CN112013426B - Interconnection method of intelligent cooker and intelligent window and system applying interconnection method - Google Patents

Abstract

The invention discloses an interconnection method of an intelligent cooker and an intelligent window and a system using the same, wherein the interconnection method of the intelligent cooker and the intelligent window comprises the following steps: s1, identifying a current cooking mode of a user by an intelligent stove; s2, judging the firepower of the intelligent stove and judging whether to start the wind power of the intelligent window or not according to the current cooking mode of the user; s3, controlling the opening and closing and the opening and closing angle of the intelligent window according to the firepower of the intelligent stove and the wind power of the intelligent window. According to the interconnection method of the intelligent stove and the intelligent window, disclosed by the invention, the firepower of the intelligent stove and the wind power of the intelligent window are judged by selecting different cooking modes through a user, and then the opening and closing angles of the intelligent window are controlled according to the firepower of the intelligent stove and the wind power of the intelligent window after the intelligent stove is started, so that the phenomenon that flames are extinguished due to environmental change or fluctuation of the stove is prevented, the home experience is improved, and the intelligent control level of a kitchen space is improved.

Description

Interconnection method of intelligent cooker and intelligent window and system applying interconnection method

Technical Field

The invention belongs to the technical field of kitchen appliances, and particularly relates to an interconnection method of an intelligent stove and an intelligent window and a system applying the interconnection method.

Background

At present, the application of intelligent home and intelligent kitchen electricity is becoming mature. However, the linkage mode of the smart home and the smart kitchen power supply has a further integrated space, and plays a greater role in daily home. For example, the electric window represented by smart home can adjust indoor light, temperature and ventilation conditions according to the change of outdoor environment, and the matching problem of firepower and smoke machine air volume can be solved through the linkage of a smoke stove in the smart kitchen.

However, the smoke stove product also has the influence of the outdoor environment when in use, for example, the fire of the stove is influenced by the outdoor wind speed, and the stove is easy to cause flameout phenomenon due to overlarge wind speed when being heated, so that the user experience and the actual operation requirement are influenced.

Disclosure of Invention

In order to solve the problems, the invention provides an interconnection method of an intelligent stove and an intelligent window, which judges the firepower of the intelligent stove and the wind power of the intelligent window whether to be started or not by selecting different cooking modes through a user, and then controls the opening and closing angle of the intelligent window according to the firepower of the intelligent stove and the wind power of the intelligent window after being started, thereby preventing the phenomenon that the fire of the stove is extinguished due to environmental change or fluctuation.

Another object of the present invention is to provide an interconnection system of a smart range and a smart window.

The technical scheme adopted by the invention is as follows:

an interconnection method of an intelligent cooker and an intelligent window comprises the following steps:

s1, the intelligent stove identifies a current cooking mode of a user;

s2, judging the firepower of the intelligent stove and judging whether to start the wind power of the intelligent window or not according to the current cooking mode of the user;

and S3, judging according to the firepower of the intelligent stove and the wind power of the started intelligent window, and controlling the opening and closing angle of the intelligent window.

Preferably, the cooking modes are divided into a manual mode and an automatic mode.

Preferably, the S1 specifically includes the following steps:

s11, intelligently identifying a cooking mode selected by a user by the intelligent stove;

and S12, adjusting the fire power according to the cooking mode.

Preferably, the S12 specifically includes the following steps:

s121, when the cooking mode is a manual mode, the fire power is actively adjusted by a user;

s122, when the cooking mode is the automatic mode, the intelligent stove intelligently identifies the boiling point and adjusts the fire power.

Preferably, the S2 specifically includes the following steps:

s21, judging whether the fire power of the intelligent stove is small fire according to the current cooking mode of the user;

s22, judging whether to start the intelligent window according to the fire intensity of the intelligent stove.

Preferably, the S22 specifically includes the following steps:

s221, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window; otherwise, not processing;

s222, when the cooking mode is the automatic mode and the intelligent stove is a small fire, the second wind power size judgment of the intelligent window is started, and otherwise, the third wind power size judgment of the intelligent window is started.

Preferably, the S3 specifically includes the following steps:

s31, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window, when the wind power of the intelligent window is larger than the first wind power, closing the intelligent window or reducing the opening and closing angle, and otherwise, maintaining the intelligent window in the original state;

s32, when the cooking mode is the automatic mode and the intelligent stove is a small fire, the second wind power size is started for judgment, when the cooking mode is the automatic mode and the intelligent stove is not a small fire, the third wind power size is started for judgment, and then the opening and closing angle of the intelligent window is controlled.

Preferably, the S32 specifically includes the following steps:

s321, when the cooking mode is the automatic mode and the intelligent stove is a small fire, when the wind power of the intelligent window is greater than second wind power, the intelligent window is closed, otherwise, the intelligent window is maintained in an original state;

s322, when the cooking mode is the automatic mode and the intelligent stove is not a small fire, when the wind power of the intelligent window is larger than the third wind power, the intelligent window is closed or the opening and closing angle is reduced, otherwise, the intelligent window is maintained in the original state.

Preferably, the first wind power judgment and the second wind power judgment are both 2m/s, and the third wind power judgment is 10m/s.

The other technical scheme of the invention is realized as follows:

an intelligent cooker and intelligent window interconnection system applying the intelligent cooker and intelligent window interconnection method comprises an intelligent cooker assembly, an intelligent window assembly and a control assembly, wherein the intelligent cooker assembly and the intelligent window assembly are electrically connected with the control assembly;

the intelligent kitchen range assembly comprises a temperature sensor and an electric gas valve, the temperature sensor and the electric gas valve are electrically connected with the control assembly, the intelligent window assembly comprises a wind sensor and an electric window, and the wind sensor and the electric window are electrically connected with the control assembly.

Compared with the prior art, the intelligent stove and the intelligent window interconnection method have the advantages that the firepower of the intelligent stove and the wind power of the intelligent window are judged whether to be started or not by selecting different cooking modes through a user, and then the opening and closing and the opening and closing angles of the intelligent window are controlled according to the firepower of the intelligent stove and the wind power of the intelligent window after the intelligent stove is started, so that the phenomenon that flames are extinguished due to environmental change or fluctuation of the stove is prevented, the home experience is improved, and the intelligent control level of a kitchen space is improved.

Drawings

Fig. 1 is a flowchart of an interconnection method of an intelligent cooker and an intelligent window according to embodiment 1 of the present invention;

fig. 2 is a specific flowchart of an interconnection method of an intelligent cooker and an intelligent window provided in embodiment 1 of the present invention;

fig. 3 is a schematic structural diagram of an interconnection system of an intelligent cooker and an intelligent window according to embodiment 2 of the present invention.

Description of the reference numerals

1-an intelligent stove component, 11-a temperature sensor, 12-an electric gas valve, 2-intelligent window component, 21-wind sensor, 22-electric window, 3-control component.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

The embodiment 1 of the invention provides an interconnection method of an intelligent stove and an intelligent window, which comprises the following steps as shown in figures 1-2:

s1, the intelligent stove identifies a current cooking mode of a user;

s2, judging the firepower of the intelligent stove and judging whether to start the wind power of the intelligent window or not according to the current cooking mode of the user;

and S3, judging according to the firepower of the intelligent stove and the wind power of the started intelligent window, and controlling the opening and closing angle of the intelligent window.

Like this, carry out the different culinary art modes of intelligent recognition user selection through the intelligent kitchen, judge the firepower size of intelligent kitchen and whether start the big or small judgement of intelligent window wind-force, then judge according to the firepower size of intelligent kitchen and the intelligent window wind-force size after the start, control opening and close and the angle of opening and shutting of intelligent window to prevent that cooking utensils from arousing the phenomenon that the flame extinguishes because of environmental change or fluctuation, improve house experience, promote the intelligent control level in kitchen space.

The method for judging the fire power comprises the following steps: the intelligent identification is carried out according to the control device of the intelligent cooker, for example, if the intelligent cooker is a three-ring firepower gas cooker, the first ring is bright as a small fire, the second ring is bright as a medium fire, and the third ring is bright as a big fire.

The cooking modes are classified into a manual mode and an automatic mode.

In this way, the cooking modes are divided into a manual mode and an automatic mode, and a user can autonomously select the manual mode or the automatic mode according to the actual needs of the user.

The S1 specifically comprises the following steps:

s11, intelligently identifying a cooking mode selected by a user by the intelligent cooker;

and S12, adjusting the fire power according to the cooking mode.

Like this, through the culinary art mode of intelligent recognition user selection of intelligent kitchen: the manual mode or the automatic mode, then adjust the firepower size, accord with user's daily firepower demand more.

The S12 specifically comprises the following steps:

s121, when the cooking mode is a manual mode, the fire power is actively adjusted by a user;

s122, when the cooking mode is the automatic mode, the intelligent stove intelligently identifies the boiling point and adjusts firepower.

Therefore, when the cooking mode is a manual mode, the firepower is actively adjusted by a user according to actual requirements; when the culinary art mode is automatic mode, the boiling point of eating the material in the pot of intelligence kitchen intelligent recognition (can judge through the pot bottom temperature of the temperature sensor contact on the intelligent kitchen), adjustment firepower makes the firepower more adapt to the actual need of eating the material.

The S2 specifically comprises the following steps:

s21, judging whether the firepower of the intelligent stove is small fire or not according to the current cooking mode of the user;

s22, judging whether to start the intelligent window according to the fire intensity of the intelligent stove.

Thus, according to the user's current cooking mode: and in the manual mode or the automatic mode, whether the firepower of the intelligent stove is small fire is judged, and then the next judgment is carried out.

The S22 specifically includes the following steps:

s221, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window; otherwise, not processing;

s222, when the cooking mode is the automatic mode and the intelligent stove is a small fire, the second wind power size judgment of the intelligent window is started, and otherwise, the third wind power size judgment of the intelligent window is started.

Thus, when the cooking mode is the manual mode and the intelligent stove is a small fire, the first wind power judgment of the intelligent window is started, namely whether the wind power is greater than 2m/s or not; otherwise, the wind power size judgment is not started without processing; and when the cooking mode is the automatic mode and the intelligent stove is a small fire, starting a second wind power judgment of the intelligent window, namely whether the wind power is more than 2m/s, or else, starting a third wind power judgment of the intelligent window, namely whether the wind power is more than 10m/s.

The S3 specifically comprises the following steps:

s31, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window, when the wind power of the intelligent window is larger than the first wind power, closing the intelligent window or reducing the opening and closing angle, and otherwise, maintaining the intelligent window in the original state;

s32, when the cooking mode is the automatic mode and the intelligent stove is a small fire, the second wind power size is started for judgment, when the cooking mode is the automatic mode and the intelligent stove is not a small fire, the third wind power size is started for judgment, and then the opening and closing angle of the intelligent window is controlled.

Thus, when the cooking mode is the manual mode and the intelligent stove is a small fire, the first wind power judgment of the intelligent window is started, when the wind power of the intelligent window is greater than the first wind power (2 m/s), the intelligent window is closed or the opening and closing angle is reduced, otherwise, the intelligent window is maintained in the original state; when the cooking mode is the automatic mode and the intelligent stove is the small fire, the second wind power size judgment is started, namely, whether the wind power is larger than 2m/s, and when the cooking mode is the automatic mode and the intelligent stove is not the small fire, the third wind power size judgment is started, namely, whether the wind power is larger than 10m/s, so that the opening and closing and the opening and closing angle of the intelligent window are controlled.

The S32 specifically includes the following steps:

s321, when the cooking mode is the automatic mode and the intelligent stove is a small fire, when the wind power of the intelligent window is greater than second wind power, the intelligent window is closed, otherwise, the intelligent window is maintained in an original state;

s322, when the cooking mode is the automatic mode and the intelligent stove is not a small fire, when the wind power of the intelligent window is larger than the third wind power, the intelligent window is closed or the opening and closing angle is reduced, otherwise, the intelligent window is maintained in the original state.

Therefore, when the cooking mode is the automatic mode and the intelligent stove is a small fire, second wind power judgment is started, when the wind power of the intelligent window is larger than second wind power (2 m/s), the intelligent window is closed, and otherwise, the intelligent window is maintained in the original state; when the cooking mode is the automatic mode and the intelligent stove is not a small fire, the third wind power is started to judge, when the wind power of the intelligent window is larger than the third wind power (10 m/s), the intelligent window is closed or the opening and closing angle is reduced, otherwise, the intelligent window is maintained in the original state.

According to the interconnection method of the intelligent stove and the intelligent window, disclosed by the invention, the firepower of the intelligent stove and the wind power of the intelligent window are judged by selecting different cooking modes through a user, and then the opening and closing angles of the intelligent window are controlled according to the firepower of the intelligent stove and the wind power of the intelligent window after the intelligent stove is started, so that the phenomenon that flames are extinguished due to environmental change or fluctuation of the stove is prevented, the home experience is improved, and the intelligent control level of a kitchen space is improved.

Example 2

As shown in fig. 3, an embodiment 2 of the present invention provides an interconnection system of an intelligent cooker and an intelligent window, which applies the interconnection method of the intelligent cooker and the intelligent window, and includes an intelligent cooker assembly 1, an intelligent window assembly 2 and a control assembly 3, where the intelligent cooker assembly 1 and the intelligent window assembly 2 are both electrically connected to the control assembly 3;

intelligence kitchen subassembly 1 includes temperature sensor 11 and electronic gas valve 12, temperature sensor 11 and electronic gas valve 12 all are connected with control assembly 3 electricity, intelligence window subassembly 2 includes wind sensor 21 and electronic window 22, wind sensor 21 and electronic window 22 all are connected with control assembly 3 electricity.

In this way, by the user selecting different cooking modes: a manual mode or an automatic mode;

when a user selects a manual mode, the user actively adjusts the fire power, whether the intelligent stove is a small fire is judged through the electric gas valve 12 in the intelligent stove assembly 1 (for example, if the intelligent stove is a three-ring fire gas stove, a first ring is bright to be a small fire, a second ring is bright to be a middle fire, and a third ring is bright to be a large fire), if not, the wind power size judgment is not started, if yes, the first wind power size judgment is started through the control assembly 3, the wind power size is detected through the wind power sensor 21, whether the wind power is larger than the first wind power size is judged, if not, the electric window 22 maintains the original state, and if yes, the electric window 22 is closed or the opening and closing angle is reduced;

when a user selects an automatic mode, detecting the temperature of the bottom of a pot through a temperature sensor in the intelligent stove assembly 1, intelligently identifying the boiling point of food materials in the pot, adjusting the firepower, and judging whether the intelligent stove is a small fire or not through an electric gas valve 12 in the intelligent stove assembly 1;

if the intelligent stove is a small fire, starting second wind power judgment through the control component 3, detecting the wind power through the wind power sensor 21, judging whether the wind power is larger than the second wind power, if not, maintaining the electric window 22 in an original state, and if so, closing the electric window 22;

if the intelligent stove is not a small fire, the control component 3 is used for starting third wind power size judgment, the wind power sensor 21 is used for detecting the wind power size, whether the wind power is larger than the third wind power size is judged, if not, the electric window 22 is maintained in an original state, and if yes, the electric window 22 is closed or the opening and closing angle is reduced.

According to the interconnection system of the intelligent stove and the intelligent window, disclosed by the invention, the temperature of the pot bottom is detected through the temperature sensor, whether the intelligent stove is a small fire is judged through the electric gas valve, the wind power is detected through the wind power sensor, and finally the opening and closing and opening angles of the electric window are controlled through the control assembly, so that the phenomenon that flames are extinguished due to environmental change or fluctuation of the stove is prevented, the home experience is improved, and the intelligent control level of a kitchen space is improved.

While the invention has been described with reference to specific preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. An interconnection method of an intelligent cooker and an intelligent window is characterized by comprising the following steps:

s1, the intelligent stove identifies a current cooking mode of a user;

s2, judging the firepower of the intelligent stove and judging whether to start the wind power of the intelligent window or not according to the current cooking mode of the user;

s3, judging according to the firepower of the intelligent stove and the wind power of the started intelligent window, and controlling the opening and closing and the opening and closing angle of the intelligent window;

the S3 specifically comprises the following steps:

s31, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window, when the wind power of the intelligent window is larger than the first wind power, closing the intelligent window or reducing the opening and closing angle, and otherwise, maintaining the intelligent window in the original state;

s32, when the cooking mode is the automatic mode and the intelligent stove is a small fire, starting second wind power judgment, and when the cooking mode is the automatic mode and the intelligent stove is not the small fire, starting third wind power judgment, and further controlling the opening and closing angle and the opening and closing angle of the intelligent window;

the S32 specifically includes the following steps:

s321, when the cooking mode is the automatic mode and the intelligent stove is a small fire, when the wind power of the intelligent window is greater than second wind power, the intelligent window is closed, otherwise, the intelligent window is maintained in an original state;

s322, when the cooking mode is the automatic mode and the intelligent stove is not a small fire, when the wind power of the intelligent window is larger than a third wind power, the intelligent window is closed or the opening and closing angle is reduced, and otherwise, the intelligent window maintains the original state.

2. The interconnection method of a smart cooker and a smart window according to claim 1, wherein the cooking modes are divided into a manual mode and an automatic mode.

3. The interconnection method of the intelligent cooker and the intelligent window according to claim 2, wherein the S1 specifically comprises the following steps:

s11, intelligently identifying a cooking mode selected by a user by the intelligent cooker;

and S12, adjusting the fire power according to the cooking mode.

4. The interconnection method of the intelligent cooker and the intelligent window according to claim 3, wherein the S12 specifically comprises the following steps:

s121, when the cooking mode is a manual mode, the fire power is actively adjusted by a user;

s122, when the cooking mode is the automatic mode, the intelligent stove intelligently identifies the boiling point and adjusts the fire power.

5. The interconnection method of the intelligent cooker and the intelligent window according to any one of claims 2 to 4, wherein the S2 specifically comprises the following steps:

s21, judging whether the fire power of the intelligent stove is small fire according to the current cooking mode of the user;

s22, judging whether to start the intelligent window according to the fire intensity of the intelligent stove.

6. The interconnection method of the intelligent cooker and the intelligent window according to claim 5, wherein the S22 specifically comprises the following steps:

s221, when the cooking mode is the manual mode and the intelligent stove is a small fire, starting first wind power judgment of the intelligent window; otherwise, not processing;

s222, when the cooking mode is the automatic mode and the intelligent stove is a small fire, the second wind power size judgment of the intelligent window is started, and otherwise, the third wind power size judgment of the intelligent window is started.

7. The interconnection method of an intelligent cooker and an intelligent window according to claim 6, wherein the first wind power level judgment and the second wind power level judgment are both 2m/s, and the third wind power level judgment is 10m/s.

8. An interconnection system of an intelligent cooker and an intelligent window applying the interconnection method of the intelligent cooker and the intelligent window according to any one of claims 1 to 7, characterized by comprising an intelligent cooker assembly (1), an intelligent window assembly (2) and a control assembly (3), wherein the intelligent cooker assembly (1) and the intelligent window assembly (2) are both electrically connected with the control assembly (3);

intelligence kitchen subassembly (1) includes temperature sensor (11) and electronic gas valve (12), temperature sensor (11) and electronic gas valve (12) all are connected with control assembly (3) electricity, intelligence window subassembly (2) include wind sensor (21) and electronic window (22), wind sensor (21) and electronic window (22) all are connected with control assembly (3) electricity.

Images