RU208728U1 - Electrosteam heat accumulator - Google Patents

Abstract

The utility model relates to the field of heating, namely to a device for space heating and more efficient use of electricity consumption. An electrosteam heat accumulator is characterized by the fact that it includes a body consisting of two vertically parallel walls connected to each other by main heater plates vertically perpendicular to the body, the inner surface of these double walls has a mirror coating, the body includes a tightly fitting cover, on the outer part of the body there are main plate-heaters vertically perpendicular to the body, on every second plate-heaters parallel to the body with a slope of the upper part of the plate from the body, the lower part of these parallel plates has a gap from the body, on the extreme part of these parallel plates additional vertically perpendicular to the body are based symmetrically through one main plate heater plates having the same clearance from the body as the lower part of the heater plates parallel to the body, the inside of the body contains a stone heat-exchange filler, a liquid compartment, located located in the lower part of the housing, the housing is equipped with a steam generator installed in the recess of the lower part of the housing with a slope. heater plates, the location of the gaps between the heater plates and the gaps between the housing and the heater plates.

Description

The utility model relates to the field of heating, namely to a device for space heating and more efficient use of electricity consumption.

The closest analogue to the claimed utility model is an electric steam convector described in the utility model patent No. 202584, published on February 25, 2021, characterized in that it consists of a sealed housing, a hermetically tight lid, on the outer part of the housing there are main vertically perpendicular to the housing plate-heaters enclosed in a convection casing, the inner part of the body contains a liquid compartment located along the entire lower part of the body, a stone heat-exchange filler of dense rocks of chipped stone, the body is equipped with a steam generator installed in the lower part of the body with a slope of the upper part, the liquid from the compartment comes to the steam generator through the connecting inlet pipe, fixed with clamps on the fitting.

A disadvantage of the known device is the insufficient size of the heated area of the heater plates on the device body, for greater heat transfer of the heater plates to the environment, which limits the scope of the device. Steam generator round tube profile, not efficient enough in the use of electricity consumption.

The task to be solved by the claimed utility model is to increase the efficiency of the use of electricity consumption.

The technical result, which the claimed utility model is aimed at, is to increase the duration of heat exchange of the stone filler in the heat accumulator housing by changing the housing design by increasing the heated area of the heater plates, the location of the gaps between the heater plates and the gaps between the housing and the heater plates.

An additional technical result, which the claimed utility model is aimed at, is to reduce the consumption of electricity for heating water while increasing the intensity of its conversion into hot steam, by changing the profile of the steam generator tube.

To achieve this technical solution, an electrosteam heat accumulator device is proposed.

Device An electrosteam heat accumulator, characterized in that it includes a body consisting of two vertically parallel walls interconnected by main heater plates vertically perpendicular to the body, while the inner part of these double walls of the body has a mirror coating, the air between the walls, the cavity of the body is removed, the housing includes a hermetically tight-fitting cover, on the outer part of the housing there are main heater plates vertically perpendicular to the housing, on each second through one main plate vertically perpendicular to the housing plate-heaters parallel to the housing are symmetrically based with a slope of the upper part of the plate from the housing, the lower part of these parallel to the housing plate heaters has a gap from the body, on the extreme part of the plates parallel to the body, additional heater plates vertically perpendicular to the body are based, having the same gap from the body as the lower part of the parallel body plates. The inner part of the body contains a liquid compartment located along the entire lower part of the body, contains a heat-exchange stone filler of dense rocks of crushed stone, the body is equipped with a steam generator, which in the preferred embodiment consists of two metal profiles of flat tubes with a minimum clearance of the inner walls, depending on the power of the steam generator , profile flat metal tubes have ceramic insulation, tape wire alloy X 20 H 80 is wound on the main profile of the flat tube, the wire winding has adhesive heat-resistant insulation, the main tube is closed with a protective profile by a flat tube, the inside of which has a mirror coating to reduce heat radiation, space, the cavity between the walls of the tubes is filled with a porous filler, the ends of the profile of flat tubes are sealed, the air between these tubes of the cavity is removed, the steam generator is installed in the recess of the lower part of the body with a slope of the upper part, while ohm, the upper heated 1/3 of the length of the steam generator is above the upper liquid level in the compartment, the connection between the steam generator and the body is flanged through a gasket, liquid flows from the compartment to the steam generator through the hole in the flanges, the slope of the steam generator can be 9-15 degrees, the slope of the upper part is parallel the body of the plates from the body, maybe 15-20 degrees, all the gaps between the heater plates and the gaps between the body and the heater plates, maybe 6 - 10 mm, the fraction of the stone filler can be 5-30 mm of different fractions, the body of the heat accumulator is made of aluminum , the entire inner part of the body can have a ceramic coating, the cavity, the gap between the double walls of the heat accumulator body, as well as the gap, the cavity between the double walls, the cavities of the steam generator tubes, can be filled with porous filler expanded perlite or vermiculite, the steam generator has a protective casing to protect against impact stone filler load, hull equipped with a mechanical thermostat, an electronic thermostat with the ability to adjust the voltage value, a thermocouple, a tap for draining or collecting liquid, as well as reducing or increasing pressure in the heat accumulator housing.

The technical result provided by the above set of features is that the duration of heat exchange of the stone filler in the heat accumulator housing is increased due to the design of the housing with double vertically parallel walls of the housing interconnected by the main vertically perpendicular to the housing plates-heaters, while the inner part of these double walls of the housing has a mirror coating to reduce the thermal radiation of the heated inner part of the body, the air between the walls, the cavity is removed, vacuum thermal insulation is required for a longer heat exchange of the stone filler in the body of the heat accumulator, aluminum has good thermal conductivity, the main vertically perpendicular to the body plates connecting the double vertically parallel walls of the body will feed the thermal energy of the internal part of the heated stone filler (wick effect), and through the area of the heater plates by natural convection transfer heat to the environment, thus increasing the duration of heat exchange of the stone filler in the body of the heat accumulator, expanding the scope of the heat accumulator, by increasing the heated area of the heater plates and freer natural convection of heated air into the environment, due to the location of the established gaps between the plates - heaters and gaps between the body and heater plates, the design of the steam generator has a flat tube profile with a minimum gap of the inner walls depending on the power of the steam generator, the presence of a flat area and a minimum gap between the lower and upper parts. intensive conversion of liquid into hot steam, the upper heated 1/3 of the length of the steam generator tube is located above the upper liquid level in the compartment, in this case, steam heating can be more than 100 ° C, and in total These features allow more efficient use of electricity consumption.

The essence of the utility model is illustrated by drawings.

In FIG. 1. shows a fragment of the housing containing double vertically parallel walls with heater plates (side view in section).

In FIG. Fig. 2. Fragment of the housing, the location of the heater plates (sectional view from above). Arrows show the direction of natural convection of heated air upwards.

In FIG. 3. View of the location of the heater plates (front view).

1. Heat accumulator housing with double vertically parallel housing walls.

2. The main vertically perpendicular to the body 1 heater plates.

3. Heater plates 3 parallel to the body 1 based on the main 2 heater plates vertically perpendicular to the body 1.

4. Additional vertically perpendicular 4 body 1 based on the extreme part parallel to 3 body 1 heater plates.

5. Gaps between body 1 and heater plates 4 and 3 and gaps 5 between main plates 2 and additional 4 heater plates.

6. Cavity, the gap between the double vertically parallel walls of the body 1.

The electrosteam heat accumulator device includes a housing 1, consisting of two vertically parallel walls of the housing 1 interconnected by main vertically perpendicular heater plates 2. The inner part of these double walls of the housing 1 has a mirror coating (not shown) hermetically tight cover, on the outer part of the body 1 there are heater plates 2 vertically perpendicular to the body 1 on each second, through one main plate 2 heaters 3 parallel to the body 1 are based with a slope of the upper part of the plate from the body 1, the lower part of these parallel plates has a gap from the body, on plates parallel 3 to body 1 additional vertically perpendicular to body 1 heater plates 4 are based, body 1 has gaps 5 between heater plates 4 and 3 and gaps 5 between the main vertically perpendicular plates 2 and additional plates 4, there is a gap between the double walls of the housing 1, the cavity 6 the inner part of the housing 1 contains a liquid compartment located along the entire lower part of the housing 1, the entire internal part of the housing 1 contains a heat-exchange stone filler of dense rocks of crushed stone, the housing 1 is equipped with a steam generator, which in the preferred embodiment, it consists of two metal profiles of flat tubes with a minimum gap of the inner walls, depending on the power of the steam generator, the metal profiles of the flat tubes have ceramic insulation, a tape wire alloy of grade X 20 H 80 is wound on the main profile of the flat tube of the steam generator, the wire winding has adhesive thermal insulation, the main tube is closed by a protective profile with a flat tube, the inside of which has a mirror coating to reflect heat radiation, the space, the cavity between these two tubes is filled with a porous filler, the ends of the profile of flat tubes are sealed, the air between these pipes are removed, the steam generator is installed in the recess of the lower part of the casing 1 with a slope, while the upper heated 1/3 of the length of the steam generator tube is above the upper liquid level in the compartment, which contributes to an increase in the steam temperature of more than 100 ° C, the connection of the steam generator with the casing is made by flange through gasket, the liquid from the compartment enters the steam generator through the hole in the flanges, the slope of the steam generator can be 9 - 15 degrees, all gaps 5 between the body 1 and the heater plates 4 and 3 and the plates 2 can be 6 - 10 mm slope of the upper part parallel to the body 1 plate heaters 3 can be 15 - 20 degrees, heat exchange stone filler of dense rocks of crushed stone of different fractions can be 5 - 30 mm, body 1 is made of aluminum, which has good thermal conductivity, the entire internal part of body 1 can have ceramic insulation, the steam generator has protective cover against the impact of the load of stone filler, building 1 is equipped with a mechanical thermostat, an electronic thermostat with the ability to adjust the voltage to the steam generator, a thermocouple, a tap for draining or collecting liquid, as well as through a tap, it is possible to reduce or increase the pressure in the heat accumulator housing 1 using a voltage regulator for the steam generator.

Device Electrosteam heat accumulator works as follows. When power is supplied to a steam generator that has a profile of a flat steam generator tube with a minimum clearance of the inner walls depending on the power of the steam generator, if there is a flat area of the lower and upper parts of the steam generator tube, the conversion into hot steam will be more intense, while the upper 1/3 part is heated the length of the steam generator is above the upper liquid level in the compartment, which contributes to steam heating to more than 100°C, hot steam condenses on the walls of the housing 1 and stone filler, heats up the entire internal part of the housing 1 and drains the condensate back into the liquid compartment, the connection of the steam generator to the housing 1 made flanged through a gasket, liquid flows from the compartment to the steam generator through a hole in the flanges.

The device of the body consists of two vertically parallel walls of the body, interconnected by the main vertically perpendicular heater plates, while the inner part of these double walls of the body has a mirror coating to reduce the thermal radiation of the heated inner part of the stone filler in the body, the air between the double walls of the body cavity is removed for vacuum thermal insulation of the body, thereby the duration of the heat-exchange stone filler increases, aluminum has good thermal conductivity, the main heater plates vertically perpendicular to the body will feed the thermal energy of the inside of the body (wick effect), and through the area of the heater plates, by natural convection, transfer heat to the environment Wednesday.

Claims (7)

1. An electrosteam heat accumulator, characterized in that it includes a housing consisting of two vertically parallel walls interconnected by main heater plates vertically perpendicular to the housing, the inner surface of these double walls has a mirror coating, the housing includes a hermetically sealed cover, on the outer part of the body, the main heater plates vertically perpendicular to the body are located, on each second, through one main plate, heater plates parallel to the body are symmetrically based with a slope of the upper part of the plate from the body, the lower part of these parallel plates has a gap from the body, on the extreme part of these parallel plates additional heater plates vertically perpendicular to the body, having the same clearance from the body as the lower part of the heater plates parallel to the body, the inner part of the body contains a stone heat-exchange filler, a liquid compartment, p located in the lower part of the housing, the housing is equipped with a steam generator installed in a recess in the lower part of the housing with a slope. 2. Electric steam heat accumulator according to claim 1, characterized in that the steam generator has a flat tube profile. 3. An electric steam heat accumulator according to claim 1, characterized in that the steam generator has a protective casing against the impact of the load of the stone filler. 4. Electrosteam heat accumulator according to claim 1, characterized in that the connection of the steam generator with the body is flanged. 5. An electric steam heat accumulator according to claim 4, characterized in that the liquid from the compartment enters the steam generator through a hole in the flanges. 6. An electric steam heat accumulator according to claim 1, characterized in that the housing is equipped with a mechanical thermostat, an electronic thermostat with the ability to adjust the voltage to the steam generator, a thermocouple, a tap for draining or collecting liquid, with the ability to reduce or increase pressure in the heat accumulator housing. 7. An electric steam heat accumulator according to claim 1, characterized in that the stone heat-exchange filler is a filler made of dense rocks of crushed stone.

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