CN112460646A - Intelligent gas stove - Google Patents

Abstract

The invention relates to an intelligent gas stove which comprises a stove body and a bottom shell, wherein the stove body is arranged on the bottom shell, a stove body space is enclosed between the stove body and the bottom shell, a burner is installed on the stove body, a gas adjusting mechanism is installed in the stove body space and corresponds to the burner, a control center is installed in the stove body space and comprises a controller and a touch display screen connected with the controller, and the controller is connected with the gas adjusting mechanism. The control center is internally pre-stored with a navigation menu, when in use, a user can select a specific menu through the touch display screen, during cooking, the controller automatically controls the firepower of the burner according to the menu and reminds the user of specific operation, thereby achieving the purpose of assisting the user in cooking and ensuring the delicious degree of cooked dishes.

Description

Intelligent gas stove

Technical Field

The invention relates to the technical field of gas cooking, in particular to an intelligent gas stove.

Background

The existing gas stove controls the work of a burner through a knob, controls the firepower of the burner through rotating the knob, is limited by experience when a novice uses cook the gas stove, and does not know when to adjust the firepower of the burner in the cooking process, so that cooked dishes can not meet the taste of the dishes.

Disclosure of Invention

In view of this, the invention provides an intelligent gas stove, which is internally provided with a control center, wherein the control center automatically controls the fire power of a burner in the cooking process, and the delicious degree of cooked dishes is improved.

The technical scheme adopted by the invention is as follows:

an intelligent gas stove comprises a stove body and a bottom shell, wherein the stove body is arranged on the bottom shell, a stove body space is enclosed between the stove body and the bottom shell, a combustor is arranged on the stove body,

a baffle connected to the bottom shell is arranged in the stove body space, the baffle divides the stove body space into a first space and a second space, the first space is located at a first edge of the bottom shell, the second space surrounds the first space from three sides, and the lower part of the burner extends into the second space;

the first space is provided with a gas adjusting mechanism, the gas adjusting mechanism corresponds to the combustor, the gas adjusting mechanism comprises a stop valve, a first proportional valve and a second proportional valve, the first proportional valve and the second proportional valve are communicated with the stop valve, the outlet end of the first proportional valve is communicated with an inner ring fire cover on the combustor, and the outlet end of the second proportional valve is communicated with an outer ring fire cover on the combustor;

a control center is installed in the first space, the control center comprises a controller and a touch display screen connected to the controller, the stop valve, the first proportional valve and the second proportional valve are all connected with the controller, the touch display screen is used for receiving touch instructions and sending the touch instructions to the controller, and the controller controls the burner to ignite and shut off according to the touch instructions and adjusts the opening degrees of the first proportional valve and the second proportional valve to control the fire power of the burner;

be provided with air inlet and gas vent on the drain pan, the air inlet with the gas vent all with the second space intercommunication, the air inlet is located the combustor side, the quantity of gas vent is two, two the gas vent is located respectively the left and right sides in first space.

Optionally, a hob is further arranged on the stove body, and the hob is arranged at the burner and used for supporting the cooking pot; the stove body also comprises a weight sensor for detecting the weight of the cooking pot on the stove frame, and the weight sensor is connected with the controller;

the controller can judge the stir-frying action in the cooking process according to the weight information detected by the weight sensor, or judge the food material throwing action in the cooking process.

Optionally, a hob is further arranged on the stove body, and the hob is arranged at the burner and used for supporting the cooking pot; the temperature sensor is arranged on the furnace frame and connected with the controller;

the controller can monitor the temperature in the cooking process according to the temperature information detected by the temperature sensor, or judge the food material throwing action in the cooking process.

Optionally, a pressure maintaining valve is further arranged in the second space, and the pressure maintaining valve is connected with the stop valve through a pipeline.

Optionally, intelligence gas-cooker is still including being used for fixing the protective housing of touch-control display screen, the protective housing includes the diapire and connects from all around the lateral wall of diapire, the diapire with the lateral wall encloses into the third space, the touch-control display screen is installed in the third space, the protective housing is close to the kitchen body sets up, the protective housing with the baffle is connected, the border of lateral wall with the back of the kitchen body offsets.

Optionally, a display surface of the touch display screen faces the upper side of the stove body, a first window is formed in the bottom wall, and the back of the touch display screen is exposed through the first window.

Optionally, the oven body comprises a glass panel, a groove is formed in the back of the glass panel, the projection of the touch display screen is located in the groove along the thickness direction of the oven body, and the projection of the side wall is located outside the groove.

Optionally, one side of the baffle close to the stove body is provided with a first supporting structure, and the protective shell is installed on the first supporting structure and covers the first space.

Optionally, the kitchen range further comprises a frame, a second window is formed in the middle of the frame, the bottom case comprises a downward protruding portion used for forming the space of the kitchen range body and a horizontal connecting portion located around the downward protruding portion, and the downward protruding portion penetrates through the second window;

the four corners of the frame are respectively provided with one weight sensor, and the connecting part is erected on the frame through the four weight sensors.

Optionally, a detachable grid is arranged outside the air inlet.

The invention has the beneficial effects that:

the gas stove is internally provided with the control center, the navigation menu is prestored in the control center, when the gas stove is used, a user can select a specific menu through the touch display screen of the control center, and during cooking, the controller of the control center automatically controls the firepower of the burner according to the menu and reminds the user of specific operation, so that the aim of assisting the user in cooking is fulfilled, and the delicious degree of cooked dishes is ensured.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of an intelligent gas stove;

fig. 2 is a bottom view of the smart gas range;

FIG. 3 is an exploded view of the frame and other components of the smart gas range

FIG. 4 is an exploded view of the housing, bottom shell and rim;

FIG. 5 is a rear view of the bottom shell;

FIG. 6 is a bottom view of the smart gas range with the bottom shell removed;

FIG. 7 is a view from another perspective of FIG. 6;

FIG. 8 is the schematic view of FIG. 7 with the heat dissipation fan removed;

FIG. 9 is a schematic view of FIG. 8 with the gas adjustment mechanism and controller removed;

FIG. 10 is a schematic view of the protective case and baffles;

fig. 11 is a schematic view of the protective case and the touch display screen after assembly;

FIG. 12 is a schematic view of the rear of the cooktop;

FIG. 13 is a schematic view of the bottom case and the bezel;

FIG. 14 is a schematic view of a wind tunnel.

Wherein: 1. a stove body; 2. a bottom case; 3. a frame; 4. an inner ring fire cover; 5. an outer ring fire cover; 6. a furnace frame; 7. a baffle plate; 8. a controller; 9. a pressure maintaining valve;

11. a second space; 12. a first space; 13. a heat radiation fan; 14. a touch display screen; 15. a protective shell; 16. a stop valve; 17. a first proportional valve; 18. a second proportional valve;

21. an air inlet; 22. an exhaust port; 23. a connecting portion; 24. a downward projection; 25. a grid;

31. a weight sensor; 32. a second window;

71. a first support structure; 72. a second support structure;

101. a groove; 102. a bar-shaped bracket;

151. a first window; 152. a bottom wall; 153. a side wall;

211. an air duct.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth in order to avoid obscuring the nature of the present invention, well-known methods, procedures, and components have not been described in detail.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The terms "left", "right", "upper", "lower", "front", "rear" and the like in the present application are used for convenience of description, and specific orientations are shown in fig. 1, 2 and 13.

Referring to fig. 1, an embodiment of the present invention provides an intelligent gas stove, which includes a stove body 1 and a bottom case 2, wherein the stove body 1 is disposed on the bottom case 2, a stove body space is defined between the stove body 1 and the bottom case 2, two burners (in this embodiment, two burners are taken as an example for illustration, and the number of burners is not specifically limited) are installed side by side on the stove body 1, and lower portions of the burners extend into the stove body space.

Referring to fig. 6 and 7, two groups of gas adjusting mechanisms are installed in the space of the stove body, the two groups of gas adjusting mechanisms correspond to the two burners one by one respectively, each gas adjusting mechanism comprises a stop valve 16 and a first proportional valve 17 and a second proportional valve 18 which are communicated with the stop valve 16, the first proportional valve 17 is communicated with an inner ring fire cover 4 on each burner, and the second proportional valve 18 is communicated with an outer ring fire cover 5 on each burner.

Specifically, have first drainage tube and second drainage tube on the combustor, first drainage tube and inner ring fire lid 4 intercommunication, second drainage tube and outer loop fire lid 5 intercommunication, the exit end of first proportional valve 17 is through first gas pipeline and first drainage tube intercommunication, realizes the purpose with inner ring fire lid 4 intercommunication, the exit end of second proportional valve 18 is through second gas pipeline and second drainage tube intercommunication, the purpose of realization and outer loop fire lid 5 intercommunication.

The opening degree of the first proportional valve 17 can control the gas quantity entering the inner ring fire cover 4, thereby realizing the control of the firepower of the inner ring fire cover 4; similarly, the second proportional valve 18 controls the fire power of the outer ring fire cover 5.

Referring to fig. 6 and 9, a control center is installed in the space of the oven body, the control center includes a controller 8 and a touch display screen 14, the touch display screen 14 is connected to the controller 8, the first proportional valve 17 and the second proportional valve 18 are both electromagnetic proportional valves, and the first proportional valve 17 and the second proportional valve 18 are both connected to the controller 8.

When the fire control device is used, a user can send a touch control instruction (adjusting the fire intensity) through the touch control display screen 14, the touch control instruction is sent to the controller 8, and the controller 8 controls the opening degrees of the first proportional valve 17 and the second proportional valve 18 according to the fire instruction so as to control the fire intensity of the inner fire cover 4 and the outer fire cover 5.

The stop valve 16 is a solenoid valve, and the stop valve 16 is also connected to the controller 8.

When the stop valve is used, a user can send a touch instruction (controlling the on-off of the stop valve) through the touch display screen 14, and the controller 8 controls the on-off of the stop valve 16 according to the touch instruction.

An ignition mechanism is arranged in the burner and is electrically connected with the controller 8.

When the ignition device is used, a user can send a touch instruction (controlling the ignition mechanism to ignite) through the touch display screen 14, and the controller controls the ignition mechanism to ignite according to the touch instruction.

Specifically, for example, one of the burners is ignited, a touch instruction is sent through the touch display screen 14, the touch instruction includes an on-off instruction of the stop valve 16 (to control the stop valve 16 to be opened), a fire instruction (to control the first proportional valve 17 and the second proportional valve 18 to be opened), and an ignition instruction (to control the ignition mechanism to be ignited), and the controller 8 controls the stop valve 16 to be opened, the openings of the first proportional valve 17 and the second proportional valve 18, and the ignition mechanism to be ignited, so that the purpose of igniting the burner is achieved.

Of course, after the ignition of the burner is completed, when the fire power of the burner is adjusted independently, a touch instruction is sent through the touch display screen 14, and the touch instruction only includes an instruction for adjusting the fire power.

When the burner is closed, a touch instruction is sent through the touch display screen 14, the touch instruction comprises a stop valve 16 on-off instruction (the stop valve 16 is controlled to be closed) and a fire instruction (the first proportional valve 17 and the second proportional valve 18 are controlled to be closed or the opening degree of the first proportional valve 17 and the second proportional valve 18 is controlled to be minimum), the controller 8 judges the touch instruction, and the stop valve 16 is controlled to be closed, the first proportional valve 17 and the second proportional valve 18 are controlled to be closed or the opening degree of the second proportional valve 18 is controlled to be minimum respectively, so that the purpose of closing.

Referring to fig. 3, the oven body 1 is further provided with two oven frames 6, the two oven frames 6 correspond to the two burners one by one, and the oven frames 6 are arranged at the burners to support the cooking pots; the intelligent gas stove is also provided with a weight sensor 31 for detecting the weight of the cooking pot on the stove frame 6, and the weight sensor 31 is connected with the controller 8.

The weight sensor 31 is capable of monitoring the force (weight) of the cooking pot on the hob 6.

In the cooking process, a cooking instruction is sent through the touch display screen 14, the controller 8 calls a navigation menu, the controller 8 judges that the cooking stage is started, the controller 8 can remind a user of a stir-frying action through the touch display screen 14 (or remind the user of the stir-frying action through a loudspeaker), meanwhile, the weight sensor 31 detects the weight information of the cooking pot on the stove frame 6, and whether the stir-frying action is carried out or not is judged according to the weight information. Specifically, the method comprises the following steps: if the weight is fluctuated, the stir-frying action is performed, otherwise, the stir-frying action is not performed.

In addition, during the cooking process, when the controller 8 determines that the auxiliary materials (such as shallots, gingers and the like) or the main materials need to be put into the cooking pot, the controller 8 can remind a user to put the corresponding auxiliary materials or the main materials through the touch display screen 14 or the loudspeaker, detect the weight information of the cooking pot to the stove rack 6 through the weight sensor 31, and determine whether the auxiliary materials or the main materials are put into the stove rack successfully or not according to the weight information. Specifically, the method comprises the following steps: if the weight becomes larger and the variation is basically consistent with the weight required to be thrown, the successful throwing is indicated, otherwise, the throwing is failed.

The furnace frame 6 is also provided with a temperature sensor which is electrically connected with the controller 8.

The temperature sensor can monitor the temperature in the cooking pot.

During cooking, a cooking instruction is sent through the touch display screen 14, the controller 8 calls a navigation menu, when the controller 8 judges that main materials need to be put into the cooking pot, the controller 8 reminds a user to put the main materials through the touch display screen 14, the temperature sensor monitors the temperature in the cooking pot, and whether the main materials are put into the cooking pot successfully or not is judged according to the temperature information in the cooking pot. Specifically, the method comprises the following steps: if the temperature in the cooking pot becomes lower, the main material is successfully put in, otherwise, the main material is failed to put in.

In addition, the temperature sensor detects the temperature in the pot during the cooking process and transmits the temperature information to the controller 8, so that the controller 8 can monitor the temperature in the cooking pot during the cooking process and provide data support for assisting the user in cooking. Specifically, taking cooking as an example, the method comprises the following steps:

s1, igniting and preheating firstly;

s2, pouring oil into the cooking pot when the first specific temperature is reached;

s3, adding auxiliary materials into the cooking pot;

s4, adding the main materials into the cooking pot;

s5, stir-frying;

and S6, discharging the cooked rice at the second specific temperature.

In the above steps, the temperature sensor monitors the temperature in the cooking pot in real time, and the controller 8 reminds the user of pouring oil through the touch display screen 14 if the temperature in the cooking pot is monitored to reach a first specific temperature according to the temperature information; after a period of time, or when a certain temperature is reached by monitoring, the controller 8 reminds the user to put in auxiliary materials through the touch display screen 14; after a period of time, the controller 8 reminds the user to put in the main materials through the touch display screen 14; the controller 8 judges whether the main ingredients are successfully put in through the temperature change monitored by the temperature sensor, the controller 8 reminds a user to stir the fried ingredients through the touch display screen 14, and in the process, the temperature in the cooking pot is monitored through the temperature sensor; when the temperature in the cooking pot reaches a second specific temperature, the controller 8 reminds the user of going out of the pot through the touch display screen 14.

In the process, the temperature signal monitored by the temperature sensor can be used for judging the current cooking stage by the controller 8, so that the specific operation of a user is accurately guided.

Referring to fig. 6, 7 and 13, a baffle 7 connected to the bottom case 2 is arranged in the stove body space, the baffle 7 is in a vertical state when the intelligent gas stove is in a normal placing state, the lower end of the baffle 7 is connected with the bottom case 2, the baffle 7 divides the stove body space into a first space 12 and a second space 11, the first space 11 is located at the first edge of the bottom case 2, and the second space 12 surrounds the first space 11 at least from three sides.

The first edge of the bottom shell is: when the user uses this intelligent gas-cooker, first edge is for being close to user's one side.

The first space 12 is located between the two burners, the control centre is located in the first space 12 and the lower part of the burner extends into the second space 11.

The setting of baffle 7 for first space 12 and second space 11 mutual independence, the lower part of combustor actually stretches into in the second space 11, and when using the combustor, second space 11 receives the influence temperature of combustor to rise, and baffle 7 can completely cut off the temperature influence of second space 11 to first space 12, makes the temperature relatively more stable in the first space 12, makes control center can be in and carry out work under a relatively stable temperature condition.

Referring to fig. 2, 5 and 6, the bottom case 2 is provided with an air inlet 21 and an air outlet 22, the air inlet 21 is located between the two burners, the number of the air outlets 22 is 2, the air inlet 21 and the air outlet 22 are both communicated with the second space 11, the two air outlets 22 are located at the left and right sides of the first space 12, and the heat dissipation fan 13 is installed on the air outlet 22.

If there is only one burner, the air inlet is located beside the burner.

Referring to fig. 14, external air can enter the second space 11 from the air inlet 21, and the heat dissipation fan 13 operates, so that an air duct 211 is formed between the air inlet 21 and the air outlet 22, the air duct 211 is attached to the side wall of the baffle 7, and the side wall of the baffle 7 corresponding to the air duct 211 faces the two burners, so that the air duct 211 is blocked between the burners and the second space 11, and the temperature in the second space 11 is ensured to be kept in a relatively stable state.

Referring to fig. 2, a detachable grid 25 is disposed outside the air inlet 21 to prevent mosquitoes and other insects from entering the space of the oven body.

Referring to fig. 9, 10, 12, the intelligent gas stove further includes a protective housing 15 for fixing the touch display screen 14, the protective housing 15 includes a bottom wall 152 and a side wall 153 connected to the bottom wall 152 from the periphery, the side wall 153 is located on the upper side of the bottom wall 152 when the intelligent gas stove is in a normal placement state, a space surrounded by the side wall 153 is a third space, the touch display screen 14 is installed in the third space, a hollowed first window 151 is formed in the bottom wall 152, the first window 151 is slightly smaller than the size of the touch display screen 14, and the back of the touch display screen 14 is exposed through the window.

The first window 151 is arranged to facilitate heat dissipation of the touch display screen 14; in addition, the circuit connection between the touch display screen 14 and the controller 8 is facilitated.

With intelligent gas-cooker under the normal state of putting, the downside and the drain pan 2 of baffle 7 are connected, have realized the relatively fixed of baffle 7, and protective housing 15 is located the upside of baffle 7 to be connected with baffle 7, realized the relatively fixed of protective housing 15, touch-control display screen 14 is installed in protective housing 15, thereby realizes touch-control display screen 14's installation.

Specifically, one side of the baffle 7 close to the oven body 1 is provided with a first supporting structure 71, one side of the baffle 7 close to the bottom case 2 is provided with a second supporting structure 72, the baffle 7 is connected with the bottom case 2 through the second supporting structure 72, the protective shell 15 is installed on the first supporting structure 71, and the protective shell 15 is required to cover the first space 12 to prevent the first space 12 from being communicated with the second space 11.

Referring to fig. 11, the oven body 1 includes a glass panel, a groove 101 is formed in the back of the glass panel, along the thickness direction of the oven body, the projection of the touch display screen 14 is located in the groove, the projection of the sidewall 153 is located outside the groove, the groove bottom of the groove 101 is just attached to the display surface of the touch display screen 14, the sidewall 153 of the protective shell 15 is also abutted to the back of the glass panel, the sidewall 153 can protect the touch display screen 14, the gravity of the glass panel acting on the touch display screen 14 is reduced, and the touch display screen 14 is prevented from being crushed by the glass panel.

Referring to fig. 8 and 9, the controller 8 is located in the first space 12, and when the intelligent gas stove is in a normal placement state, the controller 8 is located below the touch display screen 14, the controller 8 is close to the edge of the bottom case 2, and the controller 8 is directly fixed on the bottom case 2.

Two sets of gas adjustment mechanism set up in first space 12, for the mode that gas adjustment mechanism set up in second space 11, can prevent that gas adjustment mechanism from producing the influence to wind channel 211, reduce the temperature in first space 12 and receive the influence of second space 11.

Two sets of gas adjustment mechanism and controller 8 are the front and back arrangement in first space 12, and two sets of gas adjustment mechanism are close to one side of combustor, and one side of combustor is kept away from to controller 8. The length of the pipeline connected between the gas regulating mechanism and the combustor can be reduced.

The baffle 7 may be a rectangular structure or other structures, and the first space 12 surrounded by the baffle can accommodate the control center and the gas adjusting mechanism.

Referring to fig. 10 and 13, in a specific embodiment, the barrier 7 has a U-shaped structure, and both ends of the U-shaped structure are respectively connected to the inner sidewalls of the bottom case to form a closed structure.

Referring to fig. 6, a pressure maintaining valve 9 is further arranged in the second space 11, the pressure maintaining valve 9 is respectively communicated with the two stop valves 16 through a pipeline, after gas enters the pressure maintaining valve 9, the pressure maintaining valve 9 can adjust the gas pressure in the pipeline between the pressure maintaining valve 9 and the stop valves 16 to a specific pressure range, therefore, when the opening degree of the first proportional valve 17 and the second proportional valve 18 is adjusted, the gas pressure at the upstream of the first proportional valve 17 and the second proportional valve 18 is constant, the opening degree of the first proportional valve 17 and the second proportional valve 18 is positively correlated with the firepower on the inner ring fire cover 4 and the outer ring fire cover 5, the influence of unstable gas pressure on the firepower is eliminated, and the firepower of the inner ring fire cover 4 and the outer ring fire cover 5 can be accurately adjusted by the controller 8 through the first proportional valve 17 and the second proportional valve 18.

Referring to fig. 3, 4 and 13, the intelligent gas cooker further includes a frame 3, a second window 32 is opened on the frame 3, the bottom case 2 includes a downward protrusion 24 for forming a space of a cooker body and a horizontal connection portion 23 located around the downward protrusion 24, the frame 3 is horizontally disposed, the bottom case 2 is installed by moving downward from an upper side of the frame 3, the downward protrusion 24 can pass through the second window 32, the size of the connection portion 23 is larger than that of the second window 32, so that the connection portion 23 cannot pass through the second window 32, which is equivalent to the bottom case 2 being sleeved on the frame 3, so that the weight of the bottom case 2 is all acted on the frame 3, one weight sensor 31 is respectively disposed at four corners of the frame 3, the connection portion 23 is erected on the frame 3 through the four weight sensors 31, and then the glass panel is covered on the bottom case 2, so that the weight of the glass panel is also acted on the four weight sensors 31, similarly, the weight of the burner, the gas regulating mechanism, the hob 6 and the cooking pot are all applied to the four weight sensors 31. Since the weight of the components other than the cooking pot is constant, the four weight sensors 31 can detect the change in the weight of the cooking pot, and the object of the weight sensor 31 is achieved.

The weight sensor 31 is positioned to reduce the influence of the temperature of the burner on the weight sensor 31, thereby ensuring smooth operation of the weight sensor 31.

Referring to fig. 11, a strip bracket 102 is provided on the back surface of the glass panel to adjust the flatness of the glass panel.

It will be understood that the embodiments described above are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions for details described herein may be made by those skilled in the art without departing from the basic principles of the invention.

Claims (10)

1. An intelligent gas stove comprises a stove body and a bottom shell, wherein the stove body is arranged on the bottom shell, a stove body space is enclosed between the stove body and the bottom shell, a burner is arranged on the stove body, and the intelligent gas stove is characterized in that,

a baffle connected to the bottom shell is arranged in the stove body space, the baffle divides the stove body space into a first space and a second space, the first space is located at a first edge of the bottom shell, the second space surrounds the first space from three sides, and the lower part of the burner extends into the second space;

the first space is provided with a gas adjusting mechanism, the gas adjusting mechanism corresponds to the combustor, the gas adjusting mechanism comprises a stop valve, a first proportional valve and a second proportional valve, the first proportional valve and the second proportional valve are communicated with the stop valve, the outlet end of the first proportional valve is communicated with an inner ring fire cover on the combustor, and the outlet end of the second proportional valve is communicated with an outer ring fire cover on the combustor;

a control center is installed in the first space, the control center comprises a controller and a touch display screen connected to the controller, the stop valve, the first proportional valve and the second proportional valve are all connected with the controller, the touch display screen is used for receiving touch instructions and sending the touch instructions to the controller, and the controller controls the burner to ignite and shut off according to the touch instructions and adjusts the opening degrees of the first proportional valve and the second proportional valve to control the fire power of the burner;

be provided with air inlet and gas vent on the drain pan, the air inlet with the gas vent all with the second space intercommunication, the air inlet is located the combustor side, the quantity of gas vent is two, two the gas vent is located respectively the left and right sides in first space.

2. The intelligent gas range of claim 1,

the stove body is also provided with a stove frame, and the stove frame is arranged at the combustor and used for supporting the cooking pot; the stove body also comprises a weight sensor for detecting the weight of the cooking pot on the stove frame, and the weight sensor is connected with the controller;

the controller can judge the stir-frying action in the cooking process according to the weight information detected by the weight sensor, or judge the food material throwing action in the cooking process.

3. The intelligent gas cooker of claim 1, wherein a hob is further provided on the cooker body, the hob being provided at the burner for supporting the cooking pot; the temperature sensor is arranged on the furnace frame and connected with the controller;

the controller can monitor the temperature in the cooking process according to the temperature information detected by the temperature sensor, or judge the food material throwing action in the cooking process.

4. An intelligent gas stove as claimed in any one of claims 1 to 3, wherein a pressure maintaining valve is further arranged in the second space, and the pressure maintaining valve is connected with the stop valve through a pipeline.

5. The intelligent gas stove according to claim 1, further comprising a protective shell for fixing the touch display screen, wherein the protective shell comprises a bottom wall and a side wall connected with the bottom wall from the periphery, a third space is enclosed by the bottom wall and the side wall, the touch display screen is installed in the third space, the protective shell is close to the stove body, the protective shell is connected with the baffle, and the edge of the side wall is abutted to the back of the stove body.

6. The intelligent gas stove as claimed in claim 5, wherein the display surface of the touch display screen faces the upper side of the stove body, a first window is formed in the bottom wall, and the back of the touch display screen is exposed through the first window.

7. The intelligent gas stove according to claim 6, wherein the stove body comprises a glass panel, a groove is formed in the back of the glass panel, the projection of the touch display screen is located in the groove along the thickness direction of the stove body, and the projection of the side wall is located outside the groove.

8. The intelligent gas stove as claimed in claim 5, wherein a first supporting structure is provided at a side of the baffle close to the stove body, and the protective casing is installed at the first supporting structure and covers the first space.

9. The intelligent gas stove according to claim 2, further comprising a frame, wherein a second window is formed in the middle of the frame, the bottom case comprises a downward protrusion portion for forming the stove body space and a horizontal connecting portion located around the downward protrusion portion, and the downward protrusion portion penetrates through the second window;

the four corners of the frame are respectively provided with one weight sensor, and the connecting part is erected on the frame through the four weight sensors.

10. The intelligent gas stove as claimed in claim 1, wherein a detachable grid is arranged outside the gas inlet.

Images