RU2680991C2 - Water purifying system and filter element management and control method based on water purifying system - Google Patents

Abstract

FIELD: water and air purification technology.SUBSTANCE: invention is intended for water purification. In the method, the water purifying system includes a water purifying device that contains a filter element for filtering water, an filter element identification device which is provided on the filter element and which is used to identify the filter element, a filter element recognition device for reading identification information from the filter element identification device, a remote control interface for transmitting identification information read by the filter element recognition device to the manufacturer data management center, a device for measuring the properties of water to measure the properties of water filtered by the filter element, and a control device that has a connection with the device for measuring water properties and the remote control interface and which is used to store and process the output information of the device for measuring the properties of water and for transmitting information about the quality of water filtered by the filter element to the manufacturer data management center, when the verification result received from the manufacturer data management center indicates that the filter element is appropriate. Also the method for control and management of filter elements based on the water treatment system is carried out using the described system.EFFECT: improved quality of water purification, increased service life of the water purifier.13 cl, 6 dwg

Description

Technical field

[0001] The present invention relates to the field of communication, namely, to a water treatment system and a method for monitoring and administering filter elements based on a water treatment system.

BACKGROUND OF THE INVENTION

[0002] If the water purifier is operated for a period of time, the quality of the water may decrease, in which case the user will need to replace the filter element. If the filter element is not replaced in a timely manner, the water purifier will not be able to provide effective water treatment. If an inappropriate or low-quality filter element is used, then in this case the water purifier will also not be able to provide effective water purification.

[0003] In the state of the art, to prevent an untimely replacement of the filter by the user, a display panel or light indication is installed on the water purifiers, which signals the end of the service life of the filter element. When the time spent by the filter element reaches the duration allowed by the manufacturer, the user is promptly indicated on the need to replace the filter element. However, at the current level of technology, the use of suitable filter elements can only be ensured by including such a requirement in the product description, and there are no practical and effective means to ensure that the filter element is suitable.

[0004] Since the water quality in different places is not the same and can be inconsistent even at one location, the actual service life of the filter element differs from the calculated one, which can potentially lead to situations where the state of the filter element is displayed as serviceable in case of its actual malfunction. In other words, the data available to a particular user and the data used as an assumption by the manufacturer do not correspond to each other, and this leads to the fact that the filter element is replaced either too early or too late. Or, since there are no effective means of communication between the user and the manufacturer, even when the user uses an unsuitable or faulty filter element, the manufacturer cannot find out about this, and this leads to the fact that the quality of the water treatment of the water purifier cannot reach the indicators declared by the manufacturer. Also, since the filter elements are not identifiable, the service life indicator on the water purifier cannot provide accurate information about when it is necessary to replace the filter element, that is, the cycle of replacing the filter elements can be determined by the user solely on the basis of his practical experience, which negatively affects the quality water treatment and the life of the water purifier.

SUMMARY OF THE INVENTION

[0005] In order to overcome the disadvantages of the state of the art, the present invention provides a water treatment system and a method for monitoring and administering filter elements based on a water treatment system.

[0006] In accordance with a first aspect of embodiments of the present invention, a water treatment system is provided. The water treatment system includes a water purification device, while the water purification device includes a filter element for filtering water, and the water purification system further includes:

[0007] a filter element identification device that is located on the filter element and which is used to identify the filter element;

[0008] a filter element recognition device for reading identification information from a filter element identification device; and

[0009] a remote control interface for transmitting identification information read by the filter element recognition device to a manufacturer data control center.

[0010] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0011] The above water treatment system may further include:

[0012] a water property measuring device for measuring the properties of water filtered by a filter element; and

[0013] a control device that is connected to a water property measuring device and a remote control interface and which is used to store and process the output information of the water property measuring device.

[0014] The technical solution proposed in the embodiments of the present invention not only makes it possible to guarantee the use of suitable filter elements by the user, but also allows to register information about the quality of the water that has been cleaned with a water purification device, determine the need to replace the filter element according to the water quality information, and prompt the user to timely replacement of the filter element, which ensures a guaranteed high quality of water treatment and Rodley life of water treatment devices.

[0015] The above water treatment system may further include:

[0016] an indication device that is connected to the control device and which is used to display the usage status of the filter element.

[0017] The technical solution proposed in the embodiments of the present invention not only makes it possible to guarantee the use of suitable filter elements by the user, but also allows you to register information about the quality of the water that has been cleaned with a water treatment device, determine the need to replace the filter element according to the water quality information, display user intuitive information about the state of use of the filter element, prompting the user to time hydrochloric replacement filter element that allows to provide guaranteed high quality water purification and water treatment to extend the life of the device.

[0018] The above water treatment system may further include:

[0019] an intermediate device connected to a water treatment device.

[0020] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0021] The water treatment system described above may further differ in that the filter element recognition device is disposed in the water treatment device or in the intermediate device.

[0022] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0023] The above water treatment system may further differ in that the remote control interface is located in the water treatment device or in the intermediate device.

[0024] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0025] The above-described water treatment system may further differ in that the control device is disposed in the water treatment device or in the intermediate device.

[0026] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0027] The above-described water treatment system may further differ in that the indication device is disposed in the water treatment device or in the intermediate device.

[0028] The technical solutions proposed in the embodiments of the present invention make it possible to guarantee high quality of water treatment and extend the life of the water treatment device.

[0029] The above water treatment system may further differ in that the intermediate device is placed inside the water treatment device.

[0030] The technical solutions proposed in the embodiments of the present invention can guarantee high quality water treatment and extend the life of the water treatment device.

[0031] In accordance with a second aspect of embodiments of the present invention, there is provided a method for monitoring and controlling filter elements in a water treatment system, comprising:

[0032] obtaining identification information of the filter element in the water treatment device.

[0033] transmitting identification information to a data management center of the manufacturer of the water treatment device;

[0034] receiving the verification result of the identification information returned by the producer data center; and

[0035] processing the filter element according to the verification result.

[0036] The technical solutions proposed in the embodiments of the present invention make it possible to guarantee the use of suitable filter elements by the user and encourage the user to replace the filter element in a timely manner, which can ensure high quality water treatment and extend the life of the water treatment device.

[0037] The method of monitoring and administering the filter elements described above may further differ in that the processing of the filter element according to the verification result includes:

[0038] receiving and transmitting information about the quality of the water filtered by the filter element to the producer data control center when the verification result indicates that the filter element is suitable;

[0039] receiving information on the residual life of the filter element returned by the manufacturer’s data center, the information on the residual life of the filter element is determined by the manufacturer’s data center according to the water quality information and technical parameters contained in the identification information.

[0040] The technical solutions proposed in the embodiments of the present invention guarantee the user to use only suitable filter elements and encourage the user to replace the filter element in a timely manner, which can ensure high quality water treatment and extend the life of the water treatment device.

[0041] The method for monitoring and administering the filter elements described above may further differ in that the processing of the filter element according to the verification result also includes:

[0042] displaying information about the residual life of the filter element.

[0043] The method for monitoring and administering filter elements described above may further differ in that the processing of the filter element according to the verification result includes:

[0044] receiving and transmitting information about the quality of the water filtered by the filter element to the manufacturer’s data center when the verification result indicates that the filter element is suitable;

[0045] receiving a determination result returned by the manufacturer’s data center that indicates whether a replacement of the filter element is necessary, wherein the determination is generated by the manufacturer’s data center according to the water quality information; and

[0046] an indication to the user of the need to replace the filter element when the determination result indicates that a replacement of the filter element is necessary.

[0047] The technical solutions proposed in the embodiments of the present invention guarantee the user to use only suitable filter elements and encourage the user to replace the filter element in a timely manner, which can ensure high quality water treatment and extend the life of the water treatment device.

[0048] The method for monitoring and administering filter elements described above may further differ in that the processing of the filter element according to the verification result includes:

[0049] an indication to the user of the need to replace the filter element when the verification result indicates that the filter element is inappropriate.

[0050] The technical solutions proposed in the embodiments of the present invention guarantee the user to use only suitable filter elements and encourage the user to replace the filter element in a timely manner, which can ensure high quality water treatment and extend the life of the water treatment device.

[0051] The method for monitoring and administering the filter elements described above may further differ in that the processing of the filter element according to the verification result includes:

[0052] the user is instructed to correct the position of the filter element or install the filter element when the verification result indicates that the filter element is not installed.

[0053] The technical solutions proposed in the embodiments of the present invention make it possible to guarantee the user to use only suitable filter elements and encourage the user to replace the filter element in a timely manner, which can ensure high quality water treatment and extend the life of the water treatment device.

[0054] It should be understood that both the foregoing general description and the detailed description below are solely illustrative and explanatory, and do not limit the present invention.

Brief Description of the Drawings

[0055] The attached drawings, which are part of the present description and are an integral part thereof, illustrate embodiments of the present invention. The accompanying drawings, together with a description, serve to clarify the intent of the present invention.

[0056] FIG. 1 is a first block diagram illustrating a water treatment system in accordance with one embodiment of the present invention.

[0057] FIG. 2 is a second block diagram illustrating a water treatment system in accordance with one embodiment of the present invention.

[0058] FIG. 3 is a third block diagram illustrating a water treatment system in accordance with one embodiment of the present invention.

[0059] FIG. 4 is a fourth block diagram illustrating a water treatment system in accordance with one embodiment of the present invention.

[0060] FIG. 5 is a fifth block diagram illustrating a water treatment system in accordance with one embodiment of the present invention.

[0061] FIG. 6 is a flowchart for a method for monitoring and administering filter elements based on a water treatment system, in accordance with one embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0062] The present invention will now be described in more detail using specific examples of its implementation, which are illustrated in the attached drawings. The following description is made with reference to the attached drawings, where, unless otherwise indicated, the same symbols in different drawings indicate the same or similar elements. The implementations of embodiments of the present invention described in the description below are not all possible implementations corresponding to the present invention. On the contrary, they are solely examples of devices and methods that correspond to some of the aspects associated with the present invention and set forth in the attached claims.

[0063] FIG. 1 is a first block diagram illustrating a water treatment system in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 1, the water treatment system includes a filter element 10, a filter element identification device 110, a filter element recognition device 20, and a remote control interface 30. The filter element 10 is placed in a water purification device from the water treatment system. In other words, the water treatment system includes a water treatment device, and the water treatment device includes a filter element 10. The filter element 10 is used to filter water. The filter element identification device 110 is located on the filter element and is used to identify the filter element 10. The filter element recognition device 20 is used to read identification information from the filter element identification device 110. The remote control interface 30 is used to transmit identification information read by the filter element recognition device 20 to the manufacturer's data control center. The filter element recognition device 20 and the filter element identification device 110 may be connected wirelessly. The filter element recognition device 20 and the remote control interface 30 can be connected wirelessly or via wired communication.

[0064] The filter element identification device 110 may be a barcode or rewritable chip. The barcode may be fixed on the surface of the filter element housing or may be an identification code embedded in the filter element housing. Various information can be recorded in the rewritable microcircuit, for example, model number, manufacturer and technical parameters of the filter element. A rewritable microcircuit can be mounted on the housing of the filter element or fixed on the outer surface of the filter element. The identification information in the filter element identification device 110 may include information such as model number, manufacturer, and technical parameters of the filter element.

[0065] The filter element recognition device 20 may be a scanner. The filter element recognition device 20 not only makes it possible to recognize the filter element identifier, but can also be used to determine if the filter element is in the correct position, which ensures the normal operation of the filter element. If the filter element is not installed correctly or removed, the filter element recognition device 20 may indicate to the user that the filter element must be installed correctly.

[0066] The remote control device 30 and the manufacturer data control center are connected wirelessly. The wireless connection may be a WiFi connection, a GPRS connection (General Packet Radio Service, general packet radio system), an infrared connection, and the like. The information connection between the remote control interface 30 and the manufacturer's data center can be a real-time connection, a weekly connection or a monthly connection, and the connection period can be set in accordance with the operating system of the user.

[0067] In operation, the filter element recognition device 20 reads identification information from the filter element identification device 110 and transmits this identification information to a manufacturer data center. The manufacturer’s data center checks whether the filter element used by the user is suitable according to the identification information; and if the filter element used by the user is unsuitable (for example, the model number of the filter element does not match the model number of the water treatment device), the manufacturer can notify the user of the need to replace the filter element by landline or mobile phone. Thus, the use of suitable filtering elements by the user can be guaranteed, which allows to guarantee high quality of water treatment and to extend the service life of the water treatment device.

[0068] The water treatment system illustrated in this embodiment of the present invention ensures that only suitable filter elements are used by users, so that high quality water treatment can be ensured and the life of the water treatment device can be extended.

[0069] FIG. 2 is a second block diagram illustrating a water treatment system in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 2, the water treatment system includes a filter element 10, a filter element identification device 110, a filter element recognition device 20, a remote control interface 30, a water property measuring device 40, and a control device 50. The purpose of the filter element, the filter element identification device 110, the filter element recognition device 20, and the remote control interface 30 have been discussed above and will not be repeated here. A device 40 for measuring the properties of water is used to measure the properties of water filtered by a filter element. The control device 50 is connected to a water property measuring device 40 and to a control interface 30. The control device 50 is used to store and process information received from the device 40 for measuring the properties of water. The water property measuring device 40 and the device 50 are galvanically connected to each other.

[0070] The remote control interface 30 and the control device 50 can be combined in one module or function as two relatively independent modules. The water property measuring device 40 and the control device 50 can be combined in one module or function as two relatively independent modules.

[0071] The water property measuring device 40 may be placed in a water passage channel connected to the filter element 10. The water property measuring device 40 may be a Total Dissolved Solids (TDS) analyzer, water temperature sensor, flow meter, hydraulic pressure gauge, etc. A device 40 for measuring the properties of water is used to collect information on the properties of water filtered using a filter element 10, such as information about water quality, information about water temperature, information about the amount of water, information about water pressure, information about water flow, etc. . The manufacturer’s data center can use the water property measuring device 40, setting a period for regularly collecting information about the quality of the water purified by the water purification device. If the user has not replaced the filter element when, after a certain period of time, the water quality has ceased to comply with the safety standard for water quality, the manufacturer can notify the user of the need to replace the filter element by landline or mobile phone. The manufacturer’s data center can also determine information about the residual life of the filter element according to water quality information and technical parameters in the identification information of the filter element. The user can timely replace the filter element according to the information on the remaining service life of the filter element, which allows to guarantee high quality water treatment.

[0072] The water purification system proposed in this embodiment of the present invention not only makes it possible to guarantee the use of suitable filter elements by the user, but also allows recording information about the quality of the water that has been cleaned by the water purifying device, determines the need to replace the filter element according to the water quality information and prompts the user to timely replacement of the filter element, which ensures a guaranteed high quality water treatment Ki and extend the life of the water treatment device.

[0073] FIG. 3 is a third block diagram illustrating a water treatment system in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 3, the water treatment system includes a filter element 10, a filter element identification device 110, a filter element recognition device 20, a remote control interface 30, a water property measuring device 40, a control device 50, and an indication device 60. The purpose of the filter element, filter element identification device 110, filter element recognition device 20, remote control interface 30, water property measuring device 40 and control device 50 has already been discussed above and will not be described here again. The display device 60 is connected to the control device 50. An indication device 60 is used to display the usage status of the filter element 10.

[0074] The display device 60 may remind the user of the usage status of the filter element 10, for example, an inappropriate filter element, that the filter element is not installed (a possible reason is the incorrect installation of the filter element, or that the filter element has been removed), about the residual life of the filter element, etc.

[0075] The water treatment system proposed in this embodiment of the present invention not only makes it possible to guarantee the use of suitable filter elements by the user, but also allows you to record information about the quality of the water that has been cleaned by the water treatment device, to determine whether the replacement of the filter element is necessary according to the quality information water, and can also display intuitive information about the state of use of the filter element to the user in order to dit user to timely replace the filter element, which allows for guaranteed high quality treatment and extend the life of water treatment devices.

[0076] FIG. 4 is a fourth block diagram illustrating a water treatment system in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 4, the water treatment system includes a water treatment device 70, a filter element 10, a filter element identification device 110, a filter element recognition device 20, a remote control interface 30, a water property measuring device 40, a control device 50, and an indication device 60. The filter element 10, the filter element identification device 110, the filter element recognition device 20, the remote control interface 30, the water property measuring device 40, the control device 50 and the indicating device 60 are located in the water treatment device 70. The filter element identification device 110 is located on the filter element 10 in the water treatment device 70, while the filter element recognition device 20, the remote control interface 30, the property measurement device 40 in The control device 50 and the display device 60 are located in the water treatment device 70.

[0077] The water treatment system proposed in this embodiment of the present invention not only makes it possible to guarantee the use of suitable filter elements by the user, but also allows to register information about the quality of the water that has been cleaned by the water treatment device, to determine whether the replacement of the filter element is necessary according to the quality information water, and can also display intuitive information about the state of use of the filter element to the user in order to dit user to timely replace the filter element, which allows for guaranteed high quality treatment and extend the life of water treatment devices.

[0078] FIG. 5 is a fifth block diagram illustrating a water treatment system in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 5, the water treatment system includes a water treatment device 70, an intermediate device 80, a filter element 10, a filter element identification device 110, a filter element recognition device 20, a remote control interface 30, a water property measuring device 40, a control device 50, and an indication device 60. The filter element identification device 110 is located on the filter element 10 in the water treatment device 70, the water property measuring device 40 is located in the water treatment device 70, while the filter element recognition device 20, the remote control interface 30, the control device 50 and the indicating device 60 are located in the intermediate device 80.

[0079] The intermediate device 80 may be portable. The intermediate device 80 can be installed independently or can be installed on the water treatment device 70. The intermediate device 80 can be hidden inside the water treatment device, or can be placed independently anywhere in the user's premises.

[0080] The water treatment device 70 and the intermediate device 80 may be connected via wired communication or wirelessly, for example, via a WiFi connection. GPRS connections, infrared connections, etc. The use of an intermediate device enables the user to obtain information about the status of the water treatment device from a location remote from the water treatment device. For example, if the water treatment device is located in the kitchen, and the intermediate device is located at some point in the living room, then the user can receive detailed information about the status of the water treatment device at the moment directly from the living room, without having to go to the kitchen and without the need for direct visual contact with a water purification device, which is more convenient and more meets human needs. However, such a solution eliminates contamination of the intermediate device by kitchen fumes, due to which the reliability and stability of the signal of the intermediate device can be increased, as well as its service life can be increased.

[0081] In embodiments of the present invention, any of the following: a filter element recognition device 20, a remote control interface 30, a control device 50, and an indication device 60 may be located in either the intermediate device 80 or the water treatment device 70.

[0082] The water treatment system illustrated in this embodiment of the present invention allows the user to obtain information about the usage status of the filter element from a location relatively remote from the water treatment device, which not only prompts the user to promptly replace the water quality information, but also allows ensure high quality water treatment, extend the life of the water treatment device and improve user friendliness .

[0083] The following example illustrates how monitoring and administration of filter elements based on the water treatment system of the present invention can be performed.

[0084] The filter element recognition device 20 reads identification information from the filter element identification device 110 and transmits this identification information to the remote control interface 30.

[0085] The remote control interface 30 transmits identification information to a manufacturer data control center; and if the manufacturer’s data center determines that the filter element does not match the model number of the water treatment device, then the manufacturer’s data center returns to the remote control interface 30 the following verification result: “unsuitable filter element”.

[0086] After receiving the verification result, an “inappropriate filter element”, the remote control interface 30 transmits this verification result to the display device 60 through the control device 50, and the control device 60 displays the verification result “inappropriate filter element” to the user.

[0087] Upon seeing the verification result, “an inappropriate filter element”, the user is required to replace the filter element with a suitable one.

[0088] The filter element recognition device 20 reads identification information from the filter element identification device 110 on a newly installed filter element and then transmits this identification information to the remote control interface 30.

[0089] The remote control interface 30 transmits identification information to a manufacturer data control center; and if the manufacturer’s data center determines that the filter element is suitable, then the manufacturer data center returns the following verification result to the remote control interface 30: “suitable filter element”.

[0090] After receiving the verification result, a “suitable filter element”, the remote control interface 30 transmits this verification result to the display device 60 via the control device 50, and then the display device 60 displays the verification result, “the suitable filter element” to the user, and simultaneously with by this, the control device 50 notifies the water property measuring device 40 of the need to obtain water quality information.

[0091] The water property measuring device 40 transmits information about the measured water quality to the remote control device 30 through the control device 50, then the remote control interface 30 transmits water quality information to the manufacturer’s data center, and the manufacturer’s data center determines the remaining life of the replaced filter element according to water quality information and technical parameters in the identification information of the replaced filter element and returns information b residual life in the remote management interface 30.

[0092] The remote control interface 30 transmits information on the remaining service life to the display device 60 through the control device 50, and the display device 60 displays information on the remaining service life of the replaced filter element to the user.

[0093] FIG. 6 is a flowchart for a method for monitoring and administering filter elements based on a water treatment system, in accordance with one embodiment of the present invention. In accordance with the illustration of FIG. 6, a method for monitoring and administering filter elements based on a water treatment system is used in a water treatment system (for example, in the water treatment system of the present invention), the method may include the steps described below.

[0094] In step S601, identification information of the filter element in the water treatment system is obtained.

[0095] The identification information in the filter element identification device 110 may include information such as model number, manufacturer, and technical parameters of the filter element.

[0096] In step S602, the identification information is transmitted to the data center of the manufacturer of the water treatment device.

[0097] In step S603, the verification information returned by the manufacturer’s data center is received.

[0098] In step S604, the filter element is processed according to the verification result.

[0099] Processing the filter element according to the verification result may include the cases described below.

[00100] In the first case, when the verification result indicates that the filter element is suitable, information about the quality of the water filtered by the filter element is received and transmitted to the manufacturer data control center; and receive information on the residual life of the filter element returned by the manufacturer’s data management center, and information on the residual life of the filter is determined by the manufacturer’s data center according to the water quality information and technical parameters contained in the identification information. Thus, in addition, information on the residual life of the filter element can be displayed to the user.

[00101] In the second case, when the verification result indicates that the filter element is suitable, information about the quality of the water filtered by the filter element is received and transmitted to the manufacturer data control center; receiving a determination result returned by the producer data control center that indicates whether the filter element should be replaced, wherein said determination result is generated by the producer data control center according to the water quality information; and the user is instructed to replace the filter element when the determination result is such that the filter element should be replaced.

[00102] In the third case, when the verification result indicates that the filter element is inappropriate, the user is instructed to replace the filter element. For example, if a user mistakenly tries to use a filter element that does not match the model number of his water purifier, information about an inappropriate filter element will be displayed, and the user will be prompted to replace the filter element, which will ensure the declared service life of the filter element, and also ensure that the water treatment device will be able to provide effective water treatment.

[00103] In the fourth situation, when the verification result indicates that the filter element is not installed, the user is prompted to correct the position of the filter element or install the filter element. When the filter element is installed incorrectly or removed, it is determined that the filter element is not installed, and the user needs to adjust the position of the filter element in accordance with the notification information, thereby ensuring the installation of the filter element in the correct position and the normal functioning of the filter element.

[00104] The method of monitoring and administering filter elements based on a water treatment system proposed in this embodiment of the present invention allows us to guarantee the use of suitable filter elements by the user and to notify the user in a timely manner of the need to replace the filter element, thereby ensuring high quality water treatment and prolonging the life water treatment device services.

[00105] Specialists in the art, upon reading the description or after practicing the invention described herein, may find other options for its implementation. The present application is intended to cover all changes, applications or modifications of the present invention, not deviating from its main intention, including all deviations from the present invention that are known in the art or traditionally applied in the art. The above description and examples should be considered as illustrative only, while the true scope and essence of the present invention are defined by the following claims.

[00106] It should be understood that the present invention is not limited to the specific construction described above and illustrated in the attached drawings, and also that many different modifications and changes can be made within the scope of the present invention. It is intended that the scope of the present invention be limited only by the appended claims.

Claims (30)

1. A water treatment system, including a water purification device, which includes a filter element for filtering water, while the water treatment system further includes: a filter element identification device that is located on the filter element and which is used to identify the filter element; a filter element recognition device for reading identification information from a filter element identification device; a remote control interface for transmitting identification information read by the filter element recognition device to a manufacturer data control center; a device for measuring the properties of water for measuring the properties of water filtered by a filter element; and a control device that is connected to a water property measuring device and a remote control interface and which is used to store and process the output information of the water property measuring device and to transmit information about the quality of the water filtered by the filter element to the manufacturer’s data center when the result Verification received from the manufacturer’s data center indicates that the filter element is suitable. 2. The system of claim 1, further comprising: an indication device that is connected to the control device and which is used to display the usage status of the filter element. 3. The system of claim 1 or 2, further comprising: an intermediate device connected to a water treatment device. 4. The system of claim 3, wherein the filter element recognition device is located in a water treatment device or in an intermediate device. 5. The system of claim 3, wherein the remote control interface is located in the water treatment device or in the intermediate device. 6. The system of claim 3, wherein the control device is located in a water treatment device or in an intermediate device. 7. The system of claim 3, wherein the display device is located in a water treatment device or in an intermediate device. 8. The system of claim 3, wherein the intermediate device is located inside the water treatment device. 9. A method for monitoring and administering filter elements based on a water treatment system according to any one of paragraphs. 1-8, including: obtaining identification information of the filter element in the water treatment system; transfer of identification information to the data center of the manufacturer of the water treatment device; receiving the verification result of the identification information returned by the manufacturer's data management center; receiving and transmitting information about the quality of the water filtered by the filter element to the manufacturer’s data center when the verification result indicates that the filter element is suitable; and receiving information about the residual life of the filter element returned by the manufacturer’s data center, and information on the residual life of the filter element is determined by the manufacturer’s data center according to the water quality information and technical parameters contained in the identification information. 10. The method according to p. 9, which further includes: displaying information about the residual life of the filter element. 11. The method according to p. 9, which includes: receiving a determination result returned by the producer data control center that indicates whether a replacement of the filter element is necessary, wherein the determination result is generated by the producer data control center according to the water quality information; and indicating to the user the need to replace the filter element when the result of the determination is such that a replacement of the filter element is necessary. 12. The method according to p. 9, which includes: indicating to the user the need to replace the filter element when the verification result indicates that the filter element is inappropriate. 13. The method according to p. 9, which includes: indicating to the user the need to correct the position of the filter element or install the filter element when the verification result indicates that the filter element is not installed.

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