Atomizing cooking range burner and range thereof

By adding an air chamber and multiple air inlets around the air-oil mixing atomizer of the atomizing stove, the problem of uneven air pressure was solved, achieving straight combustion of the flame and a more efficient combustion effect.

CN224327232UActive Publication Date: 2026-06-05陶华清 +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
陶华清
Filing Date
2025-07-22
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The uneven air pressure inside the existing atomizing stove's air-oil mixing atomizer causes the flame to be crooked and combustion to be incomplete.

Method used

An air chamber is added around the periphery of the air-oil mixing atomizer, and multiple air inlets are set around it. The air pressure is balanced through the first and second through holes to ensure that the high-pressure air is evenly distributed.

Benefits of technology

This achieves upright combustion of the flame, improves combustion efficiency and economic benefits, and reduces energy consumption.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a range technology field especially, and more particularly relates to a kind of atomization range burner and its stove, atomization range burner includes burner shell and air bin, burner shell is formed with first gas chamber;Air bin is formed with second gas chamber, and wind-oil mixed atomizer is installed in second gas chamber, and wind-oil mixed atomizer is connected with burner shell installation;Wind-oil mixed atomizer is formed with third gas chamber, and the wind-oil mixed spray hole of wind-oil mixed atomizer is towards first gas chamber;First gas chamber is connected second gas chamber by first through-hole, and second gas chamber is connected third gas chamber by second through-hole;Air inlet is provided in air bin, and air inlet is connected with air source, and wind-oil mixed atomizer is connected with fuel source, and wind-oil mixed atomizer sprays atomized oil gas at wind-oil mixed spray hole;The wind pressure of everywhere inside wind-oil mixed atomizer is balanced, and flame is straight, and combustion is more sufficient, and economic benefit is better.
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Description

Technical Field

[0001] This utility model belongs to the field of stove technology, and in particular relates to an atomizing stove burner head and stove. Background Technology

[0002] Atomizing stoves are stoves that use new energy fuels refined from waste industrial oil, heavy oil, and alcohol oil as fuel. New energy fuels are about 40% more environmentally friendly and energy-efficient than traditional kitchen fuels throughout the entire application process. They are also smokeless, odorless, promote health, and have low emissions. Their environmental protection quality far exceeds that of traditional gasoline and diesel fuels used in kitchens. They are conducive to the sustainable use of liquid waste, reduce energy consumption, and help protect the environment.

[0003] Atomizing stoves typically include an air-oil mixing atomizer, which has an air inlet and a mixing nozzle. High-pressure air enters the atomizer through the air inlet and mixes and atomizes with fuel at the mixing nozzle for combustion in the stove. However, existing atomizing stoves only have one air inlet on the side of the air-oil mixing atomizer. This causes the air to bend in one direction within the atomizer, resulting in uneven air pressure throughout. Consequently, the atomized fuel mixture sprayed from the mixing nozzle is not straight, causing it to be skewed. This results in a crooked flame and incomplete combustion.

[0004] Therefore, this utility model addresses the above-mentioned technical problems by providing an atomizing stove burner head, which adds an air chamber around the air-oil mixing atomizer and provides multiple air inlets around the air-oil mixing atomizer, so that the air pressure inside the air-oil mixing atomizer is balanced, the flame is straight, and the combustion is more complete, thus solving the above problems. Utility Model Content

[0005] To address the aforementioned problems in the existing technology, this utility model provides an atomizing stove burner head, comprising:

[0006] The burner head shell, the interior of which is formed as a first gas chamber;

[0007] The air chamber has a second air chamber inside, and an air-oil mixing atomizer is installed in the second air chamber. The air-oil mixing atomizer is installed and connected to the outer shell of the burner.

[0008] The fumes-oil mixing atomizer has a third air chamber, and the opening of the fumes-oil mixing nozzle of the fumes-oil mixing atomizer faces the first air chamber.

[0009] The first air chamber is connected to the second air chamber through a plurality of first through holes, and the second air chamber is connected to the third air chamber through a plurality of second through holes;

[0010] The air chamber is provided with an air inlet, which is connected to an air source. The air-oil mixing atomizer is connected to a fuel source, and the air-oil mixing atomizer sprays atomized oil and gas at the air-oil mixing nozzle.

[0011] Optionally, in some technical solutions, the air-oil mixing atomizer includes an atomizer housing and a nozzle. The upper end of the atomizer housing is provided with the air-oil mixing spray hole. One end of the nozzle is formed as a constricted spray section, and the upper end of the spray section is a spray hole. The spray hole is installed facing the air-oil mixing spray hole, and the other end of the nozzle is connected to a fuel source.

[0012] Optionally, in some technical solutions, the oil injection hole and the air-oil mixing injection hole are coaxially fitted together.

[0013] Optionally, in some technical solutions, the oil injection hole and the air-oil mixing injection hole are installed perpendicular to each other, with the oil injection hole located below or above the air-oil mixing injection hole.

[0014] Optionally, in some technical solutions, the air chamber and the air-oil mixing sprayer are installed inside the burner housing or on the bottom outer side of the burner housing.

[0015] Optionally, in some technical solutions, a mixing shroud is provided at the upper end of the atomizer housing, which promotes the mixing and atomization of oil and gas.

[0016] Optionally, in some technical solutions, the first through hole is provided on the furnace head shell or the air chamber and connects the first air chamber and the second air chamber;

[0017] The second through hole is provided on the oil-air mixing atomizer and connects the second air chamber and the third air chamber.

[0018] Optionally, in some technical solutions, a first mounting base is provided on the burner housing, and the first mounting base is adapted to be installed on the air-oil mixing atomizer;

[0019] The air chamber is provided with a second mounting base, which is adapted to be installed on the air-oil mixing atomizer.

[0020] Optionally, in some technical solutions, a burner inner liner is also included. The burner inner liner is installed in the first gas chamber and encapsulates the burner outer shell. The interior of the burner inner liner forms a fourth gas chamber, which is connected to the first gas chamber through a plurality of third through holes.

[0021] Optionally, some technical solutions also include a flame suppressor and a flame concentrator, wherein the flame suppressor is installed at the upper end of the inner liner of the burner head and encloses the fourth gas chamber, and the flame concentrator is installed at the upper end of the inner liner of the burner head and surrounds the flame suppressor.

[0022] In addition, this utility model also provides a stove that uses the above-mentioned atomizing stove burner head.

[0023] The technical solution of this utility model has the following advantages or beneficial effects:

[0024] This utility model provides an atomizing stove burner head, including a burner head shell and a blower chamber. The interior of the burner head shell forms a first air chamber; the interior of the blower chamber forms a second air chamber, in which an oil-air mixing atomizer is installed and connected to the burner head shell; the oil-air mixing atomizer forms a third air chamber, with the opening of the oil-air mixing nozzle of the oil-air mixing atomizer facing the first air chamber; the first air chamber is connected to the second air chamber through several first through holes, and the second air chamber is connected to the third air chamber through several second through holes; the blower chamber is provided with an air inlet connected to an air source, and the oil-air mixing atomizer is connected to a fuel source, with the oil-air mixing atomizer spraying atomized oil and gas at the oil-air mixing nozzle. This utility model's atomizing stove burner burner, by adding a blower chamber around the oil-air mixing atomizer and providing multiple second through holes connecting to the blower chamber around the oil-air mixing atomizer, ensures balanced air pressure throughout the oil-air mixing atomizer, a straight flame, more complete combustion, and better economic efficiency. Attached Figure Description

[0025] Embodiments of the present invention will be described more fully with reference to the accompanying drawings. However, the accompanying drawings are for illustration and explanation only and do not constitute a limitation on the scope of the present invention.

[0026] Figure 1 This is a partial cross-sectional schematic diagram of the burner head of the first type of atomizing stove.

[0027] Figure 2 This is a partial cross-sectional schematic diagram of the burner head of the second type of atomizing stove.

[0028] Figure 3 This is a partial cross-sectional schematic diagram of the burner head of the third type of atomizing stove.

[0029] Figure 4 This is a partial cross-sectional schematic diagram of the burner head of the fourth type of atomizing stove.

[0030] Figure 5 A partial cross-sectional schematic diagram of the burner head of the fifth type of atomizing stove;

[0031] Figure 6 A partial cross-sectional schematic diagram of the burner head of the sixth type of atomizing stove;

[0032] Figure 7 A partial cross-sectional schematic diagram of the burner head of the seventh type of atomizing stove;

[0033] Figure 8 A partial cross-sectional schematic diagram of the burner head of the eighth type of atomizing stove;

[0034] Figure 9 This is a partial cross-sectional schematic diagram of the burner head of the ninth type of atomizing stove.

[0035] Figure 10 This is a partial cross-sectional schematic diagram of the burner head of the tenth type of atomizing stove.

[0036] Figure 11 This is a partial cross-sectional schematic diagram of the burner head of the eleventh type of atomizing stove.

[0037] Figure 12 This is a partial cross-sectional schematic diagram of the burner head of the twelfth type of atomizing stove.

[0038] Figure 13 This is a schematic cross-sectional view of the burner head of the first type of atomizing stove.

[0039] Illustration:

[0040] 1. Burner head outer shell; 2. Air chamber; 3. First air chamber; 4. Second air chamber; 5. Air-oil mixing atomizer; 6. Third air chamber; 7. Air-oil mixing nozzle; 8. First through hole; 9. Second through hole; 10. Burner head inner liner; 11. Third mounting base; 12. Ignition needle; 13. Atomizer housing; 14. Fuel injector;

[0041] 15. Fuel injection section; 16. Fuel injection hole; 17. Air inlet; 18. Mixing shroud; 19. First mounting base;

[0042] 20. Second mounting base; 21. Fourth gas chamber; 22. Third through hole; 23. Flame suppressor; 24. Flame concentrator ring. Detailed Implementation

[0043] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. The drawings illustrate preferred embodiments of this utility model. However, this utility model can be implemented in many other different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the disclosure of this utility model.

[0044] It should be noted that when a component is said to be "fixed to" another component, it can be directly attached to the other component or there may be an intervening component. When a component is said to be "connected to" another component, it can be directly connected to the other component or there may be an intervening component. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.

[0045] In the description of this utility model, unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0046] In the description of this utility model, technical terms such as "first" and "second" are used only to distinguish different objects and should not be construed as indicating or implying relative importance or implicitly specifying the number, specific order, or primary and secondary relationship of the indicated technical features. In the description of the embodiments of this application, "multiple" means two or more, unless otherwise explicitly defined.

[0047] like Figure 1-13 As shown, an embodiment of this utility model provides an atomizing stove burner head, including a burner head shell 1 and a blower chamber 2. The blower chamber 2 is installed on the burner head shell 1, and the interior of the burner head shell 1 forms a first air chamber 3. The interior of the blower chamber 2 forms a second air chamber 4, and an air-oil mixing atomizer 5 is installed in the second air chamber 4. The air-oil mixing atomizer 5 is connected to the burner head shell 1. The air-oil mixing atomizer 5 forms a third air chamber 6, and the opening of the air-oil mixing spray hole 7 of the air-oil mixing atomizer 5 faces the first air chamber 3. The first air chamber 3 is connected to the second air chamber 4 through a plurality of first through holes 8, and the second air chamber 4 is connected to the third air chamber 6 through a plurality of second through holes 9. The blower chamber 2 is provided with an air inlet 17, which is connected to an air source. The air-oil mixing atomizer 5 is connected to a fuel source, and the air-oil mixing atomizer 5 sprays atomized oil and gas at the air-oil mixing spray hole 7. In this embodiment, the atomizing stove burner head features an additional air chamber 2 around the air-oil mixing atomizer 5, and multiple second through holes 9 connecting to the air chamber 2 around the air-oil mixing atomizer 5. This ensures balanced air pressure throughout the air-oil mixing atomizer 5. Simultaneously, the air chamber 2 connects to the burner head outer shell 1 via a first through hole 8, allowing high-pressure air to ultimately enter the burner head inner liner 10 for combustion. This results in a straight flame, more complete combustion, and greater energy efficiency, saving energy and achieving better economic benefits. The air chamber 2 and the air-oil mixing atomizer 5 are installed inside the burner head outer shell 1 or on the bottom outer side of the burner head outer shell 1.

[0048] Specifically, in this embodiment, such as Figure 1As shown, the burner head shell 1 of the atomizing stove has a cylindrical shell structure, open at the top and closed at the bottom. The hollow interior of the burner head shell 1 forms a first air chamber 3, which also serves as the installation space for the stove components. The burner head shell 1 is typically made of stainless steel or integrally cast, giving it sufficient strength for durability. Of course, the shape and material of the burner head shell 1 can be designed according to product needs. Furthermore, the air chamber 2 of the atomizing stove burner is adapted to the shape of the burner head shell 1. The air chamber 2 is securely mounted on the burner head shell 1, and the air-oil mixing atomizer 5 is securely installed inside the air chamber 2. Figure 1-13 As shown, the air chamber 2 and the air-oil mixing atomizer 5 can be located on the bottom outer side of the burner housing 1, or they can be partially inserted into the interior of the burner housing 1, or entirely located inside the burner housing 1. More specifically, as... Figure 1 As shown, the air chamber 2 is fixedly installed at the bottom of the burner shell 1. The air chamber 2 is located on the outer side of the bottom surface of the burner shell 1. The air chamber 2 is hollow inside to form a second air chamber 4. An oil-air mixing atomizer 5 is fixedly installed in the second air chamber 4. The upper end of the oil-air mixing atomizer 5 is connected to the bottom surface of the burner shell 1. The oil-air mixing atomizer 5 is fixed inside the air chamber 2 by nuts, forming a structure in which the air chamber 2 surrounds the oil-air mixing atomizer 5. The upper end of the oil-air mixing atomizer 5 is an oil-air mixing nozzle 7. The opening of the oil-air mixing nozzle 7 faces the first air chamber 3. When the burner inner liner 10 is installed in the first air chamber 3, the bottom end of the burner inner liner 10 has a third mounting seat 11 that penetrates the burner inner liner 10 and connects to the oil-air mixing nozzle 7 of the oil-air mixing atomizer 5. This allows the atomized oil and gas sprayed from the oil-air mixing nozzle 7 to enter the fourth air chamber 21 inside the burner inner liner 10 and then be ignited and burned by the ignition needle 12.

[0049] Further, in this embodiment, the fuel-oil mixing atomizer 5 includes an atomizer housing 13 and a nozzle 14. The upper end of the atomizer housing 13 is provided with a fuel-oil mixing nozzle 7. One end of the nozzle 14 is formed as a constricted spray section 15, and the upper end of the spray section 15 is a spray hole 16, which is installed facing the fuel-oil mixing nozzle 7. The other end of the nozzle 14 is connected to a fuel source. Specifically, the fuel-oil mixing atomizer 5 is used to atomize fuel oil. The lower end of the fuel-oil mixing atomizer 5 is connected to a fuel container via an oil pipe, a flow regulating valve, or a switching valve. The hollow interior of the fuel-oil mixing atomizer 5 forms a third air chamber 6. The spray section 15 is used to spray fuel and high-pressure air for atomization. The spray section 15 has a constricted shape and its top end has a spray hole 16. The diameter of the spray hole 16 can be set according to the type of fuel. Generally speaking, a larger diameter spray hole 16 is less prone to clogging, but it will affect the atomization effect. Because the burner head in this embodiment is equipped with a blower chamber 2, which improves the atomization effect, the diameter of the oil spray hole 16 can be set to be relatively large, reducing the risk of clogging of the oil spray hole 16 and reducing the maintenance cost of the air-oil mixing atomizer 5. The blower chamber 2 is equipped with an air inlet 17, which can be connected to an air source through an air pipe. The air source is high-pressure air, which can be provided by a high-pressure blower. The first air chamber 3 is connected to the second air chamber 4 through the first through hole 8, allowing high-pressure air to enter the first air chamber 3 of the burner shell 1 from the second air chamber 4 of the air chamber 2. The second air chamber 4 is connected to the third air chamber 6 through the second through hole 9, allowing high-pressure air to enter the third air chamber 6 of the air-oil mixing atomizer 5 from the second air chamber 4 of the air chamber 2. Multiple first through holes 8 and second through holes 9 are provided. The air chamber 2 serves to temporarily store and buffer the high-pressure air, thereby making the high-pressure air entering the first air chamber 3 and the third air chamber 6 more stable and free from turbulence, resulting in better atomization and combustion effects, and a straight flame without tilting.

[0050] Furthermore, in some embodiments, a mixing shroud 18 is provided at the upper end of the atomizer housing 13, which promotes the mixing and atomization of oil and gas. Specifically, in order to improve the oil-gas atomization effect of the air-oil mixing atomizer 5, a mixing shroud 18 is installed at the upper end of the atomizer housing 13. The mixing shroud 18 has a contracting ring structure, and the conical bottom cover of the mixing shroud 18 is installed at the upper end of the air-oil mixing nozzle 7. The fuel oil sprayed from the oil spraying part 15 mixes with the high-pressure air in the mixing shroud 18 and is repeatedly impacted and atomized by the high-pressure air, which effectively improves the mixing and atomization effect of the air-oil mixing atomizer 5, improves combustion efficiency, has higher fuel utilization, and has better economic benefits and environmental performance.

[0051] Furthermore, in some embodiments, the oil injection hole 16 of the oil injection section 15 is coaxially fitted with the air-oil mixing injection hole 7. Specifically, in order to meet the installation requirements of different burners, such as... Figure 1-8As shown, the fuel injector 14 is coaxially arranged with the atomizer housing 13, thereby fitting the fuel injector 15 with the fuel-air mixing nozzle 7. This makes the fuel injector 16 coaxial with the fuel-air mixing nozzle 7 and facing the same direction. There is a certain gap between the installed fuel injector 15 and the fuel-air mixing nozzle 7, and high-pressure air can be sprayed out from the gap to atomize the fuel oil sprayed from the fuel injector 16, thus achieving a good fuel-air atomization effect.

[0052] Furthermore, in some embodiments, the oil spray nozzle 16 of the oil spray section 15 is installed perpendicularly to the air-oil mixing spray nozzle 7, with the oil spray nozzle 16 located below or above the air-oil mixing spray nozzle 7. Specifically, to meet the installation requirements of different burners, such as... Figure 9-12 As shown, the fuel injector 14 is installed perpendicular to the axis of the air-fuel mixing atomizer 5. The fuel injection part 15 is close to the air-fuel mixing nozzle 7. The fuel injection nozzle 16 is located directly above or below the air-fuel mixing nozzle 7. The fuel injection nozzle 16 sprays fuel oil to the position of the air-fuel mixing nozzle 7. High-pressure air is ejected from the third air chamber 6 of the air-fuel mixing atomizer 5 through the air-fuel mixing nozzle 7 and impacts the fuel oil, which can also achieve a good oil-gas atomization effect.

[0053] Furthermore, in some embodiments, the first through hole 8 is disposed on the burner housing 1 or the air chamber 2 and connects to the first air chamber 3 and the second air chamber 4; the second through hole 9 is disposed on the air-oil mixing atomizer 5 and connects to the second air chamber 4 and the third air chamber 6. Specifically, in order to realize the connection between the first through hole 8 and the first air chamber 3 and the second air chamber 4, depending on the installation position of the air chamber 2, the first through hole 8 can be disposed on the burner housing 1 or the air chamber 2, such as... Figure 1 , 2 As shown in Figures 6, 7, 9, 11, and 12, the air chamber 2 is located on the outer side of the bottom surface of the burner head shell 1, and the first through hole 8 is located on the bottom surface of the burner head shell 1 and within the area surrounded by the air chamber 2; Figure 3 As shown, the air chamber 2 is located at the bottom of the burner shell 1 and partially extends into the first gas chamber 3, and the first through hole 8 is located on the side wall of the air chamber 2 extending into the first gas chamber 3; as Figure 4 , 5 As shown in Figures 8 and 10, the air chamber 2 is located inside the first air chamber 3, and the first through hole 8 is located on the side wall of the air chamber 2. To connect the second chamber and the third air chamber 6 via the second through hole 9, the second through hole 9 is located on the side wall of the atomizer housing 13 and within the area enclosed by the air chamber 2. It should be noted that the number of the first through hole 8 and the second through hole 9 can be set according to requirements, and usually two or more are used. It should also be noted that the atomizing stove burner head of this utility model includes, but is not limited to, […]. Figure 1-12 Various structures are available, which can be appropriately deformed according to design requirements.

[0054] Furthermore, in this embodiment, a first mounting base 19 is provided on the burner housing 1, which is adapted to install the air-oil mixing atomizer 5; a second mounting base 20 is provided on the air chamber 2, which is adapted to install the air-oil mixing atomizer 5. Specifically, in order to install the air-oil mixing atomizer 5, a first mounting base 19 is provided on the burner housing 1 and a second mounting base 20 is provided on the air chamber 2. The air-oil mixing atomizer 5 is installed and connected by the first mounting base 19 and the second mounting base 20 with nuts.

[0055] Furthermore, in this embodiment, the burner head also includes a burner head liner 10, which is installed inside the first gas chamber 3 and encloses the burner head outer shell 1. The interior of the burner head liner 10 forms a fourth gas chamber 21, which is connected to the first gas chamber 3 through several third through holes 22. Specifically, the burner head liner 10 has a cylindrical hollow structure, with its bottom outer diameter smaller than the inner diameter of the burner head outer shell 1 and its top outer diameter larger than the outer diameter of the burner head outer shell 1, so that the burner head liner 10 can be fitted onto the top of the burner head outer shell 1 and enclose the first gas chamber 3. The hollow interior of the burner head liner 10 forms the fourth gas chamber 21, which serves as a combustion chamber where the mixed atomized oil and gas are burned. More specifically, the bottom of the burner inner liner 10 is a third mounting base 11, which passes through the bottom surface of the burner inner liner 10. Thus, when the burner inner liner 10 is installed in the first gas chamber 3, the third mounting base 11 engages with the upper end of the air-oil mixing atomizer 5, and the atomized oil and gas sprayed from the air-oil mixing nozzle 7 directly enters the fourth gas chamber 21. Preferably, to further improve combustion efficiency, multiple third through holes 22 are provided on the side wall of the burner inner liner 10. The third through holes 22 connect the first gas chamber 3 and the fourth gas chamber 21, allowing high-pressure air to enter the fourth gas chamber 21 from the first gas chamber 3 to aid combustion, resulting in higher combustion efficiency. It should be noted that the number of third through holes 22 can be set according to design requirements, and multiple third through holes 22 are usually irregularly arranged on the side wall of the burner inner liner 10.

[0056] Furthermore, in this embodiment, the burner head also includes a flame suppressor 23 and a flame concentrating ring 24. The flame suppressor 23 is installed at the upper end of the burner head inner liner 10 and encloses the fourth gas chamber 21. The flame concentrating ring 24 is installed at the upper end of the burner head inner liner 10 and surrounds the flame suppressor 23. Specifically, the flame suppressor 23 has a plate structure and has flame holes (not shown). The flames generated by combustion in the fourth gas chamber 21 can escape through the flame holes for heating. The flame concentrating ring 24 has a contracting ring structure. The conical bottom cover of the flame concentrating ring 24 is installed at the upper end of the burner head inner liner 10 and surrounds the flame suppressor 23, which plays a role in concentrating the flame and preventing wind, maintaining stable firepower and upright flames, which is conducive to heating.

[0057] Furthermore, an embodiment of this utility model also provides a stove using the above-mentioned atomizing stove burner head. The stove burner head has an additional air chamber 2 added around the air-oil mixing atomizer 5, and multiple second through holes 9 connected to the ventilation chamber 2 are provided around the air-oil mixing atomizer 5, so that the air pressure inside the air-oil mixing atomizer 5 is balanced. At the same time, the air chamber 2 is also connected to the burner head outer shell 1 through the first through hole 8, and the high-pressure air finally enters the burner head inner liner 10 to assist combustion, the flame is straight, the combustion is more complete, and it is more energy-efficient, which not only saves energy, but also has better economic benefits.

[0058] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0059] The embodiments described above are merely illustrative of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the patent application. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.

Claims

1. A type of atomizing stove burner head, characterized in that, include: The burner head shell, the interior of which is formed as a first gas chamber; The air chamber has a second air chamber inside, and an air-oil mixing atomizer is installed in the second air chamber. The air-oil mixing atomizer is installed and connected to the outer shell of the burner head. The fumes-oil mixing atomizer has a third air chamber, and the opening of the fumes-oil mixing nozzle of the fumes-oil mixing atomizer faces the first air chamber. The first air chamber is connected to the second air chamber through one or more first through holes, and the second air chamber is connected to the third air chamber through several second through holes; The air chamber is provided with an air inlet, which is connected to an air source. The air-oil mixing atomizer is connected to a fuel source, and the air-oil mixing atomizer sprays atomized oil and gas at the air-oil mixing nozzle.

2. The atomizing stove burner head as described in claim 1, characterized in that, The atomizer includes an atomizer housing and a nozzle. The upper end of the atomizer housing is provided with the atomizer mixing nozzle. One end of the nozzle is formed as a constricted spray section, and the upper end of the spray section is a spray hole. The spray hole is installed facing the atomizer mixing nozzle. The other end of the nozzle is connected to a fuel source.

3. The atomizing stove burner head as described in claim 2, characterized in that, The oil injection hole and the air-oil mixing injection hole are coaxially fitted together.

4. The atomizing stove burner head as described in claim 2, characterized in that, The oil injection hole is installed perpendicular to the air-oil mixing injection hole, and the oil injection hole is located below or above the air-oil mixing injection hole.

5. The atomizing stove burner head as described in claim 2, characterized in that, A mixing shroud is provided at the upper end of the atomizer housing, which promotes the mixing and atomization of oil and gas.

6. The atomizing stove burner head as described in claim 2, characterized in that, The air chamber and the air-oil mixing sprayer are installed inside the burner housing or on the bottom outer side of the burner housing.

7. The atomizing stove burner head as described in claim 1, characterized in that, The first through hole is provided on the outer shell of the burner head or the air chamber and connects the first air chamber and the second air chamber; The second through hole is provided on the oil-air mixing atomizer and connects the second air chamber and the third air chamber.

8. The atomizing stove burner head as described in claim 1, characterized in that, The burner housing is provided with a first mounting base, which is adapted to the installation of the air-oil mixing atomizer; The air chamber is provided with a second mounting base, which is adapted to be installed on the air-oil mixing atomizer.

9. The atomizing stove burner head as described in claim 1, characterized in that, It also includes a burner inner liner, which is installed in the first gas chamber and encapsulates the burner outer shell. The interior of the burner inner liner forms a fourth gas chamber, which is connected to the first gas chamber through several third through holes.

10. The atomizing stove burner head as described in claim 9, characterized in that, It also includes a flame suppressor and a flame concentrator. The flame suppressor is installed at the upper end of the inner liner of the burner head and encloses the fourth gas chamber. The flame concentrator is installed at the upper end of the inner liner of the burner head and surrounds the flame suppressor.

11. A stove, characterized in that, Includes the atomizing stove burner head as described in any one of claims 1-10.