DE175128C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Yes 175 128 CLASS 21 h. GROUP

EDGARFIELDPRICE,

Electrode for electric ovens. Patented in the German Empire on March 22, 1905.

The present invention relates to one for electric ovens, in particular for Manufacture of calcium carbide, a specific electrode made up of several individual ones next to each other arranged rods made of carbon or artificial graphite, which in turn attach are attached to a common holder designed as a cooling chamber.

The previously usual attachment of the individual

ίο Electrode rods on the communal Holder, after which the upper ends of each rod with the bottom of the cooling chamber were screwed without entering them, proved to be disadvantageous in that it was a considerable amount Part of the heat from the reaction zone is transferred up to the metal electrode holder, whereby the Cooling of the electrode or of the individual rods is affected. This disadvantage is avoided according to the present invention that the individual, the electrodes forming and juxtaposed rods so in the common, as Cooling chamber formed holder 1 are attached that with its upper end on a enter a certain length in the chamber 3 of the holder 1 and so by the contained in this Coolant can be rinsed around. .

This arrangement turns out to be compared to the above-mentioned device, according to which the upper ends of the individual electrode rods screwed to the bottom of the cooling chamber are, without entering into this, very advantageous in so far as the resulting heat is immediate through the bare end of the electrode rods lying in the cooling chamber 3 or through the same receiving thin-walled sleeve 9 after the cooling liquid, such as water, is derived, so that a very effective cooling of the electrode BEZW. the individual Rods is effected.

The accompanying drawing shows an electrode according to the present invention. It shows:

Fig. Ι a vertical section through the upper part of a calcium carbide furnace Line I-I in Fig. 2,

Fig. 2 shows a cross section along line II-II in Fig. I,

3 shows a vertical section through one of the electrodes,

4 shows an electrode in side view, partly in section, and

FIG. 5 shows a cross section along line V-V in FIG. 4.

The electrode holder consists of a housing 1 which is closed on all sides and which is on its Surface with. a pierced approach 2 is provided. The latter serves as a clamp for the electrode in question. The housing chamber 3 is provided with an inlet pipe 4 and an outlet pipe 5 for the cooling water. see. Furthermore, a partition 6 extends in the chamber 3 from the upper floor down to close to the lower floor. The lower bottom of the housing 1 is with a

Number of threaded bores 7, each of which is for receiving a sleeve 8 is used. Each of these is threaded at its lower end and serves to hold one each for fastening the individual electrode rods io serving sleeve 9, which extends to a certain length in the sleeve 8 and from the in the sleeve 8 from the housing chamber 3 overflowing cooling water is washed around. That The upper end of each electrode rod 3 is advantageously provided with thread and with the associated sleeve 9, in which a corresponding thread is provided, screwed, whereby a good electrical contact is achieved. Since the cans 8 are after Short electrode rods can be used that extend down into the furnace chamber. the relatively weak graphite electrodes are not very robust and break very easily easy; furthermore, they become light because of the high temperature they experience during furnace operation reach, oxidized. The electrodes are therefore suitably known once protected against mechanical influences and at the same time also against oxidation. as It is advisable to use a fire-resistant cement between the individual Electrodes and around them, where as a carrier for this putty one placed around the individual electrode rods and with them in a suitable manner, connected light, thin metal mesh is used. This as a carrier of the fire-resistant Protective jacket 12 serving metal mesh 13 (Fig. 4 and 5) acts on the one hand as a reinforcement of the fire-resistant protective jacket and on the other hand ensures the firm adherence of the protective jacket, so that as soon as there are cracks in enter into it, do not fall away.

As can be seen from Fig. 3, the electrodes can in a known manner with a tightly fitting iron sleeve 14 are surrounded. The relevant electrode 10 is then advantageously coated beforehand with tar. Of the. Access of air to the concerned, in the The specified way reinforced graphite rod is then also completely excluded. That The upper end of the sleeve 14 is threaded and inserted into one provided in the sleeve 9 and threaded hole 11 are screwed in. In this way too the individual electrode rods are significantly reinforced and at the same time against oxidation ■ protected.

Claims (3)

Godfather sayings: 1. Electrode for electric ovens that made of individual rods made of carbon or artificial graphite arranged next to one another consists and in which the rods on a common, designed as a cooling chamber Holders are attached, characterized in that the individual electrode rods (10) in the bottom of the holder (1) provided with the cooling chamber (3) are attached that they are with their upper end to a certain length in the cooling chamber enter and so directly through the coolant contained in the chamber be washed around. 2. Electrode according to claim 1, characterized in that in the cooling chamber protruding. Electrode ends are stored in special sleeves (9), which in turn with bushes (8) to be screwed into the bottom of the common holder . are tightly connected. 3. Electrode according to claim 1 and 2, in which the individual electrode rods (10) are surrounded by a fire-resistant protective jacket, characterized in that as a carrier of the protective jacket (12) (a suitable chain or the like.) a the rods (10) stored around, suitably connected to this, light and thin metal net (13) is used. 1 sheet of drawings.