The present invention relates to an internal combustion engine.
When using four-valve cylinder heads having two intake valves and two exhaust valves per cylinder, the timing is more complicated than in the case of two-valve cylinder heads. In the latter, the injector is at an angle to the cylinder axis, and the two valves can be disposed at the center of the cylinder head. In contrast, in the case of four-valve cylinder heads, the aim is to mount the injector vertically, and to distribute the four gas-exchange valves around the injector two parallel to each other. In the four-valve cylinder head, the valve seats need to be optimized in terms of position and size, and the rocker arm pushrods are disposed on the “cold” intake side of the cylinder head. As a result, the installation of the rocker arm bearing becomes much more difficult because the valve spring clearances reduce the size of the rocker arm seating.
German Patent Publication DE-AS 11 79 764 describes a valve control system for an internal combustion engine having two intake valves and two outlet valves per cylinder, where the equidirectionally acting arms of the two rocker arms have different lengths, and the arms of each rocker arm lie in a plane perpendicular to its pivot axis, which is disposed at an angle to the longitudinal central plane of the internal combustion engine. Given a suitable arrangement of the control shaft and of the intake and exhaust pipes relative to each other, the above-described measures make it possible to obtain a wear-resistant valve control system with a minimum of effort. While this rocker arm design eliminates the wear-promoting transverse forces, this manner of mounting markedly increases the ratio between the lift of the valve and the lift of the lifter, which corresponds to an increase in forces and in the Hertzian stress between the cam and the lifter, whose magnitude is one of the determinants of the durability of the components concerned. Since the contours of the rocker shaft, and consequently also that of the bearing bolt, extend beyond the cylinder head, vibration-free mounting of the pedestal on or to the cylinder head is very complex and requires additional reinforcement of the cylinder head at the mounting points, especially at the point near the exhaust port and at the point near the intake port.
German Patent Publication DE 3637199 discloses a rocker arm bracket which is composed of at least three different separate parts.
This has the disadvantage, inter alia, of high manufacturing cost, which is due to the the numerous different separate parts.
It is an object of the present invention to overcome the above-mentioned drawbacks, and to provide a rocker arm bracket which is compact and rigid in construction and capable of being mounted on the cylinder head in such a way that force flows directly to its mounting bolts and which, if several cylinders are provided, is multiply mounted on the internal combustion engine as an identical separate part, depending on the number of cylinders.
The present invention provides an internal combustion engine comprising at least one cylinder, at least one in-block camshaft, at least one overhead intake valve and at least one overhead exhaust valve, as well as at least one rocker arm bracket per cylinder, the rocker arm bracket having an in particular tubular shaft on which are mounted at least one exhaust rocker arm and at least one intake rocker arm.
In an advantageous embodiment of the present invention, at least two overhead intake valves and at least two overhead exhaust valves are provided per cylinder, which results in a cost-effective, rugged and high-output internal combustion engine.
Advantageous refinements of the invention are specified in the dependent.
Further features of the invention will become apparent from the following description and the drawings, which illustrate an exemplary embodiment and in which:
The invention disclosed in the drawings relates to an internal combustion engine having at least one cylinder, an in-block camshaft, as well as two overhead intake valves and two overhead exhaust valves per cylinder.
Camshaft 2 has, for each cylinder, one cam 26 for actuating intake valves 3 and one cam 27 for actuating exhaust valves 4. The lift of the cam 26, 27 is transmitted to the two valves by a lifter 28 (either a flat lifter or a roller lifter), a pushrod 7, a rocker arm 8, and a valve bridge 23. Rocker arms 8 are all mounted on a continuous rocker shaft 6. Pushrods 7 are inclined such that they point toward the center of the cylinder at the top. This makes it possible to mount rocker arm bracket 5 at the center of the cylinder. The axial force component of pushrods 7 presses rocker arms 8 correspondingly against rocker arm bracket 5. An advantage in this connection is that rocker arm brackets 5 which are all identical in construction and shape can be used for all cylinders.
A spring 9 is mounted on shaft 6 between the cylinders and acts to press rocker arms 8 against pedestals 8 so as to prevent dynamic axial displacement of rocker arms 8. At the two ends of rocker shaft 6, this pressing function is performed by a resilient corrugated washer 33. The rocker shaft is axially secured by retaining rings (circlips) 10 which are fitted onto rocker shaft 6. Rocker arm brackets 5 are mounted on the cylinder head by two bolts 19 each, said bolts being located to the right and left of shaft 6. Rocker arm bracket 5 is configured to have a groove on at least one side thereof, the groove weakening the pedestal in a controlled manner, allowing it to deform such that shaft 6 is clamped under the force of bolts 19. Another task of this groove is to receive a pin 12 fitted into and projecting from the shaft, said pin fixing shaft 6 against rotation. Installation in a predetermined positional orientation is necessary because of the lubrication holes 15, as is illustrated in
The thrust member acting on valve bridge 23 takes the form of a spherical foot (elephant foot or ball pin 22 with foot), but may also be a simple thrust member having a roll-off radius. The adjustment of the valve clearance is accomplished using the adjusting screw 31 on the pushrod side. In a variant, a hydraulic compensation element 13 is used which is integrated in rocker arm 8 on the pushrod side. Oil is supplied through the hole to the rocker arm bearing. Axial retainment and resilient support of the two rocker arms at the ends of the shaft may also be accomplished by a special clip which combines the two functions in one device. In
A hydraulic compensation element 13 is disposed between rocker arm 8 and pushrod 7 for play-free valve operation, as is illustrated in
A substantially play-free valve operation is achieved by means of adjusting screws 31 and lock nuts 32.
Number | Date | Country | Kind |
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102010-047-700.1 | Oct 2010 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP11/04852 | 9/29/2011 | WO | 00 | 4/3/2013 |