DE581459C - Electromagnet with pole shoe attachments, which absorb lines of force perpendicular to the direction of movement - Google Patents

Description

Electromagnet with pole piece approaches, which lines of force perpendicular to the Record direction of movement With electromagnets, especially with those that are used for If relay purposes are used, the so-called decline ratio plays an important role Role. This ratio is the quotient of the number of ampere-turns at which the anchor is attracted, and the one with which it is released again.

This ratio of decline is now influenced by a number of circumstances which are not so precisely controlled from the outset during manufacture let that the finished electromagnet always has the desired decrease ratio.

The invention now seeks the decline ratio through adjustable To be able to set parts on the finished electromagnet. One has. adjustable parts have already been used in electromagnets. But these were arranged in such a way that the total magnetic resistance is changed, so that a weaker or stronger magnetization occurs. As a result, moving the @ Share the total tensile force on the anchor both when tightened and when fallen anchor changed. This means that the decline ratio cannot to be influenced. In order to achieve this, however, are with an electromagnet with pole shoe attachments. which absorb lines of force perpendicular to the direction of movement, according to the invention, these approaches adjustable in such a way that the decrease ratio can be changed with essentially the same tightening force. This can the ratio of the magnet core in the direction of movement when the armature is attracted exiting lines of force to the lines of force exiting perpendicular to the armature movement be changed. Because the lines of force exiting perpendicular to the direction of movement no force in the direction of movement. evoke is through magnification this part of the system only reduces the holding force. As a result, will The holding force can be adjusted as required with an almost constant tightening force. This has the advantage that in the manufacture of the magnet to its later use no consideration needs to be taken and that the decline ratio, which is very important for the characteristics of the relay, the operating conditions can be customized.

An embodiment of the invention in a relay magnet shows Fig.i. In this, i is an electromagnet, 2 an armature rotatable about axis 3, q. a pole piece adjustable against the armature 2, which is shaped so that -he as soon as the anchor is attached to the magnet approaches, to some extent, one Part of the lines of force deflects so that the same for the tensile force in the direction of the Anchor movement is lost by giving it a direction that has a pulling force exerts in the direction of the axis of rotation and therefore does not generate any torque. Another Embodiment is shown in Fig. 2, in which instead of one on the front side of the armature attached adjustable pole piece two laterally applied to the armature Pole shoes, also labeled, are provided. In both embodiments described When the armature is tightened, the pole shoes come to the point where the winding is made of the magnet wont to be arranged, so that when this winding is arranged on the pole pieces Consideration must be given.

This restriction of the changing space is made possible by the embodiment avoided according to Fig. 3. In this embodiment, the pole piece 4 is in a slot of the armature 2 inserted, and the opposite magnetic pole is also slotted arranged.

Except for relay magnets, the invention can also be used for lifting magnets find, as can be seen in the solenoid shown in Fig. 4, in principle is designed exactly like the relay magnet in Fig. 3.

The adjustable pole pieces according to the invention can be any Preserved shape, which gives both the pull force curve of the magnet and the drop ratio can be largely influenced. It is another great advantage of the invention, that this influence on the finished magnet can only be achieved by changing or replacing relatively incidental, easily removable parts.

Instead of the adjustable pole piece on the free end of the armature one To attach folding magnets or to the free pole, you can advantageously use an adjustable one Also attach the pole piece to the pivoted end of the armature and arrange it in such a way that that made more difficult by the armature movement of the line of force transition from the armature to the magnet will. As the line of force transition becomes more difficult, there is usually a dem Train at the free pole counteracting force, which is also used to regulate the decline ratio can be exploited. An embodiment of this inventive concept is shown in Fig. 5. Inside, i is an electromagnet, 2 an armature rotatable about axis 3, 4 an iron disk made of magnetic material, which the air space between the armature 2 and the magnet i bridged. This disk can be adjusted against the armature 2 by means of a screw 5. If the armature 2 is attracted by the magnet, the disk 4 moves with and leads to a deterioration in the magnetic circuit between magnet i and armature 2, in different sizes, depending on the setting of the disc, since there is a torque opposite to the tension at the free armature pole, the size of which is also changed within wide limits by adjusting the disc 4 can be.

Claims (6)

PATENT CLAIMS: i. Electromagnet with pole pieces, which lines of force record perpendicular to the direction of movement, characterized in that the approaches are adjustable in such a way that the decrease ratio remains essentially the same Tightening force can be changed. 2. Electromagnet according to claim i, characterized in that that an adjustable pole piece (4) is arranged on the end face of the armature (2) is (Fig. i). 3. Electromagnet according to claim i, characterized in that the Side surfaces of the armature (2) adjustable pole pieces (4) are arranged (Fig.2). 4. Electromagnet according to claim i, characterized in that in a slot of the Armature an adjustable pole piece is arranged and that the associated magnetic pole also has a slot into which the pole piece is pulled (Fig. 3). 5. Electromagnet according to claim i, in particular lifting magnet, characterized in that that an adjustable pole piece (4) is arranged on the return iron (i) (Fig.4). 6. Electromagnet according to claim i with a hinged armature, characterized in that on rotatably mounted end of the hinged anchor, one connected to the anchor and against him adjustable iron piece (4) is arranged, which in the air gap between the armature and magnet is moved.