CN112628801A - Energy-saving gas stove capable of being extinguished intelligently - Google Patents

Abstract

The invention relates to the technical field of gas cookers, and discloses an intelligent flameout energy-saving gas cooker which comprises a gas cooker, wherein a hearth is arranged at the top of the gas cooker, a main gas adjusting knob is arranged on the front surface of the hearth, a key starting button is arranged on one side of the main gas adjusting knob, a stove frame is arranged at the top of the hearth, a first storage cabinet is arranged on the front surface of the gas cooker, a second storage cabinet is arranged on one side of the first storage cabinet, a metal pot is arranged at the top of the stove frame, a hearth is arranged inside the stove frame, paint is filled on the inner wall of the hearth, an infrared steel wire mesh is arranged inside the hearth, a burner is arranged at the bottom of the infrared steel. This energy-conserving gas-cooker that intelligence is flame-out through reforming transform the gas-cooker energy-saving technology from several aspects such as burning energy-conservation, structural energy conservation, use energy-conservation, effectively solves current gas-cooker heating process calorific loss serious, causes the wasting of resources problem.

Description

Energy-saving gas stove capable of being extinguished intelligently

Technical Field

The invention relates to the technical field of gas stoves, in particular to an intelligent flameout energy-saving gas stove.

Background

The kitchen range is a kitchen tool for processing dishes, is widely applied to common families and the catering industry, and is divided into a natural gas stove, an artificial gas stove, a liquefied petroleum gas stove and the like according to the used gas types at present; the material quality is divided into a cast iron stove, a stainless steel stove, an enamel stove and the like; the stove is divided into a single-hole stove, a double-hole stove and a multi-hole stove according to stove holes; the ignition mode is divided into an electric pulse section ignition stove and a piezoelectric ceramic ignition stove; and is classified into a table type range, an embedded type range, etc. according to the installation mode. In the gas range, the most important is the burner, which can convert the gas into flame for heating.

The prior art has the following defects and shortcomings:

in the use process of the gas stove, the fuel is combusted to generate flame to dissipate heat so that the heat in the combustion chamber is accumulated, partial heat is diffused outwards through the side wall of the combustion chamber, heat loss is caused, waste is generated due to insufficient heat utilization of the gas stove, a large amount of steam is collected above the gas stove in the cooking process, the steam can be generally ignored directly, a lot of heat waste is also caused, in addition, in the process of turning over a pot, discharging vegetables and washing the pot, the gas stove is not flameout and is serious in resource waste, an energy-saving gas stove is continuously needed, and energy waste in the use process of the gas stove is reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent flameout energy-saving gas stove, which can solve the problem of resource waste caused by serious heat loss in the heating process of the existing gas stove; the device effectively solves the problem of resource waste caused by serious heat loss in the heating process of the existing gas stove by reforming the energy-saving technology of the gas stove from the aspects of combustion energy conservation, structural energy conservation, energy conservation in the using process and the like. The intelligent flameout energy-saving gas stove is simple and compact in structure, easy to manufacture, low in cost, flexible and convenient to use and easy to popularize and apply.

In order to realize the purpose of the energy-saving gas stove capable of intelligent flameout, the invention provides the following technical scheme: an energy-saving gas stove capable of intelligent flameout comprises a gas stove, wherein a hearth is arranged at the top of the gas stove, a main gas adjusting knob is arranged on the front face of the hearth, a one-key starting button is arranged on one side of the main gas adjusting knob, a stove frame is arranged on the top of the hearth, a first storage cabinet is arranged on the front face of the gas stove, a second storage cabinet is arranged on one side of the first storage cabinet, a metal pot is arranged on the top of the stove frame, a hearth is arranged inside the stove frame, paint is filled on the inner wall of the hearth, an infrared steel wire mesh is arranged inside the hearth, a burner is arranged at the bottom of the infrared steel wire mesh, a burner nozzle is arranged inside the burner nozzle, a flame channel is arranged at the bottom of the burner nozzle, one end of the flame channel is connected with a mixed gas channel, an, a premixing chamber is arranged on the first fuel pipe, an air flow channel is arranged on one side of the premixing chamber, a blower is arranged on one side of the air flow channel, a main air regulating valve is fixedly arranged on the first fuel pipe, an electromagnetic switch valve is fixedly arranged on the first fuel pipe, one end of the main gas regulating valve is provided with a second fuel pipe, one end of the second fuel pipe is connected with an air inlet pipe joint, one end of the air inlet pipe joint is connected with a gas tank, a valve is fixedly arranged on the gas tank, a built-in power supply is arranged in the gas stove, an annular channel is arranged inside the premixing chamber, a mechanical magnetic control assembly is arranged inside the infrared steel wire mesh shell, the mechanical magnetic control component is internally provided with a hinged metal shifting piece, one end of the hinged metal shifting piece is provided with a magnet, and the top of the hinged metal shifting piece is provided with a metal shifting piece.

Preferably, the height design of the hearth is matched with the flame high-temperature area, and the contact part of the bottom of the metal pot and the flame is positioned in the flame center high-temperature area.

Preferably, the coating is made of a heat insulation and reflection material, and is uniformly coated on the inner wall of the hearth.

Preferably, the outer diameter of the infrared steel wire mesh is matched with the inner diameter of the hearth, and the infrared steel wire mesh is fixedly installed inside the hearth through bolts.

Preferably, the combustor passes through bolt fixed mounting in the furnace bottom, the burner tip passes through bolt fixed mounting inside the combustor, the angular circumference such as burner tip distributes inside the combustor, the quantity of burner tip is a plurality of.

Preferably, one end of the igniter extends into the mixed gas channel, the igniter is electrically connected with a key starting button through a lead, and the key starting button is electrically connected with the built-in power supply through a lead.

Preferably, the blower is fixedly installed inside the gas stove through a bolt, and the blower is electrically connected with the built-in power supply through a lead.

Preferably, the main air regulating valve is a mechanical knob valve, and the electromagnetic switch valve is electrically connected with the built-in power supply through a lead.

Preferably, one end of the annular channel is communicated with the air flow channel, the other end of the annular channel is communicated with the mixed gas channel, and one end of the air flow channel penetrates through the inner wall and the outer wall of the annular channel and extends into the annular channel.

Preferably, mechanical type magnetic control assembly passes through bolt fixed mounting and is located metal pan bottom inside the furnace casing, mechanical type magnetic control assembly passes through wire and built-in power supply electric connection, articulated metal plectrum, metal plectrum pass through wire and electromagnetic switch valve circuit switch electric connection respectively, the metal pan is inhaled the formula through magnetic force and magnet and is connected, articulated metal plectrum can be in the inside articulated rotation of furnace casing, the gravity of magnet is greater than the magnetic attraction between magnet and the metal plectrum.

Compared with the prior art, the invention provides an intelligent flameout energy-saving gas stove which has the following beneficial effects:

the intelligent flameout energy-saving gas stove is technically improved from the aspects of combustion energy conservation, energy conservation of structure, energy conservation in the using process and the like, and the problem of resource waste caused by serious heat loss in the heating process of the existing gas stove is effectively solved.

1. Energy-saving combustion

The utility model provides an energy-conserving gas-cooker of intelligence flame-out, through set up the gas mixture passageway in combustor one side, gas mixture passageway one side sets up some firearms, some firearms and a key start button electric connection, can carry out a key ignition by the control of gas mixture passageway, gas mixture passageway one end directly links the gas mixture passageway, the gas mixture passageway top is connected with the burner respectively, thereby impel the gas in the gas mixture passageway to burn completely in short time and short distance, through set up the premix chamber in gas mixture passageway one side, premix chamber one side is connected with the air-blower through the air current channel, through the air-blower to the intraductal air that blasts of gas, set up the annular channel in the premix chamber inside, make the air current produce centrifugal force in the route process of circling round through the annular channel effect, produce bigger tangential revolving force when getting into the gas mixture passageway inside, through adopting this gas-air to premix, in addition, an infrared steel wire mesh is arranged in the hearth, heat absorption of the furnace chamber is reduced by adopting the infrared steel wire mesh, and the reflected heat is reflected to the bottom of the metal cookware, so that the heating speed of food is increased;

2. energy-saving structure

1) According to the energy-saving gas stove capable of intelligent flameout, the first storage cabinet is arranged at the bottom of the stove top, the second storage cabinet is arranged on one side of the first storage cabinet, so that the space below the stove top is effectively separated, and the use storage space is increased;

2) the energy-saving gas stove capable of intelligent flameout has the advantages that reasonable furnace chambers and flue gas flow passages are designed, reasonable residence time of flue gas in the furnace chamber is guaranteed, the phenomenon that high-temperature flame is directly exhausted due to short circuit is avoided, heat absorption of the furnace wall is reduced by adopting heat insulation reflective coating on the inner wall surface of the furnace chamber, the height design of the furnace chamber is matched with the high-temperature region of the flame, the contact position of the bottom of a metal cooker and the flame is located in the central high-temperature region of the flame, the contact position of the flame and the bottom of the cooker is located in the central high-temperature region through reasonable flame lifting height, and meanwhile complete combustion of;

3. energy saving in using process

The invention relates to an energy-saving gas stove capable of intelligent flameout, wherein a mechanical magnetic control assembly is arranged in a furnace shell, a metal shifting sheet and a hinged metal shifting sheet are arranged in the mechanical magnetic control assembly, the mechanical magnetic control assembly is respectively and electrically connected with a built-in power supply and an electromagnetic switch valve, when a metal pot is placed on the surface of a furnace, the bottom of the metal pot is contacted with the metal shifting sheet, the hinged metal shifting sheet is contacted with the metal shifting sheet through the magnetic adsorption of the metal pot and a magnet, so that a circuit of the electromagnetic switch valve is in a closed loop state, a gas channel between a second fuel pipe and a first fuel pipe is electrically controlled to be opened through the electromagnetic switch valve, when the gas stove is used, such as a pot turning process, a dish discharging process and a pot washing process, the metal pot leaves a stove frame, the magnetic force between the metal pot and the magnet disappears, and because the gravity of the magnet is, the hinged metal shifting piece is separated from the metal shifting piece, the electromagnetic switch valve is in a disconnected loop state, the electromagnetic switch valve is automatically closed, a gas channel between the second fuel pipe and the first fuel pipe is closed, flameout processing is carried out on the gas stove, energy is saved through flameout, the mechanical magnetic control gas switch valve is adopted to control the gas valve to be opened and closed, and the phenomena of 'pot-to-fire starting, pot-to-off and flameout and idle burning waste' are avoided.

Drawings

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

FIG. 2 is a partial cross-sectional structural schematic of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the premixing chamber according to the present invention;

FIG. 5 is a schematic circuit diagram of the mechanical magnetron assembly of the present invention.

In the figure: 1. a gas range; 2. a cooking bench; 3. a main air adjusting knob; 4. a key start button; 5. a furnace frame; 6. a first locker; 7. a second storage cabinet; 8. a metal pot; 9. a hearth; 10. coating; 11. infrared steel wire mesh; 12. a burner; 13. a burner tip; 14. a flame path; 15. a mixed gas channel; 16. an igniter; 17. a first fuel pipe; 18. a premixing chamber; 19. an air flow channel; 20. a blower; 21. a main gas regulating valve; 22. an electromagnetic switch valve; 23. a second fuel pipe; 24. an air inlet pipe joint; 25. a gas tank; 26. a valve; 27. a built-in power supply; 28. an annular channel; 29. a mechanical magnetic control assembly; 30. hinging a metal shifting piece; 31. a magnet; 32. a metal plectrum.

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. 1-5, an energy-saving gas stove capable of intelligent flameout comprises a gas stove 1, a top of the gas stove 1 is provided with a hearth 2, a main gas adjusting knob 3 is arranged on the front of the hearth 2, a key starting button 4 is arranged on one side of the main gas adjusting knob 3, a stove frame 5 is arranged on the top of the hearth 2, a first storage cabinet 6 is arranged on the front of the gas stove 1, a second storage cabinet 7 is arranged on one side of the first storage cabinet 6, a metal pot 8 is arranged on the top of the stove frame 5, a hearth 9 is arranged inside the stove frame 5, the inner wall of the hearth 9 is filled with a coating 10, an infrared steel wire mesh 11 is arranged inside the hearth 9, a burner 12 is arranged at the bottom of the infrared steel wire mesh 11, a burner 13 is arranged inside the burner 12, a flame channel 14 is arranged at the bottom of the burner 13, one end of the flame channel 14 is connected with, a premixing chamber 18 is arranged on the first fuel pipe 17, an airflow channel 19 is arranged on one side of the premixing chamber 18, an air blower 20 is arranged on one side of the airflow channel 19, a main air regulating valve 21 is fixedly installed on the first fuel pipe 17, an electromagnetic switch valve 22 is fixedly installed on the first fuel pipe 17, a second fuel pipe 23 is arranged at one end of the main air regulating valve 21, an air inlet pipe joint 24 is connected to one end of the second fuel pipe 23, a gas tank 25 is connected to one end of the air inlet pipe joint 24, a valve 26 is fixedly installed on the gas tank 25, a built-in power supply 27 is arranged inside the gas stove 1, an annular channel 28 is arranged inside the premixing chamber 18, a mechanical magnetic control assembly 29 is arranged inside a shell of the infrared steel wire mesh 11, a hinged metal shifting piece 30 is arranged inside the mechanical magnetic control assembly 29, a magnet 31 is arranged at one.

In conclusion, the height design of the hearth 9 is matched with the high-temperature region of the flame, the contact part of the bottom of the metal pot 8 and the flame is positioned in the central high-temperature region of the flame, and the contact of the flame and the pot bottom is positioned in the central high-temperature region through reasonable flame lifting height without weakening the complete combustion of the fuel gas; the coating 10 is made of heat insulation reflective materials, the coating 10 is uniformly coated on the inner wall of the hearth 9, and heat absorption of the furnace wall is reduced by adopting the heat insulation reflective coating on the surface of the inner wall of the hearth 9; the outer diameter of the infrared steel wire mesh 11 is matched with the inner diameter of the hearth 9, the infrared steel wire mesh 11 is fixedly installed inside the hearth 9 through bolts, heat absorption of a furnace chamber is reduced by adopting the infrared steel wire mesh 11, and reflected heat is reflected to the bottom of the metal pot 8, so that the heating speed of food is increased; the burner 12 is fixedly installed at the bottom of the hearth 9 through bolts, the combustion nozzles 13 are fixedly installed inside the burner 12 through bolts, the combustion nozzles 13 are distributed inside the burner 12 in an equiangular and circumferential manner, the number of the combustion nozzles 13 is a plurality, and the flame is sprayed out through the combustion nozzles 13 to be heated; one end of the igniter 16 extends into the mixed gas channel 15, the igniter 16 is electrically connected with the one-key starting button 4 through a lead, the one-key starting button 4 is electrically connected with the built-in power supply 27 through a lead, the igniter 16 is electrically connected with the one-key starting button 4, and one-key ignition can be carried out under the control of the flame channel 14; the blower 20 is fixedly installed inside the gas stove 1 through bolts, the blower 20 is electrically connected with the built-in power supply 27 through a lead, and air is blown into the gas pipe through the blower 20; the main air adjusting valve 21 is a mechanical knob valve, the electromagnetic switch valve 22 is electrically connected with the built-in power supply 27 through a lead, and the flow of the inlet air is adjusted through the main air adjusting valve 21; one end of the annular channel 28 is communicated with the air flow channel 19, the other end of the annular channel 28 is communicated with the mixed gas channel 15, one end of the air flow channel 19 penetrates through the inner wall and the outer wall of the annular channel 28 and extends into the annular channel 28, and the tangential rotation of flame and the backflow of smoke are enhanced by adopting the gas-air premixing mode; the mechanical magnetic control component 29 is fixedly installed inside the hearth 9 shell through bolts and is positioned at the bottom of the metal pot 8, the mechanical magnetic control component 29 is electrically connected with the built-in power supply 27 through a lead, the hinged metal shifting piece 30 and the metal shifting piece 32 are respectively electrically connected with the circuit switch of the electromagnetic switch valve 22 through leads, the metal pot 8 is magnetically connected with the magnet 31 through magnetic force, the hinged metal shifting piece 30 can be hinged and rotated inside the hearth 9 shell, the gravity of the magnet 31 is greater than the magnetic attraction force between the magnet 31 and the metal shifting piece 32, in the using process of the gas stove, such as the process of turning over a pot, taking out dishes and washing the pot, the metal pot 8 leaves the stove frame 5, the magnetic force between the metal pot 8 and the magnet 31 disappears, and because the gravity of the magnet 31 is greater than the magnetic attraction force between the magnet 31 and the metal shifting piece 32, the hinged metal shifting piece 30 is separated from the metal shifting, when the electromagnetic switch valve 22 is in the open circuit state, the electromagnetic switch valve 22 is automatically closed, and the gas passage between the second fuel pipe 23 and the first fuel pipe 17 is closed, so that the gas stove is extinguished.

The working and using process and the installation method of the invention are that when the intelligent flameout energy-saving gas stove is used, a mixed gas channel 15 is arranged at one side of a burner 12, an igniter 16 is arranged at one side of the mixed gas channel 15, the igniter 16 is electrically connected with a one-key starting button 4, one-key ignition can be carried out under the control of a flame channel 14, one end of the mixed gas channel 15 is directly connected with the flame channel 14, the top end of the flame channel 14 is respectively connected with a burner 13, thereby the gas in the mixed gas channel 15 is promoted to be completely combusted in a short time and a short distance, a premixing chamber 18 is arranged at one side of the mixed gas channel 15, one side of the premixing chamber 18 is connected with a blower 20 through a gas flow channel 19, air is blown into a gas pipe through the blower 20, an annular channel 28 is arranged in the premixing chamber 18, the gas flow generates centrifugal force in, the gas-air premixing type metal pot has the advantages that larger tangential rotating force is generated when the gas-air premixing type metal pot enters the mixed gas channel 15, tangential rotation of flame and backflow of smoke are enhanced by adopting the gas-air premixing mode, in addition, the infrared steel wire mesh 11 is arranged inside the hearth 9, heat absorption of a furnace chamber is reduced by adopting the infrared steel wire mesh 11, reflected heat is reflected to the bottom of the metal pot 8, and the heating speed of food is increased; the first storage cabinet 6 is arranged at the bottom of the cooking range 2, the second storage cabinet 7 is arranged on one side of the first storage cabinet 6, so that the space below the table top of the cooking range is effectively separated, and the used storage space is increased; according to the energy-saving gas stove capable of intelligent flameout, reasonable residence time of smoke in the hearth is guaranteed through the reasonable designed furnace chamber and smoke flow channel, the phenomenon that high-temperature flame is directly exhausted due to short circuit is avoided, heat absorption of the furnace wall is reduced by adopting heat insulation reflection coating on the inner wall surface of the hearth 9, the height design of the hearth 9 is matched with the flame high-temperature area, the contact position of the bottom of the metal pot 8 and the flame is located in the flame central high-temperature area, the contact position of the flame and the bottom of the pot is located in the central high-temperature area through reasonable flame lifting height, and meanwhile complete combustion of the gas is not weakened; by arranging the mechanical magnetic control component 29 in the shell of the hearth 9, arranging the metal shifting piece 32 and the hinged metal shifting piece 30 in the mechanical magnetic control component 29, electrically connecting the mechanical magnetic control component 29 with the built-in power supply 27 and the electromagnetic switch valve 22 respectively, contacting the metal shifting piece 32 at the bottom when the metal pot 8 is placed on the surface of the hearth 9, contacting the hinged metal shifting piece 30 with the metal shifting piece 32 through the magnetic adsorption of the metal pot 8 and the magnet 31, so that the circuit of the electromagnetic switch valve 22 is in a closed loop state, controlling the opening of a gas channel between the second fuel pipe 23 and the first fuel pipe 17 through the electric power of the electromagnetic switch valve 22, when the gas stove is used, such as turning over a pot, taking out vegetables and washing the pot, the metal pot 8 leaves the stove frame 5, the magnetic force between the metal pot 8 and the magnet 31 disappears, because the gravity of the magnet 31 is greater than the magnetic attraction force between the magnet 31 and the metal shifting piece 32, the hinged metal shifting piece 30 is separated from the metal shifting piece 32, the electromagnetic switch valve 22 is in a loop breaking state, the electromagnetic switch valve 22 is automatically closed, a gas channel between the second fuel pipe 23 and the first fuel pipe 17 is closed, flameout processing is carried out on the gas stove, energy is saved through flameout, the mechanical magnetic control gas switch valve is adopted to control the gas valve to be opened and closed, the phenomena of 'pot-to-fire starting, pot-off flameout and no-load combustion waste' are realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an energy-conserving gas-cooker that intelligence is flame-out which characterized in that: the gas stove comprises a gas stove (1), wherein a hearth (2) is arranged at the top of the gas stove (1), a main gas adjusting knob (3) is arranged on the front side of the hearth (2), a key starting button (4) is arranged on one side of the main gas adjusting knob (3), a stove frame (5) is arranged at the top of the hearth (2), a first storage cabinet (6) is arranged on the front side of the gas stove (1), a second storage cabinet (7) is arranged on one side of the first storage cabinet (6), a metal pot (8) is arranged at the top of the stove frame (5), a hearth (9) is arranged inside the stove frame (5), paint (10) is filled on the inner wall of the hearth (9), an infrared steel wire mesh (11) is arranged inside the hearth (9), a combustor (12) is arranged at the bottom of the infrared steel wire mesh (11), and a combustion nozzle (13) is arranged inside, a flame channel (14) is arranged at the bottom of the combustion nozzle (13), one end of the flame channel (14) is connected with a mixed gas channel (15), an igniter (16) is arranged on one side of the mixed gas channel (15), one end of the mixed gas channel (15) is connected with a first fuel pipe (17), a premixing chamber (18) is arranged on the first fuel pipe (17), an air flow channel (19) is arranged on one side of the premixing chamber (18), an air blower (20) is arranged on one side of the air flow channel (19), a main air adjusting valve (21) is fixedly installed on the first fuel pipe (17), an electromagnetic switch valve (22) is fixedly installed on the first fuel pipe (17), a second fuel pipe (23) is arranged at one end of the main air adjusting valve (21), one end of the second fuel pipe (23) is connected with an air inlet pipe joint (24), one end of the air inlet pipe joint (24) is connected with a, fixed mounting has valve (26) on gas tank (25), gas-cooker (1) inside is provided with built-in power supply (27), mix room (18) inside and be provided with annular channel (28) in advance, infrared wire net (11) casing inside is provided with mechanical type magnetic control assembly (29), mechanical type magnetic control assembly (29) inside is provided with articulated metal plectrum (30), articulated metal plectrum (30) one end is provided with magnet (31), articulated metal plectrum (30) top is provided with metal plectrum (32).

2. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: the height design of the hearth (9) is matched with the high-temperature area of the flame, and the contact position of the bottom of the metal pot (8) and the flame is located in the central high-temperature area of the flame.

3. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: the coating (10) is made of a heat insulation and reflection material, and the coating (10) is uniformly coated on the inner wall of the hearth (9).

4. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: the outer diameter of the infrared steel wire mesh (11) is matched with the inner diameter of the hearth (9), and the infrared steel wire mesh (11) is fixedly installed inside the hearth (9) through bolts.

5. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: combustor (12) are through bolt fixed mounting in furnace (9) bottom, burner tip (13) are through bolt fixed mounting inside combustor (12), angular circumference such as burner tip (13) distributes inside combustor (12), the quantity of burner tip (13) is a plurality of.

6. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: one end of the igniter (16) extends into the mixed gas channel (15), the igniter (16) is electrically connected with the one-key starting button (4) through a lead, and the one-key starting button (4) is electrically connected with the built-in power supply (27) through a lead.

7. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: the gas stove is characterized in that the air blower (20) is fixedly installed inside the gas stove (1) through bolts, and the air blower (20) is electrically connected with the built-in power supply (27) through a lead.

8. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: the main air adjusting valve (21) is a mechanical knob valve, and the electromagnetic switch valve (22) is electrically connected with the built-in power supply (27) through a lead.

9. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: annular channel (28) one end and air current passageway (19) through connection, annular channel (28) other end and gas mixture passageway (15) through connection, air current passageway (19) one end runs through annular channel (28) interior outer wall and extends to inside annular channel (28).

10. The intelligent flameout energy-saving gas stove as claimed in claim 1, characterized in that: mechanical type magnetic control subassembly (29) are located metal pan (8) bottom through bolt fixed mounting in furnace (9) casing is inside, mechanical type magnetic control subassembly (29) are through wire and built-in power supply (27) electric connection, articulated metal plectrum (30), metal plectrum (32) are respectively through wire and electromagnetic switch valve (22) circuit switch electric connection, metal pan (8) are connected through magnetic force and magnet (31) magnetism, articulated metal plectrum (30) can be in furnace (9) casing inside articulated rotation, the gravity of magnet (31) is greater than the magnetic attraction between magnet (31) and metal plectrum (32).

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