel systems are known from the prior art, in which a blow-by channel and an exhaust gas recirculation channel open into the mixing housing in an air flow between a fresh air duct mouth and a Ansaugkanalmündung. In the mixing housing, the fresh air, the gas of the blow-by channel and the recirculated exhaust gas are mixed and fed to the intake passage.

The US 5,611,204 discloses a duct system in which the venturi effect is utilized to supply either recirculated exhaust gas or blow-by gas to the fresh air stream.

From the DE 10 2008 043 821 A1 a channel system is known in which a blow-by channel opens into a fresh air channel.

The DE 10 2014 114 968 A1 discloses a duct system in which a control body is provided, which has a first flap for closing a fresh air outlet and a second flap for closing an exhaust gas recirculation orifice. The control body regulates a fresh air flow as a function of an exhaust gas flow. The mixture of fresh air and recirculated exhaust gas is then passed in the duct system to an intake passage.

In prior art duct systems, there is the problem that the flow in the duct system results in flow noise at the blow-by duct.

The object of the present invention is therefore to provide a duct system for an internal combustion engine, in which there is less noise.

This object is achieved by a channel system for an internal combustion engine with the features of claim 1.

In the channel system according to the invention, the fresh air channel and the blow-by channel opens into the mixing housing in parallel. The channel central axes of the fresh air channel and the blow-by channel are thus parallel to each other at least in the region of the mouths in the mixing housing. As a result, the flow of both channels introduced into the mixing housing is also essentially parallel to one another. This avoids that the fresh air flows over the mouth of the blow-by channel. The resulting noise in the overflow are thus also avoided. Thereby, the noise in the channel system can be reduced.

In a preferred embodiment of the invention, a control body is rotatably arranged in the mixing housing, which regulates a flow of the exhaust gas recirculation passage and the fresh air passage depending on each other. As a result, depending on the load state of the internal combustion engine, the proportion of fresh air and the proportion of the recirculated exhaust gas can be regulated depending on each other. This makes it possible to regulate the recirculated exhaust gas amount such that an optimum between maximum power and maximum pollutant reduction is achieved.

In a further preferred embodiment of the invention, a control body is rotatably arranged in the mixing housing, which regulates a flow of the fresh air channel, the blow-by channel and the exhaust gas recirculation channel depending on each other. As a result, depending on the load state of the internal combustion engine, the proportion of fresh air, the proportion of recirculated exhaust gas and the proportion of the blow-by gas can be regulated depending on each other. This makes it possible to regulate the recirculated exhaust gas amount such that an optimum between maximum power and maximum pollutant reduction is achieved. In addition, it can be avoided that there is a supersaturation of blow-by gas in the gas mixture.

Preferably, a blow-by channel outlet cross-section and a fresh air duct outlet cross-section are arranged in a plane. The plane can have any angle to the central channel axes. This avoids that there is an overflow of the blow-by channel mouth. Preferably, the plane is arranged to the channel centerlines hired to improve the controllability.

In a preferred embodiment of the invention, the control body is mounted eccentrically on a shaft. As a result, an arrangement is possible in which the shaft is arranged outside a flow cross-section of the exhaust gas recirculation channel. In contrast to an example Butterfly valve with such a control body a pressure loss minimizing control of two channels is possible.

Preferably, the control body is a flap. A flap is an easy way to regulate the flow of the exhaust gas recirculation channel and the fresh air channel depending on each other.

Advantageously, the control body on a first flap, which controls the fresh air passage and the blow-by channel, and a second flap, which regulates the exhaust passage, and which is connected to the first flap on. Due to the design with two flaps, the arrangement of the shaft to the valve seat can be done with significantly less accurate tolerance.

The shaft is preferably arranged outside of a Hauptdurchströmquerschnitts the fresh air passage and the exhaust gas recirculation passage. The shaft is thus not in the flow of the mixed stream in the mixing housing in the direction of the intake passage. As a result, the flow is not disturbed by the shaft, resulting in a low flow resistance, which means that larger amounts of mixed stream can be discharged to the intake passage and thus to the internal combustion engine.

In a particularly advantageous embodiment, the fresh air duct and the blow-by duct are integrated in a one-piece connection housing. The connection housing is a separate part which can be fastened to the mixing housing. Thus, only a single component is necessary for the blow-by channel and the fresh air channel, so that the number of parts is reduced and the assembly time is reduced. As a result, the channel system can be made more economical.

In a further preferred embodiment, the mixing housing is connected directly to the connection housing via a flange surface. The connection housing can be easily connected to the mixing housing, so that the channel system is even more economical to produce.

Preferably, the mixing housing has three flange surfaces. At the flange surfaces which open into the mixing housing channels and emerging from the mixing housing intake are connected, wherein for the blow-by channel together with the fresh air duct only a flange is provided. The channels can be connected via the flange easily with the mixing housing, so that the channel system is more economical to produce.

Advantageously, the mixing housing is formed integrally with an actuator housing, in which an actuator is arranged, via which the shaft of the control body is actuated. This reduces the number of parts and reduces assembly costs. The channel system can be made more economical.

There is thus provided a duct system for an internal combustion engine, in which by avoiding an overflow of the blow-by channel, the noise is minimized and the efficiency of the blow-by channel is increased.

Further details and advantages of the present invention will become apparent from the following description of the embodiment in conjunction with the drawings. In these show:

1 : Perspective view of an embodiment of a channel system according to the invention,

2 : Side view of the vertically cut channel system after 1 , and

3 : Perspective view of the vertically cut channel system after 1 ,

The 1 shows a perspective view of a channel system according to the invention 10 for an internal combustion engine. The channel system 10 has a mixing housing 14 in which a blow-by channel 18 , a fresh air channel 22 , via which fresh air can be supplied and an exhaust gas recirculation channel 26 , which returns exhaust gas to the internal combustion engine, lead. For venting a crankcase of the internal combustion engine connects the blow-by channel 18 the crankcase with the mixing housing 14 , One in the mixing housing 14 formed mixed flow of blow-by gas, fresh air and recirculated exhaust gas is via a with the mixing housing 14 connected intake duct 30 dischargeable.

The mixing housing 14 forms a flange surface 34 out, on which a one-piece connection housing 38 about screws 42 (a screw 42 exemplified) can be attached. At the connection housing 38 are a blow-by connector 46 and a fresh air connection pipe 50 arranged, which is part of the blow-by channel 18 or the fresh air channel 22 form. Blow-by connection 46 and fresh air connection pipe 50 are on the connection housing 38 arranged substantially at right angles to each other.

2 shows a side view of the vertically cut channel system 10 , This figure shows that the blow-by channel 18 kinks by about 90 °, leaving the blow-by channel 18 and the fresh air duct 22 , which are substantially perpendicular to each other in the connection housing 38 are integrated, parallel in the mixing housing 14 lead. A blow-by channel central axis 51 is thus in the range of a blow-by channel mouth 52 parallel to a Frischluftkanalmittelachse 53 arranged. At a free end of a fresh air duct mouth 54 and at a free end of the blow-by channel mouth 52 is a blow-by channel outlet cross-section 55 or a fresh air duct outlet cross section 56 arranged. The blow-by channel outlet cross-section 55 and the fresh air duct outlet cross section 56 are additionally in one level 58 arranged, creating an overflow of blow-by channel mouth 52 is avoided by a fresh air flow.

In the mixing housing 14 is one as a rule body 66 provided first flap 70 arranged the flow from the blow-by channel 18 and the fresh air duct 22 regulates. The first flap 70 is formed in the shape of a tongue (see 3 ), with which the blow-by channel mouth 52 or the fresh air duct mouth 54 to close or open. In the area of blow-by channel mouth 52 shows the first flap 70 a smaller width B, as in the area of the fresh air duct mouth 54 , In the 2 shown first flap 70 is shown in a middle position, at which the blow-by channel mouth 52 or the fresh air duct mouth 54 not completely open or closed. The rule body 66 also has a second flap 78 on which the opening cross-section of the exhaust gas recirculation channel 26 regulates and at the first flap 70 over a spacer 82 is attached.

The first flap 70 is eccentric on a wave 86 attached, over which the first flap 70 along with the second flap 78 rotatably in the mixing housing 14 are arranged. The wave 86 is outside a Hauptdurchströmquerschnitts the fresh air channel 22 and the exhaust gas recirculation passage 26 arranged so that the flow through the shaft 86 not disturbed.

In the described channel system according to the invention, an overflow of the blow-by channel mouth is avoided, so that no noise that would arise in an overflow. The noise of the channel system is thereby significantly reduced and improves the efficiency of the blow-by introduction.

It should be clear that the scope of protection is not limited to the described channel system, but various modifications and design changes are conceivable. For example, a configuration is conceivable in which the blow-by channel and the fresh air duct are guided in parallel in the connection housing, so that a kinking of the blow-by channel is not necessary. Also, various embodiments for the first and the second flap are conceivable.

LIST OF REFERENCE NUMBERS

10

channel system

14

mixed housing

18

Blow-by channel

22

Fresh air duct

26

Exhaust gas recirculation passage

30

intake port

34

flange

38

connection housing

42

screw

46

Blow-by connection

50

Fresh air connection

51

Blow-by channel central axis

52

Blow-by channel mouth

53

Fresh air duct central axis

54

Fresh air duct opening

55

Blow-by channel outlet cross-section

56

Fresh air duct outlet cross section

58

level

66

control body

70

first flap

78

second flap

82

spacer

86

wave

B

width

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

• US 5611204 [0004]
• DE 102008043821 A1 [0005]
• DE 102014114968 A1 [0006]

Claims (12)

Channel system ( 10 ) for an internal combustion engine with: - a mixing housing ( 14 ), - a blow-by channel ( 18 ), which is connected to the venting of a crankcase of the internal combustion engine with the crankcase and into the mixing housing ( 14 ), - a fresh air channel ( 22 ), which enters the mixing housing ( 14 ) opens, via the fresh air can be supplied, - an exhaust gas recirculation channel ( 26 ), which enters the mixing housing ( 14 ), via which an exhaust gas stream can be supplied, - an intake channel ( 30 ), via which a mixed stream is discharged, characterized in that the fresh air channel ( 22 ) and the blow-by channel ( 18 ) parallel in the mixing housing ( 14 ). Channel system ( 10 ) according to claim 1, characterized in that in the mixing housing ( 14 ) a rule body ( 66 ) is rotatably arranged, which a flow of the exhaust gas recirculation channel ( 26 ) and the fresh air channel ( 22 ) depends on each other. Channel system ( 10 ) according to claim 1, characterized in that in the mixing housing ( 14 ) a rule body ( 66 ) is rotatably arranged, which a flow of the fresh air channel ( 22 ), the blow-by channel ( 18 ) and the exhaust gas recirculation channel ( 26 ) depends on each other. Channel system ( 10 ) according to one of the preceding claims, characterized in that a blow-by channel outlet cross-section ( 54 ) and a fresh air duct outlet cross section ( 56 ) in one level ( 58 ) are arranged. Channel system ( 10 ) according to any one of claims 2-4, characterized in that the control body ( 66 ) eccentrically on a shaft ( 86 ) is attached. Channel system ( 10 ) according to any one of claims 2-5, characterized in that the control body ( 66 ) a flap ( 70 ). Channel system ( 10 ) according to claim 6, characterized in that the control body ( 66 ) a first flap ( 70 ), the fresh air channel and the blow-by channel ( 18 ), and a second flap ( 78 ), which the exhaust gas recirculation channel ( 26 ) and with the first flap ( 70 ) is connected. Channel system ( 10 ) according to any one of claims 5-7, characterized in that the shaft ( 86 ) outside a Hauptdurchströmquerschnitts the fresh air channel ( 22 ) and the exhaust gas recirculation channel ( 26 ) is arranged. Channel system ( 10 ) according to one of the preceding claims, characterized in that the fresh air channel ( 22 ) and the blow-by channel ( 18 ) in a one-piece connection housing ( 38 ) are integrated. Channel system ( 10 ) according to one of the preceding claims, characterized in that the mixing housing ( 14 ) directly via a flange surface ( 34 ) with the connection housing ( 38 ) connected is. Channel system ( 10 ) according to claim 10, characterized in that the mixing housing ( 14 ) three flange surfaces ( 34 ) having. Channel system ( 10 ) according to one of the preceding claims, characterized in that the mixing housing ( 14 ) is integrally formed with an actuator housing, in which an actuator is arranged, via which the shaft ( 86 ) of the rule body ( 66 ) is operable.

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