EP2627891A2 - Fuel injection device - Google Patents

Abstract

The invention relates to a fuel injection device comprising an outward-opening valve needle (3), a piezo actuator (2) that is connected to the valve needle (3), a valve body (4) having a first through-hole (40), and a retaining element (5) that is connected to the valve body (4) and has a second through-hole (50). The valve body (4) has a valve seat (13) and a first guiding zone (11) for guiding the valve needle (3). The valve needle (3) is arranged in the valve body (4) and in the retaining element (5), and the first through-hole (40) in the valve body (4) is designed without an undercut.

Description

 description

title

 Device for injecting fuel prior art

The present invention relates to an apparatus for injecting fuel having an improved and less expensive construction. In the field of direct fuel injection, piezoelectric

Injectors with outwardly opening valve needle used. It has been found that on the one hand the exact guidance of the valve needle must be ensured and on the other hand a secure and durable seal between a fuel-filled area and a dry (fuel-free) area of the injector must be ensured.

Disclosure of the invention

The fuel injection device according to the invention with the features of claim 1 has the advantage that it has a much simpler and cheaper construction. This results in very large potential savings in mass production. Furthermore, a simpler installation is possible. This is inventively achieved in that the device has an outwardly opening valve needle, which of a

Piezoactuator is operated, has. Further, a valve body with a first

Through opening and a valve body connected to the holding body provided with a second passage opening. The valve needle is arranged in both passage openings. In addition to a valve seat, the valve body also has a first guide region for guiding the valve needle.

Here, the first passage opening in the valve body is provided such that the passage opening has no undercut. In other words, is the elongated passage opening formed such that no groove-shaped

Recesses or the like are present in the through hole.

As a result, the passage opening from one side, e.g. be produced by a multi-stage drilling process, quickly and inexpensively. Furthermore, a valve seat and the guide area of the

 Valve needle be ground in one clamping from one side of the through hole. In this case, in particular a complex, two-sided grinding process can be avoided. The dependent claims show preferred developments of the invention.

More preferably, the device comprises a sleeve arranged in the holding body with a second guide region on which the valve needle is guided. In this case, the second guide region is preferably arranged in the dry region of the device, so that no corrosion-resistant material has to be used for this purpose.

More preferably, the apparatus includes a bellows for sealing a fuel-filled area of a dry, fuel-free area of the apparatus. Here, a first end of the bellows is arranged directly on the valve needle. As a result, the number of parts can be reduced because no additional ring or similar on the valve needle. must be provided for attachment of the bellows. The bellows is more preferably made of a single-layer metal material, so that it is particularly inexpensive. More preferably, a second end of the bellows is attached to the socket arranged on the holding body. Thus, it is possible that a pre-assembly of the components valve needle, bellows and socket can be provided, which can then be mounted as an assembly in the device. More preferably, the device comprises a return element, which on

Supporting body supports. The return element is preferably a cylindrical spring. The restoring element is further preferably arranged in the dry region of the device. More preferably, the restoring element is supported on a plate element, which is fastened to the valve needle. The

Plate member is preferably arranged at the opposite end of the injection side of the valve needle. For a particularly simple and quick installation, the holding body has a first contact surface and the valve body has a second contact surface. The two contact surfaces touch each other and are perpendicular to one

Center axis of the device arranged. As a result, a flat contact between the valve body and the holding body is achieved, whereby a simple and secure connection of the two components is possible. Particularly preferably, the holding body and / or the valve body on a centering collar in order to simplify the assembly even further.

According to a further preferred embodiment of the invention, the valve body in the axial direction of the device has a length which is smaller than a length of the holding body. Preferably, the length of the valve body is smaller than that of the holding body by more than half.

More preferably, the valve needle comprises a third guide portion, which on a common guide region with the first

Guide section are guided in the valve body. The guide region in the valve body is formed over a certain axial length, so that the two guide portions are guided on the valve needle on the guide portion.

According to a further preferred embodiment of the invention, the device comprises a cylindrical annular flow region, which is arranged between the first guide region on the valve body and a fuel outlet. Here is a cross-sectional area of the annular

Flow area about twice as large, preferably exactly twice as large as a cylindrical exit surface at the fuel outlet. The cylinder-shaped flow region according to the invention makes it possible to stabilize the fuel flow when the valve is open, since due to the

Providing the first guide areas a slight turbulence of the

Fuel flow can occur. This can be cylindrical

Flow range are throttled. Since the exit area at the fuel outlet is approximately half the size of the cross-sectional area of the cylindrical annular flow area, further throttling takes place at the outlet, whereby a precisely defined shape of the spray is obtained. More preferably, a length of the cylindrical annular flow region is selected such that the length is approximately two to five times, preferably four times as long as a width of the cylindrical annular flow region, the width being defined as the radial distance between the needle and the passage opening of the valve body at the flow region. In this way it can be ensured that the cylindrical annular flow region is long enough to obtain the desired stabilization of the fuel flow when the valve is open.

Short description of the drawing

Hereinafter, embodiments of the invention will be described in detail with reference to the accompanying drawings. In the drawing is:

Figure 1 is a schematic sectional view of an inventive

 Device for injecting fuel according to a first embodiment of the invention,

Figure 2 is a schematic, enlarged sectional view of the device during an injection process, and

Figure 3 is a schematic sectional view of an inventive

 Device for injecting fuel according to a second embodiment of the invention.

Embodiments of the invention

Hereinafter, with reference to Figures 1 and 2, a device 1 for injecting fuel according to a first embodiment of the invention will be described in detail.

As can be seen from FIG. 1, the device 1 for injecting fuel comprises a piezoactuator 2, which is connected to an outwardly opening valve needle 3. The valve needle 3 is a one-piece component, which is arranged in a valve body 4 and a holding body 5. Here, the

Valve body 4, a first passage opening 40 and the holding body 5 has a second passage opening 50. On the valve body 4, a valve seat 13 is arranged, on which the valve needle 3 rests in the closed state. In this case, adjacent to the valve seat 13 in the passage opening 40, a first guide portion 1 1 for guiding the valve needle 3 is arranged. The valve needle 3 is further guided on a second guide portion 12, which is provided on an inner periphery of a bush 6. In this area, the valve needle 3 has a second guide section 32. It should be noted that the guide portions 31, 32 and the guide portions 11 and 12 have been machined by a finishing method to have excellent slidability. The bush 6 is connected to the holding body 5 by means of a welded connection 16 and is partially inserted into the holding body 5.

The device 1 further comprises a corrugated bellows 9, which is made of a single-layered metal material. As can be seen from FIG. 1, the corrugated bellows 9 is connected directly to the first end 9a by means of a welded connection 14

 Valve needle 3 welded. A second, opposite end 9b of the

Wellbalgs 9 is welded by a welded joint 15 to the socket 6.

In this case, the socket 6 has a small shoulder to safely receive the second end 9a. The bellows 9 divides the injector into a wet one

Area 20, where fuel is present, and a dry area

21, which is fuel-free.

The device 1 further comprises a return spring 7, which is supported with one end on the holding body 5 and with its other end to a

 Spring plate 8 is supported. The spring plate 8 is fastened by means of a welded connection 17 directly to the valve needle 3. As a result, first a first guide section 31, then a sealing area provided by the bellows 9 and subsequently a second guide section 32 are formed on the valve needle, starting from the injection side on the valve seat 13. The return spring 7 then engages in

Connection to the second guide portion 32 on the valve needle 3.

As can be further seen in FIG. 1, the reference numeral 10 denotes a filter through which the fuel is supplied, as indicated by the arrow A. The fuel is then guided along the bellows 9 and the front portion of the valve needle 3 to the valve seat 13. Here are the valve needle in Region of the first guide portion 31 recesses 33 provided so that the fuel is applied directly to the valve seat 13.

For quick assembly, a centering collar 42 is further formed on the valve body 4. As can be seen from Figure 1, the centering collar 42 is in the second

Through opening 50 of the holding body 5 introduced. In this case, a first contact surface 41 and on the holding body 5, a second contact surface 51 is further formed on the valve body 4, which are each aligned perpendicular to the axial direction X-X. This results in a flat contact surface between the valve body 4 and the holding body 5, so that a connection between

Valve body 4 and holding body 5 can be produced by means of a welded joint 18.

As further seen in Figure 2, is on the valve body 4 between the first guide portion 1 1 and a fuel outlet 61 a cylindrical ring

Flow region 62 is arranged. The cylindrical annular flow region 62 is formed between the needle 3 and the passage opening 40 of the valve body 4. The cylindrical annular flow region 62 in this case has an annular surface C. As can be seen further from FIG. 2, an annular surface D is perpendicular to the flow direction when the valve is fully open between

Valve needle 3 and the valve seat 13 is present, wherein the annular surface D is approximately half as large as the annular surface C. Further, a length L of the

cylindrical annular flow area 62 about four times as large as a width of the cylindrical annular flow area 62. The width is the radial distance between the needle and the wall surface of the through hole

By providing the cylindrical-ring-shaped flow region 62, an improved flow with reduced turbulences can thus be achieved with the valve fully open, so that a spray, marked "S" in FIG. 2, can be ejected in a defined manner. At the valve needle 3, a radius R is further formed at the transition to the cylindrical annular region.

The function of the injector according to the invention is as follows. If an injection takes place, the piezoelectric actuator 2 is activated, whereby the valve needle 3 is moved in the direction of the arrow B and lifts off from the valve seat 13. Fuel can thereby be injected through the opened injector. The movement The valve needle 3 takes place counter to the spring force of the return spring 7, which is biased by the stroke of the valve needle 3. If the injection is to be ended again, the piezoelectric actuator is deactivated again and the injector is automatically reset by the preloaded return spring 7 in the starting position shown in Figure 1 and the valve needle 3 is located on the valve seat

13 tight and seals there in a known manner.

Thus, according to the invention, an outwardly opening injector can be provided, which in particular has a simplified and less expensive construction than in the prior art. As further seen in FIG. 1, a length L1 of the valve body 4 in the axial direction X-X is smaller than a length L2 of the holding body 5 in the axial direction X-X. Thus, a short and simply shaped valve body 4 can be provided, wherein the through-hole 40 is formed in the valve body 4 without an undercut. This can

In particular, the through hole can be made very easily. Further, since the sealing seat 13 and the first guide portion 1 1 on the valve body 4 are immediately adjacent to each other, a production of these surfaces can be carried out in a clamping from the same side. Thus, as in the prior art, two separate guide surfaces need not be machined on the valve body 4, which significantly increases the cost of manufacturing the valve body 4.

 According to the invention, the side directed towards the holding body 5 of the valve body 4 can be produced inexpensively by means of a turning operation.

Next, the closing force of the invention in a simple manner according to the invention

Return spring 7 can be adjusted by the spring plate 8 at a

corresponding position is attached to the valve needle 3. As further seen in Figure 1, the corrugated bellows 9 is completely arranged in the holding body 5. By this arrangement, it is possible that the corrugated bellows 9 can be inexpensively provided as a single-layer metal element, since in the holding body 5 sufficient space for the arrangement of the corrugated bellows 9 is present. In particular, a corrugated bellows 9 can thereby be used which is relatively long in the axial direction X-X. In this way, the corrugated bellows 9 can have a multiplicity of waves in order to absorb the bending loads acting on it sufficiently. Another advantage of the invention is that according to the invention, the bush 6 can be used, which in the axial direction X-X also an enlarged

Length. This allows a distance between the welded joint 16 to the holding body 5 and the second guide portion 32 are designed to be larger. This makes it possible that the bushing 6 can be tempered, because there is no hardness drop at the guide area by the welding process. The tempered bushing has less wear, especially when lateral forces act on the valve needle 3. The spring plate 8 is very inexpensive to produce as a simple deep-drawn part. In this case, in particular, a spring centering collar on the spring plate can be dispensed with.

Compared to the prior art, the injector according to the invention thus has a variety of improvements, which overall a significant

 Allow cost savings in the manufacture of the injector. In particular, the provision of the undercut-free valve body 4 lowers the

Production costs significantly. Hereinafter, with reference to Figure 3, a device 1 for

 Injecting fuel according to a second embodiment of the invention described in detail. Identical or functionally identical parts are denoted by the same reference numerals as in the first embodiment. In contrast to the first embodiment, the device of the second embodiment of the valve needle 3 has a third

Guide section 34. As can be seen from FIG. 3, the third one is

Guide portion 34 adjacent to the first guide portion 31 is arranged. At the third guide section 34, the valve needle 3 is guided on the valve body 4 as in the first guide section 31. This is the first one

 Guide portion 1 1 in the passage opening 40 of the valve body in

Axial direction X-X extended. As a result, although an extended first guide portion 1 1 must be provided in the through hole 40, but the valve needle 3, in particular near the valve seat 13 better for

Center axis aligned. Thus, in turn, in an open state of

Device a seat gap between the valve needle 3 and the valve seat 13 to be more uniform over the circumference, whereby the ejected

Fuel spray is more uniform over the circumference. Due to the small distance of the first and third guide portion 31, 33 in the valve body 4, the guide portions, however, as in the first embodiment in a

Clamping can be ground cost-effectively from the seat side. One Another difference from the first embodiment lies in the connection between the valve body 4 and the holding body 5. As can be seen from FIG. 3, a centering collar 52 is provided both on the valve body 4 and on the holding body 5. Here, between the centering collar 42 and the centering collar 52, a clearance fit or a press fit may be provided. In the manufacture of the welded joint 18 between the

Valve body 4 and the holding body 5 heats up in particular the

Centering collar 52 of the holding body 5 more than the radially inner centering collar 42 of the valve body 4, because the centering collar 52 is thin-walled compared to the centering collar 42. As the components cool, therefore, the centering collar 52 of the holding body 5 shrinks more than the valve body 4. As a result, the valve body 4 is pulled onto the axial contact surface 51 on the holding body 5 and therefore aligns very accurately. Since the welding operation is relatively far away from the contact surfaces 41, 51 in the axial direction X-X, different welding distortions along the circumference, if at all, have a very slight effect on non-axial alignment of the valve body 4 with the holding body 5.

Claims

claims

1 . A device for injecting fuel, comprising:

 an outwardly opening valve needle (3),

 a piezoactuator (2) connected to the valve needle (3), a valve body (4) having a first passage opening (40), and a holding body (5) connected to the valve body (4) having a second passage opening (50),

 wherein the valve body (4) has a valve seat (13) and a first guide portion (1 1) for guiding the valve needle (3), wherein the valve needle (3) in the valve body (4) and in the holding body (5) is arranged, and

 wherein the first passage opening (40) in the valve body (4) is formed without undercut.

2. Apparatus according to claim 1, characterized by a second

 Guide region (12) on which the valve needle (3) is guided, which is formed on a in the holding body (5) arranged bushing (6).

3. Device according to one of the preceding claims, further comprising a corrugated bellows (9) for sealing a fuel-filled area (20) of a fuel-free area (21), wherein a first end (9a) of the corrugated bellows (9) directly to the valve needle (3) is attached.

4. Apparatus according to claim 3, characterized in that the

 Metal bellows (9) is made of a single-layer metal material.

5. Apparatus according to claim 3 or 4, characterized in that a second end (9b) of the corrugated bellows (9) on the in the holding body (5)

arranged bushing (6) is fixed.

6. Device according to one of the preceding claims, further comprising a return element (7), which at one end on the holding body (5) is supported.

Apparatus according to claim 6, further comprising a preferably deep-drawn sheet metal plate member (8), which is attached directly to the valve needle (3) and on which the return element (7) is supported.

Device according to one of the preceding claims, characterized in that the valve body (4) a contact surface (41) and holding body (5) have a contact surface (51), wherein the two contact surfaces (41, 51) touch each other and perpendicular to a

 Center axis (X-X) of the device are arranged.

Device according to one of the preceding claims, characterized in that the valve body (4) has a length (L1) which is smaller than a length (L2) of the holding body (5), preferably smaller by more than half. 10. Device according to one of the preceding claims, characterized

 in that the valve needle (3) has a third guide section (34) which is arranged adjacent to the first guide section (31), wherein the first and third guide sections (31, 34) are guided on a common guide section (11).

1 1. Apparatus according to any one of the preceding claims, further comprising a cylindrical annular flow region (62) disposed between said first guide portion (11) and said valve seat (13), wherein a surface (C) of said cylindrical flow portion (62) is approximately twice as large is like a cylindrical exit surface (D) on

Valve seat (13) with fully open valve needle (3).

Apparatus according to claim 1 1, characterized in that the cylindrical annular flow area (62) has a length (L) which is about two to five times, preferably four times, as long as a width of the cylindrical annular flow area (62).