EP2519433A1

EP2519433A1 - Valve module, in particular solenoid valve for a brake system of a motor vehicle, method for the production of said type of valve module

Info

Publication number: EP2519433A1
Application number: EP10784461A
Authority: EP
Inventors: Harald Guggenmos; Florian Rispler; Friedrich Mueller; Anton Fritz; Philip Tannheimer; Elmar Vier
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2009-12-28
Filing date: 2010-11-04
Publication date: 2012-11-07
Also published as: US8740185B2; CN102686464B; CN102686464A; US20130193362A1; WO2011079984A1; DE102009055340A1

Abstract

The invention relates to a valve module (1), in particular a solenoid valve for a brake system of a motor vehicle, comprising an essentially cylindrical-shaped valve base body (2), in which a valve needle (3) is arranged in an axially displacable manner, and a housing cap (11) which closes the valve base body (2) on one end, said cap being maintained on the valve base body (2) by at least one holding device (25). According to the invention, said maintaining device (25) comprises at least one recess on the outer surface of the cover (13) of the valve base body (2), into which plastically deformed material of the housing cap (11) is introduced. The invention also relates to a method for producing said type of valve module (1).

Description

VALVE MODULE, IN PARTICULAR SOLENOID VALVE FOR A BRAKING SYSTEM OF A MOTOR VEHICLE, METHOD FOR PRODUCING SUCH A VALVE MODULE

The invention relates to a valve module, in particular for a brake system of a motor vehicle, having a substantially cylindrical valve body, in which a valve needle is arranged axially displaceable, and with a single body closing the body cap, which is held by at least one holding device on the main body ,

Furthermore, the invention relates to a method for producing a valve module, in particular as described above, in which an at least substantially cylindrical valve body in which a valve needle axially displaceable arranged and pushed into a single-ended housing cap and fastened to this.

PRIOR ART Valve modules and methods for producing the generic type are known from the prior art. For example, valve modules are off

Braking systems of motor vehicles are known, which can pass brake fluid in an unactuated state to build up pressure in the brake system, and close in an actuated state after the pressure build-up the flow cross-section to hold the pressure. In particular, solenoid valves have been found to be very suitable. Known valves have a substantially cylindrical valve body in which a valve needle, for example, magnetically controlled, is axially displaceable. The valve body is closed at one end by a housing cap, which forms a capsule around the base body and is secured thereto by means of a holding device. As is known, the holding device as a formed over the entire circumference extending weld, which inseparably connects the housing cap and the valve body, whereby on the one hand ensures the tightness of the valve and on the other high forces can be absorbed, which are generated during operation of the valve.

Disclosure of the invention

According to the invention it is provided that the holding device comprises at least one recess on the outer shell side of the valve body, in which plastically deformed material of the housing cap is introduced. It is thus provided that the housing cap is plastically deformed in some regions, so that it engages with the plastically deformed region in a recess of the valve body. As a result, the housing cap is held positively against the valve body. Compared to conventional welds, this holding device is a particularly cost-effective and easy to manufacture way to connect the housing cap with the valve body. In order to ensure the tightness of the valve sufficiently, the housing base body is advantageously pressed into the valve cap, so that the outer shell surface of the valve body rests against the inner surface of the housing cover cap.

Advantageously, the recess is formed as a groove, in particular as an annular groove. The groove thus advantageously extends as an annular groove over the entire circumference of the valve body. The housing cap may include one or more plastically deformed portions which engage the groove. Preferably, the housing cap is plastically deformed over its entire circumference, so that it has an annular bead engaging in the groove. By a corresponding shaping of the annular bead and / or the annular groove can also be a tight connection can be realized, which makes the interference fit unnecessary.

Advantageously, forms at least one side edge of the groove or annular groove a slope. The slope facilitates the introduction of material of the housing into the groove and can exert on the other a centering function.

Preferably, the groove has an at least substantially V-shaped cross-section, whereby the side flanks aligned thereby obliquely to the Nutgrund approach each other. When introducing or plastically deforming material of the housing cap, these and the deforming tool are aligned axially by the centering function of the V-shaped groove on the base body.

Alternatively, the groove is formed undercut. For example, the groove may also have a V-shaped cross-section, but in which the side flanks move away from each other towards the bottom of the groove. As a result, when the housing cap is plastically deformed, the material can engage in the undercut of the groove or annular groove and thereby form a particularly strong holding device which is difficult to disassemble.

Advantageously, the valve body - seen in the direction of insertion into the housing cap - behind the groove has a smaller diameter than in front of the groove, so that the first inserted portion of the valve body has a smaller diameter. As a result, an axial alignment of the housing cap on the valve body can be realized in a simple manner. The step thus formed in the longitudinal section of the valve body can serve as an axial stop for the housing cap.

Furthermore, it is provided that the groove has one or more circumferentially distributed, recessed pockets. In these pockets, a larger amount of material of the housing cap can be introduced, which is particularly important if the housing cap is fully plastically deformed or plastically tapered. In addition, the recessed pockets provide an additional security against rotation for the housing cap on the valve body.

Preferably, the housing cap is designed as a sheet metal part and / or the valve body as a valve core.

The method according to the invention for producing a valve is characterized in that, for fastening, material of the housing cap is introduced into at least one depression on the outside of the shell of the main body by plastic deformation. This results in the already described above

Advantages. In the following, the invention will be explained in more detail with reference to the drawing. Show this

1 shows an advantageous valve module in a longitudinal sectional view,

FIG. 2 shows a production step of a production method and

3 shows a valve body in a plan view.

1 shows in a simplified longitudinal sectional view of a valve module 1, in particular for a hydraulic unit, for example in an anti-lock braking system (ABS), in a traction control system (ASR) and / or in an electronic stability program system (ESP), so advantageously in a braking system of a motor vehicle can be used.

The valve module 1 comprises a magnetic group, not shown here, for generating a magnetic flux which can be actuated via electrical connections in order to move a valve needle 3 held axially displaceable in a valve main body 2. The magnet group expediently has an electrical coil which is formed from a coil winding wound on a winding carrier. The magnet group generates a magnetic force which acts on an armature 4 fixedly connected to the valve needle 3. The armature 4 is arranged at the opposite end of the tip 7 of the valve needle and spaced from the valve body 2. Furthermore, the valve module 1 has a valve body 5 adjoining the valve main body 2 with a small flow bore, wherein the valve body 5 comprises a sealing seat 6 in which the sealing region embodied as a sealing body dips the tip 7 in order to realize the sealing function of the valve module 1, and to release or adjust a volume flow between a valve inlet 8 and a valve outlet 9. The valve needle 3 is urged away from the sealing seat by a helical spring 10, so that the valve needle 3 is guided into the valve seat 6 only by actuating the magnet group. It is thus a so-called normally open valve module. The substantially cylindrical valve body 2 is in a housing capsule 1 1, which is formed as a sheet metal part 12, pressed and held in this in a press fit. The valve body 2 has on its outer shell surface 13 a groove 14 which is formed as an annular groove 15 and thus extends over the entire circumference of the valve body 2. As best seen in Figures 2 and 3, the annular groove 15 has a substantially V-shaped cross section, wherein the side edges 16,17 of the annular groove 15 are aligned obliquely so that they approach the groove bottom 18 towards each other.

As can be seen from FIG. 1, material of the housing capsule 11 is advantageously introduced into the annular groove 15 by plastic deformation of a region 19. Conveniently, the region 19 extends over the entire circumference of the housing capsule 1 1, so that a radially inwardly projecting annular bead 20 is formed, which rests in the annular groove 15. For this purpose, the material of the housing capsule 11 is advantageously plastically deformed in the area 19 with one or more specially designed press dies or crimp dies, for example in a type of collet chuck, wherein the housing capsule 11 is directed at least substantially radially inwardly Force is applied. The

V-shaped design of the annular groove 15 has the advantage that an offset of the valve module 1 in the axial direction between the valve body 5 and the tool used for plastic deformation, such as crimping jaws, is automatically compensated. The annular groove 15 acts self-centering for the tool and the valve body 2.

The positive and non-positive holding device 25 between the housing capsule 1 1 and the valve body 2 produced by the plastic deformation of the area 19 is capable of supporting high forces acting during operation in such a way that the valve body 2 in the housing capsule 11 is axially does not shift, so that a reliable operation of the valve module 1 and in particular a brake module having the valve module 1 can be permanently ensured. The sealing function of the housing cap 2, which surrounds the valve body 2 in regions and the armature 4 completely, is supported by the interference fit between the housing capsule 1 1 and the valve body 2. to Securing the function of the valve module 1, this also has a check valve 21.

FIG. 2 shows a detail of the valve module 1 without valve needle 3 in one step of the production process, in which the valve body 2 is pressed into the housing capsule 11. If the deformation tool is then moved radially inwardly in the direction of the arrow 22 toward the housing capsule 11, an axial self-centering takes place, as indicated by a double arrow 23.

3 shows the Ventilgrundkorper 2 in a plan view. In contrast to the preceding embodiments, the present Ventilgrundkorper 2 above the annular groove 15 has a smaller diameter than below the annular groove 15. This allows the axial compensation and overall alignment of the valve body 2 in the housing capsule 1 1 particularly easy to ensure.

As further seen in Figure 3, the Ventilgrundkorper 2 in the groove 14 and annular groove 15 has one or more distributed over the circumference formed, recessed pockets 24. The pockets 24 can absorb excess material that forms during deformation of the housing capsule 1 1, and thereby optionally serve as anti-rotation between the housing capsule 1 1 and the Ventilgrundkorper 2. Also, by the recessed pockets 24, the compensation of the axial offset can be improved. Notwithstanding the illustrated embodiments, it is also possible to perform the groove 14 or annular groove 15 with a different cross-sectional shape, such as with vertical side edges, as in a conventional annular groove, or with rear handles, similar to the shape of a dovetail. Also, two or more grooves 14 or annular grooves 15 which are one above the other, ie axially spaced apart from one another, are possible which have either the same cross-sectional shape or different cross-sectional shapes. Conveniently, the width of the groove 14 and the annular groove 15 are matched to their depth and to the tool contour and penetration depth.

Claims

Expectations

Valve module (1), in particular a solenoid valve for a brake system of a motor vehicle, with a substantially cylindrical valve base body (2), in which a valve needle (3) is arranged in an axially displaceable manner, and with a housing cap (11) which closes the valve base body (2) at one end ), which is held on the valve base body (2) by at least one holding device (25), characterized in that the holding device (25) comprises at least one recess on the outer surface (13) of the valve base body (2), into which plastically deformed material Housing cap (1 1) is inserted.

Valve module according to claim 1, characterized in that the recess is designed as a groove (14), in particular as an annular groove (15).

Valve module according to one of the preceding claims, characterized in that at least one side flank (16, 17) of the groove (14) forms an incline.

Valve module according to one of the preceding claims, characterized in that the groove (14) has an at least substantially V-shaped cross section.

Valve module according to one of the preceding claims, characterized in that the groove (14) is designed to be undercut.

Valve module according to one of the preceding claims, characterized in that the valve base body (2) - seen in the direction of insertion into the housing cap (1 1) - has a smaller diameter behind the groove (14) than in front of the groove (14). Valve module according to one of the preceding claims, characterized in that the groove (14) has one or more recessed pockets (24) distributed over the circumference.

Valve module according to one of the preceding claims, characterized in that the housing cap (1 1) is designed as a sheet metal part (12).

9. A method for producing a valve module (1), in particular according to one or more of the preceding claims, in which an at least essentially cylindrical valve base body (2), in which a valve needle (3) is arranged axially displaceably, in a housing cap closed at one end ( 1 1) is pushed and fastened with this, characterized in that for fastening material of the housing cap (1 1) is introduced into at least one recess on the outer surface of the valve base body (2) by plastic deformation.