SE511847C2 - ELECTROMAGNET - Google Patents

Abstract

Electromagnet comprising a moveable part, i.e. a "plunger", shaped as a flap (5) which closes a magnetic circuit when a current flows through a coil (1) enclosing at least a portion of the circuit, i.e. the "core" (3), which is arranged on a base surface (4). The magnetic circuit comprises contact means (3, 8) shaped as tongues or the like, which are stamped out in the flap (5) and the base surface (4) respectively. The shape of the tongues may differ for different applications. The electromagnet may preferably be designed for blocking or locking functions.

Description

The object of the invention is to provide an electromagnet which does not have the stated disadvantages.

Brief description of the invention The electromagnet according to the invention is characterized in that the magnetic circuit comprises a support surface, or bottom, in which a magnetic contact part is formed for co-operation with a magnetic contact part of a moving part. The movable part consists of a flap which is rotatably arranged at at least one wall which is connected to said bottom. Said contact parts are intended to correspond to the plunger and core according to the prior art.

The electromagnet according to the invention exhibits a low friction during the oscillation of the moving part, regardless of the direction of loading and the size of the load, even with relatively large manufacturing tolerances of the components included.

An additional advantage of an electromagnet according to the invention is that it has very good mechanical strength and that it, for example as a blocking element, can have a large mechanical load while maintaining low friction.

The electromagnet according to the invention also has the advantage that it is cheap and easy to manufacture, and that it is reliable and easy to modify for various applications.

Additional features of the electromagnet according to the invention appear from the appended claims. Description of the drawings The electromagnet according to the invention is described in more detail below with reference to the accompanying drawings, in which: Figure 1 shows an electromagnet according to the prior art, Figure 2 a, b, c schematically shows an embodiment according to the invention, Figure 3 a, b schematically shows an articulated fastening device for connecting a flap to a wall, Figure 4 a - e shows different embodiments of magnetic contact parts, Figure 5 a, b, c shows an embodiment according to the invention with your flaps.

Description of embodiments Figure 1 denotes a winding, or current coil, which surrounds a coil body, i.e. a bobbin 2. Inside the bobbin 2 there is a core of magnetic material 3, which core is attached at its outer end to a bracket 4 of magnetically conductive material. . Inside the bobbin 2 there is also a plunge 5 which is movable along the axis of the bobbin. A maximum air gap can be reached between the core 3 and the plunger 5. The plunger 5 passes through an opening or the like at the other end of the jumper 4 and there is a small air gap B between the plunger 5 and the jumper 4. The plunger 5 runs inside the bobbin 2 with a small clearance between the plunger and the bobbin.

When current flows through the coil, a magnetic force arises which tries to close the magnetic circuit consisting of core 3, plunger 5 and jumper 4, the plunger being pulled towards the core so that the air gap A disappears.

The electromagnet shown in Figure 1 is generally known, although its design may vary.

The electromagnet shown in Figure 2 according to the invention is especially intended for use in connection with blocking and locking functions, such as for instance in electric locks for a fuel filler flap, for locking gear lever racks and similar uses in vehicles. However, the invention is not limited to these uses.

Figure 2 a, b, c thus shows an electromagnet according to the invention, where details with the same function as those in Figure 1 have the same designations. In a housing, or a box 4 or other construction, of magnetically conductive material, a magnetic contact part, a "magnetic core", 3 is surrounded by a bobbin 2 with current coil 1. A flap 5, or other rotatably arranged movable member, a "plunge" ", is arranged at a wall, or two opposite walls, of the box 4 by means of an articulated fastening device, for example of the hinge type. Suitably, projecting parts 6 are provided at opposite sides of the flap 5 which can cooperate with and slide into corresponding wall recesses 7 in at least one wall of the box so that the flap 5 can be swung up and down in this "hinge". Other types of fasteners for the flap are conceivable. Likewise, other types of coil arrangements are conceivable.

The movable part, or claw, 4 is intended to work wholly or to some extent between the walls of the drawer in order to achieve the magnetic return which is normally required in magnetic circuits.

In order to limit the upward movement of the movable part 5, a sound-absorbing stop device 9 is suitably arranged at the upper edge of the box 4. The "stroke" of the movable part (see arrows in Figure 2a) extends in the embodiment shown between the stop device 9 and the upper part of the bobbin 2.

Conveniently, a return spring can be applied to the movable part 5 (not shown) so that the movable part can regain its open position when current no longer passes through the coil. In the present embodiment, the flap 5 thus consists of a "lid" for the box 4, or a part of a lid, in which lid a tongue 8 has been punched out. This tongue. the "plunger" has then been bent downwards in order to be magnetized during current passage of the coil, and pulled towards a corresponding tongue 3, the "core", which is formed in the bottom of the box and which is bent upwards. The tongue 3 at the bottom of the box projects into the bobbin 2 with the current coil 1.

The tongues can be arcuate (see fi gur4b) or be designed with an angled contact edge (see fi gur4c). Contact means can also be arranged with a U-shape (see Figure 4d) or with cooperating M and V shapes (see Figure 4e) or in some other way where two surfaces can come into close contact with each other. By folding the material or by applying additional materials desired configurations, larger and smaller magnetic feats can be obtained. Through different designs of the magnetic contact parts, different magnetic characteristics can thus be obtained. Punching of tongues is a cheap method that magnetically offers many possibilities for variation. Figure 2b shows the typical forces C and D to which the flap is subjected when it is used as a blocking part or the like.

Figures 3 a and b show how the projecting parts 6 of the flap 5 interact with the recesses 7 in the wall. In Figure 5, the flap 5 is most loaded in the direction of the arrow, the flap being rotated about the center of rotation X. In Figure 3b, the flap is most loaded in the opposite direction, so the flap is rotated about the center of rotation Y.

Through different loads in the direction of the arrows C and D (see Figure 2b) or combinations of these directions, a function is obtained in the "hinge" according to Figures 3a and 3b. Regardless of which combination of loads the flap is subjected to, we will get a "tipping" of the flap against any part of the recess's 7 walls. This means that the friction at the center of rotation of the flap will be low even at large loads and regardless of the load direction and also at relatively large manufacturing tolerances of the parts 6 and 7.

The electromagnet according to the invention thus does not have the problem of locking the movable part during lateral loading.

Figure 5 shows schematically how the same technology is used to provide magnetic devices with fl your coils (not shown). Fig. 5 indicates a type of bistable magnet device in which the holding function in the respective position is achieved 511 847 6 hl 'by permanent magnets 10. As an alternative, flaps 5 can be provided with holding springs or pressure springs (not shown) can be arranged in connection with the flap ends.

Claims (6)

1. 0 I \ J Ut Vf 3511 847 PATENTKRAV 1. Electromagnet comprising a movable part (5) which closes a magnetic circuit (3, 4, 5) when a current passes through a coil (1) surrounding at least a part of the circuit, the magnetic circuit comprising a support surface or bottom in which is formed a magnetic contact part (3) for co-operation with a magnetic contact part (8) of the movable part (5), which is constituted by a flap which is rotatably arranged (6, 7) at at least two walls, which are connected to said bottom , the contact parts being designed as tongues or the like, characterized in that the contact parts are punched out and possibly angled towards each other, at the bottom and in the flap respectively. Electromagnet according to Claim 1, characterized in that the contact parts (8, 3) are arcuate, or formed with an angled contact edge, or U-shaped, or cooperating M- or V-shaped. (See Fig. 4 a-e) The electromagnet according to any one of claims 1-2, characterized in that the flap (5) has projecting parts (6) for cooperating with recesses in said walls to form hinges. Electromagnet according to one of Claims 1 to 3, characterized in that the magnetic circuit (3, 4, 5) comprises a box-like member, in which a bobbin (2) with a current coil (1) is arranged on the bottom, into which the bobbin ( 2) said contact part extends and, in the case of a closed magnetic circuit, has contact with the contact part (8) of the flap (5), which is fastened to one or two of the walls of the box by means of hinge means (6, 7). Electromagnet according to Claim 4, characterized in that the movement of the flap (5) from the contact part (3) at the bottom is limited by sound-absorbing stop devices (9) arranged at a box wall. 51 1 8 4 7 5 I Electromagnet according to one of the preceding claims, characterized in that two oppositely facing flaps (5) with magnetic contact parts, which are rotatably arranged in a hinge device (6, 7), form a bistable magnetic device when a current alternates through at least two coils. comprising magnetic contact parts (3) and the two magnetic circuits are closed alternately.