KR20050051244A - Gas radiation burner - Google Patents

Abstract

The present invention improves the structure of the gas radiation burner to prevent the flame burned in the burner mat directly contact the burner housing and to shield the heat lost through the burner housing to provide a stable combustion to improve the heat transfer efficiency to the heating element. It is to let.

To this end, the present invention comprises a burner mat which is ejected by a predetermined ignition means while the mixed gas mixed with air and gas is ejected and glowing through the surface combustion of the mixed gas; A gasket installed on an upper portion of the burner mat and having an opening formed at a center thereof to adjust a surface area of the burner mat; A burner housing installed at an upper portion of the gasket, the burner housing having an opening formed therethrough so that radiant energy radiated as the burner mat is glowing; The opening diameter of the burner housing provides a gas radiation burner, characterized in that formed larger than the opening diameter of the gasket.

In addition, the present invention comprises a burner mat which is blown by the predetermined ignition means while the mixed gas mixed with air and gas is ejected and glowing through the surface combustion of the mixed gas; A gasket installed at an upper portion of the burner mat and having an opening formed at a center thereof, wherein a surface area of the burner mat is adjusted as the diameter of the opening is changed to change a heat generating area for heating the heated object; Burner housing is installed on top of the gasket and the opening is formed so that the radiant energy radiated as the burner mat is glowing, it provides a gas radiation burner comprising a.

Description

Gas radiation burner

The present invention relates to a gas radiation burner, and more particularly to a structure of a burner housing that can prevent the burner housing from excessively rising due to the combustion of the mixed gas in the burner mat.

In general, a gas radiation burner is a burner that heats and cooks a heated object by using radiant energy generated when heating a radiant body by combustion of a mixed gas mixed with fuel and air.

Hereinafter, a gas radiation burner according to the prior art will be described with reference to the accompanying drawings.

1 is a plan view schematically illustrating a gas radiation burner according to the prior art, and FIG. 2 is a cross-sectional view schematically illustrating a separated state of the gas radiation burner of FIG. 1 along a line I-I.

As shown in Fig. 1 and 2, the gas radiation burner according to the prior art is a mixing tube (1) in which fuel and air are introduced and mixed with each other, and the mixed gas introduced in connection with the mixing tube (1) is burned The burner port 2, which is a space to be provided, the burner mat 3 installed in the seating portion 2a formed on the burner port 2, and is glowing by combustion of the mixed gas, and the burner mat 3 above. A gasket (4) installed at the center and having a circular opening (4a) formed at the center thereof to adjust the surface area of the burner mat (3), and radiant energy installed at the top of the gasket (4) and radiated from the burner mat (3). It comprises a burner housing (5) formed with a circular opening (5a) so as to pass through, and a glass (6) installed on the burner housing (5) on which the heating object is placed.

Here, the opening 5a of the burner housing 5 is formed with the same diameter D as the opening 4a of the gasket 4.

Referring to the operation of the gas radiation burner configured as described above are as follows.

First, when the user puts the heating element on the upper surface of the glass 6 and operates the gas radiation burner, fuel and air are introduced into the mixing tube 1 and mixed, respectively, and the mixed gas mixed as described above is the burner port 2 ) Is supplied through the burner mat (3).

At the same time, the mixed gas is ignited and combusted by a predetermined ignition means (not shown), the burner mat 3 is surface burned by the combustion of the mixed gas, and is glowing. Radiant energy is generated, and cooking of the heated object is performed by heating the heated object placed on the upper surface of the glass 6 through the generated radiant energy.

At this time, the exhaust gas generated after the combustion of the mixed gas is discharged through the exhaust port F formed inside the burner housing 5 at a high temperature of approximately 500 degrees Celsius or more.

However, in the gas radiation burner according to the prior art, since the diameter D of the opening portion 5a of the burner housing 5 and the opening portion 4a of the gasket 4 are formed to be the same, the opening portion of the burner housing 5 The outer edge of 5a) is directly contacted with the flame which is burned on the burner mat 3 and is deformed, so that the high temperature exhaust gas generated after combustion leaks, resulting in poor combustion, thereby increasing the concentration of carbon monoxide in the exhaust gas. there was.

In addition, conventionally, in the process of discharging the high-temperature exhaust gas generated after combustion to the exhaust port F, loss of heat that is conducted to the outside through the burner housing 5 is generated, thereby reducing the heat transfer efficiency to the heated object. The heat load inside the gas radiation burner has been raised and the room temperature has been raised.

The present invention has been made in order to solve the above problems, by increasing the opening diameter of the burner housing than the opening diameter of the gasket and covering the outer bottom surface of the opening of the burner housing with a ceramic sheet, to prevent the leakage of exhaust gas and to ensure stable combustion The purpose of the present invention is to provide a gas radiation burner which can provide heat transfer efficiency and increase the heat transfer efficiency to the heating element.

In order to achieve the above object, the present invention comprises a burner mat which is ejected by a predetermined ignition means while the mixed gas is mixed with air and gas is glowing by the surface combustion of the mixed gas; A gasket installed on an upper portion of the burner mat and having an opening formed at a center thereof to adjust a surface area of the burner mat; A burner housing installed at an upper portion of the gasket, the burner housing having an opening formed therethrough so that radiant energy radiated as the burner mat is glowing; The opening diameter of the burner housing provides a gas radiation burner, characterized in that formed larger than the opening diameter of the gasket.

On the other hand, according to another aspect of the present invention for achieving the above object, the burner mat and the ignition by the predetermined ignition means is ejected at the same time as the mixed gas mixed with air and gas is glowing by the surface combustion of the mixed gas and ; A gasket installed at an upper portion of the burner mat and having an opening formed at a center thereof, wherein a surface area of the burner mat is adjusted as the diameter of the opening is changed to change a heat generating area for heating the heated object; Burner housing is installed on top of the gasket and the opening is formed so that the radiant energy radiated as the burner mat is glowing, it provides a gas radiation burner comprising a.

Hereinafter, the gas radiation burner according to the present invention will be described in detail with reference to the accompanying drawings.

For reference, prior to describing the configuration of the present invention, in order to avoid duplication of description, it is assumed that the same reference numerals are used for the same parts as the prior art.

3 is a plan view schematically illustrating a gas radiation burner according to the present invention, and FIG. 4 is a cross-sectional view schematically illustrating a separated state of the gas radiation burner according to the present invention.

As shown in Figure 3 and 4, the gas radiation burner according to the present invention is a burner mat that is ignited by a predetermined ignition means and glowing through the surface combustion of the mixed gas at the same time as the mixed gas of air and gas is ejected (3) and the surface area of the burner mat (3) is adjusted by changing the diameter (D4) of the opening (40a) is provided in the upper portion of the burner mat (3) is formed in the center And the opening 50a is installed on the gasket 40 and the upper portion of the gasket 40 and the radiant energy radiated as the burner mat 3 is heated. It is configured to include a burner housing 50 formed.

Here, the diameter D5 of the opening 50a of the burner housing 50 is larger than the diameter D4 of the opening 40a of the gasket 40.

That is, the area of the opening 50a of the burner housing 50 is larger than the area of the burner mat 3 exposed through the opening 40a of the gasket 40.

Therefore, the flame generated by the combustion of the surface of the mixed gas in the burner mat 3 does not directly contact the edge of the opening 50a of the burner housing 50, and thus the burner housing 50 may be generated as the flame contacts. Deformation is prevented.

In addition, a ceramic sheet 55, which is a heat insulating member, is coated on the outer bottom surface of the opening 50a of the burner housing 50.

That is, in order to prevent the radiant energy generated by the surface combustion in the burner mat 3 and the heat contained in the high-temperature exhaust gas generated by the burner mat 3 being lost by conduction and heat transfer through the burner housing 50. It is to coat the ceramic sheet 55 on the outer lower surface of 50).

Referring to the operation of the present invention configured as described above are as follows.

First, when the user puts the heating element on the upper surface of the glass 6 and operates the gas radiation burner, fuel and air are introduced into the mixing tube 1 and mixed, respectively, and the mixed gas mixed as described above is the burner port 2 ) Is supplied through the burner mat (3).

At the same time, the mixed gas is ignited and combusted by a predetermined ignition means (not shown), the burner mat 3 is surface burned by the combustion of the mixed gas, and is glowing. Radiant energy is generated, and cooking of the heated object is performed by heating the heated object placed on the upper surface of the glass 6 through the generated radiant energy.

At this time, since the diameter (D5) of the opening (50a) of the burner housing 50 is larger than the diameter (D4) of the opening (40a) of the gasket 40, the flame generated by the surface combustion in the burner mat (3) Deformation of the burner housing 50 does not occur because the burner housing 50 is not directly in contact with the edge of the opening 50a of the burner housing 50.

Therefore, it is possible to prevent the leakage of the high-temperature exhaust gas generated after combustion, thereby inducing stable combustion in the burner mat 3 and thereby reducing the carbon monoxide concentration of the exhaust gas generated after combustion.

Meanwhile, the exhaust gas generated after the combustion of the mixed gas is discharged through the exhaust duct F formed inside the burner housing 50 at a high temperature of about 500 degrees Celsius or more.

At this time, since the ceramic sheet 55, which is a heat insulating member, is coated on the outer surface of the burner housing 50, the burner mat 3 is included in the radiant energy generated by the surface combustion and the generated high-temperature exhaust gas. By preventing the heat from being lost to the outside through the burner housing 50, the heat transfer efficiency to the heating element can be improved and the room temperature can be reduced.

Meanwhile, as the diameter D4 of the opening 40a of the gasket 40 is changed, the surface of the burner mat 3 exposed through the opening 50a of the burner housing 50 is adjusted to adjust the heated object. The heat generating area of the burner to be heated can be changed.

For example, the diameter D4 of the opening 40a of the gasket 40 may be changed to fit the area of the bottom surface of the heating element which is placed on the glass 6 and is in contact with the glass 6. By adjusting the area of the burner mat 3 exposed through the opening 50a, the heat generating area of the burner may be changed to correspond to the bottom surface area of the heating object.

That is, when the bottom surface of the to-be-heated body is about circular, the heat generation of the burner which heats a to-be-heated body by changing the diameter D4 of the opening part 40a of the gasket 40 substantially similarly to the said bottom surface diameter. The area can be optimized.

At this time, the diameter (D5) of the opening (50a) of the burner housing 50 is preferably formed larger than the diameter (D4) of the opening (40a) of the gasket (40).

As described above, the present invention has the effect of providing stable combustion by preventing the leakage of exhaust gas, thereby reducing the carbon monoxide concentration of the exhaust gas generated after combustion and preventing accidents in advance.

In addition, the heat dissipation discharged to the outside through burner housings is minimized to increase the heat transfer efficiency to the heated object, and the heat load transferred to the gas radiation burner through burner housings is minimized. It is effective to provide.

1 is a plan view schematically showing a gas radiation burner according to the prior art

FIG. 2 is a cross-sectional view schematically illustrating the separated state of the gas radiation burner of FIG. 1 along the line I-I. FIG.

3 is a plan view schematically showing a gas radiation burner according to the present invention

Figure 4 is a schematic cross-sectional view showing a separated state of the gas radiation burner according to the present invention

Explanation of symbols on main parts of drawing

1: Mixing pipe 2: Burner port

3: Burner Mat 6: Glass

40: Gasket 40a: Opening of the gasket

50: burner housing 50a: opening of burner housing

D4: Opening diameter of gasket D5: Opening diameter of burner housing

Claims (9)

A burner mat in which air and gas mixed gas are ejected and ignited by a predetermined ignition means and are glowing by surface combustion of the mixed gas; A gasket installed on an upper portion of the burner mat and having an opening formed at a center thereof to adjust a surface area of the burner mat; A burner housing installed at an upper portion of the gasket, the burner housing having an opening formed therethrough so that radiant energy radiated as the burner mat is glowing; And an opening diameter of the burner housing is larger than an opening diameter of the gasket. The method of claim 1, Gas burner, characterized in that the burner housing is provided with a heat insulating member. The method of claim 2, The heat radiation member is a gas radiation burner, characterized in that provided on the outer lower surface of the burner housing. The method of claim 2, The heat radiation member is a gas radiation burner, characterized in that the ceramic sheet formed of a ceramic material. A burner mat in which air and gas mixed gas are ejected and ignited by a predetermined ignition means and are glowing by surface combustion of the mixed gas; A gasket installed at an upper portion of the burner mat and having an opening formed at a center thereof, wherein a surface area of the burner mat is adjusted as the diameter of the opening is changed to change a heat generating area for heating the heated object; And a burner housing installed at an upper portion of the gasket and having an opening formed so that radiant energy radiated as the burner mat is glowing. The method of claim 5, And an opening diameter of the burner housing is larger than an opening diameter of the gasket. The method of claim 5, Gas burner, characterized in that the burner housing is provided with a heat insulating member. The method of claim 7, wherein The heat radiation member is a gas radiation burner, characterized in that provided on the outer lower surface of the burner housing. The method of claim 7, wherein The heat radiation member is a gas radiation burner, characterized in that the ceramic sheet formed of a ceramic material.