RU176612U1 - The furnace for a bath - Google Patents

Abstract

The utility model relates to heat engineering, namely, domestic stoves, and can be used for individual saunas and baths, heating various rooms and heating water. A bath furnace contains a body with a fire chamber located in it with a door 3. A chimney is installed in the upper part of the furnace . Between the furnace and the chimney there is a partition with two openings made in it. The first hole is equipped with a valve. The gate valve can block both the first opening and the second opening of the partition. Above the firebox there is a heater with heat-resistant material attached to the partition. The partition serves as the upper wall of the heater. The second opening of the partition is located above the heater. A hole is also provided in the bottom wall of the heater, also provided with a valve. A chimney is formed between the rear wall of the heater and the front wall of the furnace body, connected to the first opening of the partition. The valve of the heater is made with the possibility of overlapping the holes of the lower wall of the heater and the chimney. In the front wall of the heater, which is also the rear wall of the furnace body, an opening is provided with a door. A hole has been made in the rear wall of the furnace for receiving a steam generator tube that supplies water to a heat-intensive material. The technical result of using all the essential features of a utility model is to increase the heating rate of the room due to the prolonged release of superheated steam without increasing the heating time and power of the heating device. In addition, it provides increased safety for the operation of the furnace (elimination of carbon monoxide poisoning).

Description

The utility model relates to heat engineering, namely domestic stoves, and can be used for individual saunas and baths, heating various rooms and heating water.

Known including a firebox, bypass, container. The transformable container at the inlet of the smoke stream is equipped with a multi-slot valve that moves along the container in the direction of the bypass, which is blocked by the door, along an identical multi-slot bottom surface with slits across the container. At the exit of smoke from the container, a door is installed. Air from the air heater is introduced into the container in the form of a natural circulation loop (see RF patent No. RU 49191, IPC F24B 9/00 (2000.01), 2005).

The disadvantage of this device is the complexity of the design with many movable joints, axles, bearings, which in a wide temperature range in an aggressive creosene-ash environment will have a very limited resource, wedge and seize.

A well-known solid fuel sauna furnace containing a metal housing with a furnace, a water tank with a chimney and a container for heat exchange material with a moisture distribution device installed in its upper part and an outlet steam line. A channel for flue gases is located between the housing and the pressure vessel. In the upper part of the channel there is a collector connected to one input of the tee-switch of channels with a movable shutter, the upper part of the pipe passing through the water tank is connected to the other input, and the output of the tee-switch of channels is connected to the chimney (see RF patent No. 167973 , IPC F24B 9/00 (2006.01), 2017).

The disadvantage is the low efficiency of vaporization, due to the selection of heat from the stones of the heat storage load, because the heater is heated by an indirect method - there is no contact of flame with stones.

Known furnace for a bath containing a housing, a furnace, a flue, a chimney, a chamber with heat-resistant material located above the furnace. The flue is made around the chamber with heat-resistant material. The furnace is equipped with a main partition located between the furnace and the chimney, moreover, this partition is equipped with a valve with the possibility of blocking the direct flow of flue gases into the pipe and creating the possibility of moving them around the chamber with heat-resistant material (see RF patent No. 2362092, IPC F24B 1/24, F24B 5/02 (2006.01), 2009). This decision was made as a prototype.

The disadvantage of this furnace is the heating of stones in a closed heater, which reduces the efficiency of heating stones and subsequent vaporization.

The technical problem solved by the utility model is the improvement of the furnace design, the improvement of its consumer qualities: increasing the efficiency of vaporization without increasing the capacity (size) of the furnace.

This problem is solved due to the fact that in the known furnace for a bath containing a housing, a furnace, a chimney, a chimney, a heater with heat-resistant material located above the furnace, the housing is equipped with a partition located between the furnace and the chimney and having a first opening with a valve with the possibility of blocking the direct entry of flue gases into the pipe, in accordance with a utility model, the heater is connected to a partition in which a second hole is made located above the heater, and in the lower wall of the heater is made from Erste with a latch.

The gate valve is configured to overlap the second opening of the partition.

A chimney is formed between the rear wall of the heater and the front wall of the housing and is connected to the first opening of the partition.

The valve of the heater is made with the possibility of overlapping the chimney.

A hole with a door is made in the front wall of the heater.

The technical result from the use of all the essential features of the utility model is to increase the heating rate of the room due to the prolonged release of superheated steam without increasing the heating time and power of the heating device. In addition, it provides increased safety for people (elimination of carbon monoxide poisoning).

The implementation of the heater with a hole in the bottom wall equipped with a valve allows you to heat the stones (heat accumulators) to a red glow (800-900 ° C), which is difficult to achieve with indirect heating in closed or open heaters and, as a result, allows you to increase the heating rate of the room for expense of heating stones with a direct flame. The installation of a heater connected to a partition in which a second hole is located above the heater makes it possible to direct the gases passing through the heater during direct heating or when blowing the heater into a chimney located above the heater to ensure the stones are heated by direct flame, which increases the heating rate premises.

The connection of the heater to the partition, in which the second hole is located above the heater, and the presence of a hole with a valve in the lower wall of the heater allows you to get superheated steam from the direct heating heater, to ensure safe operation (there is no chance of carbon monoxide poisoning). Superheated steam has different odors and a different consistency of steam. Such steam does not condense even on relatively cold walls.

The essence of the utility model is illustrated in the drawings.

FIG. 1 - longitudinal section of the furnace during the mode of ignition and heating of the chimney;

FIG. 2 - a longitudinal section of the furnace in the mode of heating stones with direct flame;

FIG. 3 is a longitudinal section through the furnace in the mode of blowing stones with superheated steam;

FIG. 4 is a longitudinal section through the furnace in the steam supply mode to the steam compartment.

The furnace for the bath contains a housing 1 with a furnace 2 located in it. The furnace 2 can be closed by a door 3. In the upper part of the furnace there is a chimney 4. Between the furnace 2 and the chimney 4 there is a partition 5 with holes 6, 7 made in it. First the hole 6 is equipped with a valve 8, installed with the possibility of blocking the direct intake of flue gases into the chimney 4 both from the first hole 6 and from the second hole 7. Above the furnace 2 there is a heater 9 with heat-resistant material 10 connected to the partition 5. The partition 5 is made It has the function of the upper wall of the heater. The second hole 7 of the partition 5 is located above the heater 9. In the bottom wall 11 of the heater there is a hole 12 also provided with a valve 13.

Between the rear wall 14 of the heater and the front wall 15 of the furnace body 1, a chimney 16 is formed connected to the first opening 6 of the partition 5. The valve 13 of the heater 9 is configured to overlap the opening 12 of the lower wall of the heater and the chimney 16.

In the front wall 17 of the heater, which at the same time is the rear wall of the furnace body 1, a hole 18 is provided with a door 19. In the rear wall of the furnace 17 there is a hole for receiving a steam generator tube 20, which supplies water to the heat-intensive material 10.

Under the bottom wall 21 of the furnace body, in which an opening 22 closed by the grate is made, an ash pan 23 is placed, upon opening which fresh air is supplied to the furnace 2.

The furnace operates as follows.

1. The mode of ignition of wood and heating the chimney (Fig. 1).

Firewood is loaded into the furnace. The second hole 7 of the partition 5 and the hole 12 of the lower wall 11 of the heater 9 are closed in this mode. The ash door 23 and the first opening 6 of the partition connected to the chimney 16 are open. Firewood is heated and allowed to burn for 10 to 20 minutes (until a stable draft). Flue gases pass through the chimney 16, the first hole 6 of the partition 5 and enter the chimney 4.

2. The mode of heating the heater direct flame (Fig. 2).

Then, moving the valve 13 of the heater and the valve 8 of the partition 5, open the hole 12 of the lower wall 11 of the heater and the second hole 7 of the partition 5. In this mode, the first hole 6 of the partition and the chimney 16 are closed. The heat-intensive material 10 is heated by a direct flame to a red glow (800-900 ° C). In this case, the flue gases through the holes 12 of the lower wall 11 and the second hole 7 of the partition 5 also enter the chimney 4. The heating of stones lasts from 20 to 50 minutes. During this mode, burnout of contaminants and deposits from the surface of the heat-sensitive material 10.

1. The purge mode of the heat-intensive material of the heater (Fig. 3).

After heating the heat-intensive material 10, close the hole 12 of the lower wall of the heater 9, but the second hole 7 of the partition is left open. Water from the tank (not shown conventionally) is supplied to the heater through the steam generator tube 20 and heat-sensitive material 10 is irrigated dropwise. The door 19 of the front wall 17 of the heater is closed, so that excess vapors pass through the second opening 7 of the partition 5 into the chimney 4. ( the effect of purification of a heat-intensive material is observed - with the steam, ash particles settle on the heat-resistant material during heating of the stove and soot that is not completely burnt out with steam) It is recommended to carry out a purge mode with one, two portions of water.

4. The mode of supply of steam (Fig. 4).

In this mode, as in the first mode, the first opening 6 of the partition 5 and the chimney 16 are open. The valve 13 of the heater closes the hole 12 of the lower wall, and the valve 8 of the partition 5 closes the second opening of the partition. Heating of the heat-intensive material 10 is carried out in a closed mode. Through the tube 20 of the steam generator, water is supplied from the tank (not shown conditionally) and the heat-intensive material 10 is irrigated dropwise. The door 19 of the front wall 17 of the heater is open, so that the vapor enters the steam compartment under excess pressure. The steam supply mode is selected by the user independently. Estimated time - from 3 to 20 minutes.

The inventive utility model can be used for individual saunas and baths. In addition, it can be used with closed door 19 for heating various rooms, and in the presence of a water tank - for heating rooms and heating water.

The furnace can be made of known materials using existing technologies.

Claims (5)

1. The furnace for the bath, comprising a housing, a furnace, a chimney, a chimney, a heater with heat-resistant material located above the furnace, the housing is equipped with a partition located between the furnace and the chimney and having a first opening with a valve with the possibility of blocking the direct entry of flue gases into the pipe characterized in that the heater is connected to a partition in which a second hole is made located above the heater, and a hole with a valve is made in the lower wall of the heater. 2. The furnace for the bath according to claim 1, characterized in that the shutter of the partition is configured to overlap the second opening of the partition. 3. The furnace for a bath according to claim 1, characterized in that the chimney is formed between the rear wall of the heater and the front wall of the housing and connected to the first opening of the partition. 4. The furnace for the bath according to claim 1, characterized in that the valve of the heater is configured to block the chimney. 5. The furnace for the bath according to claim 1, characterized in that an opening with a door is made in the front wall of the heater.

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