DE1820612U - ELECTROMAGNETIC VALVE. - Google Patents

Description

Gottfried Müller, Forchtenberg Krs. Öhringen / Württ.

Öhringer Straße 192 Electromagnetic valve The utility model relates to an electromagnetically controlled valve, which controls the flow of the medium controlling parts with the armature which is preferably under the action of a spring an electromagnet are connected.

In particular with electromagnetic valves of this type, it is not only desirable to be able to vary the flow cross-section between the valve seat and the closure piece, which is generally arranged on a displaceable rod, but also, after a long period of operation, that the increase in the stroke of the valve caused by a knocking out of the closure piece is essential Compensate the valve rod again. For this purpose, the suggestion has already been made, which is generally known as a pot magnet. formed to arrange the electromagnet acting on a plunger in the direction of the valve rod axis so as to be longitudinally displaceable. The displacement of the pot magnet can be achieved, for example, in that the pot magnet, which has a thread on its outer surface, is screwed into a sleeve which is supported on a support and which, as soon as it is set in rotation, causes the pot magnet to be raised or lowered in a spindle-like manner.

According to another suggestion, the pot magnet is on one above it cross-zygomatic arch attached, which with its middle piece on a counter an axial displacement secured spindle is seated and when it rotates Spindle moved together with the pot magnet in the direction of the valve rod axis will.

Such an axial known for the purpose of changing the valve lift Adjustment of the electromagnet is not only relatively cumbersome and thus expensive, but can be used with valves that take into account their later intended use should often only have small dimensions, not always perform.

In addition, another design of such is electromagnetic Valve became known, at the in the flow part of the valve in the extension of the valve rod axis one having the valve seat, the In or outflow of the medium enabling sleeve is screwed, according to their Adjustment is soldered to the flow part. Although this can be the valve seat Adjusting the sleeve relatively easy, but readjusting is necessary This is difficult in practice and can only be carried out by specialists.

These existing in such known electromagnetic valves Disadvantages can now be eliminated according to the utility model in that the located in the flow part of the valve cylindrical body with one of the Flow part with the drain connecting hole in the extension of the longitudinal axis the valve rod, for example by means of a screw bolt or the like and is adjustable. But with this there is a change in the flow determinant Distance between the valve seat and the closure piece by displacement of the valve seat with respect to the closure piece in a particularly simple manner and Way achieved. In addition, it can be used to make the adjustment and readjustment possible Permitting flow cylindrical body also afterwards thereby install in existing valves that the above the valve seat located through-flow part of the valve body by drilling into a continuous cylindrical space is expanded, in which the cylindrical Body with a bore connecting the remaining flow part to the drain can be inserted.

If, in order to adapt to possible pressure fluctuations in the medium, the flow of the medium between the spigot and the valve seat is to be controllable as a function of the difference in the pressures of the medium flowing through in front of and behind the valve seat, this can be done by opening the The space of the flow part located in the cylindrical body is connected on the one hand by a bore to the valve outlet and on the other hand by an axial bore machined in the bottom of the cylindrical body with the flow bore located therein. The size of the worked into the cylindrical body, the 'ven outlet opening-or-openings facing tilabfluss and the diameter of this axial bore are chosen so that the cross-section of the inflow opening that can be shut off by the valve disk is greater than the sum of the individual cross-sections of these outlet openings, po however, is smaller than that by the sum of Individual cross-sections of these outlet openings and the overall cross-section determined by the axial bore.

This special dimensioning of the cross-sections ensures that part of the medium flowing through the cylindrical body on each Fall through the axial bore in the one below the cylindrical body Space must flow out and only from there through the connecting hole to the valve drain got. The at the outflow of this subset of the medium from the axial bore the resulting recoil causes the cylindrical body to lift slightly in its normal position. If the pressure of the outflowing medium rises, it causes this overpressure causes a further lifting of the cylindrical body and thus a narrowing the valve flow opening. In contrast, if the pressure drops, the cylindrical pressure drops Body off something, which then results in an enlargement of the valve flow openings Has.

In order to have a free outflow of the coming through this axial bore To enable a partial amount of the medium and each one a possible excessive lifting To prevent the congestion causing the cylindrical body is the cross-section the connecting hole advantageous dimensioned larger than that of the axial Drilling. A recoil that is as axially directed as possible can also be achieved by that in the end face of the opposite to the mouth of the axial bore additional control of the cylindrical body causing screw bolt a funnel-like Incorporated recess and the mouth of the axial bore of a conical, into the space below the cylindrical body protruding collar is surrounded.

It is also conceivable, however, to use the cylindrical body itself to be designed as a sleeve which has a on its end face facing the valve outlet carries a conical surface having a collar, which again has one in it facing end face of a screw bolt incorporated funnel-shaped, the Diverting the medium causing recess is assigned.

Compared to the previously discussed options for regulating the valve flow cross-section but can also be the distance between the armature plate, which determines the stroke of the valve spindle and the face of the electromagnet facing this as a function of the difference the pressures prevailing in front of and behind the valve seat can be regulated in that the electromagnet displaceable in the longitudinal direction of its core stored and by means of one on the one hand from the inflowing medium and on the other hand is controlled by the flowing medium acted on the piston. In this context the end of the magnetic core facing away from the anchor plate can be inserted into the piston rod of the on both sides of the flow medium acted upon piston run out of the interior of its cylinder in one facing away from the electromagnet, with the valve outlet connected space and another facing the electromagnet, preferably subdivided indirectly connected to the valve inflow space. With this scheme an increase in pressure of the medium flowing off the valve causes an axial displacement of the electromagnet against the armature plate, whereby the stroke of the valve spindle and so that the flow opening is reduced.

The pressure space assigned to the flow part is expediently of the cylinder at the in a known manner opposite the flow part od by means of a sealed plate serving to support the valve rod. Like. Shielded, alternately with the flow part and the valve drain through a compensating bore provided in the valve rod communicating the compensating space connected, the opposite of the space surrounding the armature of the electromagnet and the electromagnet itself by a together with the valve rod sliding cup seal can be sealed.

In this context, finally, is the one with the valve inflow and the valve outlet connected cylinder advantageously to the bottom of the electromagnet surrounding and protective, pot-like and cut into the valve flange Threaded screwed-on housing.

In the drawing are several, for example embodiments according to shown in the utility model.

They show: FIG. 1 a one-way straight-way valve in longitudinal section, FIG. 2 and 3 two other embodiments of the valve seat of the flow valve shown in FIG also in longitudinal section, Fig. 4 shows a similar embodiment of the flow valve with an automatic pressure equalization device and Figs. 5 and 6 two others Pressure equalization devices.

The body 1. of the one-way straight-way valve shown in section in FIG. 1 has in a manner known per se the inflow 2 and the outflow 3, between which surrounding the mouth of the flow bore 4, of that on one Valve rod 5 fixed valve head 6 lockable valve seat. 7 is arranged.

To control the valve rod 5 is located above the valve body 1 a pot magnet 8, the winding 9 of which is made of a magnetizable material Outer jacket 11, a likewise magnetizable cover plate 12 and one of one non-magnetizable material such as brass existing protective disk 13 is covered. In this winding 9 is also designated 14, also made of a magnetizable material, in particular soft iron, existing and with the magnetizable cover plate 12 connected core 14 inserted, whose from the Winding 9 protruding end 15 has a slightly larger diameter than the core shaft having. This pot magnet 8 is arranged by means of an on its outer jacket 11, made of a non-magnetizable material ring flange 16 on a The external thread 18 cut into the valve flange 17 is screwed on and leaves can be adjusted axially with respect to this valve flange 17 by a screwing movement.

Opposite the annular end face 19 of the jacket 11 and the end face 21 of the core end 15 is located in one provided in the valve flange 17 cylindrical recess 22 to the pot magnet 8 belonging, disk-shaped seated on the end of the valve rod 5 facing away from the valve disk 6 Armature plate 23, the outer diameter of which to improve the magnetic field line flux is approximately equal to the outer diameter of the pot magnet jacket 11.

To allow the medium flowing through the valve to penetrate To prevent up to this anchor plate 23 and the pot magnet 8 is the one with 24 designated flow part of the valve through a screwed into the valve body disc-shaped plate 25 completed, sealed by ring seals 26 in their Bore 27, the valve rod 5 is mounted so as to be longitudinally displaceable. Above this cover plate 25 is also a via the compensation tube 28 with the valve outlet 3 communicating compensation space 29, which in turn opposite the anchor plate 23 by one attached to the valve rod 5 and displaceable together with it Cup seal 31 is complete.

If the winding 9 of the pot magnet 8 is energized, so form the magnetic field line fluxes designated by 32 and 33, which under Overcoming the between the end faces 19 and 21 of the pot magnet 8 and the surface the anchor plate 23 located air gaps 34 and 35 a tightening the anchor plate 23 and thus a lifting of the valve disk 6 from the valve seat 7 counteract the action of the compression spring 36 located on the core end 15.

Should the by the distance a of the anchor plate 23 from the end faces 19 and 21 of the pot magnet 8 certain stroke of the valve disk 6 are increased, so all that is needed is the pot magnet screwed onto the valve flange 17 8 to be rotated in the direction of arrow 37, making this one of the desired Change of the valve lift corresponding axial displacement is granted. Is against in particular to compensate for any wear that may cause leaks of the valve disk 6 a reduction in the valve lift is required, the Pot magnet 8 rotated against the direction of arrow 37 in this case.

Another possibility for regulating the valve lift is shown in FIGS. 2 and 3, according to which in the cylindrical flow part 24 of the valve body 1 a cylindrical body 38 with the through hole 4 and the valve seat 7 is longitudinally displaceable arranged and by means of the ring seals 39 against the cylindrical inner wall of the flow part 24 is sealed. Setting this cylindrical body 38 takes place either by means of a cap 41 screwed bolt 42 or one directly into the cylindrical wall of the Flow part 24 screwed plug 43, as shown on the one hand from FIG. 2 and on the other hand from FIG. 3 can be seen.

FIG. 4 shows an embodiment of the one-way gate valve similar to FIG. 1, which is equipped for regulating the valve lift with the longitudinally displaceable body 38 according to FIGS. 2 and 3 having the valve seat 7. In order to enable the valve lift to be automatically adjusted to any pressure fluctuations that may occur in the medium flowing through it, the pot magnet 8 is in the longitudinal direction of its Core 14 displaceably mounted and acted upon by the flowing medium on the one hand via the line 46 of the outflowing medium and on the other hand via the line 47 opening into the compensation chamber 29, on the extended free end designed as a piston rod 48 f of the magnetic core 14 arranged piston 49 f controllable. This piston 49 divides the interior of the cylinder 51 on the one hand into the pressure chamber 52 connected to the line 46 and on the other hand into the pressure chamber 53 connected to the line 47. The cylinder 51 itself is at the bottom 54 of a likewise pot-like housing surrounding the pot magnet 8 55, which is screwed back onto the external thread 18 of the valve flange 17.

For example, if there is a pressure increase in the flowing medium instead, the piston 49 is moved together with the pot magnet 8 in the direction of the arrow 56 shifted against the anchor plate 23 and thus the distance a between the end faces 19 and 21 of the pot magnet 8 and the surface of the armature plate 23 reduced what again a reduction in the valve lift regardless of the respective setting of the cylindrical body 38 carrying the cylinder seat 7. Through this Reduction of the valve lift a but the flow opening is reduced to the extent that that with the increased pressure of the outflowing medium only a smaller amount flows through as before and a pressure drop occurs. If, on the other hand, there is a pressure drop of the outflowing medium, the difference is that in the cylinder chambers 52 and 53 prevailing pressures lower, so that the effect of the between the pot magnet 8 and the anchor plate 23 located, in this case from the inner jacket an additionally screwed-in ring 57 which enlarges the end face 19 Compression spring 36 with a larger diameter is only partially canceled and the compression spring 36 shifts the pot magnet 8 counter to the direction of the arrow 54 causes, which again increases the valve lift a and thus also results in the flow opening.

The generally constant pressure of the inflowing Medium, on the other hand, takes effect every time the . Valve disk 6 via the compensation bore 28 and the Line 47 on the piston 49. Since there is a possible Overpressure of the outflowing medium can already compensate for by the displacement of the piston 49, a certain relaxation takes place in the flow bore 4, so that the pressure prevailing in the line 47 and the cylinder chamber 53 remains approximately constant even when the valve disk 6 is lowered.

5 shows a further possibility of automatic control of the valve lift depending on the pressure fluctuations that may occur of the outflowing medium. In this case the one is below the cylindrical one Body 38 located space 58 of the valve flow part 24 through the inclined bore 59 with the valve outlet 3 in connection.

In addition, in the bottom 61 of the cylindrical body 38 is an axial Bore 62 incorporated, the mouth of one on the end face of the cylindrical Body 38 arranged, a conical lateral surface 63 having collar 64 surround is. Opposite this collar 64 is again in the end face of the in the cap 41 screwed-in screw bolt 42 has a funnel-shaped recess 65 incorporated.

The size of the in this case advantageously like a wreath in the coat of the cylindrical body 38 arranged outlet openings 66 and the diameter the axial bore 62 are dimensioned so that the cross section of the through Valve plate 6 closable inflow opening is larger than the sum of the individual cross-sections of the outlet openings 66, however, is smaller than that due to the sum of the individual cross-sections of the outlet openings 66 and the axial bore 62 determined overall cross-section. Due to these special dimensions of the outlet openings 66 and the axial bore 62 a part of the inflowing medium always flows off through the axial bore 62 and passes through the inclined bore 59 to the valve outlet 3.

Here, however, the medium hits the funnel-shaped recessed end face 65 of the screw bolt 42 and is deflected against the bottom surface 67 of the cylindrical body 38, which results in the same being lifted slightly into a normal position. If the pressure of the outflowing medium now increases, it also acts via the inclined bore 59 against the bottom surface 67 of the cylindrical body 38, so that the latter is raised even further and thus the flow opening of the valve is further reduced. When the pressure of the outflowing medium drops, on the other hand, the cylindrical body 38 also lowers, which again results in an enlargement of the valve flow opening. In the embodiment shown in FIG the cylindrical one, which acts in a similar manner this Body 38 is only designed as a sliding sleeve. educated. The entire flow of the stepping medium meets against the one pot-like Recess 68 having end face 71 of screw bolt 43 designed as a plug. The mode of operation is again very similar in this case, too, with the deflected flow of the medium lifting the cylindrical body 38 into its normal position, a pressure increase of the flowing medium a further lifting and a pressure drop a lowering of the cylindrical body and thus the automatic control of the valve inflow opening result.

Although this special design and control of a valve only has been explained in more detail in connection with a one-way gate valve, so it is quite possible, in the same way, to use both all multi-way straight-way valves as well as pilot operated valves and slide valves in the same way.

Claims (14)

Protection claims 1. Electromagnetic valve, whose with the valve seat cooperating closure piece through the armature belonging to the electromagnet is controllable and in its flow part a valve seat and a flow hole for the medium having, preferably cylindrical body is introduced, characterized in that the cylindrical body (38) in the extension of the Valve rod axis is longitudinally displaceable and adjustable. 2. Valve according to claim 1, characterized in that the cylindrical Body (38) by means of a screw bolt (42/43) or the like. Can be adjusted. 3. Valve according to claim 1, characterized in that the flow between the closure piece (6) and the valve seat (7) as a function of the Dif- reference of the in front of and behind the valve seat (7) of prevailing pressures flowing through the medium is adjustable. 4. Valve according to claim 1 and 3, characterized in that the hub of the cylindrical body (38) mounted in the flow part (24) as a function of the difference the prevailing in front of and behind the valve seat (7) Pressures of the medium flowing through can be regulated. 5. Valve according to claim 4, characterized in that the below of the cylindrical body (38) located space (58) of the flow part (24) on the one hand through a bore (59) with the valve outlet (3) and on the other hand through an in the bottom (61) of the cylindrical body (38) machined axial bore (62) is connected to the through hole (4) located in this, the size the outlet opening or openings incorporated in the cylindrical body (38) (66) and the diameter of this axial bore (62) are chosen so that the cross-section the inflow opening which can be shut off by the closure piece (6) is larger than that Sum of the individual cross-sections of these outlet openings (66), however, is smaller than that by the sum of the individual cross-sections of the outlet openings (66) and the axial bore (62) certain overall cross-section. 6. Valve according to claim 4 and 5, characterized in that the cross section the bore (59) is larger than that of the axial bore (62). 7. Valve according to claim 4 to 6, characterized in that the Mouth of the axial bore (62) from a conical, protruding into the space (58) Collar (64) surround and in the opposite end face (71) of the one additional Control of the cylindrical body (38) causing screw bolt (42) a funnel-like Recess (65) is incorporated. 8. Valve according to claim 4, characterized in that the cylindrical Body (38) is designed as a sleeve that faces the valve outlet on its Front side carries a collar (64) having a conical jacket surface, the again one in the end face (71) of a screw bolt (42) facing it od. Like. Incorporated funnel-shaped recess (68) is assigned. 9. Valve according to claim 3, characterized in that the stroke of the the valve rod (5) carrying the closure piece (6) as a function of the difference the pressures prevailing in front of and behind the valve seat (7) of the flowing through Medium is controllable. 10. Valve according to claim 9, characterized in that the the stroke the valve rod (5) and the locking piece (6) arranged on it determining Electromagnet (8) in the longitudinal direction of its core, which cannot be displaced with respect to it (14) mounted displaceably and by means of one hand from the inflowing medium and on the other hand acted upon by the flowing medium, with the free end of the core (14) connected, in a cylinder (51) mounted piston (49) controllable is. 11. Valve according to claim 9 and 10, characterized in that the the armature (23) facing away from the end of the magnetic core (14) in the piston rod (48) of the on both sides acted upon by the flow medium piston (49) runs out, which the Inside of the cylinder (51) in one facing the electromagnet (8), preferably pressure chamber (53) connected indirectly to the valve inflow (2) and another the electromagnet (8) facing away, with the valve outlet (3) connected pressure chamber (52) divided. 12. Valve according to claim 11, characterized in that the pressure chamber (53) of the cylinder (51) to the in a manner known per se compared to the Duroh- foot part (24) by means of a sealed, the Mounting of the valve rod (5) serving plate (25) or the like shielded, alternating with the flow part (24) and the valve outlet (3) through a compensating bore (28) provided in the valve rod (5) in connection with compensating space (29) connected. 13. Valve according to claim 12, characterized in that the compensation space (29) opposite the space (22/34) surrounding the armature (23) and the electromagnet (8) by means of a cup collar (31) that can be moved together with the valve rod (5) is sealed. 14. Valve according to claim 11, characterized in that the with the Valve inlet (2) and the valve outlet (3) connected cylinder (51) to the floor (54) flanged onto a pot-like housing (55) surrounding the electromagnet (8) is.