RU18439U1 - TWO-CIRCUIT SELF-ADJUSTABLE ELECTRODE ELECTRIC HEATER - Google Patents

Abstract

A dual-circuit self-regulating electrode heater containing a sealed housing with inlet and outlet nozzles and a heating chamber installed in it, in which electrodes connected to a power source are located, characterized in that the heating chamber is sealed and a pressure gauge with an adjustable valve.

Description

TWO-CIRCUIT SELF-ADJUSTABLE ELECTRODE ELECTRIC HEATER

The utility model relates to electrical engineering, in particular to devices for electrode heating of liquids, and can be used in autonomous heating systems for houses, greenhouses, for producing hot water for domestic needs, as well as in production processes where the technology provides heating of aggreasing and aggressive liquids.

Known electrode fluid heater (US Pat. Mb 2127029. MKII H05B - 3/60, op.27.02.99,), containing a sealed housing with inlet and outlet pipes and two heating elements - electrodes.

The disadvantage of the heater is that in it the electrodes are directly in the heated water, constantly updated, where the salt concentration changes, salt is deposited on the electrodes and scale appears, which causes the heater to become unstable, causing noise. At a high salt concentration, a short circuit mode can be created in which a very large current flows through the electrodes, which can lead to electrode failure. The features provided in the heater for combating scale and salt deposition do not completely eliminate them and complicate its design. When boiling liquid in the heater, the level of mind rises significantly. In addition, this heater does not allow

F 24 H-1/20 HOSB-360

heating of flammable and corrosive liquids.

Closest to the claimed technical essence is a self-adjusting electrode electric heater (US Pat. No. 2095700, MKI F 24 N - i / 20, H05B -3/60, on Л 0.11.97), containing a sealed housing with inlet and outlet pipes and installed in it, open from below, a heating chamber in which the electrodes are located.

The heater has the disadvantage that the electrodes are located directly in the heated water, constantly updated, where the salt concentration changes, salt precipitates on the electrodes and scale appears, which causes the heater to become unstable, and causes a high noise level, which increases significantly when the liquid boils in the heater, as well as at a high salt concentration, a short circuit mode can be created in which a very large current flows through the electrodes, which can lead to an output out of order electrodes. In addition, this heater must not be used to heat aggressive and flammable liquids.

The utility model is based on the task of creating a technological electric heater with wide functional capabilities through the use of a dual-circuit heating system, with high technical and operational indicators, a long service life and high operational safety.

The problem is solved in that in a double-circuit self-regulating electrode heater containing a sealed housing with inlet and outlet pipes and a heating chamber installed in it, in which the electrodes connected to a power source are located,

The heating chamber and power supply additionally include a pressure gauge with an adjustable valve.

A comparative analysis of the inventive heater with the prototype (naTJNfe 2095700) allows us to conclude that the inventive heater differs from the known ones using a dual-circuit fluid heating system, which is not known from the prior art.

The use of a sealed heating chamber inside the housing, inside which are electrodes immersed in a small volume of liquid, isolates the electrodes from the heated fluid flowing in the second circuit, which eliminates the dependence of the heater's operating mode on the chemical composition of the latter, which makes it possible to heat aggressive and flammable liquids , Elimination of the dependence on the concentration of salts in the liquid eliminates the deposition of salts and scale on the electrodes, significantly reducing the level of the noise of the heater and increasing the life of the electrodes and the entire heater as a whole. The presence of a sealed heating chamber (or primary circuit) virtually eliminates the noise when the liquid boils in it due to its isolation from the external environment by the secondary circuit.

An additional connection of the pressure gauge allows self-regulation of the current strength in the electrodes and the temperature in the heating chamber depending on the vapor pressure in it.

The use of a mechanical pressure control valve ensures the pressure level in the heating chamber of the internal circuit in case of mechanical damage to the pressure gauge, which guarantees the reliability and safety of the heater.

mechanical pressure control valve, is sufficient to solve the problem.

The inventive electric heater is illustrated in figure 1.

A dual-circuit self-regulating electrode fluid heater consists of a sealed housing 1 with input 2 and output 3 nozzles, Inside the housing I there is a sealed heating chamber 4, where the electrodes are connected to the power source 6, between the heating chamber 4 and the power source 6 are connected in series with a pressure gauge 7 and mechanical pressure valve 8,

The electric heater operates as follows.

When applying power to the electrodes 5 from the power source 6, the electrolyte in the chamber 4 (inner circuit) is heated, heating the liquid in the housing (in the outer circuit). The heated liquid enters the heating system through the outlet pipe 3, and cold water enters through the inlet pipe 2, which, when heated from the heating chamber 4, also enters the heating system through the pipe 3.

In the case of overheating of the liquid in the heating chamber 4 of the internal circuit, the vapor pressure rises, the signal of the change of which, through the pressure gauge 7, will be supplied to the power source 6, as a result of which the current on electrolytes 5 decreases, and the temperature in the heating chamber 4 decreases.

If the pressure gauge 7 is damaged, i.e. in the event of a failure of the pressure control system, upon reaching a critical pressure level, the mechanical pressure control valve 8 will operate, relieving excess steam pressure.

Oviy liquid in the heating chamber 4 (when heating a small room, for example a private house) does not exceed 700 900 ml of liquid, therefore, in the inventive dual-circuit electric heater, the problem of the deposition of salts and scale on the electrodes 5 is absent.

In addition, a small volume of liquid makes it possible to use distilled water in the heating chamber 4 with the addition of 1-2 g of drinking soda or salt, which virtually eliminates the deposition of salt or scale on the electrodes.

In case of irregular use of an electric heater, for example, in garden houses in winter, non-freezing liquid can be used as a liquid in the heating chamber 4 (in the internal circuit) to eliminate the need to drain it. By the way, non-freezing liquid, for example antifreeze or antifreeze, or some other liquid can also be used in the external circuit.

Using a dual-circuit self-regulating electrode heater will allow:

expand its functionality; improve technical and operational performance; significantly reduce noise; increase service life; increase operational safety.

Claims (1)

A dual-circuit self-regulating electrode heater containing a sealed housing with inlet and outlet nozzles and a heating chamber installed in it, in which electrodes connected to a power source are located, characterized in that the heating chamber is sealed and a pressure gauge with an adjustable valve.