DE1085736B - Solenoid valve for fluids of all pressure ranges - Google Patents

Description

GERMAN

In many known solenoid valves, the closure piece works together with a return spring. So an electromagnetic control valve is known in which the return spring in the closed position of the Valve is cocked.

In another valve, the valve rod works with two magnet systems - one for the closing and one for the open position - and two springs connected against one another. Purpose of this It should be against each other to relieve the magnet systems of the acceleration work, if larger masses are connected to the valve rod.

These designs are sensitive to pressure shock and do not allow the closure piece to be placed on without impact on the valve seat.

Furthermore, a control is known which consists of a relieved control slide and an auxiliary piston consists. The transmission of the driving force between the control slide and the auxiliary piston takes place through a feather.

The subject of the invention is a solenoid valve for all pressure ranges, which is a perfect Impact-free placement of the closure piece and sealing of the durohydric connection is permitted. The solution to this problem is that the adjusting forces on the closure piece by a resilient System are transmitted, which the electromagnet when actuated in per se known Way moves.

With regard to the closure piece, use is made of the known hydraulic relief, springs connected against one another are also used. The feathers are here but not how in the aforementioned known device, irrelevant for the size of the closing pressure to be applied. Rather, it is they who determine the closing pressure. This is particularly evident from the fact that that in the known device the locking piece in the case of unexcited magnets in the central position would stand between the open and closed position. Such a central position exists in the solenoid valve according to the invention not. As a result of the transmission of the adjustment forces through the spring system it is possible to control pressure medium with high pressures with very small adjustment forces.

The drawing represents exemplary embodiments of the invention represents. It shows

1 shows a longitudinal section through a first embodiment a three-way valve when the solenoid is de-energized,

Figure 2 is a similar partial diagram of this embodiment with energized electromagnet,

3 shows a partial longitudinal section of a second embodiment, which represents a globe valve,

Solenoid valve for liquids
all pressure areas

Applicant:
Roger Charles Dubois, Le Locle (Switzerland)

Representative:

Dipl.-Ing. E. Prince and Dr. rer. nat. G. Hauser,
Patent attorneys, Munich-Pasing, Bodenseestr. 3 a

Claimed priority:
Switzerland from July 23, 1956 and February 12, 1957

Roger Charles Dubois, Le Locle (Switzerland),
has been named as the inventor

4 shows a similar section of a third embodiment, the two coupled three-way valves represents

5 shows a longitudinal section of a fourth embodiment with two lock pieces,

6 shows a partial section of the arrangement according to FIG. 5 to explain the mode of operation,

7 shows a section of a variant of a detail.

. The three-way valve illustrated in Figures 1 and 2 comprises a valve housing 1, in which the valve stem 2 can move vertically with a balancing piston 3 and 4 for the double-action closure member 2; the upper part 8 of the valve rod 2 has a square cross-section and slides with very little play in a corresponding opening in the core 6 a of the electromagnet 6, which is surrounded by a housing 6 b . The valve rod 2 has at its upper end a collar 14 against which a spring 11 presses; the latter carries a bracket 10 connected to the armature 7 of the electromagnet. The lower end of the valve rod 2 presses against a spring 9 which is held by the bottom of the valve housing 1 provided with a bore 16.

009 567/189

The valve housing 1 has three connections, namely an inlet A opening into the chamber 17 and two outlets B and C ₁ which are above and below the chamber 17 and are connected to the cylinders 18, 19 for the compensating piston. The pistons 3 and 4 are sealed by sealing rings 5. The stroke of the locking piece 2a is smaller than that of the armature 7, so that when the armature 7 is tightened and the locking piece la rests on the seat 13, the collar 14 a certain amount e from Armature 7 protrudes (Fig. 2).

The mode of operation of the solenoid valve shown in FIGS. 1 and 2 is as follows:

When the electromagnet 6 (Fig. 1) is not energized, the closure piece 2a is on its seat 12, and the pressure medium flows from A to B. The force exerted by the pressure medium on the closure piece 2 a is completely due to the force acting simultaneously on the compensating piston 3 balanced.

When energized electromagnet 6, the VerscMußstück 2 a is in its lower position (Fig. 2). The pressure medium flows from A to C ₁ and its effect on the closure piece 2 a is compensated by the simultaneous action on the compensating piston 4; since the connection between the valve rod 2 and the armature 7 is elastic, the magnetic attraction force is not transmitted directly. The closure piece 2a is held on its seat 13 by the resulting force of the two springs 9 and 11 acting against one another.

Even if the armature 7 is suddenly attracted by the electromagnet 6, this force is only transferred in a damped manner to the valve rod 2 as a result of the spring 11; so there is no damaging blow between the closure piece 2 a and its seat 13 on.

The through valve shown in FIG. 3 operates analogously to the valve in FIGS. 1 and 2.

In Fig. 4, a multi-way valve with two coupled three-way valves is shown that of Figs. 1 and 2. This valve contains a spring W ₁ whose effect on the two valve rods depends on the operating state of the two electromagnets. It corresponds to the spring 9 according to FIG. 1.

The solenoid valve shown in FIG. 5 has two closure pieces 2 a lying next to one another, each of which is under the permanent action of a spring 9. When the electromagnet is energized, the two locking pieces 2 α are subjected to the action of a common spring 11 which acts simultaneously on the two valve members via the transmission lever 20, a plunger 2 attacking the upper side of the transmission lever and stops 21 on its underside. This embodiment is distinguished by a slightly modified construction of the electromagnet, the armature of which was replaced by a plunger 23 which can slide 24 of the housing 6 b in a recess of a lug. The magnet housing is screwed to the valve housing 1. The plunger 2 is guided in a magnet core 25 which is surrounded by the solenoid coil 26 and an annular lower part 27 has, the b in connection with the housing 6 includes the magnetic circuit at the lower part of the electromagnet. The spring 11 is held in an opening of the armature 23 by means of a screw 28 and its tension can thereby be regulated.

The two locking pieces 2 a are pressed against their upper seats 12 by the two springs 9 when the electromagnet is not energized. When the electromagnet is energized, the resulting force of the springs 9 and 11 presses it against their lower seats 13.

The valve has five connections A ₁ B ₁ C ₁ D ₁ E. It results for the two positions of the closure pieces 2 a, the flows according to the solid and dashed arrows.

As FIG. 6 shows, when the electromagnet is energized, the collar 14 of the plunger 2 is on the contact surface Core 23 lifted, on which it rests when the electromagnet is de-energized, so that the locking pieces are pressed against their lower seats under the resulting action of the springs 9 and 11.

In FIG. 7, the sealing rings of FIG. 1 are replaced by a bellows 5.

It is possible to use tension springs instead of compression springs.

It would still be possible to use two or more liquids through the valve position and choice the flow paths in a certain ratio to Mix. In this case it would be sufficient to ensure that the armature is not restricted to two positions is - corresponding to an excited or unexcited magnet - but still intermediate positions which correspond to the different values of the excitation current of the solenoid. Further it would be quite possible to provide a second electromagnet that acts on the spring 9 or the The underside of the piston 3 acts - similar to the action of the upper electromagnet on the upper one Area of the piston 4 -, making the two positions of the valve by energizing one or the other Electromagnets are obtained; this solution would have the advantage that after the shift and a suitable, subsequent locking of the valve, the feed current can be turned off. A Switches actuated by the moving parts could switch off the excitation of the solenoid as soon as the anchor has reached its end position.

Claims (5)

Patent claims: 1. Electromagnetically operated valve for all pressure ranges with at least one unloaded Closure piece and a resilient system acting on this, characterized in that that the adjustment forces on the locking piece (2 a) by a resilient system (9, 11) are transmitted that the electromagnet (6) when actuated in a per se known Way moves. 2. Solenoid valve according to claim 1, characterized in that a coil spring (9, 11) engages on both end faces of the valve rod (2) carrying the closure piece (2a), one of which (9) is fixed to the valve housing (1) is connected and the closure piece ( 2a) presses against the associated valve seat (12) and of which the other (11) attached to the movable armature (7), the magnet system (6) and is axially displaceable with this. 3. Solenoid valve according to claim 1 or 2, characterized in that at least two in parallel lying valve assemblies are provided, the valve rods with one end of the permanent Effect each subject to an associated spring (9) and the other end to a common one Transmission lever (20) is supported, which in turn under the action of the other Spring (11) is (Fig. 5). 4. Solenoid valve according to one of claims ί to 3, characterized in that the seal between the compensating piston (3, 4) and their associated cylinder walls by a bellows (5) takes place (Fig. 7). 5. Solenoid valve according to one of claims 1 to 4, characterized in that the voltage the spring (11) is adjustable by a suitable device (28) (Fig. 5). Considered publications: German patent specifications No. 314523, 552 942, 715, 842 572, 897 940, 912 721; Austrian Patent No. 185 183; Belgian Patent No. 493,921; French Patent Nos. 434 631, 990138; British Patent Nos. 599901, 635 776; U.S. Patent Nos. 2,353,835, 2,619,121. 1 sheet of drawings