DE102015221301A1 - Electromagnetically controllable suction valve and high-pressure pump - Google Patents

Abstract

The invention relates to an electromagnetically controllable suction valve for a high pressure pump in a fuel injection system, in particular in a common rail injection system comprising an annular solenoid (1) for acting on a between two end positions (2, 3) liftable armature (4), wherein a first end position (2) is predetermined directly or indirectly by a pole core (5), which is at least partially surrounded by a sleeve (6) which is welded to the pole core (5). According to the invention, the sleeve (6) has a radially inwardly extending collar (7) over which the sleeve (6) is supported in the axial direction on the pole core (5). Furthermore, the invention relates to a high pressure pump with such a suction valve.

Description

The invention relates to an electromagnetically controllable suction valve with the features of the preamble of claim 1. The suction valve is used to supply a high pressure pump of a fuel injection system, in particular a common rail injection system, with fuel. Furthermore, the invention relates to a high pressure pump with such a suction valve.

State of the art

From the DE 10 2014 200 339 A1 is an electromagnetically controllable suction valve for a high-pressure pump of a fuel injection system, in particular a common rail injection system, known which comprises an annular solenoid for acting on a liftable armature and a pole core which defines a working air gap together with the armature. The pole core thus serves as a stroke stop for the anchor. When striking the armature on the pole core act on the pole core high impact forces. These are transferred via connected to the pole core components to a housing of a high-pressure pump, in which the suction valve is inserted and fixed by means of a screw plug. Since the impact forces can assume high values, there is the danger that component connections and / or seals, in particular in the region of a welded connection of the pole core with a sleeve, fail prematurely. The result may be leaks and / or loss of function of the suction valve.

To counteract this, in the DE 10 2014 200 339 A1 proposed to axially bias the pole core in the direction of the armature. In this way, an outer peripheral side arranged weld, over which the welded joint of the pole core is made with the sleeve to be relieved. The relief of the weld should lead to an increase in the robustness of the welded joint and in this way reduce the risk of leaks in this area.

Based on the above-mentioned prior art, the present invention seeks to provide an electromagnetically controllable suction valve whose robustness, especially against the impact forces of an anchor, is further increased. In this way, a suction valve is to be created, which has a long service life.

To solve the problem, the electromagnetically controllable suction valve with the features of claim 1 is proposed. Advantageous developments of the invention can be found in the dependent claims.

Disclosure of the invention

The electromagnetically controllable suction valve proposed for a high-pressure pump of a fuel injection system, in particular a common-rail injection system comprises an annular solenoid for acting on an armature liftable between two end positions, wherein a first end position is predetermined directly or indirectly by a pole core which is at least partially separated from surrounded by a sleeve which is welded to the pole core. According to the invention, the sleeve has a radially inwardly extending collar over which the sleeve is supported in the axial direction of the pole core.

Due to the axial support of the sleeve on the pole core a positive connection in the direction of movement of the armature is effected. By striking the anchor on the pole core, the impact force is transmitted via the pole core on the collar of the sleeve. The sleeve is therefore loaded in the axial direction, the positive locking ensures a high durability of the connection of the sleeve with the pole core. As a result, the robustness of the suction valve against the impact forces of the armature increases.

In order to ensure the positive connection between the sleeve and the pole core in the direction of movement of the armature, preferably the collar of the sleeve is located on a radially extending surface, for example on the end face facing away from the armature, of the pole core. The sleeve extends in this case over the entire height of the pole core, so that its collar comes to rest on the end face of the pole core.

Alternatively, the collar of the sleeve can be supported in the axial direction on an annular shoulder of the pole core. The sleeve must be performed in this case only to the annular shoulder of the pole core, so that the collar of the sleeve is able to engage behind the annular paragraph of the poker. The sleeve can therefore be made shorter, which saves material and weight. To form the annular shoulder on the pole core, the outer contour of the pole core is preferably stepped.

In a further development of the invention, it is proposed that the welded connection between the sleeve and the pole core is made via a weld arranged in the region of the collar. This measure also has a robusting effect. Because a arranged in the collar region of the sleeve weld is claimed by striking the anchor on the pole core only to pressure and not shear.

Advantageously, the weld is formed circumferentially, so that a seal of an axial gap between the pole core and the collar of the sleeve is achieved. Since the weld is stressed only by pressure and not shear because of its position, the increase in robustness of the weld has a positive effect on a long-lasting high impermeability of the axial gap.

Furthermore, it is proposed that the sleeve surrounds at its end facing away from the pole core a collar portion of a valve body in which the armature is received in a liftable manner. At the same time a guide of the anchor can be effected via the collar portion of the valve body. Furthermore, a particularly compact suction valve can be provided, in particular when the valve body replaces a valve screw.

According to a preferred embodiment of the invention, the valve body directly or indirectly via a stop ring, the second end position of the armature before. For this purpose, an annular shoulder is preferably further formed in the valve body, which either serves itself as a stroke stop or supports a stroke stop serving as a stop ring. On the position of the pole core to the valve body thus the stroke of the armature can be specified. If a stop ring inserted into the valve body serves as a stroke stop, the stroke of the anchor can be influenced by the height of the stop ring.

Advantageously, the sleeve is welded to the valve body. The position of the pole core to the valve body can be permanently fixed or fixed via the welded connection. Preferably, the welded connection is produced via a weld seam arranged on the outer circumference of the valve body. This means that the sleeve - unlike in the connection region with the Polkernden the collar portion of the valve body does not engage behind. Accordingly, before setting the weld, the sleeve can be displaced in the axial direction relative to the valve body in order to perform a precise stroke adjustment. Subsequently, the outer peripheral side, set at the end of the overlapping region of the sleeve with the collar portion of the valve body, the weld.

Preferably, the weld is formed circumferentially, so that at the same time a sealing of a radial gap between the sleeve and the valve body is achieved.

Furthermore, it is proposed that the armature is mechanically coupled directly or indirectly via a contact pin with a liftable valve member and acted upon in the direction of the valve member by the spring force of a spring. Via the armature and the contact pin - if present - can be acted upon in this way on the valve member. The spring serves to reset the armature and the contact pin.

Preferably, the spring force of the spring is greater than the spring force of a spring chosen, which acts on the valve member in the closing direction. When the solenoid is de-energized, the spring force of the first spring thus allows the suction valve to be kept open or opened. Only with energization of the solenoid and the stroke of the armature against the spring force of the first spring, the valve member is relieved to the extent that the other spring is able to pull the valve member into the valve seat and closes the suction valve.

It is also proposed that the suction valve is integrated in the high-pressure pump. By integrating the suction valve in the high pressure pump, a particularly compact structure can be achieved. For the valve seat of the suction valve is formed in this case by a housing part of the high-pressure pump, so that a separate valve plate for forming the valve seat can be omitted.

A preferred embodiment of the invention will be explained in more detail with reference to the accompanying drawings. These show:

1 a schematic longitudinal section through a suction valve according to a first preferred embodiment of the invention and

2 an enlarged section of the 1 in the area of support of the sleeve on the pole core.

Detailed description of the drawings

That in the 1 shown electromagnetically controllable suction valve is used to supply a high-pressure pump with fuel. The suction valve comprises a valve member 17 that in a housing part 20 the high-pressure pump is guided in a liftable manner. The suction valve is thus in the housing part 20 the high-pressure pump integrated.

The valve member 17 is in the closing direction of the spring force of a spring 19 acted upon, on the one hand on the housing part 20 and on the other hand indirectly via a spring plate 21 on the valve member 17 is supported. To the suction valve against the spring force of the spring 19 to hold open or open is a spring 18 provided, whose spring force is greater than that of the spring 19 is. The feather 18 is on the one hand at one with an anchor 4 connected contact pin 16 on the other hand on a pole core 5 supported. The contact pin 16 serves the mechanical coupling of the anchor 4 with the valve member 17 , so that the spring force of the spring 18 also the valve member 17 loaded as long as a solenoid 1 that act on the anchor 4 is provided, remains energized. Will the solenoid coil 1 energized, the anchor moves 4 against the spring force of the spring 18 upwards in the direction of the pole core 5 to a working air gap 22 between the pole core 5 and the anchor 4 close. This dissolves the contact pin 16 from the valve member 17 so the spring 19 the suction valve is able to close.

During operation of the suction valve, the armature moves 4 between two end positions 2 . 3 back and forth. A first end position 2 is through the pole core 5 specified. The second end position 3 is present by a stop ring 13 defined within a collar section 11 a valve body 12 on an annular shoulder 23 is supported. About the collar section 11 is the anchor 4 at the same time liftable guided.

Because the location of the Polkerns 5 relative to the valve body 12 Influence on the stroke of the anchor 4 It is important to fix the situation permanently. This is done in the present case by means of a sleeve 6 on the one hand with the pole core 5 and on the other hand with the valve body 12 is welded.

The welded connection of the sleeve 6 with the pole core 5 takes place in the area of a federal government 7 over which the sleeve 6 on an annular shoulder 8th of the pole core 5 is supported in the axial direction. The Bund 7 the sleeve 6 engages behind the paragraph 8th of the pole core 5 and causes in this way a positive connection. The positive connection prevents a relative movement of the pole core 5 opposite the sleeve 6 , Supportive is one in the area of the federal government 7 arranged weld 9 for making the weld between the sleeve 6 and the pole core 5 , The weld 9 is due to its location when striking the anchor 4 at the pole core 5 only stressed by pressure and not shear (see arrows 24 in the 2 ). At the same time, over the weld 9 a seal of an axial gap 10 between the covenant 7 the sleeve 6 and the paragraph 8th of the pole core 5 causes.

Andernends is the sleeve 6 over a circumferential weld 14 with the collar section 11 of the valve body 12 connected. The weld 14 intended a relative movement of the sleeve 6 opposite the valve body 12 prevent. In contrast to the weld 9 is the weld 14 outside circumference at the collar portion 11 arranged. It is therefore claimed for shear. This is accepted because of the lack of positive fit of the sleeve 6 with the valve body 12 before setting the weld 14 an axial displacement of the sleeve 6 opposite the valve body 12 allows for precise stroke adjustment.

The weld 14 At the same time, it seals the radial gap 15 between the sleeve 6 and the valve body 12 ,

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 102014200339 A1 [0002, 0003]

Claims (10)

Electromagnetically controllable suction valve for a high-pressure pump in a fuel injection system, in particular in a common-rail injection system, comprising an annular magnet coil ( 1 ) for acting on one between two end positions ( 2 . 3 ) lifting anchor ( 4 ), wherein a first end position ( 2 ) directly or indirectly through a pole core ( 5 ) is predetermined, at least in sections of a sleeve ( 6 ) surrounded by the pole core ( 5 ) is welded, characterized in that the sleeve ( 6 ) a radially inwardly extending collar ( 7 ) over which the sleeve ( 6 ) in the axial direction on the pole core ( 5 ) is supported. Suction valve according to claim 1, characterized in that the collar ( 7 ) of the sleeve ( 6 ) in the axial direction on an annular shoulder ( 8th ) of the pole core ( 5 ) is supported. Suction valve according to claim 1 or 2, characterized in that the welded connection between the sleeve ( 6 ) and the poker ( 5 ) in the area of the Confederation ( 7 ) of the sleeve ( 6 ) arranged weld ( 9 ) is made. Suction valve according to claim 3, characterized in that the weld seam ( 9 ) is formed circumferentially, so that a seal of an axial gap ( 10 ) between the pole core ( 5 ) and the federal government ( 7 ) of the sleeve ( 6 ) is achieved. Suction valve according to one of the preceding claims, characterized in that the sleeve ( 6 ) at its the pole core ( 5 ) facing away from a collar portion ( 11 ) of a valve body ( 12 ), the anchor ( 4 ) in the collar section ( 11 ) is received in a liftable manner. Suction valve according to claim 5, characterized in that the valve body ( 12 ) directly or indirectly via a stop ring ( 13 ) the second end position ( 3 ) of the anchor ( 4 ) pretends. Suction valve according to claim 5 or 6, characterized in that the sleeve ( 6 ) with the valve body ( 12 ) is welded, wherein preferably the welded connection via an outer peripheral side on the valve body ( 12 ) arranged weld ( 14 ) is made. Suction valve according to claim 7, characterized in that the weld ( 14 ) is formed circumferentially, so that a seal of a radial gap ( 15 ) between the sleeve ( 6 ) and the valve body ( 11 ) is achieved. Suction valve according to one of the preceding claims, characterized in that the armature ( 4 ) directly or indirectly via a contact pin ( 16 ) with a liftable valve member ( 17 ) mechanically coupled and in the direction of the valve member ( 17 ) of the spring force of a spring ( 18 ) is applied, wherein preferably the spring force of the spring ( 18 ) greater than the spring force of another spring ( 19 ), which is the valve member ( 17 ) acted in the closing direction. High-pressure pump with a suction valve according to one of the preceding claims, wherein the suction valve is integrated in the high-pressure pump.

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