CN111968010B - Control method and system of pressurized water supply equipment and storage medium - Google Patents

Abstract

The application relates to a management and control method, system and storage medium of pressurization water supply equipment, has solved secondary pressurization water supply equipment and whether someone needs the water to be in the open mode always in the use, and be in the open mode when unmanned use and can cause the influence to the life of equipment, and can cause the problem of the waste of the energy, and it includes: acquiring historical water consumption conditions of all unit numbers of a current floor; constructing an on-off time table for forming the pressurized water supply equipment based on the historical water use conditions of all unit numbers of the current floor; analyzing and determining the actual application time of the pressurized water supply equipment based on the constructed start-stop time table, the application instruction of the pressurized water supply equipment temporarily and additionally applied by the user and the regular maintenance time of the pressurized water supply equipment, and controlling the start-stop of the pressurized water supply equipment according to the actual application time. This application has still avoided the waste that the pressurization water supply equipment is in to open and causes the energy when unmanned the use when guaranteeing the normal water consumption of floor resident family.

Description

Control method and system of pressurized water supply equipment and storage medium

Technical Field

The present disclosure relates to the field of water supply equipment, and in particular, to a method and a system for managing and controlling a pressurized water supply equipment, and a storage medium.

Background

The secondary pressurized water supply equipment is also called secondary pressurized water supply equipment, and is realized by a new generation of intelligent water supply equipment through bidirectional multivariable automatic steady flow balance of the flow and pressure of the inlet water of tap water and the flow and pressure of the used water.

The secondary pressurized water supply equipment directly utilizes the pressure of the tap water pipe network in a pressure-superposed water supply mode, thereby being sanitary, energy-saving and small in comprehensive investment. After installation and debugging, water in a tap water pipe network firstly enters the steady flow compensator, and air in the tank is automatically discharged through the vacuum suppressor. When a pressure sensor arranged at the outlet of the equipment detects that the pressure of a tap water pipe network meets the water supply requirement, the system directly supplies the water without a pressure pump; when the pressure of the tap water pipe network can not meet the water supply requirement, detecting the pressure difference and compensating the pressure difference by a pressure pump; when the water quantity of the tap water pipe network is insufficient, air enters the flow stabilizing compensator from the vacuum suppressor to destroy the vacuum in the tank, so that the water in the flow stabilizing compensator can be automatically extracted for supply, and no negative pressure is generated in the pipe network.

The prior patent with the application number of CN200420066448.5 and the name of a flow stabilizing device in a secondary pressurized water supply system can effectively absorb or eliminate the impact of a water hammer, ensure the safety of the whole secondary pressurized water supply system and play roles of buffering, stabilizing pressure and stabilizing flow. The existing secondary pressurized water supply equipment is arranged in a pipe well of each floor to give consideration to water supply and pressurization so as to better guarantee the normal water demand of residents on the floors.

The above prior art solutions have the following drawbacks: the secondary pressurized water supply equipment is always in an open state regardless of whether people need to use water or not in the using process, and the open state when no people need to supply water can influence the service life of the equipment, can cause energy waste and has an improved space.

Disclosure of Invention

In order to ensure the normal water use of the floor residents and simultaneously avoid the waste of energy caused by the fact that the pressurizing water supply equipment is started when the pressurizing water supply equipment is not used by people, the application provides a control method and a control system of the pressurizing water supply equipment and a storage medium.

In a first aspect, the present application provides a method for managing and controlling a pressurized water supply device, which adopts the following technical scheme:

The above application purpose of the present application is achieved by the following technical solutions:

a method for managing and controlling a pressurized water supply device comprises the following steps:

acquiring historical water consumption conditions of all unit numbers of a current floor;

constructing an on-off time table for forming the pressurized water supply equipment based on the historical water use conditions of all unit numbers of the current floor;

and analyzing and determining the actual application time of the pressurized water supply equipment based on the constructed start-stop time table, the obtained application instruction of the user for temporarily and additionally applying the pressurized water supply equipment and the regular maintenance time of the pressurized water supply equipment, and controlling the start and stop of the pressurized water supply equipment according to the actual application time.

By adopting the technical scheme, the practical application time of the fixed-pressure water supply equipment can be analyzed and determined based on the historical water consumption condition of all the unit numbers of the floors, the extra requirements of part of the unit numbers of the floors and the regular maintenance time of the pressure water supply equipment, so that the normal water consumption of the floor residents is better ensured, the phenomenon that the pressure water supply equipment is opened for too long time when the pressure water supply equipment is not used by people is avoided, on one hand, the energy waste is caused, and on the other hand, the service life of the pressure water supply equipment is also shortened.

Preferably, the step of obtaining the historical water consumption of all unit numbers of the current floor is as follows:

inquiring the historical water using time and the historical water using amount of each unit number of the corresponding floor from a preset first database in which the floors and the historical water using time and the historical water using amount of residents on the corresponding floors are stored;

constructing a water consumption condition scatter diagram of each unit number, which takes the time period as an abscissa and the water consumption in the corresponding time period as an ordinate, based on the water consumption time and the historical water consumption of each unit number of the corresponding floor on different dates;

and performing superposition processing on the scatter diagram scatter points based on the water consumption condition of each unit number to form a water consumption condition scatter diagram of all the unit numbers of the current floor.

By adopting the technical scheme, the historical water consumption time and the historical water consumption of each unit number of the corresponding floor can be effectively obtained, and information integration treatment is carried out, so that a water consumption situation scatter diagram of all the unit numbers of the current floor is formed, and the opening and closing time table is conveniently and accurately constructed.

Preferably, the construction steps of the on-off time schedule of the pressurized water supply equipment are as follows:

acquiring a water consumption scatter diagram of all unit numbers of a current floor;

and screening out a time period in which the scatter points exist from the water use situation scatter diagram of all unit numbers of the current floor as the working time of the pressurized water supply equipment, and taking the rest time period as the closing time of the pressurized water supply equipment.

By adopting the technical scheme, how to form the on-off time table of the control pressurized water supply equipment based on the water use condition scatter diagram is effectively confirmed, so that the pressurized water supply equipment is conveniently controlled to be more effectively opened and closed.

Preferably, the step of obtaining the application command for the user to temporarily additionally apply the pressurized water supply equipment comprises the following steps:

the mobile phone number of each floor unit number responsible person is found out from a preset second database in which the floor unit numbers and the mobile phone numbers of responsible persons corresponding to the floor unit numbers are stored;

sending the on-off time table of the pressurized water supply equipment on the day, confirmation information of whether the application time of the pressurized water supply equipment outside the on-off time table is increased or not, and the predicted time period for additionally applying the pressurized water supply equipment, which is selected by the corresponding unit number responsible person, to the mobile phone of each unit number responsible person on the corresponding floor in a short message mode;

and acquiring encrypted confirmation information of whether the application time of the pressurized water supply equipment outside the on-off time table is increased or not by a person in charge of the floor unit number, and decrypting the encrypted confirmation information to acquire an application instruction of temporarily and additionally applying the pressurized water supply equipment by a user.

By adopting the technical scheme, the step of acquiring the application instruction of the pressurized water supply equipment temporarily and additionally applied by the user is effectively disclosed, wherein the interaction between the system and the floor unit number responsible person is increased, and the floor unit number responsible person can make more convenient adjustment for additional use of the pressurized water supply equipment based on the requirement.

Preferably, the steps of predicting the time period for which the corresponding unit number principal will choose to additionally apply the pressurized water supply equipment are as follows:

searching the application time of the corresponding floor unit number responsible person historical increase pressurized water supply equipment outside the opening and closing time table from a preset third database in which the application time of the floor unit number responsible person historical increase pressurized water supply equipment outside the opening and closing time table is stored;

and increasing a plurality of application time periods of the pressurized water supply equipment outside the on-off time table based on the history of the corresponding floor unit number responsible person, selecting the time period which is positioned in the middle of the plurality of adjacent application time periods and does not belong to the working time period of the pressurized water supply equipment listed in the on-off time table and the regular maintenance time period of the pressurized water supply equipment, and taking the time period as the predicted time period for additionally applying the pressurized water supply equipment, which is selected by the corresponding unit number responsible person.

By adopting the technical scheme, the prediction of the time period of the additional application pressurized water supply equipment selected by the corresponding unit number responsible person is used, so that the unit number responsible person can better find the time required by the time period when the specific time period needs to be selected, and the trouble of manual selection is reduced.

Preferably, the step of decrypting the encrypted confirmation information to obtain the application instruction of the user for temporarily additionally applying the pressurized water supply equipment comprises the steps of:

acquiring a short message sent by a floor unit number responsible person;

taking the sum of the last four digits of the mobile phone number of the floor unit number responsible person as a first cipher group and the unit number of the floor unit number responsible person as a second cipher group, if the tail number of the mobile phone number of the floor unit number responsible person is larger than that of the unit number of the floor unit number responsible person, the first cipher group is positioned before the second cipher group, otherwise, the first cipher group is positioned after the second cipher group;

taking the application time period of the additional application pressurized water supply equipment selected by the user as a password group III, and if the mantissa of the current date is a multiple of 2, taking the password group III between the password group I and the password group II as correct encryption information; if the mantissa of the current date is a multiple of 3, the third password group is positioned behind the first password group and the second password group and is used as correct encryption information; if the mantissa of the current day is neither a multiple of 2 nor a multiple of 3, the cipher group three is positioned before the cipher group one and the cipher group two to be used as correct encryption information;

and comparing the data and the positions of the first password group and the second password group in the encrypted confirmation information with the data and the positions of the first password group and the second password group in the correct encrypted information, and if the comparison is consistent, acquiring the application time of the pressurized water supply equipment outside the opening and closing time table, wherein the pressurized water supply equipment is set by a person in charge of the floor unit number in the third password group.

By adopting the technical scheme, the step of decrypting the encrypted confirmation information to obtain the application instruction of the user for temporarily and additionally applying the pressurized water supply equipment is disclosed, on one hand, the phenomenon that the starting time of the pressurized water supply equipment is additionally increased by a non-unit number responsible person through a cell phone of the unit number responsible person so as to cause the additionally invalid starting of the pressurized water supply equipment is avoided, and on the other hand, the effective adjustment of the additionally starting time of the pressurized water supply equipment by the unit number responsible person is also facilitated.

Preferably, the analytical determination of the actual application time of the pressurized water supply installation is as follows:

searching the regular maintenance time of the pressurized water supply equipment of a specific floor from a preset fourth database in which the regular maintenance time of the pressurized water supply equipment of the floor and the corresponding floor are stored;

and removing the regular maintenance time of the corresponding pressurized water supply equipment from the time period for starting the pressurized water supply equipment to work and the time period for temporarily and additionally applying the pressurized water supply equipment by a user from the on-off time table of the pressurized water supply equipment as the actual application time of the pressurized water supply equipment.

By adopting the technical scheme, the starting time of the pressurized water supply equipment is more accurately formed based on the consideration of the working time of the pressurized water supply equipment started from the starting and closing time table of the pressurized water supply equipment, the time period for the user to temporarily and additionally apply the pressurized water supply equipment and the regular maintenance time of the pressurized water supply equipment, and the energy waste caused by the meaningless starting of the pressurized water supply equipment is reduced while the real requirements of the users of the unit users are met.

In a second aspect, the present application provides a management and control system for a pressurized water supply device, which adopts the following technical scheme:

a direct drinking water supply system comprising a storage, a processor and a program stored on the storage and executable on the processor, the program being capable of being loaded and executed by the processor to implement the direct drinking water supply method as claimed in any one of the preceding claims.

By adopting the technical scheme, the practical application time of the fixed-pressure water supply equipment can be analyzed and determined based on the historical water consumption condition of all the unit numbers of the floors, the extra requirements of part of the unit numbers of the floors and the regular maintenance time of the pressure water supply equipment, so that the normal water consumption of the floor residents is better ensured, the phenomenon that the pressure water supply equipment is opened for too long time when the pressure water supply equipment is not used by people is avoided, on one hand, the energy waste is caused, and on the other hand, the service life of the pressure water supply equipment is also shortened.

In a third aspect, the present application provides a computer storage medium, which adopts the following technical solutions:

a computer storage medium comprising a program that is capable of being loaded into execution by a processor to implement the drink-through water supply method according to any one of the preceding claims.

By adopting the technical scheme, the program is called, the practical application time of the fixed-pressure water supply equipment can be analyzed and determined based on the historical water consumption conditions of all the unit numbers of the floors, the extra requirements of part of the unit numbers of the floors and the regular maintenance time of the pressure water supply equipment, so that the normal water consumption of the floor residents is better ensured, the pressure water supply equipment is prevented from being opened for too long time when the pressure water supply equipment is not used by people, on one hand, the energy waste is caused, and on the other hand, the service life of the pressure water supply equipment is also shortened.

To sum up, the beneficial technical effect of this application does: the practical application time of the fixed-pressure water supply equipment can be analyzed and determined based on the historical water consumption condition of all the unit numbers of the floor, the extra requirements of the unit numbers of the floor part and the regular maintenance time of the pressure water supply equipment, so that the normal water consumption of the floor resident is better ensured, the pressure water supply equipment is prevented from being started for too long time when the pressure water supply equipment is not used by people, on one hand, the energy waste is caused, and on the other hand, the service life of the pressure water supply equipment is also shortened.

Drawings

FIG. 1 is a schematic view illustrating the overall steps of the present method for managing a pressurized water supply system.

Fig. 2 is a detailed step diagram of step S100 in fig. 1.

Fig. 3 is a detailed step diagram of step S200 in fig. 1.

Fig. 4 is a schematic diagram of the step of acquiring the application instruction of the pressurized water supply equipment temporarily additionally applied by the user mentioned in step S300 in fig. 1.

FIG. 5 is a schematic diagram of the steps for predicting the time period for which additional pressurized water supplies may be applied as selected by the corresponding element number principal as referenced in step S3B0 of FIG. 4.

FIG. 6 is a schematic diagram illustrating the steps of decrypting the encrypted confirmation message to obtain the application instructions for the user to temporarily additionally apply the pressurized water supply equipment as mentioned in step S3C0 of FIG. 4.

Fig. 7 is a schematic diagram of the analyzing and determining step of the actual application time of the pressurized water supply equipment mentioned in step S300 in fig. 1.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

Referring to fig. 1, a method for managing and controlling a pressurized water supply equipment disclosed in the present application includes steps S100 to S300.

In step S100, the historical water usage of all the unit numbers of the current floor is acquired.

The step S100 can be divided into steps S11O to S130, referring to fig. 2.

In step S11O, the historical water usage time and the historical water usage amount for each unit number of the corresponding floor are searched from a preset first database in which the historical water usage time and the historical water usage amount of the floor and the resident on the corresponding floor are stored.

In step S120, a water usage scattergram for each unit number is constructed based on the water usage time of each unit number on different dates and the historical water usage for the corresponding floor, with the time period as the abscissa and the water usage for the corresponding time period as the ordinate.

For example, the time period mentioned in step S120 may be a time period in the form of an integer of half an hour, 1 hour, 2 hours, etc., and the unit of water consumption in the corresponding time period is liter.

In step S130, a water use situation scatter diagram for all the unit numbers of the current floor is formed by performing an overlay process based on the scatter diagram scatter points for the water use situation for each unit number.

In step S200, an on-off schedule forming the pressurized water supply equipment is constructed based on the historical water usage of all the unit numbers of the current floor.

The step S200 can be divided into steps S210 to S220, referring to fig. 3.

In step S210, a water usage situation scatter diagram for all unit numbers of the current floor is obtained.

In step S220, from the water use situation scatter diagram of all the unit numbers of the current floor, a time period in which the scatter exists is screened out as the operating time of the pressurized water supply equipment, and the remaining time period is screened out as the closing time of the pressurized water supply equipment.

For example, if there is no water unit number from 1 to 3 am and no water unit number from 1 to 3 pm, then 1 to 3 am and 1 to 3 pm are the off time of the pressurized water supply equipment, and the rest is the operating time of the pressurized water supply equipment.

In step S300, based on the constructed on-off schedule, the obtained application instruction of the user to temporarily apply the pressurized water supply equipment additionally, and the regular maintenance time of the pressurized water supply equipment, the actual application time of the pressurized water supply equipment is analyzed and determined, and the pressurized water supply equipment is controlled to be on or off according to the actual application time.

The step of acquiring the application command for the user to temporarily additionally apply the pressurized water supply equipment in step S300 can be divided into step S3a0 to step S3C0, referring to fig. 4.

In step S3a0, the mobile phone number of the person in charge of each floor unit number is found from a preset second database in which the floor unit number and the mobile phone number of the person in charge of the corresponding floor unit number are stored.

In step S3B0, the on-off schedule of the pressurized water supply equipment on the same day, the confirmation information of whether to increase the application time of the pressurized water supply equipment outside the on-off schedule, and the predicted time period for applying the pressurized water supply equipment additionally selected by the corresponding unit number principal are sent to the mobile phone of each unit number principal on the corresponding floor in the form of short messages.

Wherein, the step S3B0 is realized by sending the information in the form of short message to the mobile phone of each unit number responsible person of the corresponding floor through a short message prompter.

The step of predicting the time period for additionally applying the pressurized water supply equipment, which is selected by the corresponding cell number person in charge in the step S3B0, may be divided into steps S3Ba to S3Bb, referring to fig. 5.

In step S3Ba, the application time of the corresponding floor unit number responsible person historically-increased pressurized water supply equipment outside the on-off schedule is found from a preset third database in which the application time of the floor unit number responsible person historically-increased pressurized water supply equipment outside the on-off schedule is stored.

In step S3Bb, a plurality of application time periods of the pressurized water supply equipment outside the on-off time table are added based on the history of the corresponding floor unit number person in charge, and a time period which is located in the middle of the plurality of adjacent application time periods and does not belong to the time period of the pressurized water supply equipment operation listed in the on-off time table and the time period of the regular maintenance time of the pressurized water supply equipment is selected as the predicted time period of the additional application of the pressurized water supply equipment that the corresponding floor unit number person in charge will select.

For example, if there is no unit number water usage from 1 to 3 am, no unit number water usage from 1 to 3 pm, and the periodic maintenance time is 2 pm, the predicted time period provided to the unit number responsible person is 2 am.

In step S3C0, encrypted confirmation information of whether to increase the application time of the pressurized water supply equipment outside the on-off schedule is obtained by the floor unit number person in charge, and the encrypted confirmation information is decrypted to obtain an application instruction for temporarily additionally applying the pressurized water supply equipment by the user.

The step of decrypting the encrypted confirmation information to obtain the application instruction for temporarily additionally applying the pressurized water supply equipment by the user, which is mentioned in the step S3C0, may be divided into a step S3CA to a step S3CC, referring to fig. 6.

In step S3CA, the short message sent by the person in charge of the floor unit number is obtained.

In step S3CB, the sum of the last four digits of the mobile phone number of the floor unit number responsible person is used as a first cipher group, and the unit number of the floor unit number responsible person is used as a second cipher group, if the end number of the mobile phone number of the floor unit number responsible person is greater than the end number of the unit number of the floor unit number responsible person, the first cipher group is located before the second cipher group, otherwise, the first cipher group is located after the second cipher group;

taking the application time period of the additional application pressurized water supply equipment selected by the user as a password group III, and if the mantissa of the current date is a multiple of 2, taking the password group III between the password group I and the password group II as correct encryption information; if the mantissa of the current date is a multiple of 3, the third password group is positioned behind the first password group and the second password group and is used as correct encryption information; if the mantissa of the current day is neither a multiple of 2 nor a multiple of 3, then cipher suite three is located before cipher suite one and cipher suite two as the correct encryption information.

In step S3CC, the data and positions of the first password group and the second password group in the encrypted confirmation information are compared with the data and positions of the first password group and the second password group in the correct encryption information, and if the comparison is consistent, the application time of the pressurized water supply equipment outside the on-off schedule set by the person in charge of the floor unit number in the third password group is acquired.

For example, the last four digits of the mobile phone number of the floor unit number responsible person are 0392, then the sum of the last four digits of the mobile phone number of the floor unit number responsible person is 14, and the unit number of the floor unit number responsible person is 7, because the sum of the last four digits of the mobile phone number of the floor unit number responsible person is greater than the unit number of the floor unit number responsible person, the first password group is located before the second password group, the last number of the current date is 12, the password group is 02, because the 12 number is a multiple of 2, the third password group is located between the first password group and the second password group as correct encryption information, and the application time outside the on-off time table is 2 am.

The analyzing and determining step of the actual application time of the pressurized water supply equipment mentioned in the step S300 may be divided into the steps S3a0 to S3b0, referring to fig. 7.

In step S3a0, the regular maintenance time of the pressurized water supply equipment for a specific floor is searched from a preset fourth database in which the regular maintenance times of the pressurized water supply equipment for the floor and the corresponding floor are stored.

In step S3b0, the regular maintenance time of the corresponding pressurized water supply equipment is removed from the time period for starting the pressurized water supply equipment to operate in the on-off schedule of the pressurized water supply equipment and the time period for temporarily and additionally applying the pressurized water supply equipment by the user as the actual application time of the pressurized water supply equipment.

The embodiment of the application provides a computer readable storage medium, which comprises a program capable of being loaded and executed by a processor to implement the method as any one of fig. 1-7.

The computer-readable storage medium includes, for example: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, an optical disk, or other various media capable of storing program codes.

Based on the same application concept, the embodiment of the application provides a management and control system of a pressurized water supply device, which comprises a memory and a processor, wherein the memory stores a program which can run on the processor to implement any one of the methods shown in fig. 1 to 7.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a module or a unit may be divided into only one logical function, and may be implemented in other ways, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a separate product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: u disk, removable hard disk, read only memory, random access memory, magnetic or optical disk, etc. for storing program codes.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A method for managing and controlling a pressurized water supply facility is characterized by comprising the following steps:

Acquiring historical water consumption conditions of all unit numbers of a current floor;

constructing an on-off time table for forming the pressurized water supply equipment based on the historical water use conditions of all unit numbers of the current floor;

analyzing and determining the actual application time of the pressurized water supply equipment based on the constructed start-stop time table, the obtained application instruction of the user for temporarily and additionally applying the pressurized water supply equipment and the regular maintenance time of the pressurized water supply equipment, and controlling the start-stop of the pressurized water supply equipment according to the actual application time;

the steps of obtaining the application instruction of the user for temporarily additionally applying the pressurized water supply equipment are as follows:

searching the mobile phone number of each floor unit number responsible person from a preset second database in which the floor unit numbers and the mobile phone numbers of the responsible persons corresponding to the floor unit numbers are stored;

sending the on-off time table of the pressurized water supply equipment on the day, confirmation information of whether the application time of the pressurized water supply equipment outside the on-off time table is increased or not, and the predicted time period for additionally applying the pressurized water supply equipment, which is selected by the corresponding unit number responsible person, to the mobile phone of each unit number responsible person on the corresponding floor in a short message mode;

acquiring encrypted confirmation information of whether the application time of the pressurized water supply equipment outside the on-off time table is increased or not by a floor unit number responsible person, and decrypting the encrypted confirmation information to acquire an application instruction of a user for temporarily additionally applying the pressurized water supply equipment;

The steps for predicting the time period for which the corresponding unit number principal will choose to additionally apply pressurized water supply equipment are as follows:

searching the application time of the corresponding floor unit number responsible person historical increase pressurized water supply equipment outside the opening and closing time table from a preset third database in which the application time of the floor unit number responsible person historical increase pressurized water supply equipment outside the opening and closing time table is stored;

and increasing a plurality of application time periods of the pressurized water supply equipment outside the on-off time table based on the history of the corresponding floor unit number responsible person, selecting the time period which is positioned in the middle of the plurality of adjacent application time periods and does not belong to the working time period of the pressurized water supply equipment listed in the on-off time table and the regular maintenance time period of the pressurized water supply equipment, and taking the time period as the predicted time period for additionally applying the pressurized water supply equipment, which is selected by the corresponding unit number responsible person.

2. The method for managing a pressurized water supply installation according to claim 1, characterized in that: the acquisition steps of the historical water consumption conditions of all unit numbers of the current floor are as follows:

inquiring the historical water using time and the historical water using amount of each unit number of the corresponding floor from a preset first database in which the floors and the historical water using time and the historical water using amount of residents on the corresponding floors are stored;

Constructing a water consumption condition scatter diagram of each unit number, which takes the time period as an abscissa and the water consumption in the corresponding time period as an ordinate, based on the water consumption time and the historical water consumption of each unit number of the corresponding floor on different dates;

and performing superposition processing on the scatter diagram scatter points of the water use condition of each unit number to form a water use condition scatter diagram of all the unit numbers of the current floor.

3. The method for managing and controlling the pressurized water supply equipment according to claim 2, wherein the construction steps of the on-off time table of the pressurized water supply equipment are as follows:

acquiring a water consumption situation scatter diagram of all unit numbers of the current floor;

and screening out a time period in which the scatter points exist from the water use situation scatter diagram of all unit numbers of the current floor as the working time of the pressurized water supply equipment, and taking the rest time period as the closing time of the pressurized water supply equipment.

4. The method for managing and controlling a pressurized water supply facility according to claim 1, characterized in that: the step of decrypting the encrypted confirmation information to obtain the application instruction of the user for temporarily additionally applying the pressurized water supply equipment comprises the following steps:

acquiring a short message sent by a person in charge of the floor unit number;

taking the sum of the last four digits of the mobile phone number of the floor unit number responsible person as a first cipher group and the unit number of the floor unit number responsible person as a second cipher group, if the tail number of the mobile phone number of the floor unit number responsible person is larger than that of the unit number of the floor unit number responsible person, the first cipher group is positioned before the second cipher group, otherwise, the first cipher group is positioned after the second cipher group;

Taking the application time period of the additional application pressurized water supply equipment selected by the user as a password group III, and if the mantissa of the current date is a multiple of 2, taking the password group III between the password group I and the password group II as correct encryption information; if the mantissa of the current date is a multiple of 3, the third password group is positioned behind the first password group and the second password group and is used as correct encryption information; if the mantissa of the current day is neither a multiple of 2 nor a multiple of 3, the cipher group three is positioned before the cipher group one and the cipher group two to be used as correct encryption information;

and comparing the data and the positions of the first password group and the second password group in the encrypted confirmation information with the data and the positions of the first password group and the second password group in the correct encrypted information, and if the comparison is consistent, acquiring the application time of the pressurized water supply equipment outside the opening and closing time table, wherein the pressurized water supply equipment is set by a person in charge of the floor unit number in the third password group.

5. The method for managing and controlling a pressurized water supply facility according to claim 1, characterized in that: the analyzing and determining steps of the practical application time of the pressurized water supply equipment are as follows:

searching the regular maintenance time of the pressurized water supply equipment of a specific floor from a preset fourth database in which the regular maintenance time of the pressurized water supply equipment of the floor and the corresponding floor are stored;

And removing the regular maintenance time of the corresponding pressurized water supply equipment from the time period for starting the pressurized water supply equipment to work and the time period for temporarily and additionally applying the pressurized water supply equipment by a user from the on-off time table of the pressurized water supply equipment as the actual application time of the pressurized water supply equipment.

6. The utility model provides a management and control system of pressurization water supply equipment which characterized in that: comprising a memory, a processor and a program stored on said memory and executable on said processor, which program, when loaded and executed by the processor, is adapted to implement the method of managing a pressurized water installation according to any one of claims 1 to 5.

7. A computer storage medium, characterized in that: program comprising instructions that can be loaded and executed by a processor to implement a method of regulating a pressurized water installation according to any one of claims 1 to 5.

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