SU709696A1 - Device for salt bath start-up - Google Patents

Description

The invention relates to electric heating devices used to heat electric salt baths and stoves. A device for starting a solar electric furnace is known, consisting of a body, electrodes and an electrode with a mustache 1 fixed on it. Before the furnace is cooled down, the upper electrode, a mustache, is immersed in the liquid mass of the melt so that it somewhat rises above the surface of the melt. Free end immersed in. The electrode melt is connected to one of the furnace main electrodes. The electrode is set so that it is free & The ends of the whisker electrodes, immersed in the melt, are directed toward the other main electrodes of the furnace. The disadvantages of this device are the inability to change the interelectrode distance, the relatively slow heating of the salt, because the salt is hard and the conductor of electricity is difficult to maintain. It is also known a salt bath start-up device comprising a housing, current leads connected to the electrodes, and a resistance heater connecting two electrodes 2. The disadvantages of this device include the inability to adjust the interelectrode distance and the slow heating of the salt. The aim of the invention is to ensure uniform heating of the salt. The goal is achieved by arranging the electrodes horizontally and performing them with the possibility of rotation in the horizontal plane and vertical movement. FIG. 1 shows the proposed device, a cross-section; in fig. 2 is the same; the section along A-A in FIG. 1. The device comprises a steel lined case 1, electrodes 2 fixed on the lower ends of the current leads 3, and a resistance heater 4, which is a curved nichrome tape, one end of which is welded to one middle electrode and the other to another. Electrode 2 is made up of three plates with holes cut from sheet metal and welded into a single beam. A dotted steel bushing 5 with a tapered bore is inserted and welded into the hole of the beam, the lower tapered end of the current lead-in drive 3 is inserted into the hole. This current lead is a circular round steel rod that is passed through the housing 1 and hermetically sealed with an oil seal 6, as well as electrically insulated from the steel case 1 by the sleeve 7 and the liner 8. In the upper part of the current collector there is a deep hole in which a special key is inserted in order to turn the current supply, and with it the electrodes in the horizontal plane awes In addition, the oil seal is loose, can be adjusted

the depth of the electrodes. The upper end of the current outgoing from the electrolytic cell has a cold opening with a thread into which a welded plug is inserted with two fittings for supplying and discharging the refrigerant.

The device works as follows.,

When the device is started up, after loading it with salt, the current leads 3 are supplied. voltage from power transformers feeding the device. The current then passes through the middle conductors and the resistance heater 4, which melts the salt. After the salt is melted in the lower zone and the molten salt is molded by the electrodes 2, which are located horizontally, the transformers are switched so that the current passes through the current-conducting wires, the electrodes and the salt. Resistance heater 4 is not working at this time.

With an increase in the conductivity of the salt as it melts, the electrodes rotate, increasing the interelectrode distance. The rotation is carried out with a special key due to the rotation of the current supply around its axis, and with it the electrodes.

To maintain the uniform heating of the salt, the current conductors are lifted, pre-loosened the gland, and the electrode heaters are installed at a certain depth. At the end of the work, the electrodes are lowered to the bottom and reduce the interelectrode distance.

Claims (2)

1. USSR author's certificate number 374376, cl. From 21 J) 1/46, 1970. 2. USSR author's certificate number 464628, cl. C 21 L 1/46, 1973.