DE102014201101A1 - Electromagnetically controllable suction valve - Google Patents

Abstract

The invention relates to an electromagnetically controllable suction valve for a high pressure pump of a Kraftstoffeinspritzsytems, in particular a common rail injection system, comprising a valve stem (1) in an axial bore (2) of a valve body (3) liftably received and in the closing direction of the spring force of a valve spring (4) is acted upon, further comprising a valve screw (5), by means of which the valve body (3) in a housing part (6) of the high-pressure pump is fixable. According to the invention, the valve screw (5) is designed in several parts and has at least one screw part (5.1) for producing a screw connection with the housing part (6) of the high pressure pump and a guide part (5.2) for receiving and guiding a liftable armature (7). Furthermore, a high-pressure pump is specified with such a suction valve.

Description

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

State of the art

A suction valve of the aforementioned type is used to supply a high-pressure pump with fuel. It usually has a liftable valve lifter, which opens into a high-pressure element space during the suction stroke of a pump piston, so that the high pressure element space is filled with fuel. During the subsequent delivery stroke of the pump piston, the fuel present in the high-pressure element chamber is conveyed to high pressure and fed to a high-pressure accumulator via a high-pressure outlet.

The control of the suction valve is usually carried out in response to the stroke of the pump piston to meter a defined amount of fuel. In this way - only the actually required amount is promoted to high pressure - according to the respective operating condition.

From the DE 10 2010 027 745 A1 is an example of an electromagnetically controllable suction or inlet valve for a high pressure pump forth, which is integrated in a cylinder head designed as a housing part of the high-pressure pump. Depending on the activation of the inlet valve, a full or partial filling of a pump working space of the high-pressure pump can be achieved. To fix the suction valve in the cylinder head a screw plug is provided, which is screwed into the cylinder head. The closure screw acts via a valve member on a valve body of the intake valve, so that it is pressed against a contact surface formed on the cylinder head.

The high-pressure element space or the pump working space of a high-pressure pump must be sealed in the area of the suction valve receptacle. In general, the seal is effected by the fact that a high biasing force is introduced into the suction valve via the screw connection of the valve or screw plug with the cylinder head. However, the high biasing force can lead to a plastic deformation of the valve or screw plug, which in turn has an influence on the stroke of the valve stem of the suction valve and thus on the high-pressure element space supplied amount of fuel.

Based on the above-mentioned prior art, the present invention seeks to provide an electromagnetically controllable suction valve with a valve screw for fixing in a housing part of a high-pressure pump, in which the aforementioned disadvantages are significantly reduced or do not occur. In particular, the reproducibility of the valve stem stroke is to be improved by reducing the influence of any plastic deformation / settlement of the valve screw on the Ventilstößelhub.

To solve the problem, an electromagnetically controllable suction valve with the features of claim 1 and a high pressure pump with such a suction valve are proposed. Advantageous developments of the invention can be found in the respective subclaims.

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 a valve tappet which is liftably received in an axial bore of a valve body and acted upon in the closing direction by the spring force of a valve spring. Furthermore, the suction valve comprises a valve screw, by means of which the valve body can be fixed in a housing part of the high-pressure pump. According to the invention, the valve screw is made in several parts and has at least one screw member for producing a screw connection with the housing part of the high-pressure pump and a guide member for receiving and guiding a liftable armature. Due to the multi-part design or by the division into screw and guide part of the influence of any plastic deformation of the valve screw on the stroke of the valve stem can be significantly reduced. Because with appropriate choice of material can be achieved by the multiple parts that only the screw is plastically deformed while the guide member continues to ensure the preset stroke of the valve stem. Preferably, the screw member is made "softer" than the guide member. Further preferably, the guide member is hardened and / or has close manufacturing tolerances. The stroke of the valve stem is then primarily determined by the tight manufacturing tolerances of the guide member.

In order to reduce the influence of a plastic deformation / settlement of the valve screw of a suction valve, alternatively, the armature stroke can be increased. However, the increased armature stroke requires the use of a larger solenoid, which in turn drives up the cost. The invention electromagnetically controllable Suction valve has in contrast a significantly reduced Setzbetrageinflusses on the controlled stroke of the valve stem of the suction valve at the same time small armature stroke and correspondingly few coil windings, so that costs are saved.

In a preferred embodiment of the invention, the screw member is formed substantially sleeve-shaped. The screw member surrounds the guide member at least in sections. For this purpose, the sleeve-shaped screw member is preferably placed on the guide part. The guide part in turn can be designed as a cylinder with a central bore, wherein in the central bore of the anchor is received. Further preferably, an end of the valve tappet which can be coupled to the armature projects into the central bore of the guide part. The central bore can be designed as a stepped bore, for example, to form a "lower" stroke stop for the anchor.

It is also proposed that the guide member has a radially outwardly extending collar portion for supporting the screw in the axial direction. This means that the screw part is supported on the collar region of the guide part via an annular contact surface, preferably an annular end surface. By screwing the screw in the housing part of the high pressure pump, the guide member is thus also moved in the direction of the valve body of the suction valve until it rests against the valve body. If the screw part of the valve screw is tightened further, the guide part exerts an axial force on the valve body, which preferably presses the valve body against a shoulder within a receiving bore of the housing part of the high-pressure pump. To adjust the stroke of the valve stem, a sealing washer is advantageously inserted between the shoulder of the receiving bore and the valve body of the suction valve.

Further preferably, the guide part has on an end face a biting edge, via which the guide part is supported on the valve body. The biting edge is preferably of annular design, so that the contact region of the guide part with the valve body is reduced to the annular biting edge. This has the consequence that the axial force exerted by the guide member on the valve body is increased.

Advantageously, the screw member has at least one annular sealing element, which is arranged on the outer circumference side or on the inner circumference side. Furthermore, in each case at least one sealing element can be arranged on the outer circumference side and inner circumference side. The at least one outer peripheral side arranged sealing element serves to seal the receiving bore into which the suction valve is inserted. The at least one inner peripheral side arranged sealing element seals an annular gap between the screw and the guide part of the valve screw. As a further development measure, it is proposed that at least one sealing element is received in an annular groove of the screw part. Depending on the position of the sealing element, the annular groove is also arranged on the outer peripheral side and / or on the inner peripheral side.

According to a preferred embodiment of the invention, the armature cooperates with a pole core which is inserted into an annular magnet coil of a magnetic actuator, forming a working air gap. The pole core is preferably connected via a sleeve with the guide part of the valve screw. The sleeve is further preferably made of a non-magnetic material to cause a magnetic separation of the pole core from the guide part of the valve screw.

In addition, it is proposed that the armature is acted upon by the spring force of an armature spring, which is preferably supported on the one hand on the armature and on the other hand on the pole core.

The spring force of the armature spring is preferably greater than the spring force of the valve spring. Furthermore, the armature can be coupled to the valve tappet, so that the spring force of the armature spring acts on the valve tappet in the opening direction.

The operation of an electromagnetically controllable suction valve according to the invention is preferably as follows:
When the solenoid is energized, the armature, which is preferably designed as a plunger armature, moves in the direction of the pole core in order to close the working air gap formed between the armature and the pole core. As a result of the movement of the armature, the valve tappet loses the frictional contact with the armature, that is to say that the coupling of the armature to the valve tappet is released. The valve stem is therefore no longer acted upon by the armature spring supported on the armature in the opening direction. The valve spring, which is weaker in comparison to the armature spring, can therefore close the suction valve. If the energization of the solenoid is terminated, the armature spring pushes the armature against the valve lifter, so that the coupling of the armature is restored to the valve lifter. Contrary to the spring force of the valve spring supported on the valve spring, the armature spring returns the armature and the valve tappet to the respective starting position.

To achieve the object mentioned above is also a high pressure pump for a fuel injection system, in particular a common rail injection system, with an inventive Suction valve proposed. The high-pressure pump further comprises a housing part, in which the suction valve according to the invention is used and fixed by means of the multi-part valve screw, comprising the screw member and the guide member.

The screw is preferably supported on the guide member and bolted to the housing part of the high-pressure pump. The support on the guide part is preferably effected via an annular end face of the preferably sleeve-shaped screw part. To produce the screw connection with the housing part, the screw part preferably has an external thread.

Further preferably, the guide member is supported on the valve body to transmit an axial biasing force caused by the screwing of the screw member to the valve body. The biasing force also causes a sealing force, which ensures the sealing of a high pressure element space with respect to a low pressure region of the high pressure pump.

Advantageously, the valve body is supported directly or indirectly via a sealing washer on a radially extending shoulder, which is formed within a recess of the housing part for receiving the suction valve. About the axial biasing force of the valve body is then pressed against the shoulder or supported on the shoulder gasket. In this way, an effective seal between the valve body of the suction valve and the housing part of the high-pressure pump is achieved.

A preferred embodiment of the invention will be explained in more detail with reference to the accompanying drawings. The drawing shows a schematic longitudinal section through an inserted into a housing part of a high-pressure pump, electromagnetically controllable suction valve according to a preferred embodiment of the invention.

Detailed description of the drawing

The electromagnetically controllable suction valve shown in the figure comprises a plate-shaped valve body 3 with an axial bore 2 in which a valve tappet 1 is received axially movable. The valve lifter 1 is in the closing direction of the spring force of a valve spring 4 acted on the one hand indirectly via a spring plate 27 on the valve lifter 1 and on the other hand directly on the valve body 3 is supported. The valve lifter 1 is with an anchor 7 coupled, which is designed as a plunger and the spring force of an anchor spring 19 is acted upon, wherein the spring force of the armature spring 19 greater than the spring force of the valve spring 4 is. The spring force of the anchor spring 19 is also the spring force of the valve spring 4 opposite, leaving the valve spring 4 The suction valve can not close when the armature spring 19 the anchor 7 against the valve lifter 1 suppressed.

To the spring force of the anchor spring 19 to overcome, the suction valve has a magnetic actuator 16 with an annular solenoid 15 on. In the annular solenoid 15 is a pole core 14 used in common with the anchor 7 a working air gap 17 limited. Will the solenoid coil 15 energized, the anchor moves 7 against the spring force of the armature spring 19 in the direction of the pole core 14 to the working air gap 17 close. By the movement of the anchor 7 becomes the frictional coupling of the anchor 7 with the valve lifter 1 canceled. As a result, the suction valve can only by the spring force of the valve spring 4 close. To open the suction valve is the energization of the solenoid 15 finished, leaving the anchor 7 and the valve lifter 1 about the spring force of the armature spring 19 be postponed to their respective starting positions. About radial bores 25 in the axial bore 2 of the valve body 3 then become a high-pressure element space 26 a high-pressure pump filled with fuel.

The high pressure element space 26 the high-pressure pump is in a housing part 6 formed, further comprising a recess 22 has to receive the suction valve. The recess 22 has a radially extending shoulder 21 on, opposite which the plate-shaped valve body 3 the suction valve for sealing the adjoining high-pressure element space 26 is axially biased. The axial preload is via a valve screw 5 causes, which is carried out in this case in two parts. Between the radial paragraph 21 and the valve body 3 is also a gasket 20 to adjust the valve stem stroke.

The two-piece valve screw 5 includes a screw part 5.1 and a leadership part 5.2 , where the screw part 5.1 is sleeve-shaped and the guide member 5.2 at least partially surrounds. The guide part 5.2 has at its the valve body 3 facing the end of a waistband area 8th , which supports the valve body 3 frontally with a biting edge 9 is provided. The biting edge 9 increases the valve body 3 acting axial biasing force, so that the high-pressure element space 26 securely sealed.

Furthermore, a seal of the recess 22 of the housing part 6 to effect, forms the screw 5.1 the valve screw 5 an outer peripheral side annular groove 12 and an inner peripheral side annular groove 13 out, in each of which an annular sealing element 10 . 11 is used. The sealing element 10 seals an annular gap between the screw part 5.1 and the housing part 6 and the sealing element 11 seals an annular gap between the screw part 5.1 and the leadership part 5.2 the valve screw 5 from.

The valve body 3 opposite end of the guide part 5.2 is in a sleeve 18 taken over which the leadership part 5.2 with the pole core 14 of the magnetic actuator 16 connected is. The connection area is of a plastic encapsulation 23 Surrounded by the protection of the magnetic actuator 16 serves. In addition, the plastic encapsulation forms 23 a connecting piece 24 from, over which the required electrical connection of the solenoid 15 can be produced.

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 102010027745 A1 [0004]

Claims (12)

Electromagnetically controllable intake valve for a high-pressure pump of a fuel injection system, in particular of a common-rail injection system, comprising a valve tappet ( 1 ), which in an axial bore ( 2 ) of a valve body ( 3 ) and in the closing direction of the spring force of a valve spring ( 4 ), further comprising a valve screw ( 5 ), by means of which the valve body ( 3 ) in a housing part ( 6 ) of the high pressure pump is fixed, characterized in that the valve screw ( 5 ) is executed in several parts and at least one screw ( 5.1 ) for producing a screw connection with the housing part ( 6 ) of the high-pressure pump and a guide part ( 5.2 ) for receiving and guiding a liftable anchor ( 7 ) owns. Suction valve according to claim 1, characterized in that the screw part ( 5.1 ) is substantially sleeve-shaped and the guide part ( 5.2 ) at least partially surrounds. Suction valve according to claim 1 or 2, characterized in that the guide part ( 5.2 ) a radially outwardly extending waistband area ( 8th ) for supporting the screw ( 5.1 ) in the axial direction. Suction valve according to one of the preceding claims, characterized in that the guide part ( 5.2 ) at one end face a biting edge ( 9 ) for support on the valve body ( 3 ), wherein the biting edge ( 9 ) is preferably annular. Suction valve according to one of the preceding claims, characterized in that the screw part ( 5.1 ) at least one annular sealing element ( 10 . 11 ), which is arranged on the outer circumference side and / or inner circumference side, wherein preferably the sealing element ( 10 . 11 ) in an annular groove ( 12 . 13 ) of the screw part ( 5.1 ) is recorded. Suction valve according to one of the preceding claims, characterized in that the armature ( 7 ) with a pole core ( 14 ), which in an annular solenoid ( 15 ) of a magnetic actuator ( 16 ), a working air gap ( 17 ) cooperating, wherein preferably the pole core ( 14 ) via a sleeve ( 18 ) with the guide part ( 5 .2) of the valve screw ( 5 ) connected is. Suction valve according to one of the preceding claims, characterized in that the armature ( 7 ) of the spring force of an anchor spring ( 19 ) is applied, preferably on the one hand at the anchor ( 7 ) and on the other hand at the pole core ( 14 ) is supported. Suction valve according to one of the preceding claims, characterized in that the spring force of the armature spring ( 19 ) greater than the spring force of the valve spring ( 4 ) and the anchor ( 7 ) with the valve tappet ( 1 ) is coupled, so that the spring force of the armature spring ( 19 ) the valve tappet ( 1 ) acted in the opening direction. High-pressure pump for a fuel injection system, in particular a common-rail injection system, comprising a housing part ( 6 ), in which a suction valve according to one of the preceding claims used and by means of the multi-piece valve screw ( 5 ) comprising the screw part ( 5.1 ) and the management part ( 5.2 ), is fixed. High-pressure pump according to claim 9, characterized in that the screw part ( 5.1 ) on the management part ( 5.2 ) and with the housing part ( 6 ) of the high-pressure pump is screwed. High-pressure pump according to claim 9 or 10, characterized in that the guide part ( 5.2 ) on the valve body ( 3 ) is supported to one over the screw of the screw ( 5.1 ) caused axial biasing force on the valve body ( 3 ) transferred to. High-pressure pump according to one of claims 9 to 11, characterized in that the valve body ( 3 ) directly or indirectly via a sealing disc ( 20 ) on a radially extending shoulder ( 21 ) supported within a recess ( 22 ) of the housing part ( 6 ) is formed for receiving the suction valve.

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