DE102008045755A1 - Solenoid valve coil assembly and solenoid valve - Google Patents

Abstract

It is a solenoid valve coil assembly (2) indicated with a coil (8) which is arranged in a coil housing (7) having an opening (9) into which an element (3) of the solenoid valve (1) can be inserted. One wants to prevent the loss of a seal without complicating the assembly. For this purpose, it is provided that in the region of the opening (9), a seal (10) is arranged, which has a reducible inner diameter.

Description

The The invention relates to a solenoid valve coil arrangement with a coil, in a coil housing is arranged, which has an opening has, in which an element of the solenoid valve can be inserted.

One Solenoid valve usually has a coil which is arranged in a coil housing to the Coil before environmental influences to protect, in particular from moisture, and an unwanted electrical interaction between the coil and the environment. The coil works with an anchor together. The armature in turn actuates or moves a valve element. When power is applied to the coil, it shifts the coil Anchor. The anchor is often arranged in an anchor tube, the with a valve housing connected is. The anchor tube is inserted through the opening in the coil housing. Indeed you must then provide a seal between the anchor tube and the coil housing, to prevent moisture from entering the bobbin case. The Moisture could have negative effects on the coil.

For the seal becomes common a round cord seal or O-ring used. The O-ring will open the armature tube is placed before the coil is placed with its housing becomes. The disadvantage of this solution is that the O-ring is usually will not be changed when the bobbin is changed. Accordingly there is a risk of leakage, so the replaced Coil due to penetrating moisture a lower life expectancy has and accordingly shorten the replacement intervals. Sometimes the O-ring stays on the housing of the Coil hanging and then get lost.

Of the Invention is based on the object, the loss of a seal to prevent without complicating the assembly.

These Task is in a solenoid valve coil assembly of the above solved by the type mentioned, that in the area of the opening a seal is arranged having a reducible inner diameter having.

If one arranges the seal on the coil housing, then one is sure that when replacing the coil with its housing both the old gasket from the anchor pipe (or another part of the solenoid valve) is deducted as well as the new coil or the new coil housing with a seal is placed on the anchor tube. The seal presents also sure that the coil can not fall out of the coil housing during assembly, independently from the mounting direction. However, this procedure has no additional measure the Disadvantage that the seal already when placed on the anchor tube seals and thus encloses the air in the coil housing. If then the coil housing Continue pushing on the anchor tube until it reaches its final position arrived, d. H. at the stop on the valve housing, then the enclosed in the coil housing Compressed air, which on the one hand makes the forces necessary for mounting unnecessarily large and on the other hand, the risk of leakage brings when the compressed air tries to escape. With the changeability the inner diameter can now this latter problem handle it in an elegant way. You put the coil housing on the element of the solenoid valve on when the seal has a larger inner diameter having. In this case, there is a small gap between the Element of the solenoid valve and the seal, through the air from the Inside the bobbin case can escape, which by the penetrating into the coil housing element of the Solenoid valve displaced becomes. The gap does not have to be big. Usually will be here a fraction of a millimeter is sufficient. As soon as the coil housing of the End position approaches, the inner diameter of the seal can be reduced to the opening of the coil housing to close. This closing So it's done on the last millimeters of the movement.

Preferably the seal has an inner circumference, opposite to a Outer circumference axially is relocatable. If the inner circumference before mounting the Spulenge housing on Solenoid valve opposite the outer circumference has offset and in the direction of the valve body, then is the inner circumference of the seal when the seal on the valve body to Plant comes in, moved in the direction of an axial area, in the outer circumference is arranged. The previously "obliquely" arranged Seal will then be in a "straight" position worked. But since their radial thickness does not change, this automatically leads to a Reduction of the diameter. The seal then becomes an abutment brought the element of the solenoid valve and the opening in the coil housing is closed.

Preferably The inner radius decreases with a displacement of the inner circumference in the range of 5 to 25% of the displacement movement. So you achieve a relatively large gear ratio, so the already small axial displacements of the inner circumference with respect to the outer periphery sufficient to clear the gap between the seal and the element of the Close solenoid valve.

Preferably, the inner circumference is displaced in the unloaded state 1 to 3 mm axially relative to the outer circumference. The "unloaded condition" is the state where the coil assembly is not yet assembled with the remainder of the solenoid valve. With a displacement of the order of 1 to 3 mm, the inner radius of the seal is reduced by about 0.2 mm. This is sufficient to allow sufficient air to escape during assembly, but close the opening of the bobbin case at the end of assembly.

Preferably the seal is formed as a ring whose axial extent smaller than its radial thickness. This facilitates the "pivoting movement" when the inner circumference opposite the outer circumference is relocatable.

Preferably the seal is formed of a material which has a predetermined Having stiffness. When the bobbin case is mounted on the valve body is, then remains due to the rigidity of the inner circumference over the Outer circumference after moved down until the seal in the area of the inner circumference Plant comes to the valve body. A possible Friction of the seal on the anchor tube is not enough for a deformation out. Only a further displacement of the bobbin case on the valve body leads to to reduce the inner diameter of the seal. The seal is then deformed under the mounting pressure.

in this connection It is preferred that the material be selected from a group of materials selected is the liquid silicone rubber, vulcanized silicone rubber and / or EPDM rubber. Liquid Silicone Rubber (LSR), vulcanized silicone rubber and ethylene-propylene-diene monomer rubber have the desired ones Properties.

preferably, the seal is fixed by means of a fastening ring on the coil housing. This is relative to the choice of materials for the seal and the coil housing free. For fixing one must only ensure that the fastening ring both on the bobbin case as well as the seal can be attached to the position the seal on the bobbin case set.

in this connection it is preferred that the mounting ring and the seal a Have positive engagement with each other. The attachment of the seal on the bobbin case also takes place mechanically.

in this connection it is preferred that the fastening ring has a radially inward direction pointing projection, which is in a recess of the seal protrudes. The projection may be just like the recess encircling. You can also provide several projections, in the circumferential direction at a distance from each other, and a corresponding number of recesses in the seal or a in the circumferential direction through recess.

In Alternatively, the gasket may be glued or adhered to the bobbin case ultrasonic welding be attached. This also makes the seal reliable coil housing held.

The The invention also relates to a solenoid valve arrangement with a coil arrangement, as described above.

The Invention will be described below with reference to a preferred embodiment described in conjunction with a drawing. Herein show:

1 a solenoid valve with separate coil arrangement,

2 an enlarged section II after 1 .

3 the coil assembly when mounted on the valve housing in a first position and

4 the coil assembly when mounted on the valve housing in a second position.

1 shows a solenoid valve 1 with a valve housing 2 of which an anchor tube 3 protrudes. In the anchor tube, an anchor is arranged in a manner not shown, but known per se, which is connected to a valve element, also not shown, which has a fluid path of an input 4 to an unspecified output of the valve housing 2 releases or closes. The anchor tube 3 is above the valve body 2 for example, sealed by a stuffing box, of which only a torque application surface 5 is recognizable. The gland is hereinafter referred to as part of the valve housing 2 to simplify the explanation.

The drive of the armature via a coil assembly 6 that is a coil housing 7 in which a coil 8th is arranged. The coil housing 7 is up to an opening 9 closed. In the figures are parts of the bobbin case 7 shown broken away to show details.

In the opening 9 is a seal 10 arranged. The seal 10 is with a mounting ring 11 connected. The fastening ring 11 has a radially inward-facing projection 12 on, in a Ausneh mung 13 in the seal 10 intervenes. This is the seal 10 and the fastening ring 11 initially connected to each other with a positive connection. You can do the seal 10 pour with the mounting ring in a two-component injection, so that they are also fluid connected to each other.

The coil housing 7 is made of a plastic. The fastening ring 11 can with the coil housing 7 be welded, for example by ultrasonic welding.

The seal 10 is formed of a rubber or rubber material, preferably liquid silicone rubber (LSR) or vulcanized silicone rubber. The use of EPDM rubber (ethylene-propylene-diene monomer rubber) is also possible.

The material of the seal 10 has a certain inherent rigidity. Man puts the seal 10 with the in 2 Form shown here, in which the inner circumference 14 opposite the outer circumference 15 in the axial direction of the coil 8th something is shifted or offset. If, as a reference for the size of the displacement or the offset, the side of the seal 10 used by the coil 8th turned away, then this side is on the inner circumference 14 opposite a corresponding position on the outer circumference 15 about 1 to 3 mm from the coil 8th shifted away.

The seal 10 is formed as a ring whose axial extent or thickness is smaller than its radial extent or thickness. The ring does not necessarily have a rectangular shape in cross-section.

If now the coil housing 7 on the anchor pipe 3 is to be mounted, then the coil housing 7 with the seal 10 on the anchor tube 3 postponed. This is in 3 represented where like parts with the same reference numerals as in 1 and 2 are provided.

It can be seen that between the seal 10 and the anchor tube 3 A gap 16 is formed, can escape through the air, by the insertion of the anchor tube 3 in the coil housing 7 is displaced. The gap 16 is shown exaggeratedly large here. It is in reality only a fraction of a millimeter, for example 0.05 to 0.2 mm.

The seal 10 keeps her in 2 represented form, as long as no external forces act on them. A possible friction between the seal 10 and the anchor tube 3 does not yet lead to a significant deformation of the seal 10 , If the seal 10 , as in 4 shown, for engagement with the valve housing 2 comes, then it comes first in the area of its inner circumference 14 for engagement with the valve housing 2 , In the area of the outer circumference 15 Does she still have a distance to the valve body? 2 , This causes the inner circumference 14 opposite the outer circumference 15 can be shifted in the direction of the coil 8th out. The seal is then tilted slightly, so to speak, so that the inner diameter of the seal 10 reduced. When the bobbin case 7 about 1 to 3 mm closer to the valve body 2 pushed on, then reduces the inner radius of the seal 10 by about 0.2 mm. This reduction of the inside diameter is sufficient to the gap 16 close. However, this closing takes place only when the coil housing 7 arrived in the desired position. If there is still air inside the bobbin case 7 is included, this is not critical, because this air does not continue by a movement of the bobbin case 7 is compressed.

Instead of the fastening ring 11 You can also find another attachment of the seal 10 on the bobbin case 7 use, for example, the seal 10 directly on the bobbin case 7 stick.

Claims (12)

Solenoid valve coil arrangement with a coil ( 8th ) housed in a coil housing ( 7 ), which has an opening ( 9 ) into which an element ( 3 ) of the solenoid valve, characterized in that in the region of the opening ( 9 ) a seal ( 10 ) is arranged, which has a reducible inner diameter. Coil arrangement according to claim 1, characterized in that the seal ( 10 ) an inner circumference ( 14 ), which is opposite an outer circumference ( 15 ) is axially displaceable. Coil arrangement according to claim 2, characterized in that the inner radius at a displacement of the inner circumference ( 14 ) in the range of 5 to 25 of the displacement movement. Coil arrangement according to Claim 3, characterized in that the inner circumference ( 14 ) in the unloaded state 1 to 3 mm axially relative to the outer circumference ( 15 ) is relocated. Coil arrangement according to one of claims 1 to 4, characterized in that the seal ( 10 ) is formed as a ring whose axial extent is smaller than its radial thickness. Coil arrangement according to one of claims 1 to 5, characterized in that the seal ( 10 ) is formed of a material having a predetermined inherent rigidity. Coil arrangement according to claim 6, characterized in that the material of a group of materials containing liquid silicone rubber, vulcanized silicone rubber and / or EPDM rubber. Coil arrangement according to one of claims 1 to 7, characterized in that the seal ( 10 ) by means of a fastening ring ( 11 ) on the bobbin case ( 7 ). Coil arrangement according to claim 8, characterized in that the fastening ring ( 11 ) and the seal ( 10 ) have a positive connection with each other. Coil arrangement according to claim 9, characterized in that the fastening ring ( 11 ) a radially inwardly facing projection ( 12 ) which projects into a recess of the seal. Coil arrangement according to one of claims 1 to 7, characterized in that the seal ( 10 ) on the bobbin case ( 7 ) or secured by ultrasonic welding. Solenoid valve with a coil arrangement ( 6 ) according to one of claims 1 to 11.