DE2227552A1 - Electric valve for generating a liquid pressure - Google Patents

Description

PATENT LAWYERS
Dusseldorf

^ J 72-10 / 20-85

June 6, 19 72 Dr.F / Si

Societe Anonyme Automobiles Citroen, F 75 Paris 15e,: HJ. ÄA ⁶ 7., .. P3i ^a i__ ^{A. n} _drJLCitroen.

Electrovalve for generating a liquid pressure.

The invention relates to an electric valve for generating a | to bring nes fluid pressure in response to a control signal containing a sliding distributor element which is suitable a Nutzdruckleitung optionally with a fluid pressure source or to an outlet in communication, and includes further means to allow the distributor element an axial force acting, the is a function of the useful pressure, as well as an electrodynamic motor with a winding through which a current flows that is dependent on the S tenner signal.

Such solenoid valves can be used, for example, in the braking systems of motor vehicles to block the Avoid wheels by an electrical control signal reporting the start of locking and the valve as a result of this Control signal reduces the pressure of the brake fluid. Also for other purposes, e.g. for regulating heating burners, for temperature control of the cooling system and, more generally, in all cases where certain parameters have to be taken into account, such solenoid valves can be used.

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BATH ORIGINAL.

There are known arrangements for controlling the fluid pressure, for example for Breinssysterne, in which an electromagnetically operated valve containing a displaceable distributor element is set as a function of a control signal so that a useful pressure line, for example the brake line of a vehicle, depends on the setting of the displaceable element of the solenoid valve can be brought into communication with a source of liquid or an outlet. On the displaceable distributor member while an axial force may be applied, on the one hand from the Nutzdruckleitung prevailing pressure and on the other hand, on the b by an electrodynamic & motor whose winding is dependent on a, dependent on the control signal current flowing through it v / ill. In this way, the solenoid valve will change the fluid pressure depending on the control signal.

The purpose of the invention is to provide such a solenoid valve, that generates a fluid pressure influenced by a control signal. According to the invention In this solenoid valve, the winding, through which a current dependent on the control signal flows, forms the moving one electrodynamic system, and this winding is connected or coupled to the distributor element.

In a first embodiment, the force that is exerted on the winding and the. Force that is a function of the useful pressure, opposing each other, such that they

BATH ORIGINAL

209852/0678

keep yourself at least partially balanced. The utility In this way, pressure is increasing with the control signal Function of the same;

In a second embodiment, the force exerted on the winding and the force are a function of the useful pressure is, directed in the same direction and the solenoid valve contains means to act on the distributor member a force that opposed to these two forces. In this case, the effective pressure is a function that decreases with the control signal same.

The second Ausführungsεform can be used in particular to Prevent locking of the wheels of a motor vehicle by placing this solenoid valve between the pressure source and the brake cylinder of a braked wheel is switched on and the control winding is fed by a signal whose middle Intensity is a function of, for example, the sliding of this wheel.

Preferably, the solenoid valve can contain a chamber which is in communication with the useful pressure line and in which a transfer member is movably arranged, which is connected to the distributor member and has a smaller cross-section has as the distributor body.

Exemplary embodiments are described below with reference to the schematic figures of the subject matter of the invention described.

Figure 1 shows an axial section through a first embodiment sbei game of the solenoid valve.

Figure 2 shows a detail of this valve on a larger scale.

Figures 3 to 1 show details of other embodiments. .

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BATH ORIGINAL

As shown in Figure 1, the solenoid valve includes a Distributor arrangement, which consists of a body 1 with a bore in which the distributor member 3 is movably arranged. This is provided with annular constrictions 4 and 5, by means of which the thicker sections 6, 7 and 8 are separated from one another are and in which a transverse bore 9, which is connected to the pressure source or a transverse bore 10, which is connected to the Outlet is connected, open. The pressure source here consists of a hydraulic accumulator 11, which consists of a storage container 12 is fed by means of a pump 13 and maintains a pressure P which is higher than the useful pressure. One intermediate bore 14 leads to a utility facility, which is shown schematically as lifting device 15. Ever after the position of the distributor member 3, the bore 14 is closed either by the central reinforced part 7 or partly or wholly in connection either with the

4th
constriction / or with the constriction 5. One of the ends of the bore 2 opens into a chamber 16 with the same cross section, which is connected to the bore 14 through a bore 1.7.

When a force F in the direction of the chamber 16 is exerted on the end of the distributor element 3, the distributor element moves to the right and brings the bore 14 into connection with the bore 9 and thus with the pressure source. In this way, the pressure in the utility device 15 becomes effective and at the same time in the chamber 16 and tries to move the distributor element 3 to the left. The final state in the utility device 15 is a pressure Pu which is proportional to the force F and which here has the value F / s, where s is the cross section of the reinforced part 8. A change in the force F or the pressure Pu produces a displacement of the distributor element 3 in an effort to change the ratio of the pressure decreases between the bore 14 and the constrictions and 5, and thus ?, V / i see the utility device on the one hand and the Druckouelle and the Auslaydß on the other hand

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BATH ORIGINAL

in the sense of a restoration of equilibrium is equivalent to.

The distributor organ is controlled by an electrodynamic motor. This consists of the permanent magnet 18, the between a pole piece 19 and the bottom of a cup-shaped Magnetic yoke 20 is arranged, which forms an annular air gap 21 with the pole piece. The yoke is on that Body 1 of the manifold assembly attached.

A winding 22, which is carried by a pot 23, is arranged in the air gap 21. This is pressed against the distributor member 3 in a force-fit manner by a spring 24. A spring 25 is arranged in the chamber 16 and cooperates with the spring 24 to give the distributor element, as long as the control signal is zero, an equilibrium position in which the side surface of the reinforcement facing the constriction 5 is vertical Plane is located, which is determined by the generatrix ,, of the bore 14, which is the constriction 5 closest. (Figure 2)

Under these conditions, in the absence of a current in the winding 22, the pressure in the useful circuit is zero. As soon as In the winding a current flows in the corresponding sense, the winding strives to move axially to the right in To move Figure 1 and thereby exerts a force F on the distributor member which is proportional to the mean current strength Im of the current in the winding is. The pressure Pu in the direction of use is in the end result proportional to this mean amperage Im.

In the embodiment according to FIG. 3, the magnet 18 is replaced by an annular magnet 18 'which surrounds an element 34, whose cross-section has the shape of an H with arms of unequal length and the air gap is formed between the part with a smaller diameter of the element 34 and a ring

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BAO ORIGINAL

In the embodiment according to FIG. 4, the magnet 18 is replaced by a coil 36. In this case, the coil 36 and / or the Snule 22 can be traversed by the current that is dependent on can be changed by the signal.

In the embodiment according to FIG. 5, the winding 22 is on a drum 26 which is displaceable on an axial hub 27 fastened to the pole piece 19. The drum is by one or more pivot levers 28, which are attached to the body 1 with the pivot points 29, with a shell connected, which is pressed against the distributor member 3 in a force-fit manner by the spring 24. The pivot points 29 are closer on the connecting parts of the levers 28 with the shell 30 than at the junctions of the levers with the drum 26. In use, a current is sent through the winding 22 such that the winding moves to the left in FIG. The movement is transmitted to the shell 30 and thus on the distributor member 3 with a reduced amplitude, i.e. with increased force.

The embodiment according to FIG. 6 is essentially the same as that according to FIG. 1, but with the difference that the pot 23 is suspended on the distributor member 3. Furthermore, a push rod 31 is provided which axially through the pole piece 19, the The yoke 20 and the magnet 18, which are ring-shaped, are guided and supported against the distributor member 3. In absence of a current, the pressure Pu in the working device is proportional to the force f exerted on the rod 31 will. However, through the winding 22, a current from the average current intensity Im sent in such a way that the winding in Figure 6 is moved to the left, so is on the distributor member 3 exerted a force F proportional to Im and opposite to the force f. This increases the pressure Pu decreases and becomes proportional to f-F, i.e. its value decreases proportionally to Im.

BATH ORIGINAL

209852 / 0P78

In the embodiment of Figure 7, the bore 5 2 st connected through an opening 32 with a chamber 16, through which a print wire 33rd This pressure needle 33 can consist of one piece with the distributor element 3, or the end face of the distributor element can be supported. The equilibrium is established when the fourth of the force is F = s · Pu, where s is the cross section of the print needle 33. In this way, a force F which is dependent on the prevailing useful pressure is exerted on the distributor member, but which is smaller than the force which occurs in the embodiment according to FIG.

The invention is not limited to the illustrated embodiments limited. For example, in the embodiment according to Figure 1 a pretensioned spring 24 can be provided, the strength of which is sufficient to bring the distributor member into a position, in which the openings 9 and 14 are in communication with one another even at the highest pressure. Under this condition, the Winding 22 supplied with current in such a way that a force directed to the left in FIG. 1 is produced. The pressure in the utility device 15 then has the value P when there is no current flowing in the winding 22, and the flow of current in this V / ick development is reduced the pressure as a linear function of the mean current strength.

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BATH ORIGINAL

Claims (11)

P at en tan sp_rü c he_ Solenoid valve for generating a liquid pressure as a function of a control signal, which contains a displaceable distributor element which is suitable for bringing a useful pressure line with a liquid source or an outlet in connection, as well as means to exert an axial force on the distributor element as a function of the useful pressure and a electrodynamic motor, the winding of which is traversed by a current dependent on the control signal, characterized in that this winding (22) forms the movable electrodynamic system and is connected to the distributor element (3). 2. Solenoid valve according to claim 1, characterized in that the winding (22) is coupled to the electro-dynamic motor with the distributor element (3). 3. Electric valve according to claim 1 or 2, characterized in that the electrodynamic motor has a permanent magnet (18) contains. 4. Solenoid valve according to claim 1 or 2, characterized ^ characterized in that the electrodynamic motor contains a first fixed winding (36) which generates a magnetic field and a second movable V / ick ment (22) connected to the dome distributor member (3) int. 5. Electric valve according to one of claims 1 to 4, characterized in that the force exerted on the winding (.22) and the force depending on the useful pressure are opposite to one another, in such a way that they oeqrnseit at least partially cancel. 6. Solenoid valve according to claim 5, djadurch gekcnuaei chnei !, that the Wicklun · "· the distributor element (3) via e ¹ 'ne Unt (2?) Is connected ER- rescue (28). BATH ORIGINAL 2098S7 / OF78 ? 227552 7. Electric valve according to one of claims 1 to 4, characterized characterized in that the exerted on the winding (22) The force and the force dependent on the useful pressure are rectified and the β means are provided to act on the distributor member (3) to exert a force that opposes the first two forces mentioned. 8. Solenoid valve according to claim 7, characterized GEK ted b y calibration net, that the means to exert this force to the distributor member is a spring (24). 9. Solenoid valve according to claim 8, dadu_rch_ gekennzei seframe that the spring (24) is a pretensioned spring, which exerts on the distributor element (3) a force that is large enough to hold this body in a position in which the Utility line (14) is in connection with the pressure source (13), even if the pressure in the utility line has its maximum value, but is not high enough to keep the distributor element (3) in this position when the on "the VJicklung ( 22) exerted force exceeds a certain value. 10. Solenoid valve according to one of claims 1 to 9, dad urch in that the means to the distributor member (3), nine from the prevailing effective pressure dependent force exerting a Kpmmer (l6) which with the Nutzdruckleitung (14 ^ in compound and into which the one earth of a movable pressure element (33) protrudes, the cross-section of which is smaller than the cross-section of the distribution element (3), while its other end is connected to the distribution element. 11. Electric valve according to claim 10, characterized in that this other end of the pressure element (33) is supported against the distributor element (3). .BATH. ORIGINAL 209852/0678 Lee side