CN112181019A - Temperature controller and control method thereof - Google Patents

Abstract

The invention provides a temperature controller and a control method thereof, wherein the temperature controller is in communication connection with a temperature adjusting device, and the control method comprises the following steps: judging whether the temperature controller meets preset temperature control conditions of starting in advance and adjusting the temperature in advance; if yes, current home returning data of the user is obtained; obtaining the current home-returning estimated time of the user according to the current home-returning data; judging whether the current home-returning estimated time is within a home-returning preset time range; if yes, the temperature controller is started to control the temperature adjusting equipment to adjust the real-time temperature of the place to the preset temperature within the time range set by returning home. According to the technical scheme, the indoor temperature is timely and accurately adjusted according to the home returning data of the user, the indoor temperature reaches the comfortable set temperature before the user returns home, a comfortable living environment is provided for the user, the time for the user to wait for the temperature adjusting device to adjust the indoor temperature is shortened, and the user feels better.

Description

Temperature controller and control method thereof

Technical Field

The invention relates to the field of temperature control, in particular to a temperature controller and a control method thereof.

Background

With the improvement of the living standard of people, it is very common to use temperature adjusting devices (such as air conditioners and heating heaters) to adjust the indoor temperature and create comfortable living environment. However, in cold winter or hot summer, since the temperature difference between the natural environment temperature and the comfortable temperature of the human body is large, the temperature adjusting device needs to be operated for a long time after being turned on to adjust the indoor temperature to the comfortable temperature.

Consumers often experience is: when the room is very hot or very cold, even if the air conditioner is turned on as the first thing to go home, the indoor temperature is required to be lowered to or raised to the set temperature for a certain time, and the consumer suffers from extreme heat or cold during the time, which seriously affects the comfort of the user.

Disclosure of Invention

The embodiment of the invention provides a temperature controller and a control method thereof, aiming at solving the problem that a user needs to wait for a temperature adjusting device to adjust the temperature to a comfortable temperature after arriving at home and cannot enjoy a comfortable environment immediately after arriving at home.

The embodiment of the invention is realized by providing a control method of a temperature controller, wherein the temperature controller is in communication connection with a temperature regulating device, and the method comprises the following steps:

judging whether the temperature controller meets preset temperature control conditions of starting in advance and adjusting the temperature in advance;

if yes, current home returning data of the user is obtained;

obtaining the current home-returning estimated time of the user according to the current home-returning data;

judging whether the current home-returning estimated time is within a home-returning preset time range or not;

if yes, the temperature controller is started to control the temperature adjusting equipment to adjust the real-time temperature of the place to the preset temperature within the home-returning set time range.

Furthermore, when the temperature controller is started and the advanced temperature control function is started, the temperature controller meets the preset temperature control condition of advanced temperature control and advanced temperature regulation.

Further, the temperature controller is in communication connection with a user terminal, and the step of acquiring the current home data of the user includes:

and acquiring current home returning data of the user, which is sent by the user terminal, wherein the current home returning data comprises one or more of real-time position data, real-time traveling speed data and real-time traveling direction data of the user.

Further, the step of obtaining the current estimated time of returning home of the user according to the current data of returning home includes:

acquiring historical home returning data of a user, which is stored by the temperature controller, wherein the historical home returning data is formed by one or more of historical home returning routes, historical home returning distances, historical home returning habits, historical home returning time periods and historical home returning time lengths of the user, which are acquired by the temperature controller and recorded and analyzed each day in the history of the user;

and analyzing the current home returning data on the basis of the historical home returning data, and calculating to obtain the current home returning estimated time of the user.

Further, before the step of determining whether the current estimated time of returning home is within a preset time range of returning home, the method further includes:

and setting a preset time range for returning home.

Further, the step of setting the home-returning preset time range includes:

acquiring historical temperature control data of the temperature controller, wherein the historical temperature control data is composed of one or more of historical initial room temperature, historical target temperature and historical temperature control time when the temperature controller adjusts the place to different temperatures in the history every day;

according to the historical temperature control data, the estimated temperature control time for the temperature controller to control the heating equipment to adjust the real-time temperature of the place to the preset temperature is analyzed and calculated;

and setting a preset error range on the basis of the estimated temperature control time to obtain the home-returning preset time range.

Further, the step of setting the home-returning preset time range further comprises:

receiving a setting signal which is input from the outside and is used for setting the home-returning preset range;

and setting the home-returning preset time range according to the setting signal.

In addition, an embodiment of the present invention further provides a temperature controller, which is in communication connection with a temperature adjustment device, and the temperature controller includes:

the first judgment module is used for judging whether the temperature controller meets the preset temperature control condition of starting in advance and adjusting the temperature in advance;

the first acquisition module is used for acquiring current home returning data of a user if the temperature controller meets a preset temperature control condition of starting in advance and adjusting the temperature in advance;

the first calculation module is used for obtaining the current home-returning estimated time of the user according to the current home-returning data;

the second judgment module is used for judging whether the current home returning estimated time is within a home returning preset time range;

and the first control module is used for starting the temperature controller to control the temperature adjusting equipment to adjust the real-time temperature of the place to the preset temperature within the home-returning set time range if the current home-returning estimated time is within the home-returning preset time range.

Furthermore, the temperature controller is connected to a user terminal in a communication manner, and the temperature controller further includes:

and the second acquisition module is used for acquiring the current home returning data of the user, which is sent by the user terminal, wherein the current home returning data comprises one or more of real-time position data, real-time traveling speed data and real-time traveling direction data of the user.

Further, the thermostat further includes:

the third acquisition module is used for acquiring historical home returning data of the user, which is stored by the temperature controller, wherein the historical home returning data is obtained by the temperature controller and records and analyzes one or more of historical home returning routes, historical home returning distances, historical home returning habits, historical home returning time periods and historical home returning time lengths of the user every day;

and the second calculation module is used for analyzing the current home returning data on the basis of the historical home returning data and calculating to obtain the current home returning estimated time of the user.

The method has the beneficial effects that compared with the prior art, whether the temperature controller meets the preset temperature control condition of starting in advance and adjusting the temperature in advance is judged, if yes, the current home returning data of the user is obtained, and the current home returning estimated time of the user is obtained according to the current home returning data. And further judging whether the current estimated time is within a home-returning preset time range, if so, indicating that the user is about to arrive at home, and starting the temperature controller to control the temperature adjusting equipment to adjust the indoor temperature of the place to the preset temperature within the home-returning time range. So, indoor temperature can in time be adjusted, and indoor temperature has reached comfortable settlement temperature before the user goes home, provides comfortable living environment for the user, reduces the time that the user waited for temperature regulation equipment to adjust indoor temperature, and the user experience is preferred.

Drawings

Fig. 1 is a schematic flow chart illustrating a method for controlling a thermostat according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating a method for controlling a temperature controller according to a second embodiment of the present invention;

FIG. 3 is a schematic block diagram of a thermostat according to a third embodiment of the present invention;

fig. 4 is a schematic block diagram of a thermostat according to a fourth embodiment of the present invention.

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 one

Referring to fig. 1, a schematic flow chart of a method for controlling a temperature controller according to an embodiment of the present invention is shown, where the method includes the following steps:

and step S10, judging whether the temperature controller meets the preset temperature control condition of early starting and early temperature adjustment.

The temperature controller is a series of automatic control elements which are physically deformed in a switch according to the temperature change of a working environment so as to generate certain special effects and generate on or off actions, and is also called a temperature control switch, a temperature protector and a temperature controller, and is called as the temperature controller for short. In this embodiment, the temperature controller is in communication connection with a temperature adjustment device (such as an air conditioner, a heater, etc.), and the temperature controller can detect the temperature of a place where the temperature controller is located and control the operation of the temperature adjustment device according to the temperature, so as to achieve the set temperature and the energy-saving effect.

Wherein, when the temperature controller has started and the temperature controller has opened the function of controlling the temperature in advance, the temperature controller satisfies and opens in advance and carry out the preset control by temperature change condition of temperature regulation in advance. In other words, whether the temperature controller is started or not is judged firstly, whether the temperature controller has started the advanced temperature control function or not is judged when the temperature controller is started, and when the temperature controller has started the advanced temperature control function, the temperature controller is judged to meet the preset temperature control condition of being started in advance and carrying out advanced temperature regulation. And if the temperature controller does not meet any one of the functions of starting and starting the advanced temperature control, judging that the current state of the temperature controller does not meet the preset temperature control condition.

And step S20, if yes, acquiring the current home data of the user.

The current home data of the user includes real-time location data of the user, real-time traveling direction data, and route data from the current location to the home, and the like.

The temperature controller is in communication connection with the user terminal and receives current home-returning data sent by the user terminal. A control end (a local server or a cloud server) of the temperature controller can directly acquire home-returning data of a user through cooperative third-party map software; the user position can be obtained according to the positioning function of the user terminal, and then the current home data of the user can be calculated by combining the electronic map of the user.

In addition, the temperature controller can also be connected with district access control system communication, and when the user passed through the district entrance guard, access control system sent user information to the temperature controller to user's positional information is obtained to the temperature controller, and accessible positional information predetermines the user time required for going home.

And step S30, obtaining the current estimated time of home-returning of the user according to the current home-returning data.

The current estimated time of returning home refers to the time required for predicting that the user needs to return home from the current position.

At least one route for the user to go home can be planned according to the current position of the user in the current home-returning data and the position of the user home, which route the user adopts next can be further determined by combining the traveling direction of the user, and the current home-returning estimated time of the user can be predicted by obtaining the home-returning route and the traveling speed of the user according to the home-returning route.

In addition, in order to improve the accuracy of the current home-returning estimated time, historical home-returning data of the user is pre-stored in the temperature controller, a home-returning model is built according to the historical home-returning data, and the current home-returning data is analyzed on the basis of the historical home-returning data, so that the current home-returning estimated time of the user is obtained.

The historical home-returning data refers to historical home-returning routes, historical home-returning distances, historical home-returning habits, historical home-returning time periods, historical home-returning time durations and the like of the users who have come home in the past. The current home-returning route can be more accurately selected according to the historical home-returning route. The historical returning habit, the historical returning time period and the historical returning time length can correct the calculated current returning estimated time to obtain more accurate current returning estimated time.

For example, it is seen from the historical home returning data of the user that the user stays in a restaurant near the home for a fixed time each day when the user returns home for a certain time period, when the current estimated home returning time is estimated, if the user's route of returning home includes the restaurant and the current time period of returning home is within the time period, the current estimated home returning time is determined by adding the time calculated according to the route and the distance to the stay time of the restaurant in the historical home returning data.

And step S40, judging whether the current estimated time of returning home is within the preset time range of returning home.

And step S50, if yes, the temperature controller is started to control the temperature adjusting equipment to adjust the real-time temperature of the place to a preset temperature within the time range set by going home.

And when the temperature controller is judged to meet the preset temperature control condition, acquiring the current home returning data of the user, and pre-judging the time (the current home returning estimated time) which the user should spend for returning home according to the current home returning data. Further judging whether the current home-returning estimated time is within a home-returning preset time range, if so, indicating that the user is about to arrive at home and needing to start the temperature regulating device in advance, and controlling the temperature regulating device to regulate the indoor temperature to the preset temperature within the home-returning preset time range by the temperature controller; if not, the user can not go home within a certain time, and the temperature adjusting equipment is not started temporarily for saving energy. The preset temperature is the target temperature set by the user last time, or the target temperature preset by the user under the function of temperature control in advance, and the like.

The preset time for returning home can be a preset fixed time length in the temperature controller, or a working time length required by the temperature regulating device for regulating the current environment temperature to the set temperature according to the product performance prediction of the temperature regulating device, and the like.

In addition, when the current home-returning estimated time is within a home-returning preset time range, judging whether the current distance from the home of the user is smaller than a preset distance or not, and when the current distance from the home of the user is smaller than the preset distance, controlling the temperature adjusting equipment to start by the temperature controller to adjust the real-time temperature of the place to the preset temperature; and when the current distance from the user to the home is greater than or equal to the preset distance, not starting advance temperature adjustment. The distance is judged under the judgment condition of the estimated time of returning home, so that the temperature adjusting equipment can be effectively prevented from being started by mistake due to the error in the calculation of the estimated time of returning home, and the energy is wasted. It should be noted that the preset distance is greater than the distance traveled by the user in the normal walking state for the current estimated time of returning home.

In this embodiment, it is first determined whether the temperature controller satisfies a preset temperature control condition for early start and early temperature adjustment, and if so, current home returning data of the user is obtained, and current home returning estimated time of the user is obtained according to the current home returning data. And further judging whether the current estimated time is within a home-returning preset time range, if so, indicating that the user is about to arrive at home, and starting the temperature controller to control the temperature adjusting equipment to adjust the indoor temperature of the place to the preset temperature within the home-returning time range. The indoor temperature is adjusted in time, and the indoor temperature reaches the comfortable set temperature before the user goes home, so that a comfortable living environment is provided for the user, the time for the user to wait for the temperature adjusting device to adjust the indoor temperature is shortened, and the user feels better.

Example two

Referring to fig. 2, a flow chart of a method for controlling a temperature controller according to a second embodiment of the present invention is shown, where the difference between the second embodiment and the first embodiment is that before step S40 in the first embodiment, the method further includes:

and step S60, setting a preset time range for returning home.

Before the step of judging whether the current home returning estimated time is within the home returning preset time range, the home returning preset time range needs to be set. Specifically, the setting manner of the home-returning preset time range includes, but is not limited to, the following:

firstly, acquiring historical temperature control data of the temperature controller; according to the historical temperature control data, the estimated temperature control time for the temperature controller to control the heating equipment to adjust the real-time temperature of the place to the preset temperature is analyzed and calculated; and setting a preset error range on the basis of the estimated temperature control time to obtain the home-returning preset time range. The historical temperature control data is formed by one or more of historical initial room temperature, historical target temperature and historical temperature control time when the temperature controller adjusts the place to different temperatures in the history every day.

For example, when the current indoor environment temperature is 33 ℃ and the preset temperature is 26 ℃, according to historical temperature control data of the temperature controller, 20 minutes are needed for changing the indoor environment temperature from 33 ℃ to 26 ℃, a 2-minute time error is set due to factors such as air humidity and equipment loss, and finally the preset time range of returning home is determined to be 18 minutes and 22 minutes.

The method predicts the time required by the indoor temperature to reach the preset temperature according to the actual condition of the indoor environment and the temperature adjusting condition of the temperature adjusting equipment in the historical data, and determines the preset time range of the home according to the predicted time and the error, wherein the time point when the indoor environment temperature reaches the preset temperature is closest to the time point when the user arrives at the home, so that the energy is saved, and the efficiency is high.

And secondly, receiving a setting signal which is input from the outside and is used for setting the home-returning preset range, and setting the home-returning preset time range according to the setting signal.

When the amount of history data is small, it is difficult to accurately predict the time required for the indoor temperature to reach the preset temperature from the small amount of history data. Therefore, the user can manually set the home returning preset range according to the experience of the user. The user can set a home returning preset range through a mobile terminal, a remote controller, a control panel and the like which are in communication connection with the temperature controller, the temperature controller receives a setting signal for setting the home returning preset range, and the home returning preset time range is set according to the setting signal.

In this embodiment, before the step of determining whether the current estimated time of returning home is within the preset time range of returning home, the preset time range of returning home is set, so as to ensure that the temperature adjusting device can adjust the temperature of the place to the preset temperature within the preset time range, thereby providing a comfortable environment for the user.

EXAMPLE III

Please refer to fig. 3, which is a schematic structural diagram of a temperature controller according to a third embodiment of the present invention, and for convenience of description, only the portions related to the embodiment of the present invention are shown. The temperature controller comprises:

the first judging module 10 is configured to judge whether the temperature controller meets a preset temperature control condition for starting in advance and performing temperature adjustment in advance.

The temperature controller is a series of automatic control elements which are physically deformed in a switch according to the temperature change of a working environment so as to generate certain special effects and generate on or off actions, and is also called a temperature control switch, a temperature protector and a temperature controller, and is called as the temperature controller for short. In this embodiment, the temperature controller is in communication connection with a temperature adjustment device (such as an air conditioner, a heater, etc.), and the temperature controller can detect the temperature of a place where the temperature controller is located and control the operation of the temperature adjustment device according to the temperature, so as to achieve the set temperature and the energy-saving effect.

Wherein, when the temperature controller has started and the temperature controller has opened the function of controlling the temperature in advance, the temperature controller satisfies and opens in advance and carry out the preset control by temperature change condition of temperature regulation in advance. In other words, whether the temperature controller is started or not is judged firstly, whether the temperature controller has started the advanced temperature control function or not is judged when the temperature controller is started, and when the temperature controller has started the advanced temperature control function, the temperature controller is judged to meet the preset temperature control condition of being started in advance and carrying out advanced temperature regulation. And if the temperature controller does not meet any one of the functions of starting and starting the advanced temperature control, judging that the current state of the temperature controller does not meet the preset temperature control condition.

The first obtaining module 20 is configured to obtain current home data of the user if the temperature controller meets a preset temperature control condition for starting in advance and performing temperature adjustment in advance.

The current home data of the user includes real-time location data of the user, real-time traveling direction data, and route data from the current location to the home, and the like.

The temperature controller is in communication connection with the user terminal and receives current home-returning data sent by the user terminal. A control end (a local server or a cloud server) of the temperature controller can directly acquire home-returning data of a user through cooperative third-party map software; the user position can be obtained according to the positioning function of the user terminal, and then the current home data of the user can be calculated by combining the electronic map of the user.

In addition, the temperature controller can also be connected with district access control system communication, and when the user passed through the district entrance guard, access control system sent user information to the temperature controller to user's positional information is obtained to the temperature controller, and accessible positional information predetermines the user time required for going home.

And the first calculating module 30 is configured to obtain the current estimated time of returning home of the user according to the current data of returning home.

The current estimated time of returning home refers to the time required for predicting that the user needs to return home from the current position.

At least one route for the user to go home can be planned according to the current position of the user in the current home-returning data and the position of the user home, which route the user adopts next can be further determined by combining the traveling direction of the user, and the current home-returning estimated time of the user can be predicted by obtaining the home-returning route and the traveling speed of the user according to the home-returning route.

In addition, in order to improve the accuracy of the current home-returning estimated time, historical home-returning data of the user is pre-stored in the temperature controller, a home-returning model is built according to the historical home-returning data, and the current home-returning data is analyzed on the basis of the historical home-returning data, so that the current home-returning estimated time of the user is obtained.

The historical home-returning data refers to historical home-returning routes, historical home-returning distances, historical home-returning habits, historical home-returning time periods, historical home-returning time durations and the like of the users who have come home in the past. The current home-returning route can be more accurately selected according to the historical home-returning route. The historical returning habit, the historical returning time period and the historical returning time length can correct the calculated current returning estimated time to obtain more accurate current returning estimated time.

For example, it is seen from the historical home returning data of the user that the user stays in a restaurant near the home for a fixed time each day when the user returns home for a certain time period, when the current estimated home returning time is estimated, if the user's route of returning home includes the restaurant and the current time period of returning home is within the time period, the current estimated home returning time is determined by adding the time calculated according to the route and the distance to the stay time of the restaurant in the historical home returning data.

The second judging module 40 is configured to judge whether the current estimated time of returning home is within a preset time range of returning home;

and the first control module 50 is configured to, if the current estimated time of returning home is within a preset time range of returning home, turn on the temperature controller to control the temperature adjusting device to adjust the real-time temperature of the place to a preset temperature within the preset time range of returning home.

And when the temperature controller is judged to meet the preset temperature control condition, acquiring the current home returning data of the user, and pre-judging the time (the current home returning estimated time) which the user should spend for returning home according to the current home returning data. Further judging whether the current home-returning estimated time is within a home-returning preset time range, if so, indicating that the user is about to arrive at home and needing to start the temperature regulating device in advance, and controlling the temperature regulating device to regulate the indoor temperature to the preset temperature within the home-returning preset time range by the temperature controller; if not, the user can not go home within a certain time, and the temperature adjusting equipment is not started temporarily for saving energy. The preset temperature is the target temperature set by the user last time, or the target temperature preset by the user under the function of temperature control in advance, and the like.

The preset time for returning home can be a preset fixed time length in the temperature controller, or a working time length required by the temperature regulating device for regulating the current environment temperature to the set temperature according to the product performance prediction of the temperature regulating device, and the like.

In addition, when the current home-returning estimated time is within a home-returning preset time range, judging whether the current distance from the home of the user is smaller than a preset distance or not, and when the current distance from the home of the user is smaller than the preset distance, controlling the temperature adjusting equipment to start by the temperature controller to adjust the real-time temperature of the place to the preset temperature; and when the current distance from the user to the home is greater than or equal to the preset distance, not starting advance temperature adjustment. The distance is judged under the judgment condition of the estimated time of returning home, so that the temperature adjusting equipment can be effectively prevented from being started by mistake due to the error in the calculation of the estimated time of returning home, and the energy is wasted. It should be noted that the preset distance is greater than the distance traveled by the user in the normal walking state for the current estimated time of returning home.

In this embodiment, it is first determined whether the temperature controller satisfies a preset temperature control condition for early start and early temperature adjustment, and if so, current home returning data of the user is obtained, and current home returning estimated time of the user is obtained according to the current home returning data. And further judging whether the current estimated time is within a home-returning preset time range, if so, indicating that the user is about to arrive at home, and starting the temperature controller to control the temperature adjusting equipment to adjust the indoor temperature of the place to the preset temperature within the home-returning time range. The indoor temperature is adjusted in time, and the indoor temperature reaches the comfortable set temperature before the user goes home, so that a comfortable living environment is provided for the user, the time for the user to wait for the temperature adjusting device to adjust the indoor temperature is shortened, and the user feels better.

Example four

Referring to fig. 4, a module of a temperature controller according to a fourth embodiment of the present invention is shown, and the fourth embodiment is different from the third embodiment in that the temperature controller further includes:

the first setting module 60 is configured to set a home-returning preset time range.

Before the step of judging whether the current home returning estimated time is within the home returning preset time range, the home returning preset time range needs to be set.

Specifically, the first setting module 60 includes:

the fourth acquisition module is used for acquiring historical temperature control data of the temperature controller, wherein the historical temperature control data is composed of one or more of historical initial room temperature, historical target temperature and historical temperature control time when the temperature controller adjusts the place to different temperatures in the historical day;

the third calculation module is used for analyzing and calculating the estimated temperature control time for the temperature controller to control the heating equipment to adjust the real-time temperature of the place to the preset temperature according to the historical temperature control data;

and the fourth calculation module is used for setting a preset error range on the basis of the estimated temperature control time to obtain the home-returning preset time range.

Acquiring historical temperature control data of the temperature controller; according to the historical temperature control data, the estimated temperature control time for the temperature controller to control the heating equipment to adjust the real-time temperature of the place to the preset temperature is analyzed and calculated; and setting a preset error range on the basis of the estimated temperature control time to obtain the home-returning preset time range. The historical temperature control data is formed by one or more of historical initial room temperature, historical target temperature and historical temperature control time when the temperature controller adjusts the place to different temperatures in the history every day.

For example, when the current indoor environment temperature is 33 ℃ and the preset temperature is 26 ℃, according to historical temperature control data of the temperature controller, 20 minutes are needed for changing the indoor environment temperature from 33 ℃ to 26 ℃, a 2-minute time error is set due to factors such as air humidity and equipment loss, and finally the preset time range of returning home is determined to be 18 minutes and 22 minutes.

The method predicts the time required by the indoor temperature to reach the preset temperature according to the actual condition of the indoor environment and the temperature adjusting condition of the temperature adjusting equipment in the historical data, and determines the preset time range of the home according to the predicted time and the error, wherein the time point when the indoor environment temperature reaches the preset temperature is closest to the time point when the user arrives at the home, so that the energy is saved, and the efficiency is high.

In addition, the first setting module 60 further includes:

the receiving module is used for receiving a setting signal which is input from the outside and is used for setting the home returning preset range;

and the second setting module is used for setting the home-returning preset time range according to the setting signal.

When the amount of history data is small, it is difficult to accurately predict the time required for the indoor temperature to reach the preset temperature from the small amount of history data. Therefore, the user can manually set the home returning preset range according to the experience of the user. The user can set a home returning preset range through a mobile terminal, a remote controller, a control panel and the like which are in communication connection with the temperature controller, the temperature controller receives a setting signal for setting the home returning preset range, and the home returning preset time range is set according to the setting signal.

In this embodiment, before the step of determining whether the current estimated time of returning home is within the preset time range of returning home, the preset time range of returning home is set, so as to ensure that the temperature adjusting device can adjust the temperature of the place to the preset temperature within the preset time range, thereby providing a comfortable environment for the user.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A control method of a temperature controller, wherein the temperature controller is in communication connection with a temperature regulation device, and the control method comprises the following steps:

judging whether the temperature controller meets preset temperature control conditions of starting in advance and adjusting the temperature in advance;

if yes, current home returning data of the user is obtained;

obtaining the current home-returning estimated time of the user according to the current home-returning data;

judging whether the current home-returning estimated time is within a home-returning preset time range or not;

if yes, the temperature controller is started to control the temperature adjusting equipment to adjust the real-time temperature of the place to the preset temperature within the home-returning set time range.

2. The method of claim 1, wherein when the thermostat is turned on and the advanced temperature control function is activated, the thermostat meets a preset temperature control condition for advanced temperature adjustment.

3. The method for controlling a thermostat according to claim 1, wherein the thermostat is communicatively connected to a user terminal, and the step of obtaining the current home data of the user comprises:

and acquiring current home returning data of the user, which is sent by the user terminal, wherein the current home returning data comprises one or more of real-time position data, real-time traveling speed data and real-time traveling direction data of the user.

4. The method of claim 3, wherein the step of obtaining the current estimated time to home of the user according to the current home data comprises:

acquiring historical home returning data of a user, which is stored by the temperature controller, wherein the historical home returning data is formed by one or more of historical home returning routes, historical home returning distances, historical home returning habits, historical home returning time periods and historical home returning time lengths of the user, which are acquired by the temperature controller and recorded and analyzed each day in the history of the user;

and analyzing the current home returning data on the basis of the historical home returning data, and calculating to obtain the current home returning estimated time of the user.

5. The method for controlling a thermostat of claim 1, wherein before the step of determining whether the current estimated time to home is within a preset time range, the method further comprises:

and setting a preset time range for returning home.

6. The method of claim 5, wherein the step of setting the home-returning preset time range comprises:

acquiring historical temperature control data of the temperature controller, wherein the historical temperature control data is composed of one or more of historical initial room temperature, historical target temperature and historical temperature control time when the temperature controller adjusts the place to different temperatures in the history every day;

according to the historical temperature control data, the estimated temperature control time for the temperature controller to control the heating equipment to adjust the real-time temperature of the place to the preset temperature is analyzed and calculated;

and setting a preset error range on the basis of the estimated temperature control time to obtain the home-returning preset time range.

7. The method of claim 5, wherein the step of setting the home-returning preset time range further comprises:

receiving a setting signal which is input from the outside and is used for setting the home-returning preset range;

and setting the home-returning preset time range according to the setting signal.

8. The utility model provides a temperature controller, with temperature regulation equipment communication connection, its characterized in that, the temperature controller includes:

the first judgment module is used for judging whether the temperature controller meets the preset temperature control condition of starting in advance and adjusting the temperature in advance;

the first acquisition module is used for acquiring current home returning data of a user if the temperature controller meets a preset temperature control condition of starting in advance and adjusting the temperature in advance;

the first calculation module is used for obtaining the current home-returning estimated time of the user according to the current home-returning data;

the second judgment module is used for judging whether the current home returning estimated time is within a home returning preset time range;

and the first control module is used for starting the temperature controller to control the temperature adjusting equipment to adjust the real-time temperature of the place to the preset temperature within the home-returning set time range if the current home-returning estimated time is within the home-returning preset time range.

9. The thermostat of claim 8, wherein the thermostat is communicatively coupled to a user terminal, the thermostat further comprising:

and the second acquisition module is used for acquiring the current home returning data of the user, which is sent by the user terminal, wherein the current home returning data comprises one or more of real-time position data, real-time traveling speed data and real-time traveling direction data of the user.

10. The thermostat of claim 9, wherein the thermostat further comprises:

the third acquisition module is used for acquiring historical home returning data of the user, which is stored by the temperature controller, wherein the historical home returning data is obtained by the temperature controller and records and analyzes one or more of historical home returning routes, historical home returning distances, historical home returning habits, historical home returning time periods and historical home returning time lengths of the user every day;

and the second calculation module is used for analyzing the current home returning data on the basis of the historical home returning data and calculating to obtain the current home returning estimated time of the user.

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