CN110822516A - Control method capable of automatically adjusting air quantity gear starting sequence and range hood - Google Patents

Abstract

The invention discloses a control method capable of automatically adjusting the starting sequence of air quantity gears, which comprises the following steps: s1: starting an air quantity gear starting sequence adjusting program and starting timing t 1; s2: recording the times of using different air quantity gears by a user; s3: judging whether the program running time t1 reaches the preset time ts1 or not; s4: analyzing data, and reordering according to the use times from high to low to form a new air quantity gear starting sequence; s5: memorizing and storing a new air quantity gear starting sequence; s6: the program running time period t1 and the count are cleared and the process returns to step S1. According to the control method capable of automatically adjusting the air quantity gear starting sequence, the using habits of users using different air quantity gears are recorded, analyzed and reordered to form a new air quantity gear starting sequence, so that the operation steps are simplified, the quick operation of the users is more convenient, the individual requirements of different users are met, and the intelligence of products is improved.

Description

Control method capable of automatically adjusting air quantity gear starting sequence and range hood

Technical Field

The invention relates to the technical field of range hoods, in particular to a control method capable of automatically adjusting the starting sequence of air quantity gears and a smoke suction ventilator.

Background

At present, most of range hoods sold on the market control the operation of the range hood through an electronic controller, and most of range hoods regulate the air quantity gear of the range hood through an air quantity key, the air quantity generally comprises three gears of high-grade air quantity, medium-grade air quantity and low-grade air quantity, and the air quantity gear switching is carried out through the air quantity key.

The product is preset with the start switching sequence of the air volume gear before leaving the factory, such as: the air volume is switched in the order of high-range air volume → medium-range air volume → low-range air volume → closed → high-range air volume, or the air volume is switched in the order of medium-range air volume → high-range air volume → low-range air volume → closed → medium-range air volume.

The mode of setting the air quantity gear starting sequence is that the starting sequence of selecting the air quantity gear by pressing the air quantity key each time is fixed for a consumer, namely the default air quantity gear starting sequence set by a manufacturer, and when the air quantity gear which is most frequently used by the consumer or has the highest use frequency is not the first sequence starting gear of the air quantity gear set by the manufacturer, the air quantity gear required by the consumer can be adjusted by adjusting for a plurality of times, so that the inconvenience is brought to the operation of the consumer.

Disclosure of Invention

The invention aims to solve at least one of the problems in the prior related art to a certain extent, and therefore, the invention provides a control method capable of automatically adjusting the starting sequence of air quantity gears, which can automatically adjust the starting sequence of the air quantity gears according to the use habits of users, is convenient for the users to operate quickly and better meets the individual requirements of different users.

The invention also provides a range hood applying the control method.

According to the control method capable of automatically adjusting the air quantity gear starting sequence, the control method is realized through the following technical scheme:

a control method capable of automatically adjusting the starting sequence of air quantity gears comprises the following steps:

s1: starting an air quantity gear starting sequence adjusting program and starting timing t 1;

s2: recording the times of using different air quantity gears by a user;

s3: judging whether the program running time t1 reaches the preset time ts1, if so, entering the next step, and if not, returning to the previous step;

s4: analyzing data of using times of different air quantity gears within preset time ts1, and reordering according to the using times from high to low to form a new air quantity gear starting sequence;

s5: memorizing and storing a new air quantity gear starting sequence;

s6: the program running time period t1 and the count are cleared and the process returns to step S1.

In some embodiments, the air volume gear comprises at least a high-level air volume and a low-level air volume.

In some embodiments, in step S2, the recording the number of times that the user uses different air volume steps includes the following steps:

s201: judging whether the user starts to use any one air volume gear, if so, starting to time t 2;

s202: judging whether the continuous use time t2 of the used air volume gear is greater than or equal to the preset time ts2, if so, entering the next step, otherwise, resetting the timer t2 and returning to the previous step;

s203: the number of the used air volume steps is increased by 1, the time t2 is cleared, and the process returns to step S201.

In some embodiments, the count of different air volume steps is recorded by a counting module electrically connected to a main controller of the air volume control system, or the count of different air volume steps is recorded by the main controller of the air volume control system.

In some embodiments, in step S3, the program run time period t1 is recorded by a timing module electrically connected to a main controller of the air volume control system, or the program run time period t1 is recorded by the main controller of the air volume control system.

In some embodiments, the preset time ts1 is an accumulated time period or a preset time period when the preset air volume control system works.

In some embodiments, the preset time ts1 is a preset program value or is set by an operation module electrically connected to a main controller of the air volume control system.

According to the range hood that provides above-mentioned, it realizes through following technical scheme:

a range hood applying the control method comprises a fan module, an operation module and a main controller, wherein the fan module and the operation module are respectively and electrically connected with the main controller, the operation module is provided with an air volume control key, and the air volume control key is at least provided with two different air volume gears; after the range hood is powered on, the main controller reorders the use times of different air quantity gears according to the use times within the preset time ts1 and according to the use times to form a new air quantity gear starting sequence.

In a first embodiment, the main controller has a counting function, a timing function, an analyzing function and a memory storage function, wherein the counting function is used for recording the counting function of the use times of different air volume gears, the timing function is used for recording the running time t1 of the air volume gear starting sequence adjusting program and the continuous use time t2 of any one air volume gear, the analyzing function is used for analyzing and reordering the data of the use times of different air volume gears within the preset time ts1, and the memory storage function is used for memorizing and storing a new air volume gear starting sequence.

In a second embodiment, the method further comprises: the timing module comprises a first timing module and a second timing module, wherein the first timing module and the second timing module are electrically connected with the main controller, the first timing module is used for recording the running time t1 of the air quantity gear starting sequence adjusting program, and the second timing module is used for recording the continuous use time t2 of any air quantity gear used by a user;

the counting module is electrically connected with the main controller and used for recording the use times of different air volume gears within preset time ts 1;

the analysis module is electrically connected with the main controller and is used for analyzing and reordering the data of the use times of different air quantity gears used by a user at preset time ts1 to form a new air quantity gear starting sequence;

and the memory module is electrically connected with the main controller and used for memorizing and storing a new air quantity gear starting sequence.

Compared with the prior art, the invention at least comprises the following beneficial effects: according to the control method capable of automatically adjusting the air quantity gear starting sequence, the using habits of users using different air quantity gears are recorded, analyzed and reordered to form a new air quantity gear starting sequence, so that the operation steps are simplified, the quick operation of the users is more convenient, the individual requirements of different users are met, and the intelligence of products is improved.

Drawings

Fig. 1 is a flowchart of a control method for automatically adjusting the starting sequence of air volume gears in embodiment 1 of the present invention;

fig. 2 is a flowchart of recording the number of times that a user uses different air volume gears in embodiment 1 of the present invention;

fig. 3 is a connection block diagram of the range hood in embodiment 1 of the present invention;

fig. 4 is another connection block diagram of the range hood in embodiment 2 of the present invention.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. Modifications to the embodiments of the invention or equivalent substitutions of parts of technical features without departing from the spirit of the invention are intended to be covered by the scope of the claims of the invention.

Example 1

As shown in fig. 1, a control method capable of automatically adjusting the wind volume gear start sequence includes:

s1: starting an air quantity gear starting sequence adjusting program and starting timing t 1;

specifically, the air volume control system comprises a main controller, a fan module and an operation module, wherein the main controller is provided with an air volume gear starting sequence adjusting program and has a timing function, and the timing function has a first sub-timing function for recording the running time t1 of the air volume gear starting sequence adjusting program. The fan module and the operation module are respectively connected with the main controller, wherein the operation module is provided with an air volume control key, and the air volume control key at least has two different air volume gears.

After the air volume control system is electrified, the main controller automatically controls the air volume gear starting sequence adjusting program to start, and meanwhile, the timing function of the main controller starts timing t1, so that a function key and a timer for starting the air volume gear starting sequence adjusting program do not need to be additionally arranged, and the manufacturing cost is favorably reduced.

S2: recording the times of using different air quantity gears by a user;

specifically, the main controller also has a counting function, the counting function has sub-counting functions with the same number as the air quantity gears, each sub-counting function corresponds to one air quantity gear and is used for recording the using times of the corresponding air quantity gear, and the accuracy of data recording is improved. The use habits of the user using different air volume gears are recorded through the counting function, so that the use habits of the user are analyzed according to the use times of the different air volume gears.

S3: judging whether the program running time t1 reaches the preset time ts1, if so, entering the next step, and if not, returning to the previous step;

s4: analyzing data of using times of different air quantity gears within preset time ts1, and reordering according to the using times from high to low to form a new air quantity gear starting sequence;

in particular, the master controller also has an analysis function. When the main controller judges that the program running time t1 reaches the preset time ts1, the main controller starts to analyze data of the use times of different air volume gears used by a user within the preset time ts1, and automatically rearranges the use times from high to low to form a new air volume gear starting sequence.

S5: memorizing and storing a new air quantity gear starting sequence;

specifically, the main controller also has a memory storage function to memorize and store a new air quantity gear starting sequence, so that the loss of the new air quantity gear starting sequence after power failure is prevented, and meanwhile, when a user operates an air quantity control key next time, logic control is automatically performed according to the new air quantity gear starting sequence, so that the user can rapidly operate to an air quantity gear with the highest use frequency by the least operation steps, the operation steps are simplified, the personalized requirements of the user are met, and the user experience is improved.

S6: the program running time period t1 and the count are cleared and the process returns to step S1.

According to the control method capable of automatically adjusting the air quantity gear starting sequence, the using habits of users using different air quantity gears within a period of time are recorded, the new air quantity gear starting sequence is formed after analysis and automatic reordering according to the using times of the different air quantity gears, the operation steps are simplified, the users can conveniently and quickly operate the air quantity gears with the highest using times, the personalized requirements of different users are met, and the intelligence of products is improved.

Preferably, the air quantity gear at least comprises a high-grade air quantity and a low-grade air quantity. In this embodiment, the air volume gear includes a high-level air volume, a middle-level air volume and a low-level air volume, and correspondingly, the counting function of the main control has three sub-counting functions, and each sub-counting function corresponds to one air volume gear and is used for recording the use times of the user using the corresponding air volume gear within the preset time ts 1.

As shown in fig. 2, further, in step S2, the method for recording the number of times that the user uses different air volume gears includes the following steps:

s201: judging whether the user starts to use any one air volume gear, if so, starting to time t 2;

specifically, the timing function also has a second sub-timing function for recording the duration t2 of any one air quantity gear continuously used by the user. When the main controller judges that the user starts any one air volume gear, the second sub-timing function of the main controller starts to record the continuous use time t2 of the used air volume gear.

S202: judging whether the continuous use time t2 of the used air volume gear is greater than or equal to the preset time ts2, if so, entering the next step, otherwise, resetting the timer t2 and returning to the previous step;

s203: the number of the used air volume steps is increased by 1, the time t2 is cleared, and the process returns to step S201.

Therefore, by taking the preset time ts2 as a judgment reference and comparing the relation between the continuous use time t2 of the used air volume gear and the preset time ts2, whether the user really uses any air volume gear is determined based on the comparison result, the error generated in the process of adjusting the air volume gear by the user is eliminated, and the accuracy of recording data is improved.

Preferably, the preset time ts1 is an accumulated time length or a preset time period when the preset air volume control system works. In the present embodiment, the preset time ts1 is a preset timing period to simplify the program algorithm.

Preferably, the preset time ts1 is a program preset value or is set through an operation module electrically connected with a main controller of the air volume control system. In this embodiment, the preset time ts1 is set by the operation module to adapt to the use habits of different users, so as to improve the adaptability and practicability of the product.

As shown in fig. 3, the present embodiment further provides a range hood applying the control method, the range hood includes a fan module, an operation module and a main controller, the fan module and the operation module are respectively electrically connected to the main controller, the operation module is provided with an air volume control key, and the air volume control key at least has two different air volume gears and is used for switching to an air volume gear to be used through the air volume control key; after the range hood is powered on, the main controller reorders the use times of different air quantity gears according to the use times within the preset time ts1 and according to the use times to form a new air quantity gear starting sequence.

Therefore, the use habits of the users using different air quantity gears within a period of time are recorded and analyzed, and the air quantity gears are reordered according to the descending order to form a new air quantity gear starting sequence, so that the starting sequence of the air quantity gears is automatically adjusted, the quick operation of the users is more convenient, and the individual requirements of the users are met.

Preferably, the main controller has a counting function, a timing function, an analyzing function and a memory storage function, wherein the counting function is used for recording the counting function of the use times of different air volume gears, the timing function is used for recording the running time t1 of the air volume gear starting sequence adjusting program and the continuous use time t2 of any one air volume gear, the analyzing function is used for analyzing and reordering the data of the use times of different air volume gears within the preset time ts1, and the memory storage function is used for memorizing and storing a new air volume gear starting sequence for preventing the new air volume gear starting sequence from being lost after power failure.

Example 2

As shown in fig. 4, the range hood of the present embodiment is different from embodiment 1 in that the range hood further includes: the timing module is electrically connected with the main controller and is used for recording the running time t1 of the air quantity gear starting sequence adjusting program and the continuous use time t2 of any air quantity gear used by a user;

the counting module is electrically connected with the main controller and used for recording the use times of different air volume gears within preset time ts 1;

the analysis module is electrically connected with the main controller and is used for analyzing and reordering the data of the use times of different air quantity gears used by a user at preset time ts1 to form a new air quantity gear starting sequence;

and the memory module is electrically connected with the main controller and used for memorizing and storing a new air quantity gear starting sequence.

The range hood of the embodiment is beneficial to simplifying the complexity and the algorithm of the main controller by arranging the timing module, the counting module, the analysis module and the memory module which are independent of each other.

Preferably, the timing module comprises a first sub timing module and a second sub timing module which are electrically connected with the main controller, wherein the first timing module is used for recording the running time t1 of the air quantity gear starting sequence adjusting program, and the second timing module is used for recording the continuous use time t2 of any one air quantity gear used by a user, so that the timing accuracy is improved through the two sub timing modules which are independent of each other.

Preferably, the counting module comprises a plurality of sub-counting modules with the same number as the air quantity gears, each sub-counting module corresponds to one air quantity gear and is electrically connected with the main controller, and the sub-counting modules are used for recording the number of times of use of the corresponding air quantity gears in a period of time so as to improve the accuracy and reliability of counting.

In other embodiments, the range hood can further comprise a monitoring module electrically connected with the main controller and used for judging whether a user starts to use any one air volume gear, so that the timeliness and the accuracy and the reliability of judging whether the user starts to use any one air volume gear can be improved through the monitoring module.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (10)

1. A control method capable of automatically adjusting the starting sequence of air quantity gears is characterized by comprising the following steps:

s1: starting an air quantity gear starting sequence adjusting program and starting timing t 1;

s2: recording the times of using different air quantity gears by a user;

s3: judging whether the program running time t1 reaches the preset time ts1, if so, entering the next step, and if not, returning to the previous step;

s4: analyzing data of using times of different air quantity gears within preset time ts1, and reordering according to the using times from high to low to form a new air quantity gear starting sequence;

s5: memorizing and storing a new air quantity gear starting sequence;

s6: the program running time period t1 and the count are cleared and the process returns to step S1.

2. The method as claimed in claim 1, wherein the air volume gear comprises at least a high-level air volume and a low-level air volume.

3. The control method of an automatically adjustable air quantity gear starting sequence according to claim 1, wherein in step S2, the recording the times of users using different air quantity gears comprises the following steps:

s201: judging whether the user starts to use any one air volume gear, if so, starting to time t 2;

s202: judging whether the continuous use time t2 of the used air volume gear is greater than or equal to the preset time ts2, if so, entering the next step, otherwise, resetting the timer t2 and returning to the previous step;

s203: the number of the used air volume steps is increased by 1, the time t2 is cleared, and the process returns to step S201.

4. The control method capable of automatically adjusting the starting sequence of the air volume gears according to claim 3, wherein the counts of different air volume gears are recorded by a counting module electrically connected with a main controller of the air volume control system, or the counts of different air volume gears are recorded by the main controller of the air volume control system.

5. The method as claimed in claim 1, wherein in step S3, the program running time t1 is recorded by a timing module electrically connected to the main controller of the air volume control system, or the program running time t1 is recorded by the main controller of the air volume control system.

6. The control method for automatically adjusting the wind volume shift starting sequence according to claim 1, wherein the preset time ts1 is an accumulated time length or a preset time period when a preset wind volume control system works.

7. The control method of the automatic adjustable air volume gear starting sequence according to the claim 1 or 6, characterized in that the preset time ts1 is a program preset value or is set by an operation module electrically connected with a main controller of the air volume control system.

8. A range hood applying the control method of any one of claims 1 to 7, comprising a fan module, an operation module and a main controller, wherein the fan module and the operation module are respectively electrically connected with the main controller, the operation module is provided with an air volume control key, and the air volume control key is at least provided with two different air volume gears; after the range hood is powered on, the main controller reorders the use times of different air quantity gears according to the use times within the preset time ts1 and according to the use times to form a new air quantity gear starting sequence.

9. The range hood according to claim 8, wherein the main controller has a counting function for recording the number of times of use of different air volume gears, a timing function for recording the operation duration t1 of the air volume gear start sequence adjustment program and the continuous use duration t2 of any one air volume gear, an analyzing function for analyzing and reordering the data of the number of times of use of different air volume gears within the preset time ts1, and a memory storage function for memorizing and storing a new air volume gear start sequence.

10. The range hood of claim 8, further comprising:

the timing module comprises a first timing module and a second timing module, wherein the first timing module and the second timing module are electrically connected with the main controller, the first timing module is used for recording the running time t1 of the air quantity gear starting sequence adjusting program, and the second timing module is used for recording the continuous use time t2 of any air quantity gear used by a user;

the counting module is electrically connected with the main controller and used for recording the use times of different air volume gears within preset time ts 1;

the analysis module is electrically connected with the main controller and is used for analyzing and reordering the data of the use times of different air quantity gears used by a user at preset time ts1 to form a new air quantity gear starting sequence;

and the memory module is electrically connected with the main controller and used for memorizing and storing a new air quantity gear starting sequence.

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