Disclosure of Invention
The invention provides an intelligent humidifier, which is used for solving the problems that the existing humidifier is only used as a general product, customized humidification is not performed aiming at consumers, and the user experience degree is not high. The intelligent humidifier provided by the invention is used for customizing a humidifying mode for a consumer so as to better improve the comfort degree of the consumer.
The intelligent humidifier comprises a humidity sensor, a control module, a humidity detection module, a storage module, a learning module and a humidification operation module, wherein the humidity detection module, the storage module, the learning module and the humidification operation module are respectively and electrically connected with the control module, the humidity sensor is in communication connection with the control module, and the humidity sensor comprises:
the learning module learns expected data of a user under the control of the control module through the humidity detection module and a humidity sensor worn by the user, wherein the expected data comprises humidity, wind speed and a working mode which are obtained after the user adjusts the humidifier and are stored through the storage module;
after the user opens the intelligent humidifier, the control module calls expected data learned by the learning module from the storage module and controls the humidification operation module to work according to the expected data and the air humidity detected by the humidity detection module in real time.
The use process at the initial stage of the humidifier is also a learning and training process, and the comfortable experience degree of the air humidity is different due to the difference of individuals of users, so that the humidifier can be customized and humidified according to the users, learns to obtain the humidity, mode, wind speed and the like which are liked or used by the users, and improves the experience degree of the users.
Further, the control module of the intelligent humidifier is communicated with the mobile phone APP, and the switch of the intelligent humidifier is controlled through the mobile phone APP, the working state of the intelligent humidifier is adjusted, or the expected data stored in the storage module is modified according to needs.
But through cell-phone APP remote control humidifier, convenient nimble, the user just can open humidifier work through cell-phone APP before arriving the room, lets the user have comfortable sensation after arriving the room at once.
Further, the learning module learns the user desired data under the control of the control module through the humidity detection module and the humidity sensor worn by the user comprises:
after the intelligent humidifier is opened, the control module receives an adjustment control instruction of the mobile phone APP and outputs the adjustment control instruction to the humidification operation module for corresponding operation;
the learning module learns operation records and operation feedback records of a user under the action of the control module, wherein the operation feedback comprises the environment humidity, the wind speed and the working mode after operation; the environment humidity comprises the environment humidity which is detected by the humidity detection module and changes along with the time, and the environment humidity which is detected by the humidity sensor worn by the user and changes along with the time at the current position of the user;
the learning module obtains the operation habits of the user, and the environmental humidity, the working mode and the wind speed expected by the user in each time period according to the operation records of the user and the learning and training of the feedback records under the action of the control module; and storing through the storage module.
Further, when the user manually operates and adjusts the intelligent humidifier, the learning module corrects the learned operation habits of the user and the environmental humidity, the working mode and the wind speed expected by the user in each time period under the control of the control module according to the control command of the user.
The learned expected data can be corrected along with the operation of the user, and is continuously close to the expected value of the user, so that the experience degree of the user is improved under the condition of no perception.
Further, still include the timing module, the timing module is connected with the control module electricity, wherein:
the timing module performs timing according to a timing operation instruction of a user under the control of the control module, so that the control module performs corresponding operation after the specified time is reached.
Through the timing control, the user is relieved of worry and labor, and the user does not need to worry about forgetting to turn off the humidifier to cause waste.
Further, the humidifier is in an intelligent mode, the mobile phone APP sends the current position to the control module at regular time, the control module judges whether the mobile phone is in a preset range according to the position information sent by the mobile phone APP, if the position information exceeds the preset range, the timing module starts timing, when the preset time is reached, the control module sends a current position request to the mobile phone APP, judges whether the current position returned by the mobile phone APP still exceeds the preset range, if so, the humidification operation module is controlled to stop working, the intelligent humidifier is in a standby state, and if not, the humidification operation module still works, and the humidity is kept constant.
Whether the user is in the humidification coverage range is judged in a mobile phone positioning mode, the user can stop when walking and start when coming, and energy is saved.
Further, still include the infrared sensor that is connected with the control module electricity, wherein:
the infrared sensor detects whether a person is in a room or not, so that the intelligent humidifier is controlled to start and stop through the control module.
Further, a moving part electrically connected with the control module is further included, wherein:
the control module receives a mobile instruction of the mobile phone APP, and the mobile component moves in a room according to the mobile instruction of the control module.
The humidifier is moved, and the humidity in the room is uniform through the movement in the room, so that the comfort level of a user is improved.
Further, still include the communication module with the control module electricity is connected, wherein:
control module and cell-phone APP intercommunication of intelligence humidifier include:
the control module of intelligence humidifier passes through communication module carries out the communication with cell-phone APP, communication module includes bluetooth module, WIFI module, honeycomb mobile network module, or wherein arbitrary combination.
The wind power generation system further comprises a display module electrically connected with the control module, and the display module is used for displaying the current environment humidity, the working mode and the wind speed.
According to the intelligent humidifier, different user expected data are learned according to different users, individuation and customization of the humidifier are achieved, and user experience is improved. The user desired data can be manually modified by the user or corrected by learning the later operation of the user, so that the user desired data is closer to the humidity and the environment desired by the user. This intelligent humidifier can carry out remote control through cell-phone APP, realizes humidification environment in advance, satisfies people to the requirement of environmental comfort. Finally, the humidifier can also realize the stop of the user when the user walks and saves energy; the humidity of the room price is uniform and comfortable by moving the humidifier; intelligent display, give the user with intuitive experience.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
An embodiment of the invention is shown in fig. 1, and the intelligent humidifier includes a humidity sensor 1, a control module 2, a humidity detection module 3, a storage module 5, a learning module 4, and a humidification operation module 6, wherein the humidity detection module 3, the storage module 5, the learning module 4, and the humidification operation module 6 are respectively electrically connected to the control module 2, the humidity sensor 1 is in communication connection with the control module 2, and wherein:
the learning module 4 learns expected data of a user under the control of the control module 2 through the humidity detection module 3 and the humidity sensor 1 worn by the user, wherein the expected data comprises humidity, wind speed and a working mode which are obtained after the user adjusts the humidifier, and the expected data is stored through the storage module 5;
after the user opens the intelligent humidifier, the control module 2 calls the expected data learned by the learning module 4 from the storage module 5, and controls the humidification operation module 6 to work according to the expected data and the air humidity detected by the humidity detection module 3 in real time.
Specifically, before the user reaches the humidifier, the humidifier can be opened remotely through the mobile phone App, or the user directly opens the humidifier after reaching the humidifier, and then the user adjusts the working state of the humidifier, so that the user can place the humidity sensor 1 at a proper position, for example, hang on the chest like a pendant. The intelligent humidifier needs to be hung with the sensor when being used in the initial learning stage, and the humidity sensor does not need to be worn after the intelligent humidifier is used for a period of time. The user adjusting the humidifier is a dynamic process, for example, the user increases the power and increases the humidity, which indicates that the current humidity is somewhat low, and if the user decreases the power and decreases the humidity, which indicates that the current humidity is high. The humidity detection module 3 on the humidifier can detect the current humidity condition in real time, the sensor worn by the user can also detect the humidity condition sensed by the current user in real time, the humidity change conditions detected by the two are a change process, but finally the humidity of the two is close to that of the current user. The learning module obtains the humidity expected by the user according to the humidity data which changes with time and is detected by the humidity detection module and the humidity sensor worn by the user, and of course, the humidity data expected by the user can also be humidity range data.
When the humidifier is used, the humidifier can work according to a fixed mode, but in a use project, a user can finely adjust the working state through the mobile phone App, so that after the humidifier is repeatedly used for a period of time, the humidifier can learn the humidity, the wind speed and the working mode which are expected by the user. The user experience can be improved.
According to the intelligent humidifier, the individuation and customization of the humidifier are realized according to different user expectation data learned by different users, and the user experience is improved.
Preferably, the control module 2 of the intelligent humidifier is communicated with the mobile phone APP, and the mobile phone APP is used for controlling the switch of the intelligent humidifier, adjusting the working state of the intelligent humidifier or modifying the expected data stored in the storage module 5 according to the requirement.
Through cell-phone APP intelligent control humidifier, realized remote control, for example when the user still does not arrive at home, alright with opening the humidifier through cell-phone APP long-range, when waiting to arrive at home, the humidity in the home has reached a suitable humidity, lets the user feel very comfortable and intelligent. In addition, the learning module can acquire expected data of the user through learning for a period of time, the expected data is empirical data obtained according to the learning for the period of time, and the user may subsequently feel that the expected data is not in line with the actual expected value of the user, so that the user can modify the expected data through the mobile phone APP.
Preferably, the learning process of the learning module 4 of the humidifier is as follows:
after the intelligent humidifier is opened, the control module 2 receives an adjustment control instruction of the mobile phone APP and outputs the adjustment control instruction to the humidification operation module 6 for corresponding operation;
the learning module 4 learns operation records and operation feedback records of a user under the action of the control module 2, wherein the operation feedback records comprise the environment humidity, the wind speed and the working mode after operation; the environment humidity comprises the environment humidity which is detected by the humidity detection module 3 and changes along with the time, and the environment humidity which is detected by the humidity sensor 1 worn by the user and changes along with the time at the current position of the user;
the learning module 4 obtains the operation habits of the user, and the environmental humidity, the working mode and the wind speed expected by the user in each time period according to the learning and training of the operation records and the feedback records of the user under the action of the control module 2; and stored by the storage module 5.
For example, the requirements of users on air humidity in spring, summer, autumn and winter are different, the expected data of the four seasons can be learned at different stages, and four modes are obtained for storage.
For another example, if the user has different requirements for air humidity during the day and at night, the user may adjust the humidifier accordingly during each time period. The humidity detected by the sensor worn by the user represents the humidity sensed by the user, the humidity detected by the humidity detection module of the humidifier represents the actual humidity of the work of the humidifier, the humidity detected by the humidity sensor worn by the user is related to the distance from the humidifier, the position adopted in the learning stage is a fixed moderate position, and the position is generally a position where the user often stays, such as a position where the user often works or a position where the user sleeps. When the user feels that the humidity is more comfortable at this moment, no longer regulate and control the humidifier, the humidity that the sensor that the user wore detected at this moment is user's comfortable humidity, and what correspond will make user department reach this comfortable humidity, the humidity that the humidity detection module of humidifier detected at this moment is the humidity that this humidifier actual work reaches. For example, after the midday user adjusts, the humidity sensor worn for comfort detects a humidity of 45%, and the humidity detection module of the humidifier detects a humidity of 50%, and then the control module obtains the humidity desired by the user according to an empirical algorithm, where the humidity may also be a humidity range, such as 47% -53%. After learning the expected humidity data, the intelligent sensor can work according to the expected humidity data, and the humidity detected by the humidity sensor of the humidifier is controlled to be in a range from 47% to 53%. The operation habits, the working modes and the wind speed requirements of the user in each time period can also be obtained by adjusting and learning by the user, so that different expected wind speeds and working modes can be selected according to the time periods after the subsequent humidifier is started.
Preferably, when the user manually operates and adjusts the intelligent humidifier, the learning module 4 corrects the learned operation habit of the user and the environmental humidity, the working mode and the wind speed expected by the user in each time period under the control of the control module 2 according to the control command of the user.
When operated by a person, the learning module 4 corrects the learning result of the existing expected data according to the new input value.
In addition, the learning modes for learning the expected data can be distributed according to different people, and the control module can learn and train according to different user information, so that the learning results of different users are obtained. When a user logs in the mobile phone APP and opens the humidifier, the intelligent humidifier selects corresponding user expected data to work according to the user information logged in by the mobile phone APP.
Another embodiment of the present invention, as shown in fig. 2, further includes a timing module 7 on the basis of any of the above embodiments, wherein the timing module 7 is electrically connected to the control module 2, and wherein: the timing module 7 performs timing according to a timing operation instruction of a user under the control of the control module 2, so that the control module 2 performs corresponding operation after the specified time is reached.
For example, the user humidifies the air regularly for 2 hours, the timing module 7 of the humidifier starts timing, and the control module 2 is informed to control the humidifier to stop working after 2 hours, so that even if the user goes out or sleeps, the trouble caused by forgetting to turn off the humidifier can be avoided, and the user experience is improved.
Regarding whether this intelligent humidifier intelligence judges whether someone so control switch aspect, there are following two schemes:
the first scheme is as follows: determine through the cell-phone location, it is concrete, the humidifier is under the intelligent mode, cell-phone APP regularly sends the current position give control module 2, control module 2 is according to the positional information that cell-phone APP sent judges whether the cell-phone is in the within range of predetermineeing, if exceed the scope of predetermineeing, then timing module 7 starts timing, when reaching predetermined time, control module 2 to cell-phone APP sends the current position request, judges whether the current position that cell-phone APP returned still exceeds the scope of predetermineeing, if, then control humidification operation module 6 stop work, the intelligent humidifier is in standby state, otherwise, humidification operation module 6 still works, maintains humidity constancy.
The existing smart phone generally has a positioning function, so that if a user leaves out, the user can also receive the current geographic position of the mobile phone through the mobile phone APP, so that whether the user is at home or not is judged, and if the user is within a preset range, the user continues working, and the humidity is kept constant. If judge that the user is not at present in the within range (family) of predetermineeing, then just can start regularly, half an hour for example, can request cell-phone APP to report the current position again after half an hour, if the user still is outside predetermineeing the scope, then the humidification just can be stopped to intelligent humidifier, be in the standby state, cell-phone APP can regularly send positional information for intelligent humidifier, consequently if follow-up user comes back, the humidifier receives cell-phone APP's positional information, judge and get back to again and predetermineeing the within range the words, just can awaken from the standby state, restart work.
For example, when the user is far away from the humidifier, the user can be determined whether the user leaves with the mobile phone, and when the humidifier finds that the mobile phone of the user is far away from the user, the humidifier is switched to a standby state if the distance is longer than half an hour.
Scheme II: the judgment is made through an infrared sensor 8, specifically, the intelligent humidifier may further include an infrared sensor 8 electrically connected to the control module 2, wherein: the infrared sensor 8 detects whether a person is in a room, so that the intelligent humidifier is controlled to start and stop through the control module 2.
Whether indoor someone through infrared induction, for example, have wrong personnel at indoor activity through the response of pyroelectric infrared sensor 8, when sensing someone when indoor, continue to control the humidifier through the control module 2 of humidifier and carry out the humidification operation, maintain indoor humidity invariable. If no person is sensed in the room, the control module 2 of the humidifier controls the humidifier to stop working. Therefore, people can stop walking and energy is saved.
Preferably, on the basis of any of the above embodiments, the mobile component 9 is further included, and is electrically connected to the control module 2, wherein: the control module 2 receives a moving instruction of the mobile phone APP, and the moving part 9 moves in a room according to the moving instruction of the control module 2.
The user can initiate the removal instruction through cell-phone APP, this intelligent humidifier alright remove in the room under control module 2's control to make the humidity in each place in the room even, the humidification effect is better.
Preferably, on the basis of any one of the above embodiments, the humidifier further includes a communication module electrically connected to the control module 2, wherein the communication between the control module 2 of the intelligent humidifier and the mobile phone APP includes:
the control module of intelligence humidifier passes through communication module carries out the communication with cell-phone APP, communication module includes bluetooth module, WIFI module, honeycomb mobile network module, or wherein arbitrary combination.
For example, as shown in fig. 3, the humidifier and the mobile phone may be directly connected to the cloud server, or may be directly connected via bluetooth if the humidifier and the mobile phone are relatively close to each other. The humidity sensor and the humidifier are connected in a Bluetooth mode.
On the basis of any one of the above embodiments, the intelligent humidifier further includes a display module 10 electrically connected to the control module 2, and the display module 10 is configured to display the current ambient humidity, the working mode, and the wind speed. And displaying the current working state data in real time to enable a user to know the current working state.
While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.