Fluid handling – Systems – Plural tanks or compartments connected for serial flow
Reexamination Certificate
1999-11-05
2002-06-25
Rivell, John (Department: 3753)
Fluid handling
Systems
Plural tanks or compartments connected for serial flow
C137S573000, C137S576000
Reexamination Certificate
active
06408874
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for the reduction of splashing noises in a fuel tank of a motor vehicle, with damping elements arranged in the fuel tank.
Such devices are often used, for example in racing vehicles, and are therefore known. In these, the damping elements are frequently designed as baffles arranged in the fuel tank. The baffles subdivide the fuel tank into a plurality of chambers. The fuel accelerated in the direction of a wall of the fuel tank first flows around a baffle arranged in front of said wall, before it comes up against the latter.
A disadvantage of the known fuel tanks is that disturbing splashing noises occur in the fuel tank despite the fact that baffles are arranged in the latter. In the most unfavorable situation, the baffles of the known device may even cause splashing noises when fuel sloshes against the baffles or when the baffles deflect the flow of fuel perpendicularly onto the wall of the fuel tank.
SUMMARY OF THE INVENTION
The problem on which the invention is based is to design a device of the type initially mentioned, in such a way that it reduces disturbing splashing noises to as great an extent as possible.
This problem is solved, according to the invention, in that the damping elements are designed as guide elements and/or guide plates for deflecting the flow of fuel onto the wall of the fuel tank at an angle different from 90° and/or for throttling the velocity of the flow.
Perpendicular impingement of a strong flow is avoided by virtue of this design. The splashing noises which occur are the lower, the flatter the angle is, at which the flow is deflected onto the wall and the lower the flow velocity of the fuel is. The fuel deflected by the guide elements or the guide plates subsequently flows virtually silently along the wall. Splashing noises in the fuel tank are thereby markedly reduced. If there is simultaneous throttling of the flow velocity and deflection of the flow of fuel, the splashing noises are avoided almost completely.
According to an advantageous development of the invention, the flow of fuel can be deflected into an intended direction in a simpler way if the guide plates form a channel relative to one another or to the bottom of the fuel tank. In this case, the guide plates are arranged at a flat angle to the direction of flow, so that disturbing splashing noises do not occur when the flow impinges onto the guide plates.
According to another advantageous development of the invention, the flow velocity of the fuel is throttled if the channel has a cross-sectional widening as a calming region. In the simplest instance, the guide plates are arranged at a short distance from the bottom of the fuel tank and ascend towards the lateral walls of the fuel tank. In this case, fuel flowing through under the guide plates is throttled in the calming region and fuel flowing over and beyond the guide plate is deflected upward. Further guide elements provided for deflecting the flow may be arranged, for example, on the guide plates or on the bottom of the fuel tank.
Particularly loud splashing noises occur when the motor vehicle is being braked or accelerated. According to another advantageous development of the invention, these splashing noises can be damped to a particularly great extent if guide plates forming channels are arranged in each case in a front region and in a rear region of the fuel tank.
According to another advantageous development of the invention, the velocity of the fuel flowing over the guide plates is throttled if a funnel-shaped inflow region is arranged upstream of the calming region. Moreover, as a result of the funnel-shaped design, the fuel is fed uniformly to the calming region when there are different filling levels in the fuel tank.
According to another advantageous development of the invention, the flow velocity of the fuel can be further reduced if an outflow region with a cross section larger than the cross section of the calming region is arranged downstream of said calming region.
According to another advantageous development of the invention, a contribution is made to further reducing the splashing noises in the fuel tank if the guide elements are arranged on the flow-side end of the channel.
If the filling level of fuel in the fuel tank were to cover the guide plates, some of the fuel flowing over said guide plates could bounce against the wall of the fuel tank and cause splashing noises. It would be conceivable likewise to arrange on the top side of the guide plates guide elements which deflect the fuel flowing over the guide plates onto the wall at a flat angle. However, according to another advantageous development of the invention, such guide elements to be additionally provided can be avoided if the guide elements have a scoop-shaped design in order to reverse the direction of flow of the fuel flowing out of the channel. That portion of the fuel which flows over the guide plates is thereby deflected by the fuel which has been deflected by the guide scoops provided for the reversal of flow.
According to another advantageous development of the invention, the fuel leaves the calming region at a particularly low velocity if at least one of the guide elements is arranged in the calming region.
According to another advantageous development of the invention, the splashing noises are particularly low if a damming element oriented essentially perpendicularly to the direction of flow is arranged in the calming region. In this case, the damming element reduces the flow velocity in the calming region. Further guide elements for deflecting the previously slowed flow may subsequently be provided.
A contribution is made to further reducing the splashing noises in the case of different filling levels in the fuel tank if the guide plates are arranged at different heights and essentially parallel to the bottom of the fuel tank. In this case, if the fuel tank is virtually full, the uppermost guide elements prevent the splashing noises, whilst, if the fuel tank is nearly empty, the lowermost guide elements deflect the flow so as to reduce the noise.
According to another advantageous development of the invention, the flow in the fuel tank is deflected onto the lateral wall of the fuel tank at a flat angle, virtually without swirling, if the guide elements have a wing-shaped design.
The directions of the flow causing the splashing noises in the fuel tank cannot often be reliably foreseen. According to another advantageous development of the invention, splashing noises occurring when the flow impinges perpendicularly onto a guide element or a damming element can be reduced in a simple way if the guide elements or the damming elements have a multiplicity of passages. By virtue of this design, some of the fuel impinging perpendicularly onto the guide scoops can flow through the passages. The impingement of the flow is thereby damped to a great extent. However, a flow impinging obliquely onto the guide elements provided with passages is largely deflected into the intended direction.
According to another advantageous development of the invention, a sharp impingement of the fuel onto the guide elements can be damped in a simple way if the guide elements are designed resiliently.
According to another advantageous development of the invention, the flow is deflected according to the flow intensity if the guide elements have a resilient arm and if a guide wing is fastened to the resilient arm.
A direction of flow of the fuel in the fuel tank which generates splashing noises can be avoided in a simpler way if the device according to the invention has flap valves for throttling a flow of the fuel in one direction.
The device according to the invention can be produced particularly cost-effectively if the guide elements and/or the guide plates are manufactured in one piece with a wall or a bottom of the fuel tank. This is advantageous particularly in the case of fuel tanks manufactured from plastic by the injection molding method, since the guide elements and/or the guide plates can be provided at
Mannesmann VDO AG
Mayer Brown Rowe & Maw
Rivell John
Thimmig David M.
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