CN114965916A - Water quality monitoring method and device, water using equipment and storage medium - Google Patents

Abstract

The embodiment of the invention discloses a water quality monitoring method, a water quality monitoring device, water using equipment and a storage medium. The water quality monitoring method comprises the following steps: acquiring at least two TDS values of a water consuming device in real time within a current monitoring time span, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value; acquiring at least two historical TDS values in the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values; and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment. The technical scheme of the embodiment of the invention realizes accurate monitoring of the water quality of the water using equipment and effectively protects the water using safety.

Description

Water quality monitoring method and device, water using equipment and storage medium

Technical Field

The embodiment of the invention relates to the technical field of water quality monitoring, in particular to a water quality monitoring method, a water quality monitoring device, water using equipment and a storage medium.

Background

The water safety is related to the life of each person, more safe water use knowledge is mastered, the health of the person is facilitated, and the waste of water resources can be effectively avoided.

At present, the existing water using equipment generally checks the TDS value of the water quality of the water using equipment on the machine itself or an application terminal corresponding to the water using equipment, and cannot know that the water quality of the water using equipment is in gradual or sudden abnormality in a certain time period.

Disclosure of Invention

The embodiment of the invention provides a water quality monitoring method, a water quality monitoring device, water using equipment and a storage medium, so that the water quality of the water using equipment can be accurately monitored, and the water safety is effectively protected.

In a first aspect, an embodiment of the present invention provides a water quality monitoring method, including:

acquiring at least two TDS values of a water consuming device in real time within a current monitoring time span, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value;

acquiring at least two historical TDS values in the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values;

and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment.

Optionally, determining the first TDS value and the second TDS value according to the at least two TDS values includes:

will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the smallest as the second TDS value.

Optionally, determining the first TDS value and the second TDS value according to the at least two TDS values includes:

and judging whether the at least two TDS values are arranged in sequence according to the TDS value values, if so, determining a first TDS value and a second TDS value according to the at least two TDS values.

Optionally, determining water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value includes:

and if the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information.

Optionally, before determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method includes:

determining a current average TDS value from the at least two TDS values.

Optionally, determining water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value includes:

if the difference value of the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value of the current average TDS value and the historical average TDS value is larger than or equal to the alarm TDS value threshold value, the water quality monitoring information of the water utilization equipment is determined to be water quality alarm information.

Optionally, when acquiring at least two TDS values of the water consuming device in real time within the current monitoring time span, the method further includes:

acquiring the user water use information of the water use equipment within the current monitoring time length;

after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, further comprising:

and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

In a second aspect, an embodiment of the present invention further provides a water quality monitoring device, including:

the current TDS value determining module is used for acquiring at least two TDS values of the water utilization equipment in real time within the current monitoring time length, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value;

the historical TDS value determining module is used for acquiring at least two historical TDS values in the last monitoring time length and determining a historical average TDS value according to the at least two historical TDS values;

and the water quality monitoring information determining module is used for determining the water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water utilization equipment.

In a third aspect, an embodiment of the present invention further provides a water using apparatus, where the water using apparatus includes:

one or more processors;

a storage device for storing a plurality of programs,

when at least one of the programs is executed by the one or more processors, the one or more processors are enabled to realize the water quality monitoring method provided by the embodiment of the first aspect of the invention.

In a fourth aspect, an embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the water quality monitoring method provided in the embodiment of the first aspect of the present invention.

According to the technical scheme of the embodiment of the invention, at least two TDS values of the water utilization equipment are acquired in real time within the current monitoring time span, and a first TDS value and a second TDS value are determined according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value; acquiring at least two historical TDS values within the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values; and determining the water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water utilization equipment. The problem of current unable in time to the water quality monitoring of water equipment probably lead to user's water safety is solved to realize accurate monitoring to the quality of water equipment, effective protection water safety.

Drawings

FIG. 1 is a flow chart of a water quality monitoring method according to an embodiment of the present invention;

FIG. 2 is a flow chart of a water quality monitoring method according to a second embodiment of the present invention;

FIG. 3 is a flow chart of a water quality monitoring method according to a third embodiment of the present invention;

FIG. 4 is a flow chart of a water quality monitoring method according to a fourth embodiment of the present invention;

fig. 5 is a structural diagram of a water quality monitoring device provided in the fifth embodiment of the present invention;

fig. 6 is a schematic hardware structure diagram of a water-consuming apparatus according to a sixth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention.

It should be further noted that, for the convenience of description, only some but not all of the relevant aspects of the present invention are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently, or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but could have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a flowchart of a water quality monitoring method according to an embodiment of the present invention, where the embodiment is applicable to a situation where real-time water quality monitoring is performed on a water consumption device and an abnormal water quality condition is alarmed, and the method may be executed by a water quality monitoring device, and the water quality monitoring device may be implemented in a form of software and/or hardware. The water quality monitoring method specifically comprises the following steps:

s110, obtain two at least TDS values with water equipment in real time in current monitoring time length to confirm first TDS value and second TDS value according to two at least TDS values, first TDS value is greater than the second TDS value.

Wherein, the TDS value of water equipment can be detected through setting up TDS water quality testing pen inside water equipment and obtain, also can detect through other TDS value testing equipment and obtain, and this embodiment does not do any restriction to the acquirement of water equipment's TDS value.

The water-consuming equipment in this embodiment may be a water dispenser, a water purifier, or drinking water-consuming equipment such as a direct drinking machine, which is only used for drinking water, or may be water-consuming filtering equipment such as a pre-filter installed in a waterway pipeline of a place such as a home or an office.

The monitoring time length is the time length of the monitoring period of the TDS value of the water using equipment, the monitoring time length can be 10 minutes, 30 minutes or one hour and other time lengths, the monitoring time length can be selected and set by a person skilled in the art according to the actual water quality monitoring requirement, and the monitoring time length is not limited in any way in the embodiment.

Specifically, acquire at least two TDS values of water equipment in real time in current monitoring time length, the TDS value of the water equipment of acquireing promptly is two, three or more, and the quantity of the TDS value of specifically acquireing is selected by the technical staff in the field according to actual water quality monitoring demand and is set up, and this embodiment does not do any restriction to the quantity of TDS value.

On the basis of the above embodiments, determining the first TDS value and the second TDS value from the at least two TDS values comprises: will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the minimum as the second TDS value.

For example, taking two TDS values of the water utilization equipment acquired in real time as an example, the two TDS values are directly compared, a larger TDS value is used as a first TDS value, and a smaller TDS value is used as a second TDS value; use three or more TDS values of real-time acquisition water facilities as an example, then need sort all TDS values, can sort all TDS values from big to small, also can sort all TDS values from small to big, according to the good all TDS values of sequencing, with the TDS value the biggest as first TDS value, with the TDS value the least as second TDS value.

On the basis, when all the TDS values are sorted, two adjacent TDS values in the real-time acquisition process can be compared when the TDS values are acquired in real time within the monitoring time length, that is, the values of the acquired TDS values are compared and sorted at any time in the acquisition process, and after all the TDS values acquired within the monitoring time length, all the TDS values are also sorted from large to small or from small to large.

Further, it is to be understood that, on the basis of the above-described embodiments, determining the first TDS value and the second TDS value from the at least two TDS values comprises: and judging whether the at least two TDS values are arranged in sequence according to the TDS value values, if so, determining a first TDS value and a second TDS value according to the at least two TDS values.

Specifically, before confirming first TDS value and second TDS value, for first TDS value and second TDS value of confirming better faster, then need sort the TDS value that has obtained, can understand, can carry out real-time sequencing to the TDS value that obtains, also can obtain in the monitoring time length and sort all TDS values afterwards.

When can carry out real-time sequencing to the TDS value of acquireing, then after having acquireed all TDS values in monitoring time length, all TDS values have been according to from big to little or from little to big completion sequencing this moment, then judge two at least TDS values arrange in proper order according to TDS value size, according to two at least TDS values that have accomplished the sequencing, with the biggest as first TDS value of TDS value, with the smallest as second TDS value of TDS value.

After all TDS values have been obtained in the monitoring time length, all TDS values are sorted again, then after all TDS values have been obtained in the monitoring time length, all TDS values are not sorted according to the descending order or the descending order at this moment, namely, the at least two TDS values are judged to be not arranged according to the TDS value size in sequence, therefore, all TDS values need to be sorted first, after the sorting of all TDS values is completed, the TDS value is largest as a first TDS value, and the TDS value is smallest as a second TDS value.

And S120, acquiring at least two historical TDS values in the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values.

The historical average TDS value is obtained by averaging all the historical TDS values acquired in the last monitoring time length, namely the historical average TDS value is equal to the sum of all the historical TDS values and is divided by the TDS value number of all the historical TDS values.

Specifically, acquire at least two historical TDS values in last monitoring duration, namely in last monitoring duration, the historical TDS value of the water equipment of acquireing is two, three or more, and the quantity of the historical TDS value of specifically acquireing is selected by the technical staff in this field according to actual water quality monitoring demand and is set up, and this embodiment does not do any restriction to the quantity of historical TDS value.

It should be noted that the same or different acquisition modes may be used for the acquisition mode of the historical TDS value in the previous monitoring time period and the acquisition mode in the current monitoring time period. Preferably, in this embodiment, the last monitoring time length and the current monitoring time length are monitoring periods of adjacent TDS values of the water users.

Illustratively, in the last monitoring time span, taking the two obtained historical TDS values as an example, the historical average TDS value is obtained by taking an average value after the two historical TDS values are summed; if three or more historical TDS values are obtained within the last monitoring time span, for example, the historical average TDS value is obtained by summing the three or more historical TDS values and then averaging the three or more historical TDS values.

It can be understood that the monitoring time length of the water using equipment can be set at fixed time intervals in one day, and a plurality of monitoring time lengths can be set in one day, so that regular water safety monitoring is realized; and only one monitoring time length can be set in one day to ensure that the electricity is saved on the premise of monitoring the water quality.

Further, if the monitoring time lengths include a plurality of monitoring time lengths in one day, the last monitoring time length and the current monitoring time length in this embodiment may be two adjacent monitoring time lengths in one day; if only one monitoring time length is set in one day, the previous monitoring time length and the current monitoring time length are two monitoring time lengths of two adjacent days in this embodiment.

S130, determining water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water utilization equipment.

The water quality monitoring information of the water utilization equipment is used for reflecting the water quality condition of the water utilization equipment in the current monitoring time span, and the water quality monitoring information can be information of normal water quality or abnormal water quality in the current monitoring time span.

The terminal bound with the water consumption equipment can be a smart phone, a tablet personal computer and the like, and the terminal is bound with the water consumption equipment through a network and the like.

The terminal bound to the water utilization equipment is used for prompting a user of the water utilization equipment after receiving the water quality monitoring information fed back by the water utilization equipment, and prompting the water quality condition of the water utilization equipment corresponding to the water quality monitoring information through voice broadcasting, or pushing a water quality condition notification of the water utilization equipment corresponding to the water quality monitoring information, or other prompting modes, which is not limited in this embodiment.

The terminal reminds under the condition of abnormal water quality, so that the water safety of the comprehensive water equipment for guarding is realized.

Exemplarily, the terminal can report through voice "user honored is your good" when the water quality monitoring information is water quality alarm information, that is, the quality of water equipment is in abnormal conditions, and water equipment detects that running water TDS value rises suddenly, asks you in time to check the quality of water of registering one's residence to avoid influencing your drinking water health ", also can show through the terminal above-mentioned content, and the mode of demonstration can show for popping out the frame, or the suggestion frame that often brightens shows.

On the basis of the above embodiment, determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value includes: if the difference value between the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information; and if the difference value of the first TDS value and the second TDS value is smaller than the warning TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is normal water quality information.

Wherein, the water quality alarm information indicates that the water quality of the water utilization equipment is in an abnormal condition, and the water quality normal information indicates that the water quality of the water utilization equipment is in a normal condition.

The warning TDS value threshold value is the warning TDS value that corresponds with the quality of water equipment, and warning TDS value threshold value can be selected by technical personnel in the field according to actual water quality monitoring demand and set up, and this embodiment does not do any restriction to warning TDS value threshold value.

Further, when the difference between the first TDS value and the second TDS value is smaller than the warning TDS value threshold, in order to determine whether the water quality is abnormal more accurately, before determining the water quality monitoring information of the water user equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method includes: determining a current average TDS value from the at least two TDS values. That is, by comparing the current average TDS value of the current monitoring time span with the historical average TDS value of the last monitoring time span, it is further determined whether the water quality of the water using apparatus is abnormal.

Specifically, if the difference between the first TDS value and the second TDS value is smaller than an alarm TDS value threshold, and the difference between the current average TDS value and the historical average TDS value is greater than or equal to the alarm TDS value threshold, it is determined that the water quality monitoring information of the water utilization equipment is water quality alarm information; if the difference value of the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value of the current average TDS value and the historical average TDS value is smaller than the alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is normal water quality information.

On the basis of the above embodiment, when acquiring at least two TDS values of the water consuming equipment in real time within the current monitoring time length, the method further includes: acquiring user water use information of the water using equipment within the current monitoring time span; further, after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method further includes: and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

The water use information of the user is the specific water use information corresponding to the water use equipment used by the user. The user water quality information is the current user water quality condition determined by combining the water quality within the monitoring time span and the user water use information.

Illustratively, when the water consumption equipment is water consumption equipment such as a water dispenser, a water purifier or a direct drinking machine which is only used for drinking water, the water consumption information of the user only reflects the water quality condition of the drinking water of the user, and the water quality information of the water consumption of the user is determined according to the water quality monitoring information and the water consumption information of the user, namely the water quality condition of the drinking water of the user within the monitoring time length.

When the water-using equipment is water-filtering equipment such as a pre-filter and the like arranged at a waterway pipeline of a place such as a home or an office, the water-using information of the user may reflect the water-using condition of the user under various water-using conditions such as washing, cooking, bathing and the like, and the water-using quality information of the water used by the user is determined according to the water quality monitoring information and the water-using information of the user, namely the water quality condition of the user under various water-using conditions such as washing, cooking, bathing and the like within the monitoring time span.

According to the technical scheme of the embodiment of the invention, at least two TDS values of the water utilization equipment are acquired in real time within the current monitoring time span, and a first TDS value and a second TDS value are determined according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value; acquiring at least two historical TDS values in the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values; and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment. The problem of current unable in time to the water quality monitoring of water equipment probably lead to user's water safety is solved to realize accurate monitoring to the quality of water equipment, effectively protect water safety.

Example two

Fig. 2 is a flowchart of a water quality monitoring method according to a second embodiment of the present invention, which is optimized based on the second embodiment.

Correspondingly, the method of the embodiment specifically includes:

s210, acquiring at least two TDS values of the water consumption equipment in real time in the current monitoring time length.

And S220, judging whether the at least two TDS values are sequentially arranged according to the TDS value values, if so, executing the step S231, and if not, executing the step S232.

S231, determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value.

S232, will two at least TDS values are arranged according to TDS value numerical value size in proper order to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the minimum as second TDS value.

S240, acquiring at least two historical TDS values in the last monitoring time length, and determining a historical average TDS value according to the at least two historical TDS values.

S250, determining water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water using equipment.

On the basis of the above embodiment, determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value includes: and if the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information. And if the difference value of the first TDS value and the second TDS value is smaller than the warning TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is normal water quality information.

Further, on the basis of the above embodiment, before determining the water quality monitoring information of the water users according to the first TDS value, the second TDS value and the historical average TDS value, the method includes: determining a current average TDS value from the at least two TDS values. Further, determining water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value includes: if the difference value of the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value of the current average TDS value and the historical average TDS value is larger than or equal to the alarm TDS value threshold value, the water quality monitoring information of the water utilization equipment is determined to be water quality alarm information.

On the basis of the above embodiment, when acquiring at least two TDS values of the water consuming equipment in real time within the current monitoring time length, the method further includes: acquiring user water use information of the water using equipment within the current monitoring time span; further, after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method further includes: and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

EXAMPLE III

Fig. 3 is a flow chart of a water quality monitoring method provided by the third embodiment of the invention. The technical scheme of the embodiment of the invention is further optimized on the basis of the embodiment. The method of the embodiment specifically includes:

s310, obtain at least two TDS values with water equipment in real time in current monitoring time length to according to first TDS value and second TDS value are confirmed to at least two TDS values, first TDS value is greater than the second TDS value.

On the basis of the above embodiments, determining the first TDS value and the second TDS value from the at least two TDS values comprises: will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the minimum as the second TDS value.

Further, confirm first TDS value and second TDS value according to two at least TDS values, including judging whether two at least TDS values arrange according to TDS value magnitude in proper order, if, then according to two at least TDS values confirm first TDS value and second TDS value.

S320, acquiring at least two historical TDS values in the last monitoring time length, and determining a historical average TDS value according to the at least two historical TDS values.

S330, judging whether the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, if so, executing a step S340, and if not, executing a step S350.

S340, determining that the water quality monitoring information of the water using equipment is water quality warning information, and sending the water quality warning information to a terminal bound with the water using equipment.

And S350, determining the current average TDS value according to the at least two TDS values.

And S360, judging whether the difference value between the current average TDS value and the historical average TDS value is larger than or equal to an alarm TDS value threshold value, if so, executing a step S340, and if not, executing a step S370.

And S370, determining that the water quality monitoring information of the water utilization equipment is water quality normal information, and sending the water quality normal information to a terminal bound with the water utilization equipment.

On the basis of the above embodiment, when acquiring at least two TDS values of the water consuming equipment in real time within the current monitoring time length, the method further includes: acquiring user water use information of the water using equipment within the current monitoring time span; further, after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method further includes: and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

Example four

Fig. 4 is a flow chart of a water quality monitoring method provided by the fourth embodiment of the invention. On the basis of the above embodiments, a preferred embodiment is provided. The water quality monitoring method comprises the following steps:

s410, at least two TDS values of the water using equipment are acquired in real time in the current monitoring time span, and user water using information of the water using equipment in the current monitoring time span is acquired.

S420, determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value.

On the basis of the above embodiments, determining the first TDS value and the second TDS value from the at least two TDS values comprises: will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the minimum as the second TDS value.

Further, determining a first TDS value and a second TDS value from the at least two TDS values includes: and judging whether the at least two TDS values are arranged in sequence according to the TDS value values, if so, determining a first TDS value and a second TDS value according to the at least two TDS values.

S430, acquiring at least two historical TDS values in the last monitoring time length, and determining a historical average TDS value according to the at least two historical TDS values.

S440, determining water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value.

On the basis of the above embodiment, determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value includes: and if the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information. And if the difference value of the first TDS value and the second TDS value is smaller than the warning TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is normal water quality information.

Further, before determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, the method comprises: determining a current average TDS value from the at least two TDS values.

On the basis, the water quality monitoring information of the water utilization equipment is determined according to the first TDS value, the second TDS value and the historical average TDS value, and the water quality monitoring information comprises the following steps: if the difference value of the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value of the current average TDS value and the historical average TDS value is larger than or equal to the alarm TDS value threshold value, the water quality monitoring information of the water utilization equipment is determined to be water quality alarm information.

S450, determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

And S460, sending the water quality monitoring information and the water quality information of the user to a terminal bound with the water using equipment.

EXAMPLE five

Fig. 5 is a structural diagram of a water quality monitoring apparatus according to a fifth embodiment of the present invention, which is applicable to real-time water quality monitoring of water consumption equipment and alarm of abnormal water quality.

As shown in fig. 5, the water quality monitoring apparatus includes: current TDS value determination module 510, historical TDS value determination module 520, and water quality monitoring information determination module 530, wherein:

a current TDS value determining module 510, configured to acquire at least two TDS values of a water consuming device in real time within a current monitoring time span, and determine a first TDS value and a second TDS value according to the at least two TDS values, where the first TDS value is greater than the second TDS value;

a historical TDS value determining module 520, configured to acquire at least two historical TDS values within a last monitoring time period, and determine a historical average TDS value according to the at least two historical TDS values;

a water quality monitoring information determining module 530, configured to determine the water quality monitoring information of the water consuming device according to the first TDS value, the second TDS value, and the historical average TDS value, and send the water quality monitoring information to a terminal bound to the water consuming device.

In the water quality monitoring device of the embodiment, at least two TDS values of the water utilization equipment are acquired in real time within the current monitoring time span, and a first TDS value and a second TDS value are determined according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value; acquiring at least two historical TDS values within the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values; and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment. The problem of current unable in time to the water quality monitoring of water equipment probably lead to user's water safety is solved to realize accurate monitoring to the quality of water equipment, effective protection water safety.

On the basis of the above embodiments, determining the first TDS value and the second TDS value from the at least two TDS values comprises:

will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the smallest as the second TDS value.

On the basis of the above embodiments, determining a first TDS value and a second TDS value from the at least two TDS values comprises:

and judging whether the at least two TDS values are arranged in sequence according to the TDS value values, if so, determining a first TDS value and a second TDS value according to the at least two TDS values.

On the basis of the above embodiments, determining the water quality monitoring information of the water utility according to the first TDS value, the second TDS value and the historical average TDS value includes:

and if the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information.

On the basis of the above embodiments, before determining the water quality monitoring information of the water users according to the first TDS value, the second TDS value and the historical average TDS value, the method includes:

determining a current average TDS value from the at least two TDS values.

On the basis of the above embodiments, determining the water quality monitoring information of the water utility according to the first TDS value, the second TDS value and the historical average TDS value includes:

and if the difference value between the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value between the current average TDS value and the historical average TDS value is larger than or equal to the alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information.

On the basis of the above embodiments, when acquiring at least two TDS values of the water consuming equipment in real time within the current monitoring time length, the method further includes:

acquiring the user water use information of the water use equipment within the current monitoring time length;

after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, further comprising:

and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

The water quality monitoring device provided by each embodiment can execute the water quality monitoring method provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of executing the water quality monitoring method.

Example six

Fig. 6 is a schematic structural diagram of a water consuming apparatus according to a sixth embodiment of the present invention, as shown in fig. 6, the water consuming apparatus includes a processor 610, a memory 620, an input device 630, and an output device 640; the number of the processors 610 in the water-using equipment can be one or more, and one processor 610 is taken as an example in fig. 6; the processor 610, the memory 620, the input device 630 and the output device 640 of the water-using device may be connected by a bus or other means, and fig. 6 illustrates the connection by a bus as an example.

The memory 620, as a computer-readable storage medium, may be used for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the water quality monitoring method in the embodiment of the present invention (for example, the current TDS value determination module 510, the historical TDS value determination module 520, and the water quality monitoring information determination module 530 in the water quality monitoring apparatus). The processor 610 executes various functional applications and data processing of the water utilization equipment by running software programs, instructions and modules stored in the memory 620, so as to realize the water quality monitoring method.

The memory 620 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like. Further, the memory 620 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the memory 620 may further include memory located remotely from the processor 610, which may be connected to the water-using device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 630 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function controls of the water-consuming equipment. The output device 640 may include a display device such as a display screen.

EXAMPLE seven

An embodiment of the present invention further provides a storage medium containing computer-executable instructions, where the computer-executable instructions are executed by a computer processor to perform a water quality monitoring method, and the water quality monitoring method includes:

acquiring at least two TDS values of a water consuming device in real time within a current monitoring time span, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value;

acquiring at least two historical TDS values within the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values;

and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment.

Of course, the storage medium provided by the embodiments of the present invention contains computer-executable instructions, and the computer-executable instructions are not limited to the operations of the method described above, and may also perform related operations in the water quality monitoring method provided by any embodiments of the present invention.

From the above description of the embodiments, it is obvious for those skilled in the art that the present invention can be implemented by software and necessary general hardware, and certainly, can also be implemented by hardware, but the former is a better embodiment in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which can be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a FLASH Memory (FLASH), a hard disk or an optical disk of a computer, and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device) to execute the methods according to the embodiments of the present invention.

It should be noted that, in the embodiment of the water quality monitoring device, each included unit and module is only divided according to functional logic, but is not limited to the above division, as long as the corresponding function can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A water quality monitoring method is characterized by comprising the following steps:

acquiring at least two TDS values of a water consuming device in real time within a current monitoring time span, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value;

acquiring at least two historical TDS values within the last monitoring time span, and determining a historical average TDS value according to the at least two historical TDS values;

and determining the water quality monitoring information of the water equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water equipment.

2. A water quality monitoring method according to claim 1 wherein determining a first TDS value and a second TDS value from the at least two TDS values comprises:

will two at least TDS values arrange in proper order according to TDS value numerical value size to confirm the TDS value that TDS value numerical value is the biggest as first TDS value, confirm the TDS value that TDS value numerical value is the minimum as the second TDS value.

3. A water quality monitoring method according to claim 1 wherein determining a first TDS value and a second TDS value from the at least two TDS values comprises:

and judging whether the at least two TDS values are arranged in sequence according to the TDS value values, if so, determining a first TDS value and a second TDS value according to the at least two TDS values.

4. The water quality monitoring method of claim 1 wherein determining water quality monitoring information for the water utility based on the first TDS value, the second TDS value, and the historical average TDS value comprises:

and if the difference value of the first TDS value and the second TDS value is larger than or equal to an alarm TDS value threshold value, determining that the water quality monitoring information of the water utilization equipment is water quality alarm information.

5. The water quality monitoring method of claim 1, prior to determining the water quality monitoring information for the water utility based on the first TDS value, the second TDS value, and the historical average TDS value, comprising:

determining a current average TDS value from the at least two TDS values.

6. The water quality monitoring method of claim 5 wherein determining water quality monitoring information for the water utility based on the first TDS value, the second TDS value, and the historical average TDS value comprises:

if the difference value of the first TDS value and the second TDS value is smaller than an alarm TDS value threshold value, and the difference value of the current average TDS value and the historical average TDS value is larger than or equal to the alarm TDS value threshold value, the water quality monitoring information of the water utilization equipment is determined to be water quality alarm information.

7. The water quality monitoring method according to claim 1, wherein when at least two TDS values of the water using equipment are acquired in real time within a current monitoring time period, the method further comprises:

acquiring the user water use information of the water use equipment within the current monitoring time length;

after determining the water quality monitoring information of the water using equipment according to the first TDS value, the second TDS value and the historical average TDS value, further comprising:

and determining the water quality information of the user water according to the water quality monitoring information and the user water use information.

8. A water quality monitoring device, comprising:

the current TDS value determining module is used for acquiring at least two TDS values of the water utilization equipment in real time within the current monitoring time length, and determining a first TDS value and a second TDS value according to the at least two TDS values, wherein the first TDS value is larger than the second TDS value;

the historical TDS value determining module is used for acquiring at least two historical TDS values in the last monitoring time length and determining a historical average TDS value according to the at least two historical TDS values;

and the water quality monitoring information determining module is used for determining the water quality monitoring information of the water utilization equipment according to the first TDS value, the second TDS value and the historical average TDS value, and sending the water quality monitoring information to a terminal bound with the water utilization equipment.

9. A water use apparatus, comprising:

one or more processors;

storage means for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement the water quality monitoring method of any one of claims 1-7.

10. A computer-readable storage medium on which a computer program is stored, which program, when executed by a processor, implements a water quality monitoring method as claimed in any one of claims 1 to 7.

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