Valves and valve actuation – Electrically actuated valve – Balanced valve
Reexamination Certificate
2000-06-05
2003-03-11
Fox, John (Department: 3753)
Valves and valve actuation
Electrically actuated valve
Balanced valve
C251S282000
Reexamination Certificate
active
06530556
ABSTRACT:
The invention relates to a control unit for controlling a pressure buildup in a pump unit, with a control valve and a valve actuation unit connected to the pump unit. The control valve is embodied as an inlet-valve that opens in the inlet flow direction, which has a valve body which is supported so that the valve body can move axially in a housing of the control unit and rests against a valve seat of the control valve from the inside when the control valve is closed.
PRIOR ART
Control units of this kind can be used to control a pressure buildup in a wide variety of pump units. For example, the prior art has disclosed control units which control the pressure buildup of pump units that are used to build up an injection pressure of an injection system for fuel delivery into a combustion chamber of direct injection internal combustion engines. Control units of this kind are usually embodied as solenoid valves. In this connection, the valve actuation unit is embodied as an electromagnet which actuates the control valve. The solenoid valve is open when it is not excited. As a result, there is a free through flow from the pump unit to the low-pressure region of the injection system and it is consequently possible for the pump chamber to be filled with fuel during the intake stroke of the pump piston and a return flow of the fuel during the delivery stroke. A triggering of the solenoid valve during the delivery stroke of the pump piston closes this bypass. This leads to a pressure increase in the high-pressure region of the system.
In the control units known from the prior art, the control valve is usually embodied as a so-called inlet valve that opens in the inlet flow direction. In comparison to so-called outlet-valves that open out in the flow direction, inlet-valves have the advantage that they are significantly easier and less expensive to produce.
However, the known control units have the disadvantage that a considerable expenditure of force is required to actuate the control valve by the valve actuation unit. This is a result of the fact that when the control valve is closed, highly pressurized mediums exert compressive forces on the valve body and the resulting force in the axial direction must be overcome when the control valve is actuated. According to the prior art, spring elements, which counteract the resulting force acting on the valve body, are frequently used in order to reduce the valve actuation forces. However, these spring elements exert a constant spring force on the valve body independent of the pressure prevailing in the control valve. At low pressures, this spring force can be too high, at higher pressures, the spring force can be too low, so that in both instances, a considerable expenditure of force is required in order to overcome the spring force or in order to overcome the resulting force acting on the valve body.
For this reason, the valve actuation units according to the prior art must be selected so that they always exert a sufficiently high force to actuate the control valves. As a rule, this usually requires bulky valve actuation units. In the control valves of the control units according to the prior art, the use of piezoelectric actuators as valve actuation units is not possible since the valve actuation forces or valve actuation strokes produced by the piezoelectric actuators are as a rule not of sufficient magnitude to actuate the known control valves.
Another disadvantage of the known control units lies in the switching times which are quite long due to the high valve actuation forces.
The above-mentioned disadvantages of the prior art give rise to an object of the invention, which is to produce a control unit whose control valve can be actuated with low valve actuation forces and which has short switching times.
In order to attain this object, a control unit of the type mentioned at the beginning which is characterized by an axially effective surface of the valve body which is embodied in such a way that the forces, which act on the valve body when the control valve is closed and are due to the pressure present in the pump unit cancel each other out.
In the control unit according to the invention, the compressive forces of the medium present in the control valve are advantageously used to reduce the valve actuation forces to a minimum as a function of the pressure of the medium present. The compressive forces acting on the valve body cancel each other out so that the resulting force is equal to zero. To this end, the axially effective surface of the valve body that is directed inward in the flow direction and the axially effective surface of the valve body that is directed outward in the flow direction have the same area. Due to the medium present against the valve body, equal, but counterpoised compressive forces act on the two axially effective surfaces and cancel each other out. Consequently, only forces other than the force resulting from the compressive forces have to be overcome in the actuation of the control valve, e.g. friction forces or spring forces. The axially effective surface of the valve body can also be embodied in such a way that the resulting force counteracts the other forces so that when all of the forces acting on the valve body are added together, the result is minimal valve actuation forces.
As a result of the low valve actuation forces, the control unit according to the invention advantageously has very short switching times. The switching times are approximately 100·10
−6
seconds.
The cross-section through the valve body and the course of the valve seat can have an arbitrary contour. In actual use, round shapes such as circles or ellipses predominate, among other things, for technical manufacturing reasons. However, it is also conceivable for use of other contours which do not have a round course.
According to an advantageous improvement of the invention, the valve body has a circular cross-section and is supported so that the valve body can move axially in the housing by means of a first guide element that is disposed on the inside in the flow direction, that the valve seat has an annular course, and that the outer diameter of the first guide element is equal to the outer diameter of the valve seat. In this improvement, a first annular axially effective surface is embodied so that the surface is disposed in the inlet flow direction and is directed inward around the first guide element. A second annular axially effective surface of the same size is embodied so that the second surface is likewise disposed in the inlet flow direction and is directed outward toward the out-flow. The pressure of the medium against the valve body when the control valve is closed produces equivalent compressive forces against the two annular surfaces. The compressive forces are counterpoised and cancel each other out. The valve actuation forces are consequently minimal if there is any pressure against the valve body.
In order to assure a reliable guidance of the valve body in the housing of the control unit, the valve body is supported so that the valve body can move axially in the housing by use of a second guide element that is disposed on the outside in the flow direction. In this way, the valve body is supported so that the valve body can move axially in the housing by means of a guide element on both sides of the valve seat. As a result, a full contact of the valve body against the valve seat and a reliable sealing function of the valve seat can be assured.
In order to prevent an excessively abrupt return of the valve body when the control valve opens, the second guide element has an axially effective surface that is embodied in such a way that the forces which act on the valve body due to the prevailing pressure when the control valve is open virtually cancel each other out. When the control valve is open, the axially effective surface of the valve body that is directed in the out flow direction is enlarged by an area which, when the control valve is closed, is protected by the valve seat from the pressure acting on the valve bo
Fox John
Greigg Ronald E.
Robert & Bosch GmbH
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