EP1076171A2 - Valve for dosing the admission of volatilized fuel in an intake conduit of a combustion engine - Google Patents

Abstract

The valve has a valve closure element between a valve seat body (27) and a magnetic core (25) acted upon by a closing restoring mechanism and by an electromagnet (20) in the opening direction. A further electromagnet (30) arranged in a current path parallel with the valve's electromagnet actuates a further valve closure element with associated valve seat body (37), magnetic core (35) and restoring mechanism.

Description

State of the art

The invention relates to a valve for metered introduction from the fuel tank of an internal combustion engine volatilized fuel into an intake duct Internal combustion engine according to the preamble of claim 1.

Such a valve is, for example, from DE 42 44 113 A1 and known from DE 196 11 886 A1. Such Valves only have a flow characteristic, which is dependent on the flow through the valve of the differential pressure at the valve, on. The flow through these valves is particular in the suction area when there is a large differential pressure the valve, in many cases not fine enough meterable.

The invention is therefore based on the object Valve for the metered introduction from the fuel tank an internal combustion engine volatilized fuel so that a fine dosage of the regeneration gas flow in any operating condition, in particular even with internal combustion engines that are not exclusively in suction mode, but also in turbo or compressor mode work is possible.

Advantages of the invention

This task is carried out with a valve for metered introduction from a fuel tank of an internal combustion engine volatilized fuel in the internal combustion engine of the type described above by the features of claim 1 solved.

By arranging another electromagnet in one arranged parallel to the electromagnet Flow path through which another, between one another valve seat body and another magnetic core arranged and from another restoring means in Valve closing direction acted upon valve closing member can be actuated in the valve opening direction, depending a flow path from the actuation of the two electromagnets with different flow characteristics be opened. Through this as a register tank vent valve valve can be designated in The consequence of this is the regeneration gas flow on the one hand in operating states with small pressure differences, for example in turbo mode or in compressor mode a supercharged internal combustion engine, on the other hand but also in operating conditions with large pressure differences, i.e. in the suction mode of these internal combustion engines, be finely dosed.

It goes without saying that the two flow paths of the valve, i.e. through the two sub-valves flowing volume flows individually or together are switchable.

Advantageous embodiments of the invention are the subject of subclaims.

In an advantageous embodiment, that the valve seat body and the further valve seat body, which in principle are different Components can be formed in one piece with each other are connected. This particularly facilitates the Assembly and as a result lowers the assembly costs.

Furthermore, an advantageous embodiment provided that the electromagnet and the other Electromagnet one magnet housing or one magnet housing have forming component, with each other are connected in one piece. This embodiment too is simple and inexpensive Assembly versus training with two different Magnetic housings or two different, components forming a magnetic housing advantageous.

The magnet housing or those forming the magnet housing Components can, for example, as a pot-shaped magnet housing be trained. A particularly beneficial one Embodiment provides that each have a magnet housing forming components two, via a connecting web are integrally connected U-shaped brackets, which bobbins of the electromagnet and at least take up another electromagnet.

It is preferably provided that the electromagnet and the at least one further electromagnet via a common one Plug element are electrically contactable.

Especially with regard to a technically special easy to implement variation of the flow characteristics and an introduction to different To enable setting of the intake duct of the internal combustion engine, provides an advantageous embodiment, that one essentially aligned with the electromagnet and another, with the at least one more Electromagnets essentially aligned outflow nozzle are provided.

The further outflow connection preferably has the shape of a Laval nozzle, through its smallest Diameter defines the flow of a flushing quantity becomes. This partial valve is the working stroke or the Opening cross section larger than the free opening cross section in the outlet nozzle, so that on one setting of the magnet can be dispensed with.

drawing

Embodiments of the invention are in the drawing shown and in the description below explained in more detail.

Fig. 1

schematisch eine Schnittdarstellung eines von der Erfindung Gebrauch machenden Ventils und

Fig. 2

die Durchflusskennlinien des in Fig. 1 dargestellten Ventils und seiner Teilventile.

Show it:

Fig. 1

schematically shows a sectional view of a valve making use of the invention and

Fig. 2

the flow characteristics of the valve shown in Fig. 1 and its sub-valves.

Description of the embodiment

A valve for the metered admixture from the fuel tank a mixture-compressing, spark-ignited Internal combustion engine volatilized fuel to one the internal combustion engine via an intake duct or at direct petrol injection directly into a cylinder the fuel supplied to the internal combustion engine is part a fuel evaporation retention system, not shown an internal combustion engine. The structure and the function of such fuel evaporation retention systems is for example the "Bosch Technical Instruction engine management Motronic ", 2nd edition, August 1993, pages 48 and 49. An in itself Known tank vent valve and its function goes for example from DE 42 44 113 A1 and DE 196 11 886 A1, to which reference is made here will emerge.

A tank vent valve has a two-part valve housing 10 with a cup-shaped housing part 101 and a cap-shaped housing part that closes this 102 on. The cup-shaped housing part 101 carries an inlet connection 11 for connection to a ventilation connection of the fuel tank and one of these downstream, filled with activated carbon storage (not shown) for the volatilized fuel. The housing part 102 carries an outflow connection 12 and a further outflow connection 12a for connection different positions of the intake pipe of the internal combustion engine. For example, the discharge nozzle 12 with the air filter of the internal combustion engine between Filter material and throttle valve are connected, whereas the outlet pipe 12a with an opening directly behind the throttle valve of the internal combustion engine connected is.

On the pot-shaped housing part 101 is also a Adapter plug 80 for connecting an electrical Line via contact elements 81 for an electromagnet 20 and a further electromagnet 30 are provided.

As can be seen from FIG. 1, the inflow nozzle 11 and the outflow pipe 12 is essentially in alignment arranged with each other, whereas the outflow nozzle 12a in another parallel to this flow path Flow path is arranged. Each of the two Electromagnet 20, 30 has one, a magnet housing forming, essentially U-shaped bracket 24 or 34, which are integral with one another via a web are connected.

Each of the two electromagnets 20, 30 also has a hollow cylindrical magnetic core 25, 35 on the protrudes through both brackets 24, 34.

Arranged concentrically around the two magnetic cores 25, 35 are also wound with a hollow cylinder Excitation coils 26 and 36, each on a coil support are arranged, which the magnetic cores 25 or 35 enclose. The magnetic cores 25 and 35 can by Rotate in the U-shaped brackets 24 and 34 for adjustment purposes be moved axially. The magnetic core 25 is essentially aligned with the inflow nozzle 11, see above that the volatile fuel flowing in here flows directly through the magnetic core 25, whereas the Magnetic core 35 of the further electromagnet 30 in the further flow path parallel to this flow path is arranged.

The two U-shaped brackets that form a magnetic housing 24 and 34 are angled outwards so that a support flange for one, a yoke or annular gap yoke of the electromagnets 20 or 30 forming valve seat body 27 and 37 form the the two U-shaped brackets acting as a magnet housing 24 or 34 covers.

The valve seat body 27 or 37 are preferably in one piece trained, they each have valve openings on, from, for example, known circular segment shaped Shape that means between each of these and the magnetic cores 25 and 35 arranged valve closing members closable in a known manner are. Each of the two valve closing elements is made by one each by adjusting means, for example one Valve closing spring (not shown) in the valve closing direction, i.e. in the direction of the outflow pipe 12 or 12a. Support the valve closing springs on the one hand on the valve closing element, on the other a sleeve-shaped end of the magnetic core on itself known and not shown manner.

The two electromagnets 20, 30 are on the Contact elements can be controlled separately. It is preferred the two plus poles of the coils of the two Electromagnets 20 and 30, respectively, put together on one connection, whereas the two negative poles on separately the other two connections are made. The electric one Contact is only made after the valve has been installed manufactured by the separate adapter plug 80, the Shape according to the customer-specific Is designed.

The valve stroke of the valve for the smaller amount of regeneration gas is adjusted in a manner known per se of the magnetic core 25 set. The flow of the large flush volume is due to the narrowest diameter constriction formed as a Laval nozzle in the outflow nozzle 12a defined. The stroke of the valve closing element, i.e. the working stroke of the corresponding Partial valve and / or the opening cross section larger designed as the smallest diameter in the discharge nozzle 12a. As a result, this can be adjusted for final adjustment Partial valve can be dispensed with.

The valve described, which functions as a Tank vent register valve is met by one Control unit (not shown) with two output stages controlled. The large valve also delivers very small pressure differences, for example due to a pressure drop across the air filter of a charged Internal combustion engine in turbo or compressor mode arise, large and sufficiently precisely adjustable Flush volumes. In the suction area of this internal combustion engine becomes the valve with the smaller flow rate on controlled so that the regeneration gas flow also at the large one that arises in this operating state Pressure drop can be finely metered. Such a fine dosage is when using known valves extraordinary due to the high flow difficult.

The two sub-valves can be used individually or together are turned on, in particular from FIG. 2, in which the flow over the differential pressure pe of the two sub-valves with single and common Control is shown emerges. The above Valve also points out in terms of its operating noise Advantages compared to known tank ventilation valves on, where the clock noise when idling because of the large working stroke with large flow is perceived as disturbing in many cases. At the register tank vent valve described above is the operating noise on the smaller part valve, especially smaller because of a small working stroke and less distracting.

Claims (7)

Valve for the metered introduction from the fuel tank an internal combustion engine volatilized Fuel into an intake duct of the internal combustion engine, with one between a valve seat body (27) and a magnetic core (25) of an electromagnet (20) arranged valve closing member which by a restoring means in the valve closing direction and from the electromagnet (20) in the valve opening direction can be actuated, characterized in that that in a parallel to your electromagnet (20) arranged flow path at least a further electromagnet (30) is arranged, through the one, between another Valve seat body (37) and another magnetic core (35) of the further electromagnet (30) and from another restoring means in Valve closing direction actable valve closing member Can be operated in the valve opening direction is. Valve according to claim 1, characterized in that the valve seat body (27) and the other Valve seat body (37) integrally connected to one another are. Valve according to claim 1 or 2, characterized in that the electromagnet (20) and the other Electromagnet (30) a magnet housing (24, 34) or have a component forming a magnet housing, which are connected in one piece. Valve according to claim 3, characterized in that that each form a magnet housing (24, 34) Components two, via a connecting bridge are integrally connected U-shaped brackets, which Coil body of the electromagnet (20) and at least take up another electromagnet (30). Valve according to one of claims 1 to 4, characterized characterized in that the electromagnet (20) and the at least one further electromagnet (30) electrically via a common plug element (80) are contactable. Valve according to one of claims 1 to 5, characterized characterized that one with the electromagnet (20) essentially flush outlet connection (12) and at least one more, with the at least another electromagnet (30) essentially aligned further outlet nozzle (12a) are provided. Valve according to claim 6, characterized in that the further outflow nozzle (12a) the shape a Laval nozzle.

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