CN221055062U - Gas range - Google Patents

Abstract

The utility model provides a gas stove, which belongs to the technical field of kitchen appliances, and comprises a stove body, a first burner and a second burner, wherein the stove body comprises a stove shell; the first burner comprises a first burner head which is rotatably connected with the stove shell, the first burner head is provided with a first working position and a second working position, the second burner is connected with the stove shell in a turnover way, so that the second burner can be switched between a horizontal position and a vertical position, and the second burner comprises a second burner head; when the first furnace end is arranged at the second working position and the second furnace end is arranged at the horizontal position, the first furnace end is positioned below the second furnace end, and at least one part of the first furnace end is arranged at the center position of the second furnace end. The first burner and the second burner can be used independently, and are combined with each other to form a combined burner with larger heat load, so that different cooking requirements are met.

Description

Gas range

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a gas stove.

Background

Along with the improvement of living standard, the power (fire) adjusting range of the gas cooker is required to be wider and wider, so that the fire is uniform, small fire is concentrated, and big fire can be stir-fried with strong fire. However, the power of the existing gas cooker is fixed, and different cooking requirements cannot be met at the same time.

Disclosure of utility model

The utility model aims to provide a gas stove, wherein the first burner can rotate in the horizontal direction, the second burner can be turned over in the horizontal position and the vertical position, and the first burner and the second burner can be used independently and are combined with each other to form a combined burner with larger heat load so as to meet different cooking demands.

In order to achieve the purpose of the utility model, the utility model adopts the following technical scheme:

according to a first aspect of the present utility model, a gas range is provided. The gas cooker includes:

A stove body comprising a stove housing;

The first burner comprises a first burner head which is rotationally connected with the cooker shell and is provided with a first working position and a second working position;

a second burner coupled to the cooktop housing in a flip-flop manner such that the second burner is switchable between a horizontal position and a vertical position, the second burner including a second burner;

When the first furnace end is arranged at the second working position and the second furnace end is arranged at the horizontal position, the first furnace end is positioned below the second furnace end, and at least one part of the first furnace end is arranged at the center position of the second furnace end.

According to an embodiment of the present utility model, the stove housing is connected with a first mounting seat and a second mounting seat, and the gas stove further comprises:

One end of the rotating component is connected with the first mounting seat, and the other end of the rotating component is connected with the first furnace end and is used for driving the first furnace end to horizontally rotate;

one end of the overturning assembly is rotationally connected to the second mounting seat, and the other end of the overturning assembly is used for driving the second furnace end to vertically overturn;

After the first furnace head is arranged at the second working position through the rotating component, the second furnace head can be arranged at the horizontal position through the overturning component, so that the combination of the first furnace head and the second furnace head is realized.

According to an embodiment of the present utility model, the rotating member includes:

the rotating assembly is connected between the first mounting seat and the first furnace head;

One end of the driving component is connected with the first mounting seat, and the other end of the driving component is connected with the rotating component;

The driving assembly drives the first furnace head to switch between the first working position and the second working position through the rotating assembly.

According to one embodiment of the utility model, the first furnace head is connected with a first injection pipe, the input end of the first injection pipe is connected with the first mounting seat, and the output end of the first injection pipe is fixedly connected with the first furnace head;

The second furnace end comprises a furnace body, the bottom of one side of the furnace body, which is close to the first furnace end, is recessed upwards to form a groove, and the output end of the first injection pipe penetrates through the groove, so that the centers of the first furnace end and the furnace body are overlapped.

According to an embodiment of the present utility model, a projection of the groove on the second burner axis section is an inverted U shape.

According to an embodiment of the present utility model, the flipping assembly includes:

A rotating shaft which rotates the top of the second mounting seat;

One side of the mounting plate is fixedly connected with the rotating shaft, and the other side of the mounting plate is connected with the second furnace end;

one end of the driving part is connected with the cooker shell, and the other end of the driving part is connected with the rotating shaft so as to drive the rotating shaft to rotate;

the driving part drives the mounting plate and the second furnace end to turn over along the rotating shaft.

According to an embodiment of the present utility model, wherein the gas range further includes:

The position sensor assembly comprises a first position sensor and a second position sensor, the first position sensor is used for detecting the working position of the first burner, and the second position sensor is used for judging the position of the second burner;

A controller connecting the position sensor assembly, the flipping assembly, and the rotating member;

The controller controls the turnover assembly and the rotating component to move according to signals of the first position sensor and the second position sensor.

According to an embodiment of the utility model, the gas stove further comprises a third burner, wherein the third burner comprises a third burner fixedly connected with the stove shell;

Wherein the centers of the cross sections of the first burner, the second burner and the third burner are collinear.

According to an embodiment of the utility model, the first burner is located between the second burner and the third burner.

According to an embodiment of the utility model, wherein the cooktop body further comprises:

The panel is covered on the top of the cooker shell and is provided with a first round hole corresponding to the first mounting seat, a second round hole corresponding to the second mounting seat and a third round hole corresponding to the third burner;

the liquid containing disc is positioned at the top of the panel and provided with a mounting hole for mounting the third furnace end;

And one side of the liquid containing disc, which is close to the first furnace end, is provided with an arc-shaped groove for limiting the movement track of the first furnace end.

According to an embodiment of the utility model, the mounting plate is further connected with:

The bottom of the supporting leg is connected with the mounting plate, a plurality of supporting legs are arranged, and the supporting legs are uniformly distributed along the periphery of the second furnace end;

The support column, the support column connect in the mounting panel is kept away from one side of second mount pad, the support column can be in the second furnace end is located the horizontal position the butt in the top of panel.

According to an embodiment of the utility model, the gas stove further comprises a third burner, wherein the third burner comprises a third burner fixedly connected with the stove shell;

The central connecting lines of the cross sections of the first furnace end, the second furnace end and the third furnace end form triangles.

According to an embodiment of the utility model, the first mounting seat is provided with a first air supply channel corresponding to the first working position and a second air supply channel corresponding to the second working position, the first air supply channel and the second air supply channel are mutually independent, wherein the air outlet end of the first air supply channel is connected with a first nozzle, and the air outlet end of the second air supply channel is connected with a second nozzle;

The second mounting seat is connected with a third nozzle.

One embodiment of the present utility model has the following advantages or benefits:

The first burner can rotate in the horizontal direction, the second burner can turn over in the horizontal position and the vertical position, and the first burner and the second burner can be used independently and are combined with each other to form a combined burner with larger heat load, so that the combined burner not only meets the cooking requirement of western-style food, but also meets the quick-frying requirement of Chinese food.

Drawings

The above and other features and advantages of the present utility model will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

Fig. 1 is a first schematic view of a gas range according to an exemplary embodiment.

Fig. 2 is a second schematic view of a gas range according to an exemplary embodiment.

Fig. 3 is a third schematic view of a gas range according to an exemplary embodiment.

Fig. 4 is a fourth schematic view of a gas range according to an exemplary embodiment.

Fig. 5 is a fifth schematic view of a gas range according to an exemplary embodiment.

FIG. 6 is a schematic diagram of a first combustor shown in accordance with an exemplary embodiment.

Fig. 7 is a cross-sectional view of a first burner shown in accordance with an exemplary embodiment.

FIG. 8 is a schematic diagram of a second combustor shown in accordance with an exemplary embodiment.

Fig. 9 is a cross-sectional view of a second burner shown according to an exemplary embodiment.

Wherein reference numerals are as follows:

1. A stove body; 11. a stove housing; 111. a first mount; 1111. a first air supply channel; 1112. a second air supply channel; 1113. a first nozzle; 1114. a second nozzle; 112. a second mounting base; 1121. a third nozzle; 12. a panel; 13. a liquid containing plate; 131. an arc-shaped groove; 14. a pot support; 2. a first burner; 21. a first burner; 22. a first ejector tube; 3. a second burner; 31. a second burner; 311. a groove; 32. a second ejector tube; 4. a rotating member; 41. a rotating assembly; 411. a cylinder; 412. a driving arm; 42. a drive assembly; 43. a protective cover; 5. a flip assembly; 51. a rotating shaft; 52. a mounting plate; 53. a driving section; 54. supporting feet; 55. a support column; 6. a third burner; 61. and a third furnace end.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus detailed descriptions thereof will be omitted.

The terms "a," "an," "the," and "said" are used to indicate the presence of one or more elements/components/etc.; the terms "comprising" and "having" are intended to be inclusive and mean that there may be additional elements/components/etc. in addition to the listed elements/components/etc.

The gas stove comprises a stove body 1, a first burner 2 and a second burner 3, wherein the stove body 1 comprises a stove shell 11, the first burner 2 comprises a first burner 21, the second burner 3 comprises a second burner 31, the first burner 21 is rotatably connected with the stove shell 11 and can perform circular motion in the horizontal direction, the first burner 21 has a first working position and a second working position, the second burner 3 is connected with the stove shell 11 in a turnover mode, the turnover angle of the second burner 3 is 0-90 degrees, and the second burner 3 can be switched between the horizontal position and the vertical position to achieve vertical turnover. If the second burner 3 is required for cooking, the second burner 3 may be brought to a horizontal position, from which the second burner 3 may be switched to a vertical position after cooking is completed or when a range needs to be cleaned.

The projection of second furnace end 31 at the horizontal plane is annular, and second combustor 3 still includes this fire lid of establishing at second furnace end 31 top, and the ignition needle is installed to fire lid inner periphery, and first furnace end 21 can insert the inside of second furnace end 31, realizes the stack of first furnace end 21 and second furnace end 31. Fig. 1-5 illustrate schematic views of the gas stove when the first burner 21 and the second burner 31 are at different positions, wherein the first burner 21 is disposed at a first working position and the second burner 31 is disposed at a horizontal position as shown in fig. 4, the first burner 21 is located below the second burner 31, and at least a portion of the first burner 21 is disposed at a center position of the second burner 31. Specifically, the second burner 31 is first located at a vertical position, then the first burner 21 is rotated to a second working position, then the second burner 31 is turned over from the vertical position to a horizontal position, at this time, the second burner 31 is covered on the periphery of the first burner 21, so that the center of the first burner 21 is overlapped with the center of the second burner 31, the overlapping of the first burner 21 and the second burner 31 in space is realized, the firepower of the two combustors is overlapped, the heating speed is effectively improved, and the requirement of cooking on big firepower is met. When the first burner 21 and the second burner 31 need to be separated, first, the second burner 31 is turned from the horizontal position to the vertical position as shown in fig. 3; then, the first burner 21 rotates from the second working position to the first working position as shown in fig. 1-2, at this time, the first burner 21 and the second burner 31 are separated, and the second burner 31 can also be turned over from the vertical position to the horizontal position as shown in fig. 5, that is, by means of the horizontal rotation of the first burner 2 and the vertical turning of the second burner 3, the first burner 2 and the second burner 3 can be respectively used for cooking, and the first burner 2 and the second burner 3 can be combined with each other to form a combined burner with larger heat load, so that the cooking requirement of western-style food can be met, and the quick-frying requirement of Chinese food can be met.

The stove shell 11 shown in fig. 1-9 is connected with a first mounting seat 111 and a second mounting seat 112, the gas stove comprises a rotating component 4 and a turnover component 5, one end of the rotating component 4 is connected with the first mounting seat 111, and the other end of the rotating component 4 is connected with a first stove head 21 for driving the first stove head 21 to horizontally rotate; one end of the turnover assembly 5 is rotatably connected to the second mounting seat 112, and the other end of the turnover assembly 5 is used for driving the second furnace end 31 to vertically turn; after the first burner 21 is disposed at the second working position through the rotating component 4, the second burner 31 may be disposed at a horizontal position through the overturning assembly 5, so as to realize the combination of the first burner 21 and the second burner 31, that is, the center coincidence of the first burner 21 and the second burner 31, thereby not only meeting the requirement of cooking with big fire, but also having uniform air outlet. When the first burner 21 and the second burner 31 need to be separated, first, the second burner 31 is turned from the horizontal position to the vertical position; then, the first burner 21 rotates from the second working position to the first working position, at this time, the first burner 21 has been separated from the second burner 31, and the second burner 31 can also be turned from the vertical position to the horizontal position, so that the first burner 2 and the second burner 3 are used for cooking respectively, and various cooking demands of users are satisfied.

The rotary member 4 shown in fig. 6 to 7 includes a rotary member 41 and a driving member 42, the rotary member 41 being connected between the first mount 111 and the first burner head 21; the driving assembly 42 connects the first mount 111 and the rotating assembly 41; the driving assembly 42 drives the first burner 21 to switch between the first working position and the second working position through the rotating assembly 41.

The first burner 2 further comprises a first injection pipe 22, the rotating assembly 41 can comprise a cylinder 411 and a driving arm 412, the cylinder 411 is rotationally connected to the periphery of the first mounting seat 111, one end of the driving arm 412 is connected with the cylinder 411 and the first injection pipe 22, the driving end of the driving assembly 42 is connected to the cylinder 411 and is used for driving the cylinder 411 to rotate, and the first injection pipe 22 and the first burner 21 are driven to horizontally rotate through the rotation of the cylinder 411, so that the first burner 21 can be arranged at a first working position and a second working position. It should be noted that the driving component 42 may be a rotating motor or a rotating cylinder, the driving component 42 may directly drive the cylinder 411 to rotate, or may drive the cylinder 411 to rotate by using other transmission components, for example, two gears are used to drive between the driving component 42 and the cylinder 411, where the cylinder 411 is sleeved on the outer periphery of the supporting frame 31 and can rotate around the supporting frame 31.

In addition, the rotary member 4 further includes a protective cover 43, one end of the protective cover 43 is sleeved on the outer periphery of the cylinder 411, and the other end extends toward the direction in which the first injection pipe 22 is located, and covers the outer periphery of the first injection pipe 22 and the drive arm 412, thereby achieving an attractive appearance and dust-proof effect.

The first furnace end 21 shown in fig. 6-7 is connected with a first injection pipe 22, the input end of the first injection pipe 22 is connected with a first mounting seat 111, and the output end of the first injection pipe 22 is fixedly connected with the first furnace end 21; the rotary part 4 drives the first furnace end 21 to perform circular motion by driving the first injection pipe 22.

The second burner 31 comprises a burner body, a groove 311 is formed by upwards sinking the bottom of one side of the burner body, which is close to the first burner 21, and the output end of the first injection pipe 22 penetrates through the groove 311, so that the centers of the first burner 21 and the burner body are overlapped. When the first burner 21 and the second burner 31 are overlapped, the second burner 31 needs to be provided with a channel for the first injection pipe 22 to pass through, and the space formed by surrounding the groove 311 can be used as the channel for the first injection pipe 22 to pass through.

Preferably, the projection of the groove 311 on the axial section of the second furnace end 31 is in an inverted U shape, the groove 311 comprises two groove walls and a groove bottom positioned at the tops of the two groove walls, preferably, the projection of the groove walls on the axial section of the second furnace end 31 is oblique, the projection of the groove walls can form upward diversion, the gas can conveniently enter the part of the furnace body positioned above the groove 311 rapidly, the gas outlet rate above the groove 311 is increased, and the gas outlet uniformity of the whole second furnace end 31 is ensured.

The turnover assembly 5 shown in fig. 8-9 comprises a rotating shaft 51, a mounting plate 52 and a driving part 53, wherein the rotating shaft 51 rotates the top of the second mounting seat 112, the mounting plate 52 can be fixedly connected to the rotating shaft 51 through a connecting block or an ear plate, the other side of the mounting plate 52 is connected to the second burner 31, a shell of the driving part 53 is connected to the kitchen range shell 11, a driving end of the driving part 53 is connected to the rotating shaft 51 and is used for driving the rotating shaft 51 to rotate, and the driving part 53 drives the mounting plate 52 and the second burner 31 to perform turnover motion along the axis of the rotating shaft 51 through driving the rotating shaft 51, so that the second burner 3 is switched between a horizontal position and a vertical position, and the turnover assembly is reasonable in structure and simple to operate.

The mounting plate 52 as shown in fig. 8-9 is further connected with a plurality of supporting feet 54 and at least 1 supporting column 55, the bottom of the supporting feet 54 is connected to the mounting plate 52, and the plurality of supporting feet 54 are uniformly distributed along the periphery of the second burner 31 to provide stable supporting points for the cookware. The support column 55 is connected to one side of the mounting plate 52 far away from the second mounting seat 112, and the support column 55 can be abutted to the top of the panel 12 when the second burner 31 is located at the horizontal position, and the support column 55 is matched with the mounting plate 52 and the second mounting seat 112, so that the second burner 3 can be stably located at the top of the panel 12 when the second burner 3 is located at the horizontal position, and stable support is provided for the second burner 3.

The gas stove shown in fig. 1 to 5 further comprises a position sensor assembly and a controller, wherein the sensor assembly comprises a first position sensor and a second position sensor, the first position sensor is used for detecting the working position of the first burner 21, the second position sensor is used for judging the position of the second burner 3, the controller is connected with the position sensor assembly, the overturning assembly 5 and the rotating component 4, and the controller controls the overturning assembly 5 and the rotating component 4 to move according to signals of the first position sensor and the second position sensor.

The gas stove is provided with a key, and the controller can simultaneously start the first burner 2 and the second burner 3 to move according to the key signals. The initial state of the stove can be as shown in fig. 5, the second burner 3 is located at a horizontal position, the first burner 2 is located at a first working position, at this time, the fire cover center of the first burner 2, the fire cover center of the third burner 5 and the fire cover center of the second burner 3 are located on a same line, and the fire cover center of the first burner 2 is located at the midpoint of a straight line segment formed by the fire cover center of the third burner 5 and the fire cover center of the second burner 3, namely, the distances between the fire cover centers of the first burner 2 and the third burner 5 are equal to the distances between the fire cover centers of the first burner 2 and the fire cover center of the second burner 3. When the first burner 2 and the second burner 3 are required to be used in an overlapping way, a key is started, and the first burner 2 and the second burner 3 act as follows: the first action, the second burner 3 is turned over by 90 degrees and turned over from the horizontal position to the vertical position, and the top view of the gas stove is shown in fig. 1-2; action two: the first burner 2 is rotated to the second operating position, as shown in fig. 3; and action III: the second burner 3 is turned from the vertical position to the horizontal position as shown in fig. 4. At this time, the center of the fire cover of the first burner 2 coincides with the center of the fire cover of the second burner 3, and because the center of the fire cover of the first burner is overlapped with the center of the fire cover of the second burner 3 in space, when the first burner 2 and the second burner 3 work simultaneously, the fire powers of the two burners are overlapped, so that the heating speed is greatly improved, and the requirement of cooking on big fire power is met. Conversely, when the first burner 2 and the second burner 3 need to be separated, the controller uses the turnover assembly 5 and the rotating component 4 to move the two burners in reverse order of the above-mentioned movement sequence by pressing the key once again, so as to separate the two burners. The design improves the intelligence and automation of the equipment and improves the user experience.

The gas burner as shown in fig. 1-5 further comprises a third burner 6, the third burner 6 comprising a third burner 61 fixedly connected to the burner housing 11, wherein the centers of the cross-sections of the first burner 21, the second burner 31 and the third burner 61 are collinear. That is, the projection centers of the first burner 21, the second burner 31 and the third burner 61 formed by projection on the plane where the panel 12 is located are collinear, as shown in fig. 1-3, the first burner 2 may be located between the third burner 6 and the second burner 3, or the second burner 3 may be located between the first burner 2 and the third burner 6, as long as the centers of the first burner 21, the second burner 31 and the third burner 61 are collinear, the design is convenient for processing the panel 12 and using requirements of most house types, and the third burner 6 and the first burner 21 can share one pot support 14. Preferably, when the first burner 21 is located at the first working position, the center of the first burner 21 is located at the midpoint between the centers of the second burner 31 and the third burner 61, that is, the center of the first burner 21 is spaced from the center of the second burner 31 by a distance equal to the distance between the centers of the first burner 21 and the third burner 61, and the whole is beautiful.

The first burner 21 is shown in fig. 1-5 as being located between the second burner 31 and the third burner 61. The stove body 1 further comprises a panel 12 and a liquid containing disc 13 positioned at the top of the panel 12, the panel 12 is covered at the top of the stove shell 11, and the panel 12 is provided with a first round hole corresponding to the first mounting seat 111, a second round hole corresponding to the second mounting seat 112 and a third round hole corresponding to the third stove head 61; the liquid containing disc 13 is provided with a mounting hole for mounting the third burner 61, and one side of the liquid containing disc 13, which is close to the first burner 21, is provided with an arc-shaped groove 131 for limiting the movement track of the first burner 21.

In another exemplary embodiment of the gas stove, the gas stove further comprises a third burner 6, the third burner 6 comprising a third burner 61 fixedly connected to the stove housing 11; wherein the central lines of the cross sections of the first burner 21, the second burner 31 and the third burner 61 form a triangle, which may be the case when the first burner 21 is not in the first working position and the second working position, which is convenient for cleaning.

The first mounting seat 111 as shown in fig. 7 is provided with a first air supply channel 1111 corresponding to a first working position and a second air supply channel 1112 corresponding to a second working position, wherein the first air supply channel 1111 and the second air supply channel 1112 are independent from each other, an air outlet end of the first air supply channel 1111 is connected with a first nozzle 1113, and an air outlet end of the second air supply channel 1112 is connected with a second nozzle 1114; preferably, the cylinder 411 is provided with an air passing hole corresponding to the first injection pipe 22, the first injection pipe 22 corresponds to the air passing hole, when the first burner 21 is located at the first working position, the first air supply channel 1111 is ventilated, and the air outlet direction of the first nozzle 1113 corresponds to the air passing hole and the first injection pipe 22, so that the first nozzle 1113 injects the fuel gas into the first injection pipe 22. When the first burner 21 is located at the second working position, the second air supply channel 1112 is ventilated, and the air outlet direction of the second nozzle 1114 corresponds to the air passing hole and the first injection pipe 22, so that the second nozzle 1114 injects the fuel gas into the first injection pipe 22. In addition, a gap is provided between the cylinder 411 and the first injection pipe 22 to facilitate air replenishment for the first injection pipe 22 and the first burner 21.

The second burner 3 shown in fig. 9 includes a second injection pipe 32 connected to the second burner 31, and the number of the second injection pipes 32 may be 1-2, so as to supply air to the second burner 31, thereby ensuring the air outlet efficiency of the second burner 31. The second mounting seat 112 is provided with a third air supply channel, an air outlet end of the third air supply channel is connected with a third nozzle 1121, the third nozzle 1121 is used for injecting air to the second injection pipe 32 of the second combustor 3, in addition, when the second combustor 3 is in a horizontal position, the air outlet direction of the third nozzle 1121 is opposite to the second injection pipe 32, and a gap is formed between the third nozzle 1121 and the second injection pipe 32 and is used for providing air for the second injection pipe 32, so that the thermal efficiency of the second combustor 3 is improved.

In embodiments of the present utility model, the term "plurality" refers to two or more, unless explicitly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly attached, detachably attached, or integrally attached. The specific meaning of the above terms in the embodiments of the present utility model will be understood by those of ordinary skill in the art according to specific circumstances.

In the description of the embodiments of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience in describing the embodiments of the present utility model and to simplify the description, and do not indicate or imply that the devices or units referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the embodiments of the present utility model.

In the description of the present specification, the terms "one embodiment," "a preferred embodiment," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the embodiments of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present utility model and is not intended to limit the embodiment of the present utility model, and various modifications and variations can be made to the embodiment of the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the embodiments of the present utility model should be included in the protection scope of the embodiments of the present utility model.

Claims (13)

1. A gas cooker, characterized by comprising:

A stove body (1) comprising a stove housing (11);

A first burner (2) comprising a first burner (21), said first burner (21) being rotatably connected to said hob housing (11), said first burner (21) having a first working position and a second working position;

a second burner (3) which is connected to the stove housing (11) in a flip-flop manner, so that the second burner (3) can be switched between a horizontal position and a vertical position, the second burner (3) comprising a second burner (31);

When the first furnace end (21) is arranged at the second working position and the second furnace end (31) is arranged at the horizontal position, the first furnace end (21) is positioned below the second furnace end (31), and at least one part of the first furnace end (21) is arranged at the center position of the second furnace end (31).

2. The gas cooker of claim 1, wherein the cooker housing (11) is connected with a first mount (111) and a second mount (112), the gas cooker further comprising:

a rotating component (4), one end of which is connected with the first mounting seat (111) and the other end of which is connected with the first furnace head (21) and is used for driving the first furnace head (21) to horizontally rotate;

One end of the overturning assembly (5) is rotationally connected to the second mounting seat (112), and the other end of the overturning assembly is used for driving the second furnace end (31) to vertically overturn;

Wherein, after the first burner (21) is set at the second working position by the rotating component (4), the second burner (31) can be set at the horizontal position by the overturning component (5), so as to realize the combination of the first burner (21) and the second burner (31).

3. A gas stove according to claim 2, characterized in that the rotating member (4) comprises:

A rotating assembly (41) connected between the first mounting base (111) and the first burner (21);

A driving assembly (42) having one end connected to the first mounting base (111) and the other end connected to the rotating assembly (41);

The driving assembly (42) drives the first furnace end (21) to switch between the first working position and the second working position through the rotating assembly (41).

4. The gas stove according to claim 2, characterized in that the first burner (21) is connected with a first injection pipe (22), an input end of the first injection pipe (22) is connected to the first mounting seat (111), and an output end of the first injection pipe (22) is fixedly connected to the first burner (21);

the second furnace end (31) comprises a furnace body, the bottom of one side of the furnace body, which is close to the first furnace end (21), is recessed upwards to form a groove (311), and the output end of the first injection pipe (22) penetrates through the groove (311) and enables the centers of the first furnace end (21) and the furnace body to coincide.

5. A gas stove according to claim 4, characterized in that the projection of the recess (311) on the axis of the second burner (31) is of inverted U-shape.

6. A gas cooker according to claim 2, characterized in that said overturning assembly (5) comprises:

a rotating shaft (51) which rotates the top of the second mounting seat (112);

One side of the mounting plate (52) is fixedly connected with the rotating shaft (51), and the other side of the mounting plate is connected with the second furnace end (31);

A driving part (53) with one end connected to the kitchen range shell (11) and the other end connected to the rotating shaft (51) to drive the rotating shaft (51) to rotate;

Wherein the driving part (53) drives the mounting plate (52) and the second furnace end (31) to turn over along the rotating shaft (51).

7. The gas range according to claim 2, further comprising:

The position sensor assembly comprises a first position sensor and a second position sensor, the first position sensor is used for detecting the working position of the first burner (21), and the second position sensor is used for judging the position of the second burner (3);

A controller connecting the position sensor assembly, the flipping assembly (5) and the rotating member (4);

Wherein the controller controls the turning assembly (5) and the rotating component (4) to move according to signals of the first position sensor and the second position sensor.

8. The gas stove according to claim 6, further comprising a third burner (6), the third burner (6) comprising a third burner (61) fixedly connected to the stove housing (11);

wherein the centers of the cross sections of the first burner (21), the second burner (31) and the third burner (61) are collinear.

9. The gas range according to claim 8, characterized in that the first burner (21) is located between the second burner (31) and the third burner (61).

10. The gas stove according to claim 9, characterized in that the stove body (1) further comprises:

a panel (12) which is covered on the top of the cooker shell (11) and is provided with a first round hole corresponding to the first mounting seat (111), a second round hole corresponding to the second mounting seat (112) and a third round hole corresponding to the third burner (61);

A liquid containing disc (13) which is positioned at the top of the panel (12) and provided with a mounting hole for mounting the third furnace end (61);

Wherein, one side of the liquid containing disc (13) close to the first furnace head (21) is provided with an arc-shaped groove (131) for limiting the movement track of the first furnace head (21).

11. The gas range according to claim 10, wherein the mounting plate (52) is further connected with:

The bottom of the supporting leg (54) is connected with the mounting plate (52), the number of the supporting legs (54) is multiple, and the supporting legs (54) are uniformly distributed along the periphery of the second furnace end (31);

The support column (55), the support column (55) connect in mounting panel (52) keep away from one side of second mount pad (112), support column (55) can be in when second furnace end (31) are located the horizontal position the top of panel (12).

12. The gas stove according to claim 5, further comprising a third burner (6), the third burner (6) comprising a third burner (61) fixedly connected to the stove housing (11);

Wherein the central connecting lines of the cross sections of the first furnace end (21), the second furnace end (31) and the third furnace end (61) form a triangle.

13. The gas stove according to claim 2, characterized in that the first mounting seat (111) is provided with a first gas supply channel (1111) corresponding to the first working position and a second gas supply channel (1112) corresponding to the second working position, the first gas supply channel (1111) and the second gas supply channel (1112) being independent from each other, wherein a gas outlet end of the first gas supply channel (1111) is connected with a first nozzle (1113), and a gas outlet end of the second gas supply channel (1112) is connected with a second nozzle (1114);

the second mounting seat (112) is connected with a third nozzle (1121).