DE2500531A1 - Fluid or gas cut-off magnetic valve - has parallel magnet shoes, closure component and electrical supply in air gap - Google Patents

Abstract

Valve for the cut-off of fluid or gas flow, has a magnet whose pole shoes have top surfaces parallel to each other, with a narrow air gap, and a component which can be displaced in a vertical direction in the air gap to the line of flow. In the air gap is a thin wall, which does not touch the pole shoe surfaces, to which are attached electrical current wires. This wall is vertical to the magnet field flow line in the air gap and to the movement direction of the displaceable component. The latter comprises a closure component which has a wall running vertical to the first-named wall, and working in conjunction with the flow feed which it can either release or close. The displacement of the closure component is activated by current flow in the electrical feed wires.

Description

Company ALFA ROMEO S.P.Α., Milan (Italy)

"Electrodynamically controlled valve to shut off a Flow rate for liquid or gas. "

The invention relates to a solenoid valve for a control system of intermittent flow rates of a pressurized Liquid (or a gas), which valve is particularly suitable for such applications where a very precise Dosage of the promoted agent is required.

Numerous modifications of solenoid valves for intermittent Approval of the medium is known, but the individual versions are based on one and the same construction scheme and work

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ten practically in a similar way; essentially consist it consists of a closure body which closes or releases the flow of the pressurized medium and out an electric drive that works with the closure body connected is. The closure body normally remains locked and opens every time a special command is in The form of an electrical signal reaches the closure body; through the flow, the cross-section of which is thereby released is, the pressurized agent escapes until the signal goes out and the closure body closes.

With the same opening stroke, which is unchangeable or changeable depending on the different operating conditions in terms of the type of command signals used, the amount of the medium let through in each working cycle depends on the opening time of the solenoid valve and is caused by any response delays in relation to the command signals and by fluctuations in the Response time influences: the dosage of the agent is therefore the finer, the shorter the response time of the solenoid valve and the response delays, which cannot be canceled, remain constant over time.

The ones that mainly affect the performance of a solenoid valve Influencing variables are its mechanical and electrical Inertia, the friction due to sliding contacts and any load losses induced on average: thus one Solenoid valve can be manufactured, which has good functional characteristics, is a closing body with small weight and

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small dimensions are required and the drive should be let it be rapidly excited under the action of the command signal, In addition, load and energy losses due to friction must be reduced to a minimum.

The previous solenoid valves have only some of the above features and do not represent a satisfactory solution for applications in which the tolerance deviation is extremely narrow, such as in the control systems, where variable amounts of liquid or gas are treated in a larger area, and for which smaller delivery quantities are also intended, such as the fuel injection systems for internal combustion engines. In these cases, any metering errors have an influence on the size of the pressure output, and in particular in a particular way with smaller delivery quantities, the function and call in a whole area of the application area malfunctions emerged.

With the solenoid valve according to the invention, the elimination of the previous solenoid valves of this type is adhered to Aimed at disadvantages, but without resorting to more complicated constructions. As from the description below of the solenoid valve according to the invention, represents the The proposed solution represents an optimal design in every respect, with clear construction and simple manufacturing still to come.

The solenoid valve according to the invention comprises a permanent magnet with at least two concentrically arranged pole pieces, the limit an annular air gap in which the cylindrical

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the shaped section of a closure body designed as a sleeve can run back and forth freely, the bottom of which is designed so that it closes on the mouth of a bore can rest, since the closure body is displaceable in the longitudinal direction between two positions, namely between one Open position in which the bottom of the closure body from Boring edge protrudes, and a closed position in which the bottom rests on the edge of the bore, and also a electrical winding on the cylindrical section of the terminating body attached and connected to an electrical signal transmitter to the closure body of the one in to move the other open or closed position.

There is another feature of the solenoid valve according to the invention in that the sleeve-shaped closing body only is mounted in elastically deformable components, which act as a guide means for the closure body during its longitudinal movements serve to open or close the aforementioned hole.

According to a preferred embodiment of the invention, the electrical control signal consists of an alternating current with a rectangular Wave, which assumes the values corresponding to the positive or negative half-waves and thereby the shift of the sleeve-shaped closing body in one or the other Direction and thus the opening and closing of the solenoid valve respectively causes.

Further features and advantages of the proposed solenoid valve are taken from the following description of some as an example cited, possible embodiments to be seen, which

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refers to the accompanying drawing in which

Fig. 1 is a schematic representation of the first embodiment of the solenoid valve according to the invention,

Fig. 2 shows a detail of the same,

FIG. 3 shows a second embodiment of the one shown in FIG Solenoid valve,

Figures 4- and 5 are graphs of electrical signals used for the , Control of the solenoid valve can be used advantageously, and

6 shows a further exemplary embodiment of the solenoid valve according to the invention
shows.

The solenoid valve according to FIG. 1 comprises a permanent magnet, designated as a whole by 10, which is provided with pole shoes 11 and 12 is, as well as a sleeve 13j which the closing body of the Forms solenoid valve and is installed in the air gap between the aforementioned pole pieces. The lines of flux of the through the magnet 10 generated magnetic field close together again through the side wall of the sleeve. The sleeve 13 stops on her Side wall the coil 14, which is connected via conductors 15 and 16 to the control device, which is through the block 17 is shown schematically and which emits the command signal for the solenoid valve.

At the bottom of the sleeve 13, the membrane 18 is in the area of the peripheral edge between the spacer ring 19 firmly connected to the magnet 1o and the cover 20. The ends of the

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Coil windings are attached to the membrane 18 so that the Circle gains in strength and durability. The membrane 18 is made of elastically resilient material and is clamped with a suitable preload so that it assumes the shape of a disc spring and holds the sleeve 13 tightly against the bore edge 21, the bore the flow rate of the solenoid valve during the periods when the solenoid valve remains inactive. The resource will promoted via line 23 and passes through holes 24, air gap between the pole pieces 11 and 12 and on the Wall of the membrane 18 recessed passages 25 to the bore 21. It should be emphasized that the fluid flowing through the air gap touches the coil 14 and thus an advantageous one Cooling exercises. The sleeve 13 can be made entirely of a non-magnetic material such as plastic or from a bottom piece 18 made of non-magnetic material and a jacket wall made of ferromagnetic material exist, as shown in more detail in Fig. 2; The latter solution is particularly advantageous because it is a lower one Scattering of the magnetic flux through the pole shoes of the magnet 1Ö caused. The membrane 18 is also expediently made from a non-magnetic material.

The bottom wall of the sleeve can in any case with an insert washer 22 made of a suitable material in order to ensure an effective seal in the area of the bore mouth 21.

There is a signal suitable for controlling the sleeve 13

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- as in! ig. 4 shown - from an alternating current with rectangular Wave; in one phase the current goes from the value corresponding to the positive half-wave to that of the negative Half-wave corresponding value and then equals zero before the oscillation cycle begins again; with this one In the case described, the two half-waves have the same amplitude, but different duration ..

When the coil 14 is excited, a force is generated as a result of the flow of current, the direction of which depends on the direction of rotation of the Depends on the current; Assume that the positive half-wave of the signal creates a force that acts on the coil 14 and the sleeve 13 overcoming the spring action of the membrane 18 lifts. The pressurized medium flows out of the line through the cross section of the bore 21, which is thereby exposed 23. The total amount of agent dispensed depends solely on the length of time the can is opened after the The stroke of the bushing is firmly limited in the special case (the pole piece 11 forms the end stop), so that the through the bore 21 each escaping flow rate remains constant.

Of course, other types of signals can also be used, such as the signal shown in Fig. 5 in which the Current of the positive half-wave assumes higher values during a suitably selected starting time, so that one has an accelerating Strength when lifting the rifle. After lifting, a smaller force is sufficient to turn the bushing in to keep the open position raised and the current can. take a lower value until it becomes zero,

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whereupon it changes sign to cause the canister to sink and the solenoid valve to close.

The delivery of the agent ceases when the current is zero and the canister is pulled back from the diaphragm in the closed position will. In the illustrated version of the solenoid valve, the polarity of the signal reaching the solenoid valve has been set changed to speed up the closure of the can. This makes it possible to reduce the bias of the membrane 18, after this no longer fulfills the task of reducing the closing time to the limit value in order to achieve the seal secure during periods of inactivity. By reversing the direction of rotation of the current in the coil, namely a force directed in the opposite direction is generated which adds up to the return action of the diaphragm 18 and pushes the bobbin and sleeve downwards. With a solenoid valve constructed in this way, the transition times are between Opening and closing minimized after the coil that is inside the generated by the magnet 10 Magnetic field is located, ssä is due to the extremely small Alternating currents excited with extreme rapidity, and after forces of greater magnitude on the coil also with smaller ones Current strengths are generated, their modulus depending on the strength of the magnetic field, except for the current strength; to reduce the response time when opening finally also contributes to the fact that the bias of the on the Bushing acting resilient means can be chosen small.

In addition, a single, light-weight link operates

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and small dimensions, namely the sleeve 13, as a closure body and at the same time as an electric drive of the same, which has the advantage of a considerable inertia of the moving Masses vouched for.

Another very interesting feature is the practical complete absence of friction caused by the pairing of conductive surfaces, since the membrane 18 is centering and Takes over leadership of the rifle.

It is well known that the frictions fluctuate in a rather random manner and are difficult to determine in advance; but with this The only solution is not a lower resistance to movement the bushing, but above all a remarkable operational reliability and uniformity of the solenoid valve achieved in a wide variety of application conditions.

The solenoid valve shown in FIG. 3 differs from that according to FIG. 1 in that the magnet is provided with an additional concentric pole piece 30, and that the sleeve has an additional, also has a concentric wall 31, v / whether the coil 32 is installed in the air gap between the pole pieces 12 and 30 is. This solenoid valve operates in a manner similar to that shown in FIG. Allowed with the same performance the latter solution makes better use of the available space. The coils 14 and 32 are dependent on in a suitable sense to wind their connection with the öignalquelle 17 so that in the Magnet a synchronous return direction is generated. If the opening stroke of the liner is short, a single diaphragm can be sufficient to lock the liner correctly in its displacements

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to lead; in all cases, a second membrane can also be installed for greater safety, at the top of the The jacket wall of the sleeve is attached and also anchored to the magnet 10.

Such an arrangement is shown in Fig. 6 as an example, where the sleeve 13 apart from the membrane 18 also from the quite Similar membrane 26 is held, which is provided with corresponding holes 27.

Instead of the perforated membranes, a star-shaped row of lamellas can of course also be used the ends of which are attached to the sleeve and to the magnet are.

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Claims (13)

PATENT CLAIMS MJ solenoid valve to shut off the flow of a liquid or a gas, ordered from a magnet whose pole pieces are parallel to each other and thus arranged opposite each other Have surfaces that an air gap of smaller width remains free, as well as from a component that is can be shifted in the direction perpendicular to the course of the flow lines in the air gap and a thin, built-in air gap, The above pole shoe surfaces, however, include non-touching walls, which are current-carrying, perpendicular to the course of the flux lines the magnetic field in the air gap as well as the direction of movement, device of the same member arranged lead wires, which member also includes a terminating body, which consists of a second wall, which is arranged perpendicular to the first-mentioned wall and which has a line mouth as follows plays together that they can release and lock the latter, the displacement of the body supporting the closure Component is triggered by the flow of current in the lead wires. 2..Magnet valve according to claim 1, characterized in that it comprises a permanent magnet with at least two concentrically arranged pole pieces which form an annular air gap limit in which the cylindrical section a closing body forming the movable member freely 509830/0655 and can run, the bottom of which is designed so that it can rest on the mouth of a line to close, since the closing body can be moved in the longitudinal direction between two positions, namely between an open position, in which the bottom of the closure body protrudes from the mouth, and a closed position in which the bottom the mouth rests, with an electrical winding also attached to the cylindrical section of the terminating body and is connected to an electrical signal transmitter to the To move the closure body from one to the other open or closed position. 3. Solenoid valve according to claim 1, wherein the displaceable member is only held by elastically deformable components, as a guide means for the displaceable member in a perpendicular to the course of the flux lines and the lead wires Serve direction when opening or closing the line mouth. 4. Solenoid valve according to claim 2, wherein the displaceable member is supported by elastically deformable components which extend radially and the same with the solenoid valve housing connect, to which the solenoid valve and the line mouth are attached, the same elastically deformable Components as guide means in a direction perpendicular to the course of the flux lines and the lead wires to serve. 509830 / Ö65S 5. Solenoid valve according to claim 3 and 4, wherein the elastic Deformable components consist of at least one membrane lying essentially in one plane, which plane to the first-mentioned wall of the displaceable member is perpendicular, on which membrane optionally openings in are appropriately recessed. 6. Solenoid valve according to claim 3 and 4-, wherein the elastic Deformable components consist of at least one row of elastically deformable leaflets, which in one to the former Wall are arranged substantially perpendicular plane. 7. Solenoid valve according to claim 3 and 4-, wherein the elastic deformable components are installed with resilient bias, so that they the closing body in the closed position push. 8. Solenoid valve according to claim 3 and 4, in which the elastic components resiliently move the closing body into the closed position
push. 9. Solenoid valve according to claim 1, characterized in that the magnet is bell-shaped and supported by a base plate is closed, from which an inner, cylindrical part and an outer, hollow cylindrical part, concentric extends around the first part arranged part, which 509S30 / 065S The latter is provided with an annular pole piece, the. the periphery of the end portion of the inner 'part is arranged opposite and protrudes from this so that there is an air gap therebetween is formed. 10. Solenoid valve according to claim 9 »characterized in that the magnet with at least one additional, hollow cylindrical, is provided around the component already mentioned concentrically arranged component, so that the cylindrical pole pieces the opposing, cylindrical walls the components form a large number of air gaps, the closing body having a large number of cylindrical walls, each of which carries an electrical winding and runs back and forth in an air gap. 11. Solenoid valve according to claim 9, characterized in that the outermost cylindrical wall closed by a base plate is, which carries the aforementioned line mouth, from which the controlled liquid through one on the magnet body recessed inlet drains. 12. Solenoid valve according to claim 1, characterized in that the Cylindrical part of the closure body is built from ferromagnetic material. 13. Solenoid valve according to claim 1, characterized in that at least " the bottom part of the closure body is made of non-magnetic material. S09830A0655