RU49191U1 - COMBINED SAUNA OVEN HAVING A HEATY HEATING ROTATION CONTAINER (OPTIONS) - Google Patents

Abstract

Variants of utility models relate to the field of small heat power engineering, in particular, to the designs of domestic stoves.

The essence of utility models is the absence (prevention) of unauthorized movement of the smoke stream from the container into its open loading hatch and an increase in the efficiency of heating objects in comparison with prototypes.

The result of the solution of the problem was the creation of several variants of compact combined devices equipped with means for regulating the flow movement, combining the features and advantages of the designs of continuous and batch ovens, preserving the ease of use and traditional design features and rituals.

Stoves include a firebox and a container mounted above it, designed to accommodate objects heated by the passing smoke stream and flame. The container has a loading hatch with a lid and shut-off devices at the inlet, outlet of smoke from the container, at the bypass (bypass) channel.

Artificial and natural materials, such as stones or plates, are used as heated objects in bath furnaces. Of interest are porcelain and talchlorite slate, which has high anisotropic thermal conductivity and low wettability. Perhaps the use of cast iron.

Variants of designs with selective heating of objects by the method of sequentially placing them in the zone of higher heat flux are proposed.

Description

Combined sauna stove with a heat-resistant container with rotation. (Options).

Combined sauna stove with a heat-intensive container with rotation of the nozzle. (Option 1).

This option is used in small heat power engineering as a household bath stove.

As a prototype adopted furnace stove continuous and periodic action on solid fuel. These stoves include a firebox, heat storage charge (stones) placed on the firebox cover, a chimney connected to the firebox and the chimney. The same sequence of nodes applies in this embodiment of the utility model.

The disadvantages of continuous furnaces (RU No. 95103230, class F 24 B 9/04) are the low heating efficiency of the stones, the increased heating time, insufficient temperature, large temperature difference across the thickness of the masonry and, as a consequence, the low temperature of the steam from them, its high humidity, the danger of rapid supercooling of stones with hot water due to the small number of thermal bridges and their long chains.

The lack of batch furnaces (SU No. 998822 according to class F 24 B 9/02) is the insufficient efficiency of heating stones, expressed in a significant temperature difference over the thickness of the masonry, the need for a long wait for complete combustion of the fuel and cleaning the furnace, the inability to quickly heat the stones when they subcooling with water, therefore a suboptimal and high fuel consumption.

The technical result is as follows. The absence of smoke in the sauna during the burning of firewood and the open loading hatch is achieved by the device of the container having a valve at the inlet of the stream. The container is equipped with a door at the exit from it, a door on the bypass chimney. The steam hatch also has a door. Their controls are brought out.

Other technical results that appeared when using this option are the possibility of quick access to heated objects (stones), the possibility of bringing hot water from the bottom of heated objects to the air heater slit, the ability to quickly regenerate the heat storage charge of stones by blowing a smoke stream through the container, convective blowing of heat from neighboring stones air heater and flue gas oxidation in a chemical exothermic reaction with it, continued promptly Objects of the container by conduction and radiation heating with the loading door open and prolonged stability teploakkumulyatsionnaya brick bulk container, the possibility of heating the room through the open hatch, including a fan, a possibility to heat the stones above the temperature of formation and soot without causing condensation on them. An opportunity to move stones from a zone of strong heating up, absorbing the stones which have cooled down from water to the bottom. Reducing the time of heating stones by direct contact with smoke. Increasing the temperature of heating stones. Increased dryness of steam. An increase in the cooling time of stones due to an increase in their temperature.

The problem solved by this option is the lack of movement of the smoke stream from the container into its open loading hatch.

Express - option can be made of metal using its cutting and welding. It is permissible to make the walls of the furnace and container of brick (stone).

The author made an express version of the utility model, conducted its tests, and received a positive result.

The design of the bath furnace (see Fig. 1) consists of a furnace 1, on top of it there is a container 2 with heated stones 3, washed from five sides by smoke. Stones are lying

on the grate 4. Across the container suspended permeable to smoke and stones rotate on the central axes two drums with blades. The axes of the drums are removed from the furnace and are connected to each other by two protected gears for their oncoming rotation. The direction of rotation is blocked by a ratchet. A steering wheel attached to the axis rotates the drums at the same time. The air heater 9 is a natural circulation circuit with lifting pipes in the furnace and lowering outside it, introduced and output from the container from the sides of the valve. The smoke entrance to the container is blocked by a multi-slot valve 5 with a handle outward blocking the opening of door 6. The valve moves along an identical multi-slot surface in the bypass direction. The exit from the container is blocked by the door 7 on the horizontal axis, locked in antiphase with the bypass door 8 on the same axis. All these regulatory tools are interconnected. Their common control handle is brought out. In the upper part of the container 2 is located the door 6 of the loading door for heated stones, the door has a handle on the outside.

The operation of the device is as follows. At the initial stage, when the stones 3 are cold and soot is deposited on them, the flame and flue gases are washed and radiated (preferably cast iron) by the container 2 from the outside and removed through the door 8 at the mouth of the chimney through a channel with a valve 10 to the heat exchanger 11. At the same time, the valves 5, 14.18 and doors 6 and 7 are closed. When the surface of the stones is heated by an air heater to a temperature of more than one hundred degrees, open the valve 5 of the container 2, closing the door 8, thereby opening the door 7, since they are fastened on one axis of rotation. Loading door 6 is still closed. The smoke passes through the channel 1-5-3-7-10-11-19 (see Fig. 6), directly washing the stones that lie on the grates 4 with a flame. Hot is sucked into the furnace 1 from a separate air heater with a slit-like outlet under the influence of rarefaction air, which goes to the oxidation of flue gases in an exothermic chemical reaction.

When the operating temperature is reached, open the door 8, close the valve 5. Close the door 7 loosely so that the air through the channel 9 displaces the smoke from the container 2 under the influence of vacuum in the chimney. After some time, close the door 7 tightly, and open the loading door 6 in the operational mode, pouring stones on hot water, while hot air from the air heater 9 contributes to the evaporation of water, convectively blowing heat from neighboring stones. If the stones are supercooled, then, since the container continues to be heated externally with flame, in a short time you can reheat them by closing door b, passing the flame inside the container through the stones. Stones can be replaced with cast iron ingots.

One of the traditions of the Russian bath is the heating of the room with steam smoke “over black”. Functionally, this can be simulated in any of the options by collecting smoke in an open smoke collector 12 above the stove, temporarily unlocking the door 6 and directing the smoke 18 immediately afterwards into the chimney, bypassing the heat exchanger.

To increase the aesthetic perception of the traditions of the Russian bath, it is desirable to glaze one of the walls of the furnace, turning it into a fireplace, but protect it from splashing water with a second glass, or a fine stainless mesh.

Part of the heat not spent in the furnace must be used in heat exchangers 11 (see Fig. 7). The metal furnace 1 and the chimney in the steam room are preferably finned. It is desirable to surround the furnace 1 with a casing 11 of metal with an air gap below and above the furnace. It is desirable to make this casing 11 hollow, finned outside and direct smoke into it 10. Divide the casing into sections, letting less hot smoke pass through the backfill of any stones between sections with sand (preferably wet) or brick. Part of the casing (for example, sand containers) can be used as a water tank. After the heating of the casing is completed, it can be turned off by the valve 10 and through the lower hatch 15 put an open container with hot water inside and close the hatch 15. The increased humidity of the volume lengthens the cooling time of the casing, and communication with the chimney will not allow the casing

deform. You can not use baths with water, but open the valves 15 and 16, closing 17 and blow the casing with air, possibly with a fan.

Combined sauna stove with a rotary drum for stones in a container. (Option 2).

This option is used in small heat power engineering as a household bath stove.

As a prototype adopted furnace stove continuous and periodic action on solid fuel. These stoves include a firebox, heat storage charge (stones) placed on the firebox cover, a chimney connected to the firebox and the chimney. The same sequence of nodes applies in this embodiment of the utility model.

The disadvantages of continuous furnaces (RU No. 95103230, class F 24 B 9/04) are the low heating efficiency of the stones, the increased heating time, insufficient temperature, large temperature difference across the thickness of the masonry and, as a consequence, the low temperature of the steam from them, its high humidity, the danger of rapid supercooling of stones with hot water due to the small number of thermal bridges and their long chains.

The lack of batch furnaces (SU No. 998822 according to class F 24 B 9/02) is the insufficient efficiency of heating stones, expressed in a significant temperature difference over the thickness of the masonry, the need for a long wait for complete combustion of the fuel and cleaning the furnace, the inability to quickly heat the stones when they subcooling with water, therefore a suboptimal and high fuel consumption.

The technical result is as follows. The absence of smoke in the sauna during the burning of firewood and the open loading hatch is achieved by the device of the container having a valve at the inlet of the stream. The container is equipped with a door at the exit from it, a door on the bypass chimney. The steam hatch also has a door. Their controls are brought out.

Other technical results that appeared when using this option are the possibility of quick access to heated objects (stones), the possibility of bringing hot water from the bottom of the heated objects to the crack of the air heater, including to the middle of the drum axis through the hollow handle, the ability to quickly regenerate the charge of the heat accumulator by blowing , convective blowing of heat from neighboring stones with an air heater and additional oxidation of flue gases in a chemical exothermic reaction with its help, the possibility of heating the room through an air heater and an open hatch, including a fan, the ability to preheat stones above the temperature of formation and condensation of soot on them, reducing the heating time of stones. Increasing the temperature of heating stones. Increased dryness of steam. Increasing the area of the accessible surface of stones for irrigation with hot water. Increase accessibility and simplify blowing and washing stones without removing them from the drum. Increased cooling time of stones due to temperature increase. Reduced fuel consumption. Stones do not spread the masonry or tank over time. Selective heating and cooling of stones. The ability to mechanize the process of rotation of the drum. Ease of Management. Continuation of the operative heating of objects by the container with radiation and conduction with the loading door open. Creating long-term heat storage stability with a massive brick container. Reducing the time of heating stones by direct contact with smoke.

The problem solved by this option is the lack of movement of the smoke stream from the container into its open loading hatch.

Express - option can be made of metal using its cutting and welding. It is permissible to make the walls of the furnace and container of brick (stone).

The author made an express version of the utility model, conducted its tests, and received a positive result.

The design of the combined bath furnace (see figure 2) consists of a furnace 1, a container 2 is installed on top of it, equipped with a multi-slot valve 5, which moves along the bottom of the container. The valve 5 in one phase of the functions is blocked on the same axis with the valve 7, which is blocked by a common axis in antiphase of functions with the valve 8 bypass. A single means of managing them brought out. Door 6 closes the container from above. In the container on the longitudinal centrally rotated axis there is a smoke permeable drum filled with stones placed in a spacer. The axis handle for rotating the drum is brought out.

The operation of the device is as follows. To heat the stones with the door 6 closed, open the valve 5 and rotate the drum 3.

To use the stones, close the valve 5, wait for the last portion of smoke to be forced out of the air heater 9 into the slot of the valve 7 and open the door 6. As the stones cool, turn the drum.

Combined sauna stove with a rotary heat-resistant perforated drum in a container. (Option 3).

This option is used in small heat power engineering as a household bath stove.

As a prototype adopted furnace stove continuous and periodic action on solid fuel. These stoves include a firebox, heat storage charge (stones) placed on the firebox cover, a chimney connected to the firebox and the chimney. The same sequence of nodes applies in this embodiment of the utility model.

The disadvantages of continuous furnaces (RU No. 95103230, class F 24 B 9/04) are the low heating efficiency of the stones, the increased heating time, insufficient temperature, large temperature difference across the thickness of the masonry and, as a consequence, the low temperature of the steam from them, its high humidity, the danger of rapid supercooling of stones with hot water due to the small number of thermal bridges and their long chains.

The lack of batch furnaces (SU No. 998822 according to class F 24 B 9/02) is the insufficient efficiency of heating stones, expressed in a significant temperature difference over the thickness of the masonry, the need for a long wait for complete combustion of the fuel and cleaning the furnace, the inability to quickly heat the stones when they subcooling with water, therefore a suboptimal and high fuel consumption.

The technical result is as follows. The absence of smoke in the sauna during the burning of firewood and the open loading hatch is achieved by the device of the container having a valve at the inlet of the stream. The container is equipped with a door at the exit from it, a door on the bypass chimney. The steam hatch also has a door. Their controls are brought out.

Other technical results that occurred when using this option are the possibility of quick access to the heated drum, the possibility of bringing hot water from the bottom of the heated object, the ability to quickly regenerate the heat storage charge of the object by blowing the smoke stream through the container, additionally oxidizing the flue gases in a chemical exothermic reaction using a separate air heater, continued operational heating of the drum container by radiation with the loading door open prolonged stability teploakkumulyatsionnaya brick bulk container, the possibility of heating the room through the open hatch, possibility to heat the drum above the formation temperature without the occurrence of condensation and soot thereon. Reduced drum heating time by direct contact with smoke. Increased dryness of steam. Increasing the area of the accessible surface of the drum for irrigation with hot water. Increasing accessibility, simplifying blowing and washing the drum without removing it from the container. The increase in cooling time due to an increase in temperature and the creation of a monolithic heat storage array.

The problem solved by this option is the lack of movement of the smoke stream from the container into its open loading hatch.

Express - option can be made of metal using its cutting and welding. It is permissible to make the walls of the furnace and container of brick (stone).

The author made a simplified express version of the utility model, tested it, and got a positive result.

The design of the combined bath furnace (see figure 2) consists of a furnace 1, a container 2 is installed on top of it, equipped with a multi-slot valve 5, which moves along the bottom of the container. The valve 5 in one phase of the functions is blocked on the same axis with the valve 7, which is blocked by a common axis in antiphase of functions with the valve 8 bypass. A single means of managing them brought out. Door 6

closes the container from above. A drum is located in the container on the longitudinal centrally rotated axis (see Fig. 3.1). The axis handle for rotating the drum is brought out. The drum is a centrally rotated cylindrical structure with holes perpendicular to the axis of metal or talchlorite shale, or alternating them, combining the properties of rapid heating from the holes and long cooling of the massive cylinder due to the thickness and heat storage from two perpendicular sides. Also recommended is version 3.2 of the drum in the form of a stacked finned cylindrical structure (see Fig. 3.2, claim No. 13). The air heater 9 is a natural circulation circuit with lifting pipes in the furnace and lowering outside it, introduced and output from the container from the sides of the valve.

The operation of the device is as follows. To heat the drum with the door 6 closed, open the valve 5 and rotate the drum 3.

To use the drum, close the valve 5, wait for the last portion of smoke to be forced out of the air heater 9 into the slit of the valve 7, and open the door 6. Turn the drum as the surface cools.

Combined sauna stove with rotary heat accumulator in a container with half-cylinder valves. (Option 4).

This option is used in small heat power engineering as a household bath stove.

As a prototype adopted furnace stove continuous and periodic action on solid fuel. These stoves include a firebox, heat storage charge (stones) placed on the firebox cover, a chimney connected to the firebox and the chimney. The same sequence of nodes applies in this embodiment of the utility model.

The disadvantages of continuous furnaces (RU No. 95103230, class F 24 B 9/04) are the low heating efficiency of the stones, the increased heating time, insufficient temperature, large temperature difference across the thickness of the masonry and, as a consequence, the low temperature of the steam from them, its high humidity, the danger of rapid supercooling of stones with hot water due to the small number of thermal bridges and their long chains.

The lack of batch furnaces (SU No. 998822 according to class F 24 B 9/02) is the insufficient efficiency of heating stones, expressed in a significant temperature difference over the thickness of the masonry, the need for a long wait for complete combustion of the fuel and cleaning the furnace, the inability to quickly heat the stones when they subcooling with water, therefore a suboptimal and high fuel consumption.

The technical result is as follows. The absence of smoke in the sauna during the burning of firewood and the open loading hatch is achieved by the device of the container having a valve at the inlet of the stream. The container is equipped with a valve at the outlet of it, a valve at the bypass chimney. The steam exit hatch has a door. Their controls are brought out.

Other technical results that appeared when using this option are the ability to quickly access heated objects, the ability to quickly regenerate the heat-accumulating charge of the plates by blowing the smoke stream through the container, the continuation of the online heating of the plates by the container with radiation when the loading door is open, the creation of long-term heat storage stability with a massive brick container, the ability to heat plates above the formation temperature and without causing soot soot on them. Reducing the time of heating the plates by direct contact with smoke and dividing the array into thin components. Increased dryness of steam. Increasing the surface area of the plates for irrigation with hot water. Increase accessibility and simplify blowing and washing the plates without removing them from the container. The increase in the cooling time of the plates due to an increase in temperature and the creation of a monolithic heat-accumulating array. Reduced fuel consumption. The plates do not spread the masonry or tank over time. Selective plate heating and cooling.

The problem solved by this option is the lack of movement of the smoke stream from the container into its open loading hatch.

Express - option can be made of metal using its cutting and welding. It is permissible to make the walls of the furnace and container of brick (stone).

The author did not make an express version of the utility model.

The design of the furnace (see Fig. 4) consists of a furnace 1, a container 2 is installed on top of it, equipped with a semi-cylindrical valve 5, which moves with the help of rods connected with the rotating central longitudinal axis of the container along the generatrix of the semi-cylindrical bottom of the container by a quarter of a turn. Bypass valve 8, moving a quarter of a turn along the semi-cylindrical bottom of the bypass channel in antiphase functions is blocked on the same axis with valve 5. Gate valve 7 in

the shape of a segment of a quarter of a circle moves along the upper end surface of the container and is blocked by a common axis in the same phase of the functions with the valve 5. Their control means is brought out. Door 6 closes the container from above. The angle segment of the valve gate 7 is larger than that of the valve 5 to exit the last cut off portion of smoke into the pipe. The air heater 9 is a natural circulation circuit with lifting pipes in the furnace and lowering outside it, introduced and output from the container from the sides of the valve.

In the container, it is possible to heat all the above-described rotation bodies 3 and structures 3 with their rotation on the central axis, the control of which is brought out.

The operation of the device is as follows. To heat with the door 6 closed, open the valve 5 and rotate the drum 3.

To use objects 3, close the valve 5, wait for the last portion of smoke to be forced out of the air heater into the slit of the valve 7, close it, open the door 6 and, if necessary, rotate the objects 3.

Combined sauna stove with a rotary heat accumulator in a container with flip - and - slide valves. (Option 5).

This option is used in small heat power engineering as a household bath stove.

As a prototype adopted furnace stove continuous and periodic action on solid fuel. These stoves include a firebox, heat storage charge (stones) placed on the firebox cover, a chimney connected to the firebox and the chimney. The same sequence of nodes applies in this embodiment of the utility model.

The disadvantages of continuous furnaces (RU No. 95103230, class F 24 B 9/04) are the low heating efficiency of the stones, the increased heating time, insufficient temperature, large temperature difference across the thickness of the masonry and, as a consequence, the low temperature of the steam from them, its high humidity, the danger of rapid supercooling of stones with hot water due to the small number of thermal bridges and their long chains.

The lack of batch furnaces (SU No. 998822 according to class F 24 B 9/02) is the insufficient efficiency of heating stones, expressed in a significant temperature difference over the thickness of the masonry, the need for a long wait for complete combustion of the fuel and cleaning the furnace, the inability to quickly heat the stones when they subcooling with water, therefore a suboptimal and high fuel consumption.

The technical result is as follows. The absence of smoke in the sauna during the burning of firewood and the open loading door is achieved by the device of the container equipped with a flat valve that is movable around the central longitudinal axis - a view at the inlet of the smoke stream, a door at the exit from it, a door at the bypass chimney. The loading door also has a door. Their controls are brought out.

Other technical results that occurred when using this option are the ability to quickly access heated objects, the ability to quickly regenerate the heat storage charge of the plates by blowing the smoke stream through the container, continue the heating of the plates by the container with radiation when the loading door is open, creating long-term heat storage stability with a massive brick container, the ability to heat plates above the formation temperature and without causing soot soot on them. Reducing the time of heating the plates by direct contact with smoke and dividing the array into thin components. Increased dryness of steam. Increasing the surface area of stones for watering them with hot water. Increase accessibility and simplify blowing and washing the plates without removing them from the container. The increase in the cooling time of the plates due to an increase in temperature and the creation of a monolithic heat-accumulating array. Reduced fuel consumption. The plates do not spread the masonry or tank over time. Selective plate heating and cooling.

The problem solved by this option is the lack of movement of the smoke stream from the container into its open loading hatch.

Express - option can be made of metal using its cutting and welding. It is permissible to make the walls of the furnace and container of brick (stone).

The author did not produce the whole (valve 5) express version of the utility model, since the circuit diagram of it did not change, and the firebox works under vacuum.

The design of the furnace (see Fig. 5) consists of a furnace 1, a container 2 is installed on top of it, equipped with a flat gate valve 5, which moves on hinged pendants using rods connected with the rotated central longitudinal axis of the container across the flat bottom of the container by a quarter of a turn . The Central axis controlling the valve 5 is connected by two rods in functional antiphase with

a bypass valve 8, which in functional antiphase is blocked on one axis with a valve 7 of the outlet of the stream from the container. A single means of managing them brought out. Door b closes the container from above. The pipe of the air heater 9 with the lower end enters the bottom of the furnace, the upper slit-like bell goes into the bottom of the container 2. The air heater 9 is a natural circulation circuit with lifting pipes in the furnace and lowering it outside, introduced and removed from the container from the sides of the valve.

In the container, it is possible to heat all the above-described bodies 3 and structures 3 with their rotation on the central axis, the control of which is brought out.

The operation of the device is as follows. To heat with the door 6 closed, open the valve 5 and rotate the drum 3.

To use objects 3, close the valve 5, wait for the last portion of smoke to be forced out of the air heater into the slit of the valve 7, close it, open the door 6 and, if necessary, rotate the objects 3.

Claims (19)

1. The furnace, which includes a furnace, container, bypass, characterized in that 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 a door, on an identical multi-slot bottom surface with slits across the container, a door is installed at the smoke exit from the container, two drums with blades permeable to smoke and stones suspended on the central axes are suspended across the container, in addition, air from the air is introduced into the container a heater in the form of a natural circulation circuit. 2. The furnace according to claim 1, characterized in that stones, porcelain or cast-iron ingots in the form of balls are placed in a container with drums for immersing and lifting from the grate at the bottom of the stones. 3. The furnace according to claim 1, characterized in that the exit door of the container is locked on the same axis as the door overlapping the bypass in functional antiphase with it. 4. The furnace according to claim 1, characterized in that the doors and the gate valve are interconnected by a single control means, the handle of which is brought out. 5. The furnace according to claim 1, characterized in that the control means of the drums are single and brought out. 6. The furnace, which includes a furnace, container, bypass, characterized in that the transformable container has a loading hatch; at the inlet of the smoke stream into the container it is equipped with a multi-slot valve that moves along the container in the direction of the bypass blocked by the door along the multi-slot bottom surface identical to it with slits across the container, and a door is installed at the outlet of the smoke from the container, the smoke-permeable, rotatable drum along the longitudinal central axis is also suspended in the container and, in addition, air is introduced into the container from air heater in the form of a natural circulation circuit. 7. The furnace according to claim 6, characterized in that the exit door of the container is locked on the same axis as the door overlapping the bypass in functional antiphase with it. 8. The furnace according to claim 6, characterized in that the doors and the gate valve are interconnected, and the means for controlling them is one and its handle is brought out. 9. The furnace according to claim 6, characterized in that the drum is filled with stones or cast iron ingots. 10. The furnace, which includes a furnace, container, bypass, characterized in that the transformable container has a loading hatch; at the inlet of the smoke stream into the container it is equipped with a multi-slot valve that moves along the container in the direction of the bypass blocked by the door along the multi-slot bottom surface that is identical to it with slits across the container, and a door is installed at the smoke exit from the container, and a nontransformable cylindrical structure with perpendicular openings suspended on the longitudinal central axis is suspended in the container axes located crosswise and, in addition, air is introduced into the container from the air heater in the form of a natural circulation loop. 11. The furnace of claim 10, characterized in that the container is suspended rotatable on the central axis, stacked from plates, but not transformed ribbed cylindrical structure. 12. The furnace of claim 10, characterized in that the plates are made of porcelain, stone or metal materials, or alternating them. 13. The furnace according to claim 10, characterized in that the exit door of the container is locked on the same axis as the door overlapping the bypass in functional antiphase with it. 14. The furnace according to claim 10, characterized in that the doors and the gate valve are interconnected by a single control means, the handle of which is brought out. 15. A furnace, including a furnace, container, bypass, characterized in that the transformable container has a loading hatch, a cylindrical payload on the longitudinal central axis, and a sliding half-cylinder valve mounted around the central one is installed at the inlet of the smoke stream into the container with a semi-cylindrical bottom the axis of the container, locked in antiphase with a semi-cylindrical bypass valve and moving in the same phase on the same central axis along the end wall of the valve at the outlet of the container in bu, yield smoke from the bypass door closes and, in addition, the container introduced in the air from the air preheater as the natural circulation circuit. 16. The furnace according to claim 15, characterized in that the means for controlling the payload and locking elements of the bypass container are different and brought out. 17. A furnace including a furnace, a container, a bypass, characterized in that the transformable container has a loading hatch, a cylindrical payload on the longitudinal central axis, and a flat valve that is movable around the central longitudinal axis and is installed at the inlet of the smoke stream into the container with a flat bottom - a view blocked in antiphase by the specified axis by two rods with a bypass door and with a flip door moving in the same phase from the end wall at the outlet of the container into the chimney and, in addition, into the container air from the air preheater as the natural circulation circuit. 18. The furnace according to claim 17, characterized in that the exit door of the container is locked on the same axis as the door overlapping the bypass in functional antiphase with it. 19. The furnace according to claim 17, characterized in that the doors and the gate valve are interconnected by a single control means, the handle of which is brought out.