CN216844672U - A kind of burner - Google Patents

Abstract

The technical scheme of the utility model a combustor is disclosed, include: the burner assembly comprises a first burner assembly provided with a first combustion chamber and a second burner assembly provided with a second combustion chamber; the first burner assembly and the second burner assembly are respectively arranged on the fixed seat, a combustion space is formed by the first burner assembly, the second burner assembly and the fixed seat, and the combustion space is communicated with the outside; the pipeline assembly comprises a first pipeline assembly and a second pipeline assembly, one end of the first pipeline assembly is a first air inlet, one end of the second pipeline assembly is a second air inlet, the other end of the first pipeline assembly is respectively matched and installed with the fixing base, and the first pipeline assembly is communicated with the second combustion chamber through the fixing base.

Description

A kind of burner

Technical Field

The utility model relates to the field of household appliances, especially, relate to a combustor.

Background

The existing large gas stove and the common infrared gas stove only adopt a single gas cavity to mix gas, and the mixed gas is combusted through a ceramic chip or a fire cover. Although the combustor with the single gas mixing cavity structure solves the basic working condition requirement of combustion of a stove, the combustor has the defects of unstable combustion and low heat efficiency caused by narrow pressure change range and uneven mixing in front of a gas stove, and the phenomena of tempering and abnormal combustion easily occur under the condition of high-low pressure change in front of the stove.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a burner that addresses problems such as the lack of ventilation of the burner.

The technical scheme of the utility model a combustor is disclosed, include: a burner assembly comprising a first burner assembly and a second burner assembly, said first burner assembly being provided with a first combustion chamber and said second burner assembly being provided with a second combustion chamber; the first burner assembly and the second burner assembly are respectively arranged on the fixed seat, a combustion space is formed by the first burner assembly, the second burner assembly and the fixed seat, and the combustion space is communicated with the outside; the pipeline assembly comprises a first pipeline assembly and a second pipeline assembly, one end of the first pipeline assembly is a first air inlet, one end of the second pipeline assembly is a second air inlet, the other end of the first pipeline assembly is respectively matched and installed with the fixing base, and the first pipeline assembly is communicated with the second combustion chamber through the fixing base.

The application discloses combustor, the combustor is at the during operation, first pipeline subassembly can be through the fixing base of looks adaptation installation with it in carrying the first combustion chamber of first combustor subassembly with the gas, second pipeline subassembly can be through the fixing base of looks adaptation installation with it in carrying the first combustion chamber of second combustor subassembly with the gas, the combustor subassembly mutual independence of different positions sets up, can provide the flame of different positions, thereby satisfy different heating demands, simultaneously can be better guarantee between first combustion chamber and the second combustion chamber can not be the mistake and get in touch with each other gas, can avoid getting in touch with each other and influence the normal burning of first combustor subassembly and second combustor subassembly. The combustion space that first combustor subassembly, second combustor subassembly and fixing base enclose to close and form can communicate with the external world, consequently when the combustor work, air and oxygen mixing action, consequently can be abundant guarantee under the circulation of air, prevent the tempering, also can increase oxygen content in the mist simultaneously, be favorable to mist fully burning in the work.

In one embodiment, the fixing seat comprises a first base and a first boss, a first opening is formed in the first base, the first boss is arranged at the first opening, a plurality of mounting notches are formed in the first boss, and the mounting notches are respectively communicated with the combustion space and the outside. The first base is arranged, the first boss is better installed and fixed, the first boss is provided with the plurality of installation notches, the installation notches are communicated with the combustion space and the outside respectively, circulation of air can be better and fully guaranteed, and the combustor can be used for more fully combusting in the using process.

In one embodiment, the mounting notch is provided with a baffle plate mounted along the edge of the mounting notch. The baffle is arranged at the edge of the installation gap, so that the situation that the surface around the installation gap is too smooth and inconvenient to use can be prevented.

Optionally, the cross section of the installation notch may be a strip shape, and preferably, the number of the openings is four.

Optionally, the first base has a sidewall around it.

In one embodiment, the first boss is provided with a first through hole and a second through hole, the first pipe assembly is fittingly installed with the first through hole, the first pipe assembly is connected with the first burner assembly and communicated with the first combustion chamber, the second pipe assembly is fittingly installed with the second through hole, and the second pipe assembly is connected with the second burner assembly and communicated with the second combustion chamber. The first boss is provided with a first through hole and a second through hole, the first pipeline piece is communicated with the first combustion chamber through the first through hole, and the second pipeline piece is communicated with the second combustion chamber through the second through hole, so that fuel gas can be more quickly and respectively conveyed to the first combustion chamber and the second combustion chamber which are correspondingly communicated.

In one embodiment, the first burner assembly has a plurality of second openings formed in a sidewall thereof, the second openings being spaced apart by a predetermined distance, and the second openings communicating with the combustion space and the mounting notch. The side wall of the first combustor assembly is provided with the plurality of second openings, so that the air circulation of the combustion space communicated with the outside is increased, and the combustion efficiency is greatly improved.

In one embodiment, the second burner assembly side wall is provided with a plurality of third openings, the plurality of third openings are spaced apart by a predetermined distance, and the third openings are communicated with the combustion space and the mounting notch. Set up a plurality of third openings on first combustor subassembly's the lateral wall, increased the air circulation nature of combustion space and external intercommunication, improved combustion efficiency greatly.

In one embodiment, the first burner assembly includes a first housing assembly and a first burner device, the first burner device is disposed on the first housing assembly, the first burner device and the first housing assembly enclose to form a first combustion chamber, the first burner device is provided with a plurality of first air outlets, the first air outlets communicate with the first combustion chamber and communicate with a combustion space, the first housing assembly includes a first housing main body and a plurality of first protruding columns, the first housing main body is disposed on the first protruding columns, the plurality of first protruding columns form the second openings at a predetermined distance, and the first protruding columns are disposed on the fixing base. Form first combustion chamber between first combustor device and the first casing subassembly and be used for carrying the gas, the gas reachs on the first combustor device again, be provided with a plurality of first ventholes on the first combustor device, the effect of replenishing the gas to first combustor device has been played, and when first combustor device during operation, during first venthole burning gas on the first combustor device, make first venthole produce the siphon effect, suction gas from the surrounding environment, replenishing gas, make the better leading-in of gas in the first combustion chamber, reach the effect of replenishing the gas in giving first combustion chamber. First casing main part has set up first projection, is for better installing first casing main part on first projection, has increased the steadiness, forms the second opening apart from predetermineeing the distance between a plurality of first projections simultaneously, has increased the air circulation nature of combustion space with external intercommunication, has improved combustion efficiency greatly.

In one embodiment, the second burner assembly includes a second housing assembly and a second burner device, the second burner device is disposed on the second housing assembly, the second burner device and the second housing assembly enclose a second combustion chamber, the second burner device is disposed with a plurality of second air outlet holes, the second air outlet holes are communicated with the second combustion chamber and the combustion space, the second housing assembly includes a second housing main body and a plurality of second bosses, the second housing main body is disposed on the second bosses, the second bosses are spaced apart from each other by a predetermined distance to form the third openings, and the second bosses are disposed on the fixing base. And when the second combustion device works and the second air outlet on the second combustion device combusts the gas, the second air outlet generates a siphon effect, the gas is sucked from the surrounding environment and supplemented with the gas, so that the gas is better guided into the second combustion chamber, and the effect of supplementing the gas into the second combustion chamber is achieved. First casing main part has set up first projection, is for better installing second casing main part on first projection, has increased the steadiness, forms the second opening apart from predetermineeing the distance between a plurality of first projections simultaneously, has increased the air circulation nature of combustion space with external intercommunication, has improved combustion efficiency greatly.

Optionally, the first burner apparatus is removably mounted with the first housing assembly.

Optionally, the second burner apparatus is removably mounted to the second housing assembly.

In one embodiment, the first duct assembly forms a communicating first air passage inside, the first air passage communicating with the first combustion chamber and a first air inlet. A first air passing channel is arranged and used for being communicated with an air source better, and further the gas flow of gas is improved.

In one embodiment, a second communicating air passage is formed inside the second duct assembly, and the second air passage communicates with the second combustion chamber and the second air inlet. The second air passing channel is arranged and used for being communicated with an air source better, and further the gas flow of gas is improved.

Optionally, the first pipe assembly includes a first air inlet and a first air guide, one end of the first air guide is connected to the first air inlet, the other end of the first air guide is fittingly installed to the first through hole, and a first air passing channel communicated with the inner side of the first air guide is formed between the first air inlet and the inner side of the first air guide.

Optionally, the second pipeline assembly includes a second air inlet and a second air guide, one end of the second air guide is connected to the second air inlet, the other end of the second air guide is installed in the second through hole, and a second air passing channel communicated with the inner side of the second air guide is formed.

Optionally, one end of the first air guide member, which is mounted on the first through hole, may be a bent pipe.

Optionally, one end of the second air guide member, which is mounted with the second through hole, may be a bent pipe.

In one embodiment, the first duct assembly increases in area along the flow of gas through the first gas passage. The gas flows into the area of flowing through of first pipeline subassembly and is progressively increased along the gas direction of flowing through, and the gas can accelerate, and the flow loss of gas is lower, and then has promoted the gas flow of gas, and the specific setting of shape through first pipeline spare can realize the gas different speeds in first pipeline spare, can fully reduce the gas air current size of different positions departments to improve the gas flow effect.

In one embodiment, the second duct assembly increases in area along the flow of gas through the second gas passage. The gas flows into the area of flowing through of second pipeline assembly and is progressively increased along the gas direction of flowing through, and the gas can accelerate, and the flow loss of gas is lower, and then has promoted the gas flow of gas, and the shape through second pipeline spare is specific to be set up, can realize the gas different speeds in second pipeline spare, can fully reduce the gas air current size of different positions departments to improve the gas flow effect.

In one embodiment, the first conduit assembly has a cross-sectional area greater than a cross-sectional area of the second conduit assembly. Because the area of the cross section of the first pipeline part is larger than that of the second pipeline part, flames with different sizes can be provided, and different heating requirements can be met.

In one embodiment, an end of the first duct assembly adjacent to the first inlet port is flared. Further, one end, close to the first air inlet, of the first pipeline assembly can be in a horn shape, and the air inflow of gas can be better increased.

In one embodiment, an end of the second duct assembly adjacent to the second inlet port is flared. Further, one end, close to the second air inlet, of the second pipeline assembly can be in a horn shape, and the air intake quantity of the fuel gas can be better increased.

Drawings

FIG. 1 is a schematic view of a burner mounting block;

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

fig. 3 is a partial structural schematic diagram.

Wherein, the corresponding relation between the reference signs and the component names is as follows:

1 a combustion apparatus assembly, 11 a first burner assembly, 12 a second combustion assembly, 111 a first housing assembly, 1111 a first housing body, 1112 a first lug, 112 a first burner apparatus, 121 a second housing assembly, 1211 a second housing body, 1212 a second lug, 122 a second burner apparatus;

2, installing notches on a fixed seat, 21 a first base, 22 a first boss, 221 a first through hole, 222 a second through hole and 223;

3 a ducting piece assembly, 31 a first ducting piece, 311 a first air inlet piece, 312 a first air guide, 32 a second ducting piece, 321 a second air inlet piece, 322 a second air guide.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of meanings are one or more, a plurality of meanings are two or more, and the terms greater than, smaller than, exceeding, etc. are understood as excluding the number, and the terms greater than, lower than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Some embodiments of the present invention are described below with reference to fig. 1 to 3, which illustrate a burner.

As shown in fig. 1 to fig. 3, an embodiment of the present invention discloses a burner, including: the burner assembly 1, the burner assembly 1 includes the first burner assembly 11 and the second burner assembly 12, the first burner assembly 11 is provided with the first combustion chamber, the second burner assembly 12 is provided with the second combustion chamber; the combustion device comprises a fixed seat 2, a first combustor assembly 11 and a second combustor assembly 12 which are respectively arranged on the fixed seat 2, wherein a combustion space is formed by the first combustor assembly 11, the second combustor assembly 12 and the fixed seat 2 and is communicated with the outside; pipeline assembly 3, pipeline assembly 3 includes first pipeline assembly 31 and second pipeline assembly 32, and first pipeline assembly 31 one end is first air inlet, and second pipeline assembly 32 one end is the second air inlet, and the first pipeline assembly 31 is installed with fixing base 2 looks adaptation respectively with the 3 other ends of second pipeline assembly, and just first pipeline assembly 31 communicates with first combustion chamber and second combustion chamber respectively through fixing base 2 with second pipeline assembly 32.

The application discloses combustor, the combustor is at the during operation, first pipeline subassembly 31 can be through the fixing base of looks adaptation installation with it in carrying the first combustion chamber of first combustor subassembly 11 with the gas, second pipeline subassembly 32 can be through the fixing base of looks adaptation installation with it in carrying the first combustion chamber of second combustor subassembly 12 with the gas, the combustor subassembly mutual independence of different positions sets up, can provide the flame of different positions, thereby satisfy different heating demands, simultaneously can be better guarantee between first combustion chamber and the second combustion chamber can not be to cross gas each other, can avoid crossing gas and influence the normal burning of first combustor subassembly 11 and second combustor subassembly 12. The combustion space formed by enclosing the first burner component 11, the second burner component 12 and the fixed seat 3 can be communicated with the outside, so that air and oxygen are mixed when the burner works, the tempering is prevented under the condition of fully ensuring the circulation of air, and meanwhile, the oxygen content in mixed gas can be increased, and the full combustion of the mixed gas in the work is facilitated.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the fixing seat 2 comprises a first base 21 and a first boss 22, a first opening is formed in the first base 21, the first boss 22 is arranged at the first opening, a plurality of installation notches 223 are formed in the first boss 22, and the installation notches 223 are communicated with the combustion space and the outside respectively. The first base 21 is arranged, the first boss 22 is fixed in a better installation mode, the first boss 22 is provided with a plurality of installation notches, the installation notches are communicated with the combustion space and the outside respectively, circulation of air can be well and fully guaranteed, and the combustor can be used for more fully combusting in the using process.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the mounting notch 223 is provided with a baffle plate mounted along the edge of the mounting notch 223. A stopper is provided at the edge of the installation notch 223 to prevent the surrounding surface of the installation notch 223 from being too smooth to be conveniently used.

Alternatively, the mounting notches 223 may have a bar shape in cross section, and preferably, the number of the openings is four.

Optionally, the first base 21 has a sidewall around it.

As shown in fig. 1 and 2, in addition to the features of the above embodiment, the present embodiment further defines: the first boss 22 is provided with a first through hole 221 and a second through hole 222, the first pipe assembly 31 is installed in a matching manner with the first through hole 221, the first pipe assembly 31 is connected with the first burner assembly 11 and communicated with the first combustion chamber, the second pipe assembly 32 is installed in a matching manner with the second through hole 222, and the second pipe assembly 32 is connected with the second burner assembly 12 and communicated with the second combustion chamber. The first boss 22 is provided with a first through hole 221 and a second through hole 222, the first pipe assembly 31 is communicated with the first combustion chamber through the first through hole 221, the second pipe assembly 32 is communicated with the second combustion chamber through the second through hole 222, and therefore fuel gas can be more quickly and respectively conveyed to the first combustion chamber and the second combustion chamber which are correspondingly communicated through the first pipe assembly 31 and the second pipe assembly 32.

As shown in fig. 2 and 3, in addition to the features of the above embodiment, the present embodiment further defines: be provided with a plurality of second openings on the first combustor subassembly 11 lateral wall, a plurality of second openings are apart from predetermined distance, and the second opening communicates with combustion space and installation breach 223. A plurality of second openings are formed in the side wall of the first combustor assembly 11, air circulation of the combustion space and the outside is improved, and combustion efficiency is greatly improved.

As shown in fig. 2 and 3, in addition to the features of the above embodiment, the present embodiment further defines: the second burner assembly 12 is provided with a plurality of third openings in the side wall thereof, the plurality of third openings being spaced apart by a predetermined distance, the third openings being in communication with the combustion space and the mounting notches 223. The side wall of the first combustor assembly 21 is provided with the plurality of third openings, so that the air circulation of the combustion space communicated with the outside is increased, and the combustion efficiency is greatly improved.

As shown in fig. 2 and 3, in addition to the features of the above embodiment, the present embodiment further defines: first combustor subassembly 11 includes first casing subassembly 111 and first combustor device 112, first combustor device 112 sets up on first casing subassembly 111, first combustor device 112 encloses with first casing subassembly 111 and closes and form first combustion chamber, be provided with a plurality of first ventholes on the first combustor device 112, first venthole and first combustion chamber intercommunication and combustion space intercommunication, first casing subassembly 111 includes first casing main part 1111 and a plurality of first projection 1112, first casing main part 1111 sets up on first projection 1112, a plurality of first projections 1112 form the second opening apart from predetermineeing the distance, first projection 1112 sets up on fixing base 2. Form first combustion chamber between first combustor device 112 and the first casing subassembly 111 and be used for carrying the gas, the gas reachs on first combustor device 112 again, be provided with a plurality of first ventholes on the first combustor device 112, the effect of replenishing the gas to first combustor device 112 has been played, and when first combustor device 112 during operation, when first venthole on the first combustor device 112 burns the gas, make first venthole produce the siphon effect, suck the gas from the surrounding environment, replenishing gas, make better leading-in to first combustion chamber of gas, reach the effect of replenishing the gas in giving first combustion chamber. First casing main part 1111 has set up first projection 1112, is for better installing first casing main part 1111 on first projection 1112, has increased the steadiness, forms the second opening apart from preset distance between a plurality of first projections 1112 simultaneously, has increased the air circulation nature of combustion space with external intercommunication, has improved combustion efficiency greatly.

As shown in fig. 2 and 3, in addition to the features of the above embodiment, the present embodiment further defines: the second burner assembly 12 includes a second housing assembly 121 and a second burner device 122, the second burner device 122 is disposed on the second housing assembly 121, the second burner device 122 and the second housing assembly 121 enclose a second combustion chamber, a plurality of second air outlet holes are disposed on the second burner device 122, the second air outlet holes are communicated with the second combustion chamber and the combustion space, the second housing assembly 121 includes a second housing body 1211 and a plurality of second bosses 1212, the second housing body 1211 is disposed on the second bosses 1212, a third opening is formed at a predetermined distance between the plurality of second bosses 1212, and the second bosses 1212 are disposed on the fixing base. A second combustion chamber is formed between the second burner device 122 and the second housing assembly 121 for delivering gas, and the gas reaches the second burner device 112, the second burner device 122 is provided with a plurality of second gas outlets, which plays a role of supplementing gas to the second burner device 112, and when the second burner device 122 works and the second gas outlets of the second burner device 122 combust gas, the second gas outlets generate a siphon effect to suck gas from the surrounding environment and supplement gas, so that the gas is better guided into the second combustion chamber, and the function of supplementing gas into the second combustion chamber is achieved. The second casing main body 1211 is provided with the second protruding columns 1212, so that the second casing main body 1211 is better installed on the second protruding columns 1212, stability is improved, meanwhile, a third opening is formed between the plurality of second protruding columns 1112 at a preset distance, air circulation of the combustion space communicated with the outside is improved, and combustion efficiency is greatly improved.

Optionally, the first burner apparatus 112 is removably mounted to the first housing assembly 111.

Optionally, the second burner device 122 is removably mounted to the second housing assembly 121.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: a first air passing passage communicating with the first combustion chamber and the first air intake port is formed inside the first pipe assembly 31. A first air passing channel is arranged and used for being communicated with an air source better, and further the gas flow of gas is improved.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: a second air passage is formed in communication with the second combustion chamber and the second air inlet inside the second duct assembly 32. The second air passing channel is arranged and used for being communicated with an air source better, and further the gas flow of gas is improved.

Optionally, the first pipe assembly 31 includes a first air inlet 311 and a first air guide 312, one end of the first air guide 312 is connected to the first air inlet 311, the other end of the first air guide 312 is fittingly installed with the first through hole 221, and a first air passing passage is formed inside the first air inlet 311 and the first air guide 312.

Optionally, the second pipe assembly 32 includes a second air inlet 321 and a second air guide 322, one end of the second air guide 322 is connected to the second air inlet 321, the other end of the second air guide 322 is fittingly installed with the second through hole 222, and a second air passing passage is formed inside the second air inlet 321 and the second air guide 322.

Alternatively, one end of the first air guide 312, which is mounted to the first through hole 221, may be a bent pipe type.

Alternatively, the end of the second air guide 322, which is mounted to the second through hole 222, may be a bent pipe.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the first duct assembly 31 gradually increases in area along the flow of the gas through the first gas passage. The gas flows into the area of flowing through of first pipe assembly 31 and is progressively increased along the gas direction of flowing through, and the gas can accelerate, and the flow loss of gas is lower, and then has promoted the gas flow of gas, and the specific setting of shape through first pipe assembly 31 can realize the gas different speeds in first pipe assembly 31, can fully reduce the gas air current size of different positions departments to improve the gas flow effect.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the second duct assembly 32 increases in area along the flow of gas through the second gas passage. The gas flows into the area of flowing through of second pipe assembly 32 and is progressively increased along the gas direction of flowing through, and the gas can accelerate, and the flow loss of gas is lower, and then has promoted the gas flow of gas, and the specific setting of shape through second pipe assembly 32 can realize the gas different speeds in second pipe assembly 32, can fully reduce the gas air current size of different positions departments to improve the gas flow effect.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the cross-sectional area of the first conduit assembly 31 is greater than the cross-sectional area of the second conduit assembly 32. Since the cross-sectional area of the first conduit assembly 31 is greater than the cross-sectional area of the second conduit assembly 32, different sized flames can be provided to meet different heating requirements.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the end of the first pipe assembly 31 near the first inlet is flared. Further, one end of the first pipe assembly 31 close to the first air inlet may be in a horn shape, so that the air intake amount of the fuel gas may be better increased.

As shown in fig. 2, in addition to the features of the above embodiment, the present embodiment further defines: the end of the second duct assembly 32 adjacent the second inlet is flared. Further, the end of the second pipe assembly 32 near the second air inlet may be a trumpet shape, which may better increase the air intake amount of the gas.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A burner, comprising:

a burner assembly (1), said burner assembly (1) comprising a first burner assembly (11) and a second burner assembly (12), said first burner assembly (11) being provided with a first combustion chamber and said second burner assembly (12) being provided with a second combustion chamber;

the first burner assembly (11) and the second burner assembly (12) are respectively arranged on the fixed seat (2), the first burner assembly (11), the second burner assembly (12) and the fixed seat (2) form a combustion space, and the combustion space is communicated with the outside;

pipeline subassembly (3), pipeline subassembly (3) include first pipeline subassembly (31) and second pipeline subassembly (32), first pipeline subassembly (31) one end is first air inlet, second pipeline subassembly (32) one end is the second air inlet, first pipeline subassembly (31) with second pipeline subassembly (3) the other end respectively with fixing base (2) looks adaptation installation, just first pipeline subassembly (31) with second pipeline subassembly (32) pass through fixing base (2) respectively with first combustion chamber with second combustion chamber intercommunication.

2. The burner of claim 1, comprising: fixing base (2) include first base (21) and first boss (22), be provided with first opening on first base (21), first boss (22) set up first opening part, be provided with a plurality of installation breach (223) on first boss (22), installation breach (223) with combustion space and external world communicate respectively.

3. The burner of claim 2, comprising: the installation notch (223) is provided with a baffle plate installed along the edge of the installation notch (223).

4. The burner of claim 2, comprising: be provided with first through-hole (221) and second through-hole (222) on first boss (22), first pipeline subassembly (31) with first through-hole (221) looks adaptation installation, first pipeline subassembly (31) with first combustor subassembly (11) are connected and with first combustion chamber intercommunication, second pipeline subassembly (32) with second through-hole (222) looks adaptation installation, second pipeline subassembly (32) with second combustor subassembly (12) are connected and with second combustion chamber intercommunication.

5. The burner of claim 2, comprising: a plurality of second openings are formed in the side wall of the first combustor assembly (11), a preset distance is reserved between the second openings, and the second openings are communicated with a combustion space and the installation notch (223); and/or

The side wall of the second combustor component (12) is provided with a plurality of third openings, the third openings are spaced by a preset distance, and the third openings are communicated with the combustion space and the installation notch (223).

6. The burner of claim 5, comprising: the first burner assembly (11) comprises a first shell assembly (111) and a first burner device (112), the first burner device (112) is arranged on the first shell assembly (111), the first burner device (112) and the first shell assembly (111) enclose to form a first combustion chamber, a plurality of first air outlet holes are arranged on the first burner device (112), the first air outlet holes are communicated with the first combustion chamber and a combustion space, the first shell assembly (111) comprises a first shell main body (1111) and a plurality of first convex columns (1112), the first shell main body (1111) is arranged on the first convex columns (1112), the plurality of first convex columns (1112) form second openings at preset distances, and the first convex columns (1112) are arranged on the fixed seat (2); and/or

The second burner assembly (12) comprises a second housing assembly (121) and a second burner device (122), the second burner device (122) is disposed on the second housing assembly (121), the second burner device (122) and the second housing assembly (121) are enclosed to form a second combustion chamber, a plurality of second air outlet holes are disposed on the second burner device (122), the second air outlet holes are communicated with the second combustion chamber and the combustion space, the second housing assembly (121) comprises a second housing main body (1211) and a plurality of second bosses (1212), the second housing main body (1211) is disposed on the second bosses (1212), the plurality of second bosses (1212) form third openings at a predetermined distance, and the second bosses (1212) are disposed on the fixing base (2).

7. The burner of claim 2, comprising: a first air passing channel communicated with the first combustion chamber and a first air inlet is formed inside the first pipeline assembly (31); and/or

And a second air passing channel communicated with the second combustion chamber and the second air inlet is formed inside the second pipeline assembly (32).

8. The burner of claim 7, comprising: the first pipeline assembly (31) is gradually increased along the flowing area of the gas flowing through the first gas passing channel; and/or

The second pipe assembly (32) is gradually increased along the flowing area of the gas flowing through the second gas passing channel.

9. The burner of claim 7, comprising: the first conduit assembly (31) has a cross-sectional area greater than a cross-sectional area of the second conduit assembly (32).

10. The burner of claim 7, comprising:

one end of the first pipeline assembly (31) close to the first air inlet is in a horn shape; and/or

One end of the second pipeline component (32) close to the second air inlet is horn-shaped.

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