DE19536441A1 - Spring clamp to connect injection nozzle to injection line - Google Patents

Abstract

The spring clamp (10) has a U-shaped main body with a web (20) and two projecting legs (22). A circular segment (38) extends outward at an angle from one longitudinal edge of each leg. A spring bracket (40) extends from the centre of a longitudinal edge of the web towards the connection socket on the clamp. Due to its axial dimension, the bracket engages on a flat surface (48) of the outside of the injection line (14) when fitted. The free end of the bracket is V-shaped. The bracket is formed in one piece with the web.

Description

The invention relates to a spring clip for connecting a Injector with an injection line according to the one in the upper part handle of claim 1 specified type.

Injectors, which are also referred to as injectors must be used when installing one with a fuel injection system equipped internal combustion engine with an injection line that are tightly connected to the fuel distributed in different injection nozzles. The injection lines have connection spigots, in one with a you device can be inserted. The feather clamp that has been pushed onto the injector first is used for the axial securing and locking of the on spray nozzle on or in the connecting piece of the injection line tung. In the case of multi-jet nozzles in particular, it is important that the individual beams or beam levels a predetermined ge have precisely defined location. The injector becomes circumferential twisted in the direction, this precisely defined La changes ge, which leads to deteriorated mixture formation. From the US 5 136 999 it is therefore already known to injectors ge to secure against rotation in the circumferential direction. To this The spring clip described there has four tabs, from which are each two of the spring bar of their U-shaped body pers extend parallel to each other to form one Limit gap. If the injector on the injection line  fixation, each gap acts with a projection together, on the nozzle body or on the outside of the one spray line is formed and thus prevents twisting the injector relative to the spring clip and relative to the one spray line.

The invention has for its object a spring clip mentioned type without compromising in function easier to ge design. In particular, the spring clip to be created should Injection nozzle on an injection line in the axial direction and secure against twisting.

This object is ge according to the invention with a spring clip triggers, which has the features specified in claim 1. He According to the invention, the injection nozzle is rotated relative to Spring clip and prevented relative to the injection line without that projections on the nozzle body of the injection nozzle or on the Injection line are necessary. The spring according to the invention in a preferred embodiment, clip has only one, relatively wide spring clip on a flat surface on the outside of the injection line and thus a twisting of the spring clip relative to the injection line prevented. To also twist the injector rela To prevent the spring clip is on the outside of the injection nozzle do not sink a single, continuous circumference as usual only available, in the two holding sections of the spring clip intervene, but instead there are two radially ge opposite, separate grooves available, the extend in the circumferential direction and in each of which at engages the holding portions. The spring clip according to the invention mer is thus simpler and can therefore be used easier and cheaper to manufacture.

In one embodiment of the spring clip according to the invention mer is the spring bracket in the area of its free end so out  stalt that this free end is a V-shaped in longitudinal section Appearance, the one forming the end of the spring clip Leg of the V's protrudes obliquely outwards. The obliquely after the outside of the leg acts like a ramp that supports the spring bracket when inserting the provided with a spring clip Injection nozzle in the connector of the injection line after presses on the outside and thus enables easy assembly. In the mon the spring bracket touches the outer wall of the Injection line only along a linear contact surface, the spring force acting in the direction of the injection line of the spring clip always leads to a safe, a twist hen preventing contact of the spring clip on the injection line tion is guaranteed. The spring clip is preferably on the Longitudinal edge of the spring bar of the U-shaped base body of the Fe the bracket is arranged in the center and extends over at least half the length of the spring bar. The wider the spring clip is, the better the spring clip is against rotation secured to the injection line. Instead of a wide spring clip can alternatively be two in the area of the spring bar ends ordered spring clips can be used. Each spring clip is in front partially formed in one piece with the spring bar.

The spring clip according to the invention can be, for example Be stamped sheet metal. Because of the simple structure, it is but also possible, for example, the spring clip according to the invention as a plastic injection molded part.

An embodiment of a spring clip according to the invention will he in the following with reference to the accompanying drawings purifies. It shows:

Fig. 1 is a fuel injector by means of a zen he inventive spring clip with a Anschlußstut is connected to an injection line,

Fig. 2, the spring clip of FIG. 1 in side view,

Fig. 3, the spring clip of FIG. 1 in a comparison with FIG. 2 rotated by 90 ° side view,

Fig. 4, the spring clip of FIG. 1 in top view,

Fig. 5 shows a section through the injector body in the loading area of the spring clip, and

Fig. 6, the spring clip from FIGS . 1 to 4 in the assembled state.

Fig. 1 shows a spring clip 10 for connecting an injection nozzle 12 with an injection line 14 of a fuel injection system not shown Darge of an internal combustion engine. As can be seen from FIG. 1, the injection nozzle 12 is inserted into a cylindrical connecting piece 16 coaxial with it, which protrudes from the injection line 14 , and sealed there by means of a seal 18 .

The spring clip 10 shown in more detail in FIGS . 2 to 4 is, in the exemplary embodiment shown, a sheet metal stamped part which has a U-shaped base body in plan view with a spring bar 20 and two legs 22 which extend at least approximately at right angles therefrom. Each leg 22 has a longitudinal slot 24 , the function of which will be described in more detail later.

From the in Fig. 2 and Fig. 3 lower longitudinal edges 26 of the legs 22 , two holding sections 28 extend at right angles to one another, ie, radially inward with respect to the longitudinal axis of the injection nozzle 12 . The holding portions 28 are integrally formed with the corresponding leg 22 sheet metal tabs, which are bent inwards to assume the position shown in the figures, and which extend over almost the entire leg length. The free edge of each holding section 28 has adjacent to the free end of the leg 22 associated with each holding section an obliquely inwardly extending section 30 , to which a concave circular ring section 32 connects, which merges into a short straight section 34 which is parallel to the associated Leg 22 runs.

From the longitudinal edge 36 of each leg 22 opposite the longitudinal edge 26 , a circular section 38 projects obliquely outwards. Each of the circular sections 38 formed integrally with the legs 22 is arranged centrally on the associated leg 22 and extends at its base over approximately half the leg length.

From the longitudinal edge of the spring web 20 lying on the side of the longitudinal edges 36 , a spring clip 40 which is made in one piece with the spring web extends in an essentially axial direction. The spring clip 40 is arranged centrally with respect to the spring bar 20 and has a width which in the example shown is almost 60% of the length of the spring bar 20 . As can be seen in particular from FIG. 2, the spring clip 40 has a double-bent shape such that a V-shaped section is formed in the region of its free end, the leg 42 of the V-shaped end section forming the end of the spring clip 40 being inclined stands outwards.

The function of the one-piece spring clip 10 when connecting the injection nozzle 12 to the injection line 14 is explained below. First, the spring clip 10 is preferably pushed mechanically radially onto the injection nozzle 12 . The one injection nozzle 12 has on the outside of the injection nozzle body two radially opposite and circumferentially extending grooves 44 (see. Fig. 5), in each of which a holding portion 28 of the Fe derklammer 10 engages. During the radial sliding of the spring clamp 10, the inclined portions 30 provide the free edges of the holding portions 28 in connection with the spring bar 20 there for, that the spring clip is spread open 10 and can be pushed over the spray nozzle body A. In the deferred position, the concave circular sections 32 correspond to the convex circular sections of the grooves 44 , while the straight sections 34 of the free edges of the holding sections 28 cooperate with corresponding straight sections of the grooves 44 and a twisting of the injection nozzle 12 relative to the spring clip 10 prevent.

The injector 12 provided with the spring clip 10 is now axially inserted into the cylindrical connecting piece 16 of the injection line 14 . To axially secure the unit from Fe derklammer 10 and injector 12 on the connecting piece 16 , the latter has at its free end an outwardly extending collar 46 which is intended to cooperate with the longitudinal slots 24 in the legs 22 of the spring clip 10 . When the aforementioned unit is pushed on or pushed in, the obliquely outward circular sections 38 act like ramps which press the legs 22 apart so that they can slide over the collar 46 . As soon as the collar 46 snaps into the longitudinal slots 24 , the legs 22 jump back into their starting position. The resulting clicking sound indicates to a fitter that the unit comprising the spring clip 10 and the injector 12 has been correctly mounted on the connecting piece 16 .

So that the injection nozzle 12 can not be rotated relative to the injection line 14 , the spring clip 40 extends in the previously described, deferred state of the injector 12 over the connecting piece 16 to a flat surface 48 of the injection line 14 and is supported there with its V shaped end portion from (sh. in particular FIG. 1 and FIG. 6).

Claims (6)

1. spring clip ( 10 ) for connecting an injection nozzle ( 12 ) with a coaxial to the injection nozzle connecting piece ( 16 ) on an injection line ( 14 ) of a fuel injection system, the spring clip ( 10 )

• - A U-shaped base body in plan view, the dersteg from a Fe ( 20 ) and two at least approximately at right angles projecting legs ( 22 ), each with a longitudinal slot ( 24 ) is formed,
• - Two with respect to the injection nozzle ( 12 ) radially inward ra holding sections ( 28 ), one of which extends from one longitudinal edge ( 26 ) of each leg ( 22 ), the free edge of each holding section ( 28 ) for cooperation with one outside of the injection nozzle body and groove ( 44 ) extending in the circumferential direction adjacent to the free end of the leg ( 22 ) associated with each holding section initially runs obliquely inwards and then merges into a concave circular ring section ( 32 ), which is essentially parallel to the associated one Leg ( 22 ) extending, straight section ( 34 ) adjoins, characterized in that from the other longitudinal edge ( 36 ) of each leg ( 22 ) an obliquely outwardly protruding circular section ( 38 ) and a longitudinal edge of the spring bar ( 20 ) Spring clip ( 40 ) in the direction of the connecting piece ( 16 ) he stretch, the axial extent of the spring clip ( 40 ) of the art is dimensioned that this is in the installed state on a flat surface ( 48 ) on the outside of the injection line ( 14 ).

2. Spring clip according to claim 1, characterized in that the spring clip ( 40 ) is designed in the region of its free end with a V-shaped cross section such that the end of the spring clip ( 40 ) forming leg ( 42 ) of the V-shaped End area protrudes obliquely outwards. 3. Spring clip according to claim 1 or 2, characterized in that the spring clip ( 40 ) on the longitudinal edge of the spring bar ( 20 ) is arranged centrally and extends over at least half the length of the spring bar. 4. Spring clip according to one of claims 1 to 3, characterized in that the spring clip ( 40 ) is integrally formed with the spring web ( 20 ). 5. Spring clip according to one of the preceding claims, there characterized in that it is a stamped sheet metal part acts. 6. Injection nozzle ( 12 ) with a spring clip ( 10 ) according to one of the preceding claims.