DE3539341A1 - Electromagnet - Google Patents

Abstract

An electromagnet is characterised in that the core consists of at least two parts (1, 2) which are electrically insulated from one another. In this case, each part has an electrical connection (6), the one winding end (8) of the coil (7) which encloses the two parts (1, 2) of the core being conductively connected to one part (2), and the other winding end (9) being conductively connected to the other part. <IMAGE>

Description

Title: ELECTROMAGNET

Electromagnet The present invention relates to an electromagnet.

Electromagnets are varying in a large number; technical Applied interrelationships, inter alia, in relays for electrical circuits in vehicles.

With regard to mass production in the automotive industry, of electrical relays, for example, efforts are made to keep the unit costs low hold, at the same time as a reliable function is sought. This requires that the relay should consist of a small number of simple parts that are cheap are to be manufactured and assembled. The electromagnet according to the invention should i.a. be included in such a relay and is characterized in that it consists of simple parts that are easy to manufacture and assemble, at the same time as the electromagnet in a very simple and unique way in the relay when mounting this can be connected.

The invention is illustrated in more detail in the form of examples with reference to the drawing to be discribed. FIG. 1 shows a schematic exploded view of the in the electromagnet containing a core made of iron, for example, Fig. 2 schematically shows the electromagnet in assembled condition and Fis. 3 shows an enlarged partial section of a detail the invention.

1 and 2 denote iron sheets contained in the core of the electromagnet with a certain, appropriately chosen thickness. 3 denotes an electric insulating film, e.g.

from "MOLAR". Parts 1 and 2 are the same and in the assembled state of the core is mirror-inverted, as can be clearly seen from FIGS. 1 and 2. Basically the part in question has the shape of an H, with the lower part of the stack at 4 is extended and there forms an electrical connection. There is also a part the stack width cut away at 5. The bottom of the other stack of the relevant Parts 1 and 2 have an incision 6. When assembling parts 1 and 2 together with the electrically insulating layer 3 between the parts becomes the one with the incision 6 provided part of the end of the stack of one part lie outside and from the end of the stack of the other sheet metal part are not covered, the undercut at this end of the stack 5 shows. In Fig. 2, the assembled electromagnet is shown in perspective, wherein the winding is indicated schematically with 7. One end is 8 of the winding with one core part 2 and the other end 9 of the winding with the other core part 1 connected. The connection in question is arranged in such a way that, for example, the end 8 of the conductor contained in the winding 7 with insulation inserted into the incision 6 is, after which the material of the iron part is upset and thus clamps the conductor.

In the example shown, the upsetting is preferably carried out by the Applying a force in the direction of arrow P in Fig.

1. The incision 6, see Fig. 3, has a wedge-like cross section formed »whereby the edges 10 cut through the insulating layer of the conductor. This creates contact between the iron part and the conductor. By doing that at the same time the conductor, as seen in Fig. 3, runs out to the right, i.e. the end of the Ladder is on the left side of the iron part 1 (2), becomes an automatic Reduce the stress concentration of the conductor where this is the iron part leaves what eliminates fatigue breakage in the conductor in the event of vibrations or the like.

Alternatively, the incision can be seen in cross-section with parallel lines Walls can be made, and instead the upsetting can be done with an oblique Force take place, so that the walls of the incision 6 when upsetting in cross section are seen to take a mutually inclined direction.

The effect becomes the same as that described in FIG. 3.

When mounting the electromagnet in a relay, preferably the extended connections 4 in connections intended for this purpose, e.g. in the bottom side of the relay. The connections are automatically connected or are soldered to the control circuit intended for the relay. This means, that one part 1 of the iron core itself is the electrical contact of the magnetic ration current the winding 7 and the other iron part 2 forms the other contact of the winding.

As can be easily seen when mounting the electromagnet in a relay no special fastening of the magnet and special connections the activation of the coil. The electromagnet is in the process of being attached automatically ready for operation in the relay.

Instead of e.g. holes in the bottom of the relay and soldering the connections 4 these can be designed as flat pins that are directly attached to the mount are clear to be pressed down into the flat pin contacts permanently mounted in the relay.

It should also be understood that the design and form of the electromagnet can be varied within the scope of the invention, as this is from is based on the following claims, and the electromagnet is not limited to to be built up only by two iron sheets. The main thing is that the intended Function is preserved.

- blank page -

Claims (7)

PATENT CLAIMS Electromagnet, therefore not marked, that the core of at least two electrically isolated from each other Share (1, 2) consists that each part has an electrical connection conclusion (6) has t and that one thing Winding end (8) of the coil surrounding the two parts (1, 2) of the core the one part (2) and the other end of the winding (9) with the other part (1) conductive connected is. 2. Electromagnet according to claim 1, characterized in that g e k e n n -z e i c h n e t that the relevant part (1, 2) has the shape of an H, its lower end of the stack forms the electrical connection (4) of the part, 3. Electromagnet after Claim 2, characterized in that during the assembly of the parts (1, 2) to each other with an intermediate, the parts from each other electrically insulating layer (3) there is a connection (4) at the lower end of each stack. 4. Electromagnet according to one of the preceding claims, characterized it is not noted that the relevant electrical connection (4) is like a flat pin contact is formed. 5. Electromagnet according to the preceding claims, characterized g e k It is noted that the relevant part (1, 2) is made of sheet metal is made. 6. Electromagnet according to claim 5, characterized in that g e k e n n -z e i c h n e t that the part in question (1, 2) with an open, in one edge of the part (1, 2) opening incision (6) is provided, in which the line end (8, 9) is arranged and is fixed in that the material of the part (1, 2) in the region of the incision is upset. 7. Electromagnet according to claim 6, characterized in that g e k e n n -z e i c h n e t that the incision (6), seen in cross section, tends towards one another in a wedge-like manner Has walls.