WO2012038120A1 - Solenoid valve and braking system comprising such a solenoid valve - Google Patents

Abstract

The invention relates to a solenoid valve (1), in particular for a hydraulic braking system of a motor vehicle, having a valve sleeve (2) in which a pole core (3) is fixed and an armature (6) is arranged in an axially displaceable manner, wherein a pressure piece interacting with the pole core (3) is held in the armature (6) in an axially displaceable and preloaded manner. According to the invention, the pole core (3) has a conical stop (22) for the pressure piece (12) on an end face (23) said pole core that faces the armature (6), and the pressure piece (12) at least partially rests with a free end (13) in said conical stop. The invention further relates to a braking system for a motor vehicle.

Description

 description

title

 SOLENOID VALVE AND BRAKE SYSTEM WITH A MAGNETIC SOLENOID VALVE The invention relates to a solenoid valve, in particular for a hydraulic valve

Braking system of a motor vehicle, with a valve sleeve, in which a pole core fixed and an armature are arranged axially displaceable, wherein in the armature cooperating with the pole core pressure piece is axially displaceable and biased.

Furthermore, the invention relates to a brake system for a motor vehicle, which comprises at least one solenoid valve for controlling and / or regulating a pressure or volume flow of a hydraulic medium of the brake system. State of the art

Solenoid valves and brake systems of the type mentioned are known from the prior art. Thus, in particular normally closed solenoid valves are known which comprise a displaceable armature having a valve tip, which in the de-energized state of the solenoid valve in a

Valve seat is urged. For this purpose, a compression spring is usually provided, which is arranged in a chamber of the armature. At one end, the compression spring interacts with the armature and at the other end with the pressure piece, which is also arranged essentially in the chamber. The pressure element in turn protrudes through an end face of the armature facing the pole core and lies against the armature

Polkern directly or indirectly. The solenoid valve is designed such that in the mounted state, the compression spring between the voltage applied to the pole core pressure piece and the armature is held clamped and thereby urges the valve tip in the valve seat. If the magnetic actuator of the solenoid valve which comprises the armature and the pole core is energized or actuated, so the pole core pulls the armature away from the valve seat, creating a

Flow area is released.

Disclosure of the invention

According to the invention it is provided that the pole core of the solenoid valve on its side facing the armature end has a conical stop for the pressure piece, in which the pressure piece rests at least partially with a free end. It is therefore intended that the pressure piece cooperates with the conical stop of the pole core. Due to the conical design of the stop for the pressure piece, the stop has seen in longitudinal section oblique side walls which are at an angle to each other or to a central axis, which is advantageously aligned with the axis of the solenoid valve stand. The conical stop is formed as a recess in the armature facing the end face of the pole core, so that the stop opens to the armature. In the thus formed stop penetrates the free end of the pressure piece until it meets the side walls. The frontal opening of the conical stopper is thus

suitably designed to be larger than the free end of the pressure piece. Due to the conical design of the stopper formed in the pole core, skews of the pressure piece, which can be generated for example by lateral forces of the pressure spring, are compensated. By providing the conical stop a skewing of the pressure piece is compensated in a particularly simple and cost-effective manner, wherein the pole core preferably without machining, in particular by a

Forming process, for example by cold hammering, can be produced. The

Pressure element itself is preferably in one piece, in particular as an injection molded part or as a cold-formed part. In particular, it is made of reinforced plastic, such as PEEK. The side walls of the stop

or the recess need not necessarily be straight. They can also be provided with a convex or concave curvature.

Preferably, the free end of the pressure piece is also formed cone-shaped. This results in an advantageous contact between the free end of the pressure piece and the conical recess or the conical stop of the pole core, which are offset during installation inconsistencies of the pressure piece. Particularly preferably, the stop is designed as a centering stop, so that when inserting the free end of the pressure piece this is aligned by the stop. In particular, even if the pressure piece at its free

End having a cooperating with the conical shape of the stop or corresponding shape, the centering of the pressure piece can be realized easily and reliably.

Preferably, the opening angle of the conical receptacle is greater than the opening angle of the conically shaped free end of the pressure piece. As a result, an advantageous contact guide for the pressure piece is offered in the stop, which prevents in particular a tilting or jamming of the pressure piece in the stop.

According to an alternative embodiment of the invention, the free end of the pressure piece is preferably formed hemispherical or dome-like. The pressure piece thus has at its free end on a curved surface or end face, with the conical

Recess of the stop cooperates. By the hemispherical

Training the free end of the pressure piece is always a line contact between the pressure piece and the pole core guaranteed.

As already mentioned above, the anchor usually has a chamber in which the pressure piece is mounted. Preferably, the pressure piece is in this

Chamber stored at least substantially radially backlash-free, to ensure a long life of the solenoid valve and to prevent disturbing noises. Particularly preferred is the pressure piece with a circumferential

 Radial web provided whose outer shell surface together with a

Inner shell surface of the chamber forms a sliding bearing. The one with the

Coating inner surface cooperating radial web thus ensures the play-free radial bearing of the pressure piece, which allows axial movement of the pressure piece in the chamber. Furthermore, the armature on its side facing the pole core on an opening into the chamber opening through which the free end of the

Pressure piece protrudes. Preferably, a clearance is provided between the pressure piece and the opening, so that the pressure piece is guided in the opening radially with clearance or gap. The at least substantially clearance-free radial guidance is preferably carried out solely by the above

described plain bearing. The game allows tilting of the pressure piece in the opening, so as not to influence, for example, the centering function of the stop. In operation, this advantageous embodiment of the

Solenoid valve reduces friction, so that less energy to operate the solenoid valve is necessary and the wear occurring is reduced.

Particularly preferably, the radial web forms an axial stop for the compression spring acting on the pressure element with the biasing force. Particularly preferred is the pressure piece on the compression spring side facing the

Axial stop or the radial web formed such that it acts centering for the compression spring, which is preferably designed as a helical spring. For this purpose, the pressure piece preferably has a frustoconical axial projection, the outer diameter of which essentially corresponds to that of FIG

Inner diameter of the trained as a helical spring compression spring corresponds.

The brake system according to the invention is characterized by the design of the solenoid valve, as described above from. This provides a cost effective and reliable braking system for use in

Vehicles offered.

In the following, the invention will be explained in more detail with reference to the drawing. For this purpose, the single figure shows an advantageous solenoid valve in a simplified

 Longitudinal view.

The figure shows a simplified longitudinal sectional view of a solenoid valve 1, which is designed as a normally closed solenoid valve. The solenoid valve 1 comprises a valve sleeve 2 which holds a pole core 3 of a magnetic actuator at one end and a valve body 4, which has a valve seat 5, at the other end. The Polkern 3 is held firmly in the valve sleeve 2. This can be done, for example

Welding and / or jamming done. Between the pole core 3 and the valve body 4, an armature 6 of the magnetic actuator is arranged axially displaceable. The armature 6 has an axial recess 7 which extends through the entire armature 6. On the valve body 4 facing side of the armature 6 a bolt 8 is pressed into the axial recess 7, which is a

Valve tip 9 has. On the opposite side of the bolt 8 of the axial recess 7, the axial recess 7 has a tapered portion 10, so that between the tapered portion 10 and the bolt 8, a chamber 1 1 is formed. In the chamber 11, a pressure piece 12 is arranged axially displaceable, wherein the pressure piece has a free end 13 which protrudes through the opening 14 formed by the tapered portion 10, so that the pressure piece 12 with its free end 13 via the pole core 3 facing end face 15 of the armature 6 protrudes. The opening 14 and the pressure piece 12 are formed such that a clearance is provided between them.

The pressure piece 12 further has approximately centrally - seen in the longitudinal direction - a circumferential radial web 16, the outer surface 17 of the shell outer surface 18 of the chamber 1 1 forms a sliding bearing 19. By the sliding bearing 19, the pressure member 12 is guided axially displaceable in the chamber 11 and mounted radially at least substantially free of play.

Between the radial web 16 and the bolt 8 designed as a helical spring compression spring 20 is held biased. The radial web 16 forms this with one of its annular end faces an axial stop 21. The bolt 8 facing the end of the pressure piece 12 has an axial projection whose outer diameter substantially corresponds to the inner diameter of the coil spring or the compression spring 20, so that the pressure piece 12 guided by the coil spring becomes.

The free end 13 of the pressure piece 12 is formed dome-shaped or hemispherical and is applied to the pole core 3. The pole core 3 has for this purpose a conical stop 22 which is formed as a recess. The opening angle of the stopper 22 is selected such that the end-side opening is larger than the free end of the pressure piece 12, so that the free end 13 can penetrate into the recess of the stopper 22. By the Cone-shaped design of the stopper 22 can be oblique positions of the pressure piece 12, for example, due to manufacturing or

Mounting tolerances arise or are generated by lateral forces of the compression spring 20, compensate. Due to the spherical configuration of the free end 13 of the pressure piece 12, a line contact between the pressure piece 12 and the pole core 3 is always guaranteed beyond. The pressure piece 12 is integrally preferably as an injection molded part, for example made of reinforced

Plastic, manufactured, or manufactured as a cold-formed part. The pole core 3 with the conical, the stop 22 forming recess is preferably alone by Ver- and / or forming, for example by cold impact produced. Due to the geometric design of the pressure piece 12 and the armature 6 is only a guide point of the pressure member 12 in the armature 6 and in the chamber 1 1 in the region of the radial web 16 before. Through the game

or the sufficient gap between the pressure piece 12 and the inner wall of the opening 14 prevents friction from occurring in the area 10.

Overall, in the present case a solenoid valve 1 is thus offered, which has a reduced friction and an imbalance compensation of the pressure piece 12, which are inexpensive and easy to produce.

Claims

claims 1. Solenoid valve (1), in particular for a hydraulic brake system of a motor vehicle, with a valve sleeve (2) in which a pole core (3) fixed and an armature (6) are arranged axially displaceable, wherein in the armature (6) with a the pole core (3) cooperating pressure piece (12) is axially displaceable and biased held, characterized in that the pole core (3) on its the armature (6) facing end face (23) has a conical stop (22) for the pressure piece (12) has, in which the pressure piece (12) rests at least partially with a free end (13). 2. Solenoid valve according to claim 1, characterized in that the free end (13) of the pressure piece (12) is conical. 3. Solenoid valve according to one of the preceding claims, characterized  characterized in that the opening angle of the conical stop (22) is greater than the opening angle of the conically shaped free end (13) of the pressure piece (12) is formed. 4. Solenoid valve according to one of the preceding claims, characterized  characterized in that the free end (13) of the pressure piece (12) is formed hemispherical. 5. Solenoid valve according to one of the preceding claims, characterized  characterized in that the armature (6) has a chamber (1 1), in which the pressure piece (12) is mounted at least substantially radially backlash-free. 6. Solenoid valve according to one of the preceding claims, characterized characterized in that the pressure piece (12) has a circumferential radial web (16), the outer shell surface (17) forms a sliding bearing (19) together with a shell inner surface (18) of the chamber. 7. Solenoid valve according to one of the preceding claims, characterized in that the armature (6) in its the pole core (3) facing end face (15) into the chamber (1 1) opening opening (14) through which the free end (13) of the pressure piece (12) protrudes, wherein a clearance is provided between the pressure piece (12) and the opening (14). 8. Solenoid valve according to one of the preceding claims, characterized  in that the radial web (16) forms an axial stop (21) for a compression spring (20) which acts on the pressure piece (12) with a pretensioning force. 9. brake system for a motor vehicle, with at least one solenoid valve for controlling and / or regulating a pressure or volume flow of a medium of the brake system, characterized by the formation of the  Solenoid valve (1) according to one or more of the preceding  Claims.