DE10316643B4 - magnetic valve - Google Patents

Abstract

A solenoid valve comprising a solenoid valve cartridge (3) comprising a cup-shaped housing (13), a pole core (14) and an armature (15), a magnet group (2) comprising a coil former (7) and a winding (8), wherein the magnet group (2) is arranged around the magnetic valve cartridge (3), and a radial biasing element (20, 21) which exerts a radial force (F ₁ , F ₂ ) on the magnet group (2) such that the magnet group ( 2) assumes a predetermined, defined position with respect to the magnetic valve cartridge (3), characterized in that the solenoid valve comprises a first radial biasing element (20) and a second radial biasing element (21), the first radial biasing element (20) acting on the magnet group (2 ) exerts a first radial force (F ₁ ) and the second radial biasing element (21) exerts on the magnet group (2) a second radial force (F ₂ ) offset by an angle (α) of 90 ° to the first radial force ( F ₁ ) on the magnet group (2) engages and that the solenoid valve comprises an Axialvorspannelement (22), which an axial force ...

Description

The The present invention relates to a solenoid valve comprising Solenoid valve cartridge according to the preamble of claim 1

Known Solenoid valves consist for example of a solenoid valve cartridge and a magnet group, which are each provided as separate assemblies are. The solenoid valve cartridge comprises a substantially cup-shaped housing, in which a pole core and an anchor is arranged. The anchor is longitudinally movable arranged and used for actuation a closing / opening member. The magnet group comprises a bobbin on which a winding and electrical contacts are arranged and an outer housing. The Both modules solenoid valve cartridge and magnet group are through a simple slip-on mounting, with the magnet group on the solenoid valve cartridge is attached.

by virtue of the respective tolerances of the individual components of the modules and due to the simple plug-on mounting occur in the solenoid valves a different game between the solenoid valve cartridge and of the magnet group. Thus, the solenoid valves have different interspaces between the magnet group and the solenoid valve cartridge so that the solenoid valves an additional Degree of freedom with regard to the relative position between the solenoid valve cartridge and the magnet group. However, this has a significant Influence on a dispersion of functional characteristics of the solenoid valve. In other words, there are big differences in the solenoid valves, when the solenoid valve cartridge and the magnet group center each other are what can happen by chance, or if the magnet group on the solenoid valve cartridge is applied on one side or if intermediate positions between the two above-mentioned possible extreme positioning be taken by magnet group and solenoid valve cartridge.

From the DE 41 00 967 A1 and DE 41 33 641 A1 Solenoid valves according to the preamble of claim 1 are known.

From the DE 195 18 519 A1 a valve control device with a coil is known, which is resiliently secured by a spring element to a housing. As a result, the coil is movable in all directions and the assembly of a complete valve block with multiple valves is facilitated.

Advantages of invention

The inventive solenoid valve with the features of claim 1, in contrast, the Advantage on that the magnet group always a predetermined, defined Position to the solenoid valve cartridge occupies. This is inventively characterized achieved that a radial biasing element is provided, which exerts a radial force on the magnet group to always this in one defined position to hold the solenoid valve cartridge. Thus, can according to the invention independent of different item tolerances a defined positioning be achieved between the solenoid valve cartridge and the magnet group. Thus, a for the scattering of functional characteristics of the solenoid valves more responsible Degree of freedom are eliminated. The improved positioning the magnet group to the solenoid valve cartridge is provided by providing a provided first and a second biasing member. Thereby can be a defined position of the magnet group relative to the solenoid valve cartridge be realized in one plane. Here is a first radial force of the first biasing member by 90 ° offset a second radial force of the second biasing member arranged so that the first and the second force at right angles attack the magnet group. Furthermore, the solenoid valve comprises a Axialvorspannelement which an axial force on the magnet group exercises. This allows an axial lifting of the magnetic group from the solenoid valve cartridge be prevented. Accordingly allows the present invention increases the part quality of the solenoid valve, resulting in improved accuracy of the solenoid valve in operation leads, so that injection quantities and actuating pressure can be dosed more accurately.

The under claims show preferred developments of the invention.

Preferably is the radial biasing element for providing the radial Force on an outside arranged the magnet group. This will be a simple and inexpensive, defined positioning of the magnet group to the solenoid valve cartridge allows. Preferably, the radial force of the biasing element is inward directed.

The Axialvorspannelement can particularly preferably as a compression spring, in particular as a cylindrical spiral spring or as a plate spring, or be designed as a pressure cylinder.

Further Preferably, the radial biasing element is a compression spring, in particular as a cylindrical spiral spring or as a plate spring, or as a pressure cylinder educated.

The solenoid valve according to the invention is particularly preferably used in a braking system, such as an electro-hydraulic brake, an anti-lock braking system (ABS), an anti-skid system (ASR) and / or an electronic stability system (ESP).

drawing

following is an embodiment of Present invention described with reference to the drawings. In the drawing is:

1 a schematic sectional view of a solenoid valve according to an embodiment of the present invention,

2 a schematic sectional view of a magnetic group of in 1 shown solenoid valve,

3 a schematic sectional view of a solenoid valve cartridge of in 1 shown solenoid valve, and

4 a schematic top view of the in 1 shown solenoid valve, wherein the in 1 shown cover areas above the solenoid valve cartridge or the magnet group have been omitted.

description of the embodiment

The following is with reference to the 1 to 4 a solenoid valve 1 according to an embodiment of the present invention.

As in 1 As shown, the solenoid valve includes a magnetic group as the electric part 2 and as a hydraulic part, a solenoid valve cartridge 3 , The magnet group 2 is in detail in 2 shown and the solenoid valve cartridge 3 is in detail in 3 shown. The solenoid valve 1 is over a first threaded bush 5 and a second threaded bush 6 in a valve block 4 attached.

As in 2 shown, includes the magnet group 2 a bobbin 7 on which a winding 8th is appropriate. The bobbin 7 also has electrical contacts 9 on and is in a housing 10 arranged. An inner circumference of the housing 10 forms a first contact area 11 for the solenoid valve cartridge 3 and an inner circumference of the bobbin 7 forms a second contact area 12 for the solenoid valve cartridge 3 , The two contact areas 11 . 12 are, as in 1 shown in assembled condition with the solenoid valve cartridge 3 in contact.

The solenoid valve cartridge 3 includes a pole core 14 and an anchor 15 , which are in a cup-shaped housing 13 are arranged (see. 3 ). The anchor 15 is mounted longitudinally movable and used in a known manner for actuating a closing / opening member 17 , The anchor 15 is by means of a return element 16 , which is designed as a spiral spring, returned to its initial position after actuation of the solenoid valve. The anchor 15 is in a substantially hollow cylindrical guide element 18 movable in the longitudinal direction of the solenoid valve.

As in the 1 and 4 shown, includes the solenoid valve 1 further a first biasing element 20 and a second biasing element 21 , The pretensioning elements 20 . 21 are designed as compression springs and between the first threaded bushing 5 and the housing 10 the magnet group 2 arranged. As in particular from 4 is apparent, is the first biasing element 20 offset by an angle α of 90 ° to the second biasing member 21 arranged. As a result, a first radial force F _{1 of} the first biasing element acts 20 and a second radial force F _{2 of} the second biasing member 21 from two mutually offset by 90 ° directions on the magnet group 2 , This allows the magnet group 2 regardless of any existing component tolerances in a defined manner on the solenoid valve cartridge 3 is applied.

By the two inwardly directed radial forces F ₁ and F ₂ is thus achieved that the magnetic group 2 at her first contact area 11 and her second contact area 12 directly to the solenoid valve cartridge 3 in a defined manner applies. Due to the rectangular arrangement of the biasing elements 20 . 21 thus becomes in a plane a defined position of the magnet group 2 to the solenoid valve cartridge 3 receive.

As a result, a degree of freedom existing in the prior art with regard to the positioning between the magnet group 2 and the solenoid valve cartridge 3 be eliminated. In other words, one for a scattering of functional characteristics of the solenoid valve 1 responsible degree of freedom are eliminated.

To lift off the magnet group 2 from the solenoid valve cartridge 3 to prevent in the axial direction is still an axial biasing element 22 provided, which is designed as a spiral spring. The axial biasing element 22 is in a lid 23 arranged, which in the first threaded bushing 5 is screwed. The axial biasing element 22 is about a bolt 24 and a plate-shaped element 25 in the lid 23 centered. An axial force F _{A of} the Axialvorspannelements 22 is about a cup-shaped component 26 on the case 10 the magnet group 2 transfer.

It should be noted that the solenoid valve according to the invention 1 Also, for example, can be installed directly in a hydraulic unit, where, for example, instead of a lid 23 the housing of an attachment control unit over the solenoid valve 1 is mounted.

By the defined positioning of the magnet group according to the invention 2 to the solenoid valve cartridge 3 Thus, a significant reduction in the dispersion of functional characteristics in solenoid valves can be obtained. This allows a significant improvement in the quality of the solenoid valves and can ensure improved functional accuracy of the solenoid valves during operation.

Claims (7)

Solenoid valve, comprising a solenoid valve cartridge ( 3 ), which a pot-shaped housing ( 13 ), a pole core ( 14 ) and an anchor ( 15 ), a magnet group ( 2 ), which a bobbin ( 7 ) and a winding ( 8th ), wherein the magnetic group ( 2 ) around the solenoid valve cartridge ( 3 ) is arranged around, and a radial biasing member ( 20 . 21 ), which has a radial force (F ₁ , F ₂ ) on the magnet group ( 2 ) such that the magnet group ( 2 ) a predetermined, defined position to the solenoid valve cartridge ( 3 ), characterized in that the solenoid valve has a first radial biasing element ( 20 ) and a second radial biasing element ( 21 ), wherein the first radial biasing element ( 20 ) on the magnet group ( 2 ) exerts a first radial force (F ₁ ) and the second radial biasing element (F ₁ ) 21 ) on the magnet group ( 2 ) exerts a second radial force (F ₂ ) which is offset by an angle (α) of 90 ° relative to the first radial force (F ₁ ) on the magnet group ( 2 ) and that the solenoid valve is an axial biasing element ( 22 ), which has an axial force (F _A ) on the magnet group ( 2 ) exercises. Solenoid valve according to claim 1, characterized in that the radial biasing element ( 20 . 21 ) on the outside of the magnet group ( 2 ) is arranged. Solenoid valve according to one of the preceding claims, characterized in that the force (F ₁ , F ₂ ) of the radial biasing element is directed inwards. Solenoid valve according to claim 1, characterized in that the first radial force (F ₁ ) is equal to the second radial force (F ₂ ). Solenoid valve according to claim 1, characterized in that the Axialvorspannelement ( 22 ) is designed as a compression spring, in particular as a spiral spring or as a plate spring, or as a pressure cylinder. Solenoid valve according to one of the preceding claims, characterized in that the radial biasing element ( 20 . 21 ) is designed as a compression spring, in particular as a spiral spring or as a plate spring, or as a pressure cylinder. Solenoid valve according to one of the preceding claims, characterized characterized in that the solenoid valve in a brake system and / or an anti-lock braking system and / or an anti-skid system and / or an electronic stability system is used.