DE102007020926A1 - Air intake, for internal combustion motor cylinders, has a tumble flap in a channel section to give a tumble air flow on entering the cylinder - Google Patents

Abstract

The air intake channel (16) has a channel section (20) within a channel body (18), for the cylinders (12) of an internal combustion motor, with a tumble flap (22) on a tangential rotary axis (24) to give a tumble air flow into the cylinders. The tumble flap can close 80-20% of the channel cross section surface according to the channel design.

Description

The The invention relates to an air intake duct, with which a cylinder a Internal combustion engine for a motor vehicle supplied with air can be.

In order to achieve good mixing of the cylinder even in the partial load range of the internal combustion engine, it is known to generate a tumble flow in the cylinder by means of a tumble flap arranged in an air intake duct. For this it is for example off DE 101 63 284 A1 It is known to provide a partition within a channel portion formed by a channel body to produce two different sized sub-channels. With the help of a arranged in the flow direction in front of the partition tumble flap, the channel portion can be partially closed so that only one of the two sub-channels is flowed through with air. The tumble flap can also completely open the channel section and completely close.

adversely in such an air intake duct with cast partition is an increased construction cost, a cross-sectional reduction the inlet duct and intake manifold injection an impairment the spray cone. Next affect positional deviations of the flap strong on the flow behavior.

Out DE 101 40 314 A1 For example, a tumble flap for an air intake channel is known which does not completely close off the channel section but only approximately 80%. This tumble flap is rotatable about an axis of rotation located near a portion of the channel body which faces the tumble flap in the opened state. Here lies the element that should influence the flow, rel. far away from the inlet valve, which would allow for a subsequent calming of the airflow and thus reduce tumbling in the cylinder.

It the object of the invention is an air intake duct for supply a cylinder of an automotive internal combustion engine, at the above disadvantages are eliminated or reduced.

The Solution of the problem is carried out according to the invention by the features of claim 1. Advantageous embodiments of the invention are given in the subclaims.

Of the inventive air intake duct for supply a cylinder of an automotive internal combustion engine having air a channel portion formed by a channel body on, which are connected to the cylinder of the internal combustion engine can. There is a tumble flap provided with their help in the Cylinder a Tumbleströmung can be generated. According to the invention a cross-sectional area of the channel portion of the tumble flap Depending on the channel design, between 80 and 20% can be closed.

Thereby, that closable by the Tumbleklappe cross-sectional area of the channel section is limited to a value below 100% a complete closing of the channel section prevented by the tumble flap. In case of a fault at the operation of the Tumbleklappe is a minimum air supply guaranteed. Particularly preferred for this purpose is the tumble flap arranged as close to the cylinder, that is substantially adjacent to an air intake valve of a cylinder head. The Tumbleklappe is integrated in particular in the cylinder head and does not have to be an additional component between intake manifold and cylinder head are mounted. This can be a distance from the centerline the tumble flap to an air inlet opening of the air intake duct based on a valve diameter of an open and Close the channel section provided poppet valve 0.5-5.0, preferably 1.0-4.0, and more preferably 1.5-3.0 be.

There the tumble flap does not completely close the channel section it is possible for the arrangement of the tumble flap to provide simplified constructions. In particular, it is not Required that the Tumbleklappe is rotatable about an axis of rotation, which cuts a centerline of the canal section. Instead has the Tumbleklappe in particular an axis of rotation, which leads to a essentially in the axial direction of the center line of the Channel section is arranged offset. Here is the rotation axis preferably offset to the bottom side of the recess of the tumble flap, so that the distance of the bottom side of the Tumbleklappe to the Rotary axis reduces and becomes a particularly compact and simple Construction results. Particularly preferably, the axis of rotation extends to Channel section substantially tangential. The axis of rotation is thus arranged substantially at the edge of the channel portion.

The tumble flap is preferably substantially semicircular in cross section. Based on the air flow in the channel section thus no change takes place in the transition region between the Tumbleklappe and the channel body, when the tumble flap is moved from one partial position to another partial position. The transition from one position of Tumbleklappe into another is thus not abrupt, but evenly, so that sudden changes in Luftansaugkanalgeometrie be avoided. Small turbulence flows that the intended Tumble flow disturbing, thereby avoided.

Around in full load operation no unnecessary flow resistance The tumble flap can preferably be opened in the open State substantially completely of the channel body be recorded. For this purpose, the channel body a receiving space have, in which the Tumbleklappe can be accommodated. Of the Recording space is here in particular to the contour of the Tumbleklappe adapted and preferably in cross-section substantially semicircular. A gap between the tumble flap and the channel body is preferably avoided, so that a bypass flow through the receiving space is avoided along the tumble flap along. Especially preferred is between the tumble flap and the channel body in the area of the recording room, a fit chosen allowing the tumble flap to slide in the receiving space. The tumble flap and the channel body can thus form a sliding bearing in the area of the receiving space.

In In a preferred embodiment, the receiving space closed by the Tumbleklappe opposite the channel section become. For this it is possible, for example, that the Tumble flap is rotated substantially 180 °, so that the tumble flap an opening facing the channel body essentially completely fills the recording room. In particular, when the tumble flap semicircular is, in the 180 ° position of Tumbleklappe the channel section be blocked at most. At the same time, a return flow avoided at the back of the tumble flap, so in particular a flow at the back of the tumble flap is prevented in the recording room into it. Disturbing turbulence are avoided.

Preferably corresponds to the Tumbleklappe in the open state of the contour of the canal section. That means the contours correspond to the tumble flap the opened state substantially the contour of the adjacent Regions of the channel body that form the channel section. The Tumbleklappe has characterized in geöff Neten state that is in full load operation, no disturbing influence on the air flow within the channel section.

In a preferred embodiment is the tumble flap formed by a roller, by a resource, such as for example, a servomotor or vacuum box driven can be. The roller is in a partial area in cross section in Essentially circular, being in another Part of the Tumbleklappe is formed. The projection of the circular cross-section closes this case Cross section of the tumble flap completely. The tumble flap can thus from a particular available as a standard component Rod by suitable manufacturing methods, such as milling, Grinding, forging, forming are made. For example may be at a western cylindrical channel section the tumble flap are created by using a drill, which has the same diameter as the channel section, the Contour of the tumble flap is made by placing a rod across and drilled offset to the center line.

Especially Preferably, the tumble flap in the at least partially closed Condition a counter to the flow direction facing formation on, through which the flow can be deflected. The In particular, molding is a depression formed in the roll designed. By this shaping, the flow can be influenced in the channel section such that the training the tumble flow is improved or intensified, in this case, in particular, stagnation points can be reduced. An unnecessary pressure loss is thereby avoided.

The The invention further relates to a cylinder head for an internal combustion engine a motor vehicle having an air intake duct, as above described and can be trained. The cylinder head can in particular directly with a cylinder of the internal combustion engine be connected for example by screws. Especially preferred the cylinder head has another air intake duct, which like can be trained and educated above described. In this Case, it is possible to provide exactly one roller, which the Tumbleklappen the respective air intake duct forms. Thereby can have two or more tumble flaps from a cylinder associated air intake ducts using a single Roller, in particular driven by only exactly one servomotor is to be pressed.

following the invention will be with reference to the accompanying drawings based on a preferred embodiment closer explained. Show it:

1 a schematic sectional view of a cylinder head with an air intake duct according to the invention and a Tumbleklappe in 0 ° position,

2 a schematic sectional view of the cylinder head 1 with a tumble flap in 90 ° position,

3 a schematic sectional view of the Cylinder head off 1 with a tumble flap in 180 ° position,

4 a schematic perspective simplified view of the cylinder head 1 and

5 a schematic sectional view of the cylinder head 1 with an alternative tumble flap in 90 ° position.

The in 1 illustrated cylinder head 10 has a cylinder head 12 on that over an air inlet opening 14 with an air intake duct 16 connected is. The air intake duct 16 has a channel body 18 on, a channel section 20 formed. The air intake duct 16 also has a tumble flap 22 on that in their in 1 0 ° position represented the channel section 20 fully released (full load operation). The tumble flap 22 is about a rotation axis 24 rotatably mounted. The rotation axis 24 is substantially tangential to the channel section 20 ,

The air inlet opening 14 can with the help of an air intake valve 26 be opened and closed. Accordingly, an air outlet opening 28 leading to an air outlet duct 30 leads, with the help of an air outlet valve 32 be opened and closed.

At the in 2 showed 90 ° position of tumble flap 22 becomes substantially 50% of the cross-sectional area of the channel section 20 through the tumble flap 22 blocked. In his in 3 The illustrated 180 ° position also becomes 50% of the cross-sectional area of the channel section 20 through the tumble flap 22 blocked. An exact adjustment angle is for the tumble flap 22 thus not required to the channel section 20 half-sided to block. In the 180 ° position of the tumble flap 22 becomes one in the channel body 18 provided recording room 34 for the tumble flap 22 through the tumble flap 22 closed, allowing a backflow into the receiving space 34 is prevented.

The tumble flap 22 can through a roller 36 be formed in the in 4 illustrated embodiment even two tumble flaps 22 can train at the same time. The two tumble flap 22 are each part of different air intake ducts 16 that have two different air intake valves 26 with the cylinder 12 can be connected.

At the in 5 illustrated embodiment of the Tumbleklappe 22 is in the semicircular area of the tumble flap 22 a depression 38 educated. This training is in the illustrated 90 ° position of Tumbleklappe 22 directed transversely to the flow direction and the flow can at least in 5 lower portion of the channel section 20 due to the substantially quarter-circular configuration of the recess 38 by about 90 °, so that the formation of a Tumbleströmung is enhanced. Also in a position of less than 90 ° of the tumble flap 22 the formation of a Tumbleströmung is improved because in the depression 38 can form a vortex that supports the formation of a tumble flow.

10

cylinder head

12

cylinder

14

Air inlet opening

16

air intake duct

18

channel body

20

channel section

22

tumble flap

24

axis of rotation

26

Air inlet valve

28

air outlet

30

air outlet

32

air release

34

accommodation space

36

roller

38

deepening

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10163284 A1 [0002]
• - DE 10140314 A1 [0004]

Claims (11)

Air intake duct for supplying a cylinder ( 12 ) of an automotive internal combustion engine with air, comprising one through a channel body ( 18 ) formed channel section ( 20 ) for connection to the cylinder ( 12 ) and a tumble flap ( 22 ) for generating a tumble flow in the cylinder ( 12 ), characterized in that a cross-sectional area of the channel section ( 20 ) from the tumble flap ( 22 ) depending on the channel design between 80 and 20% is lockable. Air intake duct according to claim 1, characterized in that the tumble flap ( 22 ) about a rotation axis ( 24 ) which is rotatable with respect to an axially extending center line of the channel section (FIG. 20 ) on the tumble flap ( 22 ) is arranged offset to. Air intake duct according to claim 2, characterized in that the axis of rotation ( 24 ) to the channel section ( 20 ) is substantially tangential. Air intake duct according to one of claims 1 to 3, characterized in that the tumble flap ( 22 ) is formed in the cross section substantially habkreisförmig. Air intake duct according to one of claims 1 to 4, characterized in that the tumble flap ( 22 ) in the opened state substantially completely in one in the channel body ( 18 ) receiving space ( 34 ) is receivable, in particular the receiving space ( 34 ) is formed in the cross section substantially habkreisförmig. Air intake duct according to claim 5, characterized in that the receiving space ( 34 ) from the tumble flap ( 22 ) opposite the channel section ( 20 ) is closable. Air intake duct according to one of claims 1 to 6, characterized in that the tumble flap ( 22 ) in the opened state of the channel section ( 20 ) substantially the contour for forming the channel section ( 20 ) of the adjacent regions of the channel body ( 18 ) corresponds. Air intake duct according to one of claims 1 to 7, characterized in that the tumble flap ( 22 ) by a driven by a servomotor or vacuum can roller ( 36 ) is formed, wherein the roller ( 36 ) is formed in a partial area in cross section substantially circular and the projection of the circular cross section of the cross section of the tumble flap ( 22 ) completely encloses. Air intake duct according to one of claims 1 to 8, characterized in that the tumble flap ( 22 ) in the at least partially closed state, a transverse to the flow direction-facing formation ( 38 ) for deflecting the flow. Cylinder head for an internal combustion engine of a motor vehicle with an air intake duct ( 16 ) according to one of claims 1 to 9. Cylinder head according to claim 10, characterized in that at least one further air intake duct ( 16 ) is provided according to one of claims 1 to 9 and by exactly one roller ( 36 ) the tumble flaps ( 22 ) of the respective air intake duct ( 16 ) are formed.