RU202584U1 - ELECTRIC STEAM CONVECTOR - Google Patents

Abstract

The utility model relates to the field of heating, namely to an electric steam convector for heating rooms and reducing electricity consumption. The electric steam convector consists of a body, a hermetically sealed lid, on the outer part of the body there are vertical heating plates enclosed in a convection casing, the inner part of the body contains a compartment for liquid, a base plate with an opening, a stone heat exchange filler, preferably from dense rocks of crushed stone, the body of the device is equipped with a steam generator, which, in a preferred embodiment, is installed in the recess of the lower part of the body, the heated liquid is heated in the steam generator tube itself, the liquid enters the steam generator tube from the liquid compartment through a flexible connecting tube, the liquid compartment, in a preferred embodiment, is located over the entire area of the lower part of the housing, the base plate located above the liquid level in the liquid compartment has an opening for the upper part of the steam generator tube. The technical result to be achieved by the present utility model is to increase the efficiency of the electric steam convector. 10 p.p. f-ly, 2 dwg.

Description

The utility model relates to the field of heating, namely to a device for heating rooms and reducing electricity consumption.

Known vapor-droplet heater (utility model patent No. RU63038 dated 12/11/2006), containing a sealed hollow metal body with pipes, forming a heating chamber filled with a liquid-heat agent, placed inside the body of an electric heating element with current leads, characterized in that the heating chamber is located obliquely , towards the end wall of the housing with an electric heating element, at an angle to the horizon on different-sized support posts spaced at the ends of the housing, while the electric heating element, fixed in the end wall of the heater housing, is placed in the heating chamber below the level of the surface of the liquid-heat agent in working condition.

The disadvantage of the known technical solution is the weak ability to retain heat due to the absence of a heat exchange filler, as a result, an increase in the consumption of electricity required to heat the room using the described heater.

The technical result to be achieved by the present utility model is to increase the efficiency of the electric steam convector, due to prolonged heat exchange of the accumulated thermal energy of the filler heat exchanger in the hermetically sealed body of the device, the heat exchanger of the filler is heated under the influence of steam energy, this helps to reduce the cost of electricity consumption, compact design device, allows the device to be built into the walls of the partitions of the premises, and at the same time to heat two or three rooms at the same time.

To achieve the specified technical result, an electric steam convector is proposed, consisting of a body, a hermetically tightly fitting cover, on the outer part of the body there are vertical heating plates enclosed in a convection casing, the inner part of the body contains a compartment for liquid, a base plate with a hole, a stone heat exchange filler, preferably from dense rocks of crushed stone, the body of the device is equipped with a steam generator, which, in a preferred embodiment, is installed in the recess of the lower part of the body, the heated liquid is heated in the steam generator tube itself, the liquid enters the steam generator tube from the liquid compartment through a flexible connecting tube fixed with clamps on the fitting, the liquid compartment, in a preferred embodiment, is located over the entire area of the lower part of the housing, the base plate located above the liquid level in the liquid compartment has an opening for the upper part of the steam generator tube erator.

The convector body can be completely filled with 10-30 mm thick crushed stone above the base plate

The electric steam convector can also be equipped with a safety valve, liquid level control sensors in the compartment, taps for draining and collecting liquid, mechanical thermostats on the convector body and electronic with programming.

The convector body can be floor-standing, have supports, a platform, lighter devices are equipped with rollers, the bottom of the convector body is insulated and covered with a casing.

The heated liquid is heated in the steam generator tube itself.

The convector body can be built into the wall of the room partition, and the space above the convector body can be filled with ceramic slotted bricks up to the upper part of the wall.

The liquid compartment can be located over the entire area of the lower part of the housing.

The steam generator can be installed in a recess in the lower part of the convector body.

The steam generator at the bottom of the casing fits snugly against the casing using a flange and gasket.

The steam generator can be made with a thread on the union and a gasket on the flange and fixed in the recess of the lower part of the body by means of a threaded connection.

The essence of the device is illustrated by drawings.

Figure 1 presents a side view in section of the inventive electric steam convector without a casing and without heating plates; figure 2 presents a top view in section of the inventive electric steam convector, where:

1 - convector body;

2 - housing cover;

3 - vertical heating plates;

4 - convection casing;

5 - compartment for liquid;

6 - base plate;

7 - heat exchange filler;

8 - steam generator.

The electric steam convector consists of a body 1, a hermetically sealed cover 2, on the outer part of the body 1 there are vertical heating plates 3, which are enclosed in a convection casing 4, inside the body there is a compartment for liquid 5, a base plate with an opening 6, a heat exchange filler 7, the body is equipped with a steam generator in the lower part 8

Crushed stone of dense rocks of fraction 10-30 mm is used as a heat-exchange filler. The steam generator in the preferred embodiment consists of two tubes of heat-resistant glass, on one of them a spiral is wound, the body of a nichrome wire, the tube is darkened, on the other tube a mirror coating is applied to reflect heat energy back to the filament of the nichrome wire, the gaps between the tubes at the ends are sealed, air pumped out, the heated liquid enters the tube of the steam generator from the compartment 5 through a flexible connecting tube (not shown in the figures), its diameter can be 5-8 mm. The flexible tube is fixed to the union with clamps (not shown in the figures). Body 1 is also equipped with a safety valve, liquid level control sensors in the liquid compartment, taps for draining and collecting liquid, thermostats, the convector body can be floor-standing, have supports, a platform, lighter devices are equipped with rollers, the bottom of the convector body is insulated and closed with a casing ( not shown in the figures), the casing 4 contributes to an increase in the rate of natural convection of heated air and transfers at least 75% of the total amount of heat to the convection room. By supplying electricity to the steam generator 8 and under the influence of steam energy, the heat exchange filler 7 located in the sealed convector housing 1 is heated, and the heating of the filler can reach more than 100 ° C. Condensation on the body of the body and the stone will drain back into the compartment, the container for liquid through the leaks in the base plate 6 and body 1. The convector is equipped with thermostats, which can be mechanical, which are installed on the convector body and can be electronic with programming.

The operation of the described device does not require piping, gas supply, furnace structures, the presence of a compact device body allows the device to be built into the walls of the room partitions and decorate on a metal frame with ceramic tiles or some other decor for the interior of the premises from the base of the floor and maybe up to the upper parts of the wall, and the cavity, the space above the body of the device, is filled with ceramic slotted bricks up to the upper part of the wall.

The electric steam convector works as follows.

When electricity is supplied to the steam generator and under the influence of steam energy, the heat exchange filler in the sealed convector body is heated, and the heating of the heat exchange filler can exceed the heating temperature of more than 100 ° C, will gradually and for a long time accumulate the accumulated thermal energy on the convector body and through the area of the vertical plates - heaters and the area of the convection casing transfer heat to the environment, the duration of heat exchange will depend on the size of the casing and the mass of the heat exchange filler, and the shape of the convector casing, thus saving energy consumption costs, the preferred design of the steam generator, where the liquid is heated in the tube of the steam generator, and the heated area located on the steam generator tube itself also contributes to energy savings.

The material for the manufacture of the convector body is preferably selected from metal - aluminum, die-casting.

Analysis of patent and scientific literature did not reveal technical solutions with such a set of essential features, which allows us to conclude that the declared utility model meets the “novelty” criterion.

Claims (11)

1. An electric steam convector characterized by the fact that it consists of a body, a hermetically sealed cover, vertical heating plates enclosed in a convection casing are placed on the outer part of the body, the inner part of the body contains a compartment for liquid, a base plate with an opening for the upper part of the steam generator tube , a stone heat exchange filler, the convector is equipped with a steam generator installed in the lower part of the body, and the liquid enters the steam generator tube from the liquid compartment through the connecting pipe. 2. An electric steam convector according to claim 1, characterized in that the connecting pipe is flexible and is fixed with clamps on the fitting. 3. An electric steam convector according to claim 1, characterized in that it is equipped with a safety valve, liquid level control sensors, taps for draining and collecting liquid, mechanical thermostats on the convector body and electronic with programming. 4. An electric steam convector according to claim 1, characterized in that the liquid to be heated is heated in the steam generator tube itself. 5. An electric steam convector according to claim 1, characterized in that the convector body is completely filled with crushed stone of dense rocks with a fraction of 10-30 mm above the base plate. 6. Electric steam convector according to claim 1, characterized in that the convector body is built into the wall of the room partition, and the space above the convector body is filled with ceramic slotted bricks up to the upper part of the wall. 7. Electric steam convector according to claim 1, characterized in that the compartment for the liquid is located over the entire area of the lower part of the body. 8. Electric steam convector according to claim 1, characterized in that the steam generator is installed in a recess in the lower part of the convector body. 9. An electric steam convector according to claim 1, characterized in that the steam generator in the lower part of the body is tightly attached to the body using a flange and a gasket. 10. Electric steam convector according to claim 1, characterized in that the steam generator is made with a thread on the fitting and a gasket on the flange and is fixed in the recess of the lower part of the body by means of a threaded connection. 11. An electric steam convector according to claim 1, characterized in that the bottom of the body is insulated and closed with a casing.

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