CN113233521A - Direct drinking water device for monitoring water quality, method for monitoring water quality and storage medium - Google Patents

Abstract

The application discloses straight drinking water device of monitoring quality of water includes: the water quality monitoring system comprises a communication module and a water quality monitoring module; the communication module is connected with the LoRaWAN gateway and transmits data based on the LoRaWAN network; the water quality monitoring module is used for monitoring a first index of the direct drinking water; the water quality monitoring module, the filtering module included in the device and the water outlet module included in the device are connected through a three-way connecting piece; the application also provides a method and a storage medium for monitoring the water quality, and the safety of direct drinking water can be timely guaranteed through the direct drinking water device for monitoring the water quality, the method for monitoring the water quality and the storage medium.

Description

Direct drinking water device for monitoring water quality, method for monitoring water quality and storage medium

Technical Field

The application relates to the technical field of Internet of things, in particular to a direct drinking water device for monitoring water quality, a method for monitoring water quality and a storage medium.

Background

Direct drinking water, also called healthy running water, is pollution-free water which contains mineral elements beneficial to human bodies and can be directly drunk, and the hydrogen ion concentration index (PH) of the direct drinking water is alkalescent; the direct drinking water equipment is widely applied to public places such as scenic spots, libraries, airports, waiting rooms and the like, and the technical problem of how to timely ensure the safety of direct drinking water is required to be solved.

Disclosure of Invention

The embodiment of the application provides a direct drinking water device for monitoring water quality, a method for monitoring water quality and a storage medium, which can ensure the safety of direct drinking water in time.

The technical scheme of the embodiment of the application is realized as follows:

in a first aspect, the present application provides a direct drinking water device of monitoring quality of water, the device includes:

the water quality monitoring system comprises a communication module and a water quality monitoring module;

the communication module is connected with the LoRaWAN gateway and transmits data based on the LoRaWAN network;

the water quality monitoring module is used for monitoring a first index of the direct drinking water;

the water quality monitoring module, the filtering module that the device includes with the play water module that the device includes passes through tee junction spare and connects.

In the scheme, a first valve is arranged between the three-way connecting piece and the water quality monitoring module;

when the first valve is opened, the water quality monitoring module collects direct drinking water and executes water quality monitoring based on the collected direct drinking water; or when the first valve is closed, the water quality monitoring module does not collect direct drinking water.

In the above scheme, the water quality monitoring module is further configured to:

monitoring a second indicator of the direct drinking water;

the second index includes at least one of: acid-base index, mineral index, dissolved oxygen index and hardness index.

In the above scheme, the apparatus further comprises:

the first display module is used for displaying first alarm information under the condition that the water quality monitoring module confirms that the first index does not meet a first condition;

and/or, the device further comprises: the second valve is used for blocking the water flow from flowing between the filtering module and the water outlet module under the condition that the water quality monitoring module confirms that the first index does not meet the first condition;

wherein the first index includes: a heavy metal indicator and/or a microbial indicator.

In the above scheme, the apparatus further comprises:

the second display module is used for displaying second alarm information under the condition that the water quality monitoring module confirms that the second index does not meet the second condition;

and/or, the device further comprises: and the second valve is used for blocking the water flow from flowing between the filtering module and the water outlet module under the condition that the water quality monitoring module confirms that the second index does not meet the second condition.

In a second aspect, the present application provides a method for monitoring water quality, which is applied to the above direct drinking water device for monitoring water quality, the method includes:

confirming a first index of the direct drinking water under the condition that a first valve between the water quality monitoring module and the three-way connecting piece is opened;

if the first index is confirmed not to meet the first condition, displaying first warning information;

and/or closing a second valve between the water outlet module and the three-way connecting piece if the first index is confirmed not to meet the first condition.

In the above scheme, the method further comprises:

monitoring a second indicator of the direct drinking water;

if the second index does not meet the second condition, displaying second alarm information;

and/or closing the second valve if it is determined that the second indicator does not satisfy the second condition.

In the above scheme, the method further comprises:

and at least one of the information of opening the first valve, the information of closing the first valve, the information of opening the second valve, the information of closing the second valve, the first index and the second index is transmitted to a management node based on a LoRaWAN network.

In a third aspect, an embodiment of the present application provides a storage medium, which stores an executable program, and when the executable program is executed by a processor, the method for monitoring water quality performed by the electronic device is implemented.

In a fourth aspect, the embodiments of the present application provide an apparatus for monitoring water quality, where the apparatus for monitoring water quality enables a processor to execute the above method for monitoring water quality.

Therefore, the direct drinking water device for monitoring the water quality provided by the embodiment of the application is connected with the LoRaWAN gateway through the communication module included in the direct drinking water device for monitoring the water quality, and the direct drinking water device for monitoring the water quality can transmit data based on the LoRaWAN network; the first index of the direct drinking water is monitored by the water quality monitoring module of the direct drinking water device for monitoring the water quality, so that the safety of the direct drinking water can be ensured in time; in addition, the water quality monitoring module the filtration module that the device includes with the play water module that the device includes passes through the tee junction spare and connects, can maintain, maintain water quality monitoring module more conveniently, reduce secondary pollution.

Drawings

FIG. 1 is a first schematic structural diagram of an alternative direct drinking water device provided by an embodiment of the present application;

FIG. 2 is a schematic view of an alternative flow chart of a method for monitoring water quality provided by an embodiment of the present application;

FIG. 3 is a schematic diagram of an access network of a direct drinking water device provided in an embodiment of the present application;

fig. 4 is a schematic view of an alternative structure of a direct drinking water device provided by the embodiment of the application.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Due to incomplete coverage of the mobile operator base station, wireless signals are poor in part of application scenes (such as scenic spots) of the direct drinking water device, and the direct drinking water device cannot normally report corresponding maintenance data and management data.

In addition, in the monitoring of the existing direct drinking water device, only a PH index or a Total Dissolved Solids (TDS) index is involved, and other necessary indexes which concern human health are not mentioned. For example, the indexes of heavy metals can affect the health and safety of human bodies when drinking direct drinking water containing heavy metals for a long time.

Based on the problem that exists in the monitoring method of straight drinking water device, this application provides a straight drinking water device of monitoring quality of water, can solve the technical problem and the shortcoming that can't solve among the prior art scheme.

Fig. 1 shows an alternative structure diagram of a direct drinking water device provided by the embodiment of the present application, which will be described according to various parts.

In some embodiments, the direct drinking water device 100 includes: a communication module 101 and a water quality monitoring module 102.

The communication module 101 is connected to a LoRaWAN gateway so that the direct drinking water device 100 can transmit data based on the LoRaWAN network through the communication module 101.

The water quality monitoring module 102 is configured to monitor a first indicator of direct drinking water. Wherein the first index includes: a heavy metal indicator and/or a microbial indicator.

In some optional embodiments, the direct drinking water device 100 further comprises: a filtering module 103 and a water outlet module 104.

The filtering module 103 is used for filtering direct drinking water, and delivering the filtered direct drinking water to the water quality monitoring module 102 and the water outlet module 104.

The water outlet module 104 is used for outputting filtered direct drinking water.

The water quality monitoring module 102, the filtering module 103 and the water outlet module 104 are connected through a three-way connection 105.

In some optional embodiments, a first valve 106 is disposed between the three-way connection 105 and the water quality monitoring module 102;

in specific implementation, when the first valve 106 is opened, the water quality monitoring module 102 collects direct drinking water, and performs water quality monitoring based on the collected direct drinking water; or, when the first valve 106 is closed, the water quality monitoring module does not collect direct drinking water.

Or, in specific implementation, when the first valve 106 is closed, the water quality monitoring module 102 is in a detachable state; when the water quality monitoring module 102 is in a detachable state, the water quality monitoring module 102 may be at least one of cleaned, repaired, maintained, and disinfected. Accordingly, when the first valve 106 is opened, the water quality monitoring module 102 is in a non-detachable state.

In some alternative embodiments, the first valve 106 may be a solenoid valve.

In some optional embodiments, the direct drinking water device 100 may further include: a wastewater treatment module 107.

The wastewater treatment module 107 is connected with the water quality monitoring module 102, and the direct drinking water monitored by the water quality monitoring module 102 flows into the wastewater treatment module 107.

The wastewater treatment module 107 is used for performing at least one of discharging, filtering and separating on the direct drinking water monitored by the water quality monitoring module 102.

In other optional embodiments, the water quality monitoring module 102 is further configured to: monitoring a second indicator of the direct drinking water; the second index includes at least one of: acid-base index, mineral index, dissolved oxygen index and hardness index.

In some optional embodiments, the apparatus may further comprise: a first display module 108.

The first display module 108 is configured to display first warning information when the water quality monitoring module 102 determines that the first indicator does not satisfy the first condition; the first warning information is used for indicating that a first index of the direct drinking water does not meet the first condition, and the first warning information can comprise the first index. Optionally, the first display module 108 is further configured to display the first index if the first index meets a first condition. The first display module 108 may include at least two display screens, which are respectively disposed near the water outlet module of the direct drinking water device and near the management node.

In specific implementation, when the water quality monitoring module 102 confirms that at least one of the heavy metal index and the microorganism index of the drinking water does not satisfy the first condition, a first indication is sent to the first display module 108, and the first indication is used for indicating the first display module 108 to display first warning information.

Specifically, the heavy metal index at least includes one of the following: an arsenic index, a chromium index, a cadmium index, a lead index, a mercury index, and a selenium index. And when any one of the heavy metal indexes is greater than or equal to the corresponding index value in the first condition, confirming that the first index of the direct drinking water does not meet the first condition.

Specifically, the microorganism index includes at least one of the following: total coliform group index, heat-resistant coliform group index, escherichia coli index and total colony number index. And when any one index in the microorganism indexes is larger than or equal to the corresponding index value in the first condition, confirming that the microorganism indexes of the direct drinking water do not meet the first condition.

In some optional embodiments, the first display module 108 is further configured to display first map information if the water quality monitoring module determines that the first indicator does not satisfy the first condition; the first map information is used for indicating at least one other direct drinking water device, the distance between which and the direct drinking water device is within a first distance range, and a first index of which meets a first condition.

In some optional embodiments, the apparatus may further comprise: a second valve 109.

The second valve 109 is disposed between the three-way connection 105 and the outlet module 104.

The second valve 109 is configured to block water from flowing between the filtering module 103 and the water outlet module 104 when the water quality monitoring module 102 determines that the first indicator does not satisfy the first condition. Or, when the water quality monitoring module 102 determines that the second indicator does not satisfy the second condition, blocking the flow of water between the filtering module 103 and the water outlet module 104.

In some alternative embodiments, the second valve 109 may be a solenoid valve.

In some optional embodiments, the apparatus may further comprise: and a second display module 110.

The second display module 110 is configured to display second alarm information when the water quality monitoring module 102 determines that the second indicator does not satisfy the second condition; the second warning information is used for indicating that a second index of the direct drinking water does not meet the second condition, and the second warning information can comprise the second index. Optionally, the second display module 110 is further configured to display the second index when the second index meets a second condition. The second display module 110 may include at least two display screens respectively disposed near the water outlet module of the direct drinking water device and near the management node. The first display module 108 and the second display module 110 may be the same module or may be two different modules.

In specific implementation, when the water quality monitoring module 102 confirms that at least one of the acid-base index, the mineral index, the dissolved oxygen index, and the hardness index of the drinking water does not satisfy the second condition, a second indication is sent to the second display module 110, where the second indication is used to indicate the second display module 110 to display second warning information.

Specifically, the mineral index includes at least one of: calcium index, magnesium index and potassium index. And when any one of the mineral indexes is larger than or equal to the corresponding index value in the second condition, confirming that the second index of the direct drinking water does not meet the second condition.

In some optional embodiments, the second display module 110 is further configured to display second map information if the water quality monitoring module confirms that the second index does not satisfy the second condition; the second map information is used for indicating at least one other direct drinking water device, the distance between the direct drinking water device and the second map information is within a second distance range, and the second index meets a second condition.

So, through the straight drinking water device of monitoring quality of water that this application embodiment provided, through communication module and LoRaWAN gateway connection, make straight drinking water device can be based on LoRaWAN network transmission data. LoRaWAN wireless communication technique can provide stable optimized wireless signal environment for the poor public place of signal coverage, and then the direct drinking water device of cleanness, maintenance that can be better. In addition, through the monitoring of water quality monitoring module to first index and second index, through key comprehensive water quality monitoring, the categorised customs of each index will be to the great index classification of health influence first index, will be to healthy profitable index classification second index make the user can drink relieved water, healthy water, reduce the potential harm that heavy metal water brought. Finally, connect water quality monitoring module, filter module and play water module through tee bend connecting piece, under the condition that first valve was closed, can carry out the maintenance, the maintenance and the cleanness of water quality monitoring module, avoid the straight drink water secondary pollution who causes after the maintenance, the maintenance and the cleanness to water quality monitoring module.

Fig. 2 shows a schematic flow chart of an alternative method for monitoring water quality provided by the embodiment of the present application, which will be described according to various steps.

Step S201, under the condition that a first valve between the water quality monitoring module and the three-way connecting piece is opened, a first index of direct drinking water is confirmed.

In some embodiments, the direct drinking water device acquires the direct drinking water and confirms a first index of the direct drinking water under the condition that a first valve between the water quality monitoring module and the three-way connecting piece is opened; wherein the first index includes: a heavy metal indicator and/or a microbial indicator.

In some embodiments, the direct drinking water device may also display a first indicator of the direct drinking water on a display screen of the direct drinking water device.

Step S202, if the first index is confirmed not to meet the first condition, first warning information is displayed.

In some embodiments, the direct drinking water device displays a first warning message on a display screen of the direct drinking water device in a case where the direct drinking water device confirms that the first index does not satisfy a first condition; the first warning information is used for indicating that a first index of the direct drinking water does not meet the first condition.

When the direct drinking water device is specifically implemented, first warning information is displayed under the condition that the direct drinking water device confirms that at least one of the heavy metal indexes and the microorganism indexes of the direct drinking water does not meet a first condition. Wherein the first warning information may include the first index.

Specifically, the heavy metal index at least includes one of the following: an arsenic index, a chromium index, a cadmium index, a lead index, a mercury index, and a selenium index. And when any one of the heavy metal indexes is greater than or equal to the corresponding index value in the first condition, confirming that the first index of the direct drinking water does not meet the first condition.

Specifically, the microorganism index includes at least one of the following: total coliform group index, heat-resistant coliform group index, escherichia coli index and total colony number index. And when any one index in the microorganism indexes is larger than or equal to the corresponding index value in the first condition, confirming that the microorganism indexes of the direct drinking water do not meet the first condition.

In some optional embodiments, in the case that the direct drinking water device confirms that at least one of the heavy metal index and the microorganism index of the direct drinking water does not satisfy the first condition, first map information may be further displayed on a display screen of the direct drinking water device; the first map information is used for indicating at least one other direct drinking water device, the distance between which and the direct drinking water device is within a first distance range, and a first index of which meets a first condition.

In some optional embodiments, the first condition includes a threshold range corresponding to each metric included in the first metric; the first condition may be determined with reference to national standard GB5749-2006, for example, which may include: an arsenic index of less than or equal to 0.01 milligrams per liter (mg/L), a chromium index of less than or equal to 0.05 milligrams per liter (mg/L), a cadmium index of less than or equal to 0.005 milligrams per liter (mg/L), a lead index of less than or equal to 0.01 milligrams per liter (mg/L), a mercury index of less than or equal to 0.001 milligrams per liter (mg/L), a selenium index of less than or equal to 0.01 milligrams per liter (mg/L), a total coliform index of no detectable, a heat-resistant coliform index of no detectable, an Escherichia coli index of no detectable, and a total colony index of 100 CFU/mL.

Step S203, if the first index is confirmed not to meet the first condition, a second valve between the water outlet module and the three-way connecting piece is closed.

In some embodiments, if the first indicator does not satisfy the first condition, blocking the flow of the potable water from flowing out of a water outlet module included in the potable water device.

In some optional embodiments, after the step S201, a step S204 may be further performed.

Step S204, confirming a second index of the direct drinking water;

in some embodiments, the direct drinking water device collects the direct drinking water and confirms a second index of the direct drinking water under the condition that a first valve between the water quality monitoring module and the three-way connecting piece is opened; wherein the second index includes at least one of: acid-base index, mineral index, dissolved oxygen index and hardness index.

In some embodiments, the direct drinking water device may also display a second indicator of the direct drinking water on a display screen of the direct drinking water device.

And step S205, if the second index does not meet the second condition, displaying second alarm information.

In some embodiments, the direct drinking water device displays a second warning message if the second indicator is confirmed not to satisfy a second condition; the second warning information is used for indicating that a second index of the direct drinking water does not meet the second condition.

When the direct drinking water device is specifically implemented, second warning information is displayed under the condition that at least one of the acid-base index, the mineral index, the dissolved oxygen index and the hardness index of the direct drinking water does not meet the second condition. Wherein the second warning information may include the second index.

Specifically, the mineral index includes at least one of: calcium index, magnesium index and potassium index. And when any one of the mineral indexes is larger than or equal to the corresponding index value in the second condition, confirming that the second index of the direct drinking water does not meet the second condition, and/or when any one of the acid-base index, the dissolved oxygen index and the hardness index is larger than or equal to the corresponding index value in the second condition, confirming that the second index of the direct drinking water does not meet the second condition.

In some optional embodiments, the second condition includes a threshold range corresponding to each metric included in the second metric; the second condition can be determined with reference to the national standard GB5749-2006, for example, the drinking water has an acidity-basicity index of between 6.5 and 8.5 and a hardness index of less than or equal to 170 mg/L.

In some embodiments, the direct drinking water device may also display a second indicator of the direct drinking water on a display screen of the direct drinking water device.

In some embodiments, if the second indicator does not satisfy the second condition, blocking the flow of the potable water from flowing out of a water outlet module included in the potable water device.

In some optional embodiments, in the case that the direct drinking water device confirms that the second index does not satisfy the second condition, second map information may also be displayed; the second map information is used for indicating at least one other direct drinking water device, the distance between the direct drinking water device and the second map information is within a second distance range, and the second index meets a second condition.

In some optional embodiments, after the step S201, a step S206 may be further performed.

And step S206, transmitting relevant data of the direct drinking water device based on the LoRaWAN network.

In some embodiments, the direct drinking device transmits data related to the direct drinking device based on a LoRaWAN network. Wherein the relevant data comprises: at least one of information that the first valve is open, information that the first valve is closed, information that the second valve is open, information that the second valve is closed, the first indicator, and the second indicator.

Optionally, the direct drinking water device is connected with the LoRaWAN node of the LoRaWAN network through a serial port and is accessed to the LoRaWAN network.

Therefore, by the method for monitoring the water quality, provided by the embodiment of the application, under the condition that the first valve between the water quality monitoring module and the three-way connecting piece is opened, the first index of the direct drinking water is confirmed; if the first index is confirmed not to meet the first condition, displaying first warning information; and/or closing a second valve between the water outlet module and the three-way connecting piece if the first index is confirmed not to meet the first condition. If the human body accumulates lead, cadmium and manganese corresponding to the heavy metal indexes for a long time, irreversible damage to the brain and other parts of the human body can be caused, even if the lead, cadmium and manganese cause diseases and fatality in serious conditions, so that the indexes which have great influence on health are classified into a first index, the indexes which are beneficial to health are classified into a second index, and through key comprehensive water quality monitoring, all indexes are classified to keep track of each other, so that a user can drink heart-free water and healthy water, and potential harm caused by the heavy metal water is reduced. In addition, the direct drinking water device can transmit data based on the LoRaWAN network by accessing the LoRaWAN network. LoRaWAN wireless communication technique can provide stable optimized wireless signal environment for the poor public place of signal coverage, and then the direct drinking water device of cleanness, maintenance that can be better. And finally, displaying the first index and the second index of the direct drinking water, not only timely informing a supervisor to process when the direct drinking water does not meet the first condition and the second condition, but also presenting to a water taking user for benign supervision and management.

Fig. 3 shows a direct drinking water device access network schematic diagram provided by the embodiment of the application, which will be described according to various parts.

In some embodiments, at least one drink-through device included in at least one public scenario may access the same LoRaWAN network. The direct drinking water device can be based on a Micro Control Unit (MCU) main control board or a communication module which is included by the direct drinking water device and is connected with a LoRaWAN gateway of the LoRaWAN network, and then the direct drinking water device is connected to an internal private network or a public network of a public scene where the direct drinking water device is located through the LoRaWAN gateway.

In fig. 3, the direct drinking water device 301, … …, the direct drinking water device 30k, … …, and the direct drinking water device 30n are at least one direct drinking water device included in at least one public scene. Wherein k and n are positive integers, and k is less than or equal to n. The public scenes can be hospitals, libraries, subway stations and scenic spots, and the embodiment is not particularly limited.

During specific implementation, the MCU main control board of the direct drinking water device is connected with the LoRaWAN node module through a serial port, and then is connected with the LoRaWAN gateway to be accessed into the LoRaWAN network.

Or, when the system is specifically implemented, the communication module of the direct drinking water device is connected with the LoRaWAN gateway and is accessed to the LoRaWAN network.

Wherein, the LoRaWAN node module may be an M120 module. The model of the LoRaWAN gateway can be G500 or G600, more than 1000 devices can be supported for data transmission, and the coverage range is more than 3 kilometers.

Fig. 4 shows an alternative structural schematic diagram two of the direct drinking water device provided by the embodiment of the application.

In fig. 4, a three-way connection part 405 (which may be a three-way pipe joint) is arranged before the water outlet module 401 of the direct drinking water device, and the three-way connection part 405 is respectively connected with the water quality monitoring module 402 (which may be an all-in-one water quality monitoring module) and the filtering module 403. A second valve 404 (which may be a solenoid valve) is disposed between the water outlet module 401 and the three-way connection 405.

A first valve 406 (which may be an electromagnetic valve) is disposed between the water quality monitoring module 402 and the three-way connection 405. The flow of water to the water quality monitoring module 402 is controlled to open and close by a first valve 406. When the three-way connection 405 is cleaned each time, only the first valve 406 needs to be closed to perform cleaning and maintenance, and the water flowing through the water quality monitoring module 402 flows to the wastewater treatment module 407 (which may be a wastewater port) to be discharged. The first valve 406 may be controlled by the MCU main control unit of the direct drinking water apparatus, or may be controlled on the touch screen of the direct drinking water apparatus, or may be remotely controlled.

Those of ordinary skill in the art will understand that: all or part of the steps of implementing the above method embodiments may be implemented by hardware related to program commands, and the foregoing program may be stored in a storage medium, where the storage medium includes: various media capable of storing program codes, such as a removable Memory device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, and an optical disk.

Alternatively, the integrated units described above in the present application may be stored in a computer-readable storage medium if they are implemented in the form of software functional modules and sold or used as independent products. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially or partially implemented in the form of a software product stored in a storage medium, and include several commands for enabling a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a removable storage device, a ROM, a RAM, a magnetic or optical disk, or various other media that can store program code.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a straight drinking water device of monitoring quality of water which characterized in that, the device includes:

the water quality monitoring system comprises a communication module and a water quality monitoring module;

the communication module is connected with the LoRaWAN gateway and transmits data based on the LoRaWAN network;

the water quality monitoring module is used for monitoring a first index of the direct drinking water;

the water quality monitoring module, the filtering module that the device includes with the play water module that the device includes passes through tee junction spare and connects.

2. The apparatus of claim 1,

a first valve is arranged between the three-way connecting piece and the water quality monitoring module;

when the first valve is opened, the water quality monitoring module collects direct drinking water and executes water quality monitoring based on the collected direct drinking water; or when the first valve is closed, the water quality monitoring module does not collect direct drinking water.

3. The apparatus of claim 1, wherein the water quality monitoring module is further configured to:

monitoring a second indicator of the direct drinking water;

the second index includes at least one of: acid-base index, mineral index, dissolved oxygen index and hardness index.

4. The apparatus of claim 1 or 3, further comprising:

the first display module is used for displaying first alarm information under the condition that the water quality monitoring module confirms that the first index does not meet a first condition;

and/or, the device further comprises: the second valve is used for blocking the water flow from flowing between the filtering module and the water outlet module under the condition that the water quality monitoring module confirms that the first index does not meet the first condition;

wherein the first index includes: a heavy metal indicator and/or a microbial indicator.

5. The apparatus of claim 1 or 3, further comprising:

the second display module is used for displaying second alarm information under the condition that the water quality monitoring module confirms that the second index does not meet the second condition;

and/or, the device further comprises: and the second valve is used for blocking the water flow from flowing between the filtering module and the water outlet module under the condition that the water quality monitoring module confirms that the second index does not meet the second condition.

6. A method for monitoring water quality, which is applied to the apparatus of claims 1 to 5, the method comprising:

confirming a first index of the direct drinking water under the condition that a first valve between the water quality monitoring module and the three-way connecting piece is opened;

if the first index is confirmed not to meet the first condition, displaying first warning information;

and/or closing a second valve between the water outlet module and the three-way connecting piece if the first index is confirmed not to meet the first condition.

7. The method of claim 6, further comprising:

monitoring a second indicator of the direct drinking water;

if the second index does not meet the second condition, displaying second alarm information;

and/or closing the second valve if it is determined that the second indicator does not satisfy the second condition.

8. The method according to claim 6 or 7, characterized in that the method further comprises:

and at least one of the information of opening the first valve, the information of closing the first valve, the information of opening the second valve, the information of closing the second valve, the first index and the second index is transmitted to a management node based on a LoRaWAN network.

9. A storage medium storing an executable program which, when executed by a processor, implements a method of monitoring water quality as claimed in any one of claims 6 to 8.

10. An apparatus for monitoring water quality comprising a memory, a processor and an executable program stored on the memory and executable by the processor, wherein the processor executes the executable program to perform the steps of the method of monitoring water quality as claimed in any one of claims 6 to 8.

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