CN113641194A

CN113641194A - Control method, control equipment and storage medium

Info

Publication number: CN113641194A
Application number: CN202110843595.7A
Authority: CN
Inventors: 李青云; 余圩钱; 邓焯伟; 黄招彬; 罗炳章; 张�杰
Original assignee: GD Midea Air Conditioning Equipment Co Ltd; Foshan Shunde Midea Electric Science and Technology Co Ltd
Current assignee: GD Midea Air Conditioning Equipment Co Ltd; Foshan Shunde Midea Electric Science and Technology Co Ltd
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2021-11-12

Abstract

The embodiment of the application discloses a control method, which comprises the following steps: detecting a first aroma concentration in the current environment of the perfuming device; wherein the first aroma concentration is emitted by a perfume added in a perfume holding container of the perfuming device; determining a target parameter value corresponding to a target working parameter of the perfuming device based on the first fragrance concentration; wherein the target operating parameter comprises at least one of: providing air supply parameters of an air supply device which penetrates through the spice placing container and adopts air heated by a positive temperature coefficient PTC heater, and rotation parameters for rotating the spice placing container; adjusting the value of a target operating parameter of the perfuming device to the target parameter value to effect a change in the fragrance concentration in the current environment. The embodiment of the application also discloses a perfuming device and a storage medium.

Description

Control method, control equipment and storage medium

Technical Field

The present application relates to the field of air processing technologies, and in particular, to a control method, a control device, and a storage medium.

Background

With the gradual improvement of living standard of people, the mental demand of people gradually rises from the demand of simple substances. In order to improve life experience, people usually adopt a incense mode to create a warm and comfortable living environment or create a relaxing environment, so that the life quality is improved. At present, the commonly adopted incense mode is a solid spice heating and perfuming technology, namely, a heater is adopted to heat a device containing spices, so that the spices are forcedly volatilized, and the effects of increasing the fragrance and eliminating peculiar smell are achieved.

However, at present, the perfume is usually kept still during the perfuming process, when the constant temperature heating mode is adopted for heating, the upper layer and the lower layer of the perfume are heated unevenly, the defects of different volatilization speeds of the upper layer perfume and the lower layer perfume exist, the indoor perfume concentration is difficult to be rapidly improved in a short time, and the intelligence degree of the perfuming equipment is low.

Content of application

In order to solve the above technical problems, embodiments of the present application are expected to provide a control method, a device, and a storage medium, so as to solve the problem of low intelligence degree of the existing perfuming device, implement a method for controlling the perfuming device to rapidly increase indoor fragrance concentration, and increase intelligence degree of the perfuming device.

The technical scheme of the application is realized as follows:

in a first aspect, a control method, the method comprising:

detecting a first aroma concentration in the current environment of the perfuming device; wherein the first aroma concentration is emitted by a perfume added in a perfume holding container of the perfuming device;

determining a target parameter value corresponding to a target working parameter of the perfuming device based on the first fragrance concentration; wherein the target operating parameter comprises at least one of: providing air supply parameters of an air supply device which penetrates through the spice placing container and adopts air heated by a positive temperature coefficient PTC heater, and rotation parameters for rotating the spice placing container;

adjusting the value of a target operating parameter of the perfuming device to the target parameter value to effect a change in the fragrance concentration in the current environment.

In a second aspect, a perfuming apparatus, the apparatus at least comprising: a fragrance holding container, an air supply device with a PTC heater, a processor, a memory and a communication bus; wherein:

the memory to store executable instructions;

the communication bus is used for realizing communication connection among the spice placing container, the processor and the memory;

the spice placing container is used for placing spices and can rotate;

the air supply device is used for providing air with a specific temperature passing through the spice placing container;

the processor is configured to execute the control program stored in the memory to implement the steps of the control method according to any one of the above descriptions.

In a third aspect, a storage medium has stored thereon a control program which, when executed by a processor, implements the steps of the control method as defined in any one of the preceding claims.

In the embodiment of the application, after the first aroma concentration of the perfuming device in the current environment is detected, the target parameter value corresponding to the target working parameter of the perfuming device is determined based on the first aroma concentration, and the value of the target working parameter of the perfuming device is adjusted to be the target parameter value, so that the value of the target working parameter of the perfuming device is adjusted according to the first aroma concentration of the current environment, the aroma concentration of the current environment is adjusted, the problem of low intelligence degree of the current perfuming device is solved, the method for controlling the perfuming device to rapidly improve the indoor aroma concentration is realized, and the intelligence degree of the perfuming device is improved.

Drawings

Fig. 1 is a first schematic flowchart of a control method according to an embodiment of the present disclosure;

fig. 2 is a schematic flowchart illustrating a second control method according to an embodiment of the present disclosure;

fig. 3 is a third schematic flowchart of a control method according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an air treatment device with a perfuming apparatus according to an embodiment of the present application;

fig. 5 is a schematic view of an implementation flow of an embodiment of a control method provided in the present application;

fig. 6 is a schematic structural diagram of a perfuming device provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

An embodiment of the present application provides a control method, illustrated with reference to fig. 1, applied to a perfuming device, comprising the following steps:

step 101, detecting a first aroma concentration in the current environment of the perfuming device.

Wherein the first fragrance concentration is emitted from a fragrance added to a fragrance holding container of a perfuming apparatus.

In the embodiment of the application, the perfuming device at least comprises a device for placing a spice placing container and an air supply device for supplying wind for diffusing the spice concentration in the spice abandoning container, wherein the spice placing container can rotate, the rotation speed of the spice placing container is controllable, the wind speed of the corresponding air supply device comprises different gears, and the air supply device is used for supplying wind with different temperatures and/or wind speeds according to requirements. In some application scenarios, the perfuming device can also be disposed on some other household appliances, such as air conditioning equipment, refrigerators and other household appliances. The first fragrance concentration currently in the environment is provided by the fragrance placed in the perfuming device and can be detected by means of a fragrance concentration detection device arranged at a position other than the fragrance outlet, but in some cases the fragrance concentration detection device can also be a separate detection device communicatively connected to the perfuming device.

And 102, determining a target parameter value corresponding to a target working parameter of the perfuming device based on the first fragrance concentration.

Wherein the target operating parameter comprises at least one of the following parameters: an air blowing parameter of an air blowing device using air heated by a Positive Temperature Coefficient (PTC) heater and a rotation parameter of a rotating perfume container are provided.

In the embodiment of the application, when the perfuming device determines that the fragrance concentration in the current environment needs to be changed according to the detected first fragrance concentration in the current environment, the perfuming device determines a target parameter value corresponding to a target working parameter corresponding to the perfuming device. The target working parameters are used for changing the working condition of the perfuming device, and further changing the volatilization speed of the fragrance in the perfuming device so as to change the fragrance concentration in the current environment.

The target operating parameters may be at least: the perfume placing container of the perfuming device has rotation parameters and/or air supply parameters for changing the air output by the air supply device. Wherein, the rotation parameter may specifically be a rotation speed parameter; the air supply parameter can be a temperature parameter of the wind, a wind speed parameter of the wind blown by the air supply device, and/or the like.

And 103, adjusting the value of the target working parameter of the perfuming device to be a target parameter value.

Wherein, the value of the target working parameter of the perfuming device is adjusted to be the target parameter value so as to change the fragrance concentration in the current environment.

In the examples of the present application, the perfuming device adjusts the value of a target operating parameter of the perfuming device to a target parameter value, so that the volatilization speed of the perfume in the perfuming device can be changed, thereby rapidly changing the fragrance concentration in the current environment.

Based on the foregoing embodiments, the embodiments of the present application provide a control method, illustrated with reference to fig. 2, applied to a perfuming device, the method comprising the following steps:

step 201, detecting a first aroma concentration in the current environment of the perfuming device.

In the embodiment of the present application, a fragrance concentration detection device, such as an odor sensor, disposed at an air inlet of an air blowing device of a perfuming device, detects a first fragrance concentration in an environment where the perfuming device is currently located. In some application scenarios, the fragrance concentration detection device may also be a device that is fixedly or movably disposed in the current environment and at a distance from the perfuming device, and the fragrance concentration detection device may send the detected first fragrance concentration to the perfuming device.

Step 202, determining the required target aroma concentration range currently set.

In the embodiment of the application, the target aroma concentration range is set by the user according to the actual requirement of the user. In some application scenarios, the target fragrance concentration range required by the user to select can be that the user selects multiple fragrance concentration levels provided by the perfuming device, determines and selects a required fragrance concentration level to obtain a target fragrance concentration level, and the corresponding target fragrance concentration level corresponds to the target fragrance concentration range, or the target fragrance concentration range can also be determined by the perfuming device according to the use scene after the perfuming device determines the use scene of the perfuming device. For example, assuming that the perfuming device determines that the current usage scenario of the perfuming device is a yoga movement scenario of the user, the perfuming device may determine a target fragrance concentration range suitable for yoga movement, and assuming that the perfuming device determines that the current usage scenario of the perfuming device is a sleep scenario of the user, the perfuming device may determine a target fragrance concentration range for helping the user sleep.

In some application scenarios, the target aroma concentration range can also be determined by the perfuming device according to the aroma concentration level selected by the user in history, that is, after the perfuming device acquires a large number of historical aroma concentration levels selected by the user, the large number of historical aroma concentration levels are analyzed to determine and obtain the target aroma concentration range corresponding to the target aroma concentration level. Further, when the perfuming device analyzes a large number of historical fragrance concentration levels, the perfuming device can determine the current use scene of the perfuming device, and determine a target fragrance concentration level corresponding to the use scene from the large number of historical fragrance concentration levels, so as to obtain a target fragrance concentration range; the use scene can be manually input by a user at a perfuming device or other control devices which are in communication connection with the perfuming device, such as a mobile terminal device or a remote control device of the perfuming device, and the like, and the perfuming device can also acquire application scene information through a camera and the like to determine a target fragrance concentration grade.

And step 203, determining a target parameter value corresponding to the target working parameter based on the first fragrance concentration and the target fragrance concentration range.

Wherein the target operating parameter comprises at least one of the following parameters: providing the air supply parameter of the air supply device which passes through the spice placing container and adopts the air heated by the positive temperature coefficient PTC heater and the rotation parameter of the rotating spice placing container.

In the embodiment of the application, after the perfuming device determines the relationship between the first fragrance concentration and the target fragrance concentration range, the target parameter value corresponding to the target working parameter is determined according to the relationship between the first fragrance concentration and the target fragrance concentration range. The target parameter value may be an empirical value obtained in advance from a large number of experiments. That is, different parameter values corresponding to the target working parameters when different fragrance concentrations correspond to different fragrance concentration ranges can be preset in the perfuming device.

In some application scenes, when the air output by the air supply device is heated to provide hot air for the perfuming equipment to accelerate the volatilization speed of the perfume, the mode of heating the air output by the air supply device can be realized by adopting a PTC heater and other heating devices, correspondingly, when the air output by the air supply device is heated by adopting other heating devices, the temperature parameter of the air to be heated can be determined according to the relation between the first fragrance concentration and the target fragrance concentration range.

When the PTC heater is used to heat the air output from the air blowing device, the temperature parameter of the air output from the air blowing device is determined by the air speed output from the air blowing device, and therefore, when the air output from the air blowing device is heated by the PTC heater, the temperature parameter of the air output from the air blowing device is determined by taking into consideration the air speed output from the air blowing device.

Step 204, adjusting the value of the target operating parameter of the perfuming device to the target parameter value.

In the embodiment of the application, the value of the target working parameter of the perfuming device is adjusted to be the target parameter value, so that the perfuming device works with the target parameter value, and the fragrance concentration in the current environment is changed.

Based on the foregoing embodiments, in the embodiment of the present application, step 203 may be implemented by steps 203a to 203 b:

step 203a, if the first aroma concentration is smaller than the minimum value of the target aroma concentration range, determining a target diffusion speed based on the maximum value of the first aroma concentration and the target aroma concentration range.

In the embodiment of the application, when the detected first fragrance concentration is smaller than the minimum value of the target fragrance concentration range, the fragrance concentration in the current environment needs to be rapidly increased, so that the target diffusion speed needs to be determined by analyzing the first fragrance concentration and the maximum value of the target fragrance concentration range, and thus, the target diffusion speed is determined by the maximum value of the target fragrance concentration range, the volatilization speed of the perfume in the perfuming device can be effectively and rapidly increased, and the diffusion speed of the fragrance of the perfume in the current environment can be further ensured.

And step 203b, determining a target parameter value corresponding to the target working parameter based on the target diffusion speed.

In the present example, it is possible to set in the perfuming device a relationship between the diffusion rate and the value of the target operating parameter for different applications, either a number of empirical values, listed in the form of a list, or an empirical formula between the diffusion rate and the value of the target operating parameter.

Based on the foregoing embodiments, in the embodiments of the present application, as shown in fig. 3, after the perfuming device performs step 204, the perfuming device is further configured to perform steps 205-209:

step 205, start timer to start timing.

And step 206, detecting a second aroma concentration in the current environment when the first timing duration of the timer is the target duration.

In the embodiment of the present application, the target time period may be a theoretical time period required when the first fragrance concentration of the current environment increases to the maximum value of the target fragrance concentration range according to the target diffusion speed, namely, the target time period needs to be determined by the space size of the current environment, the initial first fragrance concentration of the current environment and the final maximum value of the target fragrance concentration range. Therefore, after the target working parameter is the target parameter value and the target time length is worked, the perfuming device can be effectively ensured to have enough time length to ensure that the fragrance concentration in the current environment can be in the target concentration range theoretically. After the perfuming device works for a target duration with a target parameter value, the perfuming device detects the fragrance concentration in the current environment to obtain a second fragrance concentration. It should be noted that, when the perfuming device detects the fragrance concentration in the current environment, the detection may be performed regularly according to a preset detection period, or the fragrance concentration detection device may be started to detect only when the fragrance concentration in the current environment needs to be detected, and the specific application condition is determined according to the actual application scenario, which is not limited herein.

And step 207, determining the cumulative use time of the perfume from the time when the perfuming device changes the added perfume to the current time.

In the embodiment of the application, each time the perfuming device is detected to be replaced by a new perfume, a timer used for timing the total use duration of the perfume in the perfuming device starts to time from zero, and when the perfuming device stops using, the timing is suspended, and then when the perfuming device is used again, the timing is continued to be started based on the use timing duration counted last time, so as to accurately count the use duration of the perfume. In this way, the cumulative duration of use of the perfume up to the present moment of the currently added perfume in the perfuming device can be determined.

In the present embodiment, the perfuming device, after performing step 207, is also adapted to perform step 208 or step 209. If the cumulative using time of the perfume is less than the preset using time and the second fragrance concentration is less than the minimum value of the target fragrance concentration range, step 208 is selectively executed, and if the cumulative using time of the perfume is greater than the preset using time and the second fragrance concentration is less than the minimum value of the target fragrance concentration range, step 209 is selectively executed.

And 208, if the accumulated use time of the perfume is less than the preset use time and the second fragrance concentration is less than the minimum value of the target fragrance concentration range, generating first prompt information for prompting a user to check whether a door and a window of the current environment are closed.

In the examples of the present application, the preset usage time is a value obtained from experience in using the perfume after a large number of experimental analyses on the perfume. When the cumulative use time of the perfume is less than the preset use time, it can be determined that the currently added perfume in the perfuming device can still be used, that is, the perfume of the perfume is not released, at this time, if the second fragrance concentration is less than the minimum value of the target fragrance concentration range, it can be determined that the fragrance concentration in the current environment is released probably because the doors and windows of the current environment are not closed, and therefore, first prompt information for prompting the user to check whether the doors and windows of the current environment are closed can be generated. The first prompt message can be realized by at least one of text, voice, light and the like.

And 209, if the accumulated use time of the perfume is longer than the preset use time and the second fragrance concentration is smaller than the minimum value of the target fragrance concentration range, generating second prompt information for prompting a user to replace the perfume in the perfume accommodating container.

In the embodiment of the application, when the cumulative use time of the perfume is longer than the preset use time, the cumulative use time of the perfume is indicated to exceed the theoretical use time of the perfume, at this time, the fragrance of the perfume can be determined to be exhausted, and at this time, second prompt information for prompting a user to replace the perfume can be generated. However, in some application scenarios, in order to ensure the accuracy of the second prompt information and reduce the probability of occurrence of the prompt error, when it is detected that the cumulative duration of use of the perfume is longer than the preset duration of use, the relationship between the second fragrance concentration and the minimum value of the target fragrance concentration range is further judged, and when it is detected that the cumulative duration of use of the perfume is longer than the preset duration of use and the second fragrance concentration is smaller than the minimum value of the target fragrance concentration range, it can be determined that the perfume in the perfuming device needs to be replaced, so that the second prompt information is generated. When the fact that the accumulative usage time of the perfume is longer than the preset usage time and the second fragrance concentration is larger than or equal to the minimum value of the target fragrance concentration range is detected, the accumulative usage time of the perfume can be corrected according to the relation between the second fragrance concentration and the target fragrance concentration range.

Based on the foregoing embodiments, in other embodiments of the present application, step 203 may also be implemented by steps 203c to 203 i:

and 203c, if the first aroma concentration is greater than the maximum value of the target aroma concentration range, determining a current parameter value corresponding to the target working parameter.

In the embodiment of the present application, the current parameter value corresponding to the target working parameter refers to the parameter value of the target working parameter when the perfuming device is currently working.

Step 203d, determining a first preset parameter value which is adjacent to the current parameter value and is smaller than the current parameter value.

In the embodiment of the present application, the first preset parameter value may be a previously obtained empirical value.

And step 203e, adjusting the value of the working parameter to be a first preset parameter value.

And step 203f, detecting a second aroma concentration in the current environment when the perfuming device works at the first preset parameter value for a long time.

In the embodiment of the present application, the interval duration is an empirical value of the duration obtained through a large number of experiments.

And 203g, if the second aroma concentration is greater than the maximum value of the target aroma concentration range, determining a second preset parameter value which is adjacent to the first preset parameter value and is smaller than the first preset parameter value.

And step 203h, adjusting the value of the working parameter to be a second preset parameter value.

And 203i, when the perfuming device works at the second preset parameter value for a long time, detecting a third fragrance concentration in the current environment, and gradually reducing the value of the target working parameter until the perfuming device works at the third preset parameter value for a long time, and when detecting that a fourth fragrance concentration in the current environment is in a target fragrance concentration range, determining a target parameter value based on the fourth fragrance concentration.

In the present embodiment, when the first fragrance concentration is greater than the maximum value of the target fragrance concentration range, the value of the target operating parameter of the perfuming device is gradually reduced so that the fragrance concentration in the current environment gradually reaches the target fragrance concentration range.

It should be noted that, when the second fragrance concentration is greater than the maximum value of the target fragrance concentration range, the implementation process of steps 203c to 203i may also be referred to, and details are not repeated here.

Based on the foregoing embodiment, in other embodiments of the present application, the step "determining the target parameter value based on the fourth aroma concentration" in the step 203i may be implemented by the steps a 11-a 13:

step a11, obtaining the historical fragrance concentration for the preset times adjacent to the moment of detecting the fourth fragrance concentration.

In the embodiment of the present application, the preset number may be an empirical value obtained through a large number of experiments, or may be an empirical value set by a user according to actual needs, and the preset number may be 2, for example.

Step a12, determining the absolute value of the difference between the aroma concentrations between two adjacent moments based on the fourth aroma concentration and the historical aroma concentrations of the preset times, and obtaining the reference value of the preset times.

Step a13, determining a target parameter value based on the reference value of the preset times.

Based on the foregoing embodiment, step a13 can be implemented by the following steps: and if the preset proportion of the reference values in the preset times of the plurality of reference values is smaller than the preset threshold value, determining the target parameter value as a third preset parameter value.

In the embodiment of the present application, the preset threshold may be an empirical value obtained according to the variation of the aroma concentration. The preset ratio may be determined according to a preset number, for example, when the preset number is smaller, the corresponding preset ratio is one hundred percent, that is, all reference values are required to be smaller than the preset threshold value. And determining the target parameter value as a third preset parameter value, which indicates the corresponding working parameter when the perfuming device keeps the detected fourth fragrance concentration parameter.

Based on the foregoing embodiments, the present application provides an application scenario of a perfuming device disposed on an air treatment device, that is, a structure of the air treatment device disposed with the perfuming device can be shown with reference to fig. 4, and includes: a casing 31 and a perfuming device 32, the perfuming device 32 comprising: a cover 321 and a flavor containing container 322. The hole arranged on the cover plate 321 is an air inlet, the fragrance concentration detection device (not shown in fig. 4) can be arranged at the cover plate 321, a PTC heater (not shown in fig. 4) can be arranged in an air duct at a corresponding position when the fragrance container 322 is installed in the installation cavity of the air conditioning treatment device to heat the air passing through the fragrance container 322, and solid fragrance such as fresh petals, dry petals, aromatherapy stones and the like is usually arranged in the fragrance container 322. The spice placing container is a rotary drum with air holes densely distributed on the surface, the rotation speed of the rotary drum is controllable, and the rotation speed of the rotary drum can be realized by controlling the rotation speed of a motor for rotating the rotary drum. Therefore, the spice in the roller is driven to rotate by controlling the rotation of the roller, and the air heated by the PTC passes through the roller, so that the spice is uniformly heated, and the spice quickly volatilizes fragrance.

Wherein, when the perfuming device 32 needs to change the perfume, the perfuming device can move from the cover plate 321 side to the outer side of the housing from the installation cavity of the air treatment device, so that the user can conveniently change the perfume. The air treatment device can be air conditioning equipment, an air purifier, an air humidifier and the like. It should be noted that, at this time, the control system for controlling the perfuming device to implement the control method and the control system for managing and controlling the control processing device may be one, that is, the control system is used for managing and controlling the perfuming device, and may also be used for managing and controlling the air processing device.

Based on the foregoing embodiments, the present application provides an embodiment of controlling a perfuming device, as shown in fig. 5, including the following steps:

step 401, the perfuming device receives a perfuming instruction sent by an application program, a large screen, voice or a key.

Step 402, the perfuming device obtains a target perfuming gear set in advance by a user or a target perfuming gear set by an initial default.

Illustratively, the blending gear is divided into 3 grades, such as a light fragrance grade, a faint fragrance grade and a heavy fragrance grade, and the fragrance concentration of each grade is as follows: the light fragrance grade is less than the faint scent grade is less than the dense scent grade. The aroma concentration of the micro-aroma profile can be recorded as: n 11-n 12, the fragrance concentration of the faint scent grade can be recorded as: n 21-n 22, the aroma concentration of the aroma profile can be recorded as: n 31-n 32. Correspondingly, the target fragrance adjusting gear can be one of a slight fragrance gear, a faint fragrance gear and a strong fragrance gear.

The aroma concentration corresponding to the target aroma adjusting gear corresponds to the target aroma concentration range.

And step 403, the perfuming device responds to the perfuming command, starts the air supply fan, the PTC heater and the roller driving motor, and synchronously updates the accumulated running time of the perfuming device.

The air supply fan corresponds to the air supply device, the accumulated operation time of the perfuming device corresponds to the accumulated use duration of the perfume, and the accumulated operation time of the perfuming device takes the time point that the roller starts to rotate for the first time after the perfume is newly added in the perfuming device as an initial timing point.

And step 404, the perfuming device acquires the air fragrance concentration in the current environment through the odor sensor and stores the air fragrance concentration.

Wherein, the odor sensor corresponds to the aroma concentration detection device.

It should be noted that after the perfuming device performs step 404, steps 405 to 406 or step 407 can be selectively performed according to the air fragrance concentration.

And 405, if the air fragrance concentration is less than the minimum value in the fragrance concentrations corresponding to the target fragrance adjusting gears, controlling the air supply fan and the rolling driving motor by the perfuming device to operate at the speed when the fragrance is diffused fastest, and recording the total time length of operation at the speed when the fragrance is diffused fastest.

Wherein, the speed of the air supply fan and the rotating speed of the rotating drum when the fragrance diffusion speed is fastest can be found according to the following table. The speed of the air supply fan refers to the rotating speed of the air supply fan, namely the air supply speed is determined by the rotating speed of the air supply fan.

In the above table, the first row V11 to V1m represent the speed of the blower fan, the first row V21 to V2n represent the rotational speed of the drum, and the corresponding C11 to Cmn represent the diffusion speed of the fragrance corresponding to the speed of the blower fan and the rotational speed of the drum. The diffusion speed in the table is an empirical value obtained from a large number of experiments for different blower fan speeds and drum rotation speeds.

When the air fragrance concentration is smaller than the minimum value in the fragrance concentrations corresponding to the target fragrance adjusting gears, the air supply fan and the rolling driving motor are controlled to operate at the speed when the fragrance is diffused most quickly, the diffusion speed of the fragrance is determined according to the air fragrance concentration, the maximum fragrance concentration corresponding to the target fragrance adjusting gears and the size of the environment space of the current environment when the speed of the corresponding air supply fan and the rotation speed of the rolling driving motor are determined, and then the fragrance is determined from the upper table according to the determined diffusion speed of the fragrance.

In the actual process, the time for operating at the fan speed and the rotating drum speed when the fragrance diffusion speed is fastest is kept, the air fragrance concentration in the current environment can be collected at intervals of preset interval time t1, after n times of circulation, when the air fragrance concentration is detected TO be greater than or equal TO the minimum value in the fragrance concentrations corresponding TO the target fragrance adjusting gear, the total time TO for operating at the speed when the fragrance diffusion speed is fastest can be recorded as TO t 1.

And step 406, judging whether the user needs to be reminded to replace the perfume or remind the user to close the door or window by the perfuming device according to the accumulated running time of the perfuming device, the total running time of the current state and the current air fragrance concentration.

When the cumulative use time TK > TS of the perfuming equipment, if the current state runs for the total time TO > TL, and the current air fragrance concentration No < Nmin detected in step 406, a warning is given TO remind a user TO change the fragrance or TO close a door and a window. TS is a preset cumulative perfume usage time threshold, TL is a preset theoretical time period for increasing the fragrance concentration in the current environment from the air fragrance concentration detected in step 404 to the maximum fragrance concentration of the target fragrance range at the speed determined in step 405 for maximizing the diffusion of the perfume fragrance, and Nmin is a preset minimum fragrance concentration of the target fragrance range.

And when TK < TS, if TO > TL and No is less than the minimum aroma concentration of the target aroma-adjusting gear, sending out a warning TO remind a user that the aroma is not enough TO maintain the current aroma-adjusting gear, and simultaneously reminding the user TO pay attention TO check whether TO close the door or window.

It should be noted that in the case that the cumulative usage time TK < TS of the perfuming apparatus, the total current operating time TO is TL, and the current air fragrance concentration No > Nmax detected in step 406, if the perfuming is continued at the speed at which the fragrance is diffused most quickly, the fragrance concentration may exceed the maximum fragrance concentration of the target fragrance adjusting range, at this time, the step shown with reference TO step 407 may be selected and executed TO achieve a more stable fragrance concentration adjustment.

And 407, acquiring historical air fragrance concentration acquired at the previous 2 times adjacent to the current time after the air fragrance concentration reaches the maximum fragrance concentration of the target fragrance adjusting gear, and gradually reducing the fragrance diffusion speed according to the target fragrance adjusting gear, the previous 2 times of historical air fragrance concentration, the currently detected air fragrance concentration and a preset fragrance diffusion speed table by taking the reduction of the fragrance diffusion speed as a target and a method of preferentially adjusting the rotation speed of the roller and the speed of the rear air supply fan until the air fragrance concentration change difference is smaller than a preset value.

After the air fragrance concentration reaches the maximum fragrance concentration of the target fragrance adjusting gear, if the air fragrance concentration still continues to work at the current rotation speed of the drum and the current speed of the air supply fan, the fragrance concentration may far exceed the maximum fragrance concentration of the target fragrance adjusting gear, fragrance waste may be caused, and discomfort of the body of a user may be caused. Therefore, due to the uncertainty of the sealing degree of the current environment, in order to balance the perfuming speed of the perfuming equipment and the speed of fragrance dissipation to the outdoor, the implementation method of increasing the air fragrance concentration to the maximum fragrance concentration of the target fragrance adjusting gear and then gradually reducing the perfuming diffusion speed is adopted, the situation that the air fragrance concentration of the current environment is in the concentration range corresponding to the target fragrance adjusting gear is effectively guaranteed, and the use experience of a user is improved.

According to a target fragrance adjusting gear, the previous 2 historical air fragrance concentrations, the currently detected air fragrance concentrations and a preset fragrance diffusion speed table, the fragrance diffusion speed is reduced as a target, the fragrance diffusion speed is gradually reduced by a method of preferentially adjusting the rotation speed of the roller and the speed of the rear adjusting air supply fan until the air fragrance concentration variation difference is smaller than a preset value, and the specific implementation process is as follows: assuming that the historical air fragrance concentrations collected at the previous 2 times are Np1 and Np0 respectively, therefore, the air fragrance concentration change difference values e1 and e2 can be calculated through the formulas e1 ═ No-Np0|, e2 ═ Np0-Np1|, when it is detected that the current air fragrance concentration No satisfies Nx < No < Ny, if e1 is not more than Δ e, e2 is not more than Δ e, and Δ e is a preset value, the fragrance diffusion speed is stopped being reduced, and the speed of the blower fan and the rotation speed of the drum are maintained as the current operating speed. The minimum aroma concentration of the target flavoring gear is Nx (the 3 grades are n11, n21 and n31 respectively), and the maximum aroma concentration of the target flavoring gear is Ny (the 3 grades are n12, n22 and n32 respectively).

In some application scenarios, the preset intensity of the target fragrance range may be denoted as NS — Ny + Δ n, that is, the aforementioned target fragrance intensity range includes only one preset intensity NS, where Ny is the maximum value in each range of intensity ranges, that is, n12, n22, n32, and Δ n is a preset increment.

It should be noted that, for the descriptions of the same steps and the same contents in this embodiment as those in other embodiments, reference may be made to the descriptions in other embodiments, which are not described herein again.

Based on the previous embodiments, the embodiments of the present application provide a perfuming device, as illustrated with reference to fig. 6, the perfuming device 5 can comprise: a fragrance placing container 51, an air blowing device 52 having a PTC heater, a processor 53, a memory 54, and a communication bus 55; wherein:

a memory 54 for storing executable instructions;

a communication bus 55 for enabling communication between the fragrance placing container 51, the processor 53 and the memory 54;

a perfume placing container 51 for placing perfume and rotatable;

an air blowing device 52 for supplying air of a specific temperature passing through the perfume placing container 51;

a processor 53 for executing the control program stored in the memory 54, implementing the steps of:

detecting a first aroma concentration in the current environment of the perfuming device; wherein the first fragrance concentration is emitted by a fragrance added in a fragrance container of a perfuming device;

determining a target parameter value corresponding to a target working parameter of the perfuming device based on the first fragrance concentration; wherein the target operating parameter comprises at least one of the following parameters: providing air supply parameters of an air supply device which penetrates through the spice placing container and adopts air heated by a positive temperature coefficient PTC heater, and rotation parameters for rotating the spice placing container;

and adjusting the value of the target working parameter of the perfuming device as a target parameter value so as to change the fragrance concentration in the current environment.

In other embodiments of the present application, the step performed by processor 53 for determining a target parameter value corresponding to a target operating parameter of the perfuming device based on the first fragrance concentration may be implemented by:

determining a currently set required target aroma concentration range;

and determining a target parameter value corresponding to the target working parameter based on the first fragrance concentration and the target fragrance concentration range.

In other embodiments of the present application, when the processor 53 executes the step of determining the target parameter value corresponding to the target operating parameter based on the first fragrance concentration and the target fragrance concentration range, the following steps may be implemented:

if the first aroma concentration is less than the minimum value of the target aroma concentration range, determining a target diffusion speed based on the maximum value of the first aroma concentration and the target aroma concentration range;

and determining a target parameter value corresponding to the target working parameter based on the target diffusion speed.

In other embodiments of the present application, the processor 53, after performing the step of adjusting the value of the target operating parameter of the perfuming device to the target parameter value, is further configured to perform the following steps:

starting a timer to start timing;

when the first timing duration of the timer is the target duration, detecting a second aroma concentration in the current environment;

determining the cumulative use time of the perfume from the time of replacing the added perfume by the perfuming equipment to the current time;

and if the accumulated use time of the perfume is less than the preset use time and the second fragrance concentration is less than the minimum value of the target fragrance concentration range, generating first prompt information for prompting a user to check whether the door and window of the current environment are closed.

In other embodiments of the present application, the processor 53 is further configured to perform the following steps:

and if the accumulated use time of the perfume is longer than the preset use time and the second fragrance concentration is smaller than the minimum value of the target fragrance concentration range, generating second prompt information for prompting a user to replace the perfume in the perfume placing container.

if the first aroma concentration is larger than the maximum value of the target aroma concentration range, determining a current parameter value corresponding to the target working parameter;

determining a first preset parameter value which is adjacent to the current parameter value and is smaller than the current parameter value;

adjusting the value of the working parameter to be a first preset parameter value;

when the perfuming equipment works at a first preset parameter value for a long time, detecting a second fragrance concentration in the current environment;

if the second aroma concentration is larger than the maximum value of the target aroma concentration range, determining a second preset parameter value which is adjacent to the first preset parameter value and smaller than the first preset parameter value;

adjusting the value of the working parameter to be a second preset parameter value;

and when the perfuming device works at the second preset parameter value for a long time, detecting the third fragrance concentration in the current environment, and gradually reducing the value of the target working parameter until the perfuming device works at the third preset parameter value for a long time, and when detecting that the fourth fragrance concentration in the current environment is in the target fragrance concentration range, determining the target parameter value based on the fourth fragrance concentration.

In other embodiments of the present application, the processor 53 may perform the step of determining the target parameter value based on the fourth aroma concentration by:

acquiring historical fragrance concentrations of a preset number of times adjacent to the moment when the fourth fragrance concentration is detected;

determining an absolute value of a difference value between the aroma concentrations of two adjacent moments based on the fourth aroma concentration and the historical aroma concentrations of the preset times to obtain a reference value of the preset times;

and determining a target parameter value based on the reference value of the preset times.

In other embodiments of the present application, the step executed by the processor 53 for determining the target parameter value based on the reference value of the preset number of times may be implemented by:

and if the preset proportion of the reference values in the preset times of the plurality of reference values is smaller than the preset threshold value, determining the target parameter value as a third preset parameter value.

It should be noted that, in the embodiment of the present application, the multiple or multiple programs may be explained by steps of the one or multiple processors, and refer to the method implementation processes provided in the embodiments corresponding to fig. 1 to 3, which are not described herein again.

Based on the foregoing embodiments, embodiments of the present application provide a computer-readable storage medium, which is referred to as a storage medium for short, where the computer-readable storage medium stores one or more programs, and the one or more programs can be executed by one or more processors to implement the implementation processes of the control methods provided in the embodiments corresponding to fig. 1 to 3, and details are not described here again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application.

Claims

1. A control method, characterized in that the method comprises:

2. The method according to claim 1, wherein said determining, based on said first fragrance concentration, a target parameter value corresponding to a target operating parameter of said perfuming device comprises:

determining a currently set required target aroma concentration range;

3. The method of claim 2, wherein the determining a target parameter value corresponding to the target operating parameter based on the first aroma concentration and the target aroma concentration range comprises:

determining a target diffusion rate based on the first aroma concentration and a maximum value of the target aroma concentration range if the first aroma concentration is less than the minimum value of the target aroma concentration range;

4. A method according to claim 3, characterized in that, after said adjustment of the value of the target operating parameter of said perfuming device to said target parameter value, said method further comprises:

starting a timer to start timing;

5. The method of claim 4, further comprising:

and if the accumulated use time of the perfume is longer than the preset use time and the second fragrance concentration is smaller than the minimum value of the target fragrance concentration range, generating second prompt information for prompting a user to replace the perfume in the perfume accommodating container.

6. The method of claim 2, wherein the determining a target parameter value corresponding to the target operating parameter based on the first aroma concentration and the target aroma concentration range comprises:

adjusting the value of the working parameter to be the first preset parameter value;

when the perfuming device works at the first preset parameter value for a long time, detecting a second fragrance concentration in the current environment;

adjusting the value of the working parameter to be the second preset parameter value;

detecting a third fragrance concentration in the current environment when the perfuming device works at the second preset parameter value for a working interval time, and gradually reducing the value of the target working parameter until the target parameter value is determined based on a fourth fragrance concentration when the perfuming device works at the third preset parameter value for a working interval time and the fourth fragrance concentration in the current environment is detected to be in the target fragrance concentration range.

7. The method of claim 6, wherein the determining the target parameter value based on the fourth aroma concentration comprises:

and determining the target parameter value based on the reference value of the preset times.

8. The method according to claim 7, wherein the determining the target parameter value based on the reference value of the preset number of times comprises:

and if a preset proportion of the reference values in the preset times of reference values are smaller than a preset threshold value, determining the target parameter value as the third preset parameter value.

9. Perfuming device, characterized in that it comprises at least: a fragrance holding container, an air supply device with a PTC heater, a processor, a memory and a communication bus; wherein:

the memory to store executable instructions;

the spice placing container is used for placing spices and can rotate;

the processor, configured to execute the control program stored in the memory, implementing the steps of the control method according to any one of claims 1 to 8.

10. A storage medium, characterized in that the storage medium has stored thereon a control program which, when executed by a processor, implements the steps of the control method according to any one of claims 1 to 8.