The present invention pertains to a cylinder head of an at least 1-cylinder internal combustion engine with direct injection for a motor vehicle.
The cylinder heads of multi-cylinder internal combustion engines require sufficient reinforcement in order to permanently withstand the peak pressures occurring during the combustion process. Cylinder heads furthermore need to have sufficient heat dissipation in order to also permanently withstand the thermal stresses. For example, DE 35 46 436 C2 discloses a liquid-cooled cylinder head for a multi-cylinder internal combustion engine. The cylinder head features various supports in order to thusly reinforce channels for valves, bearings, the ignition device, intake channels and exhaust channels arranged in the cylinder head. DE 42 22 801 C2 also discloses a cylinder head for an internal combustion engine, in which an upper and a lower cooling water chamber are completely separated from one another by a partition wall that extends parallel to the bottom of the cylinder head. In addition to separating the two cooling water circuits, the partition wall also serves for reinforcing the cylinder head.
The present invention is based on the objective of making available a reinforcement for a cylinder head, particularly for high peak pressures, in order to ensure a certain component stability and to permanently withstand high pressure peaks.
This objective is attained with a cylinder head for an at least 1-cylinder internal combustion engine with direct injection. The internal combustion engine can have a flame deck (2) and an oil deck, with an intermediate deck (4) arranged between the flame deck (2) and the oil deck (3). In addition at least one injector pipe (5) extends from the flame deck (2) to the oil deck (3) and the intermediate deck (4) is situated adjacent to a lower region of an injector pipe (5) which is arranged approximately centrally in the region of the flame deck (2). The intermediate deck (4) can extend concavely outward if viewed from the flame deck (2) such that the intermediate deck (4) is connected to a side wall (7) in a region between 40% to 60% of the distance between the flame deck (2) and the oil deck (3). Other advantageous embodiments and additional developments are defined in the dependent claims.
According to the invention, a cylinder head of an at least 1-cylinder internal combustion engine for a motor vehicle, preferably a 4-cylinder internal combustion engine with direct injection, features a flame deck and an oil deck. An intermediate deck is arranged between the flame deck and the oil deck. In addition, at least one injector pipe extends from the oil deck to at least the intermediate deck. The invention furthermore proposes that the intermediate deck be situated adjacent to the injector pipe, preferably adjacent to an injector needle that is arranged approximately centrally in the region of the flame deck. Viewed from the flame deck, the intermediate deck extends concavely outward such that the intermediate deck adjoins a side wall of the cylinder head in a region between 40% and 60% of a distance between the flame deck and the oil deck. The intermediate deck, the flame deck and the oil deck preferably are integrally connected to one another in this case. Due to the concave shape, it is possible to realize a superior reinforcement and, in particular, a greater pressure absorption via the intermediate deck. The concave shape is preferably realized continuously. However, it may also be interrupted by sections that extend approximately plane. It has proved advantageous for the intermediate deck to rise toward the outside from a central region of the cylinder head. This provides an enlarged surface for direct pressure absorption. A curvate shape of the intermediate deck also results in a superior distribution of thermal expansions.
According to one refinement, the intermediate deck is at least partially realized in an arch-shaped fashion and abuts the side wall at least approximately parallel to the flame deck and/or the oil deck. The side wall may extend, for example, perpendicular to the intermediate deck. According to another embodiment, the side wall is inclined such that an angle of less than 90° is formed between the intermediate deck and the side wall. The angle lies, in particular, in a range between 40° and 75°.
According to another embodiment, a water cooling jacket arranged in the cylinder head is divided into two parts, wherein a lower water cooling jacket extends between the flame deck and the intermediate deck and an upper water cooling jacket extends between the oil deck and the intermediate deck. The water cooling jackets may, for example, be completely separated from one another. According to another embodiment, the intermediate deck features at least one opening that connects the lower and the upper water cooling jackets. For example, an opening arranged in the region of the intermediate deck extends parallel to the flame deck and/or oil deck.
An additional improvement in the reinforcement of the cylinder head can be achieved, for example, in that at least two respective ribs that are arranged opposite one another reinforce the flame deck, wherein the ribs extend tangentially from the injector pipe and, in particular, from the injector needle, are tangentially connected to valve guides and transform into threaded pipes of a cylinder head screw connection. The ribs respectively intersect diagonally such that two opposite intersecting regions of the two respective ribs are created. This means that at least four ribs are provided for a cylinder in order to achieve the diagonal bracing. Two respective ribs that are integrally connected only to intake valve guides or only to exhaust valve guides preferably intersect diagonally. This type of rib configuration ensures that lateral forces and torques engaging on the cylinder head do not result in components within the cylinder head changing their position relative to the engine block. In addition, a transverse reinforcement according to the invention allows a superior compensation of thermal expansions in the cylinder head as may occur, for example, when the material heats up at different speeds in a starting phase. It is preferred that the two respective ribs extend beyond the oil deck. The threaded pipes of the cylinder head screw connection are also arranged beyond the oil deck. The oil deck can be stabilized by the ribs in this fashion. In addition, an improved support against torques can be achieved for the elements of the cylinder head that are arranged between the threaded pipes with these ribs that extend beyond the oil deck.
According to a refinement, the two respective ribs transform into the threaded pipes in a region above an oil deck that lies outside the valve spring support. This ensures an unimpaired installation and operation of a valve train. In addition, this makes it possible to machine the valve spring support without simultaneously subjecting the ribs to a machining process. According to another embodiment, the ribs are integrally connected to the intermediate deck. Due to the support of the ribs on the threaded pipes of the cylinder head screw connection on the one hand and on the injector needle or the injector pipe as well as on the valve guides on the other hand, it is possible to absorb the tensions introduced into the concavely shaped intermediate deck and to directly transmit said tensions to the cylinder head screw connection by means of the ribs. In this exemplary manner, a direct flow of forces is achieved from the flame deck into the cylinder head screw connection in the engine block.
It is preferred that the ribs extend outward from the approximately centrally arranged injector needle or the injector pipe, respectively, wherein a first outer rib geometry rises obliquely in the direction of the threaded pipes and the oil deck. The ribs are preferably arranged in a lower region of an injector and extend obliquely upward, wherein the ribs are connected to the threaded pipes in a region of the oil deck. The injector region is stabilized, in particular, against the pressure exerted by a combustion chamber of the cylinder in this fashion. According to a refinement, a second outer rib geometry features a smaller rise than the first outer rib geometry before the transition into the threaded pipes such that the rib is extended if viewed in a longitudinal section. This results in an elongated connecting surface between the rib and the threaded pipe. Consequently, the tensions in the rib can be transmitted over a larger surface such that the stresses are reduced.
The cylinder head is preferably manufactured of an aluminum material, wherein the cylinder head forms part of an internal combustion engine that operates in accordance with the Diesel principle. In addition to an aluminum alloy, it is also possible to use another casting material, for example, a magnesium alloy, graphite cast iron, particularly vermicular graphic cast iron (CGI). A proposed cylinder is able, in particular, to permanently withstand peak pressures in excess of 200 bar. One advantageous application of a cylinder head is in motor vehicles, in particular, with a peak pressure in excess of 180 bar, for example, an inline 6-cylinder Diesel engine.
Other embodiments are illustrated in the figures. The exemplary characteristics illustrated in the individual figures are, however, not limited to these embodiments. On the contrary, these characteristics may be combined into other embodiments together with other characteristics of other figures or with characteristics of the preceding description. The figures show:
A second outer rib geometry 17 is arranged opposite the first outer rib geometry 16 and also features an ascending section, for example, in a first region. However, the ascending angle decreases in an adjacent second region. The second outer rib geometry 17 extends, in particular, approximately parallel to the oil deck 3 in the second region. The second rib 12 is extended in this fashion such that a larger surface is available for the transition from the rib into the threaded pipe 15. The reinforcement can be additionally improved in this fashion. The shape of the rib can furthermore be influenced, for example, by the progression of the water jacket.
Number | Date | Country | Kind |
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10 2004 062 522 | Dec 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/013152 | 12/8/2005 | WO | 00 | 3/14/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2006/072333 | 7/13/2006 | WO | A |
Number | Date | Country |
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1028246 | Aug 2000 | EP |
1028247 | Aug 2000 | EP |
58082045 | May 1983 | JP |
04255554 | Sep 1992 | JP |
2000104624 | Apr 2000 | JP |
Number | Date | Country | |
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20090114173 A1 | May 2009 | US |