CN117308285A - Air conditioner display method and device based on health state and intelligent air conditioner - Google Patents

Abstract

The application relates to the technical field of intelligent household appliances and discloses an air conditioner display method based on a health state. The air conditioner display method comprises the following steps: obtaining current health state parameters of a current user; obtaining current environmental parameters; under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter; if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state; wherein, the influence factors of the preset health abnormal state comprise environmental parameters. By adopting the air conditioner display method, the detection results of a plurality of detection instruments in the intelligent home can be integrated into a whole, and a preset health abnormal state which is easier to directly attract the attention of a user is formed, so that the utilization rate of the plurality of detection instruments is promoted. The application also discloses an air conditioner display device and intelligent air conditioner based on health status.

Description

Air conditioner display method and device based on health state and intelligent air conditioner

Technical Field

The application relates to the technical field of intelligent household appliances, and for example relates to an air conditioner display method and device based on health states and an intelligent air conditioner.

Background

Currently, in a smart home, a user's physical state can be detected through a body fat scale (detecting a body fat state), an oximeter, a millimeter radar wave (detecting respiratory heart beat), a sphygmomanometer, etc., a user's sleep state is detected through a sleep pillow, etc., and an indoor air environmental parameter is detected through an air sensor, etc.

In the process of implementing the embodiment of the present application, it is found that at least the following problems exist in the related art:

the existing intelligent home detection method can only detect single indexes, needs users to improve living habits one by one, and generally causes the following phenomena: for people who have these detection instruments, the use rate is low only by accident, and the detection instruments are not used better.

It should be noted that the information disclosed in the foregoing background section is only for enhancing understanding of the background of the present application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the application provides an air conditioner display method based on a health state, which is used for integrating detection results of a plurality of detection instruments in an intelligent home into a whole, forming a preset health abnormal state which is easier to directly attract the attention of a user, promoting the utilization rate of the plurality of detection instruments and promoting the user to form a better living habit to a certain extent.

Optionally, the air conditioner display method based on the health state includes:

obtaining current health state parameters of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

obtaining current environmental parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter;

if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

Optionally, displaying a preset health abnormal state corresponding to the future health state includes:

Obtaining a basic character image;

obtaining the overall action of the person corresponding to the abnormal health state, and/or the limb action of the person, and/or the color of the local surface of the person;

the basic character image is enabled to act according to the overall action of the character, and/or the character limb action is enabled to act, and/or the basic character image is enabled to be displayed according to the color of the local surface of the character.

Optionally, obtaining the base character image includes:

obtaining basic characteristic information of the current user, wherein the basic characteristic information comprises one or more of height, weight, gender and age;

and obtaining the basic character image corresponding to the basic feature information according to the corresponding relation between the feature information and the character information.

Optionally, determining the future health from the current health parameter and the current environmental parameter includes: under the condition that a first health state parameter in the current health state parameters deviates from a first standard health state parameter and does not deviate from a second standard health state parameter, obtaining a corresponding first health abnormal state when the first health state parameter continuously deviates from the first standard health state parameter according to the original direction until the first health state parameter deviates from the second standard health state parameter; the first health abnormal state is one of preset health abnormal states, and the first health state parameter represents a health normal state under the condition that the first health state parameter does not deviate from the second standard health state parameter; acquiring a first environment parameter corresponding to a first health abnormal state from the current environment parameters; wherein the first environmental parameter is a factor capable of promoting or inhibiting the occurrence of a first health abnormal state; taking the first health abnormal state as a future health state in the case that the first environment parameter deviates from the first standard health environment parameter; the first standard health environment parameter and the first health state parameter have a corresponding relation.

Optionally, determining the future health from the current health parameter and the current environmental parameter includes: under the condition that a second environmental parameter in the current environmental parameters deviates from a second standard healthy environmental parameter, obtaining a corresponding second abnormal health state when the second environmental parameter continuously deviates from the second standard healthy environmental parameter according to the original direction or when the second environmental parameter is maintained unchanged; wherein the second abnormal health state is one of preset abnormal health states; obtaining a second health state parameter corresponding to the second health abnormal state from the current health state parameters; wherein the second health state parameter is a factor capable of promoting or inhibiting the occurrence of a second health abnormal state; taking the second abnormal health state as a future health state when the second health state parameter deviates from the third standard health state parameter and does not deviate from the fourth standard health state parameter; the second standard health environment parameter and the second health state parameter have a corresponding relation, and the second health state parameter represents a health normal state under the condition that the second health state parameter does not deviate from the fourth standard health state parameter.

Optionally, obtaining the current health status parameter of the current user includes: obtaining the current sleep quality of the current user, wherein the current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration.

Optionally, obtaining the current environmental parameter includes: obtaining the current temperature; alternatively, the current humidity is obtained; alternatively, the current wind speed and the current humidity are obtained.

Optionally, determining the future health from the current health parameter and the current environmental parameter includes: taking the cold state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current temperature is lower than the standard health temperature; the cold state is one of a plurality of preset abnormal health states, and the standard health temperature has a corresponding relation with the current sleep quality.

Optionally, determining the future health from the current health parameter and the current environmental parameter includes: under the condition that the current sleep quality does not accord with the standard sleep quality and the current humidity is lower than the first standard healthy humidity, taking the water-deficient state as a future healthy state; the water shortage state is one of a plurality of preset health abnormal states, and the first standard health humidity has a corresponding relation with the current sleep quality.

Optionally, determining the future health from the current health parameter and the current environmental parameter includes: when the current sleep quality does not accord with the standard sleep quality, the current wind speed is lower than the standard healthy wind speed, and the current humidity is lower than the second standard healthy humidity, taking the water shortage state as the future healthy state; the water shortage state is one of a plurality of preset health abnormal states, and the standard health wind speed and the second standard health humidity have corresponding relations with the current sleep quality.

Optionally, the air conditioner display method based on the health state further comprises: displaying the current health state parameters; the current environmental parameters are shown.

Optionally, displaying the current health status parameter includes: if one or more of the average heart rate, the average blood pressure and the average respiratory rate is lower than the corresponding preset value, displaying the character image without eyes; if one or more of the average heart rate, the average blood pressure and the average respiratory rate is greater than or equal to the corresponding preset value, displaying the person with bright eyes; the current health state parameters include one or more of average heart rate, average blood pressure, average respiratory rate for a set period of time prior to the current time.

In some embodiments, a health status-based air conditioning display device includes a first obtaining module, a second obtaining module, a determining module, and a first display module.

The first obtaining module is used for obtaining current health state parameters of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

the second obtaining module is used for obtaining the current environment parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

the determining module is used for determining the future health state corresponding to the current health state parameter and the current environment parameter according to the preset corresponding relation among the health state parameter, the environment parameter and the future health state under the condition that the current health state parameter represents the health normal state;

the first display module is used for displaying the preset abnormal health state corresponding to the future health state if the future health state is one of a plurality of preset abnormal health states; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

In some embodiments, a health status-based air conditioner display device includes a processor and a memory storing program instructions, the processor being configured to execute the health status-based air conditioner display method provided by the foregoing embodiments when the program instructions are executed.

In some embodiments, the intelligent air conditioner comprises the health status-based air conditioner display device provided by the previous embodiments.

The air conditioner display method and device based on the health state and the intelligent air conditioner provided by the embodiment of the application can realize the following technical effects:

even if the current health state parameter indicates a health normal state, if the current health state parameter is combined with the current environment parameter, a preset health abnormal state is easily caused, and the preset health abnormal state is displayed. That is, the current health state parameter and the current environment parameter are integrated to form a result of presetting abnormal health state, and the effect of attracting the attention of the user is realized by the abnormal health state.

In such an overall step, the current user's current health state parameter obtaining process uses the corresponding detecting instrument, and the current environment parameter obtaining process also uses the corresponding detecting instrument, so that the health abnormal state is more likely to attract the attention of the user compared with the single health state parameter and the single environment parameter, and in this way, the use rate of the detecting instrument in the smart home is improved.

So also can remind the bad life habit of user, impel the user to improve life habit to a certain extent to cultivate better life habit.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which:

fig. 1 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

fig. 2 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

fig. 3 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

fig. 4 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

fig. 5 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

fig. 6 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application;

Fig. 7 is a schematic device diagram of an air conditioner display device based on a health status according to an embodiment of the present application;

fig. 8 is a schematic diagram of an air conditioner display device based on a health state according to an embodiment of the present application;

fig. 9 is a schematic diagram of an intelligent air conditioner provided in an embodiment of the present application.

Detailed Description

For a more complete understanding of the features and technical content of the embodiments of the present application, reference should be made to the following detailed description of the embodiments of the present application, taken in conjunction with the accompanying drawings, which are for purposes of illustration only and not intended to limit the embodiments of the present application. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first and second and the like in the description and in the claims of the embodiments of the application and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present application described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The term "plurality" means two or more, unless otherwise indicated.

In the embodiment of the present application, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.

Fig. 1 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 1, the air conditioner display method based on the health status includes:

s101, obtaining current health state parameters of a current user.

The health state parameter is a parameter capable of reflecting the health state of the user.

In an application scenario where a single person uses an air conditioner, a current user refers to a user who is using the air conditioner; in an application scenario where multiple people use an air conditioner, a current user refers to a user who needs to display a health state in a subsequent step.

Current health status parameters include, but are not limited to, current sleep quality, current heart rate, current blood pressure, and current respiratory rate.

The current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration.

The sleeping time length can be obtained through an intelligent bracelet, an intelligent watch, an intelligent sleeping pillow and the like. The deep sleep time can be based on detection equipment such as an intelligent bracelet, an intelligent watch and an intelligent sleep pillow, so that the action state of the user in the sleeping process is obtained, and then the deep sleep time is determined based on the action state of the user in the sleeping process.

The above-listed manners of obtaining the sleep duration and the deep sleep duration are merely illustrative, and the specific manners of obtaining the sleep duration and the deep sleep duration are not limited in particular, and in particular applications, a person skilled in the art may determine the manner of obtaining the current sleep quality according to practical situations according to experience.

S102, obtaining current environment parameters.

Wherein the environmental parameters include one or more of temperature, wind speed, and humidity.

The temperature and humidity may be obtained by an air conditioner self-contained sensor or may be obtained by a separate intelligent sensor provided indoors.

The wind speed can be obtained through the rotating speed of a fan of the air conditioner indoor unit or can be obtained through a sensor.

The environmental parameters in the embodiment of the application are environmental parameters which can be adjusted through an air conditioner, and after the preset health abnormal state is displayed, the user is enabled to have the capability of adjusting the current environmental parameters. For example, for a preset health abnormal state due to an excessively low temperature, after the preset health abnormal state is displayed, the user may appropriately increase the indoor temperature through the air conditioner based on the preset health abnormal state. The environment parameters which can be adjusted by the air conditioner are used as environment parameters in the embodiment of the application, the use experience of a user can be improved, and the user can be made to become healthy habit to a certain extent.

And S103, under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter.

Typically, if the current health status parameter indicates a health abnormal status, it indicates that the user needs to adjust the health abnormal status through certain scientific measures.

In contrast, the focus of the health-state-based air conditioner display method provided by the present application is on: and under the condition that the current health state parameter represents a health normal state, a certain reminding and preventing strategy is carried out.

Under the condition that a first health state parameter in the current health state parameters deviates from a first standard health state parameter and does not deviate from a second standard health state parameter, obtaining a corresponding first health abnormal state when the first health state parameter continuously deviates from the first standard health state parameter according to the original direction until the first health state parameter deviates from the second standard health state parameter; the first health abnormal state is one of preset health abnormal states, and the first health state parameter represents a health normal state under the condition that the first health state parameter does not deviate from the second standard health state parameter; acquiring a first environment parameter corresponding to a first health abnormal state from the current environment parameters; wherein the first environmental parameter is a factor capable of promoting or inhibiting the occurrence of a first health abnormal state; taking the first health abnormal state as a future health state in the case that the first environment parameter deviates from the first standard health environment parameter; the first standard health environment parameter and the first health state parameter have a corresponding relation.

The first health state parameter does not deviate from the first standard health state parameter, which indicates that the life habit of the current user is healthier.

The lifestyle and the obtained type of the current health state parameter are corresponding, that is, the universality of the lifestyle in the embodiment of the application is limited by the type of the current health state parameter.

The first standard health state parameter is higher in severity for the health state parameter than the second standard health state parameter.

Specifically, when the standard health state parameter is a parameter range, the parameter range corresponding to the second standard health state parameter includes the parameter range corresponding to the first standard health state parameter.

If the first health state parameter is less than the lower limit value of the first standard health state parameter or the second standard health state parameter, or the first health state parameter is greater than the upper limit value of the first standard health state parameter or the second standard health state, the first health state parameter is deviated from the first standard health state parameter or the second standard health state parameter.

In the case where the standard health state parameter represents the parameter upper limit value, the first standard health state parameter is smaller than the second standard health state parameter.

If the first health state parameter is greater than the first standard health state parameter or the second standard health state parameter, it is indicated that the first health state parameter deviates from the first standard health state parameter or the second standard health state parameter.

In the case where the standard health state parameter represents a parameter lower limit value, the first standard health state parameter is greater than the second standard health state parameter.

If the first health state parameter is less than the first standard health state parameter or the second standard health state parameter, it is indicated that the first health state parameter deviates from the first standard health state parameter or the second standard health state parameter.

The first standard health state parameter and the second standard health state parameter in the embodiment of the present application may be obtained through medical big data, or clinical experience, for example, when the first standard health state parameter and the second standard health state parameter are both heart rates, the second standard health state is greater than the first standard health state, if the heart rate is continuously maintained at a higher level in a resting state, i.e. the current heart rate is continuously greater than the second standard health state, it may be determined that the patient is in a fever state at this time, or other health abnormal states in medicine.

The above listed heart rate scenarios are only exemplary, and in specific cases, the person skilled in the art may determine the first standard health state parameter and the second standard health state parameter according to the actual situation based on medical big data, or clinical experience, etc.

The first environmental parameter is of a magnitude that promotes or inhibits the occurrence of the first abnormal health condition.

For example, if the first health abnormal state is a cold state and the first environmental parameter is temperature, a lower environmental temperature is more likely to cause the cold state to occur, and a higher environmental temperature is less likely to cause the cold state to occur;

if the first abnormal health state is a water shortage state and the first environmental parameter is humidity, the water shortage state is easily caused by lower environmental humidity, and the water shortage state can be restrained by higher environmental state.

The water-deficient state in the embodiments of the present application includes, but is not limited to, a skin dry state and a respiratory tract dry state.

The first environmental parameter deviates from the first standard health environmental parameter, which indicates that the first environmental parameter has a promoting effect on the occurrence of the first health abnormal state; the first environmental parameter not deviating from the first standard health environmental parameter indicates that the first environmental parameter is capable of suppressing or not affecting the first health anomaly condition.

If the first environmental parameter is smaller than the lower limit value of the first standard healthy environmental parameter or the first environmental parameter is larger than the upper limit value of the first standard healthy environmental parameter under the condition that the standard healthy environmental parameter is the parameter range, the first environmental parameter is deviated from the first standard healthy environmental parameter;

if the first environmental parameter is greater than the first standard healthy environmental parameter, indicating that the first environmental parameter deviates from the first standard healthy environmental parameter;

in the case where the standard health state parameter is the parameter lower limit value, if the first environmental parameter is smaller than the first standard health environmental parameter, it indicates that the first environmental parameter deviates from the first standard health environmental parameter.

The first standard health environment parameter in the embodiments of the present application may be obtained through medical big data, or clinical experience, etc. For example, where the standard health environment parameter represents temperature, the first standard health environment parameter may be 20 ℃, 21 ℃, 22 ℃, or 23 ℃, although the first standard environment parameter may also be suitably increased where the user's low temperature resistance is poor. The above listed temperature scenarios are only exemplary, and in specific cases, a person skilled in the art may determine the first standard health environment parameter according to the actual situation based on medical big data, or clinical experience, etc.

The higher the degree of deviation of the first health state parameter from the first standard health state parameter, the less adverse effect the environment created by the first standard health environment parameter has on physical health.

The degree of deviation of the first health state parameter from the first standard health state parameter may be represented by a difference between the first health state parameter and the first standard health state parameter.

Specifically, if the first health state parameter is greater than the upper limit value of the first standard health state parameter under the condition that the first standard health state parameter is the parameter range, the deviation degree of the first health state parameter from the first standard health state parameter can be represented by the difference value between the first health state parameter and the upper limit value of the first standard health state parameter; if the first health state parameter is less than the lower limit value of the first standard health state parameter, the deviation degree of the first health state parameter from the first standard health state parameter can be represented by the difference value between the first health state parameter and the lower limit value of the first standard health state parameter.

Under the condition that the first standard health state parameter is the parameter upper limit value or the parameter lower limit value, the deviation degree of the first health state parameter from the first standard health state parameter can be directly indicated by the difference value between the first health state parameter and the first standard health state parameter.

The person skilled in the art can determine the degree of adverse effect on the physical health of the environment created by the first standard health environment parameters according to life experience, medical big data or clinical experience, etc.

For example, where the standard health environment parameter represents temperature, it may be considered that 20 ℃ has a degree of adverse effect on physical health that is greater than the degree of adverse effect on physical health of 22 ℃.

Alternatively, determining the future health from the current health parameter and the current environmental parameter may include: under the condition that a second environmental parameter in the current environmental parameters deviates from a second standard healthy environmental parameter, obtaining a corresponding second abnormal health state when the second environmental parameter continuously deviates from the second standard healthy environmental parameter according to the original direction or when the second environmental parameter is maintained unchanged; wherein the second abnormal health state is one of preset abnormal health states; obtaining a second health state parameter corresponding to the second health abnormal state from the current health state parameters; wherein the second health state parameter is a factor capable of promoting or inhibiting the occurrence of a second health abnormal state; taking the second abnormal health state as a future health state when the second health state parameter deviates from the third standard health state parameter and does not deviate from the fourth standard health state parameter; the second standard health environment parameter and the second health state parameter have a corresponding relation, and the second health state parameter represents a health normal state under the condition that the second health state parameter does not deviate from the fourth standard health state parameter.

The second environmental parameter does not deviate from the second standard healthy environmental parameter, indicating that the current user's habit of using the air conditioner is healthier.

The level of the second environmental parameter is capable of promoting or inhibiting the occurrence of the second abnormal health condition.

For example, if the second abnormal health condition is a cold condition and the second environmental parameter is temperature, a lower environmental temperature is more likely to cause the cold condition to occur, and a higher environmental temperature is less likely to cause the cold condition to occur;

if the second abnormal health state is a water shortage state and the second environmental parameter is humidity, the water shortage state is easy to occur due to lower environmental humidity, and the water shortage state can be restrained from occurring due to higher environmental state.

The water-deficient state in the embodiments of the present application includes, but is not limited to, a skin dry state and a respiratory tract dry state.

The second environmental parameter deviates from the second standard health environmental parameter, which indicates that the second environmental parameter has a promoting effect on the occurrence of the second abnormal health state; the second environmental parameter not deviating from the second standard health environmental parameter indicates that the second environmental parameter is capable of suppressing or not affecting the second health anomaly condition.

If the second environmental parameter is smaller than the lower limit value of the second standard healthy environmental parameter or the second environmental parameter is larger than the upper limit value of the second standard healthy environmental parameter, the second environmental parameter deviates from the second standard healthy environmental parameter;

If the second environmental parameter is greater than the second standard healthy environmental parameter, indicating that the second environmental parameter deviates from the second standard healthy environmental parameter;

and if the second environmental parameter is smaller than the second standard health environmental parameter under the condition that the standard health state parameter is the parameter lower limit value, the second environmental parameter is deviated from the second standard health environmental parameter.

The second standard health environment parameter in the embodiments of the present application may be obtained through medical big data, or clinical experience, etc. For example, where the standard health environment parameter represents temperature, the second standard health environment parameter may be 20 ℃, 21 ℃, 22 ℃, or 23 ℃, although the second standard environment parameter may also be suitably increased where the user's low temperature resistance is poor. The above listed temperature scenarios are only exemplary, and in specific cases, a person skilled in the art may determine the second standard health environment parameters according to the actual situation based on medical big data, or clinical experience, etc.

The third standard health state parameter is higher in severity than the fourth standard health state parameter.

Specifically, when the standard health state parameter is a parameter range, the parameter range corresponding to the fourth standard health state parameter includes a parameter range corresponding to the third standard health state parameter.

And if the second health state parameter is smaller than the lower limit value of the third standard health state parameter or the fourth standard health state parameter, or the second health state parameter is larger than the upper limit value of the third standard health state parameter or the fourth standard health state parameter, the second health state parameter is deviated from the third standard health state parameter or the fourth standard health state parameter.

In the case where the standard health state parameter represents the parameter upper limit value, the third standard health state parameter is smaller than the fourth standard health state parameter.

If the second health state parameter is greater than the third standard health state parameter or the fourth standard health state parameter, it is indicated that the second health state parameter deviates from the third standard health state parameter or the fourth standard health state parameter.

In the case where the standard health state parameter represents the parameter lower limit value, the third standard health state parameter is greater than the fourth standard health state parameter.

If the second health state parameter is less than the third standard health state parameter or the fourth standard health state parameter, it is indicated that the second health state parameter deviates from the third standard health state parameter or the fourth standard health state parameter.

The third standard health state parameter and the fourth standard health state parameter in the embodiment of the present application may be obtained through medical big data, or clinical experience, for example, when the third standard health state parameter and the fourth standard health state parameter are heart rates, the fourth standard health state is greater than the third standard health state, and if the heart rate is continuously maintained at a higher level in a resting state, that is, the current heart rate is continuously greater than the fourth standard health state, it may be determined that the patient is in a fever state at this time, or other health abnormal states in medicine.

The above listed heart rate scenarios are only exemplary, and in specific cases, the person skilled in the art may determine the third standard health state parameter and the fourth standard health state parameter according to the actual situation based on medical big data, or clinical experience, etc.

The higher the degree of deviation of the second health state parameter from the third standard health state parameter, the less the adverse effect on physical health the environment created by the second standard health environment parameter has.

The degree of deviation of the second health state parameter from the third standard health state parameter may be represented by a difference between the second health state parameter and the third standard health state parameter.

Specifically, if the third standard health state parameter is within the parameter range, if the second health state parameter is greater than the upper limit value of the third standard health state parameter, the difference between the second health state parameter and the upper limit value of the third standard health state parameter may be used to represent the deviation degree of the second health state parameter from the third standard health state parameter; if the second health state parameter is smaller than the lower limit value of the third standard health state parameter, the deviation degree of the second health state parameter from the third standard health state parameter can be represented by the difference value between the second health state parameter and the lower limit value of the third standard health state parameter.

When the third standard health state parameter is the parameter upper limit value or the parameter lower limit value, the deviation degree of the second health state parameter from the third standard health state parameter can be directly represented by the difference value between the second health state parameter and the third standard health state parameter.

The person skilled in the art can determine the degree of adverse effect on the physical health of the environment created by the second standard health environment parameters according to life experience, medical big data or clinical experience, etc.

For example, where the standard health environment parameter represents temperature, it may be considered that 20 ℃ has a degree of adverse effect on physical health that is greater than the degree of adverse effect on physical health of 22 ℃.

And S104, if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state.

Wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

Even if the current health state parameter indicates a health normal state, if the current health state parameter is combined with the current environment parameter, a preset health abnormal state is easily caused, and the preset health abnormal state is displayed. That is, the current health state parameter and the current environment parameter are integrated to form a result of presetting abnormal health state, and the effect of attracting the attention of the user is realized by the abnormal health state.

In such an overall step, the current user's current health state parameter obtaining process uses the corresponding detecting instrument, and the current environment parameter obtaining process also uses the corresponding detecting instrument, so that the health abnormal state is more likely to attract the attention of the user compared with the single health state parameter and the single environment parameter, and in this way, the use rate of the detecting instrument in the smart home is improved.

So also can remind the bad life habit of user, impel the user to improve life habit to a certain extent to cultivate better life habit.

The following is an exemplary description of a process of displaying a preset health abnormal state corresponding to a future health state.

Optionally, displaying a preset health abnormal state corresponding to the future health state includes: obtaining a basic character image; obtaining the overall action of the person corresponding to the abnormal health state, and/or the limb action of the person, and/or the color of the local surface of the person; the basic character image is enabled to act according to the overall action of the character, and/or the character limb action is enabled to act, and/or the basic character image is enabled to be displayed according to the color of the local surface of the character.

The basic character image is an essential character for showing abnormal health state, and can be used as an image of an intelligent assistant (such as a voice assistant) in the existing APP.

The abnormal health state may be displayed by the overall action of the character, for example, in case that the preset abnormal health state is a cold state, it may be represented by the overall action of the basic character which is sneezed continuously, or by the overall action of the basic character with a quilt covered on the body and a towel applied on the forehead.

The abnormal state of health may be exhibited by a character limb movement, for example, a water shortage state may be represented by a water drinking movement.

The abnormal state of health may be exhibited by the color of the local surface of the person, for example, the water deficit state may be represented by the grey skin of the person.

The above-listed specific presentation of the basic character is merely illustrative, and those skilled in the art can set the specific presentation of the basic character according to their own experience to meet the public's aesthetic.

Of course, in the case that the future health status is healthy normal status, it may also be shown by specific actions of the basic character image.

In the embodiment of the application, the preset health abnormal state is displayed by adopting the character image so as to improve the visual experience of the user.

In addition, the basic character image may be obtained by: obtaining basic characteristic information of the current user, wherein the basic characteristic information comprises one or more of height, weight, gender and age; and obtaining the basic character image corresponding to the basic feature information according to the corresponding relation between the feature information and the character information.

Basic characteristic information such as height, weight, gender, age and the like can be manually input by a user through the mobile terminal.

The basic feature information may be stored in the mobile terminal, or the basic feature information may be stored in a controller inside the air conditioner, or the basic feature information may exist in a server. And reading at the corresponding storage position to obtain the basic characteristic information.

The person skilled in the art can set a suitable correspondence between the characteristic information and the character information according to the actual situation. In order to provide a personalized experience for the user.

Fig. 2 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 2, the air conditioner display method based on the health status includes:

s201, obtaining the current sleep quality of the current user.

The current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration.

S202, obtaining the current temperature.

S203, taking the cold state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current temperature is lower than the standard health temperature.

The cold state is one of a plurality of preset abnormal health states, and the standard health temperature has a corresponding relation with the current sleep quality.

S204, displaying the cold state.

Fig. 3 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 3, the air conditioner display method based on the health status includes:

s301, obtaining the current sleep quality of the current user.

The current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration.

S302, obtaining the current humidity.

S303, taking the water shortage state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current humidity is lower than the first standard health humidity.

The water shortage state is one of a plurality of preset health abnormal states, and the first standard health humidity has a corresponding relation with the current sleep quality.

S304, displaying the water shortage state.

Fig. 4 is a flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 4, the air conditioner display method based on the health status includes:

s401, obtaining the current sleep quality of the current user.

The current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration.

S402, obtaining the current wind speed and the current humidity.

S403, taking the water shortage state as the future health state under the condition that the current sleep quality does not accord with the standard sleep quality, the current wind speed is lower than the standard health wind speed, and the current humidity is lower than the second standard health humidity.

The water shortage state is one of a plurality of preset health abnormal states, and the standard health wind speed and the second standard health humidity have corresponding relations with the current sleep quality.

S404, displaying the water shortage state.

Fig. 5 is a schematic flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 5, the air conditioner display method based on the health status includes:

s501, obtaining current health state parameters of a current user.

The health state parameter is a parameter capable of reflecting the health state of the user.

S502, obtaining current environment parameters.

Wherein the environmental parameters include one or more of temperature, wind speed, and humidity.

S503, under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter.

S504, if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state.

Wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

S505, displaying a preset healthy normal state corresponding to the future healthy state under the condition that the future healthy state does not belong to a plurality of preset healthy abnormal states.

Fig. 6 is a flow chart of an air conditioner display method based on a health state according to an embodiment of the present application. The air conditioner display method based on the health state can be executed in a processor of an air conditioner, displayed in a display device on an air conditioner panel, or executed in a mobile terminal and displayed in a display device of the mobile terminal, for example, executed and displayed in a Haer intelligent home APP, or executed by a server and displayed by a display device of an air conditioner panel or an air conditioner control terminal in an intelligent home system.

Referring to fig. 6, the air conditioner display method based on the health status includes:

s601, obtaining current health state parameters of a current user.

The health state parameter is a parameter capable of reflecting the health state of the user.

S602, obtaining current environment parameters.

Wherein the environmental parameters include one or more of temperature, wind speed, and humidity.

S603, under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter.

S604, if the future health status is one of a plurality of preset health abnormal statuses, displaying the preset health abnormal status corresponding to the future health status.

Wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

S605, displaying the current health state parameters.

The current health status parameters may be presented in the form of character figures.

For example, in the case of poor sleep quality, the skin around the eyes of the person may be adjusted to black, and the poor sleep quality represented by the current health state parameter is shown by the appearance of a black eye.

Or, the current health state parameter comprises one or more of average heart rate, average blood pressure and average respiratory frequency in a set time before the current time, if one or more of average heart rate, average blood pressure and average respiratory frequency is lower than a corresponding preset value, the current health state parameter is displayed in a figure without eyes, and the condition that the eyes of the user are flat and full of spirit at the moment is indicated; if one or more of the average heart rate, the average blood pressure and the average respiratory rate is greater than or equal to the corresponding preset value, the person with bright eyes is displayed, and the state of mind of the user is full at the moment.

The above-mentioned eye-matt and eye-bright states are used to represent the mental fullness and emotional aggressiveness, and those skilled in the art can, based on their own experience, make the overall impression of a non-wonderful character as an eye-matt character, and make the overall impression of a full-spiritual, positive character as an eye-bright character.

S606, displaying the current environment parameters.

The above steps of displaying the abnormal health state, displaying the current health state parameter and displaying the current environmental parameter are only used for illustration, and in the specific application process, the skilled person can determine the sequence of the three steps according to experience or personal preference.

The current environmental parameters may be presented in the form of character images.

The current environmental parameters can include current air quality, and the current air quality is poor under the condition of poor current control quality, the current air quality can be indicated by wearing the image of the mask.

Fig. 7 is a schematic device diagram of an air conditioner display device based on a health status according to an embodiment of the present application. The health-based air conditioner display device may be implemented in the form of software, hardware or a combination of both.

As shown in fig. 7, the health status-based air conditioner display device includes a first obtaining module 71, a second obtaining module 72, a determining module 73, and a first displaying module 74.

The first obtaining module 71 is configured to obtain a current health status parameter of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

the second obtaining module 72 is configured to obtain a current environmental parameter; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

the determining module 73 is configured to determine, when the current health status parameter indicates a healthy normal status, a future health status corresponding to the current health status parameter and the current environmental parameter according to a preset correspondence among the health status parameter, the environmental parameter, and the future health status;

the first display module 74 is configured to display a preset abnormal health state corresponding to the future health state if the future health state is one of a plurality of preset abnormal health states; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

Optionally, the first display module 74 includes a first obtaining unit, a second obtaining unit, and a first display unit;

the first obtaining unit is used for obtaining the basic figure image;

The second obtaining unit is used for obtaining the overall actions of the person corresponding to the abnormal health state and/or the limb actions of the person and/or the color of the local surface of the person;

the first display unit is used for enabling the basic character to act according to the whole character and/or enabling the character limbs to act and/or enabling the basic character to be displayed according to the color of the local surface of the character.

Optionally, the first obtaining unit is specifically configured to obtain basic feature information of the current user, where the basic feature information includes one or more of height, weight, gender, and age; and obtaining the basic character image corresponding to the basic feature information according to the corresponding relation between the feature information and the character information.

Alternatively, the determination module 73 includes a third obtaining unit, a fourth obtaining unit, and a first determination unit.

The third obtaining unit is used for obtaining a first abnormal health state corresponding to the first health state parameter when the first health state parameter continuously deviates from the first standard health state parameter according to the original direction until the first health state parameter deviates from the second standard health state parameter under the condition that the first health state parameter in the current health state parameters deviates from the first standard health state parameter and does not deviate from the second standard health state parameter; the first health abnormal state is one of preset health abnormal states, and the first health state parameter represents a health normal state under the condition that the first health state parameter does not deviate from the second standard health state parameter;

The fourth obtaining unit is used for obtaining a first environment parameter corresponding to the first health abnormal state from the current environment parameters; wherein the first environmental parameter is a factor capable of promoting or inhibiting the occurrence of a first health abnormal state;

the first determining unit is used for taking the first health abnormal state as a future health state under the condition that the first environment parameter deviates from the first standard health environment parameter; the first standard health environment parameter and the first health state parameter have a corresponding relation.

Optionally, the determining module 73 includes a fifth obtaining unit, a sixth obtaining unit, and a second determining unit;

the fifth obtaining unit is configured to obtain, when a second environmental parameter in the current environmental parameters deviates from the second standard healthy environmental parameter, a corresponding second abnormal health state when the second environmental parameter continues to deviate from the second standard healthy environmental parameter according to the original direction, or when the second environmental parameter remains unchanged; wherein the second abnormal health state is one of preset abnormal health states;

the sixth obtaining unit is used for obtaining a second health state parameter corresponding to the second health abnormal state from the current health state parameters; wherein the second health state parameter is a factor capable of promoting or inhibiting the occurrence of a second health abnormal state;

The second determining unit is used for taking the second abnormal health state as a future health state under the condition that the second health state parameter deviates from the third standard health state parameter and does not deviate from the fourth standard health state parameter; the second standard health environment parameter and the second health state parameter have a corresponding relation, and the second health state parameter represents a health normal state under the condition that the second health state parameter does not deviate from the fourth standard health state parameter.

Optionally, the first obtaining module 71 includes a seventh obtaining unit; the seventh obtaining unit is configured to obtain a current sleep quality of the current user, where the current sleep quality is a sleep quality reflected in a sleep process performed before the current time, the sleep quality is positively related to a deep sleep duration, and the sleep quality is negatively related to a duration difference between an actual sleep duration and a healthy sleep duration.

Alternatively, the second obtaining unit 72 includes an eighth obtaining unit; the eighth obtaining unit is used for obtaining the current temperature; alternatively, the current humidity is obtained; or, obtaining the current wind speed and the current humidity;

the determination module 73 includes a third determination unit, a fourth determination unit, or a fifth determination unit.

The third determining unit is used for taking the cold state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current temperature is lower than the standard health temperature; the cold state is one of a plurality of preset abnormal health states, and the standard health temperature has a corresponding relation with the current sleep quality;

the fourth determining unit is used for taking the water shortage state as the future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current humidity is lower than the first standard health humidity; the water shortage state is one of a plurality of preset health abnormal states, and the first standard health humidity has a corresponding relation with the current sleep quality;

the fifth determining unit is used for taking the water shortage state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality, the current wind speed is lower than the standard health wind speed, and the current humidity is lower than the second standard health humidity; the water shortage state is one of a plurality of preset health abnormal states, and the standard health wind speed and the second standard health humidity have corresponding relations with the current sleep quality.

Optionally, the health status-based air conditioner display device further comprises a second display module and a third display module.

The second display module is used for displaying the current health state parameters;

the third display module is used for displaying the current environment parameters.

Optionally, the current health state parameter includes one or more of average heart rate, average blood pressure, average respiratory rate within a set period of time before the current time.

Optionally, the second display module includes a second display unit and a third display unit.

The second display unit is used for displaying the person image with no eyes if one or more of the average heart rate, the average blood pressure and the average respiratory rate are lower than the corresponding preset value;

the third display unit is used for displaying the person with bright eyes if one or more of the average heart rate, the average blood pressure and the average respiratory rate is greater than or equal to the corresponding preset value.

In some embodiments, a health status-based air conditioner display device includes a processor and a memory storing program instructions, the processor being configured to execute the health status-based air conditioner display method provided by the foregoing embodiments when executing the program instructions.

Fig. 8 is a schematic diagram of an air conditioner display device based on a health state according to an embodiment of the present application. As shown in fig. 8, the health status-based air conditioner display device includes:

A processor (processor) 81 and a memory (memory) 82, and may also include a communication interface (Communication Interface) 83 and a bus 84. The processor 81, the communication interface 83, and the memory 82 may communicate with each other via the bus 84. The communication interface 83 may be used for information transfer. The processor 81 may call up logic instructions in the memory 82 to perform the health status based air conditioner display method provided by the foregoing embodiment.

Further, the logic instructions in the memory 82 described above may be implemented in the form of software functional units and stored in a computer readable storage medium when sold or used as a stand alone product.

The memory 82 is used as a computer readable storage medium for storing a software program, a computer executable program, and program instructions/modules corresponding to the methods in the embodiments of the present application. The processor 81 executes functional applications and data processing by running software programs, instructions and modules stored in the memory 82, i.e. implements the methods of the method embodiments described above.

The memory 82 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, at least one application program required for a function; the storage data area may store data created according to the use of the terminal device, etc. In addition, the memory 82 may include high-speed random access memory, and may also include nonvolatile memory.

Fig. 9 is a schematic diagram of an intelligent air conditioner provided in an embodiment of the present application.

As shown in fig. 9, the intelligent air conditioner 91 includes the health-based air conditioner display device 92 provided in the foregoing embodiment.

The embodiment of the application provides a computer readable storage medium, which stores computer executable instructions, wherein the computer executable instructions are configured to:

obtaining current health state parameters of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

obtaining current environmental parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter;

if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

The present embodiments provide a computer program product comprising a computer program stored on a computer readable storage medium, the computer program comprising program instructions which, when executed by a computer, cause the computer to perform the steps of:

Obtaining current health state parameters of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

obtaining current environmental parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter;

if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

The computer readable storage medium may be a transitory computer readable storage medium or a non-transitory computer readable storage medium.

The technical solutions of the embodiments of the present application may be embodied in the form of a software product, where the software product is stored in a storage medium, and includes one or more instructions to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods of the embodiments of the present application. And the aforementioned storage medium may be a non-transitory storage medium including: a plurality of media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or a transitory storage medium.

The above description and the drawings illustrate embodiments of the present application sufficiently to enable those skilled in the art to practice them. Other embodiments may involve structural, logical, electrical, process, and other changes. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. Moreover, the terminology used in the present application is for the purpose of describing embodiments only and is not intended to limit the claims. As used in the description of the embodiments and the claims, the singular forms "a," "an," and "the" (the) are intended to include the plural forms as well, unless the context clearly indicates otherwise. Furthermore, when used in this application, the terms "comprises," "comprising," and/or "includes," and variations thereof, mean that the stated features, integers, steps, operations, elements, and/or components are present, but that the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof is not precluded. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method or apparatus comprising such elements. In this context, each embodiment may be described with emphasis on the differences from the other embodiments, and the same similar parts between the various embodiments may be referred to each other. For the methods, products, etc. disclosed in the embodiments, if they correspond to the method sections disclosed in the embodiments, the description of the method sections may be referred to for relevance.

Those of skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. The skilled person may use different methods for each particular application to achieve the described functionality, but such implementation should not be considered to be beyond the scope of the embodiments of the present application. It will be clearly understood by those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, which are not described herein again.

In the embodiments disclosed herein, the disclosed methods, articles of manufacture (including but not limited to devices, apparatuses, etc.) may be practiced in other ways. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of elements may be merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple elements or components may be combined or integrated into another system, or some features may be omitted or not performed. In addition, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interface, device or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form. The elements illustrated as separate elements may or may not be physically separate, and elements shown as elements may or may not be physically located, or may be distributed over a plurality of network elements. Some or all of the units may be selected according to actual needs to implement the present embodiment. In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). In some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. Each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

Claims (10)

1. An air conditioner display method based on health status is characterized by comprising the following steps:

obtaining current health state parameters of a current user; the health state parameters are parameters capable of reflecting the health state of the user;

Obtaining current environmental parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

under the condition that the current health state parameter represents a health normal state, determining a future health state according to the current health state parameter and the current environment parameter;

if the future health state is one of a plurality of preset health abnormal states, displaying the preset health abnormal state corresponding to the future health state; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

2. The air conditioner display method according to claim 1, wherein displaying the preset abnormal health state corresponding to the future health state includes:

obtaining a basic character image;

obtaining the overall action of the person corresponding to the abnormal health state, and/or the limb action of the person, and/or the color of the local surface of the person;

the basic character image is enabled to act according to the overall action of the character, and/or the character limb action is enabled to act, and/or the basic character image is enabled to be displayed according to the color of the local surface of the character.

3. The air conditioner display method according to claim 2, wherein obtaining the basic character image comprises:

obtaining basic characteristic information of the current user, wherein the basic characteristic information comprises one or more of height, weight, gender and age;

And obtaining the basic character image corresponding to the basic feature information according to the corresponding relation between the feature information and the character information.

4. The air conditioner display method according to claim 1, wherein determining the future health from the current health parameter and the current environment parameter comprises:

under the condition that a first health state parameter in the current health state parameters deviates from a first standard health state parameter and does not deviate from a second standard health state parameter, obtaining a corresponding first health abnormal state when the first health state parameter continuously deviates from the first standard health state parameter according to the original direction until the first health state parameter deviates from the second standard health state parameter; the first health abnormal state is one of preset health abnormal states, and the first health state parameter represents a health normal state under the condition that the first health state parameter does not deviate from the second standard health state parameter; acquiring a first environment parameter corresponding to a first health abnormal state from the current environment parameters; wherein the first environmental parameter is a factor capable of promoting or inhibiting the occurrence of a first health abnormal state; taking the first health abnormal state as a future health state in the case that the first environment parameter deviates from the first standard health environment parameter; wherein the first standard health environment parameter and the first health state parameter have a corresponding relation;

Or,

under the condition that a second environmental parameter in the current environmental parameters deviates from a second standard healthy environmental parameter, obtaining a corresponding second abnormal health state when the second environmental parameter continuously deviates from the second standard healthy environmental parameter according to the original direction or when the second environmental parameter is maintained unchanged; wherein the second abnormal health state is one of preset abnormal health states; obtaining a second health state parameter corresponding to the second health abnormal state from the current health state parameters; the second health state parameter is a factor capable of promoting or inhibiting the occurrence of a second health abnormal state; taking the second abnormal health state as a future health state when the second health state parameter deviates from the third standard health state parameter and does not deviate from the fourth standard health state parameter; the second standard health environment parameter and the second health state parameter have a corresponding relation, and the second health state parameter represents a health normal state under the condition that the second health state parameter does not deviate from the fourth standard health state parameter.

5. The air conditioner display method according to claim 4, wherein,

obtaining current health status parameters of the current user includes: obtaining the current sleep quality of a current user, wherein the current sleep quality is the sleep quality reflected in the sleep process performed before the current moment, the sleep quality is positively correlated with the deep sleep duration, and the sleep quality is negatively correlated with the duration difference between the actual sleep duration and the healthy sleep duration;

Obtaining current environmental parameters, including: obtaining the current temperature; alternatively, the current humidity is obtained; or, obtaining the current wind speed and the current humidity;

determining a future health from the current health parameter and the current environmental parameter, comprising:

taking the cold state as a future health state under the condition that the current sleep quality does not accord with the standard sleep quality and the current temperature is lower than the standard health temperature; the cold state is one of a plurality of preset abnormal health states, and the standard health temperature has a corresponding relation with the current sleep quality;

or,

under the condition that the current sleep quality does not accord with the standard sleep quality and the current humidity is lower than the first standard healthy humidity, taking the water-deficient state as a future healthy state; the water shortage state is one of a plurality of preset health abnormal states, and the first standard health humidity has a corresponding relation with the current sleep quality;

or,

when the current sleep quality does not accord with the standard sleep quality, the current wind speed is lower than the standard healthy wind speed, and the current humidity is lower than the second standard healthy humidity, taking the water shortage state as the future healthy state; the water shortage state is one of a plurality of preset health abnormal states, and the standard health wind speed and the second standard health humidity have corresponding relations with the current sleep quality.

6. The air conditioner display method according to any one of claims 1 to 5, further comprising:

displaying the current health state parameters;

the current environmental parameters are shown.

7. The air conditioner display method of claim 6, wherein displaying the current health state parameter comprises:

if one or more of the average heart rate, the average blood pressure and the average respiratory rate is lower than the corresponding preset value, displaying the character image without eyes;

if one or more of the average heart rate, the average blood pressure and the average respiratory rate is greater than or equal to the corresponding preset value, displaying the person with bright eyes;

the current health state parameters include one or more of average heart rate, average blood pressure, average respiratory rate for a set period of time prior to the current time.

8. An air conditioner display device based on a health state, comprising:

the first obtaining module is used for obtaining the current health state parameters of the current user; the health state parameters are parameters capable of reflecting the health state of the user;

the second obtaining module is used for obtaining the current environment parameters; wherein the environmental parameters include one or more of temperature, wind speed, and humidity;

The determining module is used for determining the future health state corresponding to the current health state parameter and the current environment parameter according to the preset corresponding relation among the health state parameter, the environment parameter and the future health state under the condition that the current health state parameter represents the health normal state;

the first display module is used for displaying the preset abnormal health state corresponding to the future health state if the future health state is one of a plurality of preset abnormal health states; wherein, the influence factors of the preset health abnormal state comprise environmental parameters.

9. A health status based air conditioner display device comprising a processor and a memory storing program instructions, wherein the processor is configured to perform the health status based air conditioner display method of any one of claims 1 to 7 when executing the program instructions.

10. An intelligent air conditioner, characterized by comprising the health-based air conditioner display device according to claim 8 or 9.