DE102015223162A1 - 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 magnetic coil (1) for acting on a liftable armature (2), which together with a pole core (3) a working air gap (4) is limited and at least partially surrounded by a valve body (5). According to the invention, a one-part or multi-part stop element (7) is arranged between the armature (2) and an annular shoulder (6) of the valve body (5) and axially supported against the annular shoulder (6) of the valve body (5) Paragraph (6) is axially biased. 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 armature is at least partially surrounded by a valve body, which in the present case is designed as a screw plug and the attachment of the suction valve to the high-pressure pump is used. The pole core and the valve body are connected by means of a sleeve, wherein the connection of the sleeve with the pole core via a weld. Since striking the anchor at the pole core, the weld is heavily loaded, so that there is a risk that the component connection fails prematurely, it is proposed to relieve the weld, to axially bias the pole core in the direction of the armature. In this way, the robustness of the component connection and, as a consequence, the robustness of the suction valve should be increased.

Based on the above-mentioned prior art, the present invention has the object to provide an electromagnetically controllable suction valve, which is particularly wear-operable, so that the robustness is further increased.

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. Furthermore, a high pressure pump is proposed with such a suction valve.

Disclosure of the invention

The electromagnetically controllable intake 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 a liftable armature which, together with a pole core, limits a working air gap and is at least partially surrounded by a valve body. According to the invention, a one-part or multi-part design stop element is arranged between the armature and an annular shoulder of the valve body, which is axially supported on the annular shoulder of the valve body and axially biased against the shoulder.

By providing a one-piece or multi-part stop element, the wear in the abutment region of the armature can be further reduced. Because the stop element can be made of a material that is particularly resistant to wear.

The fact that the stop element is supported on an annular shoulder of the valve body, it can also be used to adjust the anchor stroke. However, the axial support alone can not prevent movement of the stopper member relative to the valve body. In particular, the stop element could follow its movement during a stroke of the armature and lift off from the annular shoulder of the valve body. This effect is also known as hydraulic bonding. In this case, the stop element can make an angle and occupy a clamping fit. This would mean that the armature stroke would be restricted.

Furthermore, a hydraulic bonding of the stop element at the anchor would lead to an increased moving mass. This in turn would result in an increase in the switching time as well as increased impact forces, which have a negative effect on the wear.

However, since in the suction valve according to the invention, the stop element is not only supported on the annular shoulder of the valve body, but also axially biased against the annular shoulder of the valve body, a relative movement of the stop member relative to the valve body in the axial direction is excluded.

Preferably, the stop element is configured at least partially or partially annular and / or sleeve-shaped. This means that a preferably integrally formed stop element comprises at least one portion which is annular and / or sleeve-shaped. Alternatively, however, the stop element may also be designed in several parts and comprise at least one part which is annular and / or sleeve-shaped.

The annular portion or the annular part preferably forms a serving as a stroke stop for the anchor stop surface. The sleeve-shaped portion or the sleeve-shaped part can be used for axial prestressing and thus for fixing the position of the stop element.

The one-piece design has the advantage that the assembly is facilitated because all functions are achieved with only one component. The multi-part design facilitates the production, since ring and sleeve can be made separately and possibly made of different materials.

According to a preferred embodiment of the invention, the stop element is made in one piece and connected via a sleeve-shaped portion with the pole core and / or with the valve body. If the sleeve-shaped portion of the stop element is connected to both the pole core and with the valve body, he is able to replace a sleeve which is usually used for connecting the pole core with the valve body. The number of components can thus be further reduced.

Preferably, the connection of the sleeve-shaped portion of the stop element with the pole core and / or the valve body via a welded connection, which comprises at least one weld. If the weld seam is formed circumferentially, a sealing of the suction valve to the outside can be effected at the same time.

To effect the axial bias, the stop element can be pressed or held down when setting the weld against the shoulder.

Alternatively or additionally, it is proposed that the axial prestressing of the stop element be effected against the shoulder by means of a sleeve which is supported on an end face of the stop element facing away from the shoulder under an axial pretension and fixed in position relative to the pole core and / or the valve body. In this case, the sleeve presses the one-piece or multi-part stop element against the annular shoulder of the valve body. The sleeve therefore serves as a hold-down.

In a further development of the invention it is proposed that the sleeve for axial support on the end face of the stop element has a radially inwardly extending collar portion. The sleeve can in this case be arranged radially outward with respect to the pole core and / or the valve body, so that it is able to replace a sleeve, which is usually arranged to connect the pole core to the valve body radially outward.

The position fixation of the sleeve with respect to the pole core and / or the valve body is advantageously effected via at least one weld, which is preferably formed circumferentially. In this case, sealing of the suction valve to the outside can also be effected via the weld.

It is also proposed that the sleeve at least partially surrounds the pole core and / or the valve body. The radially outer arrangement of the sleeve facilitates the setting of the weld. Furthermore, a radially outer sleeve can be pressed in setting the weld easier in the direction of the annular shoulder to cause the required axial bias.

In order to simplify the manufacture of the stop element, it is proposed that it is designed in several parts and comprises at least one annular part and a sleeve-shaped part. The annular part may serve to form the abutment surface for the armature. The sleeve-shaped part can be used as a hold-down, which presses the annular member against the annular shoulder of the valve body. For this purpose, the sleeve-shaped part is axially biased in the direction of the annular shoulder of the valve body. The axial bias of the sleeve-shaped part can in turn be effected by a welded connection to the pole core and / or the valve body. Alternatively, as already described above, a sleeve can be used, which is welded to the pole core and / or the valve body and has a radially inwardly extending collar portion for support on the sleeve-shaped part of the stop element.

In the suction valve according to the invention, preferably, the armature with a liftable valve member is mechanically coupled and acted upon in the direction of the valve member by the spring force of a spring. The couplable with the valve armature armature can thus be used to actuate the valve member.

The armature can be coupled directly or indirectly via a contact pin with the valve member mechanically. The use of a contact pin for coupling has the advantage that it can be made of a particularly wear-resistant material, so that the wear on the stop and contact surfaces of the armature is further reduced.

Preferably, the spring force of the spring, which acts on the armature in the direction of the valve member, greater than the spring force of another spring, which acts on the valve member in the closing direction. The suction valve is designed as a normally open valve in this case, so that the energization of the solenoid takes place only to close the valve.

To solve the above object, a high-pressure pump is also proposed with a suction valve according to the invention. The suction valve is integrated in a housing part of the high-pressure pump. This means that the valve member of the suction valve is guided over a bore of the housing part of the high pressure pump and / or cooperates with a formed in the housing part of the high pressure pump valve seat. By integrating the suction valve in the high-pressure pump, a particularly compact arrangement can be created.

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

1 a schematic longitudinal section through an integrated electromagnetically actuated suction valve according to a first preferred embodiment of the invention,

2 an enlarged section of the 1 in the region of the stop element,

3 a schematic longitudinal section through a suction valve according to a second preferred embodiment of the invention,

4 a schematic longitudinal section through a suction valve according to a third preferred embodiment of the invention and

5 a schematic longitudinal section through a suction valve according to a fourth preferred embodiment of the invention.

Detailed description of the drawings

That in the 1 shown electromagnetically controllable suction valve is in a housing part 16 integrated a high-pressure pump. In the present case forms the housing part 16 the high-pressure pump a hole 17 via which a valve member 13 the suction valve is guided in a liftable manner.

The suction valve is used to fill one in the housing part 16 formed high-pressure element space 18 the high-pressure pump with fuel. The fuel is in the high pressure element space 18 via the stroke movement of a pump piston 19 subjected to high pressure and then via an outlet valve 20 a high-pressure accumulator (not shown) supplied.

Again 1 it can be seen, is the valve member 13 the suction valve in the closing direction of the spring force of a spring 15 applied. The feather 15 this is on the one hand on the housing part 16 , on the other hand indirectly via a spring plate 21 on the valve member 13 supported. To the suction valve against the spring force of the spring 15 to hold open or open is a spring 14 provided, whose spring force is greater than that of the spring 15 is. The feather 14 is on the one hand at an anchor 2 on the other hand on a pole core 3 supported, in common with the anchor 2 a working air gap 4 limited. Because the anchor 2 with the valve member 13 can be mechanically coupled, the spring force of the other spring 14 for opening or keeping open the valve member 13 be used. The closing of the suction valve can by means of a magnetic coil 1 causes the anchor 2 at least partially surrounds. Will the solenoid coil 1 energized, the anchor moves 2 against the spring force of the spring 14 upwards in the direction of the pole core 3 to the working air gap 4 between the pole core 3 and the anchor 2 close. This releases the anchor 2 from the valve member 13 so that the smaller spring 15 the suction valve is able to close. Is the energization of the solenoid 1 finished, puts the pen 14 the anchor 2 back to its starting position, the anchor 2 on the valve member 13 strikes and lifts this out of his seat.

The movement space of the anchor 2 is present on the one hand by the pole core 3 on the other hand by a stop element 7 limited to an annular shoulder 6 a valve body 5 is supported, the anchor 2 at least partially surrounds.

Again 2 it can be seen which the stop element 7 the suction valve of the 1 in an enlarged view, the stop element has 7 an annular portion and a sleeve-shaped portion. The sleeve-shaped section projects beyond the valve body 5 , On a frontal surface 10 the sleeve-shaped portion is a sleeve 9 supported, the pole core 3 and the valve body 5 partially surrounds and with these over welds 12 connected is. The sleeve 9 serves to fix the position of the pole core 3 opposite the valve body 5 , Further, over the sleeve 9 in connection with the welds 12 achieved a seal of the suction valve to the outside. For support on the sleeve-shaped portion of the stop element 7 has the sleeve 9 a radially inwardly extending collar portion 11 on, on the face 10 the stop element 7 rests under an axial preload. The sleeve 9 thus pushes the stop element 7 against the annular shoulder 6 of the valve body 5 , About the sleeve 9 is therefore the stop element 7 Position-fixed in the axial direction. This will prevent the stopper 7 from the annular heel 6 of the valve body 5 takes off and the stroke of the anchor 2 impaired.

In the 3 is a further preferred embodiment of a suction valve according to the invention shown, which differs from that of 1 and 2 characterized in that the stop element 7 is formed in several parts and an annular part 7.1 and a sleeve-shaped part 7.2 includes. The multi-part design facilitates the production of the stop element 7 because a ring and a sleeve are easier to manufacture. Furthermore, different materials can be used. One on the sleeve-shaped part 7.2 supported sleeve 9 also pushes the multi-part stop element here 7 against the annular shoulder 6 of the valve body 5 , The sleeve 9 is equal to the 2 trained and arranged. About welds 12 is the sleeve 9 with the pole core 3 and the valve body 5 connected.

A suction valve with a multi-part stop element 7 is also in the 4 shown. In contrast to the embodiment of 3 here is the sleeve-shaped part 7.2 stepped and executed in a length that there is an end portion of the pole core 3 surrounds. About welds 8th is the sleeve-shaped part 7.2 the stop element 7 with the pole core 3 and the valve body 5 connected. The sleeve-shaped part 7.2 thus can a sleeve 9 to replace (see 1 to 3 ). The position fixation of the pole core 3 with respect to the valve body 5 becomes alone over the sleeve-shaped part 7.2 the stop element 7 causes. The welds 8th ensure the required sealing.

In the 5 is a minor modification of the embodiment of the 4 shown. Here is the stop element 7 formed in one piece and has an annular portion and a sleeve-shaped portion. The sleeve-shaped portion is analogous to the sleeve-shaped part 7.2 according to the embodiment of the 4 trained so that he assumes the same functions.

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]

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 a lifting anchor ( 2 ), which together with a Polkern ( 3 ) a working air gap ( 4 ) and at least in sections of a valve body ( 5 ), characterized in that between the anchor ( 2 ) and an annular shoulder ( 6 ) of the valve body ( 5 ) a one or more parts designed stop element ( 7 ) arranged on the annular shoulder ( 6 ) of the valve body ( 5 ) axially supported and against the paragraph ( 6 ) is axially biased. Suction valve according to claim 1, characterized in that the stop element ( 7 ) is at least partially or partially annular and / or sleeve-shaped. Suction valve according to claim 1 or 2, characterized in that the stop element ( 7 ) via a sleeve-shaped section with the pole core ( 3 ) and / or with the valve body ( 5 ), wherein preferably the connection is a welded joint, the at least one weld ( 8th ). Suction valve according to one of the preceding claims, characterized in that the axial prestressing of the stop element ( 4 ) against paragraph ( 6 ) by means of a sleeve ( 9 ) at one of the paragraphs ( 6 ) facing away from the end face ( 10 ) of the stop element ( 4 ) supported under an axial bias and with respect to the pole core ( 3 ) and / or the valve body ( 5 ) is fixed in position. Suction valve according to claim 4, characterized in that the sleeve ( 9 ) for axial support on the end face ( 10 ) a radially inwardly extending collar portion ( 11 ) having. Suction valve according to claim 4 or 5, characterized in that the positional fixing of the sleeve ( 9 ) with respect to the pole core ( 3 ) and / or the valve body ( 5 ) via at least one, preferably circumferential weld ( 12 ) is effected. Suction valve according to one of claims 4 to 6, characterized in that the sleeve ( 9 ) the pole core ( 3 ) and / or the valve body ( 5 ) at least partially surrounds. Suction valve according to one of the preceding claims, characterized in that the stop element ( 7 ) is formed in several parts and an annular part ( 7.1 ) and a sleeve-shaped part ( 7.2 ). Suction valve according to one of the preceding claims, characterized in that the armature ( 2 ) directly or indirectly via a contact pin with a liftable valve member ( 13 ) mechanically coupled and in the direction of the valve member ( 13 ) of the spring force of a spring ( 14 ) is applied, wherein preferably the spring force of the spring ( 14 ) greater than the spring force of another spring ( 15 ), which is the valve member ( 13 ) 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 a housing part of the high-pressure pump.

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