DE102009000183A1 - Fuel injection valve for fuel injection systems of internal combustion engines, particularly for direct injection of fuel in combustion chamber of internal combustion engine, has actuator and flow choke provided in fuel supply - Google Patents

Abstract

The fuel injection valve has an actuator (13), by whose excitement a lifting movement of a valve needle is achieved. A flow choke (41) is provided in the fuel supply (16), which has an opening cross-section, which is smaller than the opening section of the fuel supply, where the flow choke is integrated in the filter element (25).

Description

State of the art

The The invention is based on a fuel injection valve after Genus of the main claim.

From the DE 40 03 228 A1 a fuel injection valve is known in which a fuel filter is pressed at the inlet end of the fuel injection valve in the fuel inlet nozzle. This fuel filter is provided at the periphery, for example, with a brass ring which forms the mating with the wall of the Brennstoffeinlassstutzens when pressing the fuel filter. The brass ring surrounds an annular solid plastic portion of the body of the fuel filter, from which z. B. three webs in the longitudinal direction extend to a common bottom portion, of which the actual screen mesh is encapsulated in these sub-areas.

A comparable filter element for a fuel injection valve is z. B. also the EP 0 480 610 A1 removable.

Alternatives to the abovementioned pressable fuel filters are by means of latching connections installable fuel filter in the fuel inlet of fuel injection valves. So it is from the DE 43 25 842 A1 known to perform the main body of the fuel filter made of plastic in one piece with a retaining collar. The retaining collar extends radially beyond the fuel inlet nozzle and has a nose outside the fuel inlet nozzle which can cooperate with an outer groove for latching engagement.

In the from the DE 196 47 587 A1 known fuel injector, the fuel inlet nozzle on an inside bead. A holding portion of the fuel filter has a groove which cooperates with the bead to form a latching connection.

The Groove is formed so that the groove having the holding portion of the fuel filter at the beveled flank areas the bead rests sealingly.

all Embodiments of the prior art are common, that the fuel filter in the inlet region of the fuel injection valve a maximum opening width according to the diameter the fuel inlet nozzle does not have in any way upstream to be a flow obstacle.

Advantages of the invention

The inventive fuel injection valve with The features of the main claim has the advantage that with very low additional costs and also easy to produce a considerable Sound reduction similar to fuel injectors similar Type and comparable structural design is achieved, being a disturbing noise in particular in the operation of high-pressure injection valves is determined by the measures according to the invention significantly reduced becomes. In accordance with the invention is in the inlet area of the fuel injection valve, ie inside a connection sleeve, which serves as a fuel inlet nozzle, a flow restrictor provided, which has an opening cross section, the is smaller by a multiple than the opening cross section of the Inlet area. Advantageously, the flow restrictor integrated in a filter element located in the fuel supply.

By the measures listed in the dependent claims are advantageous developments and improvements of the main claim specified fuel injector possible.

From The advantage is the flow restrictor with a diameter from 0.4 mm to 1.5 mm depending on the opening width of the inlet area train.

Across from a solution with an independent component with throttle function, the advantages are that an additional Risk of chip formation during the pressing of such a component avoided is that the costs are significantly lower than in the production such a component and the pressing of this component and no Process change in the assembly is necessary because the Filter element are introduced in an unchanged position can.

drawing

Embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Show it 1 an axial section through a fuel injection valve according to the prior art, 2 an enlarged section of the in 1 illustrated fuel injection valve in the area II in 1 with a first embodiment of the filter element according to the invention and 3 an enlarged section of the in 1 illustrated fuel injection valve in the area III in 1 with a second embodiment of the filter element according to the invention.

Description of the embodiments

Before using the 2 and 3 Embodiments of a fuel injection valve according to the invention will be described in more detail, is to better understand the invention first with reference to 1 an already known fuel injection valve will be briefly explained with respect to its essential components.

This in 1 illustrated fuel injector 1 is in the form of a fuel injector 1 designed for fuel injection systems of mixture-compression, spark-ignited internal combustion engines. The fuel injector 1 is particularly suitable for direct injection of fuel into a combustion chamber, not shown, of an internal combustion engine.

The fuel injector 1 consists of a nozzle body 2 in which a valve needle 3 is arranged. The valve needle 3 stands with a valve closing body 4 in operative connection with one on a valve seat body 5 arranged valve seat surface 6 cooperates to a sealing seat. In the fuel injection valve 1 In the exemplary embodiment, this is an inwardly opening fuel injection valve 1 which has at least one injection opening 7 features. The nozzle body 2 is through a seal 8th against an outer pole 9 a magnetic coil 10 sealed. The magnetic coil 10 is in a coil housing 11 encapsulated and placed on a coil carrier 12 wound, which at an inner pole 13 the solenoid 10 is applied. The inner pole 13 and the outer pole 9 are through a narrowing 26 separated from each other and each other by a non-ferromagnetic connecting member 29 connected. The magnetic coil 10 is over a line 19 from one via an electrical plug contact 17 energized electric current. The plug contact 17 is from a plastic casing 18 surrounded by the inner pole 13 can be injected.

The valve needle 3 is in a valve needle guide 14 guided, which is designed disk-shaped. For stroke adjustment is a paired shim 15 , Upstream of the dial 15 there is an anchor 20 , This is about a first flange 21 non-positively with the valve needle 3 in connection, which by a weld 22 with the first flange 21 connected is. On the first flange 21 a return spring is supported 23 from, which in the present design of the fuel injection valve 1 through an adjusting sleeve 24 is brought to bias.

In the upper valve needle guide 14 , in anchor 20 and on a lower guide element 36 run fuel channels 30 . 31 and 32 , The fuel is supplied via a central fuel supply 16 fed and through a filter element 25 filtered. The fuel injector 1 is through a seal 28 against a fuel distribution line, not shown, and through another seal 37 sealed against a cylinder head, not shown. Between the first flange 21 and the anchor 20 is a forward stroke spring 38 arranged the anchor 20 in the idle state of the fuel injection valve 1 in abutment with the second flange 34 holds. The spring constant of the forward stroke spring 38 is much smaller than the spring constant of the return spring 23 ,

At rest of the fuel injection valve 1 becomes the anchor 20 from the return spring 23 and the Vorhubfeder 38 contrary to its stroke direction so acted upon, that the valve closing body 4 on the valve seat surface 6 is held in sealing contact. Upon energization of the solenoid 10 builds up this a magnetic field, which is the anchor 20 initially against the spring force of the Vorhubfeder 38 moved in the stroke direction, wherein a Ankerfreiweg by the distance between the first flange 21 and the anchor 20 is predetermined. After passing through the anchor freeway, the anchor decreases 20 the first flange 21 , which with the valve needle 3 is welded, against the spring force of the return spring 23 also in the stroke direction with. The anchor 20 goes through a total stroke, the height of the working gap 27 between the anchor 20 and the inner pole 13 equivalent. The with the valve needle 3 related valve closing bodies 4 lifts from the valve seat surface 6 off, and the over the fuel channels 30 to 32 Guided fuel is through the spray opening 7 hosed.

If the coil current is switched off, the armature drops 20 after sufficient degradation of the magnetic field by the pressure of the return spring 23 from the inner pole 13 which causes the valve needle 3 related first flange 21 moved against the stroke direction. The valve needle 3 is thereby moved in the same direction, whereby the valve closing body 4 on the valve seat surface 6 touches down and the fuel injector 1 is closed. The Vorhubfeder 38 impinges on the anchor 20 then again so that this is not from the second flange 34 rebounds, but returns to the idle state without Anschlagspreller.

The inner pole 13 is to the inlet end of the fuel injection valve 1 designed sleeve-shaped and thus forms a connection sleeve in this area 40 , The connection sleeve 40 Can also be used as a separate component independent of the inner pole 13 be formed, then z. B. the inner pole 13 is fitted. In the area of the connection sleeve 40 is the filter element 25 introduced, the filtering out of such particles in the fuel is used, which otherwise to functional impairments of the rele could lead to valve components such as the sealing seat.

Of the electromagnetic circuit can z. B. also by a piezoelectric actuator or a magnetostrictive actuator can be replaced as an actuator.

2 shows in a partial axial sectional view of the in 1 With II designated section as a first inventive embodiment of a filter element 25 , In particular, in high-pressure injectors, the z. B. supplied with a fuel pressure of> 100 bar, it has been shown that it comes in operation to a considerable noise, which can be used as z. T. disturbing can be felt. Therefore, the invention should above all serve to bring about a reduction in noise compared to fuel injection valves of similar design and comparable structural design.

An effective noise reduction takes place in accordance with the invention, if in the inlet region, ie in the interior of the connection sleeve 40 , which serves as a fuel inlet port, a flow restrictor 41 is provided, which has an opening cross section which is smaller by a multiple than the opening cross section of the connection sleeve 40 or the filter element 25 , The flow restrictor 41 has a diameter of 0.4 mm to 1.5 mm, depending on the opening width of the connection sleeve 40 , Advantageously, the flow restrictor 41 not in a separate, even in the connection sleeve 40 molded-in component (risk of chip formation) formed, but in the filter element 25 integrated. The position of the filter element 25 can be maintained unchanged.

At the in 2 shown embodiment is on the plastic extrusion 42 of filter fabric 43 , which in its upper region an annular solid plastic section of the main body of the filter element 25 forms, a disc-shaped throttle element 45 with the flow restrictor inserted in it 41 hung up. The annular plastic solid portion of the body is surrounded by a metal clamping sleeve 44 that z. B. made of brass. This clamping sleeve 44 forms the press pairing with the connection sleeve 40 for secure attachment of the filter element 25 , The disc-shaped throttle element 45 exists z. B. of a metal material or of a plastic. The clamping sleeve 44 is designed such that it in the upstream direction over the plastic solid portion of the body and the throttle element located thereon 45 protrudes and then bent over and for secure positional fixation of the throttle element 45 subsequently caulked axially by crimping or crimping. The throttle element 45 is either radial or axial to the plastic extrusion 42 (Solid plastic section of the body) sealed.

3 shows in a partial axial sectional view of the in 1 With III designated section as a second inventive embodiment of a filter element 25 , This embodiment is characterized in that the clamping sleeve 44 ' cup-shaped and thus as a lid member on the filter element 25 sits and the plastic massive section of the body overlaps. In the ground area 48 the clamping sleeve 44 ' is now directly the flow restrictor 41 ' brought in. The clamping sleeve 44 ' can also be made of brass and z. B. are produced as a deep-drawn part. The clamping sleeve 44 ' in turn, in turn, by means of crimping or crimping on the plastic solid section of the base body of the plastic extrusion 42 securely attached.

The invention is not limited to the illustrated embodiments and also in a variety of other designs of fuel injection valves compared to those in 1 shown design of the fuel injection valve feasible.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 4003228 A1 [0002]
• EP 0480610 A1 [0003]
• - DE 4325842 A1 [0004]
• - DE 19647587 A1 [0005]

Claims (10)

Fuel Injector ( 1 ) for fuel injection systems of internal combustion engines, in particular for the direct injection of fuel into the combustion chamber of an internal combustion engine, with an actuator ( 9 . 10 . 13 . 20 ), by the excitation of which a lifting movement of a valve needle ( 3 ) is achieved, whereby an actuation of a valve closing body ( 4 ), which together with a valve seat surface ( 6 ) forms a sealing seat is possible, and with an inlet-side fuel supply ( 16 ), wherein in the fuel feed a filter element ( 25 ), characterized in that in the fuel supply ( 16 ) a flow restrictor ( 41 . 41 ' ) is provided, which has an opening cross section which is smaller by a multiple than the opening cross section of the fuel supply ( 16 ), and the flow restrictor ( 41 . 41 ' ) in the filter element ( 25 ) is integrated. Fuel injection valve according to claim 1, characterized in that the flow throttle ( 41 . 41 ' ) has a diameter of 0.4 mm to 1.5 mm. Fuel injection valve according to claim 1 or 2, characterized in that the flow throttle ( 41 ) in a disk-shaped throttle element ( 45 ) introduced in the filter element ( 25 ) is inserted. Fuel injection valve according to claim 3, characterized in that the filter element ( 25 ) a plastic extrusion ( 42 ), which in its upper region an annular plastic solid portion of the main body of the filter element ( 25 ) and in which a filter fabric ( 43 ) is overmolded and the throttle element ( 45 ) is placed on the plastic solid section. Fuel injection valve according to claim 3 or 4, characterized in that the disc-shaped throttle element ( 45 ) can be produced from a metal material or from a plastic. Fuel injection valve according to claim 4, characterized in that the annular plastic solid portion of the base body and the throttle element ( 45 ) are surrounded by a metal clamping sleeve ( 44 ), for the secure fixing of the position of the throttle element ( 45 ) can be caulked axially by crimping or crimping. Fuel injection valve according to claim 1 or 2, characterized in that the flow throttle ( 41 ' ) directly in a metal clamping sleeve ( 44 ' ) of the filter element ( 25 ) is introduced, wherein the clamping sleeve ( 44 ' ) is formed cup-shaped. Fuel injection valve according to claim 7, characterized in that the clamping sleeve ( 44 ' ) as a lid member on the filter element ( 25 ) and the plastic massive section of the body overlaps. Fuel injection valve according to claim 7 or 8, characterized in that the clamping sleeve ( 44 ' ) can be produced as a deep-drawn part. Fuel injection valve according to one of claims 6 to 9, characterized in that the clamping sleeve ( 44 . 44 ' ) is made of brass.