CN219674305U - Three-ring gas stove with quick-frying function - Google Patents

Abstract

The utility model discloses a three-ring gas stove with a quick-frying function, which comprises a combustor, wherein the combustor is provided with an outer ring injection pipe, a middle ring injection pipe and an inner ring injection pipe, and the three-ring gas stove also comprises a quick-frying structure connected to the middle ring injection pipe. The three-ring gas stove provided by the utility model has the advantages that on the basis of the original stove head and the plug valve, the original middle-ring fire is more powerful in firepower through the quick-frying structure, and the quick-frying function is effectively realized.

Description

Three-ring gas stove with quick-frying function

Technical Field

The utility model relates to the technical field of gas cookers, in particular to a tricyclic gas cooker with a stir-frying function.

Background

The national standard of the household gas cooker has certain limit on the rated heat load of the household gas cooker (the current standard is less than or equal to 5.23 kw), but in order to meet the requirements of quick frying of partial dishes of the national people, the heat load of the cooker is increased for a short time within the range of increasing certain heat load, so that the safety can be ensured, and the requirements of the quick frying function of the user can be met.

In order to realize the stir-frying function, a stir-frying gas circuit can be independently added in a kitchen range burner, and when the stir-frying function is started, an independent furnace end injection pipe and an independent fire hole are provided for the stir-frying gas combustion.

Disclosure of Invention

The utility model aims to solve one of the problems in the prior related art at least to a certain extent, and therefore, the utility model provides the three-ring gas stove with the quick-frying function.

According to the tricyclic gas stove with the quick-frying function, the technical scheme is as follows:

the utility model provides a three-ring gas-cooker of function of stir-fry in advance, includes the combustor, the combustor has outer loop to draw and draws and draw with the inner ring, wherein still including connect in the structure of stir-fry on the well draw, the structure of stir-fry includes at least and stir-fry valve subassembly, the valve subassembly of stir-fry includes: the valve body is provided with a quick-frying gas circuit and a middle ring gas circuit, the quick-frying gas circuit is communicated with the air inlet end of the middle ring injection pipe through a middle ring nozzle or a quick-frying air channel of the quick-frying nozzle assembly, the middle ring gas circuit is communicated with the air inlet end of the middle ring injection pipe through a middle ring nozzle or a conventional air channel of the quick-frying nozzle assembly, and at least part of the quick-frying air channel is positioned at the periphery of the conventional air channel; the quick-frying electromagnetic valve is arranged on the valve body and used for controlling the on-off state of the quick-frying gas circuit.

In some embodiments, the stir-frying air channel comprises a stir-frying air inlet channel and a stir-frying air outlet channel, the stir-frying air outlet channel is arranged at the periphery of the conventional air channel, the stir-frying air inlet channel is arranged at the outer side of the stir-frying air outlet channel, and the stir-frying air inlet channel is communicated with the air inlet end of the medium ring injection pipe through the stir-frying air outlet channel.

In some embodiments, the stir-frying air inlet channel comprises a stir-frying air inlet section and a stir-frying throttling section, wherein the diameter of the stir-frying throttling section is smaller than that of the stir-frying air inlet section, and the stir-frying air inlet section is communicated with the stir-frying air outlet channel through the stir-frying throttling section.

In some embodiments, the stir-frying air inlet channel further comprises a stir-frying shrinkage section and/or a stir-frying radiation section, the stir-frying air inlet section is communicated with the stir-frying throttling section through the stir-frying shrinkage section, and the stir-frying throttling section is communicated with the stir-frying air outlet channel through the stir-frying radiation section.

In some embodiments, the air outlet section of the conventional air channel is formed with a conventional shrinkage hole and a conventional spray hole which are communicated in sequence; the gas outlet section of the quick-frying gas channel is provided with a quick-frying shrinkage hole and a quick-frying spray hole which are communicated in sequence, the quick-frying shrinkage hole is positioned at the periphery of the conventional shrinkage hole, and the quick-frying spray hole is positioned at the periphery of the conventional spray hole.

In some embodiments, the valve body further has a main air inlet section, and the quick-frying air path and the middle ring air path are respectively communicated with a middle ring air outlet of the plug valve through the main air inlet section.

In some embodiments, the air inlet section of the middle ring air channel is formed with an air inlet orifice and an air inlet expansion hole, the main air inlet section is communicated with the air inlet expansion hole through the air inlet orifice, and the air outlet section of the middle ring air channel and the quick-frying air channel are respectively communicated with the middle ring nozzle.

In some embodiments, the valve body further has a main air outlet section, and the air outlet sections of the quick-frying air circuit and the middle ring air circuit are respectively communicated with the middle ring nozzle through the main air outlet section.

In some embodiments, the stir-frying valve assembly further comprises a fixing seat, and the valve body is fixedly installed in the kitchen range bottom shell through the fixing seat.

In some embodiments, the stir-frying structure is arranged between the inner ring injection pipe and the inner ring air outlet of the plug valve, and/or the stir-frying structure is arranged between the outer ring injection pipe and the outer ring air outlet of the plug valve.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

1. according to the three-ring gas stove, the quick-frying structure is connected between the air inlet end of the middle ring injection pipe and the middle ring air outlet of the plug valve, so that the original middle ring fire of the burner is more strong, the quick-frying function is effectively realized, and compared with the case that the quick-frying structure is arranged in the inner ring injection pipe or the outer ring injection pipe, the local fire is not too large, the pot is not easy to be burnt during cooking, and the fire is more cohesive and more energy-saving;

2. the quick-frying gas circuit of quick-frying valve assembly is communicated with the middle ring injection pipe of the combustor through the middle ring nozzle or the quick-frying gas passage of the quick-frying nozzle assembly, and the middle ring gas circuit of the quick-frying valve assembly is communicated with the middle ring injection pipe of the combustor through the middle ring nozzle or the conventional gas passage of the quick-frying nozzle assembly.

Drawings

Fig. 1 is a schematic view of a structure of a three-ring gas range in embodiment 1 of the present utility model;

FIG. 2 is a schematic view of the structure of a stir-frying nozzle assembly in embodiment 1 of the present utility model;

FIG. 3 is a cross-sectional view of a quick-fry nozzle assembly according to embodiment 1 of the present utility model;

FIG. 4 is a schematic structural view of a quick-fry valve assembly according to embodiment 1 of the present utility model;

FIG. 5 is a cross-sectional view of a quick-fry valve assembly according to embodiment 1 of the present utility model;

fig. 6 is a schematic view of the structure of a three-ring gas range in embodiment 2 of the present utility model;

FIG. 7 is a schematic view of the structure of a pop-up valve assembly according to embodiment 2 of the present utility model;

fig. 8 is a cross-sectional view of a quick-fry valve assembly according to embodiment 2 of the present utility model.

In the figure: 1-burner, 11-outer ring injection pipe, 12-middle ring injection pipe and 13-inner ring injection pipe;

2-stir-frying nozzle assembly, 21-conventional air passage, 211-conventional shrinkage hole, 212-conventional spray hole, 22-stir-frying air inlet channel, 221-stir-frying air inlet section, 222-stir-frying throttling section, 223-stir-frying shrinkage section, 224-stir-frying radiation section, 23-stir-frying air outlet channel, 231-stir-frying shrinkage hole and 232-stir-frying spray hole;

3-quick-frying valve components, 31-quick-frying electromagnetic valves, 32-valve bodies, 320-main air inlet sections, 321-quick-frying air paths, 322-middle ring air paths, 3221-air inlet orifices, 3222-air inlet expansion holes, 323-main air outlet sections and 33-fixing seats;

4-plug valves, 41-outer ring air outlets, 42-middle ring air outlets and 43-inner ring air outlets;

51-outer ring conventional nozzle, 52-middle ring nozzle, 53-inner ring conventional nozzle.

Detailed Description

The following examples illustrate the utility model, but the utility model is not limited to these examples. Modifications and equivalents of some of the technical features of the specific embodiments of the present utility model may be made without departing from the spirit of the present utility model, and they are all included in the scope of the claimed utility model.

Example 1

Referring to fig. 1, the embodiment provides a three-ring gas stove with a stir-frying function, which comprises a burner 1, a stir-frying structure (not shown in the figure) and a plug valve 4, wherein the burner 1 is provided with an outer ring injection pipe 11, a middle ring injection pipe 12 and an inner ring injection pipe 13. The plug valve 4 has an outer ring air outlet 41, a middle ring air outlet 42 and an inner ring air outlet 43, the outer ring air outlet 41 is communicated with the air inlet end of the outer ring injection pipe 11 through an outer ring air pipe (not shown in the figure), and the inner ring air outlet 43 is communicated with the air inlet end of the inner ring injection pipe 13 through an inner ring air pipe (not shown in the figure). A quick-frying structure is connected between the outer ring air outlet 41 and the air inlet end of the outer ring injection pipe 11, so that the original middle ring fire of the combustor 2 is more strong through the quick-frying structure, and the quick-frying function is effectively realized; compared with the stir-frying structure arranged in the inner ring injection pipe 13, the local firepower is not too large, and the pan is not easy to be burnt during cooking; compared with the stir-frying structure arranged in the outer ring injection pipe 11, the heat power is cohesive and energy-saving.

In this embodiment, the quick-frying structure includes a quick-frying nozzle assembly 2 and a quick-frying valve assembly 3, the quick-frying nozzle assembly 2 has a conventional air passage 21 and a quick-frying air passage (not shown in the figure), and at least part of the quick-frying air passage is located at the periphery of the conventional air passage 21, so that the overall structure of the quick-frying nozzle assembly 2 is more compact, and the occupied space is smaller; the conventional air passage 21 and the stir-frying air passage are respectively communicated with the air inlet end of the middle ring injection pipe 12. The quick-frying valve assembly 3 comprises a quick-frying electromagnetic valve 31 and a valve body 32 with a quick-frying gas path 321 and a middle ring gas path 322, wherein the quick-frying electromagnetic valve 31 is arranged on the valve body 32 and used for controlling the on-off state of the quick-frying gas path 321; the air inlet end of the middle ring ejector tube 12 is communicated with the air inlet end of the middle ring ejector tube 12 through the air inlet channel of the middle ring ejector nozzle assembly 2, and the air inlet end of the middle ring ejector tube 12 is communicated with the air inlet end of the middle ring ejector tube 322 through the conventional air channel 21 of the middle ring ejector nozzle assembly 2.

Referring to fig. 1-3, in the present embodiment, the air intake section of the conventional air duct 21 has no obvious throttling and depressurization, and the injection performance is better, so that the combustion of the fuel gas is more complete. A conventional shrinkage hole 211 and a conventional spray hole 212 which are sequentially communicated are formed in the air outlet section of the conventional air passage 21, and the conventional shrinkage hole 211 is communicated with the air inlet end of the middle ring ejector pipe 12 through the conventional spray hole 212. The gas outlet section of the quick-frying air flue is provided with a quick-frying shrinkage hole 231 and a quick-frying spray hole 232 which are communicated in sequence, the quick-frying shrinkage hole 231 is positioned at the periphery of the conventional shrinkage hole 211, the quick-frying spray hole 232 is positioned at the periphery of the conventional spray hole 212, and the quick-frying shrinkage hole 231 is communicated with the gas inlet end of the middle ring injection pipe 12 through the quick-frying spray hole 232.

In this embodiment, the stir-fry air flue includes a stir-fry air inlet channel 22 and a stir-fry air outlet channel 23, and the stir-fry air outlet channel 23 forms an air outlet section of the stir-fry air flue, and is arranged at the periphery of the conventional air flue 21, so that the stir-fry air outlet channel 23 and the conventional air flue 21 are coaxially arranged, the overall structure of the stir-fry nozzle assembly 2 is more compact, and meanwhile, the stir-fry nozzle assembly 2 is ensured to be reliably connected to a middle ring injection pipe of the original furnace end. The end of the quick-frying air outlet channel 23, which is close to the burner 1, is provided with a quick-frying shrinkage hole 231 and a quick-frying spray hole 232 which are communicated in sequence.

The stir-frying air inlet channel 22 forms an air inlet section of a stir-frying air channel, and is arranged outside the stir-frying air outlet channel 23, and the stir-frying air inlet channel 22 is communicated with the air inlet end of the middle ring injection pipe 12 through the stir-frying air outlet channel 23.

The stir-fry air inlet passage 22 comprises a stir-fry air inlet section 221 and a stir-fry throttling section 222, wherein the diameter of the stir-fry throttling section 222 is smaller than that of the stir-fry air inlet section 221, and the stir-fry air inlet section 221 is communicated with the stir-fry air outlet passage 23 through the stir-fry throttling section 222, so that obvious throttling and depressurization are realized before the air is introduced into the stir-fry air outlet passage 23. Optionally, the air inlet duct 22 further includes a stir-frying shrinkage section 223 and/or a stir-frying radiation section 224, the stir-frying air inlet section 221 is communicated with the stir-frying throttling section 222 through the stir-frying shrinkage section 223, and the caliber of the stir-frying shrinkage section 223 is gradually reduced from the stir-frying air inlet section 221 to the stir-frying throttling section 222 so as to facilitate the gas to be led to the stir-frying throttling section 222. The stir-frying throttling segment 222 is communicated with the stir-frying air outlet channel 23 through a stir-frying radiation segment 224. In other embodiments, the parch-emitting section 224 may be omitted.

Referring to fig. 1 and 4-5, the valve body 32 further has a main air inlet section 320, and an air inlet end of the quick-fry air path 321 and an air inlet end of the middle ring air path 322 are respectively communicated with the middle ring air outlet 42 of the plug valve 4 through the main air inlet section 320.

In this embodiment, the stir-frying valve assembly 3 further includes a fixing base 33, and the valve body 32 is fixedly mounted in the bottom shell of the stove through the fixing base 33, so that the stir-frying valve assembly 3 is stably and reliably mounted in the bottom shell of the stove through the fixing base 33.

The control logic of the tricyclic burner of the present embodiment is described below in conjunction with fig. 1-5;

referring to fig. 1-5, during conventional combustion, the gas on-off and ventilation of each ring fire of the gas stove are controlled by rotating a knob (controlled by an electric mechanism if an electric valve) on the gas stove.

The gas stove is also provided with a stir-frying switch, when a user starts the stir-frying switch, the stir-frying switch controls a stir-frying electromagnetic valve 31 on the stir-frying valve assembly 3 to suck a valve so as to open a stir-frying gas path 321, and fuel gas added in the stir-frying gas path 321 sequentially passes through a stir-frying gas path of the stir-frying nozzle assembly 3 and the middle ring injection pipe 12 and is sprayed from a fire hole communicated with the middle ring injection pipe 12 to burn, so that middle ring firepower is increased; when the stir-frying switch is turned off, the set stir-frying time is up, the plug valve 4 is turned off or flame induction is abnormal, the stir-frying electromagnetic valve 31 can be turned off, so that the stir-frying air passage 321 is closed.

Example 2

Referring to fig. 6-8, the present embodiment is different from embodiment 1 in that the stir-frying structure only includes a stir-frying valve assembly 2, the stir-frying valve assembly 3 includes a stir-frying electromagnetic valve 31 and a valve body 32 having a stir-frying gas path 321 and a middle ring gas path 322, and the stir-frying electromagnetic valve 31 is disposed on the valve body 32 and is used for controlling the on-off state of the stir-frying gas path 321. The quick-frying gas circuit 321 is communicated with the gas inlet end of the middle ring injection pipe 12 through the middle ring nozzle 52, and the middle ring gas circuit 322 is communicated with the gas inlet end of the middle ring injection pipe 12 through the middle ring nozzle 52, so that the quick-frying valve assembly 3 can be connected between the furnace end of the original combustor 1 and the middle ring gas outlet 42 of the original plug valve 4 without additionally adding the quick-frying nozzle assembly 2 and only through the existing conventional nozzle.

Referring to fig. 8, the valve body 32 further has a main air inlet section 320, and an air inlet end of the quick-fry air path 321 and an air inlet end of the middle ring air path 322 are respectively communicated with the middle ring air outlet 42 of the plug valve 4 through the main air inlet section 320. In the embodiment, the quick-frying gas path 321 has no throttle hole, and the gas flow is larger, so that middle ring firepower is increased; the air inlet section of the middle ring air path 322 is formed with an air inlet orifice 3221 and an air inlet expansion hole 3222, and the main air inlet section 320 is communicated with the air inlet expansion hole 3222 through the air inlet orifice 3221, so that the middle ring air path 322 is provided with an orifice, and the fuel gas quantity flowing from the middle ring air path 322 to the middle ring nozzle 52 is limited. The air outlet section of the middle ring air channel 322 and the stir-frying air channel 321 are respectively communicated with the middle ring nozzle 52.

The valve body 32 is further provided with a main air outlet section 323, the air outlet sections of the quick-frying air circuit 321 and the middle ring air circuit 322 are respectively communicated with the middle ring nozzle 52 through the main air outlet section 323, so that the fuel gas flowing through the quick-frying air circuit 321 and the fuel gas flowing through the middle ring air circuit 322 are converged at the main air outlet section 323, and then are sprayed into the middle ring injection pipe 12 through the middle ring nozzle 52.

The quick-frying valve assembly 3 further comprises a fixing seat 33, and the valve body 32 is fixedly arranged in the cooker bottom shell through the fixing seat 33 so as to be stably and reliably arranged in the cooker bottom shell through the fixing seat 33.

In this embodiment, when a user starts the stir-frying switch, the stir-frying switch controls the stir-frying electromagnetic valve 31 on the stir-frying valve assembly 3 to inhale the valve so as to open the stir-frying gas path 321, and the fuel gas added in the stir-frying gas path 321 sequentially passes through the conventional middle ring nozzle 52 and the middle ring injection pipe 12 and is sprayed from a fire hole communicated with the middle ring injection pipe 12 for combustion, so that middle ring firepower is increased; when the stir-frying switch is turned off, the set stir-frying time is up, the plug valve 4 is turned off or flame induction is abnormal, the stir-frying electromagnetic valve 31 can be turned off, so that the stir-frying air passage 321 is closed.

Example 3

The difference between this embodiment and embodiment 1 or 2 is that a stir-fry structure is provided between the inner ring injection pipe 13 and the inner ring air outlet 43 of the plug valve 4, and/or a stir-fry structure is provided between the outer ring injection pipe 11 and the outer ring air outlet 41 of the plug valve 4. Therefore, the quick-frying structure not only can be arranged between the middle ring injection pipe 12 and the middle ring air outlet 42 of the plug valve 4, but also can be conveniently arranged on the inner ring or the outer ring according to the needs, and the three-ring plug valve does not need to be newly added, and the original furnace end structure does not need to be changed, so that the universality is good.

When the quick-frying structure is arranged between the outer ring injection pipe 11 and the outer ring air outlet 41 of the plug valve 4, the quick-frying structure at least comprises a quick-frying valve assembly 2, at the moment, the outer ring air outlet 41 of the plug valve 4 is communicated with the main air inlet section 320 of the quick-frying valve assembly 2, the quick-frying air path of the quick-frying valve assembly is communicated with the outer ring injection pipe 11 of the combustor 1 through the outer ring conventional nozzle 51 or the quick-frying air path of the quick-frying nozzle assembly 2, and the middle ring air path 21 of the quick-frying valve assembly 2 is communicated with the outer ring injection pipe 11 of the combustor 1 through the outer ring conventional nozzle 51 or the conventional air path of the quick-frying nozzle assembly 2.

When the quick-frying structure is arranged between the inner ring injection pipe 13 and the inner ring air outlet 43 of the plug valve 4, the quick-frying structure at least comprises a quick-frying valve assembly 2, at this time, the inner ring air outlet 43 of the plug valve 4 is communicated with the main air inlet section 320 of the quick-frying valve assembly 2, the quick-frying air passage of the quick-frying valve assembly is communicated with the inner ring injection pipe 13 of the combustor 1 through the inner ring conventional nozzle 53 or the quick-frying air passage of the quick-frying nozzle assembly 2, and the middle ring air passage 21 of the quick-frying valve assembly 2 is communicated with the inner ring injection pipe 13 of the combustor 1 through the inner ring conventional nozzle 53 or the conventional air passage of the quick-frying nozzle assembly 2.

In this embodiment, since the middle ring and the outer ring and/or the inner ring are provided with the stir-frying structure, when a user starts the stir-frying switch, the stir-frying solenoid valves 31 on the respective rings are opened synchronously or asynchronously; when the stir-frying switch is turned off or the set stir-frying time is reached, the stir-frying electromagnetic valves on each ring can be asynchronously turned off, for example, the stir-frying electromagnetic valve 31 on the outer ring and/or the inner ring is firstly turned off, and then the stir-frying electromagnetic valve 31 on the middle ring is turned off; when the plug valve 4 is closed or flame induction is abnormal, the stir-frying electromagnetic valves 31 on the rings can be closed.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. The utility model provides a three-ring gas-cooker of function of stir-fry in area, includes combustor (1), combustor (1) have outer loop injection pipe (11), middle ring injection pipe (12) and inner ring injection pipe (13), its characterized in that still including connect in stir-fry structure on middle ring injection pipe (12), stir-fry structure includes at least quick-fry valve assembly (3), quick-fry valve assembly (3) include:

the valve body (32) is provided with a quick-frying gas path (321) and a middle ring gas path (322), the quick-frying gas path (321) is communicated with the air inlet end of the middle ring injection pipe (12) through a middle ring nozzle (52) or a quick-frying gas path of the quick-frying nozzle assembly (2), and the middle ring gas path (322) is communicated with the air inlet end of the middle ring injection pipe (12) through a middle ring nozzle (52) or a conventional gas path (21) of the quick-frying nozzle assembly (2);

the quick-frying electromagnetic valve (31) is arranged on the valve body (32) and used for controlling the on-off state of the quick-frying gas circuit (321).

2. The tricyclic gas stove with the stir-frying function according to claim 1, wherein the stir-frying air channel comprises a stir-frying air inlet channel (22) and a stir-frying air outlet channel (23), the stir-frying air outlet channel (23) is arranged on the periphery of the conventional air channel (21), the stir-frying air inlet channel (22) is arranged on the outer side of the stir-frying air outlet channel (23), and the stir-frying air inlet channel (22) is communicated with the air inlet end of the middle ring injection pipe (12) through the stir-frying air outlet channel (23).

3. The tricyclic gas stove with the stir-frying function according to claim 2, wherein the stir-frying air inlet channel (22) comprises a stir-frying air inlet section (221) and a stir-frying throttling section (222), the diameter of the stir-frying throttling section (222) is smaller than that of the stir-frying air inlet section (221), and the stir-frying air inlet section (221) is communicated with the stir-frying air outlet channel (23) through the stir-frying throttling section (222).

4. A tricyclic gas range with a stir-frying function according to claim 3, wherein the stir-frying air inlet channel (22) further comprises a stir-frying contraction section (223) and/or a stir-frying radiation section (224), the stir-frying air inlet section (221) is communicated with the stir-frying throttling section (222) through the stir-frying contraction section (223), and the stir-frying throttling section (222) is communicated with the stir-frying air outlet channel (23) through the stir-frying radiation section (224).

5. The tricyclic gas range with the quick-frying function according to any one of claims 1 to 4, wherein a gas outlet section of the conventional gas duct (21) is formed with a conventional shrinkage hole (211) and a conventional spray hole (212) which are communicated in sequence; the gas outlet section of the quick-frying gas channel is provided with a quick-frying shrinkage hole (231) and a quick-frying spray hole (232) which are communicated in sequence, the quick-frying shrinkage hole (231) is positioned at the periphery of the conventional shrinkage hole (211), and the quick-frying spray hole (232) is positioned at the periphery of the conventional spray hole (212).

6. The tricyclic gas range with the quick-frying function according to claim 1, wherein the valve body (32) is further provided with a main gas inlet section (320), and the quick-frying gas path (321) and the middle-ring gas path (322) are respectively communicated with a middle-ring gas outlet (42) of the plug valve (4) through the main gas inlet section (320).

7. The three-ring gas stove with the quick-frying function according to claim 6, wherein an air inlet orifice (3221) and an air inlet expansion hole (3222) are formed in an air inlet section of the middle-ring gas circuit (322), the main air inlet section (320) is communicated with the air inlet expansion hole (3222) through the air inlet orifice (3221), and an air outlet section of the middle-ring gas circuit (322) and the quick-frying gas circuit (321) are respectively communicated with the middle-ring nozzle (52).

8. The tricyclic gas range with the quick-frying function according to claim 7, wherein the valve body (32) further comprises a main gas outlet section (323), and the quick-frying gas path (321) and the gas outlet section of the middle-ring gas path (322) are respectively communicated with the middle-ring nozzle (52) through the main gas outlet section (323).

9. The tricyclic gas stove with the quick-frying function according to claim 1, wherein the quick-frying valve assembly (3) further comprises a fixed seat (33), and the valve body (32) is fixedly installed in a stove bottom shell through the fixed seat (33).

10. A three-ring gas stove with a stir-frying function according to any one of claims 1-4 or 6-9, characterized in that the stir-frying structure is arranged between the inner ring injection pipe (13) and the inner ring gas outlet (43) of the plug valve (4) and/or the stir-frying structure is arranged between the outer ring injection pipe (11) and the outer ring gas outlet (41) of the plug valve (4).