DE4403219A1 - Intake module for IC engine - Google Patents

Abstract

A pre-fabricated intake module for an IC engine has integrated fuel injectors and is bolted down to the cylinder head. The housing has a lower part sealing against an upper part and has at least one air inlet which is connected through an intake channel. The injectors are located in the intake channel near where they exit from the housing. Within the housing is an air filter. The intake channel on the clean-air side of this is in the upper section of the housing. The upper section comprises two shells which are sealed together, each being contoured to form the channels when combined.

Description

The invention relates to a suction module for a multi-cylinder the internal combustion engine according to the preamble of the claim 1.

DE 40 35 219 A1 is already a generic Saugmo dul with integrated fuel injectors spray arrangement for a multi-cylinder internal combustion engine be knows. The suction module comprises a split housing with a Air inlet and a variety of air outlets and is at one Flanged cylinder head of the internal combustion engine. In the case is an insert with several spiral air tubes sets that are plugged into the outlet openings of the housing. For fuel injection into the airflow are the injections valves within the housing adjacent to the outlet openings arranged of the housing.

The general background is still on the publications DE 37 30 817 C2, DE 34 29 633 C2 and DE 20 55 902 A referenced.

A disadvantage of suction modules of the generic type is in that they egg together with an external intake air filter need a relatively large amount of space. Also have genus according suction modules relatively many individual parts and are for the production in large numbers expensive.

The invention is based on the object of a suction module form that this compared to the generic state of the Technology is as simple and compact as possible.  

The object is according to the invention by the characterizing note male of claim 1 solved.

An advantage of the suction module according to the invention is that by integrating the intake air filter into the suction module and through the shaping of the intake duct, the air collection duct and the air pipes directly into the housing of the suction module very compact design can be produced.

Another advantage of the suction module according to the invention results that a complete functional test of the suction module is possible before its installation.

Due to the configuration of the invention according to claim 2, this is Upper part of the housing as an injection molded part with two shells adjustable. Both shells are injected separately and then sealingly glued or welded. Such a Her position compared to one with meltdown technology put one-piece version of the upper part another Ko most advantage.

The embodiment according to claim 3 is a fold and preferred construction of the arrangement of the intake air filters with separation between raw air side and clean air side inside the case.

An advantage of the embodiment of the invention according to the claims 4 and 5 can be seen in the fact that the inte electronic control unit along with its connections the injectors and the pressure and temperature sensors in a high degree of integration is achieved within the suction module, which means that there are only a few connections to the engine or motor vehicle are necessary.

Further advantages and refinements of the invention result from the other subclaims and the description.  

In the drawings, the invention is based on an embodiment illustrated example and explained in more detail below. It shows gene:

Fig. 1 is a perspective view of the invention of a prefabricated intake module for a multi-cylinder internal combustion engine, a split housing having a lower part together with air inlet and an upper part with an on suction channel, an air collection duct and air pipes to sums,

Fig. 2 is an exploded view of the suction module, the upper part being formed by two shells, in each of which the contours of the air pipes divided along a meridian surface are formed, and in the lower part the parts of the air pipes arranged therein and a spray valve adjacent to the outlet openings the air pipes and a partially illustrated intake air filter are shown and

Fig. 3 is a cross-sectional view of the suction module flanged to a cylinder head with an integrally cast upper part.

Fig. 1 shows a perspective view of a prefabricated suction module 1 according to the invention for a multi-cylinder internal combustion engine.

The suction module 1 comprises a divided housing 2 with a lower part 3 and a sealingly connected to this upper part 4 , wherein an air inlet designed as an intake 5 is connected to the lower part 3 in one piece. The upper part 4 comprises egg NEN intake duct 6 , which opens into an air collection duct 7 , lead away from the pipe sections 8-11 of air pipes 12-15 , the pipe sections 8-11 each of a straight piece 8 '- 11 ' and an elbow piece 8 '' - 11 '' are composed.

In a side wall 16 of the lower part 3 , an electronic control unit 17 described below is inserted.

In the intake duct 6 of the upper part 4 is in the vicinity of the air collection duct 7, a receiving bracket 18 for a throttle valve 19 (see FIG. 3) together with a mechanical actuator 20 , to which a Bowden cable, not shown, is articulated. Of course, an electronic servomotor for the throttle valve 19 can also be integrated in an appropriately designed receiving holder 18 .

In Fig. 2, an exploded view of the suction module 1 is shown ge. The upper part 3 comprises a shell 21 with the upper part of the intake duct 6 with contour 27 , the upper part of the Luftsam melkanales 7 with contour 28 and the upper part of the Rohrabschnit te 8-11 with contours 23-26 and a shell 22 with the lower Part of the intake duct 6 with contour 33 , the lower part of the air collection duct 7 with contour 34 and the lower part of the pipe sections 8-11 with contours 29-32 .

The contours 23-27 and 29 to 33 are essentially Rohrman telflächen, the generatrices of which are each formed by two semicircles and by the two cutting lines of the section of a respective associated meridian surface of the pipe sections 8-11 and the suction channel 6 .

The contours 28 and 34 of the air collecting duct 7 are each formed by a part of a five-sided prism divided parallel to the base surface, in the outer surface of which faces the suction duct 6 and the air tubes 8-11, congruent semicircles to the semicircles of the contours 23-27 and 29-33 are.

By dividing the contours 23-27 and 29-33 with meridian surfaces undercut-free molds of the shells 21 and 22 are possible, making them easy and inexpensive to manufacture, for example, by injection molding.

In the lower part 3 straight pipe sections 35-38 are arranged, each with an outlet opening 39 , the pipe sections 35-38 of the air pipes 12-15 forming the extension of the pipe sections 8-11 of the upper part 4 . The housing 2 is flanged on the side of the flow openings 39 on a cylinder head 40 (see Fig. 3) of the internal combustion engine so that the outlet openings 39 associated inlet openings 41 in the cylinder head 40 of the internal combustion engine are exactly aligned.

In order to inject fuel into the air drawn through the air tubes 12-15 air stream 39 of the air tubes is adjacent to 12-15 inside the housing 2 at each outlet opening fitted to the outlet openings 39, an injection valve 42 in an integrated in the lower part 3 of the housing 2 valve seat 43rd The individual valve seats 43 are connected by a fuel line 44 (see FIG. 3) formed in the lower part 3 of the housing 2 , through which the fuel is conveyed to the injection valves 42 .

In the lower part 3 , an intake air filter 45 is used, which divides the interior of the assembled housing 2 into a raw air side 46 and a clean air side 47 . The intake air filter 45 extends over the entire length of the housing 2 and is only partially shown in the illustration according to FIG. 2.

In Fig. 3 is a cross-sectional view of the flanged to a Zylin derkopf 40 of the internal combustion engine suction module 1 , in contrast to Fig. 2, the upper part 4 of the Saugmo module 1 is cast in one piece. The same components from FIGS. 1 and 2 are identified by the same reference numerals.

Between upper part 4 and lower part 3, a support plate 48 is arranged for the intake air filter 45 and is clamped sealingly between the upper part 4 and lower part 3 with seals 49th The intake air filter 45 is inserted into the carrier plate 48 .

From the electrical control unit 17 located in the lower part 3 of the housing 2 , connecting lines (not shown) lead to the injection valves 42 and further lines to pressure and temperature sensors which are located on the clean air side 47 . These lines, also not shown, are inserted through an opening 50 in the carrier plate 48 .

In the lower part 3 of the housing 2 there is a connection 51 for a crankcase ventilation (see FIG. 2) and a water drain 52 at the lowest point of the lower part 3 .

The housing 2 is flanged with screws 53 on the cylinder head 40 and is arranged above a cylinder head cover 54 which is formed separately from the housing 2 of the internal combustion engine.

The flow of the intake air in the intake module 1 proceeds as follows: The internal combustion engine sucks the air through the intake port 5 to the dirty air side 46 in the lower part 3 of the housing 2 , is filtered in the intake air filter 45 and flows through the intake duct 6 together with the throttle valve 19 into the Air collector 7 , from which the air is guided via the individual air pipes 12-15 to the associated inlet openings 41 in the cylinder head 40 of the internal combustion engine.

The arrangement of the intake manifold on the lower part of the housing is depending on the existing installation conditions for the suction module very much variable. It is only necessary to ensure that in the installation position of the suction module, the intake air filter geodetically the raw air side limited upwards, so that dirt particles sucked in first deposit on the suction filter, on the bottom of the bottom part of the housing can fall. The ones deposited on the ground Dirt particles can then when changing the intake air be disposed of.

In a further embodiment of the invention, the housing is below part of the intake module with the cylinder head cover of the internal combustion engine rail connected in one piece.

Claims (8)

1. As a unit prefabricated suction module for a Mehrzylin the internal combustion engine, in which injectors are integrated, which can be flanged to a cylinder head of the internal combustion engine and which has a divided housing with a lower part, a sealing part connected to this and at least one air inlet, the is connected via an intake duct having a plurality of air ducts with outlet openings wherein, to force the injectors fuel injection into the air stream within half of the housing adjacent to the outlet openings of the air pipes are arranged, characterized in that the housing (2) an intake air filter (45) between a Raw air side ( 46 ) and a clean air side ( 47 ) is arranged and the clean air side part of the intake duct ( 6 ) together with air collecting duct ( 7 ) and at least pipe sections ( 8-11 ) leading away from the air pipes ( 12-15 ) in the upper part ( 4th ) of the housing ( 2 ) are molded. 2. Suction module according to claim 1, characterized in that the upper part ( 4 ) has two sealingly and non-releasably connectable shells ( 21 , 22 ) through which the Luftsam melkanal ( 6 ), a part of the intake duct ( 7 ) and this opening At least the pipe sections ( 8-11 ) leading away from the air collecting duct ( 6 ) of the air pipes ( 12-15 ) are formed, the contours ( 23-27 ) and ( 29-33 ) of the embossed in the two shells ( 21 , 22 ) Intake channel ( 6 ) and the pipe sections ( 8-11 ) are tubular jacket surfaces, the respective jacket line of which has at least two cutting lines of an associated meridian surface section. 3. Suction module according to claim 1 or 2, characterized in that a support plate ( 48 ) for the intake air filter ( 45 ) is arranged between the upper part ( 4 ) and lower part ( 3 ), the support plate ( 48 ) between the upper part ( 4 ) and lower part ( 3 ) of the housing ( 2 ) is clamped in a sealing manner. 4. Suction module according to one of claims 1 to 3, characterized in that in the lower part ( 3 ) of the housing ( 2 ) an electronic control device ( 17 ) can be plugged in and that this connection lines gene to the injection valves ( 42 ) are guided. 5. Suction module according to one of claims 1 to 4, characterized in that the carrier plate ( 48 ) has an opening ( 50 ) through the lines of pressure and temperature sensors on the clean air side ( 47 ) to the control unit ( 17 ) arranged on the raw air side are. 6. Suction module according to one of claims 1 to 5, characterized in that in the intake duct ( 6 ) has a mounting bracket ( 18 ) for a throttle valve ( 19 ) together with electronic or mechanical actuator ( 20 ) is integrated. 7. Suction module according to one of claims 1 to 6, characterized in that the lower part ( 3 ) of the housing ( 2 ) with a cylinder head cover ( 54 ) of the internal combustion engine is integrally connected. 8. Suction module according to one of claims 1 to 7, characterized in that a water drain ( 52 ) and a connection ( 51 ) of a crankcase ventilation is arranged in the lower part ( 3 ) of the housing ( 2 ).