KR20100082884A - Semi bunsen type burner - Google Patents

Abstract

PURPOSE: A semi Bunsen type burner which miniaturizes a boiler by increasing output per a burner unit is provided to reduce harmfulness exhaust emission by increasing flow velocity and forming turbulence. CONSTITUTION: A semi Bunsen type burner comprises a plurality of burner units(100,110') and a second air passages(200,200',200"). A plurality of burner units comprises a first air channels(110,110') and flame formation parts(120,120'). The first air and a fuel of the air provided with a fan are mixed and provided in the first air channel. The flame formation part is formed on the top of the first air channel. The second air channel is formed on the space between burner units. The second air channel supplies the second air of the air provided by the fan. Guide plates(201,202,203) are installed in the second air channel.

Description

Semi bunsen type burner {SEMI BUNSEN TYPE BURNER}

The present invention relates to a semi bunsen type burner, and more particularly, to a semi bunsen type burner which can be used in a domestic gas boiler to reduce the emission of harmful substances and improve the combustibility.

In general, in the combustion method of gas fuel, premixed combustion in which gas fuel and combustion air are mixed in advance and then supplied to the combustion chamber, diffused combustion for separately supplying fuel and air, and premixed combustion and diffused combustion are mixed. There is a partial premixed combustion.

The diffusion flame has a disadvantage in that flame stability is good, but a lot of pollutants such as CO and NOx are generated. If the load is increased, the air flow rate of the mixed gas increases, so that the flame is blown, and thus an unstable flame is formed. The partial premixed combustion adopts the advantages of diffusion combustion and premixed combustion, and can improve flame stability while reducing generation of pollutants.

The partial premixed combustion refers to combustion that is performed by a semi bunsen type burner, wherein the semi bunsen type burner is a gas fuel and a portion of the air supplied from a fan (primary air) in advance. By mixing and supplying to the combustion unit to form a flame, the remaining (secondary air) of the air supplied from the fan (secondary air) is supplied to the flame forming part to induce complete combustion.

1 is a schematic view showing a conventional semi-bunsen type burner.

Semi-Bunsen type burners are used in general domestic gas boilers, and are composed of a plurality of burner units (10, 10 ') in which a flame is formed to realize the output required by a boiler.

Each burner unit 10, 10 ′ is provided with a primary air passage 11, 11 ′ therein and is supplied with a mixture of primary air and gaseous fuel supplied from a fan (not shown in the drawing). The mixer supplied through the primary air passages 11 and 11 'is burned in the flame forming units 12 and 12' to form a flame.

The spaces 20, 20 ′, 20 ″ between the burner units 10, 10 ′ form secondary air flow paths so that secondary air supplied from a fan (not shown) is supplied. Air is supplied to the flames of the flame forming parts 12 and 12 'to induce complete combustion.

In the case of such a burner is installed, the number of burner units (10, 10 ') is determined according to the output. That is, when the maximum output required in the boiler is 35,000kcal / h, about 15 burner units of 2,000 to 3,000kcal / h were installed and used. The output per burner unit may vary depending on the design, but has been generally required to be less than 2,000 kcal / h to prevent excessive generation of hazardous emissions (CO).

As such, when the output per burner unit is designed to be small, a large number of burner units must be installed to satisfy the maximum output required by the boiler, thereby increasing the volume of the combustion chamber, thereby increasing the overall boiler.

The present invention is to solve the above-mentioned problems, and to increase the flow rate of the secondary air supplied to the flame forming portion and to form turbulence to reduce the generation of harmful exhaust material, while increasing the output per burner unit to increase the boiler The purpose is to provide a semi-bunsen type burner that can be miniaturized.

Semi-Bunsen type burner of the present invention for achieving the above object, the primary air flow path for mixing the primary air which is a part of the air supplied by the fan for supplying the air and the fuel is formed therein and the primary The semi-bunsen is provided with a plurality of burner units having a flame forming portion on the upper portion of the air passage, and a secondary air passage for supplying secondary air, which is the remainder of the air supplied by the fan, to the space between the burner units. In the type burner, the secondary air flow path is characterized in that the guide plate for dividing the flow of the secondary air into two or more flows.

The guide plate may be installed to block the central portion of the secondary air flow path so that the secondary air may be divided into both sides of the guide plate.

The guide plate may be configured to have a flat plate shape.

The guide plate may be configured to be bent downward in the center portion to be symmetrical.

The guide plate may be configured such that the central portion is bent upwardly symmetrically.

According to the present invention, by providing a guide plate on the flow path of the secondary air supplied to the flame forming portion of the burner, there is an effect of increasing the flow rate of the secondary air and forming turbulence to reduce the harmful exhaust material. In addition, the output per burner unit can be increased, thereby miniaturizing the boiler.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view showing a burner structure according to an embodiment of the present invention.

The burner of the present invention has a primary air flow path (110,110 ') for supplying a mixture of primary air and fuel, which is a part of air supplied by a fan for supplying air (not shown in the drawing). It includes a plurality of burner units (100, 100 ') formed, the secondary air flow path (200, 200', 200 ") is formed in the space between the plurality of burner units (100, 100 ') to supply the secondary air.

Flame forming parts 120 and 120 'are formed on the burner units 100 and 100' to form a flame by burning by the mixer and the secondary air.

The primary air and the secondary air are branched from the lower portion of the burner units 100 and 100 'by the air supplied by one fan, so that the primary air is formed inside the burner units 100 and 100'. 110, 110 ′, and the remaining secondary air is supplied through the secondary air flow paths 200, 200 ′, 200 ″, which are spaces between the burner units 100, 100 ′.

Guide plates 201, 202, and 203 are provided on the secondary air flow paths 200, 200 ′, 200 ″ to divide the flow of the secondary air into two or more flows.

The guide plates 201, 202 and 203 have a flat plate shape, and the secondary air flow is divided into left and right sides of the guide plates 201, 202 and 203 by blocking the flow of the secondary air.

In the present embodiment, the flow of secondary air is divided into left and right sides, but it is also possible to divide into three or more flows.

When the secondary air flow is divided into both sides by the guide plates 201, 202 and 203, the flow rate of the secondary air is increased and the air flow becomes a turbulent flow as shown in FIG. A state closer to complete combustion can be achieved.

As a result, there is no need to limit the output per burner unit 100, 100 ′ to less than 2,000 kcal / h as in the prior art since the harmful emissions CO are reduced. Therefore, it is possible to increase the output per each burner unit (100, 100 ') can reduce the number of burner units to be installed to meet the output required in the boiler it is possible to miniaturize the boiler volume.

3 is a schematic view showing a burner structure according to another embodiment of the present invention.

In the present exemplary embodiment, the central plate is bent downward so that the guide plates 204, 205, and 206 are symmetrical to form a 'V' shape.

In this case, the secondary air is divided in both directions of the bent guide plates 204, 205, and 206, thereby increasing the flow velocity and forming turbulence, thereby realizing complete combustion.

4 is a schematic view showing a burner structure according to another embodiment of the present invention.

In the present exemplary embodiment, the center plate is bent upward so that the guide plates 207, 208, and 209 are symmetrical to form a '∧' shape.

Even in this case, the secondary air is divided in both directions of the bent guide plates 207, 208, and 209, thereby increasing the flow velocity and forming turbulence, thereby realizing complete combustion.

As described above, the present invention has been described using embodiments, but these embodiments are merely exemplary, and those skilled in the art may make various modifications and changes without departing from the spirit of the present invention. I can understand that.

1 is a schematic view showing a conventional semi-bunsen type burner,

2 is a schematic view showing a burner structure according to an embodiment of the present invention;

3 is a schematic view showing a burner structure according to another embodiment of the present invention;

4 is a schematic view showing a burner structure according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100, 100 ': burner unit 110, 110': primary air passage

120, 120 ': flame forming part 200,200', 200 ": secondary air flow path

201-209: guide plate

Claims (5)

A plurality of burner units having a flame forming part are formed therein, and a primary air flow path for mixing and supplying primary air, which is a part of air supplied by the air supply fan, and fuel is provided therein, and a flame forming part is formed on the upper portion of the primary air flow path. In the semi-bunsen type burner having a secondary air flow path for supplying the secondary air, which is the remainder of the air supplied by the fan to the space between the burner units, Semi-bunsen type burner, characterized in that the guide plate for dividing the flow of the secondary air into two or more flow is installed in the secondary air flow path. The method of claim 1, The guide plate is installed to block the central portion of the secondary air flow path, the secondary air is semi-bunsen type burner, characterized in that divided into both sides of the guide plate. The method of claim 2, Semi-bunsen type burner, characterized in that the guide plate is flat. The method of claim 2, The guide plate is a semi-bunsen type burner, characterized in that the central portion is bent downward so as to be symmetrical. The method of claim 2, Semi-bunsen type burner, characterized in that the guide plate is bent upward in the center portion to be symmetrical.

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