RU213140U1 - UNIVERSAL MODULAR OVEN - Google Patents

Abstract

The utility model relates to the power industry, to devices for heating household and utility rooms, namely to heating stoves with built-in masses for heat accumulation.

The technical result of the utility model is to increase the versatility of the furnace, which is achieved by the fact that a universal modular furnace containing a blower module with an ash pan and a grate, a combustion module, a storage module and a cover, a chimney outlet, characterized in that the blower module, combustion module, storage the module/storage modules and the cover are mounted vertically on top of each other using a detachable gas-tight connection, the combustion module and the storage module are formed by side walls, while the inner surface of the combustion module and the storage module, the upper wall of the blower module and the inner surface of the cover are lined with heat-insulating and heat-accumulating material, a convection channel is mounted to the bottom of the blower module, made with the possibility of supplying outside air inside the blower module; a channel, the total length of which exceeds the height of the storage module with the possibility of increasing the passage of air and gases inside the storage module. 3 w.p. f-ly, 2 ill.

Description

The utility model relates to the energy sector, to devices for heating household and utility rooms, namely to heating stoves with built-in masses for heat storage [F24B 1/00, F24B 1/02, F24B 1/19, F24B 1/24, F24B 7/ 00, F24B 7/04, F24C 15/34].

Known from the prior art RUSSIAN STEAM BATH CHICKEN AND BATH OVEN WITH DUCT UNDER THE WOODEN SURFACE [RU2291999 C1, publ. 01/20/2007], which contains a floor, a stove opposite which there are three tiers of shelves, an internal wooden lining of the steam bath room, between which and the frame of the building there are three air-limiting shells. Shelves are made in the form of a continuous flooring. Holes were made in the floor to allow air to escape from the steam room into the underground. A through hole is made in the outer wall of the steam bath building, connected by a duct equipped with a damper to an air duct passing under the hearth surface of the furnace into the steam bath room. A bath stove is also characterized, under the hearth surface of which there is a metal partition separating the air duct from the chimney, while the air duct for the air entering from the outside of the building passing into the steam bath room between the metal partition and the furnace foundation is located between the metal partition and the furnace foundation.

The disadvantage of the analogue is the lack of the possibility of operational disassembly of the furnace and assembly of the furnace from a different number of modules and, as a result, an increase in its heat capacity, which limits the versatility of the furnace.

The prior art is also known prefabricated HEAT STORAGE FURNACE FOR SOLID FUEL COMBUSTION [RU2076278 C1, publ. 03/27/1997], which contains a base, a front wall with openings for loading fuel and supplying fresh air, side and rear walls, a stove, a heater with a cover and a bursting grate. The walls are made with filled or filled heat-storage elements made of refractory materials and located with the possibility of providing the formation of a single continuous channel for the exit of flue gases, while inside the elements there are through holes with an entrance to the room, providing air circulation and heating.

The disadvantages of the analogue is the lack of a modular layout, which leads to a decrease in the versatility of the furnace and the impossibility of its operational disassembly.

The closest in technical essence is the FURNACE [RU2049964 C1, publ. 12/10/1995], including a body with a vault, a firebox made with a slotted vault, grates and a door connected to the firebox, an ash pan and a hog located below the firebox, a heat-accumulating nozzle, through a bur and a smoke exhauster connected to the atmosphere by a vertical chimney connected to the nozzle, characterized in that, in order to increase ease of use, the nozzle is located under the ash pan.

The main technical problem of the prototype is the location of the furnace in the upper part of the furnace, which complicates the design of the furnace and reduces its draft; .

The purpose of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is to increase the versatility of the furnace.

The specified technical result is achieved due to the fact that a universal modular furnace containing a blower module with an ash pan and a grate, a furnace module, a storage module and a cover, a chimney outlet, characterized in that the blower module, furnace module, storage module / storage modules and the cover is mounted vertically on top of each other using a detachable gas-tight connection, the combustion module and the storage module are formed by side walls, while the inner surface of the combustion module and the storage module, the upper wall of the blower module and the inner surface of the cover are lined with heat-insulating and heat-accumulating material, mounted to the bottom of the blower module a convection channel configured to supply outside air inside the blower module; a drinking module with the possibility of increasing the passage of air and gases inside the storage module.

In particular, the heat-insulating and heat-accumulating material is made in the form of fireclay stone.

In particular, fireclay stone to the side walls of the furnace module and the storage module is mounted by ligation on a dry joint.

In particular, a cleaning door is mounted on the front side wall of the storage module with the possibility of access to the inside of the said module.

Brief description of the drawings.

Figure 1 shows a General view of the universal modular furnace.

Figure 2 shows a combined with the section side view of the universal modular furnace.

The figures indicate 1 - blower module, 2 - combustion module, 3 - storage module, 4 - cover, 5 - supports, 6 - ash pan, 7 - convection channel, 8 - fireclay stone, 9 - grate, 10 - furnace door, 11 - cleaning door, 12 - outlet for the chimney, 13 - smoke channel.

Implementation of the utility model.

The device in question is a universal modular oven for heating various rooms. In the minimum configuration, the furnace consists of the following modules vertically mounted on top of each other: blower module 1, combustion module 2, storage module 3 and cover 4.

Mentioned modules 1-3 and cover 4 are mounted on top of each other by a detachable tongue and groove connection, in which the lower part of the top located module is mounted inside the bottom of the located module, for which the boards are made in each of the modules from above. The gaps between the said sides and the walls of the modules combined with them are closed with a heat-resistant material, for example, sealant, asbestos cord, etc. with the possibility of performing a gas seal and excluding the exit of combustion products from the furnace in the form of smoke.

The blower module 1 is located at the bottom of the furnace and is formed by the side walls, the top wall and the bottom. In one of the embodiments, the blower module 1 is mounted on supports 5. A rectangular hole is made in the front side wall of the blower module 1, through which an ash pan 6 is mounted inside the said module 1. A convection channel 7 is mounted in the bottom of the blower module 1, designed to provide the supply of external air inside the blower module 1. In one embodiment, the convection channel 7 is brought out, for example, into the underground space of the room or connected to the forced air supply system. The upper wall of the blower module 1 is made of heat-insulating material, for example, fireclay stone 8. A grate 9 is mounted in the upper wall of said module 1.

Ash pan 6 is a container designed to collect ash and slag formed during the combustion of fuel, which enter it through a grate 9. Ash pan 6 can be completely removed from the furnace to eject ash, and can be partially extended to supply air to the combustion module 2 Blower module 1, which is the base of the furnace, is attached to the floor or with anchor bolts to a non-combustible base.

On the blower module 1, a combustion module 2 is mounted on top, formed by the side walls. On the front side wall of the mentioned module 2, a furnace door 10 is mounted, through which fuel is loaded. The walls inside the furnace module 2 along the perimeter are lined with fireclay stone 8. In one embodiment, fireclay stone 8 is mounted to the side walls of the furnace module 2 by ligation on a dry seam. Fireclay stone 8 performs two functions: it is a heat accumulator and protects the metal walls of the module from burning out.

On top of the combustion module 2, a storage module 3 is mounted, formed by the side walls. A cleaning door 11 is mounted on the front side wall with the possibility of access to the said module 3. The storage module 3 is designed to increase the heat capacity and, consequently, the heat transfer time. The number of storage modules 3 may vary. The walls of the storage module 3 inside along the perimeter are lined with fireclay stone 8, while the laying of fireclay stone 8 is made in the form of transverse horizontal partitions with the formation of a smoke channel 13, the total length of which exceeds the height of the storage module 3 due to the mentioned partitions. Said smoke channel 13 is made with the possibility of increasing the passage of air and gases inside the storage module 3.

From above, the working volume of the furnace is limited by cover 4, which is mounted on storage module 3 and consists of top and side walls. The walls of the cover 4 are lined from the inside with fireclay stone 8. A chimney outlet 11 is mounted in the upper wall, designed to remove combustion gases.

Universal modular oven operates as follows.

Solid fuel through the furnace door 10 is loaded into the furnace module 2, onto the grate 9 and set on fire. Air is supplied to the combustion module 2 in several ways:

through a partially extended ash pan 6;

through the convection channel 7;

through a semi-closed furnace door 10, equipped for this purpose with a gate (not shown in the figures).

When supplied through the convection channel 7, air can come either from the street (external environment), while oxygen is saved in the heated room, or from the underground space, while additional air convection is carried out in this space. When air is supplied through the semi-covered furnace door 10, the surface combustion mode is realized, as in hearth furnaces.

The ash and slag formed during the combustion of the fuel through the grate 9 enter the ash pan 6, from where they are periodically removed. Heated air and furnace gases rise up through the smoke channel 13 of the storage module 3 to the outlet for the chimney 12 and are removed from the heated room. When moving to the outlet for the chimney 12, hot gases heat the fireclay stone 8 located in the storage module 3 and the cover 4, which accumulates heat and releases it into the room within 6–12 hours after the combustion process stops. Also, fireclay stone 8 is located in the blower module 1 and the furnace module 2 and performs the function of heat storage.

In the storage module 3, fireclay stone 8 forms a smoke channel 13, due to which the storage module 3 performs the function of a spark arrester, namely, it knocks down sparks rising with the flow of furnace gases and prevents them from passing higher into the chimney. Soot is removed from the storage module 3 from its walls and from the walls of the smoke channel 13 as it accumulates through the cleaning door 11.

The total heat capacity of the furnace required to warm up the room is determined by the number of storage modules mounted in it 3. The ability to disassemble the furnace and change its configuration determines the versatility of this product.

The technical result of the utility model is to increase the versatility of the furnace, which is achieved due to the modular layout of the furnace and the connection of modules 1-3 and cover 4 to the top of them with a detachable gas-tight connection, which makes it possible to quickly mount / dismantle the furnace modules 1-3 for their subsequent replacement, repair or changing the number of storage modules 3, as well as due to the presence of a convection channel 7, brought out either into the underground space, while intensifying the air convection in the room and improving its heating, or to the street (outside environment), while reducing the combustion of oxygen in the heated room .

Claims (4)

1. A universal modular furnace containing a blower module with an ash pan and a grate, a combustion module, a storage module and a cover, a chimney outlet, characterized in that the blower module, the combustion module, the storage module / storage modules and the cover are mounted vertically on top of each other with using a detachable gas-tight connection, the combustion module and the storage module are formed by side walls, while the inner surface of the combustion module and the storage module, the upper wall of the blower module and the inner surface of the cover are lined with heat-insulating and heat-accumulating material, a convection channel is mounted to the bottom of the blower module, designed to provide supply of outside air inside the blower module, in the storage module, a smoke channel is made of heat-insulating and heat-accumulating material, the total length of which exceeds the height of the storage module with the possibility of increasing the path of passage i air and gases inside the storage module. 2. The furnace according to claim 1, characterized in that the heat-insulating and heat-storing material is made in the form of fireclay stone. 3. The stove according to claim 2, characterized in that the fireclay stone is mounted to the side walls of the furnace core and the storage module by ligation on a dry seam. 4. The oven according to claim 1, characterized in that a cleaning door is mounted on the front side wall of the storage module with the possibility of access to the inside of the said module.

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