CN1995816B - Gas radiation burner - Google Patents

Abstract

A gas radiation burner for improving the efficiency of burning by promoting mixing of fuel gas and air is disclosed. The gas radiation burner includes a gas supply member for injecting gas, at least one mixing pipe for suctioning air along with the gas injected from the gas supply member to produce mixture gas and injecting the produced mixture gas, a burner pot for receiving the mixture gas supplied from the mixing pipe, a burner mat mounted at a top of the burner pot and adapted to emit radiation heat that is generated as the mixture gas supplied from the burner pot burns on the burner mat, and a burner housing located on a top of the burner mat and defining a burning chamber therein. The mixing pipe is connected to a predetermined position of a lateral portion of the burner pot such that the mixture gas supplied from the mixing pipe flows along an inner peripheral surface of the burner pot.

Description

Gas radiation burner

The application requires the priority of korean patent application No.10-2006-0001792 (submission on January 6th, 2006) and No.10-2006-0006427 (submission on January 20th, 2006), and they are combined in here by reference fully.

Technical field

The present invention relates to a kind of gas radiation burner, and relate more specifically to a kind of like this gas radiation burner, it can improve efficiency of combustion by promoting fuel gas and Air mixing.

Background technology

Usually, gas radiation burner is a kind of like this burner, wherein need heating object to utilize emittance and be heated and cook, when by burning because the mist that mixed fuel gas and air produce produces this emittance when adding heat radiator.

Below, traditional gas radiation burner is described with reference to the drawings.

Fig. 1 roughly illustrates the plan view of traditional gas radiation burner, and Fig. 2 is the cross sectional view along the line I-I of Fig. 1.

As illustrated in fig. 1 and 2, traditional gas radiation burner mainly comprises mixing duct 1, burner pot 2, combustor liners 3, burner outer cover 4 and glass 5.

Here, mixing duct 1 forms the space in inside, and wherein fuel gas and air are introduced into and are tentatively mixed.Fuel gas is from nozzle 1a injection and be introduced into mixing duct 1.Utilize the injection pressure of fuel gas, air is introduced into mixing duct 1 and mixed in mixing duct 1 with fuel gas, thereby produces mist.

Burner pot 2 is connected to mixing duct 1, and forms the space in inside, wherein is introduced into from the mist of mixing duct 1 and burns.Burner pot 2 has realization and is blended in the fuel gas that comprises in the mist and the function of air more equably, and this mist is introduced the burner pot 2 from mixing duct 1.

Combustor liners 3 is installed on the base portion 2a that forms at the place, top of burner pot 2.Combustor liners 3 has the function of emitted radiation energy, and when mist burnt on combustor liners 3, emittance was gathered in combustor liners 3.

Burner outer cover 4 is as the body of gas radiation burner.Burner pot 2 is coupled to burner outer cover 4.

In this case, burner outer cover 4 has circular open 4a and passes through from combustor liners 3 radiation emitted energy being used for.

Glass 5 is installed in the place, top of burner outer cover 4.Need heating object to be placed on the glass 5.

Simultaneously, burner outer cover 4 has blast pipe F, the waste gas that this blast pipe produces when mist burns with sucking-off as passage.

The operation of the gas radiation burner with above-mentioned structure is described now.

At first, if need heating object to be placed on the upper surface of glass 5 and the user operates this gas radiation burner, fuel gas and air are introduced in the mixing duct 1 and mix therein.Formed mist is fed in the burner pot 2 and by combustor liners 3 and sprays.

Side by side, thus the scheduled igniter (not shown) of mist light mist and on combustor liners 3, burn.Therefore when mist burnt, heat gathered in combustor liners 3, made combustor liners 3 emitted radiation energy.

Thus, be placed on emittance heating and the culinary art that the need heating object on the upper surface of glass 5 can be produced as mentioned above.

In this case, the waste gas that produces after the mist burning has roughly 500 degrees centigrade or higher temperature.Waste gas is discharged from by the blast pipe F that is arranged in the burner outer cover 4.

Yet traditional gas radiation burner has following problem.

At first, mist is directly upwards flowing on the burner pot 2 and this makes mist non-homogeneous burning on the surface of combustor liners 3.

Therefore, and since the non-completing combustion of mist, the problem that exists radiation efficiency to reduce, and exhausted air quantity increases.

The second, if mixing duct 1 is owing to the restriction of its mounting structure has the length of reduction, then mixing duct 1 can make fuel gas and the mixing of air in mixing duct 1 is inhomogeneous and therefore combustion of mixed gas is incomplete.This makes that radiation efficiency further reduces and exhausted air quantity further increases.

The 3rd, traditional gas radiation burner is difficult to as the internally-arranged type product.

Trend according to the internally-arranged type household electrical appliance, when burner pot 2 has the size of reduction and during the height that more specifically reduces, even mixing and mist that burner pot 2 is difficult to guarantee to be introduced into the mist in the burner pot 2 can not be sprayed equably by combustor liners 3.This makes combustion of mixed gas incomplete, causes radiation efficiency to reduce and the exhausted air quantity increase.

The 4th, because the restriction aspect mist being introduced in burner pot 2 and the combustion space these, the variable regulation and control of heat are impossible.

Summary of the invention

Correspondingly, the present invention relates to a kind of gas radiation burner, this burner has been avoided one or more problems of producing owing to the restriction of correlation technique and shortcoming substantially.

Target of the present invention is to provide a kind of and can makes simultaneously heat is carried out variable regulation and control by the gas radiation burner that promotes that fuel gas that mist comprises and Air mixing improve the mist efficiency of combustion.

Other advantage of the present invention, purpose and characteristic ground provide in the following description, and are obvious for those of ordinary skills by reading following description partly, perhaps can realize from implementing the present invention.Can realize and obtain the objectives and other advantages of the present invention by the structure of specifically noting in written description and claim and the accompanying drawing.

In order to realize these purposes and other advantage of target according to the present invention as embodying and broadly describing here, a kind of gas radiation burner comprises: the gas supply member that is used for injected gas; Be used for suction air together with the gas of injecting from gas supply member at least one mixing duct with generation mist and the mist that injection was produced; Be used to receive the combustion of mixed gas device jar of supplying with from mixing duct; The combustor liners of emitted radiation heat is located and is suitable at the top that is installed in burner pot, when the mist of supplying with from burner pot produces this radiations heat energy when combustor liners burns; And be positioned on the top of combustor liners and form the burner outer cover of combustion chamber therein, thereby wherein this mixing duct is connected to the mist the precalculated position of the sidepiece of burner pot supplied with from mixing duct and flows along the inner periphery surface of burner pot.

According to a further aspect in the invention, provide a kind of gas radiation burner, comprising: the gas supply member that is used for injected gas; Be used for suction air together with the gas of injecting from gas supply member at least one mixing duct with generation mist and the mist that injection was produced; Be used to receive the combustion of mixed gas device jar of supplying with from mixing duct; The combustor liners of emitted radiation heat is located and is suitable at the top that is mounted obliquely within burner pot, when the mist of supplying with from burner pot produces this radiations heat energy when combustor liners burns; And be positioned on the top of combustor liners and form the burner outer cover of combustion chamber therein.

According to a further aspect of the invention, provide a kind of gas radiation burner, comprising: the gas supply member that is used for injected gas; Be used for suction air together with a plurality of mixing ducts of the gas of injecting from gas supply member with generation mist and the mist that injection was produced; Be used to receive the combustion of mixed gas device jar of supplying with from mixing duct; The combustor liners of emitted radiation heat is located and is suitable at the top that is mounted obliquely within burner pot, when the mist of supplying with from burner pot produces this radiations heat energy when combustor liners burns; And be positioned on the top of combustor liners and form the burner outer cover of combustion chamber therein; Wherein this burner pot forms a plurality of independent spaces therein, and at least one mixing duct is connected to these a plurality of spaces each.

Should be appreciated that front of the present invention is general to be described and the detailed description of back all is exemplary and indicative and aims to provide as claimed of the present invention further describing.

Description of drawings

Be included in here to provide further understanding of the present invention and to be bonded in this application and the accompanying drawing that constitutes its part illustrates embodiments of the invention and be used from specification one and explain principle of the present invention.In the drawings:

Fig. 1 roughly illustrates the plan view of traditional gas radiation burner;

Fig. 2 is the cross sectional view along the line I-I intercepting of Fig. 1;

Fig. 3 is that signal has the perspective view according to the gas range of the gas radiation burner of the embodiment of the invention;

Fig. 4 is the cross sectional view of signal gas radiation burner of preferred first embodiment according to the present invention;

Fig. 5 roughly illustrates the plan view of syndeton of mixing duct shown in Figure 4 and burner pot;

Fig. 6 roughly illustrates plan view according to the pith of the gas radiation burner of second embodiment of the invention;

Fig. 7 roughly illustrates plan view according to the pith of the gas radiation burner of third embodiment of the invention;

Fig. 8 roughly illustrates cross sectional view according to the pith of the gas radiation burner of fourth embodiment of the invention;

Fig. 9 roughly illustrates cross sectional view according to the pith of the gas radiation burner of fifth embodiment of the invention;

Figure 10 roughly illustrates the plan view of structure of burner pot shown in Figure 9;

Figure 11 roughly illustrates cross sectional view according to the gas radiation burner of sixth embodiment of the invention;

Figure 12 roughly illustrates the plan view of structure of burner pot shown in Figure 11.

The specific embodiment

In detail with reference to the preferred embodiments of the present invention, the example is illustrated in the accompanying drawings now.Identical reference number will be used for as far as possible in the same or analogous part of institute's drawings attached expression.

Below, describe in further detail according to gas radiation burner of the present invention with reference to the accompanying drawings.

At first, with reference to figure 3 gas range that wherein uses according to gas radiation burner of the present invention is described.Fig. 3 is the view of the example of signal internally-arranged type gas range.

As shown in the figure, this gas range comprises body 100, baking box unit 110, grill unit 112 and the top burner unit 114 with a plurality of gas radiation burners 130.

Body 100 forms the outward appearance of gas range.Baking box unit 110 is arranged in the lower area of body 100 and has and wherein is used to from the convection heat of a plurality of heater (not shown) that are installed in baking box unit 110 and the space of cooking food.Grill unit 112 has for example fish and the meat space that mainly utilizes radiations heat energy to cook of food wherein.

Gas radiation burner 130 is arranged on the top of body 100 and with the device that acts on the cooking food by heating container, wherein food is accommodated in this container.Glass (as representing with reference number 137, seeing Fig. 4) is assembled in the top opening of each radiant burner 130.Glass is mainly formed by ceramic material.

Fig. 4 is the cross sectional view of signal gas radiation burner of preferred first embodiment according to the present invention, and this burner is suitable for being used in the gas range of Fig. 3.Fig. 5 roughly illustrates the plan view of syndeton of mixing duct shown in Figure 4 and burner pot.

With reference to Figure 4 and 5, comprise nozzle 131, mixing duct 132 and 133, burner pot 134, combustor liners 135, burner outer cover 136 and glass 137 according to each gas radiation burner 130 of this embodiment.If fuel gas is injected in mixing duct 132 and 133 by nozzle 131 together with air, then fuel gas and air mix in mixing duct 132 and 133.Formed mist is fed in the burner pot 134.When the mist of supplying with from burner pot 134 when combustor liners 135 burns, combustor liners 135 is heated emitted radiation heat thus.Burner outer cover 136 forms the place, top that combustion chamber and glass 137 are installed in burner outer cover 136 in inside.

In having the gas radiation burner 130 according to this embodiment of above-mentioned structure, burner pot 134, combustor liners 135, burner outer cover 136 and glass 137 have those identical functions with traditional gas radiation burner, and only have mixing duct 132 and 133 to have those different features with traditional gas radiation burner.Therefore, the main mixing duct of describing below.

Shown in Figure 4 and 5, can be connected to the precalculated position of the sidepiece of burner pot 134 according to the mixing duct 132 and 133 of the gas radiation burner 130 of this embodiment.Preferably, mixing duct 132 and 133 so is mounted, thereby mobile along the inner periphery surface of burner pot 134 from mixing duct 132 and 133 mists of supplying with.For this reason, preferably, thereby mixing duct 132 and 133 so is connected to burner pot 134 mixing ducts 132 and 133 inner periphery surfaces near burner pot 134.More preferably, mixing duct 132 and 133 is connected to burner pot 134 along tangential direction.Utilize this structure, as shown in Figure 5, if mist is introduced in the burner pot 134 by mixing duct 132 and 133, the fuel gas of the mist that then is introduced into and air can be mixed more efficiently mutually, and the inner periphery surface along burner pot 134 flows simultaneously.Here, though mixing duct 132 and 133 can be connected to burner pot 134 by after prefabricated respectively, preferably mixing duct 132 and 133 and burner pot 134 be integrally formed into.

Gas radiation burner 130 according to this embodiment has two mixing ducts, for example, and first mixing duct 132 and second mixing duct 133, but the present invention is not restricted to this.That is, independent mixing duct can be set, two or more mixing ducts perhaps are set.

Be provided with therein in the situation of two or more mixing ducts, as present embodiment, as shown in Figure 5, first and second mixing ducts 132 and 133 are preferably so arranged, thereby from mixing duct 131 and 132 mists of supplying with, along the inner periphery surface of burner pot 134, in certain orientation, flow.If the mist of supplying with from mixing duct 131 has different flow directions with the mist of supplying with from mixing duct 132, be that in problem the flow efficiency that supplies to the overall mist in the burner pot 134 reduces.More preferably, as shown in Figure 5,134 first and second mixing ducts 132 and 133 are symmetrical thereby first and second mixing ducts 132 and 133 can so be connected to burner pot.Utilize the mixing duct 132 and 133 of symmetric arrangement, the mist that supplies in the burner pot 134 can be mobile along the inner periphery surface of burner pot 134 more efficiently.This has the effect that promotes that fuel gas and air mix mutually.

In a word, have by allowing mist to flow along the inner periphery surface of burner pot 20 according to the gas radiation burner 130 of this embodiment to promote the effect that the fuel gas that comprises and air mix more equably in mist, this mist is fed into the burner pot 134 from first and second mixing ducts 132 and 133.The mixing uniformity that improves mist makes mist all even burn steadily on the surface of combustor liners 135, thereby improves radiation efficiency and reduce exhausted air quantity.

And, by using first mixing duct 132 and second mixing duct 133 to adopt multiple injection structure, can realize the even mixing of high turndown ratio, burner regulation ratio (Turn Down Ratio (TDR)) and realization mist, even when burner pot 134 has the size (i.e. the height of Jiang Diing) of reduction.Therefore, the gas radiation burner 130 according to this embodiment is suitable for being used in the internally-arranged type product.

Now, second embodiment that describes according to gas radiation burner of the present invention with reference to figure 6.Fig. 6 roughly illustrates plan view according to the pith of the gas radiation burner of second embodiment of the invention.Compare with previous embodiment, be to be provided with a plurality of first mixing ducts 132 and a plurality of second mixing duct 133 and be provided with to mix according to the difference of the gas radiation burner 130 of this embodiment and promote parts 140, but other structure and reference number can be with reference to those of previous embodiment.

As shown in Figure 6, gas radiation burner 130 according to this embodiment also can have a plurality of first mixing ducts 132 and a plurality of mixing duct 133, they are connected to the precalculated position of burner pot 134 sidepieces, and mixing promotes parts 140, they are respectively near the outlet side of first mixing duct 132 with near the outlet side of second mixing duct 133, and these mixings promotion parts 140 are used for promoting supplying to the fuel gas and the Air mixing of the mist of burner pot 134.Mix promoting parts 140 can be installed into from the inner bottom surface of burner pot 134 projects upwards with predetermined length.

Preferably, mix to promote parts 140 to be disposed between these a plurality of first mixing ducts 132 respectively and between these a plurality of second mixing ducts 133.Utilize this layout, the mist of supplying with from first mixing duct 132 and second mixing duct 133 can promote parts 140 and flows more efficiently and have the effect of mixing mutually of the fuel gas and the air that promote to supply to the mist in the burner pot 134 by this mixings.

More preferably, mix to promote parts 140 to have streamline shape corresponding to the bending direction of the inner periphery surface of burner pot 134.Utilize this structure, the mist of supplying with from first mixing duct 132 and second mixing duct 133 can promote parts 140 to flow more efficiently along the inner periphery surface of burner pot 134 and along mixing.This has the effect that promotes that fuel gas and air mix more equably.

In a word, adopt to mix and promote parts 140, compare with above-mentioned first embodiment, more efficiently flow and can promote fuel gas and air to mix more equably according to what the gas radiation burner 130 of this embodiment can realize supplying to mist in the burner pot 134.

Below, with reference to three embodiment of figure 7 descriptions according to gas radiation burner of the present invention.Fig. 7 roughly illustrates plan view according to the pith of the gas radiation burner of third embodiment of the invention.Compare with those of previous embodiment, difference according to the gas radiation burner 130 of this embodiment is, thereby a plurality of mixing ducts are connected to burner pot 134 and are provided with symmetrically and further and flow promote parts 150, but those of other structure and reference numbers previous embodiment.

As shown in Figure 7, gas radiation burner 130 according to this embodiment also can have four mixing ducts 151,152,153 and 154, thereby they so are connected to burner pot 134 symmetrically, and are used to promote the mobile promotion parts 150 that flow from the mist of these four mixing ducts dischargings.

Preferably, this flow to promote that parts 150 are fans, and this fan has a side being used for the aspirating mist that supplies to burner pot 134 from these four mixing ducts, and opposite side, to be used to discharge the mist that is aspirated.More preferably, this fan be set at respectively each mixing duct the port of export near.Utilize this structure, if mist supplies to the burner pot 134 from mixing duct, then mist is flowed and is promoted parts 150, and promptly fan moves forcibly, realizes the more efficient mobile of mist thus.Therefore this impel the fuel gas of mist and air to mix more equably.

Though the gas radiation burner 130 according to this embodiment has four mixing ducts, the present invention is the number of mixing duct without limits.And, be similar to aforesaid first embodiment, preferably, these a plurality of mixing ducts so arrange, thus the mist of supplying with from mixing duct is flowing along the direction of the inner periphery surface of burner pot 134.

With reference to four embodiment of figure 8 descriptions according to gas radiation burner of the present invention.Fig. 8 roughly illustrates cross sectional view according to the pith of the gas radiation burner of fourth embodiment of the invention.Compare with previous embodiment, be the structure of burner pot 134 and combustor liners 135 according to the difference of the gas radiation burner 130 of this embodiment, but those of other structure and reference numbers previous embodiment.

The combustor liners 163 that can have as shown in Figure 8, the place, top of burner pot of being mounted obliquely within 161 according to the gas radiation burner 130 of fourth embodiment of the invention.Here, thereby burner pot 161 can be perforated and has open top 162, and its forms plane inclined and is installed to burner pot 161 to allow combustor liners 163 with being tilted.

Former being coupled to after the combustor liners 163, burner pot 161 is coupled to burner outer cover 164.In this case, preferably, the attachment areas of burner pot 161 adjacent glass 137 has little anastomosis power, and the relative attachment areas of burner pot 161 (right side of Fig. 8) has big anastomosis power.This is the distortion that is passed to glass 137 and therefore prevents glass 137 for the anastomosis power that prevents burner pot 161 substantially.The opposite side that a side that it will be appreciated, of course, that burner pot 161 can directly be connected to glass 137 and burner pot 161 can be coupled to burner outer cover 164.

In a word, thus since obliquely a side of install combustion device liner 130 burner pot 161 have the effect that is reduced in the difference in height between glass 137 and the burner pot 161 according to the gas radiation burner 130 of this embodiment near glass 137.

The 5th embodiment of the gas radiation burner according to the present invention is described with reference to figure 9 and 10.Fig. 9 roughly illustrates cross sectional view according to the pith of the gas radiation burner of fifth embodiment of the invention.Figure 10 roughly illustrates the plan view of structure of burner pot shown in Figure 9.Compare with above-mentioned first to the 3rd embodiment, only be burner pot 134 according to the difference of the gas radiation burner 130 of this embodiment, but those of other structure and reference numbers first to the 3rd embodiment.

Gas radiation burner 130 employings according to fifth embodiment of the invention have the burner pot 170 in a plurality of independent spaces, and a plurality of mixing ducts can be connected to respectively this a plurality of independent spaces, so that mist is supplied in each space.In this case, mixing duct can be controlled to optionally mist be supplied in corresponding each space based on the desired desirable heat of need heating object.

Alternatively, a plurality of mixing ducts can be connected to each of these a plurality of independent spaces.Preferably, the number that is connected to the mixing duct in large scale space is higher than the number of the mixing duct that is connected to the small size space.This is to supply with the suitable gaseous mixture scale of construction for the size according to each space.

Though the burner pot 170 according to this embodiment can have a plurality of independent spaces, for the ease of explaining and signal two spaces that the embodiment shown in Fig. 9 and 10 only adopts I to be formed by internal-combustion device jar 171 and external firing device jar 172.

As shown in Figures 9 and 10, can comprise internal-combustion device jar 171 being used for forming predetermined space according to the burner pot 170 of this embodiment, and the external firing device jar 172 that provides around internal-combustion device jar 171 is to form the space that is separated from the space that is formed by internal-combustion device jar 171 in the central authorities of burner pot 170.Gas radiation burner 130 according to this embodiment also can have the internal mix pipeline 174 that is used for mist is supplied to internal-combustion device jar 171, and the external mix pipeline 173 that is used for mist is supplied to external firing device jar 172.It will be appreciated, of course, that to provide a plurality of internal mix pipelines 174 and a plurality of external mix pipeline 173 respectively.

Preferably, internal-combustion device jar 171 has the shape corresponding to external firing device jar 172.Especially, when external firing device jar 172 has when round-shaped, internal-combustion device jar 171 also can have identical round-shaped and be located in the external firing device jar 172.In this case, more preferably, the edge of inner burner jar 171 is with the edge separation of preset distance from external firing device jar 172, to obtain to be enough to make space that mist externally flows in the burner pot 172 and be enough to the space that makes that mist flows in internal-combustion device jar 171.

Inside and outside mixing duct 174 and 173 can be connected to the precalculated position of the sidepiece of inside and outside burner pot 171 and 172 respectively, thereby mist is mobile along the inner periphery surface of inside and outside burner pot 171 and 172.For this reason, preferably, thereby internal mix pipeline 174 can so be connected to the inner periphery surface of internal-combustion device jar 171 internal mix pipelines 174 near internal-combustion device jars 171, thereby and external mix pipeline 173 can be connected to the inner periphery surface of external firing device jar 172 external mix pipelines 173 near external firing device jars 172.More preferably, inside and outside mixing duct 174 and 173 is connected to inside and outside burner pot 171 and 172 along tangential direction respectively.Thus, internally can be mobile along the inner periphery surface of inside and outside burner pot 171 and 172 efficiently with external mix pipeline 174 and 173 mists of supplying with.

Usually, external firing device jar 172 has bigger inner space than internal-combustion device jar 171.Therefore, the number that preferably is connected to the external mix pipeline 173 of external firing device jar 172 is higher than the number of the internal mix pipeline 174 that is connected to internal-combustion device jar 171.This is in order to realize the lip-deep even burning of mist at combustor liners 135.If a plurality of external mix pipelines 173 are provided, as shown in figure 10, then along the direction of the inner periphery surface of external firing device jar 172, be supplied to from the mist of external mix pipeline 173 discharging.More preferably, these a plurality of external mix pipelines 173 can be connected to external firing device jar 172, thereby symmetrically.

Utilization has this embodiment of above-mentioned structure, and external mix pipeline 173 and internal mix pipeline 174 can be controlled to optionally supply with mist according to the desired desirable heat of need heating object.For example, if need heating object require a spot of heat, thereby then mist only is fed into by internal mix pipeline 174 that combustor liners 135 has little area of heating surface area in the internal-combustion device jar 171.On the contrary, if need heating object to require a large amount of heats, thereby then mist is fed into by inside and outside mixing duct 174 and 173 that combustor liners 135 has big area of heating surface area in inside and outside burner pot 171 and 172.

In a word, make it possible to adjust the area of heating surface area of combustor liners 3 according to the gas radiation burner 130 of this embodiment, mist is in this area of heating surface place burning and gather calory burning.This has the effect that change is passed to the heat that needs heating object.

With reference to Figure 11 and 12 the 6th embodiment that describe according to gas radiation burner of the present invention.Figure 11 roughly illustrates cross sectional view according to the gas radiation burner of sixth embodiment of the invention, and Figure 12 roughly illustrates the plan view of structure of burner pot shown in Figure 11.Compare with above-mentioned the 5th embodiment, be the number of inside and outside mixing duct according to the difference of the gas radiation burner of this embodiment, but those of above-mentioned the 5th embodiment of other structure and reference numbers.

Shown in Figure 11 and 12, have a plurality of internal mix pipelines 174 and a plurality of external mix pipeline 173 according to the gas radiation burner 130 of sixth embodiment of the invention, to realize the more efficient change of heat.

In a word, have the effect that optionally adjustment is introduced in the gaseous mixture scale of construction in the external firing device jar 172 and is introduced into the gaseous mixture scale of construction in the internal-combustion device jar 171, thereby change heat according to the gas radiation burner of this embodiment.And, have the effect of the number of the number of optionally adjusting external mix pipeline 173 in operation and internal mix pipeline 174 in operation according to the gas radiation burner of this embodiment, thereby change heat.As a result, according to this embodiment, can utilize the stage number of increase to regulate heat, and this has realized the more efficient change of heat.

Here, thereby be connected in inside or external firing device jar 171 or 172 inside or external mix pipeline 174 or 173 situation that the next-door neighbour arranges mutually at a plurality of inside or external mix pipeline 174 or 173, as shown in figure 12, these a plurality of inside or external mix pipeline 174 or 173 preferably have different length each other.This is to consider that inside and outside burner pot 171 and 172 has the fact of the size littler than the overall space size of burner pot 170.Promptly, these a plurality of inside and outside mixing ducts 174 and 173 that have different length each other allow mist to be fed in inside and outside burner pot 171 and 172 at the diverse location place, realize efficient flow of mist in inside and outside burner pot 171 and 172 thus.

As can be clearly from top description, gas radiation burner according to the present invention has following effect.

At first, by promoting the burning of mist, this gas radiation burner can be realized mist all even stable burnings on burner liner surface, improves thus radiation efficiency and reduces exhausted air quantity.

The second, promote the burning of mist to have the carbon monoxide amount that produces between the mist main combustion period that is reduced in, improve the effect of the characteristic of the waste gas that between the mist main combustion period, produces. Therefore, the present invention can significantly reduce environmental pollution.

The 3rd, use the multiple injections structure of a plurality of mixing ducts can realize high Turn DownRatio (TDR), and realize the even mixing of mist, even when the burner tank has little size (being little height). As a result, the gas radiation burner is suitable for being used in the internally-arranged type product.

The 4th, can regulate the area of heating surface area of burner liner, mist is in this area of heating surface place burning and gather because the heat that mist burns and produces. Therefore this make it possible to change and will be passed to the heat that needs heating object and the cooking zone that changes the gas radiation burner.

Those of ordinary skills can be clear, under the prerequisite that does not deviate from spirit and scope of the invention, can make various modifications and change to the present invention. Therefore, the present invention is intended to contain the scope that belongs to claims and modification of the present invention and the change in the equivalent form of value thereof.

Claims (4)

1. gas radiation burner comprises:

The gas supply member that is used for injected gas;

Be used for suction air together with a plurality of first mixing ducts (132) and a plurality of second mixing duct (133) of the gas of injecting from gas supply member with generation mist and the mist that injection was produced;

Be used to receive the combustion of mixed gas device jar of supplying with from mixing duct;

The combustor liners of emitted radiation heat is located and is suitable at the top that is installed in burner pot, when the mist of supplying with from burner pot produces this radiations heat energy when combustor liners burns; And

Be positioned on the top of combustor liners and form the burner outer cover of combustion chamber therein,

Thereby wherein said mixing duct is connected to the mist supplied with from mixing duct in the precalculated position of the sidepiece of burner pot to flow along the inner periphery surface of burner pot, and described gas radiation burner comprises that also a plurality of mixing promote parts, described a plurality of mixing promotes parts to be disposed between described a plurality of first mixing duct respectively and between described a plurality of second mixing duct, and has the corresponding streamline-shaped of bending direction with the inner periphery surface of burner pot.

2. according to the gas radiation burner of claim 1, wherein mixing duct is connected to burner pot along tangential direction.

3. according to the gas radiation burner of claim 2, wherein mixing duct and burner pot are integrally formed into.

4. according to the gas radiation burner of claim 1, wherein said mixing duct is supplied with mist, and mist is flowed along certain orientation.

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