SU1250791A1 - Electrode heater - Google Patents

Description

one

The invention relates to heat engineering and can be used in devices for thermostating fluid heaters.

The purpose of the invention is to increase the efficiency of the electrode heater by transferring heat to the heat exchanger by the liquid phase of the intermediate coolant.

The drawing shows the electrode heater, a longitudinal section.

The electrode heater contains a hermetic body 1 filled with an intermediate heat carrier with the upper part in the form of an elastic element 2, divided by a zero electrode 3 into the lower heating chamber 4 and the upper compensation chamber 5. In the heating chamber 4 a phase electrode 6 is installed, and in the compensation chamber 5 a heat exchanger 7 The lower part of the housing 1 is made in the form of an elastic element 8 rigidly connected with the phase electrode 6 and additionally filled with a liquid dielectric 9 with a density exceeding the density of the intermediate heat carrier, to a level located below the working surface of the phase electrode 6. The elastic element 2 is equipped with an adjustable stop 10, and the element 8 - with a spring II.

The heater works as follows.

When voltage is applied in the gap between the phase and zero electrodes 3 and 6, the intermediate coolant heats up. Since the heating medium is heated from below, it heats uniformly and transfers heat to the heated medium through the walls of the heat exchanger 7. When the intermediate heat carrier heats up, its volume increases due to thermal expansion.

Up to a certain temperature, the increase in the volume of the intermediate coolant is compensated by the increase in the volume of the heating chamber 4 due to the elastic element 2. When the elastic element 2 reaches the adjustable stop 10, the increase in the volume of the intermediate coolant is compensated by moving the elastic element 8, while the phase electrode

VN} SPI

Order 4393/31 Edition 649

Subscription

Random polygons pr-tie, Uzhgorod, st. Project, 4

507912

6 is immersed in a liquid dielectric 9, and its working surface decreases, i.e. reduced power consumption. In the event that the races "5 do not move the heated medium through the heat exchanger 7, the phase electrode 6 moves until it is completely in the liquid dielectric) .e 9, i.e. until

to not stop heating. In the presence of the flow rate of the heated medium, the interface of liquids takes such a position that the amount of heat released in the heater is equal to

15 to the amount of heat removed with the heated medium and the heater maintains the set temperature.

The heater is adjusted to the required temperature by displacing the adjustable stop 10. When it is moved in the direction of decreasing the stroke of the elastic element 2, the temperature of the heater decreases, and when it is moved in the direction of increasing the stroke

25 of the elastic element 2, the temperature of the heater is increased.

The spring 11 is necessary in order to prevent the displacement of the elastic element 8 from the pressure of the intermediate heat carrier vapor. The force developed by the spring P must be greater than the force created by the pressure of the vapor of the intermediate heat 5 of the carrier on the movable end of the elastic element 8.

As a liquid dielectric 9 in the heater, for example, electrical insulators can be used.

0 fluids based on fluorocarbon compounds. This is due to their incombustibility, high chemical, oxidative and thermal stability, low hygroscopicity.

5 The density of such liquids is about 1500 kg / m and more.

The advantage of the proposed heater is a higher performance, since the heat,

0, the electrode emitting in the gap is transferred to the heat exchanger by the liquid phase of the intermediate coolant, and not its vapors, and the thermal conductivity of the liquid is higher than the thermal conductivity of its vapors.

Subscription

Claims (1)

ELECTRODE HEATER containing a sealed housing filled with an intermediate coolant with an upper part in the form of an elastic element, separated by a zero electrode into the lower heating and upper compensation chambers, the first one has a phase electrode and the second one has a tubular heat exchanger, characterized in that, for the purpose of increase work efficiency by transferring heat to the heat exchanger with the liquid phase of the intermediate coolant, the lower part of the housing is also made in the form of an elastic element, rigidly connected of the phase electrode, and further filled with the liquid dielectric with a density exceeding the density of the intermediate heat transfer medium to a level located below the working surface of the phase electrode. /////// EZ7. GLF ι;