DE4311470A1 - Ventilation and venting device for a vehicle fuel tank - Google Patents

Abstract

A ventilation and venting device for a vehicle fuel tank, in which the ventilation, with the tank closed, occurs by way of a filter, is intended to prevent fuel escaping into the filter and beyond this, whilst being of simple design construction and functioning reliably in any operating conditions and positions of the vehicle. To this end, a hollow venting space, separated from the remainder of the tank interior and situated above the tank filling when filled to the maximum operating filling volume, is separated off in the uppermost part of the tank, the base of which space continuously tapers to a deepest point, at which the said hollow space is connected by way of a gravitational float valve to the remainder of the tank interior, and which at a further point, at any time remote from the gravitationally low lying base of the hollow space in any horizontal position of the vehicle, is connected to a filter line leading to the filter. In a multi-domed design of the tank upper wall, the tank domes are connected to one another by way of an equalising line which can be pumped free of fuel by means of a suction nozzle pump driven by the fuel return flow inside the tank.

Description

The invention relates to a ventilation device ei nes vehicle fuel tanks, where the ventilation with a closed tank via a filter and the in any position of the vehicle as close as possible to the Filter is leaking fuel.

With such a ventilation system, it is important tig that neither in any vehicle operating conditions nor in accident-related vehicle positions, which also causes the vehicle can lie on your head or on one of the sides, Fuel can reach the filter in liquid form or in the event of an accident-related position of the vehicle via the filter can flow.

A structurally simple and the aforementioned requirements To create a safe and fulfilling institution is that of the inventor underlying problem.

This problem is basically solved by the configuration device of a generic ventilation system the characterizing features of claim 1.

The one of the remaining tank area provided in the tank time separate ventilation cavity ensures in cooperation with the gravity float valve according to the invention that  Fuel that - for whatever reason - in the fuel-free zenith area of the tank does not penetrate via the filter line leading out of the ventilation cavity flow to the filter and thus to the outside of the tank can.

It is important to have a dual function of gravity Float valve. This double function is that the ses valve in cases where the float of this Ven tils can float due to the vehicle position, in the Fuel tank entering the zenith area above the Float closes while the cavity closes the valve in cases where the vehicle is un falls on the roof due to its gravity function closes.

In an operation and an operating position of the vehicle, in which according to the design of the tank in the environment of the Vent cavity is no fuel, that keeps Gravity float valve in the vent cavity Floor area opened. In this state, through in the Excess pressure of the fuel tank can be discharged to the outside Fuel vapor through the vent cavity the lei leading from the vent cavity into the filter tion are dissipated. The filter is usually an active one carbon filter.

In terms of shape, the ventilation cavity is designed such that its bottom continuously leads to a deepest point in the by the gravity float valve against the Lockable opening is located inside the tank. This shape The purpose of the device is to get into the vent cavity or from the fuel vapor in this separated fuel  this cavity when the gravity float valve is open can easily leave inside the tank.

The line leading to the filter is advantageously over a throttle opening connected to the vent cavity. The throttle opening makes it difficult for liquid to penetrate Fuel into the filter line. Furthermore, the Dros Sel Opening at such a point in the vent cavity attached that they in all horizontal vehicle positions of the cavity wall lying below in terms of geography has a relatively large distance. Under horizontal driving All positions of the vehicle with the exception of those understood in which the vehicle with its longitudinal axis stands vertically. By this arrangement of the junction of Filter line to the vent cavity is guaranteed that fuel in the vent cavity, so as long as it is only in a small amount, be in the aforementioned any position of the vehicle not in the filter line di can enter directly. The connection opening of the filter line Rather, it usually ends at slightly with fuel filled vent cavity in the fuel-free room this cavity.

To prevent liquid fuel from penetrating the filter Avoiding the line into the filter as safely as possible Filter line on its leading into the vent cavity End as in a horizontal position of the vehicle around a vertical Axial helix, the perpendicular bottom End opens into the cavity while being perpendicular to it top end is bent down as a fall line. The This spiral section of the filter line acts like a De Breastfeeding device, which in this spiral area from the Ent venting fuel vapor partially con and this condensate by the Wendelan concerned  order is returned to the ventilation cavity that can.

The helix also contributes to leakage when cornering flows through the gravity float valve into the vent The fuel cavity entered only delayed in the Fall line area of the filter line can occur. Solan entry into the case management area has not yet taken place is, the fuel that has entered the coil at Be End of cornering again in the ventilation cavity back and from there past the gravity float valve drain into the interior of the tank.

The leading from the vent cavity filter line is as a fall pipe vertically into one attached to the tank bottom Gas separation room led. This gas separation room opens they plumb up. This is offset in the line axis Filter line only continues after a short break settlement. The gas separator room is primarily used to Fuel that despite the presence and fiction appropriate design of the vent cavity in the case area of the filter line has reached this gas separator to intercept the room. For this purpose, the opening of the the gas separation area from the leading filter line at a distance above the floor of this room. This can result in below the Opening the liquid fuel from the leading filter line temporarily accumulate that during normal driving then it can evaporate again at some point due to the heat.

In cases where the emptying cavity according to the invention is arranged in tanks that several, d. H. especially two have spaced apart domes is a gas exchange between the neighboring cathedral zenith areas. To for this purpose there are corresponding compensation lines  already for example from DE 30 40 160 A and DE 32 24 943 C. known. When executing the compensation line according to DE 30 40 160 A is already the problem of a risk of constipation the compensating line due to fuel penetrating into it recognized and solved by forced suction. The Forced suction takes place there when the tank is filled fresh fuel through the filler vent line. A Suction is therefore only possible during the tank filling process possible.

In the context of the problem of a safe and structurally simple tank design with integrated loading and Venting device is also intended for safer vacuuming the compensation line between neighboring domes who cared the, with the suction also guaranteed in particular should be if there is no tank filling process. The one Incidentally, such an improvement is said to apply to tanks follow where a fuel return line in the tank is present, which has a calming tank in the fuel-free zenith of a tank dome guided freely from running is. In this case, the compensating line must be suctioned off whose vertically lowest position over one in one at horizontal right vehicle position vertically up to the zenith area one of the dome-looped suction line with a downstream of the still tank below the Ab suction point provided in the return line suction pump connected. This ensures that the compensation Line connecting the zenith areas of neighboring tank domes det, constantly empty during normal vehicle operation can be sucked. The loop led vertically upwards The suction line ensures that there is no fuel from the Return line can flow into the compensating line.  

Otherwise, they are free in the zenith areas of the tank domes leading openings of the compensation line by one Labyrinth seal covered. This should prevent the intrusion of temporarily enter these fuel-free tank zones sufficient fuel.

With spaced tank domes z. B. in tanks that have a recess for a ski bag passage must have.

A particular advantage of the invention is that all Equipment required for tank ventilation and ventilation are largely housed inside the tank.

An embodiment of the invention shows the drawing in of the ventilation device schematically together with an empty suction compensating line on a two domi gen tank is shown.

The exemplary embodiment relates to a tank 1 with an indentation provided on the tank top wall. When installing the tank 1 behind the rear seat of a vehicle, this registration serves to carry out a ski bag. The indentation creates two separate tank domes 2 , 3 on the tank top wall.

For a gas balance between the zenith areas of this at the domes provides an equalization line 4 , the open ends of which each extend into that dome area which, according to the design of the tank, lies above half the fuel level with the vehicle at least in a horizontal position. Thus, while driving in unfavorable vehicle attitudes or vehicle operating conditions (such as cornering, braking and Beschleunigungszu stands) no or little as possible from the openings of the compensating line 4 gelangendem fuel equal to the lead in this Off 4 can penetrate, the openings are covered by labyrinth seals. 5

The tank is filled via a filler neck 6 , which is provided in the usual way with a filler vent line 7 .

The possibility of a gas exchange between the inside of the tank and the atmosphere, which is necessary in a fuel tank, is usually carried out via a filter, which is usually an active carbon filter. To such an activated carbon filter, not shown in the drawing, in the present embodiment, a filter line 8 leads into three different areas 8 '' (coil), 8 '' (drop line) and 8 '''(filter connection), which are explained in more detail below Line) is divided.

The area 8 'of the filter line is designed as a helix running around a perpendicular right axis, which is introduced into a vertically quite upper region of the tank 1 inside the dome 3 , ventilation cavity 9 which begins by acting as a throttle 10 Opening.

The vent cavity 9 has a bottom which is inclined vertically downwards towards the middle of the tank. At its lowest point, the gravity float valve 11 according to the invention is located in a pipe 13 pointing vertically downward. When fuel is present, this valve closes the opening 12 of the ventilation cavity 9 leading from the deepest point of the bottom into the tank interior. When the vehicle is upside down, the float valve 11 closes the opening 12 un ter gravity. The throttle 10- opening of the coil 8 'is perpendicular to the ventilation cavity 9 such that this opening remains unwetted with only a small amount of liquid fuel contained in the ventilation cavity.

A case line 8 'connects the coil 8 ' with a Gasab separating chamber 14 , from which a filter connection line 8 '''leads to the non-represented filter of the tank 1 connected to the atmosphere. The connection line 8 '''protrudes perpendicularly from below into the gas separation chamber 14 achsver compared to the fall line 8 ''over a certain height. As a result, fuel flowing from the drop line 8 '' can initially settle to the bottom of the gas separating chamber 14 without being able to immediately reach the filter. The deposited fuel can rather evaporate and be fed back into the tank interior via the helix 8 'and the bottom of the ventilation cavity 9 .

In case of unfavorable operating conditions or unfavorable vehicle position liquid fuel should enter the filament 8 'of the filter line 8 , this part can, if it has not completely filled the del volume, when normal vehicle operating conditions re-occur (e.g. driving straight ahead after a long curve in the same direction ) flow back into the ventilation cavity 9 and from there via the opening 12 which is kept free of fuel from the float valve and into the tank interior.

Since with the help of the labyrinth seals 5 in unfavorable vehicle operating conditions, the entry of fuel into the compensating line 4 cannot be reliably prevented, it must be ensured for an ongoing function of the compensating line 4 that this does not relate to a free gas flow due to fuel that has entered is clogged. A suction system is used for this purpose, the structure and function of which are as follows.

Fuel tanks usually have a fuel return line 15 through which fuel is forcibly guided into a still tank 16 . The fuel drawn off for the vehicle engine is taken from this calming tank 16 . The difference between the recirculated fuel and the fuel supplied to the engine is returned to the interior of the tank via a continuation of the fuel return line leaving the sedimentation tank 16 . The free end of the fuel return line 15 leads into an upper region of the tank, which is in a horizontal vehicle resting position after the tank design is above the fuel level. Due to this position of the end of line 15 , fuel vapor bubbles present in the recirculated fuel can be quietly conducted. The part of the fuel return line 15 leaving the calming tank 16 is therefore referred to in practice as a bubbler line. In this bubbler line section of the fuel return line 15 , a suction pump 17 is provided. With this suction nozzle pump 17 , fuel accumulating in the bottom area of the compensating line 4 is sucked out. In order to be able to safely suck off the liquid fuel present in the compensating line 4 , a collecting pot is provided at the lowest point, into which liquid fuel can enter from the compensating line 4 via an opening 19 . A line 20 leads from this collecting pot 18 to the suction nozzle pump 17 . In order to avoid that gravity fuel from the blubber line part of the fuel return line 15 can flow back into the header 18 and from there into the compensating line 4 , the line 20 is connected to the suction nozzle pump 17 via a vertically guided loop. Due to the constantly recirculated fuel flow in vehicle operation, the suction device described ensures that no gas accumulation-suppressing liquid accumulation can form in the compensation line.

Claims (7)

1. Ventilation device of a vehicle fuel tank, in which the ventilation takes place with the tank closed via a filter and the vehicle in any position of the vehicle is as tight as possible against fuel flowing through the filter, characterized in that in the zenith the tank ( 1 ) is separated from the rest of the interior of the tank ( 1 ) at maximum operating filling volume above half of the tank filling ventilation cavity ( 9 ) is separated, the bottom of which runs continuously to a deepest point at which this cavity ( 9 ) is connected to the rest of the tank interior via a gravity float valve ( 11 ), and that at a further point at any horizontal vehicle position from the bottom of the cavity ( 9 ), which is at the bottom of the earth's gravity, a point leading to the filter filter line ( 8 ) connected. 2. Device according to claim 1, characterized in that the filter line ( 8 ) via a throttle ( 10 ) to the Ent ventilation cavity ( 9 ) is connected. 3. Device according to claim 1 or 2, characterized in that the filter line ( 8 ) at its end in the ventilation cavity ( 9 ) leading end as a horizontal position of the vehicle about a vertical axis extending coil ( 8 ') is, whose perpendicularly bottom end opens into the cavity ( 9 ), while at its vertically uppermost end it is bent downwards as a fall pipe ( 8 ''). 4. Device according to one of the preceding claims, characterized in that as a drop line ( 8 '') of the filter line ( 8 ) formed out section in the horizontal position of the vehicle from lot right at the top into a separate gas separation chamber ( 14 ) , from the lower end of which leads to the filter line ( 8 ) at a distance both to the end of the fall line ( 8 '') and to the bottom of this room ( 14 ). 5. Device according to one of the preceding claims, in particular one with dome-like bulges of the tank top wall, in which the vent cavity is spaced from the vehicle longitudinal axis, characterized in that the deepest point of the vent cavity ( 9 ) the point of the cavity ( 9 ) closest to the vehicle axis. 6. Device according to one of the preceding claims with at least two spaced domes and one of the inner zenith areas of two spaced domes ver binding from plugging fuel absorbing compensation line and a calming tank in the fuel-free zenith one of the tank domes led fuel return line according to one of the preceding claims, characterized in that for sucking off the compensating line ( 4 ), its vertically and lowermost point via a loop ( 21 ) guided in a loop ( 21 ) extending vertically upward in the zenith area of one of the domes ( 2 , 3 ) when the vehicle is in a horizontal position ( 20 ) with egg ner downstream of the still tank in the return line ( 15 ) provided suction nozzle pump ( 17 ). 7. Device according to claim 6, characterized in that the free ends of the compensating line ( 4 ) lying in the zenith areas of the domes ( 2 , 3 ) of the tank are each covered by a labyrinth seal ( 5 ).