RU2418242C2 - Fuel combustion furnace - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: combustion chamber includes housing containing inner and outer walls. Furnace includes partitions for division of space between walls into channels for air passage through them. Each channel has inlet and outlet. Inlet is made so that air source can be connected to it. Furnace door includes inner and outer walls. Partitions for division of the space between walls into channels having inlets and outlets are made between walls. Inlets of channels between walls of the door have the possibility of being adjoined to outlets of housing channels, and outlets have the possibility of air passing through them to combustion chamber. Inlets of furnace door channels are preferably located in upper part of door, and outlets - in its lower part. Inlets of housing channels of furnace are preferably located in lower part of furnace. Inner walls of furnace housing are preferably made as integral part or adjacent at least to one wall of furnace. Channels of housing and/or door of furnace preferably have rectangular section.

EFFECT: improving heat insulation, reducing energy losses of burnt fuel, simplifying the furnace construction.

4 cl, 4 dwg

Description

The invention relates to a device for burning fuel and can be used to create furnaces for various purposes.

A known furnace containing a combustion chamber and the door of this chamber, while the combustion chamber includes a housing containing air blown inner and outer walls (Published application of the Russian Federation 2003137855, publication date 10.06.2005). The authors did not solve the problem of improving thermal insulation, reducing fuel energy losses, and air flows in such a furnace during its operation do not provide optimization of the mentioned characteristics.

The task was to create such a door of the combustion chamber of the furnace, which would provide improved thermal insulation, reduced energy loss of combusted fuel, a simpler design with reduced manufacturing complexity.

This problem is solved by the present invention.

The furnace containing the combustion chamber and the door of this chamber, while the combustion chamber includes a housing containing air blown internal and external walls, according to the invention, contains partitions for dividing the space between the walls into channels for air to pass through them, each of the channels has an input and output moreover, the entrance is made with the possibility of attaching an air source to it, the furnace door contains internal and external walls, partitions are made between the walls to divide the space between the walls into channels, having entrances and exits, and the entrances of the channels between the walls of the door are configured to interface with the outputs of the channels of the housing, and the outputs are able to exit through them to the combustion chamber.

In a preferred embodiment of the invention, the entrances of the channels of the furnace door are located in the upper part of the door, and the outputs are in its lower part, while the entrances of the channels of the furnace body are located in the lower part of the furnace.

The inner walls of the furnace body are preferably integral with or associated with at least one wall of the furnace.

The channels of the housing and / or the door of the furnace are preferably made with a rectangular cross-section.

The creation of partitions for dividing the space between the inner and outer walls of the furnace body and the furnace door into channels ensures the strength of the case and door, which is sufficient for operation, and also reduces the likelihood of turbulent air flows between the walls, which would lead to an increase in the energy loss obtained by burning fuel.

The implementation of the channels of the housing with the possibility of connecting to the inputs of the channels of the air source, the possibility of pairing the outputs of the channels of the housing with the inputs of the channels between the walls of the door and the possibility of air entering the combustion chamber through the outputs of the channels between the walls of the door allows the passage of air flow, which in this case serves as a heat insulator, in the channels cases and doors and return of heat heated from the internal walls to the combustion chamber of the furnace.

The implementation of channels with a rectangular cross-section allows to ensure a minimum surface area of the walls of the furnace and, therefore, to minimize heat loss, and also allows to simplify the manufacture of the body and door.

The proposed device is shown in figure 1, which shows in detail the door together with the combustion chamber in vertical and horizontal sections.

Figure 2 shows in detail the channels of the furnace body.

The furnace contains a combustion chamber 1 and a door 2 of this chamber. The combustion chamber 1 includes a housing containing an inner 3 and an outer 4 wall. The furnace contains partitions 5 for dividing the space between the walls 3 and 4 into channels 6 for air to pass through them, each of the channels has an inlet and an outlet, and the inlet 7 is configured to connect an air source to it. The door 2 of the furnace contains an inner 8 and an outer 9 wall, between the walls there are partitions 10 for dividing the space between the walls into channels 11 having inputs 12 and outputs 13, and the inputs 12 of the channels 11 between the door walls are configured to interface with the outputs of the channels 6 of the housing, and exits 13 - with the possibility of air outlet through them into the combustion chamber 1. The inner walls 3 of the furnace body are made integral with or associated with at least one wall 13 of the furnace.

The furnace body is preferably made of metal, and the furnace has a refractory lining of the walls. Thus, the metal body of the furnace is an ordered ducts located over the entire surface of the furnace, and has mechanical and thermal contact with the refractory lining of the furnace.

The furnace operates as follows. The fuel is ignited in the combustion chamber 1 and the door 2 of the combustion chamber 1 is closed. The combustion products exit through the channel 14, which creates draft in the furnace. Due to traction or forcibly through the inlet 7, air is supplied to the channels 6, which is heated from the walls 13 and then the walls 3 and enters through the outlets conjugated with the inlets 12 into the channels 11 of the furnace door. The air located in the channels 11 is additionally heated from the wall 8, having no time to transfer heat to the wall 9 in any significant amount, it moves downward and enters the combustion chamber 1 through the outlets (openings 13), thus returning heat to the combustion chamber.

Thus, using this invention solves the problem. The energy received by the air when it performs the function of a heat insulator is returned to the furnace (with hot blasting) or can be used for other technological needs.

Claims (4)

1. A furnace containing a combustion chamber and a door to this chamber, wherein the combustion chamber includes a housing comprising air-blown inner and outer walls, characterized in that it comprises partitions for dividing the space between the walls into channels for air to pass through them, each of the channels has an entrance and an exit, the entrance being made with the possibility of attaching an air source to it, the furnace door contains internal and external walls, partitions are made between the walls to divide the space between the walls into ala having inputs and outputs, the inputs of channels between the walls of the door are configured to mate with the housing channel outputs, and outputs, with output air therethrough into the combustion chamber. 2. The furnace according to claim 1, characterized in that the inputs of the channels of the furnace door are located in the upper part of the door, and the outputs are in its lower part, while the inputs of the channels of the furnace body are located in the lower part of the furnace. 3. The furnace according to claim 1 or 2, characterized in that the inner walls of the furnace body are made integral with or associated with at least one wall of the furnace. 4. The furnace according to claim 1, characterized in that the channels of the housing and / or door of the furnace are made with a rectangular cross-section.

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