EP3333408A1 - Electromagnetically operated control valve for a fuel injector, fuel injector - Google Patents

Abstract

The invention relates to an electromagnetically actuated control valve (1) for a fuel injector in a fuel injection system, in particular in a common rail injection system, comprising a substantially sleeve-shaped valve closing element (2) on a guide pin (3) between a lower and an upper stroke stop (4, 5) is guided reciprocally movable, wherein the lower stroke stop (4) by a valve seat (6) of a valve piece (7) is formed. According to the invention, the upper stroke stop (5) is formed by the guide pin (3). Furthermore, the invention relates to a fuel injector for a fuel injection system, in particular for a common rail injection system, with a control valve according to the invention (1).

Description

The invention relates to an electromagnetically actuable control valve for a fuel injector in a fuel injection system, in particular in a common rail injection system, with the features of the preamble of claim 1. Furthermore, the invention relates to a fuel injector for a fuel injection system, in particular for a common rail injection system , with such a control valve.

State of the art

From the publication DE 10 2007 006 946 A1 a fuel injector for injecting fuel into combustion chambers of internal combustion engines with a valve element is known, which is adjustable in dependence on the control pressure in a control chamber between an open position and a closed position. To vary the control pressure in the control chamber, a control valve is provided. The control valve has a valve sleeve, which is adjustable by an actuator between a closed position in which the valve sleeve rests against a valve seat, and an open position. In the open position, a connection of the control chamber is made with a low pressure region of the injector, so that the control pressure in the control chamber drops and the valve element of the injector is relieved. The valve element of the injector can thus open. In order to simplify the manufacture of a guide pin passing through the valve sleeve, which is fixed in position at least in the axial direction, it is proposed that the guide pin has an axially guided through an opening of a plate-shaped member portion whose end engages behind the plate-shaped member, while the plate-shaped member has a valve seat forms for the valve sleeve.

The present invention has for its object to provide an electromagnetically actuated control valve with a reciprocally movable between two stroke stops sleeve-shaped valve closing element whose stroke is as simple and precise adjustable. In this way, a control valve is to be provided which allows precise control of the lifting movement of a nozzle needle of a fuel injector.

To solve the problem, the electromagnetically actuated control valve with the features of claim 1 is proposed. Advantageous developments of the invention can be found in the dependent claims. Furthermore, a fuel injector is proposed with such a control valve.

Disclosure of the invention

The electromagnetically actuated control valve proposed for a fuel injector in a fuel injection system, in particular in a common rail injection system, comprises a substantially sleeve-shaped valve closure element which is reciprocally guided on a guide pin between a lower and an upper stroke stop. The lower stroke stop is formed by a valve seat of a valve piece. The upper stroke stop is inventively formed by the guide pin.

In the control valve according to the invention, the stroke of the valve closing element is determined by the position of the valve piece and the guide pin to each other. The stroke can thus be preset during assembly of the control valve. This means that a direct stroke adjustment is possible. In the control valves known from the prior art, the stroke adjustment is usually done indirectly via replacement sizes, such as the closing time or the PSI Ankerhub. In contrast to the directly set stroke, the indirectly set stroke is not mechanically measurable and therefore less exact. That is, there is a larger scatter band with respect to the stroke of the valve closing member. The stroke of the valve closing element of the control valve according to the invention is therefore simpler and more precisely adjustable, in contrast to the prior art.

Preferably, in the control valve according to the invention, the valve piece, the guide pin and the valve closing element form a preassembled unit in order to simplify the assembly of the control valve or of the fuel injector in which the control valve is inserted.

Since the upper stroke stop is formed by the guide pin in the control valve according to the invention, serving as a stroke stop residual air gap disc, which is usually used between the valve closing element and a magnet assembly for actuating the control valve, omitted. This reduces the number of components and the assembly of the control valve is further simplified.

According to a preferred embodiment of the invention, the guide pin to form the upper stroke stop on a stepped and / or at least partially conically shaped outer contour. In this way, an annular shoulder is created, which can be used as the upper stroke stop. The paragraph mediates between two sections that differ in terms of their outer diameter, wherein preferably the section with the larger outer diameter of the guide of the valve closing element is used.

In a further development of the invention it is proposed that the sleeve-shaped valve closing element has an inner contour cooperating with the upper stroke stop. The inner contour is designed such that it comprises a contact surface which can be brought into contact with the upper stroke stop. This is the case, for example, when the inner contour of the valve closing element engages behind the shoulder of the guide pin serving as the upper stroke stop.

Due to the fact that an inner contour formed on the valve closing element and an outer contour formed on the guide pin interact in a stop-forming manner, the upper stroke stop can be brought closer to the valve seat serving as the lower stroke stop. In this way, the temperature response of the control valve, that is, the influence of temperature on the stroke of the valve closing element is reduced. As a result, there is thus less to cold start or jump in pressure undesirable drops in the injection quantity.

The guide pin is preferably added in sections in the valve piece. About the recorded in the valve piece portion of the guide pin can be adjusted in a simple manner, the stroke of the valve closing element. For this purpose, the valve piece preferably has an axial bore, in which the guide pin is received in sections.

Furthermore, the guide pin is preferably connected to the valve piece in a force, shape and / or material fit. Due to the positive, positive and / or cohesive connection of the guide pin is fixed in position. The position fixation prevents a change in position of the guide pin with respect to the valve piece and thus an undesirable change in the previously set stroke. Preferably, the guide pin is crimped and / or welded to the valve piece. The press connection is particularly easy to produce. The welded joint represents a particularly strong connection.

Advantageously, the valve piece is in several parts, in particular in two parts, executed, wherein the parts are axially juxtaposed. The multi-part, in particular two-part, design of the valve piece facilitates a positive, positive and / or cohesive connection of the guide pin with the valve piece. For example, the guide pin can be passed through the valve seat forming part of the valve piece and welded to the cohesive connection with the valve piece. In a preferred embodiment of the invention, therefore, the guide pin passes through a first part of the valve piece and engages in a second part of the valve piece.

As a further development measure, it is proposed that the guide pin cooperate with the valve piece or with at least one part of the valve piece to form a flow channel extending in the axial direction. When the control valve is open, a connection of a control chamber to a low-pressure chamber can be established via the drainage channel.

To form the drainage channel, the guide pin preferably has at least one polished section and / or a longitudinal groove arranged on the outer peripheral side. The bevel or the longitudinal groove on the outer circumference of the guide pin are comparatively easy to produce. Preferably, a plurality of the same angular distance from each other arranged drainage channels are provided so that the valve seat is uniformly flowed.

To form an armature, the valve closure element preferably comprises a plate-shaped section or a plate-shaped part made of a magnetic or magnetizable material. This means that the valve closing element is at least partially or at least partially made of a magnetic or magnetizable material. If the valve closure element is designed in several parts, the several parts are non-positively, positively and / or materially connected to each other, in particular pressed together and / or welded.

Further preferably, the valve piece is held by means of a valve screw in a holding body of the fuel injector. About the tightening torque of the valve screw, the valve member can be acted upon with an axial force, which also causes a high sealing force between the valve member and the holding body and / or between the plurality of parts of the valve piece. Preferably, a shoulder for axial support of the valve piece is formed in the holding body, so that the holding body can be used as an abutment.

In addition, a fuel injector for a fuel injection system, in particular for a common rail injection system, proposed with a control valve according to the invention. The control valve serves to control the lifting movement of a liftable nozzle needle, via the lifting movement of which at least one injection opening can be opened and closed. The preset stroke of the valve closing element of the control valve according to the invention facilitates the assembly of the fuel injector, since the indirect stroke adjustment over replacement sizes is eliminated. The lack of temperature of the stroke of the valve closing element also prevents unwanted dips in the injection quantity at cold start or a pressure jump.

When mounting a fuel injector according to the invention, the control valve is at least partially pre-assembled. Preferably, the pre-assembly is carried out on a device which includes an electromagnet for actuating the armature and a spring for returning the armature. Further preferably, the device comprises a An actuator which allows a displacement of the guide pin relative to the valve piece to adjust the stroke of the valve closing element. For measuring the set stroke, a laser is preferably used.

First, the valve closing element, including the armature, is pushed onto the guide pin and the guide pin is inserted into a bore of the valve piece, preferably pressed in. By means of the valve screw, the valve piece can be fixed in the device. If the electromagnet is then energized, a magnetic field acting on the armature builds up, so that the valve closing element is pulled against the upper stroke stop on the guide piston. The stroke is measured and the guide pin is moved axially over the actuator until the set stroke corresponds to the target stroke. If the stroke is set, the guide pin is connected to the valve piece, preferably welded. When setting the welds, make sure that the drainage channels between the guide pin and the valve piece are not closed. If, for example, the guide pin has a section designed to run in triplicate to form the drainage channels, a total of three weld seams are provided, which are arranged offset in the circumferential direction to the drainage channels. The thus preassembled module can then be inserted into a holding body of a fuel injector and fixed in position by means of the valve screw.

Fig. 1

einen schematischen Längsschnitt durch ein erfindungsgemäßes Steuerventil gemäß einer ersten bevorzugten Ausführungsform,

Fig. 2

einen schematischen Längsschnitt durch ein erfindungsgemäßes Steuerventil gemäß einer zweiten bevorzugten Ausführungsform.

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

Fig. 1

a schematic longitudinal section through a control valve according to the invention according to a first preferred embodiment,

Fig. 2

a schematic longitudinal section through a control valve according to the invention according to a second preferred embodiment.

Detailed description of the drawings

That in the Fig. 1 shown electromagnetically actuated control valve 1 is used to control the lifting movement of a nozzle needle 18 of a fuel injector in one Fuel injection system. The control valve 1 is used for this purpose in a holding body 16 of the fuel injector.

The control valve 1 comprises a substantially sleeve-shaped valve closing element 2, which is guided on a guide pin 3 between a lower stroke stop 4 and an upper stroke stop 5 reciprocally movable. The lower stroke stop 4 is formed by a valve seat 6. If the valve closing element 2 is located on the lower stroke stop 4 or on the valve seat 6, the control valve 1 is closed. The upper stroke stop 5 is formed by the guide pin 3, which for this purpose has an outer contour 8 which cooperates with an inner contour 9 of the valve closing element 2 stop-forming. The outer contour 8 comprises a conically shaped portion for forming an annular shoulder, which is engaged behind by the inner contour 9 of the valve closing element 2. The inner contour 9 is formed on a valve seat 6 facing the end of the valve closing element 2, so that the upper stroke stopper 5 comes to rest near the lower stroke stop 4. In this way, the temperature coefficient of the stroke of the valve closing element 2 is reduced.

To fix the stroke of the valve closing element 2, the position of the guide pin 3 with respect to a valve piece 7, which forms the valve seat 6, fixed. For this purpose, a portion of the guide pin 3 is received in the valve member 7 and fixedly connected to the valve member 7 via welds 21. In order to facilitate the assembly, the valve member 7 is made in two parts, wherein the guide pin 3 is passed through a first part 7.1. After welding, the first part 7.1 and the second part 7.2 are connected so that a portion of the guide pin 3 projecting beyond the first part 7.1 engages in the second part 7.2. In order to establish a connection of a control chamber 11 formed in the second part 7.2 with a low-pressure chamber 12, the section of the guide bolt 3 passing through the first part 7.1 and engaging in the second part 7.2 has a plurality of outer peripheral-side bevels 13. In the region of the polished sections 13, drainage channels are thus formed, which are delimited radially on the outside by the parts 7.1, 7.2 of the valve piece 7. The welding points 21 are arranged with respect to their angular position offset from the bevels 13.

The drain channels formed between the guide pin 3 and the valve member 7 open into a drain hole 10, in which an outlet throttle 19 is formed. The drain hole 10 opens into the control chamber 11. Further, an inlet throttle 20 is provided for pressurizing the control chamber 11.

To fix the position of the control valve 1 in the holding body 16 of the fuel injector, a valve screw 15 is provided, the end-side recesses 22 for inserting a tool (not shown), so that the valve screw 15 can be tightened. In this case, the valve screw 15 presses the two parts 7.1, 7.2 of the valve member 7 against an annular shoulder 17 of the holding body 16. In order to facilitate the insertion of the tool in the recesses 22 of the valve screw 15, the valve closure member 2 in a plate-shaped portion which serves as an anchor 14, recesses 23, which can be brought into overlap with the recesses 22. When tightening the valve screw 15, the armature 14 rotates together with the valve screw 15th

Alternatively, as in the Fig. 2 illustrated, the valve closing element 2 in several parts, in particular in two parts, are executed, so that the armature 14 'is formed by a plate-shaped part, which is connected only after the insertion of the valve screw 15 with the sleeve-shaped part of the valve closing element 2. The connection can also be realized here via welds 21.

The in the FIGS. 1 and 2 illustrated embodiments of a control valve 1 according to the invention have the advantage that the stroke of the valve closing element 2 is directly adjustable. The stroke adjustment can also be checked by measurement, so that the stroke is very precisely adjustable. After the stroke adjustment, the position of the guide pin 3 with respect to the first part 7.1 of the valve member 7 is fixed by the guide pin 3 and the first part 7.1 of the valve member 7 are welded together. The thus preassembled unit can then be inserted into the holding body 16 of the fuel injector and fixed by means of the valve screw 15.

Claims (10)

Electromagnetically actuable control valve (1) for a fuel injector in a fuel injection system, in particular in a common rail injection system, comprising a substantially sleeve-shaped valve closing element (2) on a guide pin (3) between a lower and an upper stroke stop (4, 5 ) is guided reciprocally movable, wherein the lower stroke stop (4) by a valve seat (6) of a valve piece (7) is formed,
characterized in that the upper stroke stop (5) is formed by the guide pin (3). Control valve (1) according to claim 1,
characterized in that the guide pin (3) for forming the upper stroke stop (5) has a stepped and / or at least partially conically shaped outer contour (8). Control valve (1) according to claim 1 or 2,
characterized in that the sleeve-shaped valve closing element (2) has a with the upper stroke stop (5) cooperating inner contour (9). Control valve (1) according to one of the preceding claims,
characterized in that the guide pin (3) partially received in the valve piece (7) and / or connected to the valve piece (7) non-positively, positively and / or cohesively, preferably pressed and / or welded, is. Control valve (1) according to one of the preceding claims,
characterized in that the valve piece (7) is made of several parts, in particular two parts, and the parts (7.1, 7.2) are placed axially one against the other, wherein preferably the guide pin (3) passes through a first part (7.1) and into a second part (7.2) intervenes. Control valve (1) according to one of the preceding claims,
characterized in that the guide pin (3) cooperates with the valve piece (7), preferably with at least one part (7.1, 7.2) of the valve piece (7) forming a flow channel extending in the axial direction, so that when the control valve (1) is open a connection of a control chamber (11) with a low pressure chamber (12) via the drainage channel can be produced. Control valve (1) according to claim 6,
characterized in that the guide pin (3) has at least one bevel (13) and / or an outer peripheral side arranged longitudinal groove for forming the drainage channel, wherein preferably a plurality of equally spaced angularly disposed drainage channels are provided. Control valve (1) according to one of the preceding claims,
characterized in that the valve closing element (2) for forming an armature (14) comprises a plate-shaped portion (14) or a plate-shaped part (14 ') made of a magnetic or magnetizable material. Control valve (1) according to one of the preceding claims,
characterized in that the valve piece (7) by means of a valve screw (15) is held in a holding body (16) of the fuel injector, wherein preferably in the holding body (16) a shoulder (17) for axial support of the valve piece (7) is formed. Fuel injector for a fuel injection system, in particular a common rail injection system, with a control valve (1) according to one of the preceding claims for controlling the lifting movement of a liftable nozzle needle (18), via the lifting movement at least one injection port is releasable and closable.

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