RU2013687C1 - Electrode boiler - Google Patents

Abstract

FIELD: steam generation. SUBSTANCE: interior of boiler contains additional vessel 10. Vessel 10 accommodates horizontally spaced flat electrodes 5 with holes connected at opposite sides by current leads 4. Lower face of bottom electrode 5 is made integral with flat electrode 6 having the shape of a square described into the hole of electrode 5. Central electrode 9 has the form of a short rod equal in height to the height of all flat electrodes 5. Current lead 7 is coated with a dielectric material. EFFECT: enhanced efficiency of steam generation. 2 dwg

Description

 The invention relates to electrode boilers designed to supply ironing equipment with steam at sewing enterprises in light industry, domestic and local industries, for domestic use, as well as in other industries using low pressure steam.

 Known electrode boiler containing equipped with pipes for supplying water and steam outlet housing, in the cavity of which are installed one above the other with a gap horizontal electrodes connected on opposite sides by current leads.

 The disadvantages of the known electrode boiler include its insufficient safety and electrical safety, which is expressed in the following.

So, at the starting moment when the boiler is cold and the water of the main water supplying quickly to it, the boiler cabinets cannot generate enough heat for rapid vaporization and self-regulation of the water level, as a result of which the excess water in the boiler turns into excess steam with high pressure;
Flat electrodes are cantilevered on the conductors and during their operation, the electrode gap can be violated, which is unsafe and can lead to a short circuit.

 The aim of the invention is to increase the efficiency of heating and electrical safety.

 This goal is achieved by the fact that the electrode boiler is equipped with an additional capacity located in its housing and connected to the water supply pipe, and an additional central electrode, and the horizontal electrodes are made with central holes, the lower side of the lower electrode being made in conjunction with another flat electrode having the form for example, a square inscribed in its hole, while the central phase electrode has the shape of a rod, equal in height to the height of all horizontal electrodes, and placed inside their holes, and its current lead, mounted in the upper part of the housing, is made with an insulating dielectric coating.

 In FIG. 1 shows a perspective view of an electrode boiler; in FIG. 2 is a bottom view of a block of electrodes.

 The electrode boiler contains a cylindrical horizontally located housing 1 with a heat-insulating coating 2. In the upper part of the housing 1 on the flange 3, two current wires 4 of zero potential are vertically fixed with flat electrodes 5 with holes horizontally spaced between them, with the lower electrode 5 to increase the heating surface made in conjunction with a flat electrode 6 having the shape of a square inscribed in the hole of the flat electrode 5.

 In the center of the flange 3 is also vertically arranged a phase current lead 7 having an insulating dielectric coating 8, which serves to prevent the destruction of current leads 4 and 7 during operation of the boiler. At the end of the phase current lead 7 is an electrode 9, which is a rod equal in height to the sum of the heights of the flat electrodes 5.

 The block of electrodes 5 and 9 is located with a certain gap k in a cylindrical tank 10, which is connected through a fitting 11 containing a calibrated hole a, to the main water supply. The electrode boiler also contains an electrically controlled valve 12 for supplying steam to the consumer, a safety valve 13, a pressure gauge 14, valve 15 for draining water with an increased density of electrolyte. In addition, there is a valve 16 for supplying water to the main water supply, a water filter 17, a permanent magnet 18, which contributes to the precipitation of various salts contained in the water, and an indicator light 19 for visually determining the density of the electrolyte, which is located on the casing 20 of the boiler.

 The electrode boiler operates as follows.

 When the boiler is turned on with the electric network, the valve 16 for supplying water to the main water supply opens. Through a calibrated hole a of the nozzle 11, water in a certain metered quantity enters the tank 10 and into the lower ring and end interelectrode gaps of the electrodes 5 and 7, where active heating and vaporization takes place. Excess hot water is poured over the edges of the tank 10 and enters the cavity of the boiler body 1, heating its bottom and walls. The steam pressure rises smoothly and through 3.. . 5 minutes through an electrically controlled valve 12 steam enters the consumer. When excess water enters the upper interelectrode gaps, a sharp increase in productivity occurs and the vapor pressure exceeds the pressure of the incoming main water. In this case, the excess water is displaced through the calibrated (by the boiler capacity) opening a of the fitting 11 until the equal pressure of the main water and steam is established. When steam is removed from the boiler cavity, its pressure decreases and water again enters the tank 10.

 Thus, a constant water level and operating steam pressure are automatically maintained in the electrode boiler.

 The location inside the electrodes 5 of zero potential (phase electrode 9) is achieved by reducing the current on the housing 1 of the boiler is ten times lower than the permissible, which ensures the safe operation of the proposed electrode boiler.

Claims (1)

 ELECTRODE BOILER, comprising a body equipped with water supply and steam outlet pipes, in the cavity of which horizontal electrodes with holes are mounted one above the other, connected to current conductors, characterized in that, in order to increase electrical safety and heating efficiency, it further comprises a capacitance and a central electrode with a current lead, the first of which is connected to the water supply pipe, is installed in the housing and all the indicated electrodes are placed in it, holes in the horizontal of which are made in their central Actually, the central electrode is made in the form of a rod having a height equal to the total height of the horizontal electrodes and located in the holes of the latter, and its current lead is fixed in the upper part of the casing and is provided with an insulating dielectric coating, the lower horizontal electrode being provided with a flat plate mainly in the form of a square, inscribed in the central hole of this electrode, the lower surface of which is located in the same plane with the upper surface of the lining.

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