DE627645C - Control device for electrically heated tubular pull-through ovens - Google Patents

Description

The invention relates to a control device for tubular pull-through furnaces, especially those for bright hardening of steel with a heating tube through which an electric current flows, which is divided into two or more sections is divided with a separate power supply. If you give these pipe sections with the same or unequal cross-section unequal length and at the same time that containing the entry end of the material to be drawn through Section has a lower electrical resistance than that containing the outlet end Section, so you can feed the sections from power sources with essentially the same voltage to the heating tube Supply a greater heating power per unit of length in the inlet section than in the Exit section. This is especially true in those. Pull-through yards desirable in which more sensitive types of steel, such as B. razor blade or spring band steel, are treated, to ensure that the item to be treated is heated as evenly as possible To secure the length of the heating pipe.

According to the invention, each of the individual heating pipe sections is on the secondary side connected to a transformer of practically the same secondary voltage, whereby from the transformers at least that which is the exit end of the pull-through material containing section feeds, in ab-

depending on the temperature prevailing in this section can be regulated automatically is. In this way, heating of the drawn-through material with as much as possible is achieved in a simple manner uniform temperature and at the same time a network load that is as uniform as possible of the individual transformers.

It is advisable to also use the transformer that has the inlet end of the Pull-through pipe 'containing pipe section feeds, to make it controllable by its Provides primary winding in a known manner with a number of taps that interact with a tap changer that can be operated manually, for example.

An embodiment of the invention is shown in the drawing. The drawing shows in a schematic manner the arrangement of an electric pull-through oven with a in two sections of different lengths subdivided heating pipe and each with one transformer assigned to both sections.

ι is that through which the electric current flows, made of a heat-resistant alloy, e.g. B. chrome-nickel steel, existing Pull-through oven heating pipe. The heating pipe is uniform over its entire length Cross-section. It is divided into two sections 2 and 3 of unequal length and accordingly unequal electrical resistance.

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stand divided. Section 2, which contains the entry end of the pull-through material, is much shorter than the section 3, which contains the exit end. Section 2 is connected by lines 4, 5 to the secondary winding 8 of a transformer 6, its primary winding 7 is provided with taps 9 and connected via a tap changer 10 a power line 11 is connected. A transformer 12 of equal power feeds the pipe section 3; for this purpose its secondary winding 14 is on the one hand through the lead 5 connected to the transformer winding 8 and on the other hand a supply line 15 is connected to the ends of the pipe section 3. The primary wick. treatment 13 of the transformer 12 is via a manually adjustable switch 16 and a electromagnetic switch 17 in the manner shown in the drawing to the Power line 11 connected. The electromagnetic Switch 17 has a magnet 18 which, under the influence of a coil 19 seeks to open the switch against the action of a spring 20. The coil 19 is in a circuit 21 connected to the power line 11, which is a temperature-sensitive Organ, for example a bimetal strip 22 contains. This organ is in the immediate vicinity Near the pipe section 3 arranged so that it opens the circuit 21, if the temperature of the pipe section 3 exceeds a predetermined value, and closes it again when the temperature has dropped accordingly. By the as a result occurring closure of the switch 17 becomes part of the primary turns 13 of the transformer .12 short-circuited so that the secondary voltage of the transformer is reduced - and that of the pipe section 3 supplied heating energy is reduced until the temperature contact closes 22 the switch 17 again - opens. The adjustable switch 16 allows the maximum heating power that is supplied to the pipe section 3, depending on the strength the types of pull-through and the size of the throughput, d. H. of the number drawn per hour Good thing to discontinue. By a multi-pole switch 23, the power line 11 is from the Power source can be switched off.

If, in the pull-through furnace described above, the heating pipe is covered with material to be pulled through and is heated by closing the power switch 23, it can be achieved by suitable setting of the step switch ίο and the manual switch 16 that after some time on the heating pipe ι one over the entire length of the The heating tube has a constant temperature. However, if during the passage of pulling the temperature of the outlet end of the goods-containing tube section rise above a predetermined value, opens the temperature switch 22. As a result, the coil e ₅ 19 of the electromagnetic switch 17 de-energized and the spring 20 pulls the switch 17 in the Closed position. This reduces the number of effective primary turns of the transformer 12, the voltage on the pipe section 3 and the heating energy which is supplied to this pipe section is reduced accordingly, until after some time the temperature switch 22 closes again, so that the transformer again delivers full tension.

Of course, instead of the temperature contact 22, other temperature-sensitive ones can also be used Switching devices, e.g. B. Use thermocouples in connection with switching relays. It is only essential that the heating power of the transformer 12 is automatically reduced when on section 3 a predetermined temperature is exceeded, and vice versa.

In order to keep the items to be treated bare, one can do so in a manner known per se Pass a non-oxidizing gas into the interior of the heating tube 1.

Claims (1)

Claim: Control device for electrically heated tubular pull-through ovens, their heating tube is divided into two or more sections with separate power supply, which have the same or different cross-sections have unequal length and of which the entry end of the pull-through material containing portion has a lower electrical resistance than the has the outlet end containing portion, characterized in that for Supply of the individual heating pipe sections from separate transformers the same secondary voltage are provided, of which at least that transformer, which the outlet end the section containing the material to be drawn through feeds, depending on the temperature prevailing in this section is automatically adjustable. 1 sheet of drawings