DE102010001612A1 - fuel injector - Google Patents

Abstract

The invention relates to a fuel injector for a fuel injection system with a nozzle needle (2) for closing and releasing at least one injection opening formed in the nozzle body (1) and having a control valve (3) for indirectly actuating the nozzle needle (2). in that by opening or closing the control valve (3), a control pressure (4) acting on the nozzle needle (2) in the closing direction is changed, the control valve (3) comprising a valve space (6) formed in a valve plate (5), is limited by a throttle plate (7) which is arranged between the nozzle body (1) and the valve plate (5) and in which at least one bore (8, 12) for connecting the valve chamber (6) with the control chamber (4) and / or a high-pressure channel (9) is formed. According to the invention, the bore (8, 12) opens into the valve chamber (6) via an axial gap (10, 13) formed between the valve plate (5) and the throttle plate (7) and has a reduced diameter d in the mouth region for forming a throttle (11 , 14) whose throttle effect on the height h of the axial gap (10, 13) can be influenced.

Description

The invention relates to a fuel injector for a fuel injection system, in particular a common rail injection system, for injecting fuel into the combustion chamber of an internal combustion engine having the features of the preamble of claim 1.

State of the art

A fuel injector of the type mentioned, for example, from the DE 10 2004 061 800 A1 out. This has to open and close a liftable in a nozzle body guided nozzle needle on a control valve with a valve body which is guided at least in a partial area. By the leadership of Ventilköpers, for example by means of a sleeve, a low-wear operation of the control valve is ensured. The valve body is also accommodated in a valve chamber, which communicates with a control chamber via a first, serving as a drain hole in conjunction with a control chamber and a second, designated as a bypass bore in communication with an inlet channel. In addition, fuel can flow into the control chamber via the bypass and the drainage channel in a first closed position of the valve body, so that a rapid closing of the nozzle needle is effected.

Another generic fuel injector is from the published patent application DE 10 2008 001 330 A1 out. The valve member of the control valve is in this case guided in a sleeve which rests sealingly on a throttle plate separating the valve chamber from the control chamber. The sleeve defines between the valve member and the throttle plate a low pressure space, which leads to a reduction of the hydraulic closing force on the valve member and thus to a pressure relief of the valve member. As a result, the required Ansteuerspannungen or currents are reduced. However, the sleeve has a certain amount of space, so that the valve chamber must have a larger volume. The increased valve chamber volume leads to a delayed pressure build-up both in the valve chamber and in the control chamber, which communicates with the valve chamber via at least one bore formed in the throttle plate. Furthermore, the bore is to be guided in such a way that its mouth region lies outside the sleeve which bears sealingly against the throttle plate. For this purpose, the sealing sleeve may be provided in the contact area with a reduced diameter and / or the valve space with a radial expansion in the mouth area of the bore, wherein a further increase in the valve space volume is unavoidable. Moreover, since a throttle formed in the bore is often arranged in the region of the underside of the throttle plate, that is to say in the vicinity of the control chamber, the valve chamber volume is further increased by the outflow bore adjoining the throttle.

Object of the present invention is to develop a fuel injector of the type described above such that the valve chamber volume, especially in the arrangement of the valve member pressure-relieving sealing sleeve is kept as small as possible. In addition, the formation of at least one arranged in the throttle plate bore or throttle should be simplified.

To solve the problem, a fuel injector with the features of claim 1 is proposed. Preferred developments of the invention are specified in the subclaims.

Disclosure of the invention

The proposed fuel injector has a nozzle needle in a hub movable guided nozzle needle for closing and releasing at least one formed in the nozzle body injection port and a control valve for indirect control of the nozzle needle by a valve needle in the closing direction acting control pressure is changed in a control room by opening or closing the control valve , The control valve in this case comprises a formed in a valve plate valve space which is bounded by a throttle plate which is arranged between the nozzle body and the valve plate and in which at least one bore for connecting the valve chamber with the control chamber and / or a high-pressure channel is formed.

According to the invention opens the at least one bore via an axial gap formed between the valve plate and the throttle plate in the valve chamber and has in the mouth region a reduced diameter d to form a throttle whose throttle effect on the height h of the axial gap can be influenced. The throttle point is therefore displaced in the mouth region, so that the bore can be designed such that it has a constant diameter as far as possible. As a result, on the one hand, the production of the bore is simplified, on the other hand, a throttling point formed in the region of the underside of the throttle plate and thus a long outflow bore following thereon can be dispensed with. The omission of the outflow bore reduces the valve volume, which in turn leads to a rapid pressure build-up and fast switching times. At the same time, the smallest quantity capability of the fuel injector and also its wear behavior in the area of the valve seat is improved. Because of the smaller valve chamber volume, the pressure in the valve chamber increases during the closing of the Control valve quickly, so that the remaining pressure stroke and the slippage of the valve in the seat after the impact reduce.

In addition to the production of the bore, the production of the throttle is further simplified. This is now formed in the mouth region of the bore and thus at an easily accessible location on the top of the throttle plate. In addition, an outlet bore adjoining the throttle and / or a diffuser are eliminated. Furthermore, it is possible to dispense with a rounding of the bore in the region of the throttle, so that a further complicated production step is eliminated. The throttling takes place in the mouth region of the bore and can be influenced by the height h of the axial gap between the valve plate and the throttle plate. Because of the throttle effect determining cross section corresponds to the lateral surface of an imaginary cylinder, which arises when the diameter d of the formed in the throttle plate outflow surface is projected onto the opposite surface of the valve plate. The height h of the axial gap corresponds to the height of the cylinder. The desired throttle effect can thus be achieved by establishing the parameters d and h during manufacture.

The height h of the axial gap is also chosen to be as small as possible in order to keep the valve space volume small. The height h of the axial gap is preferably ≦ 500 μm, preferably ≦ 100 μm, more preferably ≦ 50 μm. The axial gap between the valve plate and the throttle plate is preferably formed by a primarily radially extending groove in the valve plate. Alternatively or additionally, however, a corresponding recess may also be provided in the throttle plate.

According to a first preferred embodiment, the bore formed in the throttle plate connects the valve chamber of the control valve with the high pressure passage and the throttle formed in the mouth region of the bore serves as a filler throttle. By these measures, a fast filling of the valve space volume and thus a rapid pressure build-up in the control room is ensured, which in turn ensures a fast nozzle needle closing. Because the valve chamber and the control chamber are hydraulically connected via at least one further formed in the throttle plate and serving as a drainage hole.

Serving as a drain passage further bore which connects the valve chamber to the control chamber, preferably opens via a further formed between the valve plate and the throttle plate axial gap in the valve chamber of the control valve. In this case, the height h of the axial gap is selected such that the fuel flowing out through the bore experiences a counter-pressure, that is to say a pressure counteracting the flow pressure, which reduces the entry of gas bubbles into the valve chamber when the valve is open. In order to produce this back pressure, the height h of the axial gap is chosen to be less than the height of a radial expansion of the valve space serving as a spout, which is usually about 1 mm.

The further bore serving as a drainage channel comprises an outlet throttle, which can be formed in a conventional manner by reducing the flow cross section of the bore in the region of the underside of the throttle plate, that is to say in the vicinity of the control chamber. At the throttle point is then followed by a long, the valve space volume magnifying discharge hole.

In order to avoid an enlargement of the valve space volume, according to an alternative embodiment or a development of the invention, it is provided that the bore formed in the throttle plate connects the valve space to the control chamber and the throttle formed in the mouth region of the bore serves as an outlet throttle. The advantages described above in connection with the bore having the filling throttle now apply correspondingly to the bore serving as a drainage channel. This means that the hole is easy to produce due to its largely constant diameter. The displacement of the throttle point in the mouth area also simplifies the formation of the throttle, which is now arranged at the top of the throttle plate and makes a long outflow bore and / or a diffuser dispensable. In addition to the drainage channel, a further, correspondingly formed bore or throttle for connecting the valve chamber to the high-pressure passage can be provided so that further a fast filling of the valve space volume and thus a rapid pressure build-up in the control chamber is ensured.

In addition, it may be provided that at least one bore provided in the throttle plate is formed to be hydroerosive rounded at least in a partial region. This measure proves to be particularly advantageous if the flow of a throttle scatters too much. The rounding is preferably carried out in the assembled state with associated valve plate.

According to a preferred embodiment, the control valve comprises a cooperating with a valve seat liftable valve member whose valve seat opposite end is guided in a sealingly adjacent to the throttle plate and a low pressure space limiting sleeve, so that the valve member is relieved of pressure in contact with the valve seat. Because by the leadership of the valve member in such a sealing sleeve, the hydraulic closing force reduced to the valve member. This in turn leads to a reduction of the switching forces and concomitantly to a reduction of the required drive voltages or currents.

Since the sealing sleeve usually requires an enlarged valve chamber volume, the advantages of the invention, in particular in a control valve with such a sealing sleeve come into play. For the interaction of the bore formed in the throttle plate with the axial gap formed in the valve plate is able to compensate for at least part of the valve space enlargement.

Preferably, the limited by the sleeve low pressure space is connected via a bore to a return. The the low pressure chamber with a return connecting hole is at least partially also formed in the throttle plate.

Further preferably, a piezoelectric actuator is provided for actuating the control valve.

Preferred embodiments of the invention are explained below with reference to the drawings. These show:

1 a longitudinal section through a known from the prior art fuel injector in the throttle plate,

2 a longitudinal section through a first fuel injector according to the invention in the region of the throttle plate and

3 a longitudinal section through a second fuel injector according to the invention in the region of the throttle plate.

Detailed description of the drawings

Of the 1 is a section of an already known fuel injector refer. The detail shows the fuel injector in the region of a throttle plate 7 including adjacent components. The latter include a nozzle body 1 that in the drawing from the bottom of the throttle plate 7 is attached and the inclusion of a liftable guided nozzle needle 2 for releasing or closing at least one in the nozzle body 1 trained injection port is used, as well as a valve plate 5 in the drawing from the top to the throttle plate 7 is attached and the inclusion of a control valve 3 for indirect control of the nozzle needle 2 serves. The control valve 3 has this one with a return 20 connectable valve chamber 6 on, which furthermore has a bore formed as a drainage channel 12 with a control room 4 communicates. The control room 4 in turn is via an inlet channel 21 in hydraulic connection with a high-pressure channel 9 , so that a filling of the control room 4 with fuel with closed control valve 3 is guaranteed. The over the inlet channel 21 in the control room 4 inflowing fuel causes an increase of the existing control pressure there, the nozzle needle 2 acted upon in the closing direction. The nozzle needle 2 performs a closing movement or is held in its closed position. Will the control valve 3 open, with a connection of the valve chamber 6 to the return 20 manufactured and a Absteuermenge the return 20 is fed, it comes in the valve chamber 6 and in the control room 4 to a pressure drop, the opening stroke of the nozzle needle 2 allows. The actuation of the control valve 3 takes place here by using a piezoelectric actuator, the energizing a valve member 16 of the control valve 3 from his valve seat 15 lifts and thus the connection of the valve chamber 6 to the return 20 manufactures. The valve member 16 is present in a sleeve 18 guided, sealing the throttle plate 7 is applied and a low pressure space 17 radially limited. About a hole 19 is the low pressure room 17 in connection with the return 20 , Characterized in that the valve seat facing away and in the sleeve 18 recorded end of the valve member 16 is not hochdruckbeaufschlagt, the valve member 16 depressurized. The actuation of the control valve therefore requires lower switching forces, that is, lower drive voltages or drive currents. This has an advantageous effect on the design of the piezoelectric actuator as an actuating means.

A disadvantage of the arrangement of a sleeve 18 in the valve room 6 However, it is that the sleeve 18 requires a larger valve volume. Nevertheless, a fast filling and thus a rapid increase in pressure in the valve chamber 6 and im with the valve room 6 connected control room 4 to allow, in addition to serving as a drainage hole 12 and the inlet channel 21 another hole 8th provided in the throttle plate, which is the valve space 6 directly with the high pressure channel 9 combines. With closed control valve 3 Thus, not only fuel flows through the inlet channel 21 in control room 4 but also about the drilling 8th and 12 , wherein serving as a drainage hole 12 flows through in the reverse direction.

Usually, each serving as a drain and / or as an inlet channel bore 8th . 12 . 21 a throttle 11 . 14 . 22 for throttling the fuel flow.

To form the throttles 11 . 14 . 22 have the holes 8th . 12 and 21 in each case a reduced flow cross-section in the region of the underside of the throttle plate 7 on. The reduced flow cross section is followed in each case by a long outflow bore, which enters the valve chamber 6 in the region of a radial expansion, that is, a spout, opens. Both the long outflow holes, as well as the volume of the Schnaupen contribute to an undesirable increase in the volume of the valve chamber 6 at.

In the in the 2 illustrated fuel injector according to the invention is the disadvantage of an enlarged valve chamber volume due to the use of a sleeve 18 for pressure relief of the valve member 16 compensated by that the throttle 11 the bore 8th in the mouth area of the hole 8th was relocated. A long the valve room 6 enlarging outflow bore is thus eliminated. Furthermore, the spout was replaced by an axial gap 10 between the valve plate 5 and the throttle plate 7 over whose height h the throttle effect can be influenced. The axial gap 10 thus forms part of the throttle 11 out. The serving as a drainage hole 12 is in the embodiment of 2 further formed in a conventional manner, that is with a throttle 14 at the bottom of the hole 12 is formed and connected to which a long outflow hole. Alternatively, however, also serving as a drainage hole 12 according to the hole 8th with a throttle 14 be formed in the mouth area.

A further alternative embodiment of serving as a drainage hole 12 goes out of the 3 illustrated embodiment of a fuel injector according to the invention. In contrast to the embodiment of 2 opens the hole 12 in an axial gap 13 whose height h is selected such that a back pressure is applied to the outflowing fuel. The back pressure is supposed to be the entry of gas bubbles in the valve chamber 6 reduce. The axial gap 13 has for this purpose a height h, compared to the height of in 1 shown spout is significantly reduced, so that a reduction of the valve chamber volume is achieved. The height h of the axial gap 13 However, it is greater than the height h of the axial gap 10 chosen because within the hole 12 already an outlet throttle 14 is designed to throttle the fuel flow.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102004061800 A1 [0002]
• DE 102008001330 A1 [0003]

Claims (9)

Fuel injector for a fuel injection system with one in a nozzle body ( 1 ) movably guided nozzle needle ( 2 ) for closing and releasing at least one in the nozzle body ( 1 ) formed injection port and with a control valve ( 3 ) for the indirect control of the nozzle needle ( 2 ) by opening or closing the control valve ( 3 ) a nozzle needle ( 2 ) acting in the closing direction control pressure in a control room ( 4 ) is changed, the control valve ( 3 ) one in a valve plate ( 5 ) trained valve space ( 6 ) of a throttle plate ( 7 ), which between the nozzle body ( 1 ) and the valve plate ( 5 ) is arranged and in which at least one bore ( 8th . 12 ) for connecting the valve space ( 6 ) with the control room ( 4 ) and / or a high pressure channel ( 9 ), characterized in that the bore ( 8th . 12 ) via one between the valve plate ( 5 ) and the throttle plate ( 7 ) formed axial gap ( 10 . 13 ) in the valve space ( 6 ) and in the mouth region a reduced diameter d to form a throttle ( 11 . 14 ), whose throttle effect over the height h of the axial gap ( 10 . 13 ) is influenced. Fuel injector according to claim 1, characterized in that the height h of the axial gap ( 10 . 13 ) ≤ 500 μm, preferably ≤ 100 μm, furthermore preferably ≤ 50 μm. Fuel injector according to claim 1 or 2, characterized in that the bore ( 8th ) the valve space ( 6 ) with the high pressure channel ( 9 ) and the throttle ( 11 ) serves as filling throttle. Fuel injector according to one of the preceding claims, characterized in that serving as a drain passage further bore ( 12 ) in the throttle plate ( 7 ) is provided, which the valve space ( 6 ) with the control room ( 4 ) and via another between the valve plate ( 5 ) and the throttle plate ( 7 ) formed axial gap ( 13 ) in the valve space ( 6 ), wherein the height h of the axial gap ( 13 ) is selected such that the over the bore ( 12 ) flowing fuel experiences a back pressure. Fuel injector according to one of claims 1 to 3, characterized in that the bore ( 12 ) the valve space ( 6 ) with the control room ( 4 ) and the throttle ( 14 ) serves as an outlet throttle. Fuel injector according to one of the preceding claims, characterized in that at least one bore ( 8th . 12 ) is formed hydroerosiv rounded at least in a partial area. Fuel injector according to one of the preceding claims, characterized in that the control valve ( 3 ) with a valve seat ( 15 ) cooperating lifting valve member ( 16 ), whose valve seat facing away from end in a throttle plate ( 7 ) and a low-pressure space ( 17 ) limiting sleeve ( 18 ), so that the valve member ( 16 ) in contact with the valve seat ( 15 ) is depressurized. Fuel injector according to claim 7, characterized in that the low pressure space ( 17 ) via a bore ( 19 ) to a return ( 20 ) connected. Fuel injector according to one of the preceding claims, characterized in that for actuation of the control valve ( 3 ) A piezoelectric actuator is provided.

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