Internal-combustion engines – Valve – Rotary
Reexamination Certificate
2001-02-12
2002-09-03
Kamen, Noah P. (Department: 3747)
Internal-combustion engines
Valve
Rotary
C123S190200, C123S190800, C123S0800BA
Reexamination Certificate
active
06443116
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention refers to valve device for a combustion engine including a combustion chamber and at least one channel for communication between the combustion chamber and an external space.
2. Description of the Prior Art
Such valve devices for combustion engines are known through, for instance, SE-B-401 387. The known valve device includes a rotatable valve body having a passage for the inlet channel and a passage for the outlet channel, which passages extend through the rotatable valve body. This provides for rotation of the valve body by means of a drive-wheel which is connected to the crank shaft of the combustion engine via a drive belt. The rotation of the valve body will thereby be timely related to the rotation of the crank shaft, and in the example provided in this patent the relation of the numbers of revolutions is 1:4. Consequently, the known valve body rotates at a substantially lower velocity than the crank shaft, which is an advantage per se. Furthermore, the valve body rotates continuously together with the crank shaft, i.e. the valve body rotates the whole time at a speed which is proportional to the speed of the crank shaft. This means that the inlet and outlet passages will be opened and closed successively and merely be substantially completely open during a very short time period. The suction procedure and the exhaust procedure will thereby be disturbed by the fact that these passages are merely partly open during a great part of said procedures. Certainly, SE-B-401 387 proposes to provide moveable sealings in the spaces at each side of the inlet and outlet channel, respectively, of the combustion chamber. The moveable additional valves thus enable a certain control of the times for the opening and the closing of the inlet and the outlet valves, respectively, as a function of the number of revolutions of the engine, for instance. However, the possibilities to vary the times appear to be limited and in addition, the construction is fairly complicated and involves a plurality of further components.
U.S. Pat. No. 4,976,227 discloses a combustion engine having rotatable valve bodies for the opening and closing, respectively, of the suction channel and the exhaust channel to the combustion chamber of the combustion engine. However, this document does not disclose any common rotary motor but the rotation of the valve body is provided by means of an electromagnetic arrangement, a so-called solenoid, wherein the electromagnets are activated and deactivated alternately in order to provide a discontinuous movement of the valve body. Thus, the valve bodies will be completely still in the positions obtained. No measures are disclosed to make the valve body rotate in a desired direction.
SUMMARY OF THE INVENTION
The purpose of the present invention is to remedy the problem mentioned above and provide a valve device which has a rotatable valve body and which enables a more instantaneous opening and closing of a suction and/or exhaust channel of a combustion engine. Furthermore, the present invention aims to provide improved possibilities to control such a valve.
The present invention obtains this purpose by the initially defined valve device characterised by a rotary motor being separated from the combustion engine and being arranged to provide said rotation. Such a separate rotary motor may be driven independently of the rotation of the crank shaft, which permits the valve body to be discontinuously rotated. That is, the valve body is rotated at different speeds and thereby very fast during the opening or closing phase of the valve device. In this way it is possible to avoid a slowly successive opening and/or closing of the valve device. Furthermore, an advantage of such a rotating valve is that it merely needs to rotate one revolution, whereas the crank shaft rotates four revolutions, i.e. the wear may be kept on a low level. Furthermore, such a rotating valve has substantially fewer mechanical parts than conventional cam shaft controlled valves.
According to an embodiment of the invention, the rotary motor is consequently arranged to rotate the above mentioned valve body from one of its positions to an adjacent one of its positions by a first high rotation velocity, to then rotate the valve body from this adjacent position by a second low rotation velocity, and to rotate the valve body from this adjacent position to the next adjacent position. The first time period, during which the valve body rotates from one position to another, is consequently advantageously substantially shorter than the second time period during which the valve body rotates in a position. The actual position thus includes an interval and not only one single position. This means that an inlet channel may be kept completely open during substantially the whole suction stroke of the engine and an outlet valve may be kept substantially completely open during the exhaust stroke. The second low rotation velocity may be permitted to vary with the number of revolutions per time unit of the combustion engine in such a manner that, at a relatively low number of rounds, the second rotation velocity may be substantially zero, i.e. the valve body is essentially stationary. At a relatively high number of revolutions, the second low rotation velocity may have a low value above zero, i.e. the valve body may advantageously be permitted to rotate at a low velocity. This facilitates the achievement of a very high first velocity for moving the valve body from one of said positions to an adjacent position.
According to a further embodiment of the invention, a control unit is arranged to control the rotation of the rotary motor. Thereby, a first sensor member may be arranged to sense the position of a crank shaft of said combustion engine. It is thereby possible to control the rotation of the rotary motor by means of the control unit in response to the sensed crank shaft position. That is, the control unit may initiate a very quick rotation of the valve body at a certain crank shaft position in order to open an inlet valve, for instance, at the upper dead center, and control the rotary motor in such a way that it does not rotate during a certain angle interval. Where the combustion engine is a four-stroke engine, the first sensor member advantageously includes two sensors which are known per se, which enable an exact identification of the position of each piston with regard to the whole stroke, two revolutions of the crank shaft. Furthermore, a second sensor member may be arranged to sense the number of revolutions per time unit of the combustion engine, wherein the control unit is arranged to control the rotation of the rotary motor in response to the number of revolutions. In such a manner, it is easily possible to change the opening and closing time, respectively, of the valve body in response to the number of revolutions of the combustion engine. Furthermore, the control unit may be arranged to control the valve body in order to control the number of revolutions per time unit of the combustion engine. Thereby, it is possible to dispense with conventional throttles in the carburettor or with the air control in case of direct injection.
According to a further embodiment, in which the combustion engine includes an inlet channel for the supply of air and fuel to the combustion chamber and an outlet channel for the discharge of combustion gases from the combustion chamber, the valve device includes a first rotatable valve body, which is provided in the inlet channel and includes a first passage extending in a direction through the first valve body. In this further embodiment, a second rotatable valve body is provided in said outlet channel and includes a second passage extending in a direction through the second valve body. Such valve bodies are especially suitable for controlling the suction and the exhaust in a four-stroke engine.
According to a further embodiment of the invention, the first and the second valve bodies form a body with a common axis of rot
AB Dafab
Hovey & Williams, LLP
Kamen Noah P.
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