Internal-combustion engines – Poppet valve operating mechanism – With means for varying timing
Reexamination Certificate
2002-08-16
2003-08-26
Denion, Thomas (Department: 3748)
Internal-combustion engines
Poppet valve operating mechanism
With means for varying timing
C123S090150, C123S090160
Reexamination Certificate
active
06609486
ABSTRACT:
BACKGROUND
The invention relates to a device for changing the control times of gas exchange valves in an internal combustion engine, and it can be used advantageously, especially on hydraulic camshaft-adjustment devices.
A device of this general type is known from EP 0 806 550. This device, suitable essentially as a hydraulic adjustment device of the rotary piston type, is fixed at the drive side end of a camshaft located in the cylinder head of the internal combustion engine, and includes a crankshaft component driven by a crankshaft of the internal combustion engine and connected to the crankshaft, and a camshaft component fixed to the camshaft. The component connected to the crankshaft is designed as a drive wheel which forms a device casing, while the component fixed to the camshaft is shaped as a winged wheel inserted into the drive wheel, having several radial wings. Moreover, the component connected to the crankshaft is connected to the component fixed to the camshaft for power transmission through several pressure chambers located inside the device. When a hydraulic pressure is exerted on the pressure chambers alternately or simultaneously, it causes a rotation or hydraulic adjustment of the component fixed to the camshaft, relative to the component fixed to the crankshaft. This rotation or hydraulic adjustment causes a rotation of the camshaft relative to the crankshaft.
An impulse generator wheel is positioned at an axial side outside of the device to determine the position of the camshaft relative to the position of the crankshaft when the internal combustion engine is in operation. This impulse generator wheel is attached to the component fixed to the camshaft with the help of a central fastening screw of the device. In addition, a spring attached to the component fixed to the crankshaft as well as the component fixed to the camshaft is located in an additional hollow space inside the device. The spring is shaped as a torsion spring, and when the internal combustion engine is switched off, the spring rotates the camshaft into a preferred position for starting the internal combustion engine. The preferred position is made secure by an additional locking mechanism attached to the device. It is known from DE 197 26 300 A1, that this spring should be made of a flat spiral spring located in an additional space for springs in the device, or of a compression coil spring located in pressure chambers working in only one direction.
The disadvantage of using these known devices however, is that on one hand, the arch shaped positioning of the coil spring in the pressure chambers of the device imposes a heavy mechanical load, and consequently, causes a high degree of erosion. On the other hand, the torsion springs or spiral springs inside spaces meant for springs in the device require an enlarged axial length of the device, which is not practical in view of the very limited construction space in the cylinder head of the internal combustion engine or in the engine space of the vehicle. The relatively more expensive production and assembly of such devices with internally designed springs have proved to be disadvantageous in view of their high manufacturing costs. Even for devices that have springs housed in additional spaces meant for springs, there is the disadvantage that in order to rotate the camshaft to the preferred position for starting the internal combustion engine, these devices, used generally as intake camshafts, must counter the drag momentum caused by the valve movement in the internal combustion engine.
They cannot be used on exhaust camshafts or as combined intake/exhaust camshafts simply by removing the spring, without taking into account the construction space related disadvantages imposed by additional spaces meant for the springs in the device. Otherwise, an expensive construction and production of a variant of this device especially for exhaust or combined intake/exhaust camshafts is necessary. However, this would have a negative effect on the general endeavor of using identical components for both intake and exhaust camshafts. Thus, it will also have a negative impact on the manufacturing costs of both variants of the device.
SUMMARY
The object of the invention therefore is to provide a device for changing the control times of gas exchange valves in an internal combustion engine, in which the necessary springs for rotating the camshaft to a preferred position for starting the internal combustion engine are characterized by a simple and cost-effective assembly. The springs in the device should not be subjected to high mechanical loads, and they should not require an enlarged axial length of the device.
In accordance with the invention, this object is met by a device in which the spring is located outside the device in a hollow space between the impulse generator wheel and the axial side of the device facing it. In addition, the spring is enclosed on at least two sides by the impulse generator wheel.
In an advantageous further development of the invention, it is recommended that the spring should preferably be made of flat spiral spring with multiple windings, the inner end of which is fixed to the impulse generator wheel and the outer end of which is fixed to the component attached to the crankshaft of the device.
Such a spiral spring with single or multiple windings is wound at least once coaxially along its longitudinal axis and can, depending on the radial construction space available for the spring, be wound as often as desired. Alternately however, it is also possible to use a spiral spring having single or multiple windings, with a round or some other winding cross section, or to use a torsion spring instead, which can, depending on the axial construction space available for the spring, be wound once or multiple times.
As a further characteristic of the device according to the invention, it is recommended that the impulse generator wheel should preferably be made of a disk shaped sheet metal part, with a fastening flange extending coaxially to the device. With the help of this fastening flange, the impulse generator wheel and the component fixed to the camshaft are screwed to the camshaft by a central fastening screw. It is also possible to provide a separate fastening of the impulse generator wheel to the component fixed to the camshaft of the device. Alternately, it is also possible to use a disk-shaped or spoke wheel shaped impulse generator wheel produced in some other suitable way—for example as stamped component, sintered component or even plastic or ceramic part with inserted impulse marks.
Further, it is recommended that in forming the device according to the invention, the axial length of the coaxial fastening flange of the impulse generator wheel should have a hollow cylinder attached to the component fixed to the camshaft, and a hollow square to which the inner end of the flat spiral spring is terminally fixed. The implication is that the inner end of the flat spiral spring should preferably be shaped in such a way that it encloses at least three sides of the hollow square at the fastening flange of the impulse generator wheel, and thus locks the flat spiral spring on the fastening flange of the impulse generator wheel, preventing it from rotating.
The diameter of the hollow cylinder and the lateral length of the hollow square of the fastening flange are preferably created identical, and correspond roughly to the diameter of the central fastening screw head, with which the impulse generator wheel is attached to the component fixed to the camshaft of the device. However, it is also possible to have different sizes for the diameter of the hollow cylinder, and the lateral length of the hollow square of the fastening flange. It is also conceivable that the fastening flange for the flat spiral spring of the type described above, is shaped entirely as a hollow square to provide it with a partial or whole multiple edge hollow profile cross section, to which the inner end of the flat spiral spring can then be adjusted for terminal fixing on the fast
Golovatai-Schmidt Eduard
Trappe Michael
Corrigan Jaime
Denion Thomas
INA-Schaeffler KG
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