EP1375895A2 - Apparatus for mixture formation in the intake system of internal combustion engines - Google Patents

Abstract

The tract (1) consists of intake line branches (2) corresponding to the number of cylinders in the internal combustion engine. A fuel distributor (8) supplies fuel to the corresponding injector. The injector and its mounting locations, the supply components and their contacting elements are integrated into a cover element to be joined to a lower shell-shaped intake manifold section (5).

Description

Technical field

Injection takes place in internal combustion engines used in motor vehicles from fuel to fuel injectors or fuel injectors in the cylinder head area the internal combustion engine are arranged. On the cylinder head of the internal combustion engine are usually also the fuel supply lines or the fuel distributors, through which the fuel is supplied.

State of the art

In multi-cylinder internal combustion engines, this branches a throttle device receiving intake manifold downstream of the throttle valve in several line branches in the area the inlet side of the internal combustion engine to be connected to this. The Number of line branches corresponds to the number with a fuel / air mixture cylinders to be supplied to the internal combustion engine. In fuel injection systems according to the single injection principle, before the intake valves of the internal combustion engine Injectors arranged through which the fuel in the intake manifold assigned to the intake manifold each associated injection valves becomes. For this purpose, the injection valves provided in accordance with the number of cylinders supplied with fuel via a fuel distributor, which is both from a Plastic material as well as metallic material can be made.

The fuel rail usually include a large number of individual components, some of which are also already pre-assembled as functional groups. As individual components are in particular manifold, fuel injector assemblies, retaining clips and sub-harnesses to control the individual injectors.

The intake line branches assigned to the individual combustion chambers of the internal combustion engine the suction pipe can be made of plastic in a shell construction. The plastic material used can be glass fiber reinforced. Upper and lower shells of intake manifolds can be welded along a joint, the injectors or the complete fuel rail is installed in the intake manifold shell. The electrical control of the injection valves takes place via a partial wiring harness on Fuel distributor, which in turn connects to the main wiring harness of the internal combustion engine must be connected. Expose external influences such as heat, engine washes, etc. not only the sub-wiring harness, but also the remaining parts of the fuel rail to a not inconsiderable degree.

Presentation of the invention

The advantages of shell construction can be achieved with the solution proposed according to the invention use in the manufacture of an intake manifold section by the upper shell of the Intake pipe, for example in one-piece in 4-cylinder internal combustion engines is injected, is modified such that both the fuel rail (gasoline supply) as well as the injectors in an injected geometry provided for this purpose can be. An electrical contact rail made as a single part can be placed in the geometry provided for after the injection valves have been installed and with the suction tube shell geometry on the way of friction welding be cohesively connected. This prefabricated, containing the suction tube shell Functional group, can be checked after leakage test and electrical continuity test Suction pipe lower shell are placed and with this along a parting line on the Paths of the vibration welding process can be added.

Through vibration welding of the intake manifold shell and intake manifold lower shell the complete intake manifold, on which an intake manifold flange can be formed, joined. The injection valve mounted in the intake manifold shell is slightly upright with its front Section, on which a sealing ring can be received, from the assembled intake manifold out. When installing the vibration-welded intake manifold on the cylinder head an internal combustion engine, the lower end of an injection valve with with the O-ring attached to it pushed into the cylinder head, on which the Suction tube can be screwed over flange holes. Inside the cylinder head further channels, which are connected to the injection valve receptacles and the combustion air supply connect, unite in front of the intake valves of the combustion chambers of the Internal combustion engine and bring together the combustion air / fuel mixture.

This advantageously allows the assembly of a functional group that is faulty Contains components to avoid on the internal combustion engine. Furthermore, on Cover element with integrated fuel distributor and integrated injection valves Partial cable harnesses previously used can be replaced by a contact rail. With a The injection valve can be placed in the cover element in the area of the contact rail Mount the receptacles, control the electrical contact to the outside, d. H. can be encapsulated towards the internal combustion engine.

The solution proposed according to the invention encapsulates the electrical Contact points within the contact rail. The previous individual components, be it clips, be it partial wiring harnesses for connecting or controlling the Fuel distributor with the intake tract are proposed by the invention Integration into the cover element manufactured as an injection molding component is unnecessary, furthermore can use the previously used retaining clips and - as already mentioned above - the partial wiring harnesses omitted. Are z. B. the suction pipes with the corresponding suction pipe branches - Corresponding in the number of cylinders of the internal combustion engine Number formed - manufactured as an injection molded component, the cover elements, d. H. the Upper shells for all intake pipe lower shells can be injection molded as one piece. This one piece trained cover element, which has a number of suction tube sections formed as lower shells covers, along a parting plane with the lower shell of the Dekkelelenientes suction pipe sections forming are welded in the intake tract.

drawing

The invention is described in more detail below with reference to the drawing.

Figur 1

Einen Kraftstoffverteiler für eine Verbrennungskraftmaschine gemäß einer Ausführung nach dem Stande der Technik,

Figur 2

die perspektivische Ansicht eines Deckelelementes mit integriertem Kraftstoffzuleiter, Kraftstoffverteiler, Kraftstoffzulauf und Kontaktschiene und

Figur 3

eine Schnittdarstellung durch das Deckelelement gemäß Figur 1 im Bereich einer Aufnahme für ein Einspritzventil und geschnitten dargestellten Saugrohrabschnitt.

It shows:

Figure 1

A fuel distributor for an internal combustion engine according to an embodiment according to the prior art,

Figure 2

the perspective view of a cover element with an integrated fuel feeder, fuel distributor, fuel inlet and contact rail and

Figure 3

2 shows a sectional view through the cover element according to FIG. 1 in the area of a receptacle for an injection valve and a section of the intake manifold shown in section.

variants

FIG. 1 shows a fuel distributor for an internal combustion engine according to an embodiment which is in accordance with the prior art.

The illustration according to FIG. 1 shows a fuel distributor on which - in If it is used on a 4-cylinder internal combustion engine - from a distributor pipe c branch four injectors a. By means of the injection valve a, the fuel injected into the inlet channels of the combustion chambers of the internal combustion engine, whereby this mixes with the combustion air brought in there and by open Intake valves get into the combustion chamber of the internal combustion engine. The individual injectors a are by means of retaining clips e on holding bodies which on Distribution pipe c are formed, attached. Each of the injectors a is over by one Sub-wiring harness d controlled control lines controlled. The individual control lines for the injection valves a run more or less unprotected outside the Manifold and are temperature fluctuations, weather influences and engine washes exposed almost immediately. A connector f is attached to the partial wiring harness d, with which the partial wiring harness that contains the control lines for the injection valves a is connected to the main wiring harness of the internal combustion engine. The Fuel feed, via which fuel into the plastic manifold c arrives, is identified by reference symbol b. In the lower area of the distributor pipe are molded injection elements, by means of which the distributor pipe c in the cylinder head area an internal combustion engine can be screwed. The one shown in Figure 1 Fuel rail includes a variety of items that can be preassembled Function group can be mounted and then on the cylinder head area Internal combustion engine are screwed.

FIG. 2 is the perspective view of a cover element with integrated fuel distribution Remove fuel supply and contact rail.

An intake tract 1 of an internal combustion engine comprises one of the number of cylinders the number of intake line branches corresponding to the internal combustion engine 2. The individual Intake line branches 2 can each comprise a mounting flange 3, which is a or comprises several bores 4, with which the mounting flange 3 on the inlet side an internal combustion engine, not shown in Figure 2 is attached. The single ones, the intake duct branches 2 representing the intake tract 1 can be used both as plastic components be made, they can also be manufactured as aluminum die-cast parts. In the case of use of intake line branches 2 on a 4-cylinder internal combustion engine The intake tract 1 comprises four individual intake line branches 2, each of the intake side of one of the four cylinders of the internal combustion engine assigned. In the case of use on a 6- 8 or 10 or even 12-cylinder internal combustion engine are the suction line branches 2 - according to the arrangement the cylinder banks - in the area of the inlet areas of the combustion chambers on the combustion air machine arranged. For the sake of clarity is in the illustration 2 shows only one of the suction lines 2 shown in more detail. The intake manifold 2 comprises a suction tube section 5 which is designed in the form of a lower shell and which by a cover element 6 with further integrated elements described below Function groups is provided. The cover element 6 and the lower shell-shaped formed suction pipe section 5 are welded together in the region of a parting line 17 and sealed together.

The cover element 6 made of plastic material as an injection molded component comprises one molded rib structure 7, which as shown in Figure 1 as a receptacle for a tubular fuel distributor 8 is used. The fuel distributor 8 in turn is procured and comprises an injection component integrated in the cover element 6 a closure element 11 and a fuel inlet 12 which on the lateral surface 10 of the Fuel distributor 8 is injected. The fuel rail 8 extends essentially parallel to the longitudinal axis of the multi-cylinder, not shown in Figure 1. Internal combustion engine. The outer surface 10 of the fuel rail 8 encloses a cavity that extends over the fuel inlet 12 on the outside of the fuel rail 8 is filled with fuel. Parallel to the longitudinal axis 9 of the fuel rail 8 extends a contact rail 13 which comprises a central plug 14. Not in Figure 2 shown, 13 individual contact strips run inside the contact rail (cf. Representation according to Figure 2, there positions 38, 39 40). The individual, not shown in Figure 2 Contact strips are controlled via contact tabs 15 of the central plug 14. The contact strips integrated into the interior of the contact rail 13 (see illustration according to Figure 2) control the individual, each associated with the intake manifold branches 2 Injector assemblies, which are marked with the reference number 18 in FIG Mounting positions are integrated in the cover element 6.

In addition to the assembly positions designated with reference number 18 for preassembled injection modules the cover element 6 comprises cover sections 16 which are contiguous Structure are formed. The individual cover sections 16 extend below the contact rail 13 and below the tubular fuel rail 8 made of plastic material. Cover the cover sections 16 of the cover element 6 others, according to the number of those to be supplied with a fuel / air mixture Combustion chambers provided under-shell-shaped intake manifold sections 5, but in the Representation according to Figure 2 are not reproduced. On the outer wall 19 of the fuel rail 8 can also open several fuel supply lines 12, depending on the length and the dependent, receivable fuel volume.

The illustration according to FIG. 3 is a section through the cover element according to the illustration in Figure 2 in the area of a receptacle for an injection valve assembly and a section of the intake manifold shown.

3 shows that the intake line branch 2 consists of one intake pipe section 5 configured in the form of a lower shell and a plastic injection molded part 6 formed cover section 16 is formed. The lid portion 16 of the Cover element 6 is configured with intake pipe section 5 configured as a lower shell welded along a parting line identified by reference number 17. Are the lower shell-shaped configured intake manifold section 5 and the cover section 16 of the cover element 6 manufactured as plastic injection molded parts, the components 5 can be joined or 6 by welding along the parting line 17, for which purpose only it is necessary to heat the plastic material in the area of the parting line.

As can further be seen from the illustration in FIG. 3, the tube is tubular configured fuel distributor 8 directly into the cover element 6 with molded Lid section 16 integrated. For this purpose, there is a fuel rail on the cover element 6 8 molded, which runs along its here perpendicular to the plane of the drawing Longitudinal axis 9 extends parallel to the internal combustion engine. The cavity 20 of the Tubularly configured fuel rail 8 is delimited by an inner wall 21. The outer wall of the fuel distributor 8 is designated by reference number 19. The material thickness of the wall of the fuel rail 8 is over a large part of the Extent of the fuel rail 8 identical, apart from the material thickness in Area of an opening 26 or a support for the one already mentioned in FIG Contact rail 13.

The cavity 20 enclosed by the fuel rail 8 can be seen in FIG. 2 Fuel inlet 12 filled with fuel. The fuel comes through openings 26 along the longitudinal extent of the fuel rail 8 parallel to the longitudinal axis 9 are provided, in individual, according to the spacing of the combustion chambers, d. H. the Cylinder of the internal combustion engine, regardless of their ignition principle, mounted Injector assemblies 23.

The openings 26 serve on the one hand to supply the individual elements integrated in the cover element 6 Injectors 23 with fuel; on the other hand, the openings 26 serve as one first receiving point 22 for the injection valve assemblies integrated in the cover element 6 23rd

The individual pre-assembled injection valve assemblies 23 comprise a sleeve configured body 29 which surrounds the injection valve 23. The the injector 23 surrounding, sleeve-shaped body 29 encloses the valve body of the injection valve 23 and includes a bead-like facing the valve opening 37 of the injection valve 23 Thickening. Between the thickening and the other, the valve body of the injection valve 23 surrounding portion of the sleeve 29, a circumferential groove 42 is formed, in which an annular sealing element 36 made of elastic material is embedded. About that In addition, the sleeve 29 surrounding the valve body of the injection valve 23 comprises a locking cam 43. The sleeve receiving the valve body of the injection valve 23 29 forms with its outside a contact area 30 of the pre-assembled injection valve assembly 23 within a second receiving point designated by reference numeral 28 for the injection valve 23 in the cover element 6.

In the area of the second pick-up point 28 for the preassembled injection assembly 23 there is a holding part 44. The holding part 44 contains a second collar surface 32 on which a locking cam 43 formed on the sleeve 29 is positionally accurate the injector assembly 23 is present. In addition, the holding part 44 comprises a first one Collar surface 31, against which an annular end face of the sleeve 29 abuts. A support surface 45 is provided on the holding part 44, on which the cross-section in FIG. 2 shown contact rail 13 rests.

To control the individual injection modules 23 integrated in the cover element 6 serves the contact rail 13. The contact rail 13 is on the one hand on the already mentioned Support surface 45 on the holding part 44 and on the other hand on one as a support surface serving area of the injection molded manifold 8. The cross section of the contact rail 13 as shown in FIG. 2, it can be seen that the inside of the Contact rail 13 individual contact strips 38, 39, 40 are integrated. The contact strips 38, 39, 40 of the contact rail 13 are with the contact tabs 15 in the central plug 14 the contact rail 13 in connection, so that an electrical control of the individual, Injection valves 23 accommodated in the cover element 6 without individual partial wiring harnesses assigned to the individual injection valves 23 can take place. The electrical Contacting the contact rail 13 via a contact lugs 15 containing Contact plug 14 makes the formation of partial wiring harnesses obsolete and encapsulates the electrical control against weather and temperature influences from outside from. Below the individual parallel to the longitudinal axis 9 of the fuel rail 8 in the Contact rails 13 extending contact strips 38, 39, 40 are individual contacting elements 27 arranged with which the individual injection valves 23 are electrically controlled become. The electrical contacting of the injection valves is through a cover Representing contact rail 13 encapsulated outwards. The contacting elements 27 lie within a cavity which is on the cover element 6 between the first receiving point 22 or the second receiving point 28 for the preassembled injection valve assemblies 23 lies.

The locking of the pre-assembled injection valve assembly 23 in the integrated cover element 6 is done by assembling the upper shell and the lower shell and the subsequent Locking the intake manifold on the cylinder head 41 of the internal combustion engine, independently of their ignition principle. The injection valves 23 are in the first receiving point 22 or the second receiving point 28 is inserted. A seal to the outside is made by the sealing element 36 made of elastic material and let into the circumferential groove 42 of the sleeve 29. In addition, there is a collar on the injection valve 23 as shown in FIG. 2 25 trained. Between a further collar on the injection valve opposite the collar 25 23 is an annularly configured sealing element 24, which the Opening 26 through which fuel from the cavity 20 of the fuel rail 8 on the injection valve 23 flows, seals. The electrical contact point is thus between the contact rail 13 and the injection valve 23, or the individually assigned Kontalctierungselemente 27 sealed against the ingress of fuel.

Before installing the additional functions integrating cover element 6 on the lower shell configured intake manifold section 5 become individual fuel injector groups 23 mounted in the cover element 6. The individual injection valves 23 are assembled in such a way that they correspond to their mounting positions in the first receiving location 22 representing opening 26 are inserted on the distributor pipe 8. In these are the Injection valves sealed via an elastic ring element 24 functioning as a sealing element. The sleeve 29 surrounding the body of the injection valve 23 lies in a second Receiving point 28 of the cover element 6. After inserting the injection valve member 23 in the cover element 6, the mounting of the holding part 44 takes place. The one formed on the holding part 44 first collar section 31 and the corresponding band section 31 on Cover element 6 form an annularly configured stop surface for the body of the injection valve member surrounding sleeve 29. The correct position in the circumferential direction of the Injection valve 23 is ensured by the fact that a formed on the sleeve 29 Locking cam 43 engages in a corresponding recess on the holding part 44. To Assembly of the holding part 44 can be the electrical contacting of the injection valve member done by inserting the contact rail 13. On the contact rail 13, d. H. in electrical Connection with the contact strips 38, 39, 40 received therein are individual contacting elements 27 which face the body of the injection valve 23 are formed, which allow electrical control of the injection valve member 23. To a pre-assembly of the injection valve 23 in the integrated cover element 6 can perform a function test of this preassembled unit before connecting the cover element 6 with the intake pipe section 5 configured in the form of a lower shell. in the The scope of a functional test of the individual injection valves 23 is, for example Tightness and its electrical controllability checked before a final Mounted on the internal combustion engine.

Is the proper function of a cover element 6 with injectors accommodated therein 23 and their electrical control with the contact rail 13, the cover section 16 is joined to the cover element 6 along the parting line 17 with the suction cup section 5 configured in the form of a lower shell by friction welding or another material connection suitable for melting plastic material Joining processes. The integral joining of the lid portion 16 with the the lower shell-shaped suction tube section 5 offers a permanent one Connection that also seals on the outside, so that no external air entry in the interior of the intake line branch 2 takes place. The individual at the first reception point 22 or the second receiving point 28 in the cover element 6 injectors 23 are by mounting on the cylinder head 41 in their positions in the cover element 6 permanently fixed. The surrounding the valve body of the injector 23 Sleeve 29 is through the cylinder head 41 against the collar 31 on the holding part 44 and on the this opposite part of the second receiving point 28 pressed on the cover element 6. The injector 23 is biased against the annular with constant bias Collar 31 pressed so that it is ensured that in the region of the collar 25 on the injection valve 23 received sealing ring 24 in the opening 26 of the fuel rail 8 remains that the electrical contact element 27 against penetrating fuel is sealed.

On the cylinder head 41 of the internal combustion engine there is a valve opening 37 Subsequent fuel channel formed, which at an opening 46 in the intake pipe 33 opens into the cylinder head 41. In the flow channel adjoining the valve opening 37 fuel 47 is injected while combustion air is in the intake branch flows. After the junction area 46 z. B. a fuel / air mixture 49 to the respective combustion chamber of the internal combustion engine. The intake pipe section 2 lies along a parting line 34 between the intake pipe section and Cylinder head 41 and is by means of a sealing ring 35, which either in the cylinder head 41 or in a corresponding flange on the lower shell 5 and the lid section 16 of the cover element 6 can be embedded with integrated functional groups, sealed, so that no external air entry into the intake line branch 2 or into an inlet duct 50 can take place within the cylinder head 41. Behind the confluence area 46 combine fuel 47 and intake combustion air 48 and flow to it Combustion chamber of the internal combustion engine as a fuel / air mixture 49.

With the solution proposed according to the invention, a fuel rail 8 can be in the Cover element 6, which also includes a cover section 16, can be integrated because both the fuel rail 8 and the cover section 16 of the cover element a polyamide material (PA 66), so that the material affinity can be exploited can. With the solution according to the invention, the separate assembly of Fuel distributor 8 in the area of the intake manifold required parts be reduced. Partial wiring harnesses for the individual control of injection valves 23, that are used in the context of the single injection principle are now replaced by a realized a central connector 14 having contact rail 13, which also the Advantage has that the contacting elements 27 against weather and pollution influences are encapsulated from the outside. With the solution proposed according to the invention can also perform an early function check of the injection valves 23 take place, so that any necessary replacement of defective modules can take place before the cover element 6 integrally configured with the lower shell-shaped Suction pipe section 5 is added.

A precise locking of the injection valve 23 in the area of its second location 28 in the cover element 6 can be done by the holding element 34. This pushes the sleeve 29 surrounding the body of the injection valve 23 with its valve opening 37 opposite end face against a collar 31. The circumferential position of the injection valve member 23 is ensured by a locking cam 43. For this purpose, the sleeve 29 advantageously with a press fit on the peripheral surface of the injection valve 23 to be shrunk.

LIST OF REFERENCE NUMBERS

a

Injector

b

Intake

c

manifold

d

Sub harness

e

retaining clip

f

Partial wiring harness connector

1

intake system

2

Ansaugleitungszweig

3

mounting flange

4

drilling

5

Lower shell of intake manifold section

6

Cover element with integrated function groups

7

ribbing

8th

Fuel rail

9

longitudinal axis

10

lateral surface

11 1

closure element

12

Fuel supply

13

Kontaktierungsschiene

14

central plug

15

tabs

16

Cover section intake manifold section

17

parting line

18

Injector mounting position

19

Outer wall of the fuel rail

20

cavity

21 1

Inner wall of fuel rail

22

first injection valve location

23

Injector assembly

24

ring element

25

Federation

26

drilling

27

contacting

28

second injection valve location

29

Injector sleeve

30

plant area

31

first fret

32

second fret

33

Ansaugrohrzylinderkopf

34

Separation line intake manifold / cylinder head

35

Sealing ring intake manifold / cylinder head

36

poetry

37

valve opening

38 8

contact strip

39

contact strip

40

contact strip

41

Cylinder head combustion engine

42

circumferential groove

43

locking boss

44

holding part

45

Contact rail contact surface 13

46

mouth area

47

fuel

48

combustion air

49

Fuel / air mixture

50

Intake port 1 cylinder head

Claims (13)

Intake tract for an internal combustion engine with a number of intake line branches (2) corresponding to the number of cylinders of the internal combustion engine and which can be mounted on the intake side of the internal combustion engine, with a fuel distributor (8) via which at least one injection valve (23) is supplied with fuel, characterized in that The injection valves (23) and their receptacles (22, 28) as well as fuel supply components (8, 12) and their contacts (13, 27) are integrated into a cover element (6) to be joined with a suction cup section (5). Intake tract according to claim 1, characterized in that the cover element (6) comprises an integrated fuel rail (8) and a cover section (16) for covering the lower shell-shaped intake pipe sections (5). Intake tract according to claim 2, characterized in that the fuel distributor (8) has a number of openings corresponding to the number of injection valves (23) through which the fuel flows to the injection valve assemblies (23). Intake tract according to claim 1, characterized in that a first ring-shaped receptacle (22) and a second shell-shaped receptacle (28) for the injection valve assembly (23) are injection molded onto the cover element (6). Intake tract according to claim 4, characterized in that one of the receptacles (22, 28) for the injection valve assembly (23) comprises annular stop surfaces (31, 32) on which the injection valve member (23) is positioned. Intake tract according to claim 2, characterized in that the fuel rail (8) in the cover element (6) is supported by a molded ribbing (7). Intake tract according to claim 2, characterized in that a fuel inlet (12) is injection molded onto the lateral surface (10) of the fuel rail (8). Intake tract according to claim 1, characterized in that the cover element (6) receives a contact rail (13) which extends parallel to the longitudinal axis (9) of the fuel rail (8) and contacts the injection valve assemblies (23). Intake tract according to Claim 8, characterized in that a central connection point (14) is arranged on the contact rail (13) and is connected to contact strips (38, 39, 40) within the contact rail (13). Intake tract according to claim 4, characterized in that the injection valve (23, 29) in the area of the first receiving point (22) and in the area of the second receiving point (28) for the holding element (34) comprises annular sealing elements (24, 26). Intake tract according to claim 1, characterized in that the injection valve (23) is enclosed by a sleeve-shaped casing (29) which comprises a thickening (41) for mounting a holding element (34) and a locking cam (43). Intake tract according to claims 4 and 8, characterized in that the second receiving point (28) comprises a holding part (44) which surrounds the locking cam (43) and on which a contact surface (45) for the contact rail (13) is formed. Intake tract according to claim 1, characterized in that the cover element (6) with a cover section (16) formed thereon for the intake line branches (2) in accordance with the number of combustion chambers of the internal combustion engine is designed as a plastic injection molded part.

Images