阅读说明：本技术 一种燃气燃烧器 (Gas burner ) 是由 王�琦 陈冉 孙公钢 于 2021-11-15 设计创作，主要内容包括：本发明公开了一种燃气燃烧器,包括燃气管道、空气管道,所述燃气管道包括一次燃气管道和二次燃气管道,所述空气管道包括一次空气管道和二次空气管道。本发明一次燃气管道末端设有可闭合式燃气喷口,闭合片末端一侧与边沿采用合页连接方式,使闭合片通过风量的控制能够实现开闭,形成扰流和燃气分级,实现燃气充分燃烧,二次燃气管道侧面开有二次燃气喷口,且设有反切角度,与通过轴向旋流器的助燃风成相反方向混合,配风盘交错设置多个凹凸不平的空气喷口,使得空气喷口具有高低差,实现了分级燃烧,凹凸不平的空气喷口形成多股平行射流,可以显著增加空气射流的表面积,使空气能够和燃气充分混合,同时能够强化空气和燃气的分级燃烧效果。(The invention discloses a gas burner which comprises a gas pipeline and an air pipeline, wherein the gas pipeline comprises a primary gas pipeline and a secondary gas pipeline, and the air pipeline comprises a primary air pipeline and a secondary air pipeline. The invention discloses a gas pipeline, which is characterized in that a closable gas nozzle is arranged at the tail end of a primary gas pipeline, one side of the tail end of a closing piece and the edge of the closing piece are connected in a hinge mode, so that the closing piece can be opened and closed by controlling the air quantity to form turbulent flow and gas classification, and the gas is fully combusted, the secondary gas nozzle is arranged on the side surface of a secondary gas pipeline and is provided with a reverse cutting angle, and is mixed with combustion-supporting air passing through an axial swirler in the opposite direction, and a plurality of rugged air nozzles are staggered on an air distribution plate, so that the air nozzles have height difference, the staged combustion is realized, and the rugged air nozzles form a plurality of parallel jets, so that the surface area of the air jets can be obviously increased, the air can be fully mixed with the gas, and the staged combustion effect of the air and the gas can be enhanced.)

1. The gas burner is characterized by comprising a gas pipeline and an air pipeline, wherein the gas pipeline comprises a primary gas pipeline (3) and a secondary gas pipeline (1), and the air pipeline comprises a primary air pipeline (6) and a secondary air pipeline (8);

the primary gas pipeline (3) is arranged inside the primary air pipeline (6), the upper end of the primary gas pipeline (3) is provided with a primary gas nozzle (13), the primary gas nozzle (13) is a closable nozzle and is used for supplying gas to central flame, the secondary gas pipelines (1) are distributed on the outer side of the secondary air pipeline (8) in an array mode along the circumferential direction, and the lower end of the secondary gas pipeline (1) is connected with a gas header (10);

primary air pipeline (6) set up the inside at secondary air pipeline (8), primary air pipeline (6) upper end is provided with the air outlet, and the port is the flaring form, secondary air pipeline (8) set up to venturi convergent-divergent pipe, and the port is the throat form, primary air pipeline (6) upper end is provided with air distribution plate (4), be provided with a plurality of air spout (15) on air distribution plate (4) for combustion-supporting wind is supplied with for primary gas pipeline (3).

2. The gas burner according to claim 1, wherein the gas header (10) and the primary gas pipeline (3) are both connected to a gas source pipeline, a three-way valve is arranged on the gas source pipeline, the gas header (10) is connected to one end of the three-way valve, the primary gas pipeline (3) is connected to the other end of the three-way valve, an adjusting valve (16) is further arranged between the gas header (10) and the three-way valve, and the adjusting valve (16) is used for controlling the gas inflow of the gas header (10) and the secondary gas pipeline (1).

3. The gas burner as recited in claim 1, wherein the primary gas nozzle (13) is disposed in the middle of the air distribution plate (4) and lower than the edge of the air distribution plate (4), the primary gas nozzle (13) is in a boss shape, a plurality of closing pieces (12) are disposed on the side edges of the primary gas nozzle, one side of each closing piece (12) is hinged to the primary gas nozzle (13), the other side edge of each closing piece (12) is arc-shaped, two gas injection holes (20) are disposed on each closing piece (12), the closing pieces (12) can be opened and closed by controlling the air volume, so that turbulence and gas classification are formed, full combustion of gas is achieved, and the closing pieces (12) are distributed on the primary gas nozzle (13) in an array manner along the circumferential direction.

4. The gas burner as claimed in claim 1, wherein the air distributor (4) at the upper end of the primary air duct (6) is flared, a plurality of air nozzles (15) are arranged on the air distributor (4), and a part of the air nozzles (15) are first convex nozzles (21) which are convex upwards, and the other part of the air nozzles are second convex nozzles (22) which are convex downwards; and first bellmouth (21), regular distribution of second bellmouth (22) is on air distribution plate (4), two adjacent circles of air spout (15) are first bellmouth (21) and second bellmouth (22) respectively, or two adjacent air spout (15) are first bellmouth (21) and second bellmouth (22) respectively, or first bellmouth (21) and second bellmouth (22) crisscross setting, a plurality of unevenness's first bellmouth (21) and second bellmouth (22), form the parallel efflux of stranded, can show the surface area that increases the air efflux, make the air can with the gas intensive mixing, can strengthen the hierarchical combustion effect of air and gas simultaneously.

5. The gas burner as claimed in claim 1, wherein one side of the upper end of the secondary gas duct (1) is provided with two secondary gas nozzles (9) which are distributed up and down, the secondary gas nozzles (9) extend out to the side, and a deflection angle is arranged between the secondary gas nozzles and the radial direction of the burner.

6. The gas burner according to claim 5, characterized in that a circular ring-shaped baffle (2) is arranged on the inner side of the secondary gas pipeline (1), the circular ring-shaped baffle (2) is connected with a pull rod (19), a fixing buckle (11) is arranged on the secondary air pipeline (8), the pull rod (19) is connected to the secondary air pipeline (8) through the fixing buckle (11), a hand push handle (7) is arranged at the lower end of the pull rod (19), the circular ring-shaped baffle (2) can be controlled to move axially through the hand push handle (7), and baffle holes (14) are formed in the circular ring-shaped baffle (2).

7. A gas burner according to claim 1, characterized in that an axial swirler (5) is arranged in the secondary air duct (8), said axial swirler (5) being provided with a plurality of vanes, said vanes being arranged with a deflection angle to the secondary air duct (8).

8. The gas burner as claimed in claim 2, characterized in that the lower end of the secondary air pipe (8) is provided with a base (18), one end of the primary gas pipe (3) passes through the base (18) and is connected with a gas source pipe, the regulating valve (16) is connected with the gas header (10) through a pipe, and the pipe is tangentially connected with the gas header (10).

9. A gas burner according to claim 1, characterized in that a support (17) is arranged outside the secondary air duct (8), and the secondary gas duct (1) is arranged outside the secondary air duct (8) by means of the support (17).

10. The gas burner as claimed in claim 6, characterized in that the baffle hole (14) and the secondary gas nozzle (9) are in a vertical line, the annular baffle (2) moves along the axial direction, and the baffle hole (14) can be communicated with one of the secondary gas nozzles (9) to realize gas ejection.

Technical Field

The invention relates to the field of burners, in particular to a gas burner.

Background

At present, the environmental quality safety is paid attention by all levels of governments and people, and the content of nitrogen oxides in the smoke emission of the boiler is regarded as an extremely important index. The nitrogen oxides generated in the combustion process of the gas burner are mainly NO, NO2 and the like, which are collectively called NOx. Therefore, the importance of studying low nitrogen control of the burner is self evident. The burner is used as a core device for controlling NOx of a gas boiler, and the development of a low NOx burner becomes a hot spot project in the gas industry at home and abroad. Has profound practical significance for improving the quality of atmospheric environment and improving the ecological environment.

At present, the low-nitrogen burner is various in types, and air and gas staged combustion in the design principle is an effective measure capable of greatly reducing NOx, so that the burner which is safer and more reliable is provided by the aid of the following technologies: the air and the fuel gas are combusted in a grading way, and the NOx emission is reduced by the design of the combustor and the mixing of the air distribution of the combustor and the fuel gas.

Disclosure of Invention

The invention aims to provide a gas burner to solve the technical defects of the prior art and the technical requirements which cannot be met.

In order to achieve the purpose, the invention provides the following technical scheme: a gas burner comprises a gas pipeline and an air pipeline, wherein the gas pipeline comprises a primary gas pipeline and a secondary gas pipeline, and the air pipeline comprises a primary air pipeline and a secondary air pipeline;

the primary gas pipeline is arranged inside the primary air pipeline, the upper end of the primary gas pipeline is provided with a primary gas nozzle which is a closable nozzle and is used for supplying gas to central flame, the secondary gas pipelines are distributed on the outer side of the secondary air pipeline in an array mode along the circumferential direction, and the lower end of the secondary gas pipeline is connected with a gas header;

the utility model discloses a combustion-supporting gas pipeline, including secondary air pipeline, primary air pipeline, port, secondary air pipeline, air distribution plate, air outlet, air distribution plate, air outlet, air distribution plate, air outlet, air inlet, air outlet, air inlet, air outlet, air outlet, air outlet, air outlet, air outlet, air.

Preferably, gas collection case, a gas pipeline all with the air supply pipe connection, be equipped with the three-way valve on the air supply pipeline, the gas collection case is connected with the one end of three-way valve, a gas pipeline is connected with the other end of three-way valve, still be equipped with adjusting valve between gas collection case and the three-way valve, adjusting valve is used for controlling the air input of gas collection case and secondary gas pipeline.

Preferably, the primary gas nozzle is arranged in the middle of the air distribution plate and is lower than the edge of the air distribution plate, the primary gas nozzle is in a boss shape, a plurality of closing pieces are arranged on the side edge, one side of each closing piece is hinged to the primary gas nozzle, the edge of the other side of each closing piece is in an arc shape, two gas spray holes are formed in each closing piece, the closing pieces can be opened and closed through the control of air quantity, accordingly, turbulence and gas classification are formed, full combustion of gas is achieved, and the closing pieces are distributed on the primary gas nozzle in an array mode in the circumferential direction.

Preferably, the shape of the air distribution plate at the upper end of the primary air pipeline is in a flaring shape, a plurality of air nozzles are arranged on the air distribution plate, one part of each air nozzle is a first convex nozzle which is convex upwards, and the other part of each air nozzle is a second convex nozzle which is convex downwards; and first bellmouth, the regular distribution of second bellmouth is on the air distribution dish, two adjacent circles of air jets are first bellmouth and second bellmouth respectively, or two adjacent air jets are first bellmouth and second bellmouth respectively, or first bellmouth and the crisscross setting of second bellmouth, the first bellmouth of a plurality of unevenness and second bellmouth, form the parallel efflux of stranded, can show the surface area that increases the air efflux, make the air can with the gas intensive mixing, the fractional combustion effect of air and gas can be reinforceed simultaneously.

Preferably, one side of the upper end of the secondary gas pipeline is provided with two secondary gas nozzles which are distributed up and down, the secondary gas nozzles extend out to the side face, and a deflection angle is formed between the secondary gas nozzles and the radial direction of the combustor.

Preferably, the secondary gas pipeline inboard is equipped with ring shape baffle, ring shape baffle is connected with the pull rod, the last fixed buckle that is equipped with of secondary air pipeline, the pull rod passes through fixed buckle and connects on secondary air pipeline, the lower extreme of pull rod is equipped with the hand push handle, can control ring shape baffle along axial displacement through the hand push handle, the last baffle hole of having seted up of ring shape baffle.

Preferably, an axial swirler is arranged in the secondary air pipeline, a plurality of blades are arranged on the axial swirler, and a deflection angle is arranged between each blade and the secondary air pipeline.

Preferably, the secondary air pipeline lower extreme is provided with the base, the one end of primary gas pipeline is passed the base and is connected with the air supply pipeline, pass through the pipe connection between governing valve and the gas header, the pipeline is connected with the gas header in the tangential.

Preferably, a support is arranged on the outer side of the secondary air pipeline, and the secondary gas pipeline is arranged on the outer side of the secondary air pipeline through the support.

Preferably, the baffle hole and the secondary gas nozzle are located on a vertical line, the annular baffle moves along the axial direction, and the baffle hole can be communicated with one secondary gas nozzle to realize gas ejection.

Compared with the prior art, the invention has the following beneficial effects:

1. the tail end of the primary gas pipeline is provided with a closable gas nozzle, one side of the tail end of the closing piece is connected with the edge in a hinge mode, so that the closing piece can be opened and closed by controlling the air volume, and the closing piece is provided with a gas nozzle hole for controlling the gas volume so as to achieve the purpose of realizing gas classification under the condition of cross proceeding of oxygen enrichment and oxygen deficiency;

2. the secondary gas pipeline is provided with a secondary gas nozzle on the side surface, is provided with a reverse cutting angle, and is mixed with combustion-supporting air passing through the axial swirler in the opposite direction, the secondary gas nozzle adopts a porous structure, the inner side of the secondary gas nozzle is provided with an annular baffle plate, the baffle plate is provided with a baffle plate hole, and the matching of the baffle plate hole and the secondary gas nozzle can be controlled through an external hand-push handle, so that the gas quantity is controlled, the local high-temperature area is further reduced, and the generation of NOx is inhibited;

3. the air distribution plate is provided with a plurality of rugged air nozzles in a staggered manner, so that the air nozzles have height difference, staged combustion is realized, and the rugged air nozzles form a plurality of strands of parallel jet flows, thus not only being capable of obviously increasing the surface area of the air jet flow and leading the air to be capable of being fully mixed with the fuel gas, but also being capable of strengthening the staged combustion effect of the air and the fuel gas.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic side view of the present invention;

FIG. 6 is a schematic structural diagram of the primary gas showerhead of the present invention;

FIG. 7 is a schematic view of the assembly of the annular baffle of the present invention with a secondary gas conduit;

FIG. 8 is a top view of the annular baffle of the present invention and a secondary gas conduit;

FIG. 9 is a schematic view of an axial swirler according to the present invention;

in the figure: 1-secondary gas pipeline; 2-a circular baffle; 3-primary gas pipeline; 4-air distribution plate; 5-axial swirler; 6-primary air pipeline; 7-a hand-push handle; 8-secondary air ducts; 9-secondary gas nozzle; 10-a gas header; 11-fixing a buckle; 12-a closing sheet; 13-primary gas nozzle; 14-baffle holes; 15-air jets; 16-a regulating valve; 17-a scaffold; 18-a base; 19-a pull rod; 20-gas spraying holes; 21-a first nipple; 22-second nipple.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a gas burner comprises a gas pipeline and an air pipeline, wherein the gas pipeline comprises a primary gas pipeline 3 and a secondary gas pipeline 1, and the air pipeline comprises a primary air pipeline 6 and a secondary air pipeline 8;

the primary gas pipeline 3 is arranged inside the primary air pipeline 6, a primary gas nozzle 13 is arranged at the upper end of the primary gas pipeline 3, the primary gas nozzle 13 is a closable nozzle and is used for supplying gas to central flame, the secondary gas pipelines 1 are distributed on the outer side of the secondary air pipeline 8 in an array mode along the circumferential direction, and the lower end of the secondary gas pipeline 1 is connected with a gas header 10; the primary gas pipeline 3 and the primary air pipeline 6 are coaxially arranged;

the primary air pipeline 6 is arranged inside the secondary air pipeline 8, an air outlet is formed in the upper end of the primary air pipeline 6, the port of the primary air pipeline is in a flaring shape, the secondary air pipeline 8 is a Venturi contraction and expansion pipe, the port of the secondary air pipeline is in a contraction and expansion shape, an air distribution plate 4 is arranged at the upper end of the primary air pipeline 6, and a plurality of air nozzles 15 are arranged on the air distribution plate 4 and used for supplying combustion-supporting air to the primary gas pipeline 3; the primary air duct 6 is inserted into the combustor, and can be fixed by mounting through a mounting plate, and the front end of the primary air duct 6 is exposed to the combustion chamber inside the combustor for guiding combustion-supporting air to the combustion chamber.

As shown in fig. 1 and 2, the gas header 10 and the primary gas pipeline 3 are both connected to a gas source pipeline, a three-way valve is arranged on the gas source pipeline, the gas header 10 is connected to one end of the three-way valve, the primary gas pipeline 3 is connected to the other end of the three-way valve, an adjusting valve 16 is further arranged between the gas header 10 and the three-way valve, and the adjusting valve 16 is used for controlling the air inflow of the gas header 10 and the secondary gas pipeline 1.

As shown in fig. 3 and 6, the primary gas nozzle 13 is arranged in the middle of the air distribution plate 4 and is lower than the edge of the air distribution plate 4, the primary gas nozzle 13 is in a boss shape, a plurality of closing pieces 12 are arranged on the side edge, one side of each closing piece 12 is hinged to the primary gas nozzle 13, the edge of the other side of each closing piece 12 is in an arc shape, two gas nozzles 20 are arranged on each closing piece 12, the closing pieces 12 can be opened and closed by controlling the air volume, and the closing pieces 12 are distributed on the primary gas nozzle 13 in an array manner along the circumferential direction; when the fuel gas passes through the closing sheet 12, the closing sheet 12 can be blown up, then the closing sheet 12 falls down due to the action of gravity to form the condition of alternate opening and closing, so that the condition of more fuel gas and less fuel gas are alternately formed, the condition of cross proceeding of oxygen enrichment and oxygen deficiency is realized, the fuel gas can be sprayed out from the fuel gas spray holes 20, the purpose of fuel gas classification is realized, meanwhile, the alternate opening and closing of the closing sheet 12 form turbulent flow, the fuel gas and combustion-supporting air can be fully mixed, and the fuel gas can be fully combusted.

As shown in fig. 3, the air distributor 4 at the upper end of the primary air duct 6 is in a flaring shape, a plurality of air nozzles 15 are arranged on the air distributor 4, one part of the air nozzles 15 is a first convex mouth 21 which is convex upwards, and the other part is a second convex mouth 22 which is convex downwards; the first convex mouths 21 and the second convex mouths 22 are regularly distributed on the air distribution plate 4, and the adjacent two circles of air nozzles 15 are respectively the first convex mouths 21 and the second convex mouths 22, or the first convex mouths 21 and the second convex mouths 22 are arranged in a staggered manner; the air distribution plate 4 is sleeved outside the primary gas pipeline 3 and used for supplying combustion-supporting air for central flame, the air nozzles 15 can be different in the protruding directions of two adjacent circles, or different in the protruding directions of the center and the periphery, the air nozzles 15 have height difference by arranging the plurality of uneven air nozzles 15 in a staggered mode, staged combustion is achieved, and the uneven air nozzles 15 form a plurality of strands of parallel jet flows, so that the surface area of the air jet flows can be remarkably increased, air can be fully mixed with gas, and the staged combustion effect of the air and the gas can be enhanced; a plurality of air distribution ports can be circumferentially arranged on the cylinder wall of the primary air pipeline 6 positioned below the air distribution plate 4, part of combustion-supporting air can flow out of the air distribution ports, and the air distribution ports are used for supplying part of combustion-supporting air for separating flames.

As shown in fig. 1, 7 and 8, two secondary gas nozzles 9 distributed up and down are formed on one side of the upper end of the secondary gas pipeline 1, the secondary gas nozzles 9 extend out to the side surface, and a deflection angle is formed between the secondary gas nozzles and the radial direction of a combustor; the secondary gas nozzles 9 are used for spraying gas to form divided flames, controlling the gas quantity through an adjusting valve 16, and mixing the gas quantity and the combustion-supporting air of the axial swirler 5 in the opposite direction; the secondary gas pipeline 1 can be a straight pipe or a Laval pipe.

As shown in fig. 1, 5, 7, 8, 1 inboard of secondary gas pipeline is equipped with ring baffle 2, ring baffle 2 is connected with pull rod 19, be equipped with fixed buckle 11 on the secondary air pipeline 8, pull rod 19 passes through fixed buckle 11 and connects on secondary air pipeline 8, the lower extreme of pull rod 19 is equipped with hand push handle 7, can control ring baffle 2 along axial displacement through hand push handle 7, baffle hole 14 has been seted up on ring baffle 2.

As shown in fig. 2, 4 and 9, an axial swirler 5 is arranged in the secondary air duct 8, a plurality of blades are arranged on the axial swirler 5, and a deflection angle is arranged between each blade and the secondary air duct 8; the combustion-supporting air in the secondary air pipeline 8 is fully mixed with the fuel gas sprayed out from the secondary fuel gas nozzle 9 after the direction of the combustion-supporting air is adjusted by the axial swirler 5.

As shown in fig. 2 and 5, a base 18 is arranged at the lower end of the secondary air pipeline 8, one end of the primary gas pipeline 3 passes through the base 18 to be connected with a gas source pipeline, the regulating valve 16 is connected with the gas header 10 through a pipeline, and the pipeline is tangentially connected with the gas header 10; the tangential connection can reduce the pressure loss when the gas enters the gas header 10 from the regulating valve 16, and also make the gas pressure in the secondary gas pipeline 1 consistent.

As shown in fig. 5, a bracket 17 is disposed outside the secondary air duct 8, and the secondary gas duct 1 is disposed outside the secondary air duct 8 through the bracket 17.

As shown in fig. 1, 5, 7 and 8, the baffle hole 14 and the secondary gas nozzle 9 are on a vertical line, the annular baffle 2 moves along the axial direction, and the baffle hole 14 can be communicated with one of the secondary gas nozzles 9 to realize gas ejection.

The working principle is as follows: the primary gas pipeline 3 sprays out gas, the combustion-supporting air in the primary air pipeline 6 is sprayed out through a plurality of uneven first convex nozzles 21 and a plurality of uneven second convex nozzles 22 to form a plurality of strands of parallel jet flows, the surface area of the air jet flow is increased, so that the air can be fully mixed and combusted with the gas, and the uneven air nozzle 15 has a height difference, so that staged combustion is realized, the gas quantity of the secondary gas nozzle 9 is controlled through an adjusting valve 16, the gas is injected into the flue gas generated by combustion, the gas has a reverse cutting angle and is mixed with the combustion-supporting air passing through the axial swirler 5 in the opposite direction, and the gas obliquely sprayed out of the secondary gas nozzle 9 easily forms a rotational flow, so that the middle part generates negative pressure, thereby the high-temperature flue gas outside is introduced into the middle part, the gas can be rapidly heated, an oxygen-deficient environment can be formed, and the aim of low NOx is fulfilled.

Adjust baffle hole 14 through hand push handle 7 and reciprocate, make one of them secondary gas spout 9 intercommunication in baffle hole 14, can adjust the opportunity that gas and flue gas mix, when secondary gas spout 9 and baffle hole 14 intercommunication of below, will advance the mixture of gas and flue gas, and inject the combustion area, the low-load of having improved the device surely fires the performance, when secondary gas spout 9 and baffle hole 14 intercommunication of top, will postpone the mixture of gas and flue gas, form low oxygen and inject the combustion area, thereby reduce NOx's formation.

When flame is injected into fuel gas under the low oxygen condition, the fuel gas is mainly pyrolyzed into soot particles, thereby absorbing the heat of the flame, reducing the flame temperature, generating soot particles, increasing the concentration of the soot particles, having good absorptivity and emissivity, strengthening the radiation characteristic of natural gas flame, simultaneously, enabling the fuel to be combusted in a grading way, effectively reducing the emission of NOx, and improving the combustion efficiency.

The injection rate of the secondary fuel gas can enable the average radiation to be increased and then reduced, so that the optimal natural gas injection rate is provided, the flame temperature can be reduced, the flame radiation is effectively enhanced, the generation of NOx is reduced to the maximum extent, and the reduction is about 35%. Compared with the existing burner, the technology has the advantages of lower NOx emission, increased flame radiation characteristic, improved combustion efficiency, realization of staged combustion of fuel and further reduction of NOx generation.

The central flame is rich in air and less in gas, the split flame is rich in air and more in gas, the central flame and the split flame are in combustion deviating from the chemical equivalence ratio and are in anoxic combustion, the combustion temperature is low, nitrogen oxides are generated less, and smoke participates in the combustion of the central main flame and the split flame to form reducing atmosphere, so that the generation of the nitrogen oxides is further reduced.

Because secondary gas spout 9 is in primary gas pipeline 3 top, and the export is towards the combustion chamber, so cut apart flame and be in central flame top on 6 axis directions of primary air pipeline, help reducing flame combustion intensity, also do benefit to the production that reduces nitrogen oxide, the gas of primary gas pipeline 3 spun in addition mixes with combustion-supporting wind and closes to the rotatory burning of air distribution plate 4, forms the steady flame area.

The invention adopts a staged combustion mode, weakens the influence of a local high-temperature area, constructs a low-speed reflux area, ensures the stable and sufficient combustion of fuel, and reduces the discharge amount of nitrogen oxides to less than or equal to 30mg/Nm 3.

For ease of description, the orientations referred to above are now specified as follows: the up, down, left, right, and front-back directions described above coincide with the up, down, left, right, and front-back directions of the projection relation of fig. 1 itself.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.