This application is the U.S. National Phase of PCT Application No. PCT/DE2019/100534 filed on Jun. 11, 2019 which claims priority to DE 10 2018 117 234.6 filed on Jul. 17, 2018, the entire disclosures of which are incorporated by reference herein.
This disclosure relates to a module for a variable-lift valve drive of an internal combustion engine.
Such a module with an actuator-loaded push rod and actuating fingers is now also referred to as an electronic rocker module. An example of this can be found in DE 10 2017 101 792. A row of exhaust valves of a 3-cylinder internal combustion engine is assigned a common push rod with an electric actuator on the end face in the cylinder head. Two gas exchange valves with the same effect are provided for each cylinder. When the actuator is not energized, the push rod is reset via the force of a compression spring arranged near the actuator.
The components of the above-mentioned “long” module must be laboriously mounted on the cylinder head and specially prepared for the respective type of internal combustion engine. For this purpose, the cylinder head has slots for guiding the push rod in the section of the camshaft bearing, through which the comparatively long, filigree push rod, which is difficult to handle, must be guided during assembly; with subsequent assembly of the actuating fingers thereon. The electric actuator is aligned behind the push rod and unnecessarily increases the installation space of the internal combustion engine; in addition, it must be fastened separately.
It is also established that a simultaneous actuation of the series of gas exchange valves has a high power requirement and can only perform for a short time window. In addition, a comparatively strong restoring spring means must be installed. It is completely clear that internal combustion engines with a number of cylinders >3 are also possible.
The object is to create a module that is easy to assemble and can be used in a variety of ways.
According to the disclosure, this object is achieved by the novel features described herein.
Accordingly, it is a matter of an “externally” preassembled module for installation in a cylinder head of the internal combustion engine. The module has a base with a guide plate standing vertically thereon, on which base plate lies the electric linear actuator with a slide piece guided parallel to the electric actuator with only one or two actuating fingers running on one side wall of the guide plate, which slide piece or at least the actuating fingers thereof extend under the base plate. The slide piece is connected to a bracket that protrudes over the guide plate and has a contact landing arm running transversely to the electric linear actuator, the actuator-side face of which is in contact with an actuating pin of the electric linear actuator for moving the slide piece in one direction. The restoring spring means of the module is at least indirectly clamped between the slide piece and the base plate.
Thus, a module without the above-mentioned disadvantages is provided. The now short module for the actuation of 1 or 2 switchable rocker arms (outlet or inlet row) of only one cylinder of the internal combustion engine (having three switchable rocker arms with three equally acting gas exchange valves of the cylinder is also conceivable) can be supplied in a completely externally preassembled state to the internal combustion engine and assembled there “from above” in an automated manner or by hand. The transport and handling thereof are comparatively easy. The person skilled in the art will recognize that this module can now be used universally over a wide range of internal combustion engine types. It is also possible to only equip a cylinder head with the modules to a partial extent. It is also clear that the individual module only has a comparatively low energy requirement with a sufficiently large switching time window.
According to an expedient development of the disclosure, a retaining wall can protrude orthogonally from the guide plate, potentially in one piece, on the rear side of which the electric linear actuator is held via a flange piece extending from the front side thereof. It is clear here that the electric linear actuator can also be attached directly to the base plate.
In an example embodiment, a supporting wall projects away from the retaining wall, facing the guide plate, also possibly connected in one piece. The design thus has an extremely rigid structure. The above-mentioned elements can be combined in one component and manufactured from sheet steel using stamping and bending technology. At least one of these wall pieces of the U-profile can also be bent up in one piece from the base plate, which can be made of sheet steel. Otherwise, joining techniques such as welding or screwing are available for fastening the U-profile to the base plate, provided that suitable fastening angles are used for screwing.
In an example embodiment, the base plate is shown with two simple longitudinal segments or strips, between the ends of which the electric linear actuator is located. To fasten the base plate to the cylinder head, the longitudinal strips have holes, for example, at the ends thereof. In this way, these can be screwed to be parallel to the camshaft or to the longitudinal wall of the internal combustion engine, at suitable contact points on the cylinder head, such as camshaft bearing shells or components close thereto.
It is also provided to integrate the restoring spring means for the slide piece in the module. For this purpose, at least one simple helical compression spring is provided, which is clamped between the contact landing arm and a collar of a support stem, which support stem is encompassed by the helical compression spring and stands at least indirectly on the front side of the retaining wall. Alternatively, an electromagnetic or other resetting can also take place via a servo means.
An “internal” guidance of the guide plate with dependent actuating fingers on the module is provided. Accordingly, in simple terms, a linear guide is provided in the actuator direction, facilitated by a longitudinal slot arranged in the slide piece. According to a first sub-variant of the disclosure, a sliding plate extending from the guide plate is guided in this longitudinal slot. According to a second sub-variant, sliding pins can protrude from the guide plate, which are guided in the longitudinal slot and, therebehind, rest against an outer wall of the slide piece via a ring head. Alternatively, the sliding plate or the sliding pins can also extend from the retaining plate or the longitudinal slot can lie in the guide plate, for example.
The flexible actuating fingers made of spring steel can be present as components that are joined separately to the slide piece. The idea here is to simply suspend them from the slide piece by means of offsets or the like made thereon. However, it is also conceivable and intended to design the actuating fingers, if necessary, as a one-piece component of the slide piece.
The respective actuating finger has a twisted geometry and is thus skillfully guided to the respective switchable rocker arm in the narrow cylinder head area.
Alternatively, a hydraulic or pneumatic actuator can be used instead of the electric actuator. It is also clear that, if necessary, the slide piece can be reset via the electric actuator or the final control element.
In the figures:
A short module 1 for a variable-lift valve drive of an internal combustion engine is shown.
The module 1 with all the components described below is supplied in a preassembled state to a cylinder head of the internal combustion engine and screwed thereonto.
The module 1 has a base plate 2 made of sheet steel, consisting of two strips running towards one another (see in particular
On the upper side 3 of the base plate 2, in front of the electric linear actuator 4, there is a fixed guide plate 5, also made of sheet steel, which extends in the longitudinal direction of the actuator. On the actuator side, a retaining wall 18 is bent orthogonally from the guide plate 5, which can also be joined thereto, from which a supporting wall 22 in turn protrudes in one piece. This assembly 18, 5, 22 thus has a U-like cross section. On a rear side 19 of the retaining wall 18, the electric linear actuator 4 is joined via a flange piece 21 extending from a front side 20 of the retaining wall 18 and penetrating same. It is clear that the electric linear actuator can also be screwed onto the retaining wall 18.
On an outer side wall 6 of the guide plate 5, a slide piece 7 made of sheet steel runs longitudinally movably thereon, from which two actuating fingers 8 made of spring steel are suspended to below the base plate 2. Each actuating finger 8 (see also
To move the slide piece 7 in one direction (to the left according to
The above-mentioned displacement of the slide piece 7 takes place, more precisely, in a slot 29 lying between the outer side wall 6 of the guide plate 5 and a retaining plate 28 firmly connected to the latter via a linear guide 30 thus formed.
According to the link-like solution according to
The alternative shown in
While the current supply to the electric linear actuator 4 is switched off or greatly reduced at the same time, a return displacement of the slide piece 7 takes place via a restoring spring means 17, which can be seen clearly from
A power supply to the actuator 4, for example at the beginning of a predetermined coupling time window for the transverse coupling slides 11 of the two rocker arms 12, leads to the extension of the actuating pin 16 thereof “forward” to the contact landing arm 14, provided that the actuating pin 16 is not already there before when no power is supplied. As a result, the slide piece 7 with dependent actuating fingers 8 ultimately performs a translational movement thereon (according to
1 Module
2 Base plate
3 Upper side
4 Electric linear actuator, actuator
5 Guide plate
6 Side wall
7 Slide piece
8 Actuating finger
9 Free end
10 Contact surface
11 Transverse coupling slide
12 Rocker arm
13 Bracket
14 Contact landing arm
15 End
16 Actuating pin
17 Restoring spring means
18 Retaining wall
19 Rear side
20 Front side
21 Flange piece
22 Supporting wall
23 Free end
24 Bore
25 Collar
26 Support stem
27 Not assigned
28 Retaining plate
29 Slot
30 Linear guide
31 Longitudinal slot
32 Sliding plate
33 Sliding pin
34 Outer wall
35 Ring head
36 Pocket
37 Transverse web
38 Offset
39 Extension
40 Support element
41 Plug
42 Front side
Number | Date | Country | Kind |
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10 2018 117 234.6 | Jul 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/DE2019/100534 | 6/11/2019 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/015776 | 1/23/2020 | WO | A |
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4221201 | Soeters, Jr. | Sep 1980 | A |
4259931 | Clark | Apr 1981 | A |
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20200131953 | Cecur | Apr 2020 | A1 |
Number | Date | Country |
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69615329 | Jul 2002 | DE |
102016220859 | Sep 2017 | DE |
102016212365 | Jan 2018 | DE |
102017101792 | Aug 2018 | DE |
2990465 | Nov 2013 | FR |
2016011664 | Jan 2016 | JP |
Number | Date | Country | |
---|---|---|---|
20210324767 A1 | Oct 2021 | US |