Disclosure of Invention
The invention aims to provide a method for automatically adjusting user setting parameters of home appliances, which can automatically adjust the user setting parameters according to the use habits of different users, simplify the user operation and improve the user experience.
In order to achieve the above purpose, the invention adopts the following technical scheme: a method for automatically adjusting user setting parameters of a household appliance, comprising the following steps: identifying and recording the user identity of the current household appliance, reading the user identity record stored in the system for comparison, judging whether the user of the current household appliance is a new user, if so, recording the user setting parameters set by the current user on the household appliance, and if not, adjusting the user setting parameters of the current household appliance according to the user setting parameters set by the current user when the current user uses the household appliance in the past.
Preferably, the user setting parameters include function program parameters for user selection adjustment.
As a further preferable scheme, the household appliance is a washing machine, the washing machine recognizes that the user currently using the washing machine is not a new user, and the washing machine automatically selects the energy-saving program when the user currently using the washing machine uses the washing machine in the past; or the household appliance is a warm water toilet seat, the warm water toilet seat recognizes that the user currently using the warm water toilet seat is not a new user, the user currently using the warm water toilet seat selects a low-temperature cushion program when using the warm water toilet seat in the past, and the warm water toilet seat automatically selects the low-temperature cushion program.
Preferably, the user setting parameters include output effect parameters fed back to the user.
As a further preferred aspect, the output effect parameters include a color, shape and/or size of the display information.
As a further preferable scheme, the output effect parameters comprise the volume of the prompting sound and/or the prompting time length.
Preferably, the new user is defined as using the current household appliance for the first time or using the current household appliance for a period of time for no more than N times, wherein N is a positive integer.
As a further preferable scheme, the household appliance identifies the current user through a camera device or a voice device or a fingerprint device or an intelligent terminal APP.
As a preferred scheme, the home appliances include at least two kinds of internet of things home appliances, the system is a cloud system, all the internet of things home appliances are communicated with the cloud system, the current user of the internet of things home appliances is judged not to be a new user by the user, and the user setting parameters of the current internet of things home appliances are adjusted according to the user setting parameters set by the current user when using other internet of things home appliances.
As a further preferable scheme, the household appliance comprises a washing machine with the internet of things function and an air conditioner, a user currently uses the washing machine, and the washing machine automatically selects an energy-saving program according to the energy-saving program selected by the user when the user uses the air conditioner; or the household appliance comprises a washing machine with the internet of things function and a sweeping robot, the sweeping robot is used by a user currently, and the sweeping robot automatically selects a mute program according to the mute program selected by the user when the washing machine is used by the user currently.
After the technical scheme is adopted, the invention has the following advantages: judging whether the current user is a new user or not by identifying the identity of the current user, if so, recording the user setting parameters of the current user, and reading the user setting parameters in the process of using the household appliance in the future by the user to simplify the operation process of the user, if not, recommending the user setting parameters stored by the system to the old user by using the user setting parameters stored by the system, wherein the old user can directly select the previous setting by one key, thereby simplifying the setting operation of the old user in the process of using the household appliance, reducing the operation steps of the old user, enabling the household appliance to be more intelligent for the old user, and improving the use experience of the user; and different users have the user setting parameters matched with each other, so that the individuation degree is high, the mutual influence is avoided, and the use experience of most users can be improved.
Detailed Description
The invention provides a method for automatically adjusting user setting parameters of household appliances, which is shown in fig. 1 and comprises the following steps: identifying and recording the user identity of the current household appliance, reading the user identity record stored in the system for comparison, judging whether the user of the current household appliance is a new user, if so, recording the user setting parameters set by the current user on the household appliance, and if not, adjusting the user setting parameters of the current household appliance according to the user setting parameters set by the current user when the current user uses the household appliance in the past. The invention judges whether the current user is a new user or not by identifying the identity of the current user, if so, the user setting parameters of the current user are recorded and can be read in the process of using the household appliance in the future by the user to simplify the operation process of the user, if not, the user setting parameters stored in the system are used for recommending the old user or automatically selecting the past setting of the user, thereby simplifying the setting operation of the old user in the process of using the household appliance, reducing the operation steps of the old user, leading the household appliance to be more intelligent for the old user and improving the use experience of the user; and different users have the user setting parameters matched with each other, so that the individuation degree is high, the mutual influence is avoided, and the use experience of most users can be improved.
The definition of the new user is that the current household appliance is used for the first time or used for not more than N times in a period of time, N is a positive integer, for example, the current household appliance is used for not more than 2 times in one month and can be regarded as the new user, otherwise, the new user is the old user, and the new user can be changed according to actual requirements.
The user setting parameters mentioned in the present invention refer to the running parameters of the household appliances that require the user to participate in setting, including the parameters of the function program for the user to select and adjust. And to different appliances, the corresponding functional program parameters may be different. For example, there are energy saving program, warm water washing program, sterilizing program, etc. in the washing machine, so the user likes to use the energy saving program, so the energy saving program can be selected many times in the previous using process of the washing machine, after the washing machine identifies the user who uses the washing machine currently, the energy saving program can be automatically selected according to the experience data of selecting the energy saving program when the user uses the washing machine in the past, thus the operation steps needed by the user each time can be simplified. In order to make the washing machine judge whether the user prefers the energy-saving program, the washing machine can judge according to the past experience data of the user for selecting the energy-saving program once or twice or more, and the specific times can be designed by manufacturers or set by the user independently. For example, the household appliance is a warm water toilet seat, the warm water toilet seat recognizes that the user currently using the warm water toilet seat is not a new user, and when the user currently using the warm water toilet seat uses the warm water toilet seat in the past, the warm water toilet seat automatically selects the low-temperature cushion program. For example, the home appliance is an air conditioner, the air conditioner recognizes that the user currently using the air conditioner is not a new user, and when the user currently using the air conditioner uses the air conditioner, the user selects a mute program and selects a 27 ℃ cooling mode, and the air conditioner automatically selects the mute program and selects the 27 ℃ cooling mode. In short, the household appliance recognizes the current user, judges the habitual requirement of the current user according to the experience data, if the current user wants to change the program, the current user can change the program at any time, and if the current user changes and selects another program for a plurality of times, for example, the washing program of the washing machine is changed into a powerful washing program for a plurality of times, the experience data of the user for selecting the energy-saving program in the past can be covered, so that the washing machine can adapt to the habitual change of the user.
In addition to the function program parameters, the user set parameters include output effect parameters that are fed back to the user, such as the color, shape, and/or size of the display information that the appliance feeds back to the user. The household appliance adopting the liquid crystal display screen can provide different themes about the display interface, and can generate personalized themes aiming at different themes of male users and female users, and the color, the shape and/or the size of the user self-defined display information can also be generated by the user, and the household appliance can automatically select the personalized themes self-defined by the user after identifying the user. For example, the old or near-sighted user needs to display larger fonts and more obvious colors, the home appliance recognizes the users, and the users can automatically select the larger fonts and the more obvious colors according to the past setting conditions of the users, so that the users can see the display information of the home appliance clearly.
Some users may set the volume and/or duration of the prompt sound required for the home appliance. For example, after the washing machine finishes washing work, the user can be reminded through the buzzer, some users feel that the sound is too light or loud and can be adjusted, if the current user adjusts the sound volume of the buzzer to a certain value in the past, the washing machine can automatically adjust the sound volume to the value set in the past by the user after identifying the user. For example, some users feel that the prompting time of the prompting sound of the buzzer is too short or too long, and the prompting time can be adjusted, so that the washing machine can automatically adjust the prompting time after identifying the users.
How to recognize the user in the household can be performed by adopting various existing modes, such as a camera device, a voice device, a fingerprint device or an intelligent terminal APP.
In addition to the control of a single home appliance by the method, the control method can also be realized among a plurality of home appliances.
As shown in fig. 2, the home appliances include an internet of things home appliance 1 and an internet of things home appliance 2, the system is a cloud system, all the internet of things home appliances are in communication with the cloud system, the internet of things home appliance 1 currently used by a user judges that the current user is not a new user, and the user setting parameters of the current internet of things home appliance are adjusted according to the user setting parameters set by the current user when using the internet of things home appliance 2. The internet of things home appliance 1 and the internet of things home appliance 2 can upload user setting parameters adjusted in the use process of a user to the cloud system.
For example, the home appliance includes a washing machine having an internet of things function and an air conditioner, a user currently uses the washing machine, selects an energy saving program according to the current user when using the air conditioner, and the washing machine recognizes the current user and automatically selects the energy saving program according to experience data. For another example, the home appliance includes a washing machine having an internet of things function and a sweeping robot, a user currently uses the sweeping robot, selects a mute program according to the current user when using the washing machine, and the sweeping robot recognizes the current user and automatically selects the mute program according to experience data. For example, after the setting of the volume, the prompting time length and the like of the prompting sound of the washing machine is mentioned, and the internet of things technology is adopted, the electric cooker with the internet of things function can automatically adjust the volume, the prompting time length and the like of the prompting sound of the buzzer according to the experience data of the current user of the washing machine with the internet of things function.
Besides the mutual utilization of the experience data of the user setting parameters between two household appliances, the method can also be realized in more household appliances. For example, when a current user uses the washing machine, the energy-saving program is often selected, the lamp with the internet of things function can be automatically adjusted to an energy-saving state by using the experience data, the air conditioner with the internet of things function can be automatically adjusted to an energy-saving state by using the experience data, the refrigerator with the internet of things function can also be automatically adjusted to an energy-saving state by using the experience data, and the like.
In addition to the above preferred embodiments, the present invention has other embodiments, and various changes and modifications may be made by those skilled in the art without departing from the spirit of the invention, which shall fall within the scope of the invention as defined in the appended claims.