CN111311062A - Life drinking water supply management system based on large number of households - Google Patents

Abstract

The invention discloses a domestic drinking water supply management system based on a large number of households, which is used for solving the problems that the existing drinking water supply enterprises cannot reasonably provide water pressure according to actual users, so that the water pressure is too high or too low, and resource waste or insufficient water pressure for users is caused; the system comprises a data acquisition module, a server, a water supply analysis module, a water use registration module, a water pressure management module, a supply regulation module, a registration login module and a user calculation module; the invention screens the total users, adds the optimal users to the water users to obtain the actual water users, and obtains the water pressure value of drinking water supply enterprises according to the number of the actual users, the distance difference, the daily average water consumption and the combined water use integral value of the actual water users, thereby reasonably providing water pressure for water supply.

Description

Life drinking water supply management system based on large number of households

Technical Field

The invention relates to the technical field of domestic drinking water supply management, in particular to a domestic drinking water supply management system based on a large number of households.

Background

The domestic drinking water is directly supplied to residents as drinking water and domestic water by a centralized water supply unit; the water supply system is also called as water supply equipment, is novel environment-friendly and energy-saving professional equipment specially developed and designed for solving the problem that the water cannot reach the height or flow of water for users due to insufficient pressure, and generally consists of a pressure pump, a variable frequency control cabinet, a water level sensor, a water pipe and a plurality of accessories; the prior rural area has the following defects in the aspect of drinking water supply: users in rural areas have more work, so that many users do not need to provide drinking water; therefore, drinking water enterprises can not reasonably provide water pressure according to actual users, and the water pressure is too high or too low, so that resource waste is caused or the water pressure used by the users is insufficient.

Disclosure of Invention

The invention aims to provide a domestic drinking water supply management system based on a large number of users, which is characterized in that the total users are screened, the optimal users are added with water users to obtain the actual water users, and the water users are combined according to the number of the actual users, the distance difference, the daily average water consumption and the combined water integral value; the water pressure value of the drinking water supply enterprise is obtained by using a formula, so that water pressure supply is reasonably provided, and the problems that the existing drinking water supply enterprise cannot reasonably provide water pressure according to actual users, the water pressure is too high or too low, resources are wasted, or the water pressure used by the users is insufficient are avoided; the supply adjusting module receives the peak adjusting instruction and adjusts the water supply, and the users are respectively supplied with water, so that the problem that the water supply of the users is insufficient in the peak water using period and the use is influenced is avoided;

the technical problem to be solved by the invention is as follows:

1. the problem that resources are wasted or water pressure used by users is insufficient due to overhigh or overlow water pressure because the existing drinking water supply enterprises cannot reasonably provide water pressure according to the actual users is solved;

the purpose of the invention can be realized by the following technical scheme: a drinking water supply management system based on a large number of households comprises a data acquisition module, a server, a water supply analysis module, a water use registration module, a water pressure management module, a supply regulation module, a registration login module and a user calculation module;

the data acquisition module is used for acquiring drinking water information of a user and sending the drinking water information to the server for storage, wherein the drinking water information comprises water meter reading, a water meter position and a user number corresponding to the water meter; the water supply analysis module is used for acquiring and analyzing drinking water information, and the specific analysis steps are as follows:

the method comprises the following steps: marking all users supplied by the drinking water supply enterprise as total users; acquiring a water user and a non-water user; screening the total users, and removing water users and non-water users from the total users to obtain primary users;

step two: analyzing the water meter reading of the primary user, acquiring the water meter reading of the primary user three days before the current time of the system, and marking the primary user as a non-water user when the water meter reading of the primary user is unchanged;

step three: removing the non-water users from the primary users to obtain preferred users; adding the water users to the preferred users and marking the users as selected users;

step four: setting the selected user as Ri, i is 1, … … and n; counting the number of the selected users to obtain the number of the users, and marking the number as M;

step five: calculating the position of the enterprise supplied with the drinking water and the position of the selected user to obtain the selected distance difference and recording the distance difference as G_Ri(ii) a Comparing the distance differences of the selected users, selecting the distance difference with the maximum selected distance difference and marking the distance difference as GMAX_Ri；

Step six: acquiring the water meter readings of the selected user in the three days before the current time of the system, and calculating; obtaining water consumption for three days, then taking the average value to obtain the daily average water consumption of the selected user, and recording as W_Ri；

Step seven: marking the date of the second day of the current time of the system as T; setting a water use integral value corresponding to each month and marking the water use integral value as Yk, k is 1, … … and 12; and Y12 ═ Y1 ═ Y10 ═ Y5 ═ Y2; y3 ═ Y4 ═ Y6 ═ Y7 ═ Y8 ═ Y9 ═ Y11; y2> Y3;

step eight: acquiring a corresponding water use integral value through the date of the second day of the current time of the system, and marking the value as TYk;

step nine: using formulas

Obtaining a water pressure value SY of a drinking water supply enterprise, wherein d1, d2, d3 and d4 are all preset proportionality coefficients; lambda is expressed as an error correction factor, the value of lambda is 2.3965, and mu is a preset water pressure value coefficient;

step ten: when the water pressure value is smaller than or equal to the set threshold value, the water supply analysis module sends the water pressure value to the water pressure management module; when the water pressure value is larger than a set threshold value, the water supply analysis module generates a peak regulation instruction and sends the peak regulation instruction to the supply regulation module;

the water pressure management module is used for adjusting the water supply pressure of the drinking water supply enterprise to be the same as the water pressure value sent by the water supply analysis module.

Preferably, the registration login module is used for submitting user information registration through a mobile phone terminal by a user and sending the user information which is successfully registered to the server for storage; the user information comprises a name, an identity card number, a mobile phone number and a living address; the water use registration module is used for inputting water use date, non-water use date and corresponding days by a user through a mobile phone terminal; marking users who input water using dates as water using users; the user who inputs the non-water use date is marked as a non-water use user; at the same time, the water consumption sending times of the user are increased once or the non-water consumption sending times are increased once; and the water use registration module sends the water use user and the non-water use user and the corresponding water use date and non-water use date to the server for storage.

Preferably, the user calculation module is configured to calculate a water supply value of the user, and the specific calculation steps are as follows:

the method comprises the following steps: setting users as Fj, j being 1, … … and n; setting the number of times of sending water of a user as G_Fj(ii) a Setting the number of times of sending the non-water consumption as H_Fj；

Step two: counting the days corresponding to the non-water-use date sent by the user and summing the days to obtain the total non-water-use days of the user, and marking the total non-water-use days as T_Fj；

Step three: using the formula GS_Fj＝G_Fi*b1+H_Fj*b2+T_FjB3 obtaining water supply value GS of user_Fj(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

step four: and the user calculation module sends the calculated water supply value to the server for storage.

Preferably, the supply regulation module receives a peak regulation instruction and performs feedwater regulation, and the specific regulation steps are as follows:

the method comprises the following steps: acquiring a water supply value of a selected user, sorting according to the water supply value from large to small, dividing from the middle of sorting, and marking the user from the middle to the top of the sorting value as an upper water supply user; the rest users are marked as water supply users;

step two: the supply adjusting module sends a notice of water supply and water cut-off in the afternoon to the mobile phone terminal of the upward water supply user in the next morning of the current time of the system; sending a water supply notice to the mobile phone terminal of the water supply user in the afternoon when the system stops water in the morning on the next day of the current time;

step three: when a water supply user stops water in the afternoon when receiving the water supply notice of the next morning of the current time of the system, the water supply user sends a replacement instruction after the afternoon water supply notice, the supply adjusting module marks the water supply user as a replacement user and screens the replacement user for the water supply user, and the specific screening step is as follows:

s1: drawing a circle by using the position of the replacement user as the center of the circle and a preset radius to form a screening range, acquiring all upper water supply users with the positions in the screening range, marking the upper water supply users as primary selection target users, and expressing the users by conforming to SGm, wherein m belongs to i;

s2: obtaining the primary selection distance difference through the position of the primary selection target user and the position of the replacement user, and marking the primary selection distance difference as K_SGm；

S3: counting the replacement times of the primary selection target user and the replacement user, and marking as U_SGm(ii) a Setting the total exchange times of the primary selection target users as V_SGm；

S4: using formulas

Obtaining a replacement coincidence value GH of the primary selection target user_SGm(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients;

s5: sorting the primary selection target users from large to small by changing the coincidence value, and screening out a preset number of primary selection target users from front to back according to the sorting and marking the primary selection target users as sending target users;

s6: the supply adjusting module sends the name, the position and the exchange instruction of the user to the mobile phone terminal of the sending target user;

s7: when the sending target user sends a confirmation transformation instruction to the supply adjusting module through the mobile phone terminal; the supply adjusting module marks the sending target user as a selected target user after receiving the confirmation conversion instruction of the first time, and sends a conversion success instruction and a water supply notice in the afternoon to the selected target on the second morning of the current time of the system; sending a replacement failure instruction to other sending target users; meanwhile, the replacement times of the selected target user and the replacement user are increased once, and the total exchange times of the selected target user is increased once;

step four: the supply adjusting module marks the selected target user as a lower water supply user and marks the replacement user as an upper water supply user; meanwhile, the water supply value of the replacement user is reduced by a preset integral value; adding a preset integral value to the water supply value of the selected target user;

step five: the supply adjusting module is used for controlling the water supply user to stop supplying water in the morning of the second day of the current time of the system and supplying water to the water supply user; meanwhile, the water supply value of the upper water supply user is reduced by a preset integral value; and controlling the water supply users to stop water in the afternoon next to the current time of the system and to supply water in the afternoon.

Compared with the prior art, the invention has the beneficial effects that:

1. the water supply analysis module acquires and analyzes drinking water information, and marks all users supplied by drinking water supply enterprises as total users; acquiring a water user and a non-water user; screening the total users, and removing water users and non-water users from the total users to obtain primary users; analyzing the water meter reading of the primary user, acquiring the water meter reading of the primary user three days before the current time of the system, and marking the primary user as a non-water user when the water meter reading of the primary user is unchanged; removing the non-water users from the primary users to obtain preferred users; adding water users to the preferred users, marking the users as selected users, obtaining the water pressure value of the drinking water supply enterprise by using a formula, and sending the water pressure value to a water pressure management module by a water supply analysis module when the water pressure value is less than or equal to a set threshold value; the water pressure management module adjusts the water supply pressure of the drinking water supply enterprise to be the same as the water pressure value sent by the water supply analysis module; screening total users, adding the preferred users to the water users to obtain actual water users, and according to the number of the actual water users, the distance difference, the daily average water consumption and the combined water integral value; the water pressure value of the drinking water supply enterprise is obtained by using a formula, so that water pressure supply is reasonably provided, and the problems that the existing drinking water supply enterprise cannot reasonably provide water pressure according to actual users, the water pressure is too high or too low, resources are wasted, or the water pressure used by the users is insufficient are avoided;

2. the supply adjusting module receives the peak adjusting instruction and adjusts the water supply, obtains the water supply value of the selected user, sorts the water supply value according to the descending of the water supply value, divides the water supply value from the middle of the sorting, and marks the user from the middle to the top of the sorting value as the upper water supply user; the rest users are marked as water supply users; the supply adjusting module sends a notice of water supply and water cut-off in the afternoon to the mobile phone terminal of the upward water supply user in the next morning of the current time of the system; sending a water supply notice to the mobile phone terminal of the water supply user in the afternoon when the system stops water in the morning on the next day of the current time; when a water supply user stops water in the afternoon when receiving the water supply notice of the next morning of the current time of the system, sending a replacement instruction after the afternoon water supply notice, marking the water supply user as a replacement user by a supply adjusting module, screening the replacement user for an upper water supply user, controlling the water supply user to stop water in the afternoon of the current time of the system by the supply adjusting module, and supplying water to the upper water supply user; controlling the upper water supply users to stop water and the lower water supply users to supply water in the afternoon of the next day of the current time of the system; by respectively supplying water to users, the problem that the water supply of the users is insufficient in a water consumption peak period to influence the use is avoided.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of a drinking water supply management system based on the number of households according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a drinking water supply management system based on a large number of users includes a data acquisition module, a server, a water supply analysis module, a water use registration module, a water pressure management module, a supply adjustment module, a registration login module, and a user calculation module;

the data acquisition module is used for acquiring drinking water information of a user and sending the drinking water information to the server for storage, wherein the drinking water information comprises water meter reading, a water meter position and a user number corresponding to the water meter; the water supply analysis module is used for acquiring and analyzing drinking water information, and the specific analysis steps are as follows:

the method comprises the following steps: marking all users supplied by the drinking water supply enterprise as total users; acquiring a water user and a non-water user; screening the total users, and removing water users and non-water users from the total users to obtain primary users;

step two: analyzing the water meter reading of the primary user, acquiring the water meter reading of the primary user three days before the current time of the system, and marking the primary user as a non-water user when the water meter reading of the primary user is unchanged;

step three: removing the non-water users from the primary users to obtain preferred users; adding the water users to the preferred users and marking the users as selected users;

step four: setting the selected user as Ri, i is 1, … … and n; counting the number of the selected users to obtain the number of the users, and marking the number as M;

step five: calculating the position of the enterprise supplied with the drinking water and the position of the selected user to obtain the selected distance difference and recording the distance difference as G_Ri(ii) a Comparing the distance differences of the selected users, selecting the distance difference with the maximum selected distance difference and marking the distance difference as GMAX_Ri；

Step six: acquiring the water meter readings of the selected user in the three days before the current time of the system, and calculating; obtaining water consumption for three days, then taking the average value to obtain the daily average water consumption of the selected user, and recording as W_Ri；

Step seven: marking the date of the second day of the current time of the system as T; setting a water use integral value corresponding to each month and marking the water use integral value as Yk, k is 1, … … and 12; and Y12 ═ Y1 ═ Y10 ═ Y5 ═ Y2; y3 ═ Y4 ═ Y6 ═ Y7 ═ Y8 ═ Y9 ═ Y11; y2> Y3;

step eight: acquiring a corresponding water use integral value through the date of the second day of the current time of the system, and marking the value as TYk;

step nine: using formulas

Obtaining a water pressure value SY of a drinking water supply enterprise, wherein d1, d2, d3 and d4 are all preset proportionality coefficients; lambda is expressed as an error correction factor, the value of lambda is 2.3965, and mu is a preset water pressure value coefficient; the water pressure value is larger when the daily average water consumption of the user is larger, and the water pressure required to be provided for the user by the drinking water supply enterprise is larger; the more the number of the users is, the larger the water pressure value is;

step ten: when the water pressure value is smaller than or equal to the set threshold value, the water supply analysis module sends the water pressure value to the water pressure management module; when the water pressure value is larger than a set threshold value, the water supply analysis module generates a peak regulation instruction and sends the peak regulation instruction to the supply regulation module;

the water pressure management module is used for adjusting the water supply pressure of the drinking water supply enterprise to be the same as the water pressure value sent by the water supply analysis module.

The registration login module is used for submitting user information registration through a mobile phone terminal by a user and sending the user information which is successfully registered to the server for storage; the user information comprises a name, an identity card number, a mobile phone number and a living address; the water consumption registration module is used for inputting water consumption date, non-water consumption date and corresponding days by a user through a mobile phone terminal; marking users who input water using dates as water using users; the user who inputs the non-water use date is marked as a non-water use user; at the same time, the water consumption sending times of the user are increased once or the non-water consumption sending times are increased once; and the water use registration module sends the water use user and the non-water use user and the corresponding water use date and non-water use date to the server for storage.

The user calculation module is used for calculating the water supply value of the user, and comprises the following specific calculation steps:

the method comprises the following steps: setting users as Fj, j being 1, … … and n; setting the number of times of sending water of a user as G_Fj(ii) a Setting the number of times of sending the non-water consumption as H_Fj；

Step two: counting the days corresponding to the non-water-use date sent by the user and summing the days to obtain the total non-water-use days of the user, and marking the total non-water-use days as T_Fj；

Step three: using the formula GS_Fj＝G_Fi*b1+H_Fj*b2+T_FjB3 obtaining water supply value GS of user_Fj(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

step four: and the user calculation module sends the calculated water supply value to the server for storage.

The supply adjusting module receives the peak adjusting instruction and adjusts the water supply, and the specific adjusting steps are as follows:

the method comprises the following steps: acquiring a water supply value of a selected user, sorting according to the water supply value from large to small, dividing from the middle of sorting, and marking the user from the middle to the top of the sorting value as an upper water supply user; the rest users are marked as water supply users;

step two: the supply adjusting module sends a notice of water supply and water cut-off in the afternoon to the mobile phone terminal of the upward water supply user in the next morning of the current time of the system; sending a water supply notice to the mobile phone terminal of the water supply user in the afternoon when the system stops water in the morning on the next day of the current time;

step three: when a water supply user stops water in the afternoon when receiving the water supply notice of the next morning of the current time of the system, the water supply user sends a replacement instruction after the afternoon water supply notice, the supply adjusting module marks the water supply user as a replacement user and screens the replacement user for the water supply user, and the specific screening step is as follows:

s1: drawing a circle by using the position of the replacement user as the center of the circle and a preset radius to form a screening range, acquiring all upper water supply users with the positions in the screening range, marking the upper water supply users as primary selection target users, and expressing the users by conforming to SGm, wherein m belongs to i;

s2: obtaining the primary selection distance difference through the position of the primary selection target user and the position of the replacement user, and marking the primary selection distance difference as K_SGm；

S3: counting the replacement times of the primary selection target user and the replacement user, and marking as U_SGm(ii) a Setting the total exchange times of the primary selection target users as V_SGm；

S4: using formulas

Obtaining a replacement coincidence value GH of the primary selection target user_SGm(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients;

s5: sorting the primary selection target users from large to small by changing the coincidence value, and screening out a preset number of primary selection target users from front to back according to the sorting and marking the primary selection target users as sending target users;

s6: the supply adjusting module sends the name, the position and the exchange instruction of the user to the mobile phone terminal of the sending target user;

s7: when the sending target user sends a confirmation transformation instruction to the supply adjusting module through the mobile phone terminal; the supply adjusting module marks the sending target user as a selected target user after receiving the confirmation conversion instruction of the first time, and sends a conversion success instruction and a water supply notice in the afternoon to the selected target on the second morning of the current time of the system; sending a replacement failure instruction to other sending target users; meanwhile, the replacement times of the selected target user and the replacement user are increased once, and the total exchange times of the selected target user is increased once;

step four: the supply adjusting module marks the selected target user as a lower water supply user and marks the replacement user as an upper water supply user; meanwhile, the water supply value of the replacement user is reduced by a preset integral value; adding a preset integral value to the water supply value of the selected target user;

step five: the supply adjusting module is used for controlling the water supply user to stop supplying water in the morning of the second day of the current time of the system and supplying water to the water supply user; meanwhile, the water supply value of the upper water supply user is reduced by a preset integral value; controlling the upper water supply users to stop water and the lower water supply users to supply water in the afternoon of the next day of the current time of the system; through the replacement among users, the users can conveniently use water during the peak water using period;

the working principle of the invention is as follows: the water supply analysis module is used for acquiring and analyzing drinking water information and marking all users supplied by drinking water supply enterprises as total users; acquiring a water user and a non-water user; screening the total users, and removing water users and non-water users from the total users to obtain primary users; analyzing the water meter reading of the primary user, acquiring the water meter reading of the primary user three days before the current time of the system, and marking the primary user as a non-water user when the water meter reading of the primary user is unchanged; removing the non-water users from the primary users to obtain preferred users; adding the water users to the preferred users and marking the users as selected users; counting the number of the selected users to obtain the number of the users, calculating the positions of the enterprises and the selected users through the drinking water supply, obtaining the selected distance difference, obtaining the water meter readings of the selected users three days before the current time of the system, and calculating; obtaining water consumption of three days, then obtaining average daily water consumption of selected users, obtaining corresponding water consumption integral value through the next day of the current time of the system, and utilizing a formula

Obtaining a water pressure value of the drinking water supply enterprise, and when the water pressure value is smaller than or equal to a set threshold value, sending the water pressure value to a water pressure management module by a water supply analysis module; when the water pressure value is larger than a set threshold value, the water supply analysis module generates a peak regulation instruction and sends the peak regulation instruction to the supply regulation module; the water pressure management module is used for adjusting the water supply pressure of the drinking water supply enterprise to be the same as the water pressure value sent by the water supply analysis module; screening total users, adding the preferred users to the water users to obtain actual water users, and according to the number of the actual water users, the distance difference, the daily average water consumption and the combined water integral value; the water pressure value of the drinking water supply enterprise is obtained by using a formula, so that water pressure supply is reasonably provided, and the problems that the existing drinking water supply enterprise cannot reasonably provide water pressure according to actual users, the water pressure is too high or too low, resources are wasted, or the water pressure used by the users is insufficient are avoided; the supply adjusting module receives the peak adjusting instruction and adjusts the water supply to obtain the water supply value of the selected user, sorts the water supply value from large to small, divides the water supply value from the middle of the sorting, and marks the user from the middle to the front of the sorting value as an upper water supply user; the rest users are marked as water supply users; the supply adjusting module sends a notice of water supply and water cut-off in the afternoon to the mobile phone terminal of the upward water supply user in the next morning of the current time of the system; sending a water supply notice to the mobile phone terminal of the water supply user in the afternoon when the system stops water in the morning on the next day of the current time; when a water supply user stops water in the afternoon when receiving the water supply notice of the next morning of the current time of the system, sending a replacement instruction after the afternoon water supply notice, marking the water supply user as a replacement user by a supply adjusting module, screening the replacement user for an upper water supply user, controlling the water supply user to stop water in the afternoon of the current time of the system by the supply adjusting module, and supplying water to the upper water supply user; controlling the upper water supply users to stop water and the lower water supply users to supply water in the afternoon of the next day of the current time of the system; by respectively supplying water to users, the problem that the water supply of the users is insufficient in a water consumption peak period to influence the use is avoided.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. A drinking water supply management system based on a large number of households is characterized by comprising a data acquisition module, a server, a water supply analysis module, a water use registration module, a water pressure management module, a supply regulation module, a registration login module and a user calculation module;

the data acquisition module is used for acquiring drinking water information of a user and sending the drinking water information to the server for storage, wherein the drinking water information comprises water meter reading, a water meter position and a user number corresponding to the water meter; the water supply analysis module is used for acquiring and analyzing drinking water information, and the specific analysis steps are as follows:

the method comprises the following steps: marking all users supplied by the drinking water supply enterprise as total users; acquiring a water user and a non-water user; screening the total users, and removing water users and non-water users from the total users to obtain primary users;

step two: analyzing the water meter reading of the primary user, acquiring the water meter reading of the primary user three days before the current time of the system, and marking the primary user as a non-water user when the water meter reading of the primary user is unchanged;

step three: removing the non-water users from the primary users to obtain preferred users; adding the water users to the preferred users and marking the users as selected users;

step four: setting the selected user as Ri, i is 1, … … and n; counting the number of the selected users to obtain the number of the users, and marking the number as M;

step five: calculating the position of the enterprise supplied with drinking water and the position of the selected user to obtain and record the selected distance differenceIs G_Ri(ii) a Comparing the distance differences of the selected users, selecting the distance difference with the maximum selected distance difference and marking the distance difference as GMAX_Ri；

Step six: acquiring the water meter readings of the selected user in the first three days of the current time of the system, calculating to obtain the water consumption of the selected user in the three days, and then taking the average value to obtain the daily average water consumption of the selected user, and recording the daily average water consumption as W_Ri；

Step seven: marking the date of the second day of the current time of the system as T; setting a water use integral value corresponding to each month and marking the water use integral value as Yk, k is 1, … … and 12; and Y12 ═ Y1 ═ Y10 ═ Y5 ═ Y2; y3 ═ Y4 ═ Y6 ═ Y7 ═ Y8 ═ Y9 ═ Y11; y2> Y3;

step eight: acquiring a corresponding water use integral value through the date of the second day of the current time of the system, and marking the value as TYk;

step nine: using formulas

Obtaining a water pressure value SY of a drinking water supply enterprise, wherein d1, d2, d3 and d4 are all preset proportionality coefficients; lambda is expressed as an error correction factor, the value of lambda is 2.3965, and mu is a preset water pressure value coefficient;

step ten: when the water pressure value is smaller than or equal to the set threshold value, the water supply analysis module sends the water pressure value to the water pressure management module; when the water pressure value is larger than a set threshold value, the water supply analysis module generates a peak regulation instruction and sends the peak regulation instruction to the supply regulation module;

the water pressure management module is used for adjusting the water supply pressure of the drinking water supply enterprise to be the same as the water pressure value sent by the water supply analysis module.

2. The drinking water supply management system based on the number of the large households according to claim 1, wherein the registration login module is used for a user to submit user information through a mobile phone terminal for registration and send the user information of successful registration to the server for storage; the user information comprises a name, an identity card number, a mobile phone number and a living address; the water use registration module is used for inputting water use date, non-water use date and corresponding days by a user through a mobile phone terminal; marking users who input water using dates as water using users; the user who inputs the non-water use date is marked as a non-water use user; at the same time, the water consumption sending times of the user are increased once or the non-water consumption sending times are increased once; and the water use registration module sends the water use user and the non-water use user and the corresponding water use date and non-water use date to the server for storage.

3. The drinking water supply management system based on the number of the large households according to claim 1, wherein the user calculating module is used for calculating the water supply value of the user, and the specific calculating steps are as follows:

the method comprises the following steps: setting users as Fj, j being 1, … … and n; setting the number of times of sending water of a user as G_Fj(ii) a Setting the number of times of sending the non-water consumption as H_Fj；

Step two: counting the days corresponding to the non-water-use date sent by the user and summing the days to obtain the total non-water-use days of the user, and marking the total non-water-use days as T_Fj；

Step three: using the formula GS_Fj＝G_Fi*b1+H_Fj*b2+T_FjB3 obtaining water supply value GS of user_Fj(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

step four: and the user calculation module sends the calculated water supply value to the server for storage.

4. The drinking water supply management system according to claim 1, wherein the supply regulation module receives a peak regulation command and performs water supply regulation, and the regulation comprises the following steps:

the method comprises the following steps: acquiring a water supply value of a selected user, sorting according to the water supply value from large to small, dividing from the middle of sorting, and marking the user from the middle to the top of the sorting value as an upper water supply user; the rest users are marked as water supply users;

step two: the supply adjusting module sends a notice of water supply and water cut-off in the afternoon to the mobile phone terminal of the upward water supply user in the next morning of the current time of the system; sending a water supply notice to the mobile phone terminal of the water supply user in the afternoon when the system stops water in the morning on the next day of the current time;

step three: when a water supply user stops water in the afternoon when receiving the water supply notice of the next morning of the current time of the system, the water supply user sends a replacement instruction after the afternoon water supply notice, the supply adjusting module marks the water supply user as a replacement user and screens the replacement user for the water supply user, and the specific screening step is as follows:

s1: drawing a circle by using the position of the replacement user as the center of the circle and a preset radius to form a screening range, acquiring all upper water supply users with the positions in the screening range, marking the upper water supply users as primary selection target users, and expressing the users by conforming to SGm, wherein m belongs to i;

s2: obtaining the primary selection distance difference through the position of the primary selection target user and the position of the replacement user, and marking the primary selection distance difference as K_SGm；

S3: counting the replacement times of the primary selection target user and the replacement user, and marking as U_SGm(ii) a Setting the total exchange times of the primary selection target users as V_SGm；

S4: using formulas

Obtaining a replacement coincidence value GH of the primary selection target user_SGm(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients;

s5: sorting the primary selection target users from large to small by changing the coincidence value, and screening out a preset number of primary selection target users from front to back according to the sorting and marking the primary selection target users as sending target users;

s6: the supply adjusting module sends the name, the position and the exchange instruction of the user to the mobile phone terminal of the sending target user;

s7: when the sending target user sends a confirmation transformation instruction to the supply adjusting module through the mobile phone terminal; the supply adjusting module marks the sending target user as a selected target user after receiving the confirmation conversion instruction of the first time, and sends a conversion success instruction and a water supply notice in the afternoon to the selected target on the second morning of the current time of the system; sending a replacement failure instruction to other sending target users; meanwhile, the replacement times of the selected target user and the replacement user are increased once, and the total exchange times of the selected target user is increased once;

step four: the supply adjusting module marks the selected target user as a lower water supply user and marks the replacement user as an upper water supply user; meanwhile, the water supply value of the replacement user is reduced by a preset integral value; adding a preset integral value to the water supply value of the selected target user;

step five: the supply adjusting module is used for controlling the water supply user to stop supplying water in the morning of the second day of the current time of the system and supplying water to the water supply user; meanwhile, the water supply value of the upper water supply user is reduced by a preset integral value; and controlling the water supply users to stop water in the afternoon next to the current time of the system and to supply water in the afternoon.

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