DE102007005915B3 - Solenoid valve, has sealing device opening or closing valve openings based on movement of anchor, and support unit provided at anchor or valve seat body, where support unit prevents tilting of anchor - Google Patents

Abstract

The valve has an electromagnetic drive unit (10) provided with a disk-shaped movable anchor (33), and a valve part provided with two valve openings (40, 41). A sealing device is provided for opening or closing the valve openings based on a movement of the anchor. The valve openings are arranged in a common plane. A support unit is provided at the anchor or a valve seat body (44), where the support unit prevents tilting of the anchor. Sealing units (37, 38) and the support unit are arranged radially around 120 degrees.

Description

The The invention relates to a solenoid valve with the above-mentioned features of claim 1

For example, is from the DE 600 04 838 T2 so-called double-seat valve with an axially spaced arrangement of two valve seats known. In the arrangement described there, by driving the individual valve stoppers, it is possible to clean the inlet chamber, the outlet chamber and the space between the two valve stoppers by introducing a cleaning liquid and thus clean the valve in place without having to remove it.

Of Furthermore, valves are known in which a sealing element on a valve opening is pressed so that this is sealed and another flow of a Mediums is prevented by the valve.

Become such valves are used in safety-relevant environmental conditions, so it is a disadvantage that when worn the sealing element, the tightness the valve and thus its shut-off no longer guaranteed safe is.

From the documents DE 44 16 279 A1 . DE 44 01 747 A1 and US 2,461,772 Valves with valve seats in a plane are known, which are closed by an anchor plate.

task The invention is to provide a solenoid valve in which a Absperrwirkung with increased Security available that's about it In addition, simple and inexpensive to manufacture is and has compact dimensions.

According to the invention this Task by a solenoid valve with the features of the claim 1 solved.

further developments The invention are the subject of the dependent claims.

One Inventive solenoid valve consists accordingly of an electromagnetic drive unit with a movable armature, a valve member with at least two Valve openings and a sealing device, for. B. at least two sealing elements, the the valve openings in accordance with open a movement of the anchor or close, wherein at least the valve openings arranged in a common plane. Are also preferred the sealing elements arranged in a common plane, wherein the Armature of the electromagnetic drive unit disk-shaped as an armature disk is formed and so a largely rotationally symmetrical structure of the valve allows.

It is at least one support element provided that prevents tilting of the armature disk.

The Invention has the advantage that by the arrangement of the valve openings in a common plane this through the sealing device at the same time open or can be closed. If, for example, a first valve opening is assigned to an inlet and a second valve opening a drain of the valve, so is the tightness of the valve and thus its blocking effect also guaranteed even if For example, one of the two sealing elements defective, z. B. leaking is.

Advantageous on such a configuration is also that in a closed position of the valve, d. H. when the sealing elements on the valve openings depressed be through the support element prevents the anchor plate from tilting and due to the Tilting one or both of the valve openings not 100% are closed. The sealing elements and the support element are preferably radial offset by 120 °, arranged to each other.

A Such arrangement of the sealing elements and the support member has the consequence that the anchor plate at the three vertices of an isosceles Triangle supported becomes, so that an optimal power distribution is achieved.

In A further preferred embodiment is between the electromagnetic Drive unit and the armature arranged a membrane, which is preferred is made of a metallic material and against the electromagnetic Drive unit and / or the valve part by means of one O-ring is sealed. This embodiment has the advantage that the electromagnetic Drive unit is housed in a room that is against the medium, that the valve flows through, is sealed. The electromagnetic drive unit needs at this training is not additional be protected against, for example, electrically conductive or corrosive media.

In a further embodiment of the invention, a return spring, for. As a compression spring, provided, which is designed such that the valve is closed or opened when energized electromagnetic drive unit. The attachment of such a compression spring is particularly advantageous for valves that are rarely operated. If a valve, for example, closed most of the time and is only very rarely, for example, opened for ventilation purposes, it can be achieved by a sufficiently strong compression spring who the that Valve in the de-energized state is always closed.

It is also advantageous to design the anchor centered with a cup-shaped bulge and the compression spring in the bulge to arrange. By such a configuration of the armature is advantageously achieved that the compression spring is stored in a simple manner.

In a further advantageous embodiment of the solenoid valve according to the invention is provided that the drive unit and the valve member fixed interconnected and this connection advantageously by welding, preferably by ultrasonic welding is produced. Advantageous in this embodiment, that in a factory assembly of the valve with subsequent weld together the necessary tightness can be guaranteed and the disadvantages that arise for example in a screw would be avoided.

Further Advantages of the invention will become apparent from the following description an embodiment of the invention with reference to the accompanying figures. Show it:

1 a longitudinal section through a solenoid valve according to the invention, and

2 a cross section in the plane of the valve openings of the solenoid valve 1 along the section line II of 1 ,

The representation in 1 shows a sectional view through an exemplary solenoid valve, in which the sectional plane along the offset section line II-II in 2 is guided.

In 1 is an electromagnetic drive unit 10 shown. The electromagnetic drive unit 10 has a magnetically conductive pole core as the centrally arranged element 12 on. To the pole core 12 is a coil 16 arranged, with the turns of the coil 16 on a coil carrier 14 are wound up. To form a magnetic iron system and thus to conduct the magnetic flux is at the upper end of the pole core 12 a yoke plate 18 and around the coil 16 a magnetically conductive tube 19 appropriate. The electromagnetic drive unit 10 is from a housing 21 surrounded in the form of an inverted pot and on its underside by a metallic membrane 30 completed. The housing 21 can z. B. be formed by plastic extrusion. In a down-facing, circumferential groove 21a of the housing 21 sits an O-ring 23 that is against the membrane 30 pushes and the case 21 the electromagnetic drive unit 10 against one below the membrane 30 located anchor space 31 seals. As in 1 represented, finds the housing 21 after a radial projection 21b its continuation in the axial direction and flows on the one hand in one at the lower end of the housing 21 arranged plug part 21c with pins 25 by removing the electrical connections of the coil 16 are guided to the outside, and on the other hand in a mounting flange 21d with mounting hole 21e ,

The anchor room 31 is through a cavity of a valve seat body 44 formed, wherein the valve body 44 up against the membrane 30 demarcates. For sealing, the valve body 44 an upwardly facing, circumferential groove 44a on, in the one against the membrane 30 supporting O-ring 24 sitting. The grooves 21a . 44a of the housing 21 and the valve seat body 44 are attached so that they are aligned with each other and the O-rings arranged therein 23 . 24 at the outer edge of the membrane 30 rest.

The housing 21 and the valve body 44 are fixed and sealed together. This can be done, for example, by a circumferential ultrasonic welding 45 be achieved.

In the anchor room 31 is a magnetically conductive, disc-shaped anchor 33 arranged. The anchor 33 has a cup-shaped depression in its center 33a on, in which a compression spring 35 is arranged. At the bottom of the anchor 33 is offset radially outwardly a first plate-shaped sealing element 37 and a second plate-shaped sealing element 38 arranged. The sealing elements 37 . 38 are suitable for a first and a second valve opening 40 . 41 that is in the below the anchor 33 arranged valve seat body 44 to close. The first valve opening 40 is a radially outwardly guided inlet 46 and the second valve opening 41 an axially downwards run 47 assigned.

The in the cup-shaped depression of the anchor 33 arranged compression spring 35 rests against the membrane 30 and causes such that in the de-energized state of the coil 16 the valve openings 40 . 41 through the sealing elements 37 . 38 are closed. It should be noted that the membrane 30 sufficiently rigid is formed against compounds. Will the coil 16 energized, it forms a magnetic circuit, causing the armature 33 in the anchor room 31 in the direction of the coil 16 is pulled. The valve openings 40 . 41 will be opened. That at the inlet 46 inflowing medium reaches the drain 47 , in addition a mechanical filter 49 has to keep soiling away.

2 shows a sectional drawing through the valve 1 , where the section in the in 1 at level I-III is guided across the valve and in a plan view of the valve seat body 44 and the housing arranged around it 21 shows.

The housing 21 has a substantially cylindrical body, on the outside of a rectangular shaped projection for accommodating the plug part 21c is formed. Furthermore, the housing has 21 two further projections with holes 21e on, for screwing the housing 21 are suitable.

In the plan view of the valve seat body 44 is to recognize the outer wall, which closes the valve seat body laterally and as in 1 can be seen, upwards with the membrane 30 concludes. Furthermore, the two valve openings 40 . 41 to be seen, which are arranged offset in a radius r from the center of the valve seat body at an angle of 120 °. Furthermore, a support element 50 to recognize that in the same radius r is arranged offset by a further 120 °. The support element 50 has a height equal to the thickness of the sealing elements 37 . 38 equivalent. The support element 50 can z. B. integral with the armature disk 33 be connected. In the center of in 2 Section shown is the cup-shaped depression of the anchor plate 33 to recognize in the center of the compression spring 35 is arranged.

It is briefly the function of the in the following 1 and 2 illustrated valve explained.

In the de-energized state of the coil 16 becomes the anchor plate 33 by the spring action of between the anchor plate 33 and the membrane 30 arranged compression spring 35 pressed down, leaving the valve openings 40 . 41 through the sealing elements 37 . 38 are closed. In this de-energized state stabilizes the support elements 50 the anchor plate 33 in its position horizontal to the surface of the valve seat body 44 , Tilting the anchor plate 33 and the sealing elements arranged thereon 37 . 38 is thereby prevented.

In the energized state of the coil 16 a magnetic field is induced whose magnetic flux passes through the yoke plate 18 , the magnetically conductive tube 19 and the polkernels 12 in the direction of the anchor plate 33 is steered. The anchor plate 33 closes the magnetic circuit and is counteracted by the induced magnetic field against the force of the compression spring 35 Pulled upwards, leaving the sealing elements 37 . 38 from the valve openings 40 . 41 lift off and the flow through the anchor space 31 is possible.

Although in the embodiment of two sealing elements 37 . 38 the speech was, it is also possible to provide a single sealing ring or a single sealing plate, the two valve openings 40 . 41 can seal at the same time.

Furthermore, it is of course not mandatory that the support element 50 on the anchor plate 33 sitting. It can also work on the valve seat body 44 be arranged.

10

electromagnetic drive unit

11

valve part

12

pole core

14

coil carrier

16

Kitchen sink

18

yoke plate

19

Magnetic conductive pipe

21

casing

21a

groove

21b

head Start

21c

plug part

21d

mounting flange

21e

mounting hole

23

O-ring

24

O-ring

25

pins

30

membrane

31

armature space

33

Anchor / anchor plate

33a

Indentation / bulge

35

compression spring

37

first sealing element

38

second sealing element

40

first valve opening

41

second valve opening

44

Valve seat body

44a

groove

45

ultrasonic welding

46

Intake

47

procedure

49

mechanical filter

50

support element

r

radius

Claims (12)

Solenoid valve having the features: - an electromagnetic drive unit ( 10 ) with a movable armature ( 33 ), - a valve part ( 11 ) with at least two valve openings ( 40 . 41 ), - a sealing device for opening or closing the valve openings ( 40 . 41 ) according to a movement of the armature ( 33 ), - the valve openings ( 40 . 41 ) are arranged in a common plane, wherein the anchor disc-shaped as an armature disc ( 33 ), characterized in that at the anchor ( 33 ) or a valve seat body ( 44 ) at least one support element ( 50 ) is provided, the tilting the armature disc ( 33 ) prevented. Solenoid valve according to claim 1, characterized in that two sealing elements ( 37 . 38 ) are provided and that the sealing elements ( 37 . 38 ) and the support element ( 50 ) are arranged radially offset by 120 °. Solenoid valve according to one of the preceding claims, characterized in that between the electromagnetic drive unit ( 10 ) and the anchor ( 33 ) a membrane ( 30 ) is arranged. Solenoid valve according to claim 3, characterized in that the membrane ( 30 ) is made of a metallic material. Solenoid valve according to claim 3 or 4, characterized in that between the membrane ( 30 ) and the electromagnetic drive unit ( 10 ) an O-ring ( 23 ) is arranged. Solenoid valve according to one of claims 3 to 5, characterized in that between the membrane ( 30 ) and the valve part ( 11 ) an O-ring ( 24 ) is arranged. Solenoid valve according to one of the preceding claims, characterized in that a pressure spring ( 35 ) is provided, which is designed such that the valve in de-energized drive unit ( 10 ) is either closed or open. Solenoid valve according to one of the preceding claims, characterized in that the armature ( 33 ) in the middle a pot-shaped bulge 33a in which the compression spring ( 35 ) sits. Solenoid valve according to one of the preceding claims, characterized in that the drive unit ( 10 ) and the valve part ( 11 ) are fixedly connected to each other. Solenoid valve according to one of the preceding claims, characterized in that the drive unit ( 10 ) and the valve part ( 11 ) are welded. Solenoid valve according to claim 10, characterized in that the drive unit ( 10 ) and the valve part ( 11 ) are welded by means of ultrasound. Solenoid valve according to claim 1, characterized in that the sealing device ( 37 . 38 ) is a sealing ring or a sealing plate, through which both valve openings ( 40 . 41 ) are closable.