DE3704504A1 - VALVE - Google Patents

Description

The invention relates to a valve with a housing and at least one valve seat provided therein and one closure member which can be pressed against the valve seat, the Closure member is carried by a magnetizable anchor, and to move the armature at least one to a current source connectable excitation winding is provided.

Valves of this type are known, they are called solenoid valves referred to, the magnetic force through a current flow excitation winding is applied and serves the Lift off the closure member from the valve seat or towards it to press. These valves have a valve body with two diametrically lying bores with connection means, for example with internal thread for connection to a pipeline. Across these Further holes are provided, at least one of these cross holes is located centrally in the housing and the Actual valve seat carries you with the closure member tends to work together. The closure member in turn is forehead on a shaft-shaped armature made of ferromagnetic Material attached in a cylindrical field winding protrudes and is slidably mounted therein. The through the Excitation of the winding can cause magnetic forces either against the action of a spring ver the sealing body push. But it is also possible to have two separately switchable To provide excitation windings and both for opening and for Closing the valve only electromagnetic forces to apply. The shaft-like anchor is an elevated Lichen part of its length in the solenoid and the "Validity" of the valve depends on the quality of this guide tion.

The invention is based on a valve of the beginning mentioned design and it aims to create a valve of this type  to be designed so that it is as movable as possible with little friction Has a closure member and the valve is as tight as possible, the valve housing practically no place to be sealed outside. The closure body should be stored so that possible contamination caused by the valve flowing medium stream are introduced, its mobility and ease of movement, so that a valve of the he design according to the invention can be used as a safety valve can. This complex task is solved according to the invention according to the characterizing features of claim 1.

Exemplary embodiments are used to illustrate the invention the same described in more detail with reference to the drawing. Show it:

Figure 1 shows a first embodiment of a valve in longitudinal section.

2 shows a cross section according to the line II-II in Fig. 1.

Fig. 3 shows a second embodiment of a valve in longitudinal section.

A first pipe section 1 has at its one end a closing sleeve 2 , a connecting flange or a connecting thread with which it can be connected to a pipeline. At its inner end, which is designed as a valve seat 3 , this pipe section 1 has an umbrella-like or flange-like widening 4 of relatively small wall thickness. On the outside, this widening 4 has an edge 5 . The inner opening of this pipe section 1 , which forms the valve seat 3 , also has a step-like shoulder 6 . An external thread 7 is also incorporated over part of its length on the outside of this pipe section 1 . This pipe section 1 and its parts mentioned are made of magnetically non-conductive material, for example aluminum.

Parallel to the plane of this widening 4 , a disk-shaped anchor 8 is provided, the main extension plane of which is at an angle to the plane of the drawing in FIG. 1. In its Mittelbe rich this disc-shaped anchor 8 carries a recess into which the closure member 9 is inserted, which carries a central projecting pin 10 . This closure member is made of a suitable material, as it is used for such closure members and whose special properties are dependent on the type of media that flow through this valve. The outer diameter of the circular disk-shaped armature 8 is smaller than the inner diameter of the cylindrical space 11 delimited by the edge 5 , so that this armature 8 is spaced on all sides from the inner wall of the edge 5 .

In this position, the circular disk-shaped armature 8 is held by a conical coil spring 12 . The one end windings of this spring 12 are inserted into the step-shaped shoulder 6 in a non-positive or positive manner, the other end windings of this conical spring 12 engage in a non-positive and / or positive manner the central pin 10 of the closure member 9 , the tapering part of this conical spring 12 facing the closure member 9 . Several openings 13 are provided in the armature 8 around the closure member 9 . The sum of the cross-sectional areas of these openings 13 in the armature 8 is at least as large as the inner cross section of the pipe section 1 .

In the embodiment of FIG. 1, a second pipe section 14 is arranged in alignment with the pipe section 1 , which also carries connection means at its outer end for connection to a pipe line. At the end facing the armature 8 , this pipe section 14 is also equipped with a widening 15 , the circumferential contour of which corresponds to the widening 14 discussed first. This widening 15 also has an edge 16 here , so that this housing part rests on the edge 5 of the first discussed. Here the two parts are tightly connected to one another with a circumferential weld seam 17 . Near the edge 16 jumps from the inside of this widening 15 against the armature 8 a strip-like elevation 18 , which forms a circular ring here. At this elevation 18 , under the action of the spring 12, the armature 8 rests with its one end face, the openings 13 in the armature are arranged such that they lie within the circular ring formed by the circumferential elevation 18 .

An excitation winding 19 , the ends of which are connected to a current source to the outside, which is not shown here, however, is housed in a pot 20 made of ferromagnetic material, one side of which is open. This pot has an annular cross section. At the open end of the outer edge of the pot 20 is equipped with a flange 21 which carries an external thread 22 , the diameter of this flange 21 being slightly larger than the diameter of the extensions 4 and 15, respectively. With its open side, this pot 20 lies directly against the outside of the widening 4 , the first-mentioned pipe section 1 axially passing this pot 20 through. For attachment, this pot 20 is provided with an internal thread which is screwed onto the thread 7 of the pipe section 1 . The magnetic axis of the field winding 19 is parallel to the axis of the pipe section 1 .

On the thread 22 of the pot 20 , a union nut 23 is screwed, which engages over the part of the housing formed by the widening 4 and 15 ( Fig. 1).

So far for the structure of the embodiment illustrated here in FIGS. 1 and 2. If the anchor 8 is formed as a circular disk, it is within the scope of the invention to design this anchor in a cross shape or as a bar. Instead of an excitation winding 19 , a plurality of cylindrical excitation windings can be grouped around the pipe section 1 , the respective magnetic axes of which are parallel to one another. Instead of an annular circumferential elevation 18 , punctiform elevations can also be provided on the inside of this part. Furthermore, it is possible and within the scope of the invention to also arrange an excitation winding on the tube piece 14 in the manner of the first-mentioned and to switch the two windings in such a way that the current flows through them only alternately, with such a second excitation winding Effect of the force of the spring 12 can be amplified. In such a case, it will also be expedient to make the wall thickness of the widening 15 as thin-walled as possible.

The effect of the valve shown in FIGS . 1 and 2 results directly from its structural design. When the winding 19 is not energized, that is to say unexcited, the spring 12 keeps the armature 8 freely within the valve chamber 11 , the elevation 18 ensuring that a clearly defined air gap is specified here. If the winding 19 he stimulates, the electromagnetic field generated by this excitation pulls the armature 8 against the action of the spring 12 against the pot 20 until the closure member 9 rests sealingly on the valve seat 3 , the valve is closed. Anchor, closure member and valve seat are, as far as their axial dimension and stretching is concerned, so that the end face of the closure member 9 rests on the valve seat 3 in a sealing manner before the armature abuts the widening 4 with its end face. If the excitation of the winding 19 is switched off, as soon as the magnetic field has collapsed, the spring 12 pushes the armature 8 back into its position shown in FIG. 1, the valve is thereby opened again. It can be seen from this description and illustration that the valve housing has practically no more points to be sealed from the outside except the weld seam 17 , which can be made permanently and tightly thanks to today's welding technology. The armature 8 is practically floating within the space 11 and is nowhere slidably paired with other structural parts that could impair or even hinder its movement. Instead of such a conical screw 12 , as described and shown here, small leaf springs could also be provided, but this would not simplify the construction nor increase its suitability. The valve shown here in Fig. 1 is a two-way valve.

A multi-way valve is now shown in longitudinal section in FIG. 3, the basic structure of which corresponds to the valve discussed first, with the same components and parts being provided with the same reference numbers. The armature 8 , which is also designed in the shape of a circular disk, is designed here in such a way that the actual closure member 9 shows active sealing surfaces on both sides of the armature. The anchor 8 therefore has a central, stepped bore in which the sealing member 9 is firmly inserted, which also consists of a material suitable for its purpose.

Instead of a pipe section 14 with its end-side expansion 15 , as explained in connection with the exemplary embodiment according to FIG. 1, here is a housing part 24 with a central bore 25 and a bore 26 lying parallel to it, see the outside of the connecting sleeves 27 and 28 . The limiting section of this housing part 24 facing the pipe section 1 or the armature 8 corresponds to the inside configuration of the widening 15 . In the embodiment shown in FIG. 3, the passage from the pipe section 1 to the bore 26 is open. If the winding 19 is excited, the armature is attracted and the passage from the bore 26 to the bore 25 or vice versa is released, the passage to the pipe section 1 is blocked.

As a result of the so-called flying storage of the armature 8 with the closure member 9 , its free mobility under the effect of the electromagnetic field or under the action of the force of the spring 12 is ensured in all operating states and in all operating cases, so that a valve against the object Design is ideal as a safety valve that must be used for emergency shutdowns.

So that the tensile force of the magnet can be as extensive as possible, the air gap between the armature 8 and the widening 4 is small and the wall thickness of the widening 4 is also very small, for example less than 1 mm. Due to this relatively small wall thickness of less than 1 mm, the housing 8 receiving the armature 8 with the closure member 9 is not particularly resistant to bending and tension. The housing assumes the sealing to the outside, however, tensile and bending forces, which act on the valve from the outside, are taken over by the pot 20 and the union nut 23 , which here represent a mechanically stable component that has the task of externally acting forces, of whatever kind, and to keep them away from the actual sealed valve housing, so that the housing retains its predetermined shape and shape despite its thin wall even under unfavorable operating conditions, so that the proper functioning is guaranteed, since even under these Preconditions the dimensions that are provided and specified in the design must be strictly observed.

• Legend for the reference numbers: 1 pipe section
  2 connection sleeves
  3 valve seat
  4 widening
  5 rand
  6 paragraph
  7 external threads
  8 anchors
  9 closure member
  10 cones
  11 room
  12 spring
  13 breakthrough
  14 pipe section
  15 broadening
  16 rand
  17 weld
  18 survey
  19 excitation winding
  20 pot
  21 flange
  22 external thread
  23 union nut
  24 housing part
  25 hole
  26 hole
  27 connecting sleeve
  28 connection sleeve

Claims (18)

1. Valve with a housing and at least one provided valve seat ( 3 ) and a pressable against the valve seat ble closure member ( 9 ), the closure member ( 9 ) being carried by a magnetizable armature ( 8 ), and for shifting the armature ( 8 ) at least one excitation winding ( 19 ) which can be connected to a power source is provided, characterized in that the valve seat ( 3 ) has a connecting sleeve ( 2 ), a connecting thread, a connecting flange or the like at the end on a straight end, at the other end a pipe having a pipe section ( 1 ) is provided that the closure member ( 9 ) is arranged in the central region of a disc or beam or cross-shaped anchor, the main extension plane of which is perpendicular to the axis of the valve seat ( 3 ) and the pipe section ( 1 ) and the magne table axis of the excitation winding ( 19 ) is parallel to the axis of this pipe section ( 1 ). 2. Valve according to claim 1, characterized in that the armature ( 8 ) is received circumferentially by the valve housing with play. 3. Valve according to claim 1 or 2, characterized in that between the valve seat ( 3 ) having pipe section ( 1 ) and the armature ( 8 ) a spring ( 12 ) is provided, one end of which with the pipe section ( 1 ) and the the other end is connected to the armature ( 8 ), the spring ( 12 ) preferably being designed as a helical spring. 4. Valve according to claim 3, characterized in that the helical spring ( 12 ) with its one end turns of a step-shaped shoulder ( 6 ) in the valve seat ( 3 ) having the pipe mouth and the other end turns of this helical spring ( 12 ) one zen tralen, pin-like approach ( 10 ) of the closure member ( 9 ) non-positively and / or positively overlap. 5. Valve according to claim 4, characterized in that the helical spring ( 12 ) is conical, and the tapered end of this conical helical spring ( 12 ) faces the closure member ( 9 ) and is connected to it. 6. Valve according to one of claims 1 to 3, characterized in that the valve seat ( 3 ) having pipe piece ( 1 ) opposite inner housing wall in the housing against the armature ( 8 ) projecting strip-shaped, near-edge elevations ( 18 ) to which the armature ( 8 ) bears when the excitation winding ( 19 ) is deenergized under the action of the force of the spring ( 12 ). 7. Valve according to one of claims 1 to 6, characterized in that the armature ( 8 ) laterally of the closure member carried by it ( 9 ) and within the areas supported by the projecting elevations ( 18 ) of the housing inner wall through openings ( 13 ) . 8. Valve according to claim 7, characterized in that the sum of the cross sections of the openings ( 13 ) in the armature ( 8 ) is at least as large as the cross section of the valve seat ( 3 ) having a pipe section ( 1 ). 9. Valve according to one of claims 1 to 8, characterized in that the valve housing is formed in two parts and the plane of division lies in or parallel to the main plane of extension of the armature ( 8 ) and the two parts forming the housing along this plane of division with one another by a weld seam ( 17 ) are connected. 10. Valve according to claim 9, characterized in that the one housing part has a pipe section ( 14 ) with a connection sleeve, a connection thread, a connection flange or the like. for a pipeline and this pipe section with the Ven valve seat ( 3 ) carrying pipe section ( 1 ) is arranged in alignment. 11. Valve according to claim 9, characterized in that the one housing part ( 24 ) has two bores ( 25 , 26 ) and one of these bores ( 25 ) with the valve seat ( 3 ) carrying pipe section ( 1 ) is aligned and that of the anchor ( 8 ) taken up closure member ( 9 ) is provided on both sides of the armature ( 8 ) and with deenergized excitation winding ( 19 ) the closure member ( 9 ) under the action of the spring ( 12 ) rests on the mouth of this bore ( 25 ) is formed as a valve seat. 12. Valve according to claim 1, characterized in that the excitation winding ( 19 ) in a pot ( 20 ) open on one side is made of ferromagnetic material and this pot has a circular ring-shaped cross section, the central opening of the pot ( 20 ) from which Valve seat ( 3 ) having pipe piece ( 1 ) is interspersed. 13. Valve according to claim 12, characterized in that the central opening of the pot ( 20 ) has a thread at least over part of its axial length, with which this pot ( 20 ) on an external thread ( 7 ) on the pipe section ( 1 ) screws up is. 14. Valve according to one of claims 1 to 13, characterized in that the housing has two mutually aligned pipe pieces ( 1 , 14 ), the mutually facing, the Mün openings openings carrying sides each an umbrella-like or flange-like widening ( 4 , 15th ), at least one of these widenings ( 4 , 15 ) has an edge ( 5 , 16 ) directed against the other widening and along the outer edge of this edge ( 5 , 16 ) the two parts are connected to one another by means of a weld seam ( 17 ) . 15. Valve according to claim 14, characterized in that the wall thickness of that widening ( 4 ) on which from the outside the field winding ( 19 ) receiving pot ( 20 ) with its open side is less than that of the other widening ( 15 ). 16. Valve according to claim 13, characterized in that the pot ( 20 ) carries on its open side an outward flange-like extension ( 21 ) which carries an external thread ( 22 ) and which is slightly larger than the diameter of the cross section circular housing and on this external thread ( 22 ) a housing nut ( 23 ) is screwed over the housing. 17. Valve according to one of claims 1 to 16, characterized records that the pipe pieces and housing parts from not magne tisizable material is made, for example from aluminum minium. 18. Valve according to one of claims 1 to 16, characterized in that excitation windings are provided on both sides of the armature ( 8 ) carrying the closure member ( 9 ), which alternately can be connected to a current source.