DE371300C - Electromagnetic current limiter - Google Patents

Description

The invention relates to an electromagnetic current limiter which has an excessive To prevent the withdrawal of electricity by switching on too many lamps, whereby by switching a resistor on and off a decrease and increase of the ■ brightness of the lamps takes place. After switching off the too much switched on lamps occurs the current limiter is out of action and the lamps that are still switched on burn quietly.

The invention consists essentially in the special design of the current limiter and is best explained with reference to the drawing, which shows one embodiment of the innovation brings to representation, namely shows

Fig. Ι the device in the rest position, Fig. 2 with tightened anchors.

It denotes ι, ι the power grid, z, 2 the

Lamp circuit to the parallel connected

ao lamps 3. The safety device is connected in series with the conductor + 2. It consists of two coils 4, 4 ¹ . The cores 5, 5 ^{1 of} these coils each consist of a package of thin sheet metal disks. One end of the - (- conductor of the lamp circuit 2 leads to a terminal 6 and from there through the line 7 to the coil 4 and through this through the wire line 8 to the axis 9 of the armature 10. The armature 10 consists of a axis 9 pivotable metal rod. at the upper end there is disposed a guide piece 11, which ends up in right-angled bent part 12, while the sides, a tab projecting with a contact plate 13. When the armature 10 is not attracted by the coil 4 ^1, places the part 12 against the front, likewise bent part 15 of a metal spring 14. The armature 16 of the coil 4 has a laterally protruding stop 17 with contact plate 18 directed at the top against the armature 10. The armature 16 is rotatably mounted about a metal axis 19. Its deflection after backwards is through a

Adjusting screw 20 of a holder 21 attached to the coil 4 is limited.

With a normally loaded circuit, the current flows through terminal ü, wire 7, coil 4, wire 8, axis 9, parts 12 and 15, spring 14, j wire 22 to terminal 23 and from there further i into the lamp circuit 2, 2. Will the ■ lamp circuit is overloaded if z. B. too many lamps are switched on, the sheet metal core 5 of the coil 4 is sufficiently magnetic and thereby the armature 16 is attracted. During this movement, the attachment 17 with its contact plate 18 strikes the contact plate 13 of the attachment 11. The armature 10 receives an impact as a result, and the part 12 is lifted off the bend 15 of the metal spring 14. As long as both armatures remain in contact, the current flow is as follows: From terminal 6 through wire 7, coil 4, wire 8, axis 9, parts 13, 18, 16, axis 19, wire 24 to spring 14 and through wire 22 to Terminal 23. Because of this current curve, coil 4 remains excited. As a result of the impact, however, the armature 10 is thrown forward faster than it corresponds to the movement of the armature 16, and the two contact plates 18, 13 of the two armatures 16 and 10 are finally separated from one another. If, however, both contacts 12, 15 and 18, 13 are interrupted, the current no longer goes through the coil 4, but only through the bypass path from terminal 6 via wire 25 through the coil, which is always present but previously bridged by the path via the coil 4 4 ¹ , wire 26, resistor 27, wire 28 to terminal 23. As a result, resistor 27 is switched on in the lamp ^{circuit, and core 5 1 of} the now sufficiently excited coil e4 ^x still has an accelerating effect on armature 10, while armature 16 has fallen off. An adjusting screw 29 is connected to the armature 10, the flat head of which acts against an inclined surface 30 of a slide 31 which moves in guide strips 32 on the coil 4 ¹ . This slide 31 is now pushed up by the living force of the armature 10, increased by the force of attraction of the coil 4 ¹ . If the movement has stopped, then the slide 31 begins to sink again due to its weight and pushes the armature 10, against the weaker attraction of the coil 4 ¹ , back until the bent end 12 of the guide piece 11 again against the correspondingly bent end 15 of the Spring 14 pushes and thereby the current of the coil 4 is closed again and the resistor 27 is bridged again. The coil 4 then attracts its armature 16 again, and the game begins again, so that the lamps flicker. The game is repeated until the excessive load on circuit 2.2 is eliminated. The interruption spark is not formed between 12 and 15, but between contacts 18 and 13, which are specially provided for this purpose.

If the shock of the armature 16 has been very strong as a result of excessive current strength, so the slide 31 is also pushed up very violently, and the one on the slide Hook 33 engages the flat head of the screw 29, whereby the anchor 10 and also the slide be prevented from moving backwards. This achieves that nothing more takes place as a single interruption and the lamps are constantly burning dark. These However, the device is not part of the invention.

Claims (3)

Patent Claims: 1. Electromagnetic current limiter, characterized in that a magnet (4) attracts its armature (16) when overloaded, which ^{moves the armature (10) of a second magnet (4 1} ) and thereby interrupting the direct current path via the first magnet (4 ) to the consumers and the activation of the second magnet (4 ¹ J and a resistor (27) in the consumption current circuit until an energy store (31) filled by the armature (ro) of the second magnet (4 ¹ ) hits the armature as a result of its discharge (10) pushes back and thereby restores the initial state. 2. Embodiment according to claim 1, characterized in that the armature (10) of the second magnet (4 ¹ ) has a guide ungss piece (11) with an angularly bent part (12) which is against a corresponding angular bend (15) equipped metal spring (14) applies and forms the main switch. 3. Embodiment according to claim 2, characterized in that the armatures of the two magnets (4,4 ¹ ) with contacts (18, 13) bear provided stops which when the two armatures touch after opening the main switch (12, 15) to this Form a secondary path until they are separated from each other by the faster movement of the second armature (10) relative to the first armature (16) caused by the living force and thereby ^{switch on the second magnet (4 1} ) and the resistor (27). For this purpose ι sheet of drawings.