NL1009348C2 - Magnet armature at least comprising body of magnetic or magnetizable material has in one outer end sealing component recess in which sealing component prepared outside body is accommodated - Google Patents

Abstract

In the sealing component recess (3) hook devices are present, which work in conjunction with the sealing component (4) and prevent a movement of the sealing component out of the recess. The hook devices take the form of an all-round radially inwardly directed collar (7). The collar has a ring-shaped under surface working in conjunction with the sealing component and in a radial direction from the outside to the inside is so beveled that a sharp edge working in conjunction with the sealing component is present.

Description

985115 / RB / kdu

Short designation: Magnet anchor.

The present invention relates primarily to a magnetic anchor, at least comprising an anchor body of magnetic or magnetizable material, which anchor body comprises in one end thereof a sealing element recess, in which a sealing element manufactured outside the anchor body is included.

Such magnetic anchors are known in the art. These are manufactured, for example, by securing a sealing element in the sealing element recess by means of an adhesive. Such sealing elements often include rubber sealing elements.

Magnetic anchors and their associated sealing elements are usually relatively small parts that require very high accuracy and durability. Applying a sealing element in an sealing element recess of an anchor body with the aid of an adhesive appears to provide insufficient accuracy in practice. In addition, proper fastening of the sealing element in the sealing element recess can only be tested destructively. Anchors are also known in which the sealing element in the sealing element recess are made by injection molding rubber therein. However, this technique is very labor-intensive and inaccurate. The sealing element recess must be made suitable for injecting rubber with a great many operations (blasting, degreasing, etc.).

There is therefore a demand for an improved magnetic anchor, whereby an unambiguous confinement of the sealing element in the sealing element recess can be ensured in a simple manner without a decrease in accuracy of the anchor.

The object of the present invention is to provide such a magnetic anchor and is to that end characterized in that hooking means are present in the sealing element recess, which co-act with the sealing element and counteract any movement of the sealing element from the sealing element recess.

The presence of hook means allows unambiguous enclosure of the sealing element in the sealing element recess 1009348 2 ring. However, the use of an adhesive need not be excluded.

The hook means can be designed in many ways. Preferably they are in the form of a circular radially inwardly directed collar. The presence of a collar in the sealing element recess allows the sealing element, or a portion thereof, to be retained behind the collar in the sealing element recess, so that any movement out of the sealing element recess is prevented.

In a special embodiment, the collar comprises an annular bottom surface co-operating with the sealing element, which bottom surface is chamfered in the radial direction from the outside inwards such that a sharp edge co-acting with the sealing element is present. This sharp edge will ensure a very good locking effect for the sealing element. Should any force be exerted on the sealing element in any direction in any direction from the sealing element recess, the hooking action of said sharp edge will only be enhanced.

The manner in which the sealing element is designed can be chosen together with the design of the sealing element recess and the hook means present therein.

The sealing element is advantageously disc-shaped and comprises a circumferential recess along the edge of at least one surface, which cooperates with the hooking means. In particular, the sealing element has a substantially symmetrical shape. All this will be explained in more detail later in the figure description. A symmetrical shape has the advantage that the manner in which the sealing element is introduced into the sealing element recess 30 is not critical and can be easily carried out in an automated manner.

In particular, the sealing element recess includes some dead space. This dead space is advantageously present in such a way that it does not adversely affect the confinement of the sealing element. Some dead space offers the advantage that any residual air present therein can be absorbed there when the sealing element is introduced into the sealing element recess.

This dead space is advantageously designed in the form of a circumferential recess near the side of the sealing element recess facing away from the opening.

1009348 3

Magnetic anchors come in many forms. There are anchors with a sealing element at one end, but also with sealing elements at both ends. In a special embodiment of the magnetic anchor according to the invention, the armature body at the opposite end thereof also comprises a sealing element recess with a sealing element incorporated therein. In particular, in the sealing element recess at this opposite end there are also hooking means which cooperate with the sealing element and counteract a movement of the sealing element from the sealing element recess. In other words, a sealing element recess and a sealing element according to the invention are preferably present at both ends.

The invention further provides a magnet anchor body 15 apparently intended for a magnet anchor according to the invention.

A sealing element is also provided, evidently intended for a magnetic anchor according to the invention.

Finally, the invention provides an electromagnetic valve, at least comprising a valve body with an inlet and an outlet and an electromagnetically operable magnet armature for opening or interrupting the connection between the inlet and the outlet, respectively, the electromagnetic valve being characterized in that the magnet anchor is a magnet armature according to the invention.

The invention will be explained in more detail below with reference to the appended drawing, which shows:

Fig. 1 is a schematic cross-section of a magnetic anchor according to the invention;

Fig. 2 is an enlarged view of the portion A of FIG. 1; 30 - FIG. 3 is a perspective view of a sealing element according to the invention;

Fig. 4 an insertion aid for inserting a sealing element into a sealing element recess;

Fig. 5 a pressing part for pressing the sealing element into the sealing element recess; and

Fig. 6 shows an assembly of an insertion aid and a pressing part during the insertion of a sealing element into a sealing element recess.

In Fig. 1 a magnetic anchor 1 according to the invention 40 is shown, which comprises an anchor body 2 with a sealing element 1009348 4 recess 3. Said element 3 contains a sealing element 4, which sealing element 4 is shown in perspective view in Fig. 2. The sealing element 4 is a substantially disc-shaped sealing element with a circular recess 5 and 6 at the edges of the top and bottom surfaces. Such a sealing element can be made of rubber and subsequently inserted into the sealing element recess 3. The sealing element recess 3 in the anchor body 2 comprises as hooking means an inwardly directed collar 7. The edge 5 or 6 hooks behind the collar 7.

Due to the symmetrical design of the sealing element 4, it is not critical how this element is inserted into the sealing element recess. It will be clear that in principle one circular recess 5 is sufficient. The sealing element recess 3 is shaped such that it is substantially uniform with the outer surface of the sealing element 4. However, there is a bevel 8 in the sealing element recess 3, which together with the sealing element forms an annular recess, for some dead space. This dead space is advantageous, since residual air, which may be trapped in it, can be received during the insertion of the sealing element 4.

In fig. 3 an enlargement of the part A from fig. 1 is shown, in which the inwardly directed collar 7 is more clearly visible. The bottom surface 9 of this inwardly facing collar 7 is slightly chamfered radially from the outside inwards, so that a pointed edge 10 is formed, which can protrude slightly into the sealing element 4. With each movement of the sealing element from the sealing element recess 30, the retaining force generated by the sharp edge 10 will be increased.

The manner in which the sealing element is inserted is not particularly critical, but preferably some underpressure is applied in the sealing element recess 3 and the sealing element 4 is slightly deformed during insertion, in particular in the radial direction.

It is by no means necessary according to the invention to use an adhesive, but this is not excluded either.

In Fig. 4 an insertion aid 11 is shown, which comprises an insertion channel 12 for insertion of a sealing element 1009348 5 and an opening 13 for fixing the aid 11 on the sealing element recess of a magnetic anchor. Near the transition between the channel 12 and the recess 13, the channel 12 is preferably slightly chamfered at the location of 14, in order to simplify the deformation of the sealing element required for insertion. The opening 13 communicates via connection channels 15 and 16 with connection channels 17, 18 for applying a negative pressure. When a sealing element 4 is introduced into the channel 12, it will seal against the inclined wall 14 and a small negative pressure, in particular vacuum, can be applied via the channels 17, 15 and 16, 18 in the sealing element recess of a magnetic anchor . Preferably, the opening 13 comprises sealing means for sealing the aid 11 against the armature 1.

In Fig. 5, a pressing part 25 is shown, which comprises a cylindrical main body 26 with a central drive pin 27. In the body 26 there is an inclined shaft 28, which is received in the body 26 at 29 bearings. This axis is at a slight angle to the major axis of the main body 26. This angle is in particular less than 15 °, and preferably about 8 °. The shaft is of such length that the center of the end 30 coincides with the longitudinal axis of the main body 26. Preferably, the end 30 is flat and the edge of the end 30 is slightly rounded. Finally, in Fig. 6, the insertion aid 11 is shown together with the pressing part 25 and a sealing element 4 is received in the channel 12 of the insertion aid part and in the opening 13 a magnetic anchor 1.

For insertion of the sealing element 4 into the sealing element recess 3 of the magnetic anchor 1, an underpressure, preferably vacuum, will be applied via the connections 17 and 18, so that the sealing element recess 3 is made essentially airless. A downward force will hereby be exerted on the sealing element 4.

The insertion of the sealing element 4 is then assisted by rotating the pressing part 25 in the direction of the arrow F and then pressing the shaft 28 with the end 30 against the sealing element 4 in the direction of the arrow H. Since the shaft 28 is mounted in the body 40 of the device 25 with bearings, the surface 30 will not perform a rotary movement with respect to the sealing element, but will only make a rotating tilting movement, so that the pressing force rotates over the surface of the sealing element 4 will be divided, which considerably simplifies and accelerates the insertion. In this way, magnetic anchors can be assembled in a very reproducible way.

It will be clear that many other ways of inserting a sealing element according to the invention into a magnetic anchor 10 according to the invention are possible.

1009348

Claims (11)

1. Magnetic anchor (1) at least comprising an anchor body (2) of magnetic or magnetisable material, the anchor body (2) in one end of which comprises a sealing element recess (3), in which a sealing element manufactured outside the anchor body (2) (4), characterized in that the sealing element recess (3) contains hook means which interact with the sealing element (4) and prevent movement of the sealing element (4) from the sealing element recess (3). . Magnetic anchor according to claim 1, characterized in that the hooking means are in the form of a circular radially inwardly directed collar (7). Magnetic anchor according to claim 2, characterized in that the collar (7) has an annular bottom surface (9) co-acting with the sealing element (4), the bottom surface (9) of which is chamfered radially from the outside inwards. that a sharp edge (10) co-acting with the sealing element (4) is present. Magnetic anchor according to one or more of claims 1 to 25, characterized in that the sealing element (4) is disc-shaped and at least one surface along its edge has a circumferential recess (5, 6) which interacts with the hook means . « Magnetic anchor according to one or more of the preceding claims, characterized in that the sealing element (4) has a substantially symmetrical shape. Magnetic anchor according to one or more of claims 1 to 35 4, characterized in that the sealing element recess (3) has some dead space. Magnetic anchor according to claim 5, characterized in that the dead space is formed in the form of a circular recess (8) near the side of the sealing element recess (3) facing away from the opening. Magnetic anchor according to one or more of the preceding 5 claims, characterized in that the anchor body (2) at the opposite end also comprises a sealing element recess with a sealing element incorporated therein. Magnet anchor body (2) evidently intended for a magnet anchor according to one or more of claims 1-8. Sealing element (4) evidently intended for a magnetic anchor according to one or more of claims 1-8. 15 Electromagnetic valve at least comprising a valve body with a supply and a discharge and an electromagnetically operable magnetic armature for opening or interrupting the connection between the supply and the discharge, respectively, characterized in that the magnetic anchor has a magnetic armature (1) according to is one or more of claims 1-8. 1009348 '