CN111795478B - Air purifier and control method thereof - Google Patents

Abstract

The invention provides an air purifier and a control method thereof, wherein the method adjusts the purification power of the air purifier according to the residual service life data of filter elements of a plurality of air purifiers in the same subspace or in communicated subspaces so as to ensure that the residual service life data of the filter elements of each air purifier are the same or gradually approximate; therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

Description

Air purifier and control method thereof

Technical Field

The application relates to the technical field of air purifiers, in particular to an air purifier and a control method thereof.

Background

With the continuous development of electronic equipment, the more delicate parts of the electronic equipment are, when a certain part breaks down, the electronic equipment may not work normally, and how to find out the fault of the part in time and replace the part in time becomes a problem to be solved urgently. At present, when a user finds that electronic equipment has a fault, the user does not know which part has the problem, and at the moment, the user needs to contact a manufacturer to check and maintain, and the manufacturer determines the part with the problem after checking and replaces the part. The related art has at least the following defects: when the electronic equipment breaks down, the electronic equipment needs to be checked to determine the parts with problems, the steps are complicated, and the maintenance efficiency is low.

In the prior art, document CN104392101A provides a data sharing method and apparatus, where the data sharing method includes: receiving and recording the running state data of each accessory reported by at least one air purifier, wherein the accessory comprises at least one of a fan, an air quality detector, a filter element, a noise detector and a chip in the air purifier; and analyzing the recorded running state data of each air purifier, and acquiring an analysis result corresponding to the use condition of the accessories in the air purifier. Analyzing the data and acquiring an analysis result corresponding to the use condition of the accessories in the air purifier by receiving and recording the running state data of various accessories reported by at least one air purifier; because the analysis result corresponding to the use condition of the accessory can be obtained, the problems that the parts with problems can be determined only by checking the electronic equipment, the steps are complicated, and the maintenance efficiency is low are solved; the effect of improving maintenance efficiency is achieved.

However, the above method only performs data analysis of the operation state for a single air purifier, if a plurality of air purifiers are present in a user's home, the above method can only obtain the analysis results for the use conditions of the air purifiers, and further perform operations such as analysis, logistics transportation, replacement and the like for the accessories of each air purifier at different or close time points, thereby causing the problems of very one-sided analysis results, inconvenience in repeated maintenance of similar products by users, higher cost of logistics distribution and replacement and the like, and especially for the lost components such as the filter element, if the remaining life of the filter element of different air purifiers in a certain home is close, the filter element is still purchased, twice logistics distribution and replacement are performed; therefore, a control method of the air purifier is needed to be provided, wherein the residual service lives of the filter elements of the air purifiers in a family are shortened, so that a user can conveniently purchase the air purifiers at one time and a merchant can conveniently distribute the air purifiers at one time, the inconvenience that the user repeatedly purchases like products is fundamentally reduced, and the logistics distribution cost is reduced.

Disclosure of Invention

The invention provides a control method of an air purifier, which comprises the following steps:

s1, a user client detects whether a plurality of air purifiers exist in a local area network, if so, a request for acquiring the position information and the operation state data of the plurality of air purifiers is sent to the user, and if the user accepts the request, the client establishes communication connection with the plurality of air purifiers and acquires the operation state data and the position information of each air purifier;

s2, the user client side obtains the position information of each air purifier, and if at least two air purifiers are in the same subspace or in the communicated subspaces, after receiving a starting instruction of the user to one air purifier in the same subspace or in the communicated subspace, the client side controls at least two air purifiers in the same subspace or in the communicated subspace to enter a linkage working mode;

s3, under the linkage working mode, the client side acquires the residual life data of the filter element in the running state data of each air purifier in the linkage working mode, and automatically adjusts the purifying power of the air purifier, so that the residual life data of the filter element of each air purifier are the same or gradually approximate.

As a preferred embodiment, the detecting, by the user client, whether a plurality of air purifiers exist in a local area network includes:

the user client detects whether an air purifier client is installed on a mobile terminal, if yes, the IP address of the air purifier establishing local area network connection with the air purifier client is obtained through user authorization, and the user client establishes local area network connection with the air purifier through the IP address; and the user client detects the number of the air purifiers which establish communication connection with the user client through the IP address in a preset time interval.

As a preferred embodiment, the method further comprises:

in the linkage working mode, each air purifier in the linkage working mode establishes communication connection with the user client through the IP address, and automatically disconnects the communication connection with the air purifier client;

and in the non-linkage working mode, each air purifier working in the linkage working mode establishes communication connection with the air purifier client through the IP address, and automatically disconnects the communication connection with the user client.

As a preferred embodiment, the obtaining, by the user client, the location information of each of the air purifiers specifically includes:

the user plans a plurality of communicable subspaces at the user client;

the air purifier is provided with a positioning device, and the user client side acquires the corresponding position information of the subspace of the air purifier through the positioning device.

As a preferred embodiment, the at least two air purifiers are in the same subspace or in a communicating subspace, and specifically include:

if the position information of at least two of the air purifiers is in the same subspace, at least two of the air purifiers are in the same subspace;

and acquiring the communication setting of the user to a plurality of subspaces, wherein if the position information of at least two air purifiers is in the subspaces with the communication, the at least two air purifiers are in the communicated subspaces.

As a preferred embodiment, the automatically adjusting the purifying power of the air purifiers to make the remaining life data of the filter element of each air purifier identical or gradually approximate includes:

if the air purifier with the filter element residual life less than a first life threshold value and the filter element residual life greater than the first life threshold value exists, automatically enabling the air purifier with the filter element residual life less than the first life threshold value to enter a sleep mode, and enabling the air purifier with the filter element residual life greater than the first life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually close to each other;

if the air purifier with the filter element residual life less than a first life threshold value does not exist, automatically enabling the air purifier with the filter element residual life between the first life threshold value and a second life threshold value to enter an automatic purification mode, and enabling the air purifier with the filter element residual life greater than the second life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually approximate; the first age threshold is less than the second age threshold;

if each air purifier's filter core remaining life all is less than first life threshold value, then make each automatically air purifier gets into energy-conserving purification mode, and the suggestion the user changes all air purifier's filter core.

As a preferred embodiment, the method further comprises:

if the residual life of the filter element of each air purifier is greater than the first life threshold and less than the second life threshold, automatically enabling each air purifier to enter an energy-saving purification mode, and adjusting the purification power of the air purifier in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same;

and if the residual service life of the filter element of each air purifier is greater than the second service life threshold value, automatically enabling each air purifier to enter a powerful purification mode, and adjusting the purification power of the air purifier in the powerful purification mode so as to enable the residual service life data of the filter element of each air purifier to be the same.

As a preferred embodiment, the method further comprises:

after the residual life data of the filter element of each air purifier are the same, automatically enabling each air purifier to maintain the same purification mode, and adjusting the purification power of the air purifier in the purification mode to maintain the residual life data of the filter element of each air purifier to be the same.

An air purifier is connected with a user client, and the user client executes the air purifier control method of any one of the above embodiments.

The invention provides an air purifier control method, which is characterized in that according to filter element residual life data of a plurality of air purifiers in the same subspace or in communicated subspaces, the purification power of the air purifiers is further adjusted, so that the filter element residual life data of each air purifier are the same or gradually approximate; therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following briefly introduces the embodiments and the drawings used in the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is an exemplary schematic diagram of an air purifier and its user client of the present invention.

Detailed Description

The embodiments of the present invention are further described below with reference to the drawings.

The first embodiment is as follows:

the invention provides a control method of an air purifier, which comprises the following steps:

s1, a user client detects whether a plurality of air purifiers exist in a local area network, if so, a request for acquiring the position information and the operation state data of the plurality of air purifiers is sent to the user, and if the user accepts the request, the client establishes communication connection with the plurality of air purifiers and acquires the operation state data and the position information of each air purifier; it should be noted that, because the air purifiers with clients appearing in the current market generally need to establish connection between the air purifier and the local area network and connection between the client and the local area network, connection between the client and the local area network or the wide area network of the air purifier is further realized; therefore, preferably, the local area networks are in the same wifi environment, that is, connected to the same wireless router. The position information of the air purifier can be acquired through a positioning device arranged in the air purifier, such as a GPS or Beidou positioning device; in addition, the method can also be realized through an indoor positioning mode of the local area network, for example, an air purifier carries a signal emission source, namely a positioning tag, meanwhile, a signal receiving device, namely a positioning base station (preferably a router) is installed indoors, the air purifier emits signals, the receiving device receives the signals through the router, the distance from the signal emission source air purifier to the receiving base station router can be obtained through the time when the signals are emitted to be received and the signal transmission speed, and the real-time position of the signal emission source can be calculated through three distances. The operation state data of the air purifier may include a current operation mode, an operation power, a remaining life of the filter element, and the like, which are not described herein in detail. The user client is a third-party client independent of the air purifier and the client thereof and is used for intensively controlling a plurality of different air purifiers belonging to the same brand or different brands.

S2, the user client side obtains the position information of each air purifier, and if at least two air purifiers are in the same subspace or in the communicated subspaces, after receiving a starting instruction of the user to one air purifier in the same subspace or in the communicated subspace, the client side controls at least two air purifiers in the same subspace or in the communicated subspace to enter a linkage working mode; it should be noted that, preferably, the subspace is a room or a compartment, or an independent space, such as a bedroom, a living room, etc.; and said location information for each of said air purifiers is contained within one of said subspaces; for example, air purifiers a and B are both located in the living room, or air purifier a is located in the living room and air purifier B is located in a bedroom communicating with the living room; and after receiving a starting instruction of the user to the air purifier A or B, the client controls the air purifier A and the air purifier B to enter a linkage working mode. Preferably, the communication can be an open communication structure, for example, between a living room and a restaurant which are not required to be isolated by a door; alternatively, the communication may be a structure of communication that can be partitioned, such as between a living room and a bedroom, separated by a door.

S3, under the linkage working mode, the client side acquires the residual life data of the filter element in the running state data of each air purifier in the linkage working mode, and automatically adjusts the purifying power of the air purifier, so that the residual life data of the filter element of each air purifier are the same or gradually approximate. It should be noted that, continuing with the above embodiment, in the linkage working mode, the air purifiers a and B can be subjected to linkage control only by one control instruction, and do not need to be separately controlled. For example, in the linkage working mode, the client acquires that the residual life data of the filter elements in the running state data of the air purifiers a and B in the linkage working mode are respectively 80% and 20%, and based on this, the purification powers of the air purifiers a and B are automatically adjusted so that the residual life data of the filter elements of the air purifiers a and B are the same or gradually approximate. Therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

As a preferred embodiment, the detecting, by the user client, whether a plurality of air purifiers exist in a local area network includes:

the user client detects whether an air purifier client is installed on a mobile terminal, if yes, the IP address of the air purifier establishing local area network connection with the air purifier client is obtained through user authorization, and the user client establishes local area network connection with the air purifier through the IP address; and the user client detects the number of the air purifiers which establish communication connection with the user client through the IP address in a preset time interval. It should be noted that, because the air purifiers with clients appearing in the current market generally need to establish connection between the air purifier and the lan and connection between the client and the lan, connection between the client and the lan or the wan is further implemented. After the user client acquires the IP addresses of the air purifiers A and B, the user client establishes local area network connection with the air purifiers A and B through the IP addresses to replace communication connection with a client configured by a manufacturer, so that control over the air purifiers A and B and data acquisition are acquired.

As a preferred embodiment, the method further comprises:

in the linkage working mode, each air purifier in the linkage working mode establishes communication connection with the user client through the IP address, and automatically disconnects the communication connection with the air purifier client; it should be noted that, after acquiring the IP addresses of the air purifiers a and B, the user client establishes a local area network connection with the air purifiers a and B through the IP addresses to replace a communication connection with a client configured by a manufacturer, thereby acquiring control and data acquisition of the air purifiers a and B.

And in the non-linkage working mode, each air purifier working in the linkage working mode establishes communication connection with the air purifier client through the IP address, and automatically disconnects the communication connection with the user client. It should be noted that, in the non-linked working mode, the air purifiers a and B establish communication connection with the client configured by the air purifier manufacturer through the IP addresses, and automatically disconnect the communication connection with the user client, so that the client configured by the air purifier manufacturer acquires control and data acquisition of the air purifiers a and B.

As a preferred embodiment, the obtaining, by the user client, the location information of each of the air purifiers specifically includes:

the user plans a plurality of communicable subspaces at the user client; it should be noted that, for example, the user plans a plurality of connectable sub-spaces, such as a living room, a restaurant, a bedroom, etc., in the home environment at the user client, the connectable sub-spaces may be implemented through a door, and whether the connectable sub-spaces are in the connected state may be manually set by the user on the planned house type diagram.

The air purifier is provided with a positioning device, and the user client side acquires the corresponding position information of the subspace of the air purifier through the positioning device. It should be noted that the position information of the air purifier can be obtained through a positioning device built in the air purifier, for example, a GPS or a beidou positioning device; in addition, the method can also be realized by an indoor positioning mode of the local area network. The user client side passes through positioner acquires the correspondence air purifier is in the positional information of subspace, exemplarily, air purifier A and B all are located the sitting room, perhaps, air purifier A is located the sitting room and air purifier B is located the bedroom with sitting room UNICOM.

As a preferred embodiment, the at least two air purifiers are in the same subspace or in a communicating subspace, and specifically include:

if the position information of at least two of the air purifiers is in the same subspace, at least two of the air purifiers are in the same subspace; note that, for example, the positional information of the air purifiers a and B is in the living room, and the air purifiers a and B are in the living room.

And acquiring the communication setting of the user to a plurality of subspaces, wherein if the position information of at least two air purifiers is in the subspaces with the communication, the at least two air purifiers are in the communicated subspaces. Note that, for example, air purifier a is located in the living room and air purifier B is located in the bedroom; and acquiring connectivity setting of the user to the living room and the bedroom, for example, setting the user to be in a communication state, namely, an opening state, and if the position information of the air purifiers A and B is in the subspace living room and the bedroom with connectivity, the air purifiers A and B are in the communicated subspace.

As a preferred embodiment, the automatically adjusting the purifying power of the air purifiers to make the remaining life data of the filter element of each air purifier identical or gradually approximate includes:

if the air purifier with the filter element residual life less than a first life threshold value and the filter element residual life greater than the first life threshold value exists, automatically enabling the air purifier with the filter element residual life less than the first life threshold value to enter a sleep mode, and enabling the air purifier with the filter element residual life greater than the first life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually close to each other; it is to be noted that, for example, if the first life threshold is 30%, the remaining life data of the filter elements of the air cleaners a and B are 80% and 20% respectively, there is the air purifier B having a filter element remaining life less than a first life threshold and there is the air purifier a having a filter element remaining life greater than the first life threshold, automatically putting the air purifier B with the filter element residual life less than a first life threshold into a sleep mode, putting the air purifier A with the filter element residual life greater than the first life threshold into a powerful purification mode, since the purifying power of the air purifier a in the powerful purifying mode is maximized, the remaining life of the filter element thereof is more rapidly reduced, and when the purification power of the air purifier B in the sleep mode is 0, the residual service life of the filter element of the air purifier B is not reduced, so that the residual service life data of the filter elements of the air purifiers A and B are gradually close to each other.

If the air purifier with the filter element residual life less than a first life threshold value does not exist, automatically enabling the air purifier with the filter element residual life between the first life threshold value and a second life threshold value to enter an automatic purification mode, and enabling the air purifier with the filter element residual life greater than the second life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually approximate; the first age threshold is less than the second age threshold; for example, the first life threshold is 30% and the second life threshold is 70%; if the filter element residual life data of the air purifiers A and B are respectively 80% and 50%, then the air purifier with the filter element residual life being less than the first life threshold value does not exist, then the air purifier B with the filter element residual life being between the first life threshold value and the second life threshold value is automatically made to enter an automatic purification mode, the air purifier A with the filter element residual life being greater than the second life threshold value is made to enter a powerful purification mode, the residual life of the filter element is reduced faster because the purification power of the air purifier A in the powerful purification mode is maximum, and the purification power of the air purifier B in the automatic purification mode is smaller, the residual life of the filter element is reduced slower, so that the filter element residual life data of the air purifiers A and B are gradually approximate.

If each air purifier's filter core remaining life all is less than first life threshold value, then make each automatically air purifier gets into energy-conserving purification mode, and the suggestion the user changes all air purifier's filter core. It should be noted that, for example, if the first life threshold is 30%, and if the remaining life data of the filter elements of the air purifiers a and B are 15% and 20%, respectively, and the remaining life of the filter elements of the air purifiers a and B are both less than the first life threshold, both the air purifiers a and B are automatically put into the energy-saving purification mode, the basic purification function is maintained, and the user is prompted to replace all the filter elements of the air purifiers.

As a preferred embodiment, the method further comprises:

if the residual life of the filter element of each air purifier is greater than the first life threshold and less than the second life threshold, automatically enabling each air purifier to enter an energy-saving purification mode, and adjusting the purification power of the air purifier in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same; for example, the first life threshold is 30% and the second life threshold is 70%; if the residual life data of the filter elements of the air purifiers A and B are 60% and 50% respectively, the residual life of the filter elements of the air purifiers A and B is greater than the first life threshold and less than the second life threshold, each air purifier automatically enters an energy-saving purification mode, and the purification power of the air purifiers A and B in the automatic purification mode is relatively close to each other, so that the residual life of the filter elements is reduced and is also close to each other; and adjusting the purification power of the air purifiers A and B in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same finally.

And if the residual service life of the filter element of each air purifier is greater than the second service life threshold value, automatically enabling each air purifier to enter a powerful purification mode, and adjusting the purification power of the air purifier in the powerful purification mode so as to enable the residual service life data of the filter element of each air purifier to be the same. For example, the first life threshold is 30% and the second life threshold is 70%; if the residual life data of the filter elements of the air purifiers A and B are respectively 80% and 90%, the residual life of the filter elements of the air purifiers A and B is greater than the second life threshold value, the air purifiers A and B automatically enter a powerful purification mode, and the purification power of the air purifiers A and B in the powerful purification mode is relatively close to that of the filter elements of the air purifiers A and B, and the residual life of the filter elements of the air purifiers A and B is reduced to be close to that of the filter elements of the air purifiers A and B; and adjusting the purifying power of the air purifiers A and B in the powerful purifying mode so as to enable the residual service life data of the filter element of each air purifier to be the same finally.

As a preferred embodiment, the method further comprises:

after the residual life data of the filter element of each air purifier are the same, automatically enabling each air purifier to maintain the same purification mode, and adjusting the purification power of the air purifier in the purification mode to maintain the residual life data of the filter element of each air purifier to be the same. For example, after the remaining life data of the filter elements of the air purifiers a and B are the same, the air purifiers a and B are automatically maintained in the same purification mode, such as the power purification mode or the automatic purification mode, and the purification powers of the air purifiers a and B in the purification mode are adjusted to maintain the remaining life data of the filter elements of the air purifiers a and B to be the same.

The invention provides an air purifier control method, which is characterized in that according to filter element residual life data of a plurality of air purifiers in the same subspace or in communicated subspaces, the purification power of the air purifiers is further adjusted, so that the filter element residual life data of each air purifier are the same or gradually approximate; therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

Example two:

in addition, as shown in fig. 1, the present invention provides an air purifier, the air purifier is connected to a user client, and the user client includes the following modules:

the communication connection module is used for detecting whether a plurality of air purifiers exist in a local area network or not by a user client, if so, sending a request for acquiring the position information and the running state data of the plurality of air purifiers to the user, and if the user accepts the request, establishing communication connection between the client and the plurality of air purifiers and acquiring the running state data and the position information of each air purifier; it should be noted that, because the air purifiers with clients appearing in the current market generally need to establish connection between the air purifier and the local area network and connection between the client and the local area network, connection between the client and the local area network or the wide area network of the air purifier is further realized; therefore, preferably, the local area networks are in the same wifi environment, that is, connected to the same wireless router. The position information of the air purifier can be acquired through a positioning device arranged in the air purifier, such as a GPS or Beidou positioning device; in addition, the method can also be realized through an indoor positioning mode of the local area network, for example, an air purifier carries a signal emission source, namely a positioning tag, meanwhile, a signal receiving device, namely a positioning base station (preferably a router) is installed indoors, the air purifier emits signals, the receiving device receives the signals through the router, the distance from the signal emission source air purifier to the receiving base station router can be obtained through the time when the signals are emitted to be received and the signal transmission speed, and the real-time position of the signal emission source can be calculated through three distances. The operation state data of the air purifier may include a current operation mode, an operation power, a remaining life of the filter element, and the like, which are not described herein in detail. The user client is a third-party client independent of the air purifier and the client thereof and is used for intensively controlling a plurality of different air purifiers belonging to the same brand or different brands.

The subspace judgment module is used for the user client to acquire the position information of each air purifier, and if at least two air purifiers are in the same subspace or in communicated subspaces, the client controls at least two air purifiers in the same subspace or in communicated subspaces to enter a linkage working mode after receiving a starting instruction of the user to one air purifier in the same subspace or in the communicated subspaces; it should be noted that, preferably, the subspace is a room or a compartment, or an independent space, such as a bedroom, a living room, etc.; and said location information for each of said air purifiers is contained within one of said subspaces; for example, air purifiers a and B are both located in the living room, or air purifier a is located in the living room and air purifier B is located in a bedroom communicating with the living room; and after receiving a starting instruction of the user to the air purifier A or B, the client controls the air purifier A and the air purifier B to enter a linkage working mode. Preferably, the communication can be an open communication structure, for example, between a living room and a restaurant which are not required to be isolated by a door; alternatively, the communication may be a structure of communication that can be partitioned, such as between a living room and a bedroom, separated by a door.

And the linkage working module is used for acquiring the data of the residual service life of the filter element in the running state data of the air purifier by the client side in the linkage working mode, and automatically adjusting the purification power of the air purifier so as to enable the residual service life of the filter element of the air purifier to be the same or gradually close to each other. It should be noted that, continuing with the above embodiment, in the linkage working mode, the air purifiers a and B can be subjected to linkage control only by one control instruction, and do not need to be separately controlled. For example, in the linkage working mode, the client acquires that the residual life data of the filter elements in the running state data of the air purifiers a and B in the linkage working mode are respectively 80% and 20%, and based on this, the purification powers of the air purifiers a and B are automatically adjusted so that the residual life data of the filter elements of the air purifiers a and B are the same or gradually approximate. Therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

As a preferred embodiment, the detecting, by the user client, whether a plurality of air purifiers exist in a local area network includes:

the user client detects whether an air purifier client is installed on a mobile terminal, if yes, the IP address of the air purifier establishing local area network connection with the air purifier client is obtained through user authorization, and the user client establishes local area network connection with the air purifier through the IP address; and the user client detects the number of the air purifiers which establish communication connection with the user client through the IP address in a preset time interval. It should be noted that, because the air purifiers with clients appearing in the current market generally need to establish connection between the air purifier and the lan and connection between the client and the lan, connection between the client and the lan or the wan is further implemented. After the user client acquires the IP addresses of the air purifiers A and B, the user client establishes local area network connection with the air purifiers A and B through the IP addresses to replace communication connection with a client configured by a manufacturer, so that control over the air purifiers A and B and data acquisition are acquired.

As a preferred embodiment, the method further comprises:

in the linkage working mode, each air purifier in the linkage working mode establishes communication connection with the user client through the IP address, and automatically disconnects the communication connection with the air purifier client; it should be noted that, after acquiring the IP addresses of the air purifiers a and B, the user client establishes a local area network connection with the air purifiers a and B through the IP addresses to replace a communication connection with a client configured by a manufacturer, thereby acquiring control and data acquisition of the air purifiers a and B.

And in the non-linkage working mode, each air purifier working in the linkage working mode establishes communication connection with the air purifier client through the IP address, and automatically disconnects the communication connection with the user client. It should be noted that, in the non-linked working mode, the air purifiers a and B establish communication connection with the client configured by the air purifier manufacturer through the IP addresses, and automatically disconnect the communication connection with the user client, so that the client configured by the air purifier manufacturer acquires control and data acquisition of the air purifiers a and B.

As a preferred embodiment, the obtaining, by the user client, the location information of each of the air purifiers specifically includes:

the user plans a plurality of communicable subspaces at the user client; it should be noted that, for example, the user plans a plurality of connectable sub-spaces, such as a living room, a restaurant, a bedroom, etc., in the home environment at the user client, the connectable sub-spaces may be implemented through a door, and whether the connectable sub-spaces are in the connected state may be manually set by the user on the planned house type diagram.

The air purifier is provided with a positioning device, and the user client side acquires the corresponding position information of the subspace of the air purifier through the positioning device. It should be noted that the position information of the air purifier can be obtained through a positioning device built in the air purifier, for example, a GPS or a beidou positioning device; in addition, the method can also be realized by an indoor positioning mode of the local area network. The user client side passes through positioner acquires the correspondence air purifier is in the positional information of subspace, exemplarily, air purifier A and B all are located the sitting room, perhaps, air purifier A is located the sitting room and air purifier B is located the bedroom with sitting room UNICOM.

As a preferred embodiment, the at least two air purifiers are in the same subspace or in a communicating subspace, and specifically include:

if the position information of at least two of the air purifiers is in the same subspace, at least two of the air purifiers are in the same subspace; note that, for example, the positional information of the air purifiers a and B is in the living room, and the air purifiers a and B are in the living room.

And acquiring the communication setting of the user to a plurality of subspaces, wherein if the position information of at least two air purifiers is in the subspaces with the communication, the at least two air purifiers are in the communicated subspaces. Note that, for example, air purifier a is located in the living room and air purifier B is located in the bedroom; and acquiring connectivity setting of the user to the living room and the bedroom, for example, setting the user to be in a communication state, namely, an opening state, and if the position information of the air purifiers A and B is in the subspace living room and the bedroom with connectivity, the air purifiers A and B are in the communicated subspace.

As a preferred embodiment, the automatically adjusting the purifying power of the air purifiers to make the remaining life data of the filter element of each air purifier identical or gradually approximate includes:

if the air purifier with the filter element residual life less than a first life threshold value and the filter element residual life greater than the first life threshold value exists, automatically enabling the air purifier with the filter element residual life less than the first life threshold value to enter a sleep mode, and enabling the air purifier with the filter element residual life greater than the first life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually close to each other; it is to be noted that, for example, if the first life threshold is 30%, the remaining life data of the filter elements of the air cleaners a and B are 80% and 20% respectively, there is the air purifier B having a filter element remaining life less than a first life threshold and there is the air purifier a having a filter element remaining life greater than the first life threshold, automatically putting the air purifier B with the filter element residual life less than a first life threshold into a sleep mode, putting the air purifier A with the filter element residual life greater than the first life threshold into a powerful purification mode, since the purifying power of the air purifier a in the powerful purifying mode is maximized, the remaining life of the filter element thereof is more rapidly reduced, and when the purification power of the air purifier B in the sleep mode is 0, the residual service life of the filter element of the air purifier B is not reduced, so that the residual service life data of the filter elements of the air purifiers A and B are gradually close to each other.

If the air purifier with the filter element residual life less than a first life threshold value does not exist, automatically enabling the air purifier with the filter element residual life between the first life threshold value and a second life threshold value to enter an automatic purification mode, and enabling the air purifier with the filter element residual life greater than the second life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually approximate; the first age threshold is less than the second age threshold; for example, the first life threshold is 30% and the second life threshold is 70%; if the filter element residual life data of the air purifiers A and B are respectively 80% and 50%, then the air purifier with the filter element residual life being less than the first life threshold value does not exist, then the air purifier B with the filter element residual life being between the first life threshold value and the second life threshold value is automatically made to enter an automatic purification mode, the air purifier A with the filter element residual life being greater than the second life threshold value is made to enter a powerful purification mode, the residual life of the filter element is reduced faster because the purification power of the air purifier A in the powerful purification mode is maximum, and the purification power of the air purifier B in the automatic purification mode is smaller, the residual life of the filter element is reduced slower, so that the filter element residual life data of the air purifiers A and B are gradually approximate.

If each air purifier's filter core remaining life all is less than first life threshold value, then make each automatically air purifier gets into energy-conserving purification mode, and the suggestion the user changes all air purifier's filter core. It should be noted that, for example, if the first life threshold is 30%, and if the remaining life data of the filter elements of the air purifiers a and B are 15% and 20%, respectively, and the remaining life of the filter elements of the air purifiers a and B are both less than the first life threshold, both the air purifiers a and B are automatically put into the energy-saving purification mode, the basic purification function is maintained, and the user is prompted to replace all the filter elements of the air purifiers.

As a preferred embodiment, the method further comprises:

if the residual life of the filter element of each air purifier is greater than the first life threshold and less than the second life threshold, automatically enabling each air purifier to enter an energy-saving purification mode, and adjusting the purification power of the air purifier in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same; for example, the first life threshold is 30% and the second life threshold is 70%; if the residual life data of the filter elements of the air purifiers A and B are 60% and 50% respectively, the residual life of the filter elements of the air purifiers A and B is greater than the first life threshold and less than the second life threshold, each air purifier automatically enters an energy-saving purification mode, and the purification power of the air purifiers A and B in the automatic purification mode is relatively close to each other, so that the residual life of the filter elements is reduced and is also close to each other; and adjusting the purification power of the air purifiers A and B in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same finally.

And if the residual service life of the filter element of each air purifier is greater than the second service life threshold value, automatically enabling each air purifier to enter a powerful purification mode, and adjusting the purification power of the air purifier in the powerful purification mode so as to enable the residual service life data of the filter element of each air purifier to be the same. For example, the first life threshold is 30% and the second life threshold is 70%; if the residual life data of the filter elements of the air purifiers A and B are respectively 80% and 90%, the residual life of the filter elements of the air purifiers A and B is greater than the second life threshold value, the air purifiers A and B automatically enter a powerful purification mode, and the purification power of the air purifiers A and B in the powerful purification mode is relatively close to that of the filter elements of the air purifiers A and B, and the residual life of the filter elements of the air purifiers A and B is reduced to be close to that of the filter elements of the air purifiers A and B; and adjusting the purifying power of the air purifiers A and B in the powerful purifying mode so as to enable the residual service life data of the filter element of each air purifier to be the same finally.

As a preferred embodiment, the method further comprises:

after the residual life data of the filter element of each air purifier are the same, automatically enabling each air purifier to maintain the same purification mode, and adjusting the purification power of the air purifier in the purification mode to maintain the residual life data of the filter element of each air purifier to be the same. For example, after the remaining life data of the filter elements of the air purifiers a and B are the same, the air purifiers a and B are automatically maintained in the same purification mode, such as the power purification mode or the automatic purification mode, and the purification powers of the air purifiers a and B in the purification mode are adjusted to maintain the remaining life data of the filter elements of the air purifiers a and B to be the same.

The invention provides an air purifier, which is connected with a user client, wherein the user client adjusts the purification power of the air purifier according to the residual life data of filter elements of a plurality of air purifiers in the same subspace or communicated subspaces so as to enable the residual life data of the filter elements of each air purifier to be the same or gradually approximate; therefore, the air purifiers reach the filter element replacement opportunity in the time period close to or the same as the time period, so that the filter elements of the air purifiers can be conveniently purchased by a user at one time and delivered by a merchant at one time, the inconvenience of repeatedly purchasing similar products by the user is fundamentally reduced, and the logistics delivery cost is reduced.

It will be understood by those within the art that each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, 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, 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 methods specified in the block or blocks of the block diagrams and/or flowchart block or blocks.

Those of skill in the art will appreciate that various operations, methods, steps in the processes, acts, or solutions discussed in the present application may be alternated, modified, combined, or deleted. Further, various operations, methods, steps in the flows, which have been discussed in the present application, may be interchanged, modified, rearranged, decomposed, combined, or eliminated. Further, steps, measures, schemes in the various operations, methods, procedures disclosed in the prior art and the present invention can also be alternated, changed, rearranged, decomposed, combined, or deleted.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A method of controlling an air purifier, the method comprising the steps of:

s1, a user client detects whether a plurality of air purifiers exist in a local area network, if so, a request for acquiring the position information and the operation state data of the plurality of air purifiers is sent to the user, and if the user accepts the request, the client establishes communication connection with the plurality of air purifiers and acquires the operation state data and the position information of each air purifier;

s2, the user client side obtains the position information of each air purifier, and if at least two air purifiers are in the same subspace or in the communicated subspaces, after receiving a starting instruction of the user to one air purifier in the same subspace or in the communicated subspace, the client side controls at least two air purifiers in the same subspace or in the communicated subspace to enter a linkage working mode;

s3, in the linkage working mode, the client side obtains the residual service life data of the filter element in the running state data of each air purifier in the linkage working mode, and automatically adjusts the purifying power of the air purifier so that the residual service life data of the filter element of each air purifier are the same or gradually approximate;

automatically adjusting the purification power of the air purifier to make each filter element residual life data of the air purifier the same or gradually approximate, specifically comprising:

if the air purifier with the filter element residual life less than a first life threshold value and the filter element residual life greater than the first life threshold value exists, automatically enabling the air purifier with the filter element residual life less than the first life threshold value to enter a sleep mode, and enabling the air purifier with the filter element residual life greater than the first life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually close to each other;

if the air purifier with the filter element residual life less than a first life threshold value does not exist, automatically enabling the air purifier with the filter element residual life between the first life threshold value and a second life threshold value to enter an automatic purification mode, and enabling the air purifier with the filter element residual life greater than the second life threshold value to enter a powerful purification mode, so that the filter element residual life data of each air purifier are gradually approximate; the first age threshold is less than the second age threshold;

if each air purifier's filter core remaining life all is less than first life threshold value, then make each automatically air purifier gets into energy-conserving purification mode, and the suggestion the user changes all air purifier's filter core.

2. The method according to claim 1, wherein the user client detects whether a plurality of air purifiers exist in a local area network, and specifically comprises:

the user client detects whether an air purifier client is installed on a mobile terminal, if yes, the IP address of the air purifier establishing local area network connection with the air purifier client is obtained through user authorization, and the user client establishes local area network connection with the air purifier through the IP address; and the user client detects the number of the air purifiers which establish communication connection with the user client through the IP address in a preset time interval.

3. The method of claim 2, further comprising:

in the linkage working mode, each air purifier in the linkage working mode establishes communication connection with the user client through the IP address, and automatically disconnects the communication connection with the air purifier client;

and in the non-linkage working mode, each air purifier working in the linkage working mode establishes communication connection with the air purifier client through the IP address, and automatically disconnects the communication connection with the user client.

4. The method of claim 1, wherein the obtaining, by the user client, the location information of each of the air purifiers comprises:

the user plans a plurality of communicable subspaces at the user client;

the air purifier is provided with a positioning device, and the user client side acquires the corresponding position information of the subspace of the air purifier through the positioning device.

5. The method according to claim 4, wherein the at least two air purifiers are in the same subspace or in a communicating subspace, in particular comprising:

if the position information of at least two of the air purifiers is in the same subspace, at least two of the air purifiers are in the same subspace;

and acquiring the communication setting of the user to a plurality of subspaces, wherein if the position information of at least two air purifiers is in the subspaces with the communication, the at least two air purifiers are in the communicated subspaces.

6. The method of claim 1, further comprising:

if the residual life of the filter element of each air purifier is greater than the first life threshold and less than the second life threshold, automatically enabling each air purifier to enter an energy-saving purification mode, and adjusting the purification power of the air purifier in the energy-saving purification mode so as to enable the residual life data of the filter element of each air purifier to be the same;

and if the residual service life of the filter element of each air purifier is greater than the second service life threshold value, automatically enabling each air purifier to enter a powerful purification mode, and adjusting the purification power of the air purifier in the powerful purification mode so as to enable the residual service life data of the filter element of each air purifier to be the same.

7. The method of claim 6, further comprising:

after the residual life data of the filter element of each air purifier are the same, automatically enabling each air purifier to maintain the same purification mode, and adjusting the purification power of the air purifier in the purification mode to maintain the residual life data of the filter element of each air purifier to be the same.

8. An air purifier connected to a user client that performs the air purifier control method of any one of claims 1-7.

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