CN112381550B - Filter element anti-counterfeiting method and filter element anti-counterfeiting system - Google Patents

Abstract

The application is applicable to the technical field of filter element anti-counterfeiting, and provides a filter element anti-counterfeiting method and a filter element anti-counterfeiting system, wherein the filter element anti-counterfeiting method comprises the following steps: when detecting that the currently installed filter element needs to be replaced, the water purifying equipment limits the target function of the water purifying equipment; the mobile terminal obtains an identification code of a filter element to be installed and sends the identification code of the filter element to be installed to a server, wherein the identification code is arranged on the filter element to be installed; the server identifies the identification code of the filter element to be installed, and sends an activation code generation instruction to the mobile terminal when the identification code passes; when the mobile terminal receives the activation code generation instruction, an activation code is generated, and the activation code is sent to the water purification equipment; and after the water purifying equipment receives the activation code, the target function is recovered. The application can reduce the anti-counterfeiting cost and complexity of the filter element.

Description

Filter element anti-counterfeiting method and filter element anti-counterfeiting system

Technical Field

The application belongs to the technical field of filter element anti-counterfeiting, and particularly relates to a filter element anti-counterfeiting method and a filter element anti-counterfeiting system.

Background

It is well known that water is a source of life and safe water is relevant to the health of hundreds of millions of households. Along with the development of social industrialization, water pollution is increasingly serious, and water purifying equipment is favored by people. Along with the improvement of the living standard of people, the popularization rate of the water purifying equipment is gradually improved. The core device of the water purifying equipment is a filter element, and a plurality of filter elements with poor quality appear on the current market, so that the performance and normal operation of the water purifying equipment are seriously affected.

Aiming at the problems, many water purification equipment manufacturers propose different anti-counterfeiting methods for the filter element, such as structural anti-counterfeiting, anti-counterfeiting of the Internet of things and the like, but the anti-counterfeiting methods need to improve the structure of the filter element or increase the equipment of the Internet of things, so that the anti-counterfeiting cost and the complexity of the filter element are increased.

Disclosure of Invention

The application provides a filter element anti-counterfeiting method and a filter element anti-counterfeiting system, which are used for reducing the anti-counterfeiting cost and complexity of a filter element.

In a first aspect, an embodiment of the present application provides a filter element anti-counterfeiting method, where the filter element anti-counterfeiting method includes:

when detecting that the currently installed filter element needs to be replaced, the water purifying equipment limits the target function of the water purifying equipment;

the mobile terminal obtains an identification code of a filter element to be installed and sends the identification code of the filter element to be installed to a server, wherein the identification code is arranged on the filter element to be installed;

The server identifies the identification code of the filter element to be installed, and sends an activation code generation instruction to the mobile terminal when the identification code passes;

When the mobile terminal receives the activation code generation instruction, an activation code is generated, and the activation code is sent to the water purification equipment;

And after the water purifying equipment receives the activation code, the target function is recovered.

In a second aspect, an embodiment of the present application provides a filter element anti-counterfeiting system, where the filter element anti-counterfeiting system includes a water purifying device, a mobile terminal, and a server;

the water purifying equipment is used for limiting the target function of the water purifying equipment when detecting that the currently installed filter element needs to be replaced;

The mobile terminal is used for acquiring the identification code of the filter element to be installed and sending the identification code of the filter element to be installed to the server, and the identification code is arranged on the filter element to be installed;

the server is used for identifying the identification code of the filter element to be installed and sending an activation code generation instruction to the mobile terminal when the identification code passes;

the mobile terminal is used for generating an activation code when receiving the activation code generation instruction and sending the activation code to the water purifying equipment;

And after the water purifying equipment receives the activation code, the target function is recovered.

From the above, the identification code of the filter element to be installed is obtained through the mobile terminal, the identification code of the filter element to be installed is sent to the server, the identification code of the filter element to be installed is identified through the server, and the target function of the water purifying equipment is recovered based on the activation code generated by the mobile terminal when the identification passes, so that the water purifying equipment is activated, and the water purifying equipment is recovered to normal operation. The identification code of the filter element to be installed, which is sent by the mobile terminal, is identified through the server, so that whether the filter element to be installed is a filter element matched with the water purifying equipment or not can be identified, and the water purifying equipment is activated when the filter element is the filter element matched with the water purifying equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic implementation flow chart of a filter element anti-counterfeiting method provided in an embodiment of the application;

fig. 2 is a schematic implementation flow chart of an anti-counterfeiting method for a filter element according to a second embodiment of the present application;

Fig. 3 is a schematic structural diagram of an anti-counterfeiting system for a filter element according to a third embodiment of the present application.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present application. It will be apparent, however, to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It should be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

In particular implementations, the mobile terminals described in embodiments of the application include, but are not limited to, other portable devices such as cell phones, laptop computers, or tablet computers having touch-sensitive surfaces (e.g., touch screen displays and/or touchpads).

The mobile terminal supports various applications, such as one or more of the following: drawing applications, presentation applications, word processing applications, website creation applications, disk burning applications, spreadsheet applications, gaming applications, telephony applications, video conferencing applications, email applications, instant messaging applications, workout support applications, photo management applications, digital camera applications, digital video camera applications, web browsing applications, digital music player applications, and/or digital video player applications.

Various applications that may be executed on the mobile terminal may use at least one common physical user interface device such as a touch-sensitive surface. One or more functions of the touch-sensitive surface and corresponding information displayed on the mobile terminal may be adjusted and/or changed between applications and/or within the corresponding applications. In this way, the common physical architecture (e.g., touch-sensitive surface) of the mobile terminal may support various applications with user interfaces that are intuitive and transparent to the user.

In a specific implementation, the servers described in the embodiments of the present application include, but are not limited to, a cloud server, a common server, etc., where the cloud server is a server cluster, and the common server is a server with a relatively fixed position.

In a specific implementation, the water purifying device described in the embodiment of the present application may refer to a device having a water purifying function, where the water purifying device includes, but is not limited to, an ultrafiltration water purifier, a front-end water purifier, a water softener, a bathroom water purifier, and the like.

In specific implementation, the filter element described in the embodiments of the present application is used to clean water to a state required by production and living, that is, to achieve a certain cleanliness of water, where the filter element includes, but is not limited to, an activated carbon filter element, a melt-blown filter element, a ceramic filter element, a resin filter element, and the like.

It should be understood that, the sequence number of each step in this embodiment does not mean the execution sequence, and the execution sequence of each process should be determined by its function and internal logic, and should not limit the implementation process of the embodiment of the present application in any way.

In order to illustrate the technical scheme of the application, the following description is made by specific examples.

Referring to fig. 1, a schematic implementation flow diagram of a filter element anti-counterfeiting method according to an embodiment of the present application is provided, where the filter element anti-counterfeiting method is applied to a filter element anti-counterfeiting system, and the filter element anti-counterfeiting system includes a water purifying device, a mobile terminal, and a server, and as shown in the figure, the filter element anti-counterfeiting method may include the following steps:

step 101, when detecting that the currently installed filter element needs to be replaced, the water purifying equipment limits the target function of the water purifying equipment.

In this embodiment, whether the currently installed filter element needs to be replaced or not may be determined by detecting the service life of the currently installed filter element, if the service life of the currently installed filter element expires, determining that the currently installed filter element needs to be replaced, and if the service life of the currently installed filter element does not expire, determining that the currently installed filter element does not need to be replaced. It should be noted that, other methods capable of detecting whether the currently installed filter element needs to be replaced are also within the protection scope of the present application, for example, by detecting at least one method of a water pump working time, a water flow, a water quality, a water pressure, etc., to detect whether the currently installed filter element needs to be replaced, specifically, when the water pump working time of the water purifying apparatus exceeds a preset working time, the water flow is smaller than a preset flow, the water quality is worse, and/or the water pressure is smaller than a preset water pressure, it is determined that the currently installed filter element needs to be replaced. The currently installed filter element refers to the currently installed filter element in the water purifying equipment.

The target function may be at least one function for controlling whether the water purifying apparatus can normally operate, and a user may set the target function according to actual needs, for example, the target function is a reset function of the water purifying apparatus. Through the target function of restriction water purification unit, can restrict water purification unit normal operating to avoid appearing when needs change the filter core, because still use this filter core, lead to water purification unit's water purification performance to descend, influence user's healthy phenomenon.

Step 102, the mobile terminal obtains the identification code of the filter element to be installed and sends the identification code of the filter element to be installed to the server.

The filter element to be installed is provided with an identification code, the identification code is the identification code of the filter element to be installed, and the identification code can be arranged on the filter element to be installed in a printing, pasting, embedding and other modes. The identification code of the filter element to be installed includes, but is not limited to, information such as the type of the filter element to be installed, delivery date, production place and the like, and a user can set the information contained in the identification code according to actual needs, so that the filter element to be installed is not limited.

In order to better distinguish between different filter cartridges, the identification codes of the different filter cartridges may be set to be different, i.e. the identification codes of the filter cartridges are unique identification codes, the identification code of each filter cartridge having a uniqueness.

In this embodiment, when the target function of the water purification apparatus is limited, the user may read the identification code set on the filter element to be installed by holding the mobile terminal, thereby obtaining the identification code of the filter element to be installed. Optionally, the mobile terminal may read the identification code set on the filter element to be installed by at least one of scanning, photographing, shooting, near Field Communication (NFC), and the like.

In this embodiment, the mobile terminal may perform data communication with the server through a mobile network or a wireless fidelity (WIRELESS FIDELITY, WIFI) provided by an operator such as mobile, telecommunications, radio and television, or may perform data communication with the server through other data transmission capable modes, which is not limited herein.

When data is transmitted between the mobile terminal and the server, the data may be directly transmitted or transferred through an intermediate device, which is not limited herein.

Step 103, the server identifies the identification code of the filter element to be installed, and sends an activation code generation instruction to the mobile terminal when the identification passes.

The activation code generation instruction is used for prompting the mobile terminal to generate the activation code.

In this embodiment, after receiving the identification code of the filter element to be installed sent by the mobile terminal, the server identifies the identification code of the filter element to be installed, if the identification is passed, determines that the filter element to be installed is a genuine filter element (i.e. a filter element matched with the water purifying device), and can send an activation code generation instruction to the mobile terminal to prompt the mobile terminal to generate an activation code; if the filter element is not identified to pass, the filter element to be installed is determined to be a poor filter element (i.e. the filter element which is not matched with the water purifying equipment), and a notification for ending the filter element replacement process can be sent to the mobile terminal so as to inform the mobile terminal to stop executing the subsequent filter element replacement process (for example, stopping replacing the currently installed filter element with the filter element to be installed). Wherein, the filter element to be installed is a genuine filter element, which is understood as the filter element to be installed is the filter element sold by the manufacturer of the water purifying equipment, and the filter element to be installed is a poor filter element, which is understood as the filter element to be installed is not the filter element sold by the manufacturer of the water purifying equipment.

Optionally, the server identifying the identification code of the filter element to be installed, and sending the activation code generation instruction to the mobile terminal when the identification passes includes:

the server compares the identification code of the filter element to be installed with the identification code in the second identification code library, and sends an activation code generation instruction to the mobile terminal when the comparison is passed.

The second identification code library can be used for storing the identification codes of the sold filter elements of the water purification equipment manufacturer.

In this embodiment, when the identification code of the filter element to be installed is compared with the identification code in the second identification code library, the comparison may be performed directly or by a first preset algorithm, which is not limited herein. The direct comparison may be to detect whether the second identifier code library has the same identifier code as the identifier code of the filter element to be installed, if so, determine that the comparison passes, and if not, determine that the comparison fails; the comparison through the first preset algorithm may refer to that the identification code of the filter element to be installed is deformed through the first preset algorithm, the deformed identification code is obtained, whether the identification code identical to the deformed identification code exists in the second identification code library is detected, if the identification code identical to the deformed identification code exists, the comparison is determined to pass, if the identification code identical to the deformed identification code does not exist, the comparison is determined to not pass, and when the comparison method is used, the identification code stored in the second identification code library may refer to the identification code of the filter element sold by the manufacturer of the water purification equipment, which is obtained after the identification code is deformed through the first preset algorithm. The first preset algorithm may be any algorithm preset by the user and capable of deforming the data, and the specific implementation manner is not limited herein.

Step 104, when the mobile terminal receives the activation code generation instruction, the mobile terminal generates an activation code and sends the activation code to the water purification equipment.

In this embodiment, the data communication between the mobile terminal and the water purifying device may be implemented by wireless modes such as bluetooth, wiFi, zigBee, etc., wired modes such as universal serial bus (Universal Serial Bus, USB), audio line, etc., or modes such as infrared communication, optical communication, acoustic wave communication, etc.

As another embodiment, when receiving the activation code generation instruction, the mobile terminal can also prompt a user to replace the currently installed filter element with the filter element to be installed, so that replacement management of the filter element is realized.

Optionally, sending the activation code to the water purification device includes:

and transmitting the activation code to the water purifying equipment by adopting acoustic wave communication.

In this embodiment, the mobile terminal transmits the activation code to the water purification device by adopting acoustic communication, so that the communication cost between the mobile terminal and the water purification device can be reduced. When the data communication between the mobile terminal and the water purifying device is established by adopting the acoustic communication, a microphone can be arranged in the water purifying device and used for collecting the activation code sent by the mobile terminal through the acoustic communication.

Optionally, after generating the activation code, the method further includes:

encrypting the activation code to obtain an encrypted activation code;

Accordingly, transmitting the activation code to the water purification apparatus includes:

and sending the encrypted activation code to the water purifying equipment.

In this embodiment, in order to improve the security of the activation code, the activation code may be encrypted and then sent to the water purifying device, and after the water purifying device receives the encrypted activation code, the encrypted activation code needs to be decrypted first, and the water purifying device is activated based on the decrypted activation code.

Step 105, after receiving the activation code, the water purifying device resumes the target function.

In this embodiment, after the water purification device receives the activation code, it may be determined that the filter element to be installed is an original filter element, and in order to ensure normal operation of the water purification device, the target function limited before may be recovered.

Optionally, when detecting that the currently installed filter element needs to be replaced, the water purifying device limits the target functions of the water purifying device to include:

When detecting that the currently installed filter element needs to be replaced, the water purifying equipment reminds a user to replace the currently installed filter element and limits the target function of the water purifying equipment;

correspondingly, after the water purifying device receives the activation code, the recovery of the target function comprises:

after receiving the activation code, the water purifying equipment releases the reminding and resumes the target function.

In this embodiment, when detecting that the currently installed filter element needs to be replaced, the water purifying apparatus may issue a reminder to remind the user to replace the currently installed filter element, where the reminder includes, but is not limited to, a buzzer sound, flashing in a display area, displaying preset information in the display area (e.g., displaying "filter element needs to be replaced" in the display area), and the like. When the water purifying device detects that the currently installed filter element needs to be replaced, the water purifying device does not need to remind, and the target function is not limited, namely, the water purifying device does not execute any operation or has no change, and the water purifying device is not limited.

After the water purifying equipment receives the activation code, the reminding is released, so that the water purifying equipment can be prevented from sending the reminding all the time after the anti-counterfeiting detection of the filter element is completed, and the power consumption of the water purifying equipment is saved.

Optionally, after receiving the activation code, the water purifying device restores the target function including:

After receiving the activation code, the water purifying device acquires the stored identification code of the water purifying device;

Comparing the activation code with the stored identification code of the water purifying equipment, and recovering the target function when the comparison is passed.

After receiving the activation code, the water purifying device can acquire the stored identification code from its own storage device, or can acquire the stored identification code from a control board of the water purifying device. The storage device is located in the water purifying device, when the water purifying device leaves the factory, the identification code of the water purifying device can be stored in the storage device, after the water purifying device receives the activation code, the stored identification code can be obtained from the storage device, the activation code received from the mobile terminal is compared with the stored identification code to judge whether the water purifying device receiving the activation code is the water purifying device really needing to be activated, if the water purifying device receiving the activation code passes the comparison, the water purifying device receiving the activation code is determined to be the water purifying device which the user wants to be activated (namely the water purifying device matched with the activation code), at the moment, the target function of the water purifying device can be recovered, so that the water purifying device is activated, if the water purifying device does not pass the comparison, the water purifying device receiving the activation code is determined not to be the water purifying device which the user wants to be activated, at the moment, an activation failure instruction can be sent to the mobile terminal, and the mobile terminal can prompt that the water purifying device receiving the activation code is not the water purifying device which the user wants to be activated by the user through a preset prompt mode (for example, preset information is displayed on a screen of the mobile terminal, or voice prompt activation failure and the like).

In this embodiment, through utilizing identification code, mobile terminal and the server of waiting to install the filter core can accomplish the anti-fake detection and the change management of the filter core to water purification unit, its anti-fake detection mode and change management mode easy operation, management convenient operation, and the cost is lower, can ensure water purification unit in life cycle's product quality on the whole, prevents to influence water purification performance and user's health of water purification equipment because of poor filter core.

In this embodiment, when data is transmitted between devices, the transmitted data may be encrypted or not encrypted, which is not limited herein.

According to the embodiment of the application, the identification code of the filter element to be installed, which is sent by the mobile terminal, is identified through the server, so that whether the filter element to be installed is an original filter element matched with the water purifying equipment or not can be identified, and the water purifying equipment is activated when the filter element is the original filter element, and the anti-counterfeiting process does not need to carry out structural improvement on the water purifying equipment, does not need to be realized based on the Internet of things, and reduces the anti-counterfeiting cost and complexity of the filter element.

Referring to fig. 2, a schematic implementation flow diagram of a filter element anti-counterfeiting method according to a second embodiment of the present application is provided, where the filter element anti-counterfeiting method is applied to a filter element anti-counterfeiting system, and the filter element anti-counterfeiting system includes a water purifying device, a mobile terminal, and a server, and as shown in the figure, the filter element anti-counterfeiting method may include the following steps:

Step 201, when detecting that the currently installed filter element needs to be replaced, the water purifying device limits the target function of the water purifying device.

The step is the same as step 101, and specific reference may be made to the description related to step 101, which is not repeated here.

Step 202, the mobile terminal obtains the identification code of the water purifying device and sends the identification code of the water purifying device to the server.

The water purifying device is provided with an identification code, the identification code is the identification code of the water purifying device, and the identification code can be arranged on the water purifying device in a printing, sticking, embedding and other modes. The identification code of the water purifying device includes, but is not limited to, information such as the type, delivery date, production place, etc. of the water purifying device, and the user can set the information contained in the identification code according to actual needs by himself, which is not limited herein.

In order to better distinguish different water purifying devices, the identification codes of the different water purifying devices can be set to be different, namely, the identification codes of the water purifying devices are unique identification codes, and the identification codes of each water purifying device have uniqueness.

In this embodiment, when the target function of the water purification apparatus is limited, the user may read the identification code set on the water purification apparatus by holding the mobile terminal, thereby obtaining the identification code of the water purification apparatus. Optionally, the mobile terminal may read the identification code set on the water purifying device by at least one of scanning, photographing, shooting, NFC, and the like.

Step 203, the server identifies the identification code of the water purifying device, and sends prompt information to the mobile terminal when the identification passes.

The prompting information is used for prompting the mobile terminal to acquire the identification code of the filter element to be installed.

In this embodiment, after receiving the identification code of the water purification device sent by the mobile terminal, the server identifies the identification code of the water purification device, and if the identification is passed, determines that the water purification device is produced by a target manufacturer, and may send prompt information to the mobile terminal to prompt the mobile terminal to obtain the identification code of the filter element to be installed; if the identification fails, determining that the water purifying equipment is not the water purifying equipment produced by the target manufacturer, and sending a notification for ending the filter element replacement process to the mobile terminal so as to inform the mobile terminal of stopping executing the subsequent filter element replacement process. The target manufacturer may be a preset manufacturer that produces the water purifying device.

Optionally, the server identifies the identification code of the water purifying device, and sending the prompt message to the mobile terminal when the identification passes includes:

the server compares the identification code of the water purifying equipment with the identification code in the first identification code library, and sends prompt information to the mobile terminal when the comparison is passed.

The first identification code library may be used to store the identification codes of water purifying equipment sold by the manufacturer of the water purifying equipment (i.e. the target manufacturer).

In this embodiment, when the identification code of the water purifying device is compared with the identification code in the first identification code library, the comparison may be performed directly, or may be performed by a second preset algorithm, which is not limited herein. The direct comparison may be to detect whether the first identifier code library has the same identifier code as the identifier code of the water purifying device, if so, determine that the comparison is passed, and if not, determine that the comparison is not passed; the comparison through the second preset algorithm may refer to that the identification code of the water purifying equipment is deformed through the second preset algorithm, the deformed identification code is obtained, whether the identification code identical to the deformed identification code exists in the first identification code library is detected, if the identification code identical to the deformed identification code exists, the comparison is determined to pass, if the identification code identical to the deformed identification code does not exist, the comparison is determined to not pass, and when the comparison method is used, the identification code stored in the first identification code library may refer to the identification code obtained after the identification code of the water purifying equipment sold by the manufacturer of the water purifying equipment is deformed through the second preset algorithm. The second preset algorithm may be any algorithm preset by the user and capable of deforming the data, and the specific implementation manner is not limited herein.

Step 204, when receiving the prompt information, the mobile terminal obtains the identification code of the filter element to be installed, and sends the identification code of the filter element to be installed to the server.

In this embodiment, when the mobile terminal receives the prompt message, it is determined that the water purifying device in step 202 and step 203 is a water purifying device produced by a target manufacturer, and is a water purifying device that needs to perform filter element replacement.

Step 205, the server identifies the identification code of the filter element to be installed, and sends an activation code generation instruction to the mobile terminal when the identification passes.

The step is the same as step 103, and specific reference may be made to the related description of step 103, which is not repeated here.

Step 206, when the mobile terminal receives the activation code generation instruction, the mobile terminal generates an activation code according to the identification code of the water purification equipment and sends the activation code to the water purification equipment.

Specifically, when the activation code is generated according to the identification code of the water purifying device, the identification code of the water purifying device can be directly used as the activation code, the identification code of the water purifying device can be deformed by a third preset algorithm, and the deformed identification code is used as the activation code. It should be noted that other ways of generating the activation code according to the identification code of the water purifying device are also within the protection scope of the present application. The third preset algorithm may be any algorithm preset by the user and capable of deforming the data, and the specific implementation manner is not limited herein.

When the identification code of the water purifying device is directly used as the activation code, comparing the activation code with the stored identification code of the water purifying device can be used for detecting whether the activation code is identical to the stored identification code of the water purifying device, if so, determining that the comparison is passed, and if not, determining that the comparison is not passed; when the deformed identification code is used as the activation code, the deformed identification code can be firstly analyzed, whether the analyzed identification code is identical to the stored identification code of the water purifying equipment or not is detected, or whether the identification code stored in the water purifying equipment is the identification code of the water purifying equipment deformed through a third preset algorithm is directly detected, if the identification code is identical to the stored identification code deformed, the comparison is determined to be passed, and if the identification code is not identical to the stored identification code deformed, the comparison is determined to be failed.

Step 207, after receiving the activation code, the water purifying device resumes the target function.

This step is the same as step 105, and specific reference may be made to the description related to step 105, which is not repeated here.

It should be noted that, a filter core management and control application program may be installed in the mobile terminal, and the operation of the mobile terminal in the present application is controlled by the filter core management and control application program, for example, the filter core management and control application program reads the identification code of the water purifying device and the identification code of the filter core to be installed. The filter element management application program can be software, an applet or an application with an interactive function such as a public number.

According to the embodiment of the application, the identification code of the water purifying equipment is obtained through the mobile terminal, and the identification code of the water purifying equipment is sent to the server, so that whether the water purifying equipment is produced by a target manufacturer can be further verified, and the probability of controlling the wrong water purifying equipment is reduced.

Referring to fig. 3, a schematic diagram of a filter element anti-counterfeiting system according to a third embodiment of the present application is provided, and for convenience of explanation, only a portion related to the embodiment of the present application is shown.

The filter element anti-counterfeiting system comprises a water purifying device 31, a mobile terminal 32 and a server 33;

the water purifying device 31 is used for limiting the target function of the water purifying device when detecting that the currently installed filter element needs to be replaced;

The mobile terminal 32 is configured to obtain an identification code of a filter element to be installed, and send the identification code of the filter element to be installed to the server 33, where the identification code is set on the filter element to be installed;

the server 33 is configured to identify an identification code of the filter element to be installed, and send an activation code generation instruction to the mobile terminal 32 when the identification code passes;

the mobile terminal 32 is configured to generate an activation code when receiving an activation code generation instruction, and send the activation code to the water purification device 31;

the water purifying device 31 is used for recovering the target function after receiving the activation code.

Optionally, the mobile terminal 32 is further configured to:

acquiring an identification code of the water purifying device 31, and sending the identification code of the water purifying device 31 to the server 33, wherein the identification code is arranged on the water purifying device 31;

The server 33 is also configured to:

Identifying the identification code of the water purifying device 31 and sending prompt information to the mobile terminal 32 when the identification passes;

the mobile terminal 32 is specifically configured to:

And when the prompt information is received, acquiring an identification code of the filter element to be installed.

Optionally, the server 33 is specifically configured to:

the identification code of the water purifying device 31 is compared with the identification codes in the first identification code library, and prompt information is sent to the mobile terminal 32 when the comparison is passed.

Optionally, the mobile terminal 32 is specifically configured to:

Upon receiving the activation code generation instruction, an activation code is generated from the identification code of the water purification apparatus 31.

Optionally, the server 33 is specifically configured to:

and comparing the identification code of the filter element to be installed with the identification code in the second identification code library, and sending an activation code generation instruction to the mobile terminal 32 when the comparison is passed.

Alternatively, the water purifying apparatus 31 is specifically configured to:

after receiving the activation code, acquiring the stored identification code of the water purifying device 31;

the activation code is compared with the stored identification code of the water purifying device 31, and the target function is restored when the comparison is passed.

Optionally, the mobile terminal 32 is specifically configured to:

the activation code is transmitted to the water purification apparatus 31 using acoustic communication.

Optionally, the mobile terminal 32 is specifically configured to:

encrypting the activation code to obtain an encrypted activation code;

the encrypted activation code is sent to the water purification apparatus 31.

Alternatively, the above water purifying apparatus 31 is specifically configured to:

when detecting that the currently installed filter element needs to be replaced, reminding a user to replace the currently installed filter element and limiting the target function of the user;

after receiving the activation code, the reminder is released and the target function is restored.

The system provided in the embodiment of the present application may be applied to the first and second embodiments of the foregoing method, and details refer to the description of the first and second embodiments of the foregoing method, which are not repeated herein.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and in part, not described or illustrated in any particular embodiment, reference is made to the related descriptions of other embodiments.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (10)

1. The filter element anti-counterfeiting method is characterized by comprising the following steps of:

when detecting that the currently installed filter element needs to be replaced, the water purifying equipment limits the target function of the water purifying equipment;

the mobile terminal obtains an identification code of a filter element to be installed and sends the identification code of the filter element to be installed to a server, wherein the identification code is arranged on the filter element to be installed;

the server identifies the identification code of the filter element to be installed, and sends an activation code generation instruction to the mobile terminal when the identification code passes, wherein the activation code generation instruction is used for indicating the mobile terminal to generate an activation code;

When the mobile terminal receives the activation code generation instruction, an activation code is generated, and the activation code is sent to the water purification equipment;

And after the water purifying equipment receives the activation code, the target function is recovered.

2. The filter element anti-counterfeiting method according to claim 1, further comprising, after limiting the target function thereof:

The mobile terminal acquires the identification code of the water purifying equipment and sends the identification code of the water purifying equipment to the server, wherein the identification code is arranged on the water purifying equipment;

the server identifies the identification code of the water purifying equipment and sends prompt information to the mobile terminal when the identification code passes;

Correspondingly, the mobile terminal obtaining the identification code of the filter element to be installed comprises:

and when the mobile terminal receives the prompt information, acquiring the identification code of the filter element to be installed.

3. The filter element anti-counterfeiting method according to claim 2, wherein the server identifies the identification code of the water purification device and sends prompt information to the mobile terminal when the identification passes comprises:

and the server compares the identification code of the water purifying equipment with the identification code in the first identification code library and sends prompt information to the mobile terminal when the comparison is passed.

4. The filter element anti-counterfeiting method according to claim 2, wherein the mobile terminal generates the activation code when receiving the activation code generation instruction, and comprises:

And when the mobile terminal receives the activation code generation instruction, the activation code is generated according to the identification code of the water purification equipment.

5. The filter element anti-counterfeiting method according to claim 1, wherein the server identifies the identification code of the filter element to be installed, and when the identification passes, sending an activation code generation instruction to the mobile terminal comprises:

And the server compares the identification code of the filter element to be installed with the identification code in the second identification code library, and sends the activation code generation instruction to the mobile terminal when the comparison is passed.

6. The filter element anti-counterfeiting method according to claim 1, wherein the water purification device, after receiving the activation code, resumes the target function comprises:

After the water purifying equipment receives the activation code, acquiring a stored identification code of the water purifying equipment;

comparing the activation code with the stored identification code of the water purifying equipment, and recovering the target function when the comparison is passed.

7. The filter element anti-counterfeiting method according to claim 1, wherein the transmitting the activation code to the water purification device comprises:

And transmitting the activation code to the water purifying equipment by adopting acoustic wave communication.

8. The filter element anti-counterfeiting method according to claim 1, further comprising, after the activation code is generated:

Encrypting the activation code to obtain the encrypted activation code;

Accordingly, the transmitting the activation code to the water purification apparatus includes:

and sending the encrypted activation code to the water purifying equipment.

9. A filter cartridge anti-counterfeiting method according to any one of claims 1 to 8, wherein limiting the target function of the water purification device itself when detecting that the currently installed filter cartridge needs replacement comprises:

When detecting that the currently installed filter element needs to be replaced, the water purifying equipment reminds a user to replace the currently installed filter element and limits the target function of the water purifying equipment;

Correspondingly, after the water purifying device receives the activation code, the recovering the target function includes:

And after the water purifying equipment receives the activation code, the reminding is released and the target function is recovered.

10. A filter element anti-counterfeiting system, characterized in that the filter element anti-counterfeiting system comprises a water purifying device, a mobile terminal and a server, and the filter element anti-counterfeiting system is used for realizing the steps of the filter element anti-counterfeiting method according to any one of claims 1 to 9.