EP0862689B1 - Motor fuel dispenser - Google Patents

Description

State of the art

The invention relates to a fuel distributor according to the genus Main claim. A fuel distributor is already known from EP-OS 0 374 422, which has a plurality of connecting pieces, into the fuel injection valves one Internal combustion engine can be used, which in turn with fuel from the Fuel distributors are supplied. The fuel distributor is made of plastic and has an almost circular, closed fuel channel. The Connection pieces are in each case through an opening of the fuel channel in this Connection. The largely rigid fuel distributor engages in the Fuel injectors provided clamps that hold the axial Allow fuel injectors. A runs parallel to the fuel channel Fuel distributor integrated guide channel, the multiple electrical lines receives. One intervenes for the electrical contacting of the fuel injection valves provided on the electrical lines connector element in a Injector trained connector. The guide channel is with one Recording device provided to a receiving portion of a Fuel injector attached connector to which the connector is intended to embrace. This construction is complex and cumbersome because of The connector is placed on the outside and mounted on an additional connector must become. There must also be another between the individual fuel injectors additional closing plate can be attached to the guide channel, which with a complex hinge can be folded down.

Furthermore, a fuel injection system for is known from DE-OS 30 10 613 Internal combustion engines that have multiple electromagnetically actuated fuel injectors and a rigid fuel line, the fuel line Has valve receptacles into which the fuel injection valves can be inserted in a sealing manner. The fuel line is made up of a fuel distribution line and an overlying one Fuel return line formed. Contacting the individual Fuel injectors each have an electrical plug connection, so that Additional contact lines or plug elements and seals are necessary are. In addition, the possibility is proposed that in the fuel line in Area of each valve receptacle, an electrical connector is provided through which Inserting the fuel injector into the valve holder at the same time the electrical Connection to the electrical connector of the fuel injector can be made. This solution is also complex and cumbersome, since several specially shaped ones Project plug parts out of the fuel line in the direction of the plug connections have to.

Another fuel distributor can be found in EP-PS 0 530 337. This Fuel distributor also includes a fuel supply channel and with the Fuel supply channel connected valve receptacles, in which the Fuel injectors can be used sealingly. The electrical contact is made by means of plug-in elements which can be attached laterally to the housing of the fuel injection valves, the via contact lines with parallel to the fuel supply channel extending electrical connecting lines are connected. The electrical Connection lines are arranged within a contact strip on the Fuel distributor can be plugged on via a snap connection. This construction is also relatively complex and cumbersome, since the contact strip is separate from the Fuel distributor must be manufactured and the electrical connection lines in one another manufacturing step must be inserted in the contact bar.

All of the known solutions mentioned above have in common that when installing the Fuel injectors on the fuel rail next to inserting the Fuel injectors in the valve seats a further assembly step Making the electrical contact is required. This is particularly the case with a automated series production disadvantageous.

From US 4,570,601 A is also already one Fuel rail known that the Fuel supply to multiple injectors is used. This Fuel distributor has a fuel supply channel from which several valve holders branch off. The Valve receptacles each have a valve receptacle opening, which is directly connected to the fuel supply channel. With connecting sections, fuel injectors are in the valve intake openings can be used. In the Valve intake openings are only hydraulic Connection of fuel injectors integrated with an O-ring are sealed against the valve seat. Separate from the respective valve opening is one Contact area created that is targeted independently of the with Fuel-supplied valve intake opening laterally offset lies. For this purpose, the fuel injector has a radial outwardly projecting electrical plug with contact pins on that with a corresponding socket element and Contact elements on the fuel distributor for an electrical Contacting outside the valve opening interacts.

Advantages of the invention

The fuel distributor according to the invention with the characterizing features of The main claim has the advantage that the electrical contact No additional assembly step is required for fuel injectors. Much more the electrical contact is made by inserting the Fuel injectors in the fuel rail. This allows in particular at automated assembly, manufacturing costs can be saved. Furthermore, the inventive connection between the fuel injection valves and the Fuel distributor by pulling the fuel injectors out of the Valve receptacles of the fuel distributor can be easily removed again. This increases the Repairability of the fuel injection system in the event of a failure Fuel injector. The inventive integration of the electrical Lines in and / or on the fuel distributor and the electrical contacting of the fuel injectors directly in the hydraulically supplied receiving openings of the fuel distributor, into which the connecting sections of the fuel injectors are inserted, a space-saving design of the Fuel distributor achieved and the number of individual parts reduced, which the Reduce manufacturing costs as well. Another advantage is that the Fuel distributors integrated electrical lines against negative external influences and damage is well protected.

The measures listed in the subclaims are advantageous Developments and improvements to that specified in the main claim Fuel distributor possible.

By a stepped design of both the valve receiving openings and the Connection sections of the fuel injectors is determined by the spatial distance between those arranged in different stages of the valve receiving openings Contact springs on the one hand and between the different levels of the Connection sections arranged contact areas on the other hand, good insulation reached between the individual electrical contacts. At the same time, the between the steps formed end face of the connecting portions of the Fuel injectors make a stop when the fuel injectors are inserted define. Through a layered, coaxial structure of the connecting sections each have a conductive hollow cylindrical core, an outer line layer and an insulation layer arranged between them results in a particularly compact one Construction. With a complete coaxial sheathing, in particular with the Circuit ground connected outer line layer becomes an electrical Shielding of the inner core achieved.

According to an advantageous further development, the contact surfaces can be made with Be recesses into which the contact springs snap. That way a simple, releasable locking of the fuel injectors on the Fuel distributor reached.

The electrical lines can be in the fuel rail during manufacture embedded, in particular injected. One of the electrical lines the inner surface of the wall of the fuel supply channel lined tubular, which both the stability of the fuel supply channel increased, as well as a large electrical cross section is achieved.

drawing

Fig. 1 einen teilweisen Schnitt durch einen in der Seitenansicht teilweise dargestellten erfindungsgemäßen Brennstoffverteiler und in diesen eingesetzte Brennstoffeinspritzventile, Fig. 2 einen teilweisen Schnitt durch einen erfindungsgemäßen Brennstoffverteiler und ein in diesen eingesetztes Brennstoffeinspritzventil im Bereich des mit X gekennzeichneten Ausschnitts in Fig. 1 und Fig. 3 einen teilweisen Schnitt durch einen erfindungsgemäßen Brennstoffverteiler und ein in diesen eingesetztes Brennstoffeinspritzventil mit einer erfindungsgemäßen Weiterbildung.

Embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Show it:

1 shows a partial section through a fuel distributor according to the invention, partially shown in the side view, and fuel injection valves used therein, 3 shows a partial section through a fuel distributor according to the invention and a fuel injector used therein with a further development according to the invention.

Description of the embodiments

The fuel distributor shown for example in FIGS. 1 and 2 for Fuel injection systems of mixed compressed, spark ignited Internal combustion engines are designated by 1. The e.g. having an elongated shape Fuel distributor 1 is used to supply fuel to at least two, for example has four fuel injection valves 3. For receiving the fuel injection valves 3 the fuel distributor 1 along its longitudinal extension in the direction of its longitudinal axis 2 a number corresponding to the number of fuel injection valves 3 Valve mounts 4. In the exemplary embodiment, the valve mounts 4 on one in the Longitudinal extension of the fuel distributor 1 in the fuel supply duct 5 of the fuel distributor, preferably produced by means of a plastic injection molding process 1 molded in one piece. Which e.g. at right angles from the longitudinal extent of the Have fuel supply channel 5 extending valve receptacles 4 Valve receiving openings 6, in the connecting sections 7 of the Fuel injection valves 3 can be used. The connecting sections 7 are after Insertion into the valve receiving openings 6 of the valve receptacles 4 at least partially enclosed and are sealed by means of a sealing ring 8. The Valve receiving openings 6 are for supplying fuel to the fuel injection valves 3 in direct connection with the transverse to the valve receiving openings 6 Fuel supply channel 5, which has a circular cross section, for example. The valve receiving openings 6 thus represent branch channels of the Fuel supply channel 5.

As fuel injection valves 3 for use on the invention Fuel distributors 1 are especially so-called top feed fuel injection valves suitable, where the fuel supply over the end of the spray opposite end is done. On a detailed description of the example shown fuel injector 3 is dispensed with, as such Fuel injector 3 e.g. largely known from DE-OS 43 25 842. Other designs of known fuel injection valves can be on the However, fuel distributor 1 according to the invention can also be used. This in the fuel injector 3 which can be used according to the invention has fuel distributor 3 in contrast to that known from the above publication Fuel injector none on the side of the housing of fuel injector 3 arranged connector on. According to the connector is in the form of with respect to the longitudinal axis 9 of the fuel injector 3 axially offset trained contact surfaces 10, 11 integrated on the connecting portion 7. Thereby The connecting section 7 designed as a hollow body not only takes on the function the supply of the fuel, but also the function of the electrical contact the fuel injector 3.

In or on the fuel distributor 1, which is preferably designed as a molded plastic part electrical lines 12, 13, 14 and 15 are integrated. The electrical lines 12, 13 and 14 are formed in the exemplary embodiment as flat strips and in the Fuel distributor 1 injected. The electrical line 15, however, dresses the Inner surface of the wall 16 of the fuel supply channel 5 essentially completely tubular. Through the tubular line 15 made of metal the bending stiffness of the fuel supply channel 5 is increased and thus the Dimensional stability of the fuel distributor 1 improved. Furthermore, due to the large line cross section of the tubular line 15 a particularly low electrical line resistance. Anything can be done via the tubular line 15 Fuel injection valves 3 centrally with a connection to control the Fuel injection valves 3 serving control unit, not shown, are connected, while the fuel injectors 3 via the electrical lines 12 to 14 via the control unit can be connected to the circuit ground.

On the fuel distributor 1, preferably on the wall 16 of the Fuel supply channel 5, a connector 17 can preferably be made in one piece molded on, e.g. at right angles to the longitudinal axis 2 of the fuel distributor 1, in particular along an elongated longitudinal axis 9 of a fuel injection valve 3, extends. In the connector 17 with the electrical lines 12 to 15th connected pins 18 provided. The electrical designed as flat strips Lines 12, 13 and 14 are largely surrounded by plastic and therefore in front protected from external influences. The tubular line 15 can be inside with a Plastic or lacquer layer, not shown, may be coated around the tubular Isolate line 15 to the fuel supply channel 5 and against harmful Protect the effects of the fuel.

With reference to Fig. 2, the area marked with X in Fig. 1 in a shows enlarged view, the connection according to the invention is below between a connecting section 7 inserted into a valve receiving opening 6 of a fuel injector 3 and the fuel distributor 1 described in more detail.

In the preferred embodiment shown in FIG. 2, both the Valve receiving opening 6 as well as the insertable into the valve receiving opening 6 Connection section 7 of the fuel injector 3 is stepped. In a first cylindrical step 19 of the valve receiving opening 6 is a first clamping spring 20 arranged, while in a second cylindrical stage 21 of the valve receiving opening 6 a second clamping spring 22 is provided. The stages 19 and 21 are axially one behind the other horizontally and radially offset. Stage 19 is upstream of the stage 21 and has a smaller inner diameter than the step 21. in the Exemplary embodiment are the clamping springs 20 and 22 around the associated step 19 and 21 of the valve receiving opening 6 at least partially circumferentially and preferably pressed into this. The inner wall of steps 19 and 21 is at least partially lined with the electrical conductors 15 and 14, respectively. The electrical conductor 15 or 14 is not isolated towards the inside of the respective stage 19 or 21, so that the associated clamping spring 20 or 22 with the corresponding electrical conductor 15 or 14 is electrically connected. For an additional locking of the clamping springs 20 and 22 to achieve and at the same time the electrical contact resistance between the Clamping springs 20 and 22 and the associated electrical conductors 15 and 14 too can improve, each clamping spring 20 and 22 with the associated electrical conductor 15th or 14 can also be connected by soldering or welding.

The annular space occupied by the clamping springs 20 and 22 is already covered by the described sealing ring 8 sealed. This prevents the upstream End of the fuel injector 3 fuel to be supplied from the Valve receiving opening 6 emerges at an undesired location. The electrical conductors 14 and 15 are separated from each other by an insulation layer 23, preferably a plastic layer of the fuel distributor 1 designed as a plastic molded part, insulated. The electrical Line 14 is also preferably connected to the outside via an insulation layer 24 a plastic layer, insulated.

The connecting section 7 of each which can be inserted into the valve receiving opening 6 In the exemplary embodiment, fuel injection valve 3 is also of stepped configuration includes stages 25, 26 and 27. While the cylindrical stage 27 of the axial Management of the connecting section 7 in one of the stages 19 and 21 downstream following stage 28 of the valve receiving opening 6, have the cylindrical Levels 25 and 26 on their cylinder jacket surfaces the contact surfaces already described 10 and 11, which are contacted by one of the clamping springs 20 and 22, respectively. The cylindrical steps 27, 26 and 25 are with one in the direction of the inlet side End of the connecting section 7 tapers step by step Diameters formed. The diameter of the steps 28, 21 and 19 of the Valve receiving opening 6 tapers in a corresponding manner against the fuel flow direction towards the fuel supply channel 5. The diameter the stage 28 of the valve receiving opening 6 has only a slightly larger one Diameter as the step 27 of the connecting portion 7 of the fuel injection valve 3 to ensure axial guidance. The difference in the diameter of the steps 25 and 26 of the connecting section 7 to the diameters of the steps 19 and 21 of the Valve receiving opening 6 and thus the distances between the contact surface 10 and the electrical conductor 15 or between the contact surface 11 and the electrical conductor 14 are dimensioned such that the deformation of the contact springs 20 and 22 when inserted of the connecting section 7 in the valve receiving opening 6 a safe electrical Contact between the clamping springs 20, 22 and the contact surfaces 10, 11 is made becomes.

The connecting section 7 is of hollow cylindrical shape and comprises one on the fuel inlet side into the valve receiving opening 6 or Fuel supply channel 5 opening, central longitudinal opening 29 through which the Fuel flows to the fuel injector 3. The connecting section 7 is in shown preferred embodiment is built up in layers and comprises a hollow cylindrical core 30 made of an electrically conductive material, in particular Metal, a first surrounding the hollow cylindrical core 30 on the outside Insulation layer 31, e.g. from a plastic material, and one the first Insulation layer 31 enclosing line layer 32 made of a conductive material, especially of metal. An end section of the hollow cylindrical Core 30 in the region of the contact surface 10 from the first insulation layer 31 covered, so that the hollow cylindrical core 30 in this area of the Contact spring 20 can be contacted. The first insulation layer 31 also includes a ring section 38 of larger diameter, the line layer 32 on it inlet side end to a connection and thus a short circuit between the to prevent electrical line 15 and the line layer 32.

The line layer 32 can be outside of the contact area 11 by a second one Insulation layer 33 may be surrounded on the outside, which in the exemplary embodiment in the area of Stage 27 of the connecting section 7 in cooperation with the stage 28 of the Valve receiving opening 6 simultaneously the axial guidance of the connecting section 7 takes over. The insulation layer 33 can also be the outer plastic encapsulation of the Fuel injector 3 be. If the outer line layer 32 the inside lying, electrically conductive, hollow cylindrical core 30 encloses and with the Circuit ground is connected, this has the advantage of electrical shielding of the internal, hollow cylindrical core 30 against external interference voltages.

When inserting the connecting section 7 into the valve receiving opening 6, the inlet-side end face 34 of step 26 on a formed at the edge of step 19 Stop surface 35 on. The step-like design of the connecting section 7 and Valve receiving opening 6 therefore has the additional advantage that the end position of the in the valve receiving opening 6 insertable connecting section 7 of the Fuel injector 3 is clearly defined.

The contact surfaces 10, 11 are only schematic with the ends of the winding magnetic coil 39 shown connected. The contact surface 11 can be sleeve-shaped or in Form of partial sleeves or one or more brackets that do not completely rotate be trained.

FIG. 3 shows a representation corresponding to FIG. 2 with an advantageous further development of the embodiment shown in Figs. 1 and 2. The already with reference to FIG. 1 and 2 elements described have the same reference numerals, so that a description in this regard is unnecessary.

The development of the exemplary embodiment shown in FIG. 3 compared to that shown in FIG 2 already described embodiment consists in the formation of for example circumferential depressions 36 and 37 in the contact surfaces 10 and 11. When inserting the connecting section 7 into the valve receiving opening 6, the snap Clamping springs 20 and 22 in these recesses 36 and 37 to the Lock fuel injector 3 on the fuel rail 1. The Connection according to the invention between the valve seats 4 and Fuel injection valves 3 therefore also fulfills the functions: producing the Fuel supply, electrical contacting of fuel injectors and Locking the fuel injectors on the fuel rail 1. These three Functions become a single assembly step, namely the insertion of the Fuel valves 3 in the valve receiving openings 6, summarized. This will make the Installation effort significantly reduced.

The invention is not limited to the exemplary embodiments shown. In particular can by the connection of the fuel injection valves 3 with the Fuel distributor 1 also more than two electrical contacts can be made. To are 6 additional clamping springs in the valve receiving openings and on the Connection sections 7 of the fuel injection valves 3 further contact surfaces provided. If necessary, the valve receiving openings 6 and Connecting sections 7 also have further stages. For improved locking of the Fuel injection valves 3 to the fuel distributor 1 can on the housing of the Fuel injector 3 protrusions e.g. in the form of sawtooth-like protrusions Lugs may be provided which snap into corresponding openings in the valve receptacles 4. Furthermore, an anti-rotation device can be provided in order to ensure that the Ensure fuel injection valves 3, which is particularly so-called Double jet valves is required.

Claims (15)

1. Fuel distributor (1) for fuel injection systems of internal combustion engines, for supplying fuel to at least two fuel injection valves (3), with a fuel supply channel (5), with a number of valve receptacles (4) corresponding to the number of fuel injection valves (3), the receptacles having valve receptacle openings (6), which communicate directly with the fuel supply channel (5) and into which connecting sections (7) of the fuel injection valves (3) can be inserted, and with electrical conductors (12, 13, 14, 15) for electrical connection to the fuel injection valves (3), the electrical conductors being directly integrated in and/or on the fuel distributor (1), characterized in that the electrical conductors (12, 13, 14, 15) are taken as far as the valve receptacle openings (6), and in that at least two contact springs (20, 22), each connected to a respective electrical conductor (12, 13, 14, 15), are arranged in each valve receptacle opening (6) in such a way that, after insertion of the connecting section (7) of one of the fuel injection valves (3), they contact at least two contact surfaces (10, 11), which are formed separately from one another on the connecting section (7).
2. Fuel distributor according to Claim 1, characterized in that the contact surfaces (10, 11) are formed axially and/or radially offset from another.
3. Fuel distributor according to Claim 1 or 2, characterized in that the contact springs (20, 22) are designed to be axially and/or radially offset from another.
4. Fuel distributor according to one of Claims 1 to 3, characterized in that the valve receptacle openings (6) and the connecting sections (7) of the fuel injection valves (3) are of step-shaped design, and the contact springs (20, 22) are arranged in different stages (19, 21) of the valve receptacle openings (6), the contact springs (20, 22) being situated opposite the contact surfaces (10, 11) arranged in different stages (25, 26) of the connecting sections (7) and contact these contact surfaces when the connecting sections (7) are inserted into the valve receptacle openings (6).
5. Fuel distributor according to Claim 4, characterized in that each electrical conductor (12, 13, 14, 15) is taken to a respective stage (19, 21) of one or more valve receptacle openings (6), and the contact springs (20, 22) are pressed into the stages (19, 21) of the valve receptacle openings (6) in such a way that they contact the respective electrical conductor (12, 13, 14, 15) taken to the respective stage (19, 21).
6. Fuel distributor according to Claim 4 or 5, characterized in that the connecting section (7) of each fuel injection valve (3) is designed as a stepped hollow cylinder and has a central longitudinal opening (29), via which the fuel flows from the fuel supply channel (5) to the fuel injection valve (3), and has externally arranged, stepped, axially offset lateral cylinder surfaces, on which the contact surfaces (10, 11) are provided.
7. Fuel distributor according to Claim 6, characterized in that each connecting section (7) has a hollow cylindrical core (30) composed of an electrically conductive material, in particular metal, a first insulation layer (31) externally surrounding the hollow cylindrical core (30), and a conduction layer (32) composed of an electrically conductive material, in particular metal, externally surrounding the first insulation layer (31), the first insulation layer (31) not covering an end section of the hollow cylindrical core (30), the said end section serving as a first contact surface (10).
8. Fuel distributor according to Claim 7, characterized in that a second insulation layer (33) surrounds the conduction layer (32) externally without covering an end section of the conduction layer (32), the said end section serving as a second contact surface (11).
9. Fuel distributor according to Claim 8, characterized in that the insulation layers (31, 33) are part of a plastic encapsulation of the fuel injection valve (3).
10. Fuel distributor according to one of Claims 4 to 9, characterized in that a stop surface (35) is formed in such a way between two stages (19, 21) of each valve receptacle opening (6) that, when the connecting section (7) of one of the fuel injection valves (3) is inserted, an end face (34) formed between two stages (25, 26) of the connecting section (7) strikes against this stop surface.
11. Fuel distributor according to one of Claims 1 to 10, characterized in that a first (15) of the electrical conductors (12, 13, 14, 15) forms a lining tube for the inner surface of the wall (16) of the fuel supply channel (5), and further electrical conductors (12, 13, 14) are embedded in the wall (16) of the fuel supply channel (5) in such a way as to be insulated from the first electrical conductor (15) and from one another.
12. Fuel distributor according to Claim 11, characterized in that the first electrical conductor (15) is used to contact all the fuel injection valves (3), and each fuel injection valve (3) can additionally be connected to a respective further electrical conductor (12, 13, 14).
13. Fuel distributor according to Claim 11 or 12, characterized in that the further electrical conductors (12, 13, 14) extend in the form of ribbon cables in the fuel distributor (1).
14. Fuel distributor according to one of Claims 1 to 13, characterized in that the contact surfaces (10, 11) have recesses (36, 37), into which the contact springs (20, 22) latch to lock the fuel injection valves (3) on the fuel distributor (1).
15. Fuel distributor according to one of Claims 1 to 14, characterized in that a plug connector (17) is formed integrally on the fuel distributor (1), the plug connector having contact elements (18), each connected to a respective electrical conductor (12, 13, 14, 15).

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