DE437551C - Device for monitoring the temperature of electric ovens - Google Patents

Description

Device for monitoring the temperature of electric ovens. It is a well-known phenomenon that metals and alloys with good magnetic conductivity like iron, steel and nickel, lose their magnetic conductivity at around 700 °. Devices for monitoring the temperature of ovens have also been proposed «-Order in which this property of magnetic metals and alloys is exploited will.

The subject of the invention is a particularly simple and expedient one Execution of such a monitoring device. The temperature of the oven will be monitored by an electromagnet, whose niagnetwickhing with the alternating current is excited. As long as the iron core has its high magnetic conductivity, only a small amount of current can flow through the magnet winding. It acts like a choke coil with high self-induction. However, the iron core loses at the critical temperature its magnetic conductivity, the excitation current of the magnet winding increases sharply at. According to the invention, this increase in the excitation current causes the shutdown or a reduction in the heat input after the furnace.

According to a particular embodiment of the invention, the temperature of the furnace monitored by a choke coil, whose Magnetic poles in protrude the boiler room of the furnace and exposed to a tear-off force by one Anchors are bridged. The winding of the choke coil is with the trip coil a switch connected in series, which is used to interrupt the heat supply serves the oven. Usually the armature is opposed by the poles of the inductor the tear-off force held. However, as soon as the temperature exceeds a certain limit, the armature becomes non-magnetic and under the effect of the pull-off force from the poles torn loose. This interrupts the iron path, with the result that the excitation current grows rapidly in the coil.

The trip coil of the switch to interrupt the heat supply is adjusted so that they are at the normal. Excitation current value does not respond, on the other hand, when this current increases, the switch is actuated.

In the drawing, an embodiment of the invention is for example shown, Fig. i shows schematically the overall arrangement with a section through the furnace, Fig. 2 a section through the plane A-B of Fig. i.

The steel block 13 is placed in the glow space 12 of the furnace i i. With the help of the heating resistors 1q. heated to that temperature in which the structure of the steel is changed. With the same The steel loses its high magnetic conductivity. Once this Temperature is reached, the heating resistors i ¢ should be switched off to a To prevent overheating of the steel.

The temperature of the furnace is monitored by a choke coil with the excitation winding 15 and the iron core 16. The poles 17, i 8 of the iron core are led through the openings i9 into the glow space 12. They consist of L-shaped rods that are detachably attached to the iron core 16. The poles 17, 18 are bridged by the armature 2o. It is clamped in the clamp 21, which is rotatably mounted at 22. The compressed spring 23 seeks to tear the armature away from the poles. The rods 17, 18 and the armature 2o consist of the same material as the body 13 which is exposed to the annealing process.

With the winding 15 of the choke coil is the trip coil 24 of the switch 25 connected in series and connected to the alternating current network 26, 27, which also the heating resistors 1q. feeds. The device works in the following way: As long as Poles 17, i8 hold the critical temperature in the furnace the armature 2o against the force of the spring23, and in the windings 15 and 24 only a relatively small current flows. As soon as the critical temperature is reached is, the spring 23 tears loose the armature 2o and thereby interrupts the iron path of the Choke coil. As a result, the self-induction of the winding 15 is strongly depressed and the resistance of the AC circuit 15, 2q. scaled down so that the current increases in this circle. Due to the increase in current, the tripping magnet 2q. to address brought. He opens the switch 25 and thereby interrupts the heating circuit.

Claims (3)

PATENT CLAIMS: i. Device for monitoring the temperature of electric ovens with an electromagnet whose iron core is at a certain Temperature is non-magnetic, characterized in that the iron core of a is magnetized with alternating current excited winding, and that the increase in excitation current, which is caused by the iron core becoming non-magnetic, the shutdown or a reduction in the heat input after the furnace. 2. Device according to claim i with a switch operated by a release coil to interrupt the heat supply, characterized by a choke coil whose magnetic poles are in the. Boiler room of the furnace protrude and are bridged by an anchor exposed to a tear-off force and whose winding is in series with the trip coil of the switch and to an AC power source connected. 3. Apparatus according to claim 2 for monitoring the temperature of furnaces used to heat steel or iron, characterized in that that the pole and the armature are made of the same material as the heated object. q .. Device according to claim i. characterized in that the pole and the armature of the electromagnet are interchangeable.