DE411464C - Vessel with a capsule attached to the bottom and receiving an electrode heater - Google Patents

Description

Vessel with an electrode heater attached to the bottom Capsule. The present invention has an improvement to those vessels with am Floor-mounted electrode heaters to the subject, in which by evaporation of liquid on the one hand a certain maximum temperature and a certain pressure achieved, on the other hand, when the required degree of heat and pressure is reached Power is switched off automatically.

By according to the invention compared to the known vessels of this The type of improvement sought is the one that supports the electrode heater Capsule on the vessel easily exchangeable, to be arranged in such a way that in this A vapor tension of up to several atmospheres pressure without the risk of leaks generated and also the electrode heater without any particular inconvenience in already known facilities can be installed. This is achieved in that the capsule is provided with a removable bottom consisting of one with its Zargenflansch on the inside of the ring shoulder resting sleeve and a against the ring shoulder from the outside bracing abutment cover el, whereby the sleeve as a carrier of those carrying the electrodes. and parts connecting to the supply lines serves.

Such a vessel with an electrode heater attached to the bottom The receiving capsule is shown in an exemplary manner on the accompanying drawing Embodiment illustrated in vertical longitudinal section.

The opening provided with an annular flange 3 is in the bottom opening of the boiler i Capsule a is suspended and screwed tightly to the boiler through the threaded ring 5, while by soldering the threaded ring to the boiler Floor one complete sealing is achieved. The capsule 2, which is open at the bottom, has a ring shoulder 6 provided on which a sealing ring 7 rests against which the annular flange 8 with its right-angled downwardly bent ring frame 9 of the threaded sleeve io is pressed. The pressing is done by the screw nut i i with the interposition an annular cover designed as an abutment and pushed onto the threaded sleeve i z, which is against the annular shoulder 6 of the capsule 2 of. outside. The upper of the two electrodes 1.1, 15 housed inside the capsule, which are made of carbon or graphite, is through the bolt 16 and the leaf spring 17 with the one End of the outer lead. While the lower electrode 15 is connected to the other End of the outer lead through the sleeve 18, the upper end of which is the electrode body 15 freely penetrated in a hole and which is with a flange i 9 from below applies against this, is conductively connected. The bolt 16 and the sleeve 18 are among themselves and with respect to the metallic parts of the electrode container by suitable non-conductive materials 2o, 21 insulated. The bolt 16, which is connected to its collar 22 rests against the end face of the sleeve 18 by tightening the screw nut 23 held against the latter, while the sleeve 18 after tightening the Nut 24 rests firmly against the socket io with its flange i9. The two Electrodes 1q., 15, which by suitable non-conductive pieces 25 made of glass, mica o. The like. Are held at a certain distance 26 from each other and from which the lower rests on the flange i 9, are by the leaf spring 17 in their mutual position secured, and by tightening the nut 27 can the Tension of the leaf spring 17 can be regulated accordingly. The top electrode 1.1 has a conical recess 28, and over this is the opening of a Funnel 29, whose curved guide walls to a certain extent the continuation of the recess 28 form. The funnel 29, which is designed as a sieve in its upper part 30, rests in an annular shoulder 31 of the capsule 2.

The mode of operation of the device is now as follows: The water in the capsule 2 is heated in the space 26 between the two electrodes 14, 15 when the electric current passes and is gradually evaporated. The vapor bubbles that form escape towards the outer edge of the electrodes and are forced out by the lower temperature water that is forced in the funnel 29 and the recess 28. The vapor bubbles escaping from the electrodes pass through the annular sieve 30 into the container i. This circuit achieves uniform cooling of the electrodes and thus uniform power consumption.

The regulation of the power supply as well as the automatic shutdown the stroma is achieved by the simple measure that in the container a previously precisely measured amount of liquid is introduced. After evaporation the liquid is automatically switched off, as is well known the steam is a very poor conductor and prevents the passage of electricity. By the subsequent cooling of the radiator when the power supply is interrupted is a Part of the steam is knocked down again and the circuit is closed again for so long until pressure and heat have again reached the predetermined level.

The area of use for such electrode heating elements extends mainly on vulcanizing devices for which a certain pressure and a certain degree of warmth are a prerequisite, furthermore on distillation and sterilization devices and the like

Claims (2)

PATENT CLAIMS: i. Vessel with an electrode heater attached to the bottom receiving capsule, characterized in that the capsule (2) with a removable Bottom is provided, consisting of one with its' Zargenflansch (9) on the inside the ring shoulder (6) fitting sleeve (io) and one against the ring shoulder from the outside bracing abutment cover (12), the sleeve as a carrier of the Electrode-carrying parts (16 to 18) which connect to the supply lines are used. 2. A vessel according to claim i, characterized in that the upper of the two electrodes (14, 15) is provided with a funnel-shaped recess (28) over which the opening of a funnel (29) suspended on the edge of the capsule, whose Guide wall on its upper part perforations to form an annular sieve (3o) owns.