The present invention relates to an internal combustion engine comprising an attachment part, in particular a suction module. The invention relates in addition to a suction module for such an internal combustion engine.
A generic internal combustion engine comprises at least one engine block which contains a plurality of cylinders, and at least one cylinder head, which is fastened to the engine block and contains fresh air channels leading to the cylinders. In addition, at least one suction module is provided, which is fastened to the cylinder head and which has a fresh air inlet opening and plurality of fresh air outlet openings fluidically connected to the fresh air channels.
Such a suction module can also be designated as a fresh air distributor and can come into use both in supercharged engines and also in aspirated engines. The suction module is attached onto the cylinder head and represents in this respect an attachment part. The cylinder head, which is attached to the engine block, represents here a flange component, which is provided on the engine block.
Usually, the suction module has a flange in the region of the fresh air outlet openings, which flange enables a screwed connection to the cylinder head. Depending on the configuration, a comparatively complex screw pattern can be present here. To realize the screwed connection, a hole pattern of the cylinder head must therefore be brought into overlap with a hole pattern of the flange, in order to be able to screw fastening screws through the through-holes of the flange into the screw holes of the cylinder head. In particular within a series assembly and preferably in connection with an automated screwed connection, a relatively great effort is necessary for this for the correct aligning of the suction module with respect to the cylinder head. Such an alignment takes place for example manually by a fitter.
Corresponding problems also occur in other attachment parts which must be attached to the engine block via a flange component.
The present invention is concerned with the problem of indicating for an internal combustion engine of the type described above or respectively for an associated suction module an improved embodiment which is distinguished in particular by a simplified assembly of the internal combustion engine.
This problem is solved according to the invention by the subjects of the independent claim(s). Advantageous embodiments are the subject of the dependent claims.
The invention is based on the general idea of constructing on the attachment part, in particular on the suction module, and on the flange component, in particular on the cylinder head, an alignment device, which on attaching the attachment part to the flange component, in particular the suction module on the cylinder head, brings about an aligning of the attachment part relative to the flange component, in particular of the suction module relative to the cylinder head. The alignment device provided for this is preferably arranged between the attachment part and the flange component, therefore preferably the suction module and the cylinder head, so that it is situated on the one hand on an attachment side of the attachment part, in particular of the suction module, facing the flange component, preferably the cylinder head, and on the other hand on a connection side of the flange component, in particular of the cylinder head, facing the attachment part, preferably the suction module. On attaching the attachment part to the flange component, in particular the suction module to the cylinder head, the attachment side of the attachment part, preferably of the suction module, now comes to lie against the connection side of the flange component, preferably of the cylinder head, so that the alignment device provided between attachment part and flange component, in particular between suction module and cylinder head, can act and brings about the desired aligning of the attachment part relative to the flange component, in particular of the suction module relative to the cylinder head. Through the integration of such an alignment device into the attachment part and the flange component, in particular into the suction module and the cylinder head, during attaching of the attachment part, preferably of the suction module, necessarily and automatically the required alignment takes place with respect to the flange component, preferably the cylinder head, so that for example the above-mentioned hole pattern of the attachment part, in particular of the suction module, is aligned with sufficient accuracy in a congruent manner onto the hole pattern of the flange component, in particular of the cylinder head. The assembly of the attachment part, preferably of the suction module, is thereby simplified and in particular can be better automated.
The alignment device provided between attachment part and flange component, in particular between suction module and cylinder head, is provided here in addition to fastening means, which serve for fastening the attachment part to the flange component, in particular the suction module to the cylinder head. Such fastening means are, for example, screws for screwing the attachment part to the flange component, in particular the suction module to the cylinder head, which penetrate through through-openings provided on the attachment part, preferably on the suction module, and penetrate into screw openings of the flange component, preferably of the cylinder head. The alignment between attachment part and flange component, in particular between suction module and cylinder head, brought about by means of the alignment device, takes place here before the fastening of the attachment part to the flange component, in particular of the suction module to the cylinder head, therefore in particular before the above-mentioned screwed connection. In addition, the aligning takes place in an aligning plane which is oriented substantially perpendicularly to the attaching direction and which runs substantially parallel to the above-mentioned attachment side of the attachment part, preferably of the suction module, and parallel to the above-mentioned connection side of the flange component, preferably of the cylinder head, which lie against one another in the attached state.
Attachment parts in the sense of the present invention are, for example, suction modules, cylinder head covers, oil mist separators or coolers. Such attachment parts can have a greater extent in longitudinal direction than in transverse direction, whereby smaller deviations in the positioning can have a considerable effect over the entire extent of the component. The embodiments and example embodiments described in further detail below using the example of the suction module and the cylinder head, are transferable to the other attachment parts and flange components in an analogous manner.
According to an advantageous embodiment, the alignment device can have at least three separate alignment units arranged spaced apart from one another, wherein at least one such alignment unit brings about an aligning of the attachment part to the flange component or respectively of the suction module to the cylinder head with respect to a first aligning direction, which is oriented perpendicularly to an attaching direction, in which the attachment component is attached to the flange component or respectively in which the suction module is attached to the cylinder head. In addition, at least one other such alignment unit brings about an aligning of the attachment part to the flange component or respectively of the suction module to the cylinder head with respect to a second aligning direction, which is oriented perpendicularly to the attaching direction and inclined to the first aligning direction. Through the two aligning directions, running perpendicularly to the aligning direction and inclined to one another, an aligning plane is defined, which extends perpendicularly to the attaching direction. Expediently, the two aligning directions are oriented substantially perpendicularly to one another, so that the angle present between the two aligning directions has 90°±5°.
According to an advantageous embodiment, provision can be made that all the alignment units bring about an alignment of the attachment part to the flange component or respectively of the suction module to the cylinder head exclusively either in the first aligning direction or in the second aligning direction, so that only these two aligning directions are defined by means of the alignment units. Hereby, a particularly simple and efficient positioning or respectively alignment is achieved between attachment part and flange component or respectively between suction module and cylinder head.
An embodiment is particularly advantageous in which precisely three alignment units are provided, wherein two of these alignment units, therefore a first alignment unit and a second alignment unit, bring about an alignment in the one aligning direction, whereas one of these alignment units, therefore the third alignment unit, brings about an alignment in the other aligning direction. For example, the first and second alignment unit bring about respectively an alignment in the first aligning direction, whereas the third alignment unit brings about an alignment in the second aligning direction, or vice versa.
According to a particularly advantageous further development, provision can be made that the two alignment units associated with the one aligning direction, therefore the first and second alignment unit, are spaced apart from one another in the other aligning direction. Additionally or alternatively, provision can be made that the one alignment unit associated with the other aligning direction, therefore the third alignment unit, is arranged with respect to this aligning direction between the two alignment units associated with the one aligning direction, therefore between the first and the second alignment unit. Furthermore, additionally or alternatively, provision can be made that the one alignment unit (third alignment unit) associated with the other aligning direction is arranged in the one aligning direction offset to the two alignment units (first and second alignment unit) associated with the one aligning direction. The above-mentioned provisions can be realized respectively individually or jointly or in any desired combination and bring about respectively an improved alignment of the attachment part with respect to the flange component or respectively of the suction module with respect to the cylinder head. Furthermore, provision can be made that the one alignment unit, which is associated with the other aligning direction, therefore the third alignment unit, is arranged substantially centrally between the first and the third alignment unit, therefore between the two other alignment units, which are associated with the one aligning direction. This central alignment refers here to a longitudinal direction of the attachment part or respectively of the flange component, or respectively of the suction module or of the cylinder head and corresponds in particular to the direction in which the cylinders of the cylinder head are arranged adjacent to one another. The aligning direction associated with the centrally arranged (third) alignment unit extends preferably parallel to the above-mentioned longitudinal direction.
According to another advantageous embodiment, the alignment units can have respectively a first alignment element, securely arranged on the attachment component or respectively on the suction module, and a second alignment element securely arranged on the flange component or respectively on the cylinder head, which interact for the aligning of the attachment part relative to the flange component or respectively of the suction module relative to the cylinder head in the respective aligning direction. An embodiment is preferred here in which the first alignment elements are formed integrally on the attachment part or respectively on the suction module. Additionally or alternatively, the second alignment elements can be formed integrally on the flange component or respectively on the cylinder head.
According to a further development, at least in an alignment unit the first alignment element can be formed by an alignment pin projecting from the attachment part or respectively from the suction module in the attaching direction, whilst the associated second alignment element is formed by an aligning opening formed in the flange component or respectively in the cylinder head, into which aligning opening the alignment pin engages for the aligning of the attachment part to the flange component or respectively of the suction module to the cylinder head. Additionally or alternatively, provision can be made that at least in an alignment unit the second alignment element is formed by an alignment pin projecting from the flange component or respectively from the cylinder head in the attaching direction, whereas the associated first alignment element is formed by an aligning opening formed in the attachment part or respectively in the suction module, into which aligning opening the alignment pin engages for the aligning of the attachment part to the flange component or respectively of the suction module to the cylinder head. The associated alignment elements of the respective alignment unit therefore interact through a form-fitting engagement and thereby bring about an efficient alignment of the attachment part relative to the flange component or respectively of the suction module relative to the cylinder head.
Basically, provision can be made that in all alignment units the first alignment element is formed by an alignment pin. Alternatively, provision can be made that in all alignment units the first alignment element is formed by an aligning opening. Basically, however, a mixed embodiment is also conceivable, so that at least one alignment pin and at least one aligning opening are present on the attachment part or respectively on the suction module. However, an embodiment is preferred in which all the alignment pins are provided on the attachment part or respectively on the suction module, wherein here an integral forming of the alignment pints on the attachment part or respectively on the suction module is preferred.
According to an advantageous further development, at least one such aligning opening can be configured as an elongated hole, the longitudinal direction of which runs perpendicularly to the respective aligning direction of the associated alignment unit. Preferably, all the aligning openings are configured as an elongated hole.
Furthermore, provision can be made that at least one such aligning opening is configured in an elongate manner or as an elongated hole, and has between its longitudinal ends a guide portion which has two wall portions lying opposite one another, which extend parallel to one another and perpendicularly to the respective aligning direction of the associated alignment unit. Expediently, the associated alignment pin, which engages into this elongate alignment opening, can be guided on the said wall portions. The alignment pin can have a circular cross-section for example transversely to the attaching direction. However, this is not obligatorily necessary.
Preferably, all the aligning openings are designed so as to be elongate or respectively as an elongated hole.
According to another advantageous further development, at least one such aligning opening can have a circular cross-section perpendicularly to the attaching direction. An embodiment is also preferred here in which all the aligning openings have such a circular cross-section. However, a mixed embodiment is also conceivable, in which at least one aligning opening has such a circular cross-section, whereas at least one other aligning opening is configured so as to be elongate or as an elongated hole.
In so far as in the respective alignment unit the aligning opening has a circular cross-section, according to an advantageous embodiment the associated alignment pin can have perpendicularly to the attaching direction a pin cross-section which has a pin width parallel to the aligning direction of the associated alignment unit which is greater than a pin thickness running parallel to the respectively other aligning direction. Expediently, the pin width extends here perpendicularly to the pin thickness. As the pin cross-sections have a greater pin width than pin thickness, the respective alignment pin defines within the circular aligning opening the associated aligning direction, because parallel to the pin thickness a greater play is present for the alignment pin within the aligning opening, so that the alignment takes place parallel to the pin width.
A further development is particularly advantageous, in which the pin cross-section is flat, so that a portion with constant pin thickness is present along the pin width between end portions, which are spaced apart from one another in a pin width direction.
Additionally or alternatively, for the case where the respective alignment unit has an aligning opening with circular cross-section, the associated alignment pin can be designed so that it has a smaller bending stiffness perpendicularly to the respective aligning direction of the associated alignment unit than parallel to this aligning direction. Therefore, during the aligning of the attachment part or respectively of the suction module with respect to the flange component or respectively the cylinder head, a bending deformation, preferably an elastic bending deformation, of the alignment pin can take place, whereby parallel to the greater bending stiffness and alignment takes place between attachment part and flange component or respectively between suction module and cylinder head.
In so far as the pin cross-section is flat, the smaller bending stiffness occurs perpendicularly to the relatively small pin thickness, whereas perpendicularly to the relatively large pin width a correspondingly greater bending stiffness is present. In particular, provision can then be made that the pin width corresponds substantially to the diameter of the circular aligning opening, whereby the aligning takes place parallel to the pin width, whereas transversely thereto, therefore in the pin thickness, a certain mobility of the alignment pin is still present within the aligning opening, namely in particular through the smaller bending stiffness in this direction.
According to an advantageous embodiment, all the alignment units can lie in one aligning plane, in which the attachment part lies against the flange component or respectively the suction module lies against the cylinder head. Hereby, the aligning between attachment part and flange component, or respectively between suction module and cylinder head is simplified.
An embodiment is preferred, in which the flange component is a cylinder head which is fastened to the engine block and contains fresh air channels leading to the cylinders. In addition, the attachment part can be a suction module which is fastened to the cylinder head and which has a fresh air inlet opening and a plurality of fresh air outlet openings fluidically connected to the fresh air channels.
A suction module according to the invention, which is suitable for an internal combustion engine of the type described above, has on an attachment side, provided for the attaching of the suction module onto the cylinder head, a plurality of first alignment elements arranged securely thereon. Additionally or alternatively, the suction module can have a module housing on which, on an attachment side provided for the attaching of the suction module onto the cylinder head, a plurality of first alignment elements are integrally formed. The first alignment elements provided on the suction module or respectively on the module housing can preferably be, as explained above, alignment pins and/or aligning openings.
Further important features and advantages of the invention will emerge from the subclaims, from the drawings and from the associated figure description with the aid of the drawings, wherein in the drawings the attachment part is configured by way of example as a suction module, whilst the flange component is configured by way of example as a cylinder head.
It shall be understood that the features mentioned above and to be explained further below are able to be used not only in the respectively indicated combination, but also in other combinations or in isolation, without departing from the scope of the present invention.
Preferred example embodiments of the invention are illustrated in the drawings and are explained further in the following description, wherein the same reference numbers refer to identical or similar or functionally identical components.
There are shown, respectively diagrammatically,
According to
The internal combustion engine 1 has in addition at least one suction module 9, which is fastened to the cylinder head 6 in a suitable manner and which has a fresh air inlet opening 10 and a plurality of fresh air outlet openings 11 fluidically connected to the fresh air channels 7. The suction module 9 forms here a component of a fresh air system 12, which serves for supplying the cylinders 3 with fresh air. The suction module 9 serves as fresh air distributor, which distributes the fresh air to the individual cylinders 3. The suction module 9 represents an attachment part, which is attached to the cylinder head 6 serving as flange component.
Furthermore, the internal combustion engine 1 is configured with an exhaust system 13, which has an exhaust manifold 14. The exhaust manifold 14 is fastened to the cylinder head 6 and has a plurality of exhaust gas inlet openings 15, which are fluidically connected to the exhaust gas channels 8, and has an exhaust gas outlet opening 16. In the example which is shown, the internal combustion engine 1 is designed as a supercharged internal combustion engine 1 and is provided, for this, with a charging device, which is designed here as an exhaust gas turbocharger 17. The exhaust gas turbocharger 17 has a turbine 18, which is integrated into the exhaust system 13, and a compressor 19, which is integrated into the fresh air system 12. During operation of the internal combustion engine 1, the turbine 18 drives the compressor 19 in a conventional manner.
In the internal combustion engine 1 which is presented here, an alignment device 20 is provided between the suction module 9 and the cylinder head 6, which alignment device is indicated by a broken line in
According to
The remaining other alignment unit 22, on the other hand, is designed so that it brings about an aligning of the suction module 9 relative to the cylinder head 6 with regard to a second aligning direction 25, which is likewise oriented perpendicularly to the attaching direction 24 and in addition is inclined to the first aligning direction 23. In the example, this second aligning direction 25 is oriented substantially perpendicularly to the first aligning direction 23 and runs accordingly horizontally in
In the preferred examples shown here, precisely three such alignment units 22 are provided, which all bring about either an aligning in the first aligning direction 23 or in the second aligning direction 25. The variant shown here is preferred, in which two alignment units 22, namely the first and second alignment unit 22 respectively bring about an aligning in the first aligning direction 23, whereas only one alignment unit 22, namely the third alignment unit 22, brings about an aligning in the second aligning direction 25. The two first and second alignment units 22 associated with the first aligning direction 23 are arranged spaced apart from one another here in the second aligning direction 25. In addition, the third or central alignment unit 22 associated with the second aligning direction 25 is arranged with regard to the second aligning direction 25 between the two left and right alignment units 22 associated with the first aligning direction 23. In addition, the third alignment unit 22 associated with the second aligning direction 25 is arranged offset in the first aligning direction 23 to the two first and second alignment units 22 associated with the first aligning direction 23. Furthermore, provision is made here that the third alignment unit 22, associated with the second aligning direction 25, is arranged with regard to a longitudinal direction 27 of the suction module 9 centrally between the two first and second alignment units 22 associated with the first aligning direction 23. The longitudinal direction 27 of the suction module 9 is indicated in
The individual alignment units 22 have respectively a first alignment element 28 arranged securely on the suction module 9 and a second alignment element 29 arranged securely on the cylinder head 6. The one of the two alignment elements 28, 29 is configured as alignment pin 30 in the examples which are shown here, whereas the respectively other alignment element 28, 29 is configured here as aligning opening 31, into which the associated alignment pin 30 engages for aligning the suction module 9 to the cylinder head 6. In the preferred embodiments shown here, respectively the first alignment element 28 formed on the suction module 9 is formed by such an alignment pin 30, whereas the second alignment element 29 formed on the cylinder head 6 is formed respectively by such an aligning opening 31.
In the embodiment shown in
In
Direction-dependent bending stiffnesses are achieved here in that the associated alignment pin 30 has perpendicularly to the attaching direction 24 a pin cross-section which, parallel to the aligning direction 23, 25 which is allocated to the associated alignment unit 22, has a pin width 23 which is greater than a pin thickness 35, which runs parallel to the respectively other aligning direction 23, 25. In practical terms in the example shown in
In the preferred example, the respective pin cross-section is flat, such that the pin cross-section along the pin width 34 between end portions, not designated in further detail, which are spaced apart from one another in the pin width direction, has a portion 36 in which the pin thickness 35 is constant.
Expediently, e.g. according to
The suction module 9 has expediently a module housing 37, on which the air inlet opening 10 and the air outlet openings 11 are formed. Here, also, the attachment side 38 is situated on this module housing 37. In addition, the through-openings 21 of the fastening means, not shown in further detail, are formed on the module housing 37.
Number | Date | Country | Kind |
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10 2015 204 607.9 | Mar 2015 | DE | national |
This application claims priority to the International Patent Application No. PCT/EP2016/054783, filed on Mar. 7, 2016, and German Patent Application No. DE 10 2015 204 607.9 filed on Mar. 13, 2015, the contents of each of which are incorporated herein by reference in their entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/054783 | 3/7/2016 | WO | 00 |