Internal-combustion engines – Poppet valve operating mechanism – With means for varying timing
Reexamination Certificate
2000-09-18
2002-01-22
Walberg, Teresa (Department: 3742)
Internal-combustion engines
Poppet valve operating mechanism
With means for varying timing
C123S090110, C123S090120, C123S090140
Reexamination Certificate
active
06340009
ABSTRACT:
The present invention relates to an internal combustion engine having at least one combustion chamber, which chamber has at least two hydraulically or pneumatically actuatable valves that are each guided in a respective valve guide, namely an inlet valve for admitting fuel or a fuel-air mixture into the combustion chamber before the combustion event and an outlet valve for exhausting the combustion exhaust gases from the combustion chamber after the combustion event. The present invention also relates to a hydraulically or pneumatically actuatable valve guided in a valve guide. Finally, the present invention also relates to a method for limiting the stroke stop of a hydraulically or pneumatically actuatable valve guided in a valve guide.
PRIOR ART
Such internal combustion engines with hydraulically or pneumatically actuatable valves are known from the prior art. Compared to internal combustion engines with camshaft-actuated valves, they have the advantage that the valves can be triggered individually, independently of one another. As a result of the variable valve triggering, the noise production can be reduced, and the fuel consumption and exhaust gas performance of the engines can be improved markedly.
In these known internal combustion engines, however, it proves to be disadvantageous that the hydraulically or pneumatically triggerable valves have quite long response times. It takes approximately 300-400 ms until a valve that is in the process of opening reacts to a corresponding command of a control unit, terminates its opening motion, and comes to a stop in a desired valve position. With the aid of this kind of triggering of the valves, the stroke stop of the valves can for instance be varied. Because of the long response times, the triggering of the valves can be done with only limited precision, and it is moreover very complicated to include the hydraulic or pneumatic valve triggering in a closed-loop control.
It is therefore an object of the present invention to design and refine an internal combustion engine of the type defined at the outset in such a way that the response times of the valve control are shortened decisively.
To attain this object, the invention, taking as its point of departure the internal combustion engine as defined at the outset, proposes that the valves can each be fixed relative to the valve guide by means of a respective electrically actuatable fastening element.
By the use of the electrically actuatable fastening elements, the valves can be fixed in an arbitrary valve position relative to the valve guide. The response times of these electrically actuatable fastening elements are very short. With their aid, the reaction times of the hydraulically or pneumatically triggerable valves can be shortened decisively, in that simultaneously with the hydraulic or pneumatic assembly, the electrically actuatable fastening elements, which respond faster, are triggered as well. The activation of the fastening elements, for instance during the opening of a valve, causes a brief blocking of the hydraulic or pneumatic valve actuation assembly. The fast-response fastening elements, which fix the valve relative to the valve guide, then act counter to the hydraulic or pneumatic assembly, which attempts to continue the opening of the valve until this assembly, too, responds to the control signal for terminating the opening motion. Yet the blocking does not affect the hydraulic or pneumatic valve actuation assembly, since the valve actuating means (a liquid or a gas) are compressible and thus have a cushioning effect.
According to the invention, it has been discovered that the long response times of the hydraulically or pneumatically triggerable valves occur because of the high volumetric flows inside the valve actuation assembly. By using additional electrically actuatable fastening elements with substantially shorter response times, the reaction times of the valves of the internal combustion engine of the invention can be shortened decisively.
Advantageously, the fastening element is embodied as a clamping element. A clamping element can clamp the valve firmly relative to the valve guide by means of frictional engagement. As a result, once a desired valve opening position is reached, there is not an abrupt or sudden cessation of a valve opening motion. Instead, the valve is braked relative to the valve guide during the opening motion.
In an advantageous refinement of the invention, it is proposed that the valve shaft has a stroke stop, which upon opening of the valve meets the clamping element, and that the clamping element in the relaxed state is axially displaceable by the stroke stop in a clamping element guide relative to the valve guide, counter to the force of a spring element. The clamping element is a variable stroke stop, by which the valve stroke can be variably set. The clamping element can be displaced inside the valve guide in the relaxed state. The displacement of the clamping element in the direction of shorter valve strokes is done by means of a spring element, which acts between the valve guide and the clamping element. The displacement of the clamping element in the direction of longer strokes by the stroke stop of the valve shaft during the opening motion of the valve. Once the desired valve position is reached, the clamping element is activated, and the valve is fixed in its position at that instant relative to the valve guide.
In another advantageous refinement of the internal combustion engine of the invention, it is proposed that the valve shaft has a stroke stop, which upon opening of the valve meets the clamping element, and that the clamping element in the relaxed state is axially displaceable hydraulically or pneumatically in a clamping element guide relative to the valve guide, counter to the force of a spring element. In this embodiment as well, the clamping element allows a variable stroke to be set. The clamping element can be displaced inside the valve guide, in the relaxed state. Displacing the clamping element in the direction of shorter valve strokes is done by means of a spring element, which acts between the valve guide and the clamping element. Displacing the clamping element in the direction of longer strokes is effected by means of a hydraulic or pneumatic adjusting assembly. By means of the adjusting assembly, the clamping element can be moved into an arbitrary valve stroke limiting position, independently of any valve opening motion. Once the desired valve stroke position is reached, the clamping element is activated and fixed relative to the valve guide. The valve can now be opened only widely enough that the stroke stop meets the clamping element.
Several exemplary embodiments have been described above in which the clamping element is displaceable relative to the valve guide in the relaxed state and is fixed relative to the valve guide in the activated state. However, it is also conceivable for the clamping element to be fixed relative to the valve guide in the relaxed state and to be displaceable in the activated state.
Preferably in internal combustion engines with at least two inlet valves and/or at least two outlet valves per combustion chamber, the clamping elements of at least two of the inlet valves and/or at least two of the outlet valves are connected to one another via a bridge element. In this way, in multiple-valve internal combustion engines, the clamping elements of each of the inlet valves and outlet valves of a combustion chamber can be controlled jointly via the valve assembly. Advantageously, the clamping element has at least one piezoelectric actuator for actuating the clamping element. Piezoelectric actuators have the advantage of having especially short response times and of bringing about firm clamping of the clamping element relative to the valve guide within about 20 ms after a suitable control signal. This means that the response times of the valves of the internal combustion engine of the invention can be shortened by a factor of approximately 10 to 20.
In an advantageous refinement of the inv
Dakbour Fadi H.
Greigg Ronald E.
Robert & Bosch GmbH
Walberg Teresa
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