DE4343118B4 - Armature for solenoid valves and method for producing such an armature - Google Patents

Abstract

anchor for solenoid valves, the anchor being elongated is formed, consists of magnetic material and on one End of a ring collar as a support for the valve spring has the outer surfaces of the The anchor treads form, with the outer surfaces flattening have, and wherein in the armature at least one end a sealing body for the valve is provided, wherein a spring is supported in the armature the sealing body pushes against the end of the anchor and a cavity inside the armature through openings with the outside of the armature is connected, and wherein the collar on a cylindrical pipe section is formed, and the collar and tube form a component that is connected to the anchor, characterized in that the component (2) consists of a magnetic material and in a press fit (10) is held at one of the ends of the armature (1).

Description

The Invention relates to an anchor for Solenoid valves, the armature elongated is formed, consists of magnetic material and at one end a ring collar as a support for the Has valve spring, the outer surfaces of the The anchor treads form, with the outer surfaces flattening have, and wherein in the armature at least one end a sealing body for the valve is provided, wherein a spring is supported in the armature the sealing body pushes against the end of the anchor and a cavity inside the armature through openings with the outside of the armature is connected, and wherein the collar on a cylindrical pipe section is formed, and the collar and tube form a component that is connected to the anchor.

On Anchor for a solenoid valve needs a variety of tasks. The anchor is supposed to be the different elements of the valve, especially the sealing body. Furthermore should the anchor in his guides be easy to move. As a result, the anchor achieves that at The magnetic forces generated as completely as possible for the sealing task be used can. Furthermore, the anchor has slots, recesses and the like, to make sure that medium controlled by the solenoid valve, which is located in the armature space, the armature movement or the movements of the sealing body is not hindered.

In German Offenlegungsschrift 41 29 487 A1 is an armature for solenoid valves the genus described above. This one described there Anchor is designed so that the magnetic armature part as a drawn workpiece is made, the anchor treads and during the pulling process the longitudinal channels are formed by flattening are. Furthermore, a plastic part is in a recess of the magnetic Anchor part used and a slot to form a connecting channel provided with the hollow interior of the anchor.

The Formation of the armature from a magnetic and a plastic part reduces the mass. In this known arrangement, a additional Processing effort for the outer surfaces of the Anchor avoided. However, it has been found that the life of the used Plastic part in some cases is too low. Due to the wear of the plastic part in certain circumstances the dimensional tolerance of the armature and the safe functioning of the solenoid valve is no longer guaranteed.

It is the object of the invention, an anchor described above to further develop that to the manufacture requires little effort, the anchor being wear-free to get high precision from it for a reliable Switching the valve to effect. Furthermore, the anchor should be a have good running properties.

to solution this object, the invention is based on an anchor at the beginning described genus and beats before that Component in a press fit is held at one of the ends of the anchor. This component exists made of a magnetic material.

The proposal according to the invention to form the component as a cylindrical piece of pipe that in a press fit is held at one end of the armature and made of a magnetic Material exists, brings considerable advantages. Through such an embodiment according to the invention of the component, the proportion of magnetic material on the armature is increased, whereby ultimately the proportion of material is increased to the corresponding one Apply magnetic forces can. This results in an increased switching force.

As Material for the component is suitable for any material that can be magnetized, however it has been found that for it metallic material is particularly well suited. A piece of pipe made of metal points across from a piece of pipe better wear resistance from plastic. From the improved wear resistance of the anchor material results in a higher reliability of the component.

In particular, it is advantageous if, in the method for producing an anchor of the type described above, the anchor is connected to the component receiving the ring collar, so that the length of the anchor is determined by the press-in depth of the component into the anchor. As a result, on the one hand, the component is connected to the armature with very little work, and on the other hand, the exact effective length is determined by pressing in with a suitable pressing tool. As a result, the invention surprisingly achieves that all occurring tolerances can be eliminated, which may add up to one another in other types of manufacture, since the effective length of the armature is decisively facilitated by an appropriate tool, an adjustment aid or a teaching. Surprisingly, this also reduces the expenditure for producing the armature and the component. It is now possible to manufacture the component and the anchor with relatively high tolerances because of the high precision sion of the finished anchor is ensured by the precise press-in process of the component.

It has been found to be It is advantageous if the ring collar connects to one end of the pipe section. in this connection is it convenient when the waistband is over the anchor tread protrudes laterally and is formed by folding the pipe section is. Is based on the collar the valve spring off, causing the armature to move to a home position depressed becomes. The collar is formed by a fold, the Length of Anchor through the press fit is determinable.

A The invention achieves a particularly effective embodiment if the Ring collar is formed by an upset, double fold. As a result, the edge on which the valve spring can be supported reinforced and ultimately reliability of the magnet increased.

It is advantageous if the component inside acts as a sealing piece Receives nipple, the component having an opening, and at the opening one over the Edge of the nipple inwardly projecting flange.

Furthermore is it convenient that in The inside of the anchor is located on a projection of the inside of the anchor supporting Feather on the back of the nipple presses. It is possible, that this Component on the valve opening facing side a sealing surface through which the valve opening lockable is. A nipple acting as a sealing piece is provided in the component, by a spring in the longitudinal axis the armature is movably mounted. This ensures that this sealing piece presses on the valve opening with a force determined by the spring and thus securely closes it.

Further it is suggested that it is cheap if the nipple has a longitudinal groove as an opening having. This longitudinal groove can in the z. B. made of elastic material nipple (= sealing piece) easily be incorporated. This opening serves that the Anchor interior connected to the anchor exterior in order to increase pressure differences in the medium to be controlled avoid. Ultimately, this results in an easy and safe one Operation of the anchor.

Surprisingly has been found to be very good results are achieved, even if on the component opposite A resiliently mounted sealing body is arranged in the armature at the end of the armature, and the springs of both sealing bodies on a common sleeve supported are by the one of the springs on a gradation inside the Anchor is held. Surprisingly is it now possible that a such a complicated design of the anchor with simple means can be realized according to the present invention, because the ultimately effective length the anchor through here z. B. two press fits can be determined. From this results in the possibility high manufacturing tolerances in the manufacture of such an anchor allow, reducing the cost of producing such Anchor can be reduced.

It is an advantage if the collar has side recesses, which lead into the side flats of the anchor treads.

In the drawing is an embodiment of the Invention shown schematically. Show it:

1 2 shows a bottom view of a component of an anchor according to the invention,

2 a vertical section along the line II-II in 1 .

3 2 shows a bottom view of a nipple of an anchor according to the invention,

4 a side view after 3 .

5 a bottom view of an anchor according to the invention,

6 a vertical section through an anchor according to the invention along the line of VI-VI in 5 ,

In 6 is an anchor according to the invention 1 shown in a sectional view. The anchor is, for example, elongated, in particular as a cylinder, the lateral surface of which has two parallel flattenings 16 have trained. The anchor 1 can e.g. B. be designed as a drawn workpiece.

The anchor has an inside of the anchor 17 on that z. B. is introduced through a corresponding stepped bore in the anchor. The recesses inside the armature are coaxial to the axis 18 of the anchor 1 ,

The anchor has a front end 15 on which the component 2 is provided. The component 2 is z. B. as a cylindrical piece of pipe 26 trained that a ring collar 27 carries by two folds 20 and 21 is formed. On this ring collar 27 can support a valve spring, not shown, on the armature.

The inner 25 as a cylindrical piece of pipe 26 trained component 2 takes the nipple 3 on. The nipple 3 serves as a sealing body. The as Sealing body acting nipples 3 is by the spring 11 towards the end 15 of the anchor pressed. This supports the spring 11 on a gradation 40 inside the anchor 17 from. As a stop for the nipple 3 is on the component 2 a flange 22 provided by the double refolding 20 . 21 of the cylindrical pipe section 26 is formed. This flange 22 stands in the inside of the pipe 25 in front and thus prevents the nipple from sliding out 3 ,

In this embodiment, the anchor has 1 at its rear end 19 another sealing body 13 on. This sealing body 13 is by another spring 12 towards the end 19 of the anchor 1 pressed. To prevent the sealing body from sliding out 13 the anchor points to avoid 1 in the rear area an inward protruding gradation 42 on.

The feather 12 supports are in the sleeve 14 starting with an outwardly projecting flange 41 and by the other spring 11 at the gradation 40 inside the anchor 17 is held.

The component 2 is in a press fit 10 of the anchor 1 held.

It is also possible that at both ends 15 and 19 a pressed component 2 for receiving a nipple serving as a sealing body 3 is provided. A key advantage of the invention lies in the fact that the effective length 7 of the anchor 1 solely through the press-in depth of the component 2 in the anchor 1 is determined. In addition to the advantages resulting from these facts in the manufacture of a high-precision anchor, safe functioning and a long service life of the anchor are achieved.

In 1 and 2 is the component 2 shown. The component 2 is here as a cylindrical piece of pipe 26 trained, the interior 25 of the pipe section 26 the nipple 3 receives. The ring band 27 is by two folds 20 and 21 at one end of the pipe section 26 formed, with a first, outward folding 20 a second, to the first refolding 20 opposing second refolding 21 followed. The first refolding 20 forms z. B. an angle of approximately 90 °, the second folding an angle of approximately 180 °. This refolding 21 is designed such that the foremost tubular part 28 perpendicular to the pipe axis 29 runs inwards.

It is provided that the foremost pipe section 28 so far inside 25 of the component 2 protrudes that a flange 22 arises, which is a holder for the nipple 3 results. The component 2 has a rear opening 23 through which the nipple 3 can be introduced. Through the front opening 24 the nipple acts on the valve opening to be closed, which is not shown here. The spring acts on the back of the nipple 11 ,

In 1 is the pipe section in a bottom view 26 shown. The flange-like folding 27 can optionally in its outer circumference two opposite, here z. B. recesses of the same size 50 exhibit. These recesses 50 work with the flattenings 16 of the z. B. cylindrical armature 1 together.

In 3 and 4 is the nipple acting as a sealing piece 3 shown. That nipple 3 is z. B. executed as a solid cylinder, z. B. an elastic material is provided. Around the inside of the anchor 17 the nipple has to connect to the outside of the anchor, that is to say the medium controlling the valve or the power system 3 a longitudinal groove 30 on. As a result, the liquid to be controlled can penetrate into the interior of the armature and compensate for pressure differences that can occur during the control processes.

The magnet is manufactured according to the following plan. First, the anchor 1 manufactured as a drawn workpiece, then coaxial to the axis 18 a stepped, continuous hole is made in the anchor. Through the front end 15 z. B. the rear sealing piece 13 , the feathers 11 and 12 as well as the sleeve 14 inserted. The anchor interior 17 is through the component 2 locked. The component 2 take the nipple 3 up to afterwards in the press fit 10 of the anchor 1 to be attached.

The now with the registration and later submitted claims are attempts to formulate without prejudice to achieve further protection.

The in the dependent claims cited The antecedents point to the further training of the subject of the main claim by the features of the respective subclaim. However are not as a waiver of achieving an independent, subject Protection for understand the characteristics of the related subclaims.

Characteristics, which were previously only disclosed in the description can be found in Course of the process as essential to the invention, for example to be differentiated from the prior art.

Claims (10)

Armature for solenoid valves, the armature being elongated, made of magnetic material and with a collar at one end as a support tongue for the valve spring, the outer surfaces of the armature form the armature running surfaces, the outer surfaces having flattenings, and wherein in the armature at least one end a sealing body is provided for the valve, wherein a spring is supported in the armature the sealing body against the end presses the anchor and a cavity in the interior of the anchor is connected by openings to the outside of the anchor, and wherein the collar is formed on a cylindrical tube piece, and the collar and tube form a component which is connected to the anchor, characterized in that the component ( 2 ) consists of a magnetic material and in a press fit ( 10 ) at one of the ends of the anchor ( 1 ) is held. Anchor according to claim 1, characterized in that the component ( 2 ) consists of a metallic material. Anchor according to one or both of the preceding claims, characterized in that the annular collar ( 27 ) protrudes laterally over the armature running surfaces, and by folding the pipe section ( 26 ) is formed. Anchor according to one or more of the preceding claims, characterized in that the annular collar ( 27 ) by an upset, double fold ( 20 . 21 ) is formed. Anchor according to one or more of the preceding claims, characterized in that the component ( 2 ) inside a nipple acting as a sealing piece ( 3 ) takes up, whereby the component ( 2 ) an opening ( 24 ) and at the opening ( 24 ) one over the edge of the nipple ( 3 ) inward projecting flange ( 22 ) consists. Anchor according to one or more of the preceding claims, characterized in that the nipple ( 3 ) a longitudinal groove ( 30 ) having. Anchor according to one or more of the preceding claims, characterized in that in the interior ( 17 ) of the anchor ( 1 ) one on a ledge ( 40 ) of the anchor interior ( 17 ) supporting spring ( 11 ) on the back of the nipple ( 3 ) presses. Anchor according to one or more of the preceding claims, characterized in that the component ( 2 ) opposite end of the anchor ( 19 ) a spring-loaded sealing body ( 13 ) at anchor ( 1 ) is arranged, and the springs ( 11 . 12 ) both sealing bodies ( 3 . 13 ) on a common sleeve ( 14 ) supported by one of the springs ( 11 ) on a gradation ( 40 ) internally ( 17 ) of the anchor ( 1 ) is held. Anchor according to one or more of the preceding claims, characterized in that the annular collar ( 27 ) side recesses ( 42 ) in the side flattenings ( 16 ) of the anchor treads. Process for producing an anchor according to a or more of the preceding claims, wherein the anchor with a the ring collar component is connected, characterized in that that the Length of Anchor over the press-in depth of the component in the anchor is determined.