DE3804011C1 - Solenoid valve arrangement - Google Patents

Abstract

The proposal is for a solenoid valve arrangement for modulating flows of a liquid or gaseous medium in a tubular component. To obtain a high operating frequency even in the case of relatively large pressure differences, the solenoid valve has a valve housing which is provided with inlet and outlet openings for the medium, is composed of nonmagnetisable material, extends, with a region that accommodates the control piston, essentially on one side of the approximately disc-like separating member and, with its other region, which accommodates the magnet arrangement of the solenoid valve, is present on the other side of the separating member, and the magnet arrangement has, on the one hand, a flat armature provided separately from the separating member, connected to the control piston and composed of a material which causes relatively low eddy current losses, and, on the other hand, at a distance from the flat armature, a magnet body surrounded by the valve housing and accommodating a concentrically arranged electric coil kept separate from the medium.

Description

The present invention is based on one according to the preamble of the main claim designed solenoid valve assembly.

Such devices are intended to one in one Existing flow of a liquid or tubular component gaseous medium as sensitively and relatively quickly modulate.

FR-PS 11 30 621 is such a solenoid valve arrangement known. This is part of the working piston liquid medium working vibration damper arranged. In this known embodiment, the control piston is in a recess of one surrounded by an electrical coil Section of the non-magnetizable material Piston held. It is therefore necessary to Control piston made of ferromagnetic material, e.g. B. from pure iron with relatively low wear resistance. The problem with such a structure is that radial forces exerted on the control piston and thus on the working piston become what becomes a big at a high switching frequency Wear and thus a short lifespan due to the friction caused by the radial forces. To the The pistons could reduce wear be surface treated, but this is an additional Represents effort. In addition, due to training the magnet arrangement as a submersible anchor system only relatively small flow cross sections can be switched, because the construction of a magnet arrangement the valve characteristic (Piston size throttling effect) determined. This in particular from the reason because no ferromagnetic flux guides are present so that the applied by the coil  Field energy mostly to overcome the very large ones Air gap length is required. For the rest is with this previously known device, the electrical coil in the medium held and thus the pressure changes occurring there exposed. Because the coil wire is usually insulated are impaired by the Pressure changes inevitable movements of each Wire twists or hardly through the medium itself to exclude.

The present invention is therefore based on the object a simply constructed solenoid valve arrangement create, even with a relatively large Pressure difference a modulation of the flow of a quasi any medium with a relatively high frequency is feasible.

According to the invention, the problem is characterized by Part of the main claim specified features solved. Because there are no radial forces in this system, can even modulate the flow at approx. 100 Hz a pressure difference of z. B. realize 50 bar. By separating the magnet arrangement from the valve arrangement the valve arrangement is relatively free in its design, d. H. depending on the application, one and the same Solenoid arrangement assigned to different valve arrangements will. It is also by encapsulating the electrical coil the magnet arrangement of the medium also an insert of the Solenoid valve possible in an aggressive medium.

Further advantageous embodiments of the invention Subject matter are specified in the subclaims.

The following will and will the invention with reference to one shown in the drawing Embodiment explained in more detail.  

As can be seen from the drawing, is in a tubular design, loaded with a liquid or gaseous component 1 z. B. serving as a piston for a vibration damper, disc-shaped, made of hardened steel separator 2 slidably arranged. Into the both sides 2 ', 2''of the parting member p 2 located zones of the tubular member 1 different pressures ₁ p, ₂ to realize, in the separating element 2 is a central aperture 2 present a, where a solenoid valve is associated. 3 This solenoid valve 3 has a non-magnetizable material valve housing 4 , which with its one breakthrough 2 a penetrating, offset section 4 ' extends essentially on this side of the separating member 2 and with its other area 4'' beyond the separating member 2 . An approximately cup-shaped section 4 ' takes an existing of hardened steel or coated with titanium nitride control piston 5 substantially, while in the other section 4'', the magnet assembly 6 of the solenoid valve 3 is held. This magnet arrangement 6 consists of a space enclosed by the valve housing 4, made of pure iron or silicon iron magnet body 6 c and a housed therein electric coil 6 b and a therewith cooperating, connected to the control piston 5, also made of pure iron or silicon iron flat armature 6 a. The magnetic body 6 c is provided with a concentric recess 6 c ' , in which the ring-shaped coil 6 b is inserted, the connecting lines 6 b' through the recess 6 c ' outgoing guide channels 6 c'' and 6 c''' after are led outside.

The electrical coil 6 b is against the medium by a z. B. from non-magnetizable chrome-nickel steel existing flat ring-shaped component 7 sealed, which can be used on the opposite side of the magnetic armature 6 a in a correspondingly dimensioned section of the recess 6 c ' and by suitable measures (welding) pressure and vacuum tight is connected to the magnetic body 6 c . The required air gap between the flat armature 6 a and the coil 6 b is also realized simultaneously by the component 7 . In addition to the said flat armature 6 a opposite side of the magnetic body 6 c or at the flat armature 6 a stud-shaped spacers, or cut running are formed so as to ensure a certain amount of residual air gap.

Finally, in the center of the magnet body 6 is b, a recess 8 is provided, in which one end of a spring element 9 formed as a pressure spring is supported. The other end of this spring element 9 is assigned to one end of the control piston 5 so that the magnetic force F _M acts against the spring force F _F. At this end of the control piston 5 , the flat armature 6 a z. B. fixed by thread or by means of friction welding. The existing of pure iron or silicon iron, disc-shaped flat anchor 6 a is arranged with its circumferential side surface 6 a ' at a short distance from the inner wall of the valve housing 4 and provided with a series of concentric flow openings 6 a'' for the medium.

In order to realize the different pressures p ₁ , p ₂ in the two zones of the tubular component 1 , the valve housing 4 is provided with a number of inflow and outflow openings 4 a , 4 b for the medium and has one of a section of the control piston 5 and from the existing between the areas 4 ', 4''of the valve housing shoulder 4 c formed conical seat seal 10 .

In addition, the control piston 5 is provided with suitably dimensioned flow openings 5 a - 5 c and with mutually coordinated surfaces 5 ' - 5''' , which are provided for the flow and exposure to the medium so that the control piston 5 is kept pressure-balanced.

Due to this design, a relatively low weight of the control piston 5 is realized at the same time, which is particularly important in terms of achieving a high switching frequency with relatively high pressure differences.

Further details given in the drawing are for the Invention of no concern, so that it is not discussed in detail becomes.

Claims (8)

1. Solenoid valve arrangement for modulating flows of a liquid or gaseous medium occurring in a tubular component ( 1 ), with a separating element ( 2 ) which is fixed or displaceable in the component and is arranged between two spaces with different medium pressure and has a central breakthrough A pressure-balanced control piston ( 5 ), which is acted upon by a centrally acting spring element, is assigned to the magnetic valve arranged in the component and connected to the separating element, characterized in that the magnetic valve ( 3 ) has an inlet and outlet openings ( 4 a , 4 b) for the medium provided, made of non-magnetizable material valve housing ( 4 ) which extends with a control piston ( 5 ) receiving portion ( 4 ' ) substantially on one side ( 2' ) of the approximately disc-shaped separating member ( 2 ) and the Magnet arrangement ( 6 ) of the solenoid valve ( 3 ) receiving other Absc hnitt ( 4 '' ) on the other side ( 2 '' ) of the separating member ( 2 ) and that the magnet arrangement ( 6 ) on the one hand one of the separating member ( 2 ) independent, connected to the control piston ( 5 ), from a relatively low eddy current losses conditional material existing flat armature ( 6 a) and on the other hand at a distance from the valve housing ( 4 ) enclosed, a concentrically arranged, separate from the medium electrical coil ( 6 b) receiving magnetic body ( 6 c) . 2. Arrangement according to claim 1, characterized in that for pressure equalization of the control piston ( 5 ) through bores ( 5 a - 5 c) of the medium acted upon coordinated surfaces ( 5 ' - 5''' ). 3. Arrangement according to claim 1 or 2, characterized in that the concentrically arranged electrical coil ( 6 b) in the magnet body ( 6 c) is arranged such that on the flat armature ( 6 a) facing side of the magnet body ( 6 c) a flat-ring-shaped component ( 7 ) serving on the one hand as a seal against the medium and on the other hand causing an air gap can be used. 4. Arrangement according to claim 3, characterized in that the flat ring-shaped component ( 7 ) consists of non-magnetizable chrome-nickel steel. 5. Arrangement according to claim 1 or one of the following, characterized in that the flat anchor ( 6 a) with flow openings ( 6 a '') is provided for the passage of the medium. 6. An arrangement according to claim 5, characterized in that the flow openings (6 a '') are arranged concentrically in the flat armature (6 a). 7. Arrangement according to claim 1 or one of the following, characterized in that the magnetic body ( 6 c) on the flat armature ( 6 a) facing side or the flat armature is provided with spacers to form a residual air gap. 8. Arrangement according to claim 1 or one of the following, characterized in that the control piston ( 5 ) consists of hardened and / or coated with titanium nitride steel.